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// Copyright 2020 The CCGO Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ccgo // import "modernc.org/ccgo/v3/lib"
import (
"bytes"
"fmt"
"go/scanner"
"go/token"
"hash/maphash"
"io/ioutil"
"math"
"math/big"
"os"
"os/exec"
"path/filepath"
"runtime"
"sort"
"strconv"
"strings"
"sync"
"time"
"modernc.org/cc/v3"
"modernc.org/mathutil"
)
var (
idAddOverflow = cc . String ( "__builtin_add_overflow" ) // bool __builtin_add_overflow (type1 a, type2 b, type3 *res)
idAlias = cc . String ( "alias" )
idAligned = cc . String ( "aligned" ) // int __attribute__ ((aligned (8))) foo;
idAtomicLoadN = cc . String ( "__atomic_load_n" ) // type __atomic_load_n (type *ptr, int memorder)
idAtomicStoreN = cc . String ( "__atomic_store_n" ) // void __atomic_store_n (type *ptr, type val, int memorder)
idBp = cc . String ( "bp" )
idBuiltinConstantPImpl = cc . String ( "__builtin_constant_p_impl" )
idCAPI = cc . String ( "CAPI" )
idChooseExpr = cc . String ( "__builtin_choose_expr" )
idEnviron = cc . String ( "environ" )
idMain = cc . String ( "main" )
idMulOverflow = cc . String ( "__builtin_mul_overflow" ) // bool __builtin_mul_overflow (type1 a, type2 b, type3 *res)
idPacked = cc . String ( "packed" ) // __attribute__((packed))
idSubOverflow = cc . String ( "__builtin_sub_overflow" ) // bool __builtin_sub_overflow (type1 a, type2 b, type3 *res)
idTls = cc . String ( "tls" )
idTransparentUnion = cc . String ( "__transparent_union__" )
idTs = cc . String ( "ts" )
idVa = cc . String ( "va" )
idVaArg = cc . String ( "__ccgo_va_arg" )
idVaEnd = cc . String ( "__ccgo_va_end" )
idVaList = cc . String ( "va_list" )
idVaStart = cc . String ( "__ccgo_va_start" )
idWcharT = cc . String ( "wchar_t" )
idWinWchar = cc . String ( "WCHAR" )
idWtext = cc . String ( "wtext" )
bytesBufferPool = sync . Pool { New : func ( ) interface { } { return & bytes . Buffer { } } }
oTraceG bool
oTraceW bool
oTracePin bool
)
type exprMode int
const (
doNotExport = iota
doNotChange
exportCapitalize
exportPrefix
)
const (
_ exprMode = iota
exprAddrOf // &foo as uinptr (must be static/pinned)
exprBool // foo in foo != 0
exprCondInit // foo or bar in int i = x ? foo : bar;
exprCondReturn // foo or bar in return x ? foo : bar;
exprDecay // &foo[0] in foo for array foo.
exprFunc // foo in foo(bar)
exprLValue // foo in foo = bar
exprPSelect // foo in foo->bar
exprSelect // foo in foo.bar
exprValue // foo in bar = foo
exprVoid //
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exprGoPtr
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)
const (
tooManyErrors = "too many errors"
)
type opKind int
const (
opNormal opKind = iota
opArray
opArrayParameter
opFunction
opUnion
opBitfield
opStruct
)
type flags byte
const (
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fForceConv flags = 1 << iota
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fForceNoConv
fForceRuntimeConv
fNoCondAssignment
fAddrOfFuncPtrOk
)
type imported struct {
path string // Eg. "example.com/user/foo".
name string // Eg. "foo" from "package foo".
qualifier string // Eg. "foo." or "foo2." if renamed due to name conflict.
exports map [ string ] struct { } // Eg. {"New": {}, "Close": {}, ...}.
used bool
}
type taggedStruct struct {
ctyp cc . Type
gotyp string
name string
node cc . Node
conflicts bool
emitted bool
}
func ( s * taggedStruct ) emit ( p * project , ds * cc . DeclarationSpecifiers ) {
if s == nil || s . emitted {
return
}
s . emitted = true
p . w ( "%stype %s = %s; /* %v */\n\n" , tidyComment ( "\n" , ds ) , s . name , s . gotyp , p . pos ( s . node ) )
}
// Return first non empty token separator within n or dflt otherwise.
func comment ( dflt string , n cc . Node ) string {
if s := tokenSeparator ( n ) ; s != "" {
return s
}
return dflt
}
// tidyComment is like comment but makes comment more Go-like.
func tidyComment ( dflt string , n cc . Node ) ( r string ) { return tidyCommentString ( comment ( dflt , n ) ) }
func tidyCommentString ( s string ) ( r string ) {
defer func ( ) {
if ! strings . Contains ( r , "// <blockquote><pre>" ) {
return
}
a := strings . Split ( r , "\n" )
in := false
for i , v := range a {
switch {
case in :
if strings . HasPrefix ( v , "// </pre></blockquote>" ) {
in = false
a [ i ] = "//"
break
}
a [ i ] = fmt . Sprintf ( "//\t%s" , v [ 3 : ] )
default :
if strings . HasPrefix ( v , "// <blockquote><pre>" ) {
a [ i ] = "//"
in = true
}
}
}
r = strings . Join ( a , "\n" )
} ( )
s = strings . ReplaceAll ( s , "\f" , "" )
b := bytesBufferPool . Get ( ) . ( * bytes . Buffer )
defer func ( ) { b . Reset ( ) ; bytesBufferPool . Put ( b ) } ( )
for len ( s ) != 0 {
c := s [ 0 ]
s = s [ 1 : ]
if len ( s ) == 0 {
b . WriteByte ( c )
break
}
if c != '/' {
b . WriteByte ( c )
continue
}
c2 := s [ 0 ]
s = s [ 1 : ]
switch c2 {
case '/' : // line comment start
b . WriteByte ( c )
b . WriteByte ( c2 )
for {
c := s [ 0 ]
s = s [ 1 : ]
b . WriteByte ( c )
if c == '\n' {
break
}
}
case '*' : // block comment start
b2 := bytesBufferPool . Get ( ) . ( * bytes . Buffer )
defer func ( ) { b2 . Reset ( ) ; bytesBufferPool . Put ( b2 ) } ( )
for {
c := s [ 0 ]
s = s [ 1 : ]
if c != '*' {
b2 . WriteByte ( c )
continue
}
more :
c2 := s [ 0 ]
s = s [ 1 : ]
if c2 == '*' {
b2 . WriteByte ( c )
goto more
}
if c2 != '/' {
b2 . WriteByte ( c )
b2 . WriteByte ( c2 )
continue
}
break
}
s2 := b2 . String ( ) // comment sans /* prefix and */ suffix
a := strings . Split ( s2 , "\n" )
nl := len ( s ) != 0 && s [ 0 ] == '\n'
if len ( a ) == 1 { // /* foo */ form
if nl {
s = s [ 1 : ]
fmt . Fprintf ( b , "//%s\n" , s2 )
break
}
fmt . Fprintf ( b , "/*%s*/" , s2 )
break
}
if ! nl {
fmt . Fprintf ( b , "/*%s*/" , s2 )
break
}
// Block comment followed by a newline can be safely replaced by a sequence of
// line comments. Try to enhance the comment.
if commentForm1 ( b , a ) ||
commentForm2 ( b , a ) ||
commentForm3 ( b , a ) {
break
}
// No enhancement posibilities detected, use the default form.
if a [ len ( a ) - 1 ] == "" {
a = a [ : len ( a ) - 1 ]
}
fmt . Fprintf ( b , "//%s" , a [ 0 ] )
for _ , v := range a [ 1 : ] {
fmt . Fprintf ( b , "\n// %s" , v )
}
default :
b . WriteByte ( c )
b . WriteByte ( c2 )
}
}
return b . String ( )
}
func commentForm1 ( b * bytes . Buffer , a [ ] string ) bool {
// Example
//
// /*
// ** Initialize this module.
// **
// ** This Tcl module contains only a single new Tcl command named "sqlite".
// ** (Hence there is no namespace. There is no point in using a namespace
// ** if the extension only supplies one new name!) The "sqlite" command is
// ** used to open a new SQLite database. See the DbMain() routine above
// ** for additional information.
// **
// ** The EXTERN macros are required by TCL in order to work on windows.
// */
if strings . TrimSpace ( a [ 0 ] ) != "" {
return false
}
if strings . TrimSpace ( a [ len ( a ) - 1 ] ) != "" {
return false
}
a = a [ 1 : len ( a ) - 1 ]
if len ( a ) == 0 {
return false
}
for i , v := range a {
v = strings . TrimSpace ( v )
if ! strings . HasPrefix ( v , "*" ) {
return false
}
a [ i ] = strings . TrimLeft ( v , "*" )
}
fmt . Fprintf ( b , "//%s" , a [ 0 ] )
for _ , v := range a [ 1 : ] {
fmt . Fprintf ( b , "\n//%s" , v )
}
return true
}
func commentForm2 ( b * bytes . Buffer , a [ ] string ) bool {
// Example
//
// /**************************** sqlite3_column_ *******************************
// ** The following routines are used to access elements of the current row
// ** in the result set.
// */
if strings . TrimSpace ( a [ len ( a ) - 1 ] ) != "" {
return false
}
a = a [ : len ( a ) - 1 ]
if len ( a ) == 0 {
return false
}
for i , v := range a [ 1 : ] {
v = strings . TrimSpace ( v )
if ! strings . HasPrefix ( v , "*" ) {
return false
}
a [ i + 1 ] = strings . TrimLeft ( v , "*" )
}
fmt . Fprintf ( b , "// %s" , strings . TrimSpace ( a [ 0 ] ) )
if strings . HasPrefix ( a [ 0 ] , "**" ) && strings . HasSuffix ( a [ 0 ] , "**" ) {
fmt . Fprintf ( b , "\n//" )
}
for _ , v := range a [ 1 : ] {
fmt . Fprintf ( b , "\n//%s" , v )
}
return true
}
func commentForm3 ( b * bytes . Buffer , a [ ] string ) bool {
// Example
//
// /* Call sqlite3_shutdown() once before doing anything else. This is to
// ** test that sqlite3_shutdown() can be safely called by a process before
// ** sqlite3_initialize() is. */
for i , v := range a [ 1 : ] {
v = strings . TrimSpace ( v )
if ! strings . HasPrefix ( v , "*" ) {
return false
}
a [ i + 1 ] = strings . TrimLeft ( v , "*" )
}
fmt . Fprintf ( b , "// %s" , strings . TrimSpace ( a [ 0 ] ) )
if strings . HasPrefix ( a [ 0 ] , "**" ) && strings . HasSuffix ( a [ 0 ] , "**" ) {
fmt . Fprintf ( b , "\n//" )
}
for _ , v := range a [ 1 : ] {
fmt . Fprintf ( b , "\n//%s" , v )
}
return true
}
// Return the preceding white space, including any comments, of the first token
// of n.
func tokenSeparator ( n cc . Node ) ( r string ) {
if n == nil {
return ""
}
var tok cc . Token
cc . Inspect ( n , func ( n cc . Node , _ bool ) bool {
if x , ok := n . ( * cc . Token ) ; ok {
if a , b := tok . Seq ( ) , x . Seq ( ) ; a == 0 || a > x . Seq ( ) && b != 0 {
tok = * x
}
}
return true
} )
return tok . Sep . String ( )
}
func source ( n ... cc . Node ) ( r string ) {
if len ( n ) == 0 {
return "<nil>"
}
var a [ ] * cc . Token
for _ , v := range n {
cc . Inspect ( v , func ( n cc . Node , _ bool ) bool {
if x , ok := n . ( * cc . Token ) ; ok && x . Seq ( ) != 0 {
a = append ( a , x )
}
return true
} )
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . Seq ( ) < a [ j ] . Seq ( )
} )
w := 0
seq := - 1
for _ , v := range a {
if n := v . Seq ( ) ; n != seq {
seq = n
a [ w ] = v
w ++
}
}
a = a [ : w ]
var b strings . Builder
for _ , v := range a {
b . WriteString ( v . Sep . String ( ) )
b . WriteString ( v . Src . String ( ) )
}
return b . String ( )
}
type initPatch struct {
t cc . Type
init * cc . Initializer
fld cc . Field
}
type tld struct {
name string // Can differ from the original one.
patches [ ] initPatch
}
type block struct {
block * cc . CompoundStatement
decls [ ] * cc . Declaration // What to declare in this block.
params [ ] * cc . Parameter
parent * block
scope scope
noDecl bool // Locals declared in one of the parent scopes.
topDecl bool // Declare locals at block start to avoid "jumps over declaration".
}
func newBlock ( parent * block , n * cc . CompoundStatement , decls [ ] * cc . Declaration , params [ ] * cc . Parameter , scope scope , topDecl bool ) * block {
return & block {
block : n ,
decls : decls ,
params : params ,
parent : parent ,
scope : scope ,
topDecl : topDecl ,
}
}
type local struct {
name string
off uintptr // If isPinned: bp+off
forceRead bool // Possibly never read.
isPinned bool // Prevent this local from being placed in Go movable stack.
}
type switchState int
const (
_ switchState = iota // Not in switch.
inSwitchFirst // Before seeing "case/default".
inSwitchCase // Seen "case/default".
inSwitchSeenBreak // In switch "case/default" and seen "break/return".
inSwitchFlat
)
type function struct {
block * block
blocks map [ * cc . CompoundStatement ] * block
bpName string
breakCtx int //TODO merge with continueCtx
complits map [ * cc . PostfixExpression ] uintptr
condInitPrefix func ( )
continueCtx int
flatLabels int
flatSwitchLabels map [ * cc . LabeledStatement ] int
fndef * cc . FunctionDefinition
gen * project
ifCtx cc . Node
ignore map [ * cc . Declarator ] bool // Pseudo declarators
labelNames map [ cc . StringID ] string
labels scope
locals map [ * cc . Declarator ] * local
off uintptr // bp+off allocs
params [ ] * cc . Parameter // May differ from what fndef says
project * project
rt cc . Type // May differ from what fndef says
scope scope
switchCtx switchState
tlsName string
top * block
unusedLabels map [ cc . StringID ] struct { }
vaLists map [ * cc . PostfixExpression ] uintptr
vaName string
vaType cc . Type
vlas map [ * cc . Declarator ] struct { }
hasJumps bool
mainSignatureForced bool
}
func newFunction ( p * project , n * cc . FunctionDefinition ) * function {
d := n . Declarator
t := d . Type ( )
rt := t . Result ( )
params := t . Parameters ( )
var mainSignatureForced bool
var ignore map [ * cc . Declarator ] bool
if d . Name ( ) == idMain && d . Linkage == cc . External {
if rt . Kind ( ) != cc . Int {
rt = p . task . cfg . ABI . Type ( cc . Int )
}
if len ( params ) != 2 {
mainSignatureForced = true
d1 := newDeclarator ( "argc" )
t1 := p . task . cfg . ABI . Type ( cc . Int )
d2 := newDeclarator ( "argv" )
t2 := p . task . cfg . ABI . Ptr ( n , p . task . cfg . ABI . Type ( cc . Void ) )
params = [ ] * cc . Parameter {
cc . NewParameter ( d1 , t1 ) ,
cc . NewParameter ( d2 , t2 ) ,
}
ignore = map [ * cc . Declarator ] bool { d1 : true , d2 : true }
}
}
f := & function {
blocks : map [ * cc . CompoundStatement ] * block { } ,
complits : map [ * cc . PostfixExpression ] uintptr { } ,
fndef : n ,
gen : p ,
hasJumps : n . CompoundStatement . IsJumpTarget ( ) ,
ignore : ignore ,
locals : map [ * cc . Declarator ] * local { } ,
mainSignatureForced : mainSignatureForced ,
params : params ,
project : p ,
rt : rt ,
scope : p . newScope ( ) ,
unusedLabels : map [ cc . StringID ] struct { } { } ,
vaLists : map [ * cc . PostfixExpression ] uintptr { } ,
vlas : map [ * cc . Declarator ] struct { } { } ,
}
f . tlsName = f . scope . take ( idTls )
if t . IsVariadic ( ) {
f . vaName = f . scope . take ( idVa )
}
f . layoutLocals ( nil , n . CompoundStatement , params )
var extern [ ] cc . StringID
for _ , v := range n . CompoundStatements ( ) { // testdata/gcc-9.1.0/gcc/testsuite/gcc.c-torture/execute/scope-1.c
for _ , v := range v . Declarations ( ) {
for list := v . InitDeclaratorList ; list != nil ; list = list . InitDeclaratorList {
if d := list . InitDeclarator . Declarator ; d != nil && d . IsExtern ( ) {
extern = append ( extern , d . Name ( ) )
}
}
}
}
for _ , v := range n . CompoundStatements ( ) {
block := f . blocks [ v ]
for _ , v := range extern {
if tld := f . project . externs [ v ] ; tld != nil {
block . scope . take ( cc . String ( tld . name ) )
}
}
}
for _ , v := range n . CompoundStatements ( ) {
f . layoutBlocks ( v )
}
f . renameLabels ( )
f . staticAllocsAndPinned ( n . CompoundStatement )
return f
}
func ( f * function ) flatLabel ( ) int {
if f . project . pass1 {
return 1
}
f . flatLabels ++
return f . flatLabels
}
func ( f * function ) renameLabels ( ) {
var a [ ] cc . StringID
for _ , v := range f . fndef . Labels {
if v . Case != cc . LabeledStatementLabel {
continue
}
a = append ( a , v . Token . Value )
f . unusedLabels [ v . Token . Value ] = struct { } { }
}
for _ , v := range f . fndef . Gotos {
delete ( f . unusedLabels , v . Token2 . Value )
}
if len ( a ) == 0 {
return
}
sort . Slice ( a , func ( i , j int ) bool { return a [ i ] . String ( ) < a [ j ] . String ( ) } )
f . labels = newScope ( )
f . labelNames = map [ cc . StringID ] string { }
for _ , id := range a {
f . labelNames [ id ] = f . labels . take ( id )
}
}
func ( f * function ) staticAllocsAndPinned ( n * cc . CompoundStatement ) {
for _ , v := range f . params {
switch {
case v . Type ( ) . Kind ( ) == cc . Array && v . Type ( ) . IsVLA ( ) :
// trc("VLA")
f . project . err ( f . fndef , "variable length arrays not supported" )
}
}
//TODO use pass1 for this
cc . Inspect ( n , func ( n cc . Node , entry bool ) bool {
if ! entry {
return true
}
switch x := n . ( type ) {
case * cc . CastExpression :
switch x . Case {
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
if t := x . TypeName . Type ( ) ; t != nil && t . Kind ( ) != cc . Void {
break
}
if d := x . CastExpression . Declarator ( ) ; d != nil {
if local := f . locals [ d ] ; local != nil {
local . forceRead = true
}
}
}
}
x , ok := n . ( * cc . PostfixExpression )
if ! ok || x . Case != cc . PostfixExpressionCall {
return true
}
if x . PostfixExpression == nil || x . PostfixExpression . Operand == nil || x . PostfixExpression . Operand . Type ( ) == nil {
return true
}
ft := funcType ( x . PostfixExpression . Operand . Type ( ) )
if ft . Kind ( ) != cc . Function {
return true
}
if ! ft . IsVariadic ( ) {
return true
}
fixedParams := len ( ft . Parameters ( ) )
iArg := 0
var need uintptr
for list := x . ArgumentExpressionList ; list != nil ; list , iArg = list . ArgumentExpressionList , iArg + 1 {
if iArg < fixedParams {
continue
}
t := list . AssignmentExpression . Operand . Type ( )
if t . IsIntegerType ( ) {
need += 8
continue
}
switch t . Kind ( ) {
case cc . Array , cc . Ptr , cc . Double , cc . Float , cc . Function :
need += 8
default :
panic ( todo ( "" , f . project . pos ( x ) , t , t . Kind ( ) ) )
}
}
if need != 0 {
//TODO- if f.project.task.mingw {
//TODO- need += 8 // On windows the va list is prefixed with its length
//TODO- }
va := roundup ( f . off , 8 )
f . vaLists [ x ] = va
f . off = va + need
}
return true
} )
}
func funcType ( t cc . Type ) cc . Type {
if t . Kind ( ) == cc . Ptr {
t = t . Elem ( )
}
return t
}
type declarator interface {
Declarator ( ) * cc . Declarator
cc . Node
}
func ( p * project ) isArrayParameterDeclarator ( d * cc . Declarator ) bool {
if d . Type ( ) . Kind ( ) == cc . Array {
if d . Type ( ) . IsVLA ( ) {
return false
}
return d . IsParameter
}
return false
}
func ( p * project ) isArrayDeclarator ( d * cc . Declarator ) bool {
if d . Type ( ) . Kind ( ) == cc . Array {
if d . Type ( ) . IsVLA ( ) {
return false
}
return ! d . IsParameter
}
return false
}
func ( p * project ) isArrayParameter ( n declarator , t cc . Type ) bool {
if t . Kind ( ) != cc . Array {
return false
}
if t . IsVLA ( ) {
return false
}
if d := n . Declarator ( ) ; d != nil {
return d . IsParameter
}
return false
}
func ( p * project ) isArrayOrPinnedArray ( f * function , n declarator , t cc . Type ) ( r bool ) {
if t . Kind ( ) != cc . Array {
return false
}
if t . IsVLA ( ) {
return false
}
if d := n . Declarator ( ) ; d != nil {
return ! d . IsParameter
}
return p . detectArray ( f , n . ( cc . Node ) , true , true , nil )
}
func ( p * project ) detectArray ( f * function , n cc . Node , pinnedOk , recursiveOk bool , out * * cc . Declarator ) bool {
switch x := n . ( type ) {
case * cc . AssignmentExpression :
switch x . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
return p . detectArray ( f , x . ConditionalExpression , pinnedOk , recursiveOk , out )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
return p . detectArray ( f , x . UnaryExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . ConditionalExpression :
switch x . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
return p . detectArray ( f , x . LogicalOrExpression , pinnedOk , recursiveOk , out )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
return p . detectArray ( f , x . LogicalOrExpression , pinnedOk , recursiveOk , out ) ||
p . detectArray ( f , x . Expression , pinnedOk , recursiveOk , out ) ||
p . detectArray ( f , x . ConditionalExpression , pinnedOk , recursiveOk , out )
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . LogicalOrExpression :
switch x . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
return p . detectArray ( f , x . LogicalAndExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . LogicalAndExpression :
switch x . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
return p . detectArray ( f , x . InclusiveOrExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . InclusiveOrExpression :
switch x . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
return p . detectArray ( f , x . ExclusiveOrExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . ExclusiveOrExpression :
switch x . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
return p . detectArray ( f , x . AndExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . AndExpression :
switch x . Case {
case cc . AndExpressionEq : // EqualityExpression
return p . detectArray ( f , x . EqualityExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . EqualityExpression :
switch x . Case {
case cc . EqualityExpressionRel : // RelationalExpression
return p . detectArray ( f , x . RelationalExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . RelationalExpression :
switch x . Case {
case cc . RelationalExpressionShift : // ShiftExpression
return p . detectArray ( f , x . ShiftExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . ShiftExpression :
switch x . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
return p . detectArray ( f , x . AdditiveExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . AdditiveExpression :
switch x . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
return p . detectArray ( f , x . MultiplicativeExpression , pinnedOk , recursiveOk , out )
case
cc . AdditiveExpressionSub , // AdditiveExpression '-' MultiplicativeExpression
cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
return p . detectArray ( f , x . AdditiveExpression , pinnedOk , recursiveOk , out ) || p . detectArray ( f , x . MultiplicativeExpression , pinnedOk , recursiveOk , out )
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . MultiplicativeExpression :
switch x . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
return p . detectArray ( f , x . CastExpression , pinnedOk , recursiveOk , out )
default :
return false
}
case * cc . CastExpression :
switch x . Case {
case cc . CastExpressionUnary : // UnaryExpression
return p . detectArray ( f , x . UnaryExpression , pinnedOk , recursiveOk , out )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
return p . detectArray ( f , x . CastExpression , pinnedOk , recursiveOk , out )
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . UnaryExpression :
switch x . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
return p . detectArray ( f , x . PostfixExpression , pinnedOk , recursiveOk , out )
case
cc . UnaryExpressionDeref , // '*' CastExpression
cc . UnaryExpressionAddrof : // '&' CastExpression
return p . detectArray ( f , x . CastExpression , pinnedOk , recursiveOk , out )
case
cc . UnaryExpressionSizeofExpr , // "sizeof" UnaryExpression
cc . UnaryExpressionSizeofType , // "sizeof" '(' TypeName ')'
cc . UnaryExpressionMinus , // '-' CastExpression
cc . UnaryExpressionCpl , // '~' CastExpression
cc . UnaryExpressionAlignofExpr , // "_Alignof" UnaryExpression
cc . UnaryExpressionAlignofType , // "_Alignof" '(' TypeName ')'
cc . UnaryExpressionNot , // '!' CastExpression
cc . UnaryExpressionInc , // "++" UnaryExpression
cc . UnaryExpressionDec , // "--" UnaryExpression
cc . UnaryExpressionPlus : // '+' CastExpression
return false
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . PostfixExpression :
switch x . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
return p . detectArray ( f , x . PrimaryExpression , pinnedOk , recursiveOk , out )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
return recursiveOk && p . detectArray ( f , x . PostfixExpression , pinnedOk , recursiveOk , out )
case
cc . PostfixExpressionSelect , // PostfixExpression '.' IDENTIFIER
cc . PostfixExpressionDec , // PostfixExpression "--"
cc . PostfixExpressionInc , // PostfixExpression "++"
cc . PostfixExpressionCall , // PostfixExpression '(' ArgumentExpressionList ')'
cc . PostfixExpressionComplit , // '(' TypeName ')' '{' InitializerList ',' '}'
cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
return false
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . PrimaryExpression :
switch x . Case {
case
cc . PrimaryExpressionString , // STRINGLITERAL
cc . PrimaryExpressionEnum , // ENUMCONST
cc . PrimaryExpressionChar , // CHARCONST
cc . PrimaryExpressionLChar , // LONGCHARCONST
cc . PrimaryExpressionLString , // LONGSTRINGLITERAL
cc . PrimaryExpressionFloat , // FLOATCONST
cc . PrimaryExpressionInt : // INTCONST
return false
case cc . PrimaryExpressionIdent : // IDENTIFIER
d := x . Declarator ( )
if d == nil || d . IsParameter {
return false
}
if d . Type ( ) . Kind ( ) != cc . Array {
return false
}
if d . Type ( ) . IsVLA ( ) {
return false
}
if pinnedOk {
if out != nil {
* out = d
}
return true
}
local := f . locals [ d ]
if local == nil || local . isPinned {
return false
}
if out != nil {
* out = d
}
return true
case cc . PrimaryExpressionExpr : // '(' Expression ')'
return p . detectArray ( f , x . Expression , pinnedOk , recursiveOk , out )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( x , "statement expressions not supported" )
return false
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
case * cc . Expression :
switch x . Case {
case cc . ExpressionAssign : // AssignmentExpression
return p . detectArray ( f , x . AssignmentExpression , pinnedOk , recursiveOk , out )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
return p . detectArray ( f , x . Expression , pinnedOk , recursiveOk , out ) || p . detectArray ( f , x . AssignmentExpression , pinnedOk , recursiveOk , out )
default :
panic ( todo ( "" , p . pos ( x ) , x . Case ) )
}
default :
panic ( todo ( "%T" , x ) )
}
}
func ( p * project ) isArray ( f * function , n declarator , t cc . Type ) ( r bool ) {
if t . Kind ( ) != cc . Array {
return false
}
if t . IsVLA ( ) {
return false
}
if f == nil {
return true
}
if d := n . Declarator ( ) ; d != nil {
local := f . locals [ d ]
return ! d . IsParameter && ( local == nil || ! local . isPinned )
}
return p . detectArray ( f , n . ( cc . Node ) , false , true , nil )
}
// Return n's position with path reduced to baseName(path) unless
// p.task.fullPathComments is true.
func ( p * project ) pos ( n cc . Node ) ( r token . Position ) {
if n == nil {
return r
}
r = token . Position ( n . Position ( ) )
if r . IsValid ( ) && ! p . task . fullPathComments {
r . Filename = filepath . Base ( r . Filename )
}
return r
}
// Return n's position with path reduced to baseName(path).
func pos ( n cc . Node ) ( r token . Position ) {
if n == nil {
return r
}
r = token . Position ( n . Position ( ) )
if r . IsValid ( ) {
r . Filename = filepath . Base ( r . Filename )
}
return r
}
func roundup ( n , to uintptr ) uintptr {
if r := n % to ; r != 0 {
return n + to - r
}
return n
}
func ( f * function ) pin ( n cc . Node , d * cc . Declarator ) {
local := f . locals [ d ]
if local == nil || local . isPinned {
return
}
local . isPinned = true
if oTracePin || f . project . task . tracePinning {
fmt . Printf ( "%v: %s at %v: is pinned (%v)\n" , n . Position ( ) , d . Name ( ) , d . Position ( ) , origin ( 2 ) )
}
local . off = roundup ( f . off , uintptr ( d . Type ( ) . Align ( ) ) )
f . off = local . off + paramTypeDecay ( d ) . Size ( )
}
func paramTypeDecay ( d * cc . Declarator ) ( r cc . Type ) {
r = d . Type ( )
if d . IsParameter && r . Kind ( ) == cc . Array {
r = r . Decay ( )
}
return r
}
func ( f * function ) layoutBlocks ( n * cc . CompoundStatement ) {
block := f . blocks [ n ]
type item struct {
ds * cc . DeclarationSpecifiers
d * cc . Declarator
}
var work [ ] item
for _ , v := range block . params {
if v . Type ( ) . Kind ( ) == cc . Void {
break
}
work = append ( work , item { nil , v . Declarator ( ) } )
}
for _ , decl := range block . decls {
ds := decl . DeclarationSpecifiers
for list := decl . InitDeclaratorList ; list != nil ; list = list . InitDeclaratorList {
work = append ( work , item { ds , list . InitDeclarator . Declarator } )
}
}
block . scope . take ( cc . String ( f . tlsName ) )
if f . vaName != "" {
block . scope . take ( cc . String ( f . vaName ) )
}
for _ , item := range work {
d := item . d
if f . ignore [ d ] {
continue
}
if ! f . ignore [ d ] && d . IsStatic ( ) {
continue
}
if d . IsFunctionPrototype ( ) || d . IsExtern ( ) {
continue
}
local := & local { forceRead : d . Read == 0 }
if t := d . Type ( ) ; t != nil && t . Name ( ) == idVaList {
local . forceRead = true
}
f . locals [ d ] = local
local . name = block . scope . take ( d . Name ( ) )
}
}
func ( f * function ) layoutLocals ( parent * block , n * cc . CompoundStatement , params [ ] * cc . Parameter ) {
block := newBlock ( parent , n , n . Declarations ( ) , params , f . project . newScope ( ) , n . IsJumpTarget ( ) )
f . blocks [ n ] = block
if parent == nil {
f . top = block
f . top . topDecl = f . hasJumps
}
for _ , ch := range n . Children ( ) {
f . layoutLocals ( block , ch , nil )
if f . hasJumps {
chb := f . blocks [ ch ]
chb . noDecl = true
f . top . decls = append ( f . top . decls , chb . decls ... )
chb . decls = nil
}
}
}
func newDeclarator ( name string ) * cc . Declarator {
return & cc . Declarator {
DirectDeclarator : & cc . DirectDeclarator {
Case : cc . DirectDeclaratorIdent ,
Token : cc . Token { Rune : cc . IDENTIFIER , Value : cc . String ( name ) } ,
} ,
}
}
type enumSpec struct {
decl * cc . Declaration
spec * cc . EnumSpecifier
emitted bool
}
func ( n * enumSpec ) emit ( p * project ) {
if n == nil || p . pass1 || n . emitted {
return
}
n . emitted = true
ok := false
for list := n . spec . EnumeratorList ; list != nil ; list = list . EnumeratorList {
nm := list . Enumerator . Token . Value
if _ , ok2 := p . emitedEnums [ nm ] ; ! ok2 && p . enumConsts [ nm ] != "" {
ok = true
break
}
}
if ! ok {
return
}
p . w ( "%s" , tidyComment ( "\n" , n . decl ) )
p . w ( "const ( /* %v: */" , p . pos ( n . decl ) )
for list := n . spec . EnumeratorList ; list != nil ; list = list . EnumeratorList {
en := list . Enumerator
nm := en . Token . Value
if _ , ok := p . emitedEnums [ nm ] ; ok || p . enumConsts [ nm ] == "" {
continue
}
p . emitedEnums [ nm ] = struct { } { }
p . w ( "%s%s = " , tidyComment ( "\n" , en ) , p . enumConsts [ nm ] )
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p . intConst ( en , "" , en . Operand , en . Operand . Type ( ) , fForceNoConv )
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p . w ( ";" )
}
p . w ( ");" )
}
type typedef struct {
sig uint64
tld * tld
}
type define struct {
name string
value cc . Value
}
type project struct {
ast * cc . AST
buf bytes . Buffer
capi [ ] string
defines map [ cc . StringID ] define
defineLines [ ] string
emitedEnums map [ cc . StringID ] struct { }
enumConsts map [ cc . StringID ] string
enumSpecs map [ * cc . EnumSpecifier ] * enumSpec
errors scanner . ErrorList
externs map [ cc . StringID ] * tld
fn string
imports map [ string ] * imported // C name: import info
intType cc . Type
localTaggedStructs [ ] func ( )
mainName string
ptrSize uintptr
ptrType cc . Type
scope scope
sharedFns map [ * cc . FunctionDefinition ] struct { }
sharedFnsEmitted map [ * cc . FunctionDefinition ] struct { }
staticQueue [ ] * cc . InitDeclarator
structs map [ cc . StringID ] * taggedStruct // key: C tag
symtab map [ string ] interface { } // *tld or *imported
task * Task
tldScope scope
tlds map [ * cc . Declarator ] * tld
ts bytes . Buffer // Text segment
tsName string
tsNameP string
tsOffs map [ cc . StringID ] uintptr
tsW [ ] rune // Text segment, wchar_t
tsWName string
tsWNameP string
tsWOffs map [ cc . StringID ] uintptr
typeSigHash maphash . Hash
typedefTypes map [ cc . StringID ] * typedef
typedefsEmited map [ string ] struct { }
verifyStructs map [ string ] cc . Type
wanted map [ * cc . Declarator ] struct { }
wcharSize uintptr
isMain bool
pass1 bool
}
func newProject ( t * Task ) ( * project , error ) {
voidType := t . cfg . ABI . Type ( cc . Void )
ptrType := t . cfg . ABI . Ptr ( nil , voidType )
intType := t . cfg . ABI . Type ( cc . Int )
if intType . Size ( ) != 4 { // We're assuming wchar_t is int32.
return nil , fmt . Errorf ( "unsupported C int size: %d" , intType . Size ( ) )
}
if n := t . cfg . ABI . Types [ cc . UChar ] . Size ; n != 1 {
return nil , fmt . Errorf ( "unsupported C unsigned char size: %d" , n )
}
if n := t . cfg . ABI . Types [ cc . UShort ] . Size ; n != 2 {
return nil , fmt . Errorf ( "unsupported C unsigned short size: %d" , n )
}
if n := t . cfg . ABI . Types [ cc . UInt ] . Size ; n != 4 {
return nil , fmt . Errorf ( "unsupported C unsigned int size: %d" , n )
}
if n := t . cfg . ABI . Types [ cc . ULongLong ] . Size ; n != 8 {
return nil , fmt . Errorf ( "unsupported C unsigned long long size: %d" , n )
}
p := & project {
defines : map [ cc . StringID ] define { } ,
emitedEnums : map [ cc . StringID ] struct { } { } ,
enumConsts : map [ cc . StringID ] string { } ,
enumSpecs : map [ * cc . EnumSpecifier ] * enumSpec { } ,
externs : map [ cc . StringID ] * tld { } ,
imports : map [ string ] * imported { } ,
intType : intType ,
ptrSize : t . cfg . ABI . Types [ cc . Ptr ] . Size ,
ptrType : ptrType ,
scope : newScope ( ) ,
sharedFns : t . cfg . SharedFunctionDefinitions . M ,
sharedFnsEmitted : map [ * cc . FunctionDefinition ] struct { } { } ,
symtab : map [ string ] interface { } { } ,
task : t ,
tlds : map [ * cc . Declarator ] * tld { } ,
tsWOffs : map [ cc . StringID ] uintptr { } ,
tsOffs : map [ cc . StringID ] uintptr { } ,
typedefTypes : map [ cc . StringID ] * typedef { } ,
typedefsEmited : map [ string ] struct { } { } ,
verifyStructs : map [ string ] cc . Type { } ,
wanted : map [ * cc . Declarator ] struct { } { } ,
wcharSize : t . asts [ 0 ] . WideCharType . Size ( ) ,
}
p . tldScope = p . scope
p . scope . take ( idCAPI )
for _ , v := range t . imported {
var err error
if v . name , v . exports , err = t . capi ( v . path ) ; err != nil {
return nil , err
}
v . qualifier = p . scope . take ( cc . String ( v . name ) ) + "."
for k := range v . exports {
if p . imports [ k ] == nil {
p . imports [ k ] = v
}
}
}
p . tsNameP = p . scope . take ( idTs )
p . tsName = p . scope . take ( idTs )
p . tsWNameP = p . scope . take ( idWtext )
p . tsWName = p . scope . take ( idWtext )
if err := p . layout ( ) ; err != nil {
return nil , err
}
return p , nil
}
func ( p * project ) newScope ( ) scope {
s := newScope ( )
var a [ ] cc . StringID
for k := range p . structs {
a = append ( a , k )
}
sort . Slice ( a , func ( i , j int ) bool { return a [ i ] . String ( ) < a [ j ] . String ( ) } )
for _ , k := range a {
s . take ( cc . String ( p . structs [ k ] . name ) )
}
return s
}
func ( p * project ) err ( n cc . Node , s string , args ... interface { } ) {
if p . task . errTrace || strings . Contains ( s , "internal error" ) {
s = s + "(" + origin ( 2 ) + ")"
}
if p . task . traceTranslationUnits {
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trc ( "%v: error: %s (%v)" , pos ( n ) , fmt . Sprintf ( s , args ... ) , origin ( 2 ) )
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}
if ! p . task . allErrors && len ( p . errors ) >= 10 {
return
}
switch {
case n == nil :
p . errors . Add ( token . Position { } , fmt . Sprintf ( s , args ... ) )
default :
p . errors . Add ( token . Position ( n . Position ( ) ) , fmt . Sprintf ( s , args ... ) )
if ! p . task . allErrors && len ( p . errors ) == 10 {
p . errors . Add ( token . Position ( n . Position ( ) ) , tooManyErrors )
}
}
}
func ( p * project ) o ( s string , args ... interface { } ) {
if oTraceG {
fmt . Printf ( s , args ... )
}
fmt . Fprintf ( p . task . out , s , args ... )
}
func ( p * project ) w ( s string , args ... interface { } ) {
if p . pass1 {
return
}
if coverExperiment {
pc , _ , _ , ok := runtime . Caller ( 1 )
if ok {
coverMap [ pc ] = struct { } { }
}
}
if oTraceW {
fmt . Printf ( s , args ... )
}
//fmt.Fprintf(&p.buf, "/* %s */", origin(2)) //TODO-
fmt . Fprintf ( & p . buf , s , args ... )
}
func ( p * project ) layout ( ) error {
if err := p . layoutTLDs ( ) ; err != nil {
return err
}
if err := p . layoutSymtab ( ) ; err != nil {
return err
}
if err := p . layoutStructs ( ) ; err != nil {
return err
}
if err := p . layoutEnums ( ) ; err != nil {
return err
}
if err := p . layoutDefines ( ) ; err != nil {
return err
}
return p . layoutStaticLocals ( )
}
func ( p * project ) layoutSymtab ( ) error {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing symbol table ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
for _ , i := range p . task . symSearchOrder {
switch {
case i < 0 :
imported := p . task . imported [ - i - 1 ]
for nm := range imported . exports {
if _ , ok := p . symtab [ nm ] ; ! ok {
p . symtab [ nm ] = imported
}
}
default :
ast := p . task . asts [ i ]
for d := range ast . TLD {
if d . IsFunctionPrototype ( ) || d . Linkage != cc . External {
continue
}
nm := d . Name ( )
name := nm . String ( )
if _ , ok := p . symtab [ name ] ; ! ok {
tld := p . externs [ nm ]
if tld == nil {
if d . Type ( ) . Kind ( ) != cc . Function && ! p . task . header {
p . err ( d , "back-end: undefined: %s %v %v" , d . Name ( ) , d . Type ( ) , d . Type ( ) . Kind ( ) )
}
continue
}
p . symtab [ name ] = tld
}
}
}
}
return nil
}
func ( p * project ) layoutDefines ( ) error {
if ! p . task . exportDefinesValid {
return nil
}
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing #defines ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
var prefix = p . task . exportDefines
taken := map [ cc . StringID ] struct { } { }
for _ , ast := range p . task . asts {
var a [ ] cc . StringID
for nm , m := range ast . Macros {
if m . IsFnLike ( ) {
continue
}
if strings . HasPrefix ( nm . String ( ) , "__" ) {
continue
}
if _ , ok := taken [ nm ] ; ok {
continue
}
taken [ nm ] = struct { } { }
a = append ( a , nm )
}
sort . Slice ( a , func ( i , j int ) bool { return a [ i ] . String ( ) < a [ j ] . String ( ) } )
for _ , nm := range a {
m := ast . Macros [ nm ]
val , src := evalMacro ( m , ast )
if src == "" {
continue
}
name := nm . String ( )
switch {
case prefix == "" :
name = capitalize ( name )
default :
name = prefix + name
}
name = p . scope . take ( cc . String ( name ) )
p . defines [ nm ] = define { name , val }
p . defineLines = append ( p . defineLines , fmt . Sprintf ( "%s = %s" , name , src ) )
}
}
return nil
}
func evalMacro ( m * cc . Macro , ast * cc . AST ) ( cc . Value , string ) {
toks := m . ReplacementTokens ( )
if len ( toks ) != 1 {
return evalMacro2 ( m , ast )
}
src := strings . TrimSpace ( toks [ 0 ] . Src . String ( ) )
if len ( src ) == 0 {
return nil , ""
}
neg := ""
switch src [ 0 ] {
case '"' :
if _ , err := strconv . Unquote ( src ) ; err == nil {
return cc . StringValue ( cc . String ( src ) ) , src
}
case '-' :
neg = "-"
src = src [ 1 : ]
fallthrough
default :
src = strings . TrimRight ( src , "lLuU" )
if u64 , err := strconv . ParseUint ( src , 0 , 64 ) ; err == nil {
switch {
case neg == "" :
return cc . Uint64Value ( u64 ) , src
default :
return cc . Int64Value ( - u64 ) , neg + src
}
}
src = strings . TrimRight ( src , "fF" )
if f64 , err := strconv . ParseFloat ( src , 64 ) ; err == nil {
return cc . Float64Value ( f64 ) , neg + src
}
}
return evalMacro2 ( m , ast )
}
func evalMacro2 ( m * cc . Macro , ast * cc . AST ) ( cc . Value , string ) {
op , err := ast . Eval ( m )
if err != nil {
return nil , ""
}
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
return op . Value ( ) , fmt . Sprintf ( "%d" , int64 ( x ) )
case cc . Uint64Value :
return op . Value ( ) , fmt . Sprintf ( "%d" , uint64 ( x ) )
default :
panic ( todo ( "" , pos ( m ) ) )
}
}
func ( p * project ) layoutEnums ( ) error {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing enum values ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
export := doNotChange
if p . task . exportEnumsValid {
switch {
case p . task . exportEnums != "" :
export = exportPrefix
default :
export = exportCapitalize
}
} else if p . task . defaultUnExport {
export = doNotExport
}
var enumList [ ] * cc . EnumSpecifier
for _ , v := range p . task . asts {
for list := v . TranslationUnit ; list != nil ; list = list . TranslationUnit {
decl := list . ExternalDeclaration
switch decl . Case {
case cc . ExternalDeclarationDecl : // Declaration
// ok
default :
continue
}
cc . Inspect ( decl . Declaration . DeclarationSpecifiers , func ( n cc . Node , entry bool ) bool {
if ! entry {
return true
}
x , ok := n . ( * cc . EnumSpecifier )
if ! ok || x . Case != cc . EnumSpecifierDef {
return true
}
if _ , ok := p . enumSpecs [ x ] ; ! ok {
enumList = append ( enumList , x )
p . enumSpecs [ x ] = & enumSpec { decl : decl . Declaration , spec : x }
}
return true
} )
}
}
vals := map [ cc . StringID ] interface { } { }
for _ , v := range enumList {
for list := v . EnumeratorList ; list != nil ; list = list . EnumeratorList {
en := list . Enumerator
nm := en . Token . Value
var val int64
switch x := en . Operand . Value ( ) . ( type ) {
case cc . Int64Value :
val = int64 ( x )
case cc . Uint64Value :
val = int64 ( x )
default :
panic ( todo ( "" ) )
}
switch ex , ok := vals [ nm ] ; {
case ok :
switch {
case ex == nil : //
continue
case ex == val : // same name and same value
continue
default : // same name, different value
vals [ nm ] = nil
}
default :
vals [ nm ] = val
}
p . enumConsts [ nm ] = ""
}
}
var a [ ] cc . StringID
for nm := range p . enumConsts {
if val , ok := vals [ nm ] ; ok && val == nil {
delete ( p . enumConsts , nm )
continue
}
a = append ( a , nm )
}
sort . Slice ( a , func ( i , j int ) bool { return a [ i ] . String ( ) < a [ j ] . String ( ) } )
for _ , nm := range a {
name := nm . String ( )
switch export {
case doNotExport :
name = unCapitalize ( name )
case doNotChange :
// nop
case exportCapitalize :
name = capitalize ( name )
case exportPrefix :
name = p . task . exportEnums + name
}
name = p . scope . take ( cc . String ( name ) )
p . enumConsts [ nm ] = name
}
return nil
}
func ( p * project ) layoutStaticLocals ( ) error {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing static local declarations ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
for _ , v := range p . task . asts {
for list := v . TranslationUnit ; list != nil ; list = list . TranslationUnit {
decl := list . ExternalDeclaration
switch decl . Case {
case cc . ExternalDeclarationFuncDef : // FunctionDefinition
// ok
default :
continue
}
cc . Inspect ( decl . FunctionDefinition . CompoundStatement , func ( n cc . Node , entry bool ) bool {
switch x := n . ( type ) {
case * cc . Declarator :
if ! entry || ! x . IsStatic ( ) || x . Read == 0 || x . IsParameter {
break
}
nm := x . Name ( )
if s := p . task . staticLocalsPrefix ; s != "" {
nm = cc . String ( s + nm . String ( ) )
}
p . tlds [ x ] = & tld { name : p . scope . take ( nm ) }
}
return true
} )
}
}
return nil
}
func ( p * project ) layoutStructs ( ) error {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing struct/union types ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
export := doNotChange
if p . task . exportStructsValid {
switch {
case p . task . exportStructs != "" :
export = exportPrefix
default :
export = exportCapitalize
}
} else if p . task . defaultUnExport {
export = doNotExport
}
m := map [ cc . StringID ] * taggedStruct { }
var tags [ ] cc . StringID
for _ , v := range p . task . asts {
cc . Inspect ( v . TranslationUnit , func ( n cc . Node , entry bool ) bool {
if entry {
switch x := n . ( type ) {
case * cc . Declarator :
if nm := x . Name ( ) . String ( ) ; strings . HasPrefix ( nm , "_" ) {
break
}
p . captureStructTags ( x , x . Type ( ) , m , & tags )
case * cc . Declaration :
cc . Inspect ( x . DeclarationSpecifiers , func ( nn cc . Node , entry bool ) bool {
switch y := nn . ( type ) {
case * cc . StructOrUnionSpecifier :
if tag := y . Token . Value ; tag != 0 {
p . captureStructTags ( y , y . Type ( ) , m , & tags )
}
}
return true
} )
}
}
return true
} )
}
sort . Slice ( tags , func ( i , j int ) bool { return tags [ i ] . String ( ) < tags [ j ] . String ( ) } )
for _ , k := range tags {
v := m [ k ]
//TODO rename conflicts
if v . conflicts {
delete ( m , k )
continue
}
name := k . String ( )
switch export {
case doNotExport :
name = unCapitalize ( name )
case doNotChange :
// nop
case exportCapitalize :
name = capitalize ( name )
case exportPrefix :
name = p . task . exportStructs + name
}
v . name = p . scope . take ( cc . String ( name ) )
}
for _ , k := range tags {
v := m [ k ]
if v != nil {
v . gotyp = p . structType ( nil , v . ctyp )
}
}
p . structs = m
return nil
}
func ( p * project ) captureStructTags ( n cc . Node , t cc . Type , m map [ cc . StringID ] * taggedStruct , tags * [ ] cc . StringID ) {
if t == nil {
return
}
t = t . Alias ( )
for t . Kind ( ) == cc . Ptr {
t = t . Alias ( ) . Elem ( ) . Alias ( )
}
if t . Kind ( ) == cc . Invalid || t . IsIncomplete ( ) {
return
}
switch t . Kind ( ) {
case cc . Struct , cc . Union :
tag := t . Tag ( )
if tag == 0 {
return
}
ex := m [ tag ]
if ex != nil {
ts := p . typeSignature ( n , t )
exs := p . typeSignature ( n , ex . ctyp )
if ts != exs {
ex . conflicts = true
}
return
}
nf := t . NumField ( )
m [ tag ] = & taggedStruct { ctyp : t , node : n }
for idx := [ ] int { 0 } ; idx [ 0 ] < nf ; idx [ 0 ] ++ {
p . captureStructTags ( n , t . FieldByIndex ( idx ) . Type ( ) , m , tags )
}
* tags = append ( * tags , tag )
case cc . Array :
p . captureStructTags ( n , t . Elem ( ) , m , tags )
}
}
func ( p * project ) typeSignature ( n cc . Node , t cc . Type ) ( r uint64 ) {
p . typeSigHash . Reset ( )
p . typeSignature2 ( n , & p . typeSigHash , t )
return p . typeSigHash . Sum64 ( )
}
func ( p * project ) typeSignature2 ( n cc . Node , b * maphash . Hash , t cc . Type ) {
t = t . Alias ( )
if t . IsIntegerType ( ) {
if ! t . IsSignedType ( ) {
b . WriteByte ( 'u' )
}
fmt . Fprintf ( b , "int%d" , t . Size ( ) * 8 )
return
}
if t . IsArithmeticType ( ) {
b . WriteString ( t . Kind ( ) . String ( ) )
return
}
structOrUnion := "struct"
switch t . Kind ( ) {
case cc . Ptr :
fmt . Fprintf ( b , "*%s" , t . Elem ( ) )
case cc . Array :
if t . IsVLA ( ) {
// trc("VLA")
p . err ( n , "variable length arrays not supported: %v" , t )
}
fmt . Fprintf ( b , "[%d]%s" , t . Len ( ) , t . Elem ( ) )
case cc . Vector :
fmt . Fprintf ( b , "[%d]%s" , t . Len ( ) , t . Elem ( ) )
case cc . Union :
structOrUnion = "union"
fallthrough
case cc . Struct :
b . WriteString ( structOrUnion )
nf := t . NumField ( )
fmt . Fprintf ( b , " %d{" , nf )
b . WriteByte ( '{' )
for idx := [ ] int { 0 } ; idx [ 0 ] < nf ; idx [ 0 ] ++ {
f := t . FieldByIndex ( idx )
fmt . Fprintf ( b , "%s:%d:%d:%v:%d:%d:" ,
f . Name ( ) , f . BitFieldOffset ( ) , f . BitFieldWidth ( ) , f . IsBitField ( ) , f . Offset ( ) , f . Padding ( ) ,
)
p . typeSignature2 ( f . Declarator ( ) , b , f . Type ( ) )
b . WriteByte ( ';' )
}
b . WriteByte ( '}' )
case cc . Void :
b . WriteString ( "void" )
case cc . Invalid :
b . WriteString ( "invalid" ) //TODO fix cc/v3
default :
panic ( todo ( "" , p . pos ( n ) , t , t . Kind ( ) ) )
}
}
func ( p * project ) structType ( n cc . Node , t cc . Type ) string {
switch t . Kind ( ) {
case cc . Struct , cc . Union :
tag := t . Tag ( )
if tag != 0 && p . structs != nil {
s := p . structs [ tag ]
if s == nil {
return p . structLiteral ( n , t )
}
if s . gotyp == "" {
s . gotyp = p . structLiteral ( n , t )
}
return s . gotyp
}
return p . structLiteral ( n , t )
default :
panic ( todo ( "internal error: %v" , t . Kind ( ) ) )
}
}
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func ( p * project ) padName ( n * int ) string {
if ! p . task . exportFieldsValid {
return "_"
}
* n ++
return fmt . Sprintf ( "%s__ccgo_pad%d" , p . task . exportFields , * n )
}
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func ( p * project ) structLiteral ( n cc . Node , t cc . Type ) string {
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var npad int
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b := bytesBufferPool . Get ( ) . ( * bytes . Buffer )
defer func ( ) { b . Reset ( ) ; bytesBufferPool . Put ( b ) } ( )
switch t . Kind ( ) {
case cc . Struct :
info := cc . NewStructLayout ( t )
// trc("%v: %q\n%s", p.pos(n), t.Tag(), info)
b . WriteString ( "struct {" )
if info . NeedExplicitAlign {
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fmt . Fprintf ( b , "%s [0]uint%d;" , p . padName ( & npad ) , 8 * p . align ( n , t ) )
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}
var max uintptr
for _ , off := range info . Offsets {
flds := info . OffsetToFields [ off ]
if off < max {
var a [ ] string
var nmf cc . Field
for _ , f := range flds {
if f . Name ( ) != 0 && nmf == nil {
nmf = f
}
if ! f . IsBitField ( ) {
panic ( todo ( "internal error %q, off %v max %v\n%s" , f . Name ( ) , off , max , info ) )
}
a = append ( a , fmt . Sprintf ( "%s %s: %d" , f . Type ( ) , f . Name ( ) , f . BitFieldWidth ( ) ) )
}
fmt . Fprintf ( b , "/* %s */" , strings . Join ( a , ", " ) )
continue
}
f := flds [ 0 ]
switch pad := info . PaddingsBefore [ f ] ; {
case pad < 0 :
continue
case pad > 0 :
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fmt . Fprintf ( b , "%s [%d]byte;" , p . padName ( & npad ) , pad )
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}
switch {
case f . IsBitField ( ) :
max += uintptr ( f . BitFieldBlockWidth ( ) ) >> 3
var a [ ] string
var nmf cc . Field
for _ , f := range flds {
if f . Name ( ) != 0 && nmf == nil {
nmf = f
}
if ! f . IsBitField ( ) {
panic ( todo ( "internal error %q\n%s" , f . Name ( ) , info ) )
}
a = append ( a , fmt . Sprintf ( "%s %s: %d" , f . Type ( ) , f . Name ( ) , f . BitFieldWidth ( ) ) )
}
if nmf == nil {
nmf = f
}
fmt . Fprintf ( b , "%s uint%d /* %s */;" , p . bitFieldName ( n , nmf ) , f . BitFieldBlockWidth ( ) , strings . Join ( a , ", " ) )
default :
ft := f . Type ( )
if ft . Kind ( ) == cc . Array && ft . IsIncomplete ( ) || ft . Size ( ) == 0 {
break
}
max += ft . Size ( )
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fmt . Fprintf ( b , "%s %s;" , p . fieldName2 ( n , f ) , p . typ ( n , ft ) )
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}
}
if info . PaddingAfter != 0 {
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fmt . Fprintf ( b , "%s [%d]byte;" , p . padName ( & npad ) , info . PaddingAfter )
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}
b . WriteByte ( '}' )
case cc . Union :
b . WriteString ( "struct {" )
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info := cc . NewStructLayout ( t )
if info . NeedExplicitAlign {
fmt . Fprintf ( b , "%s [0]uint%d;" , p . padName ( & npad ) , 8 * p . align ( n , t ) )
}
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al := uintptr ( t . Align ( ) )
sz := t . Size ( )
if al > sz {
panic ( todo ( "" , p . pos ( n ) ) )
}
f := t . FieldByIndex ( [ ] int { 0 } )
ft := f . Type ( )
al0 := ft . Align ( )
if f . IsBitField ( ) {
al0 = f . BitFieldBlockWidth ( ) >> 3
}
if al != uintptr ( al0 ) {
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fmt . Fprintf ( b , "%s [0]uint%d;" , p . padName ( & npad ) , 8 * al )
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}
fsz := ft . Size ( )
switch {
case f . IsBitField ( ) :
fmt . Fprintf ( b , "%s " , p . fieldName2 ( n , f ) )
fmt . Fprintf ( b , "uint%d;" , f . BitFieldBlockWidth ( ) )
fsz = uintptr ( f . BitFieldBlockWidth ( ) ) >> 3
default :
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fmt . Fprintf ( b , "%s %s;" , p . fieldName2 ( n , f ) , p . typ ( n , ft ) )
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}
if pad := sz - fsz ; pad != 0 {
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fmt . Fprintf ( b , "%s [%d]byte;" , p . padName ( & npad ) , pad )
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}
b . WriteByte ( '}' )
default :
panic ( todo ( "internal error: %v" , t . Kind ( ) ) )
}
r := b . String ( )
if p . task . verifyStructs {
if _ , ok := p . verifyStructs [ r ] ; ! ok {
p . verifyStructs [ r ] = t
}
}
return r
}
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func ( p * project ) align ( nd cc . Node , t cc . Type ) int {
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switch n := t . Align ( ) ; {
case n <= 1 :
return 1
case n <= 2 :
return 2
case n <= 4 :
return 4
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case n <= 8 :
return 8
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default :
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if ! p . task . ignoreUnsupportedAligment {
p . err ( nd , "unsupported alignment of type %s: %v" , t , n )
}
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return 8
}
}
func ( p * project ) bitFieldName ( n cc . Node , f cc . Field ) string {
if id := f . Name ( ) ; id != 0 {
return p . fieldName ( n , id )
}
return fmt . Sprintf ( "__%d" , f . Offset ( ) )
}
func ( p * project ) fieldName2 ( n cc . Node , f cc . Field ) string {
if f . Name ( ) != 0 {
return p . fieldName ( n , f . Name ( ) )
}
return p . fieldName ( n , cc . String ( fmt . Sprintf ( "__%d" , f . Offset ( ) ) ) )
}
func ( p * project ) fieldName ( n cc . Node , id cc . StringID ) string {
if id == 0 {
panic ( todo ( "" , p . pos ( n ) ) )
}
if ! p . task . exportFieldsValid {
s := id . String ( )
if p . task . defaultUnExport {
s = unCapitalize ( s )
}
if ! reservedNames [ s ] {
return s
}
return "__" + s
}
if s := p . task . exportFields ; s != "" {
return s + id . String ( )
}
return capitalize ( id . String ( ) )
}
func ( p * project ) dtyp ( d * cc . Declarator ) ( r string ) {
t := d . Type ( )
if t . IsIncomplete ( ) {
if t . Kind ( ) == cc . Array && d . IsParameter {
return "uintptr"
}
panic ( todo ( "" ) )
}
return p . typ ( d , t )
}
func ( p * project ) typ ( nd cc . Node , t cc . Type ) ( r string ) {
if t . IsIncomplete ( ) {
panic ( todo ( "" , p . pos ( nd ) , t ) )
}
if t . IsAliasType ( ) {
if tld := p . tlds [ t . AliasDeclarator ( ) ] ; tld != nil {
return tld . name
}
}
b := bytesBufferPool . Get ( ) . ( * bytes . Buffer )
defer func ( ) { b . Reset ( ) ; bytesBufferPool . Put ( b ) } ( )
if t . IsIntegerType ( ) {
switch t . Kind ( ) {
case cc . Int128 :
fmt . Fprintf ( b , "%sInt128" , p . task . crt )
return b . String ( )
case cc . UInt128 :
fmt . Fprintf ( b , "%sUint128" , p . task . crt )
return b . String ( )
}
if ! t . IsSignedType ( ) {
b . WriteByte ( 'u' )
}
if t . Size ( ) > 8 {
p . err ( nd , "unsupported C type: %v" , t )
}
fmt . Fprintf ( b , "int%d" , 8 * t . Size ( ) )
return b . String ( )
}
switch t . Kind ( ) {
case cc . Ptr , cc . Function :
return "uintptr"
case cc . Double :
return "float64"
case cc . Float :
return "float32"
case cc . Array :
n := t . Len ( )
switch {
case t . IsVLA ( ) :
fmt . Fprintf ( b , "uintptr" )
default :
fmt . Fprintf ( b , "[%d]%s" , n , p . typ ( nd , t . Elem ( ) ) )
}
return b . String ( )
case cc . Vector :
n := t . Len ( )
fmt . Fprintf ( b , "[%d]%s" , n , p . typ ( nd , t . Elem ( ) ) )
return b . String ( )
case cc . Struct , cc . Union :
if tag := t . Tag ( ) ; tag != 0 {
if s := p . structs [ tag ] ; s != nil {
if s . name == "" {
panic ( todo ( "internal error %q" , tag ) )
}
return s . name
}
}
return p . structType ( nd , t )
}
panic ( todo ( "" , p . pos ( nd ) , t . Kind ( ) , t ) )
}
func isScalarKind ( k cc . Kind ) bool {
switch k {
case
cc . Char , cc . SChar , cc . UChar ,
cc . Short , cc . UShort ,
cc . Int , cc . UInt ,
cc . Long , cc . ULong ,
cc . LongLong , cc . ULongLong ,
cc . Float , cc . Double ,
cc . Ptr :
return true
}
return false
}
func ( p * project ) layoutTLDs ( ) error {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "processing file scope declarations ... " )
t0 = time . Now ( )
defer func ( ) { fmt . Println ( time . Since ( t0 ) ) } ( )
}
exportExtern , exportTypedef := doNotChange , doNotChange
if p . task . exportExternsValid {
switch {
case p . task . exportExterns != "" :
exportExtern = exportPrefix
default :
exportExtern = exportCapitalize
}
} else if p . task . defaultUnExport {
exportExtern = doNotExport
}
if p . task . exportTypedefsValid {
switch {
case p . task . exportTypedefs != "" :
exportTypedef = exportPrefix
default :
exportTypedef = exportCapitalize
}
} else if p . task . defaultUnExport {
exportTypedef = doNotExport
}
var a [ ] * cc . Declarator
if p . task . pkgName == "" || p . task . pkgName == "main" {
out :
for _ , ast := range p . task . asts {
if a := ast . Scope [ idMain ] ; len ( a ) != 0 {
switch x := a [ 0 ] . ( type ) {
case * cc . Declarator :
if x . Linkage == cc . External {
p . isMain = true
p . scope . take ( idMain )
break out
}
}
}
}
}
sharedFns := map [ * cc . FunctionDefinition ] struct { } { }
for _ , ast := range p . task . asts {
a = a [ : 0 ]
for d := range ast . TLD {
if d . IsFunctionPrototype ( ) {
continue
}
// https://gcc.gnu.org/onlinedocs/gcc/Inline.html
//
// If you specify both inline and extern in the function definition, then the
// definition is used only for inlining. In no case is the function compiled on
// its own, not even if you refer to its address explicitly. Such an address
// becomes an external reference, as if you had only declared the function, and
// had not defined it.
//
// This combination of inline and extern has almost the effect of a macro. The
// way to use it is to put a function definition in a header file with these
// keywords, and put another copy of the definition (lacking inline and extern)
// in a library file. The definition in the header file causes most calls to
// the function to be inlined. If any uses of the function remain, they refer
// to the single copy in the library.
if d . IsExtern ( ) && d . Type ( ) . Inline ( ) {
continue
}
if fn := d . FunctionDefinition ( ) ; fn != nil {
if _ , ok := p . sharedFns [ fn ] ; ok {
if _ , ok := sharedFns [ fn ] ; ok {
continue
}
sharedFns [ fn ] = struct { } { }
}
}
a = append ( a , d )
p . wanted [ d ] = struct { } { }
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . NameTok ( ) . Seq ( ) < a [ j ] . NameTok ( ) . Seq ( )
} )
for _ , d := range a {
switch d . Type ( ) . Kind ( ) {
case cc . Struct , cc . Union :
p . checkAttributes ( d . Type ( ) )
}
nm := d . Name ( )
name := nm . String ( )
switch d . Linkage {
case cc . External :
if ex := p . externs [ nm ] ; ex != nil {
if _ , ok := p . task . hide [ name ] ; ok {
break
}
if d . Type ( ) . Kind ( ) != cc . Function {
break
}
p . err ( d , "redeclared: %s" , d . Name ( ) )
break
}
isMain := p . isMain && nm == idMain
switch exportExtern {
case doNotExport :
name = unCapitalize ( name )
case doNotChange :
// nop
case exportCapitalize :
name = capitalize ( name )
case exportPrefix :
name = p . task . exportExterns + name
}
name = p . scope . take ( cc . String ( name ) )
if isMain {
p . mainName = name
d . Read ++
}
tld := & tld { name : name }
p . externs [ nm ] = tld
for _ , v := range ast . Scope [ nm ] {
if d , ok := v . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
if ! isMain {
p . capi = append ( p . capi , d . Name ( ) . String ( ) )
}
case cc . Internal :
if token . IsExported ( name ) && ! p . isMain && p . task . exportExternsValid {
name = "s" + name
}
tld := & tld { name : p . scope . take ( cc . String ( name ) ) }
for _ , v := range ast . Scope [ nm ] {
if d , ok := v . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
case cc . None :
if d . IsTypedefName {
if d . Type ( ) . IsIncomplete ( ) {
break
}
if exportTypedef == doNotChange && strings . HasPrefix ( name , "__" ) {
break
}
ex , ok := p . typedefTypes [ d . Name ( ) ]
if ok {
sig := p . typeSignature ( d , d . Type ( ) )
if ex . sig == sig {
tld := ex . tld
for _ , v := range ast . Scope [ nm ] {
if d , ok := v . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
break
}
}
switch exportTypedef {
case doNotExport :
name = unCapitalize ( name )
case doNotChange :
// nop
case exportCapitalize :
name = capitalize ( name )
case exportPrefix :
name = p . task . exportTypedefs + name
}
tld := & tld { name : p . scope . take ( cc . String ( name ) ) }
p . typedefTypes [ d . Name ( ) ] = & typedef { p . typeSignature ( d , d . Type ( ) ) , tld }
for _ , v := range ast . Scope [ nm ] {
if d , ok := v . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
}
default :
panic ( todo ( "" , p . pos ( d ) , nm , d . Linkage ) )
}
}
}
for _ , ast := range p . task . asts {
for list := ast . TranslationUnit ; list != nil ; list = list . TranslationUnit {
decl := list . ExternalDeclaration
switch decl . Case {
case cc . ExternalDeclarationFuncDef : // FunctionDefinition
// ok
default :
continue
}
cc . Inspect ( decl . FunctionDefinition . CompoundStatement , func ( n cc . Node , entry bool ) bool {
switch x := n . ( type ) {
case * cc . Declarator :
if x . IsFunctionPrototype ( ) {
nm := x . Name ( )
if extern := p . externs [ nm ] ; extern != nil {
break
}
tld := & tld { name : nm . String ( ) }
for _ , nd := range ast . Scope [ nm ] {
if d , ok := nd . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
}
}
return true
} )
}
}
return nil
}
func ( p * project ) checkAttributes ( t cc . Type ) ( r bool ) {
r = true
for _ , v := range t . Attributes ( ) {
cc . Inspect ( v , func ( n cc . Node , entry bool ) bool {
if ! entry {
return true
}
switch x := n . ( type ) {
case * cc . AttributeValue :
if x . Token . Value != idAligned {
break
}
//TODO switch v := x.ExpressionList.AssignmentExpression.Operand.Value().(type) {
//TODO default:
//TODO panic(todo("%T(%v)", v, v))
//TODO }
}
return true
} )
}
switch t . Kind ( ) {
case cc . Struct , cc . Union :
for i := [ ] int { 0 } ; i [ 0 ] < t . NumField ( ) ; i [ 0 ] ++ {
f := t . FieldByIndex ( i )
if ! p . checkAttributes ( f . Type ( ) ) {
return false
}
sd := f . Declarator ( )
if sd == nil {
continue
}
cc . Inspect ( sd . StructDeclaration ( ) . SpecifierQualifierList , func ( n cc . Node , entry bool ) bool {
if ! entry {
return true
}
switch x := n . ( type ) {
case * cc . AttributeValue :
if x . Token . Value == idPacked {
p . err ( sd , "unsupported attribute: packed" )
r = false
return false
}
if x . Token . Value != idAligned {
break
}
switch v := x . ExpressionList . AssignmentExpression . Operand . Value ( ) . ( type ) {
case cc . Int64Value :
if int ( v ) != t . Align ( ) {
p . err ( sd , "unsupported attribute: alignment" )
r = false
return false
}
default :
panic ( todo ( "%T(%v)" , v , v ) )
}
}
return true
} )
if ! r {
return false
}
}
}
return r
}
func unCapitalize ( s string ) string {
if strings . HasPrefix ( s , "_" ) {
return s
}
a := [ ] rune ( s )
return strings . ToLower ( string ( a [ 0 ] ) ) + string ( a [ 1 : ] )
}
func capitalize ( s string ) string {
if strings . HasPrefix ( s , "_" ) {
s = "X" + s
}
a := [ ] rune ( s )
return strings . ToUpper ( string ( a [ 0 ] ) ) + string ( a [ 1 : ] )
}
func ( p * project ) main ( ) error {
targs := append ( [ ] string ( nil ) , p . task . args ... )
for i , v := range targs {
if v == "" {
targs [ i ] = ` "" `
}
}
p . o ( ` // Code generated by '%s %s', DO NOT EDIT.
package % s
` ,
filepath . Base ( p . task . args [ 0 ] ) ,
strings . Join ( targs [ 1 : ] , " " ) ,
p . task . pkgName ,
)
if len ( p . defineLines ) != 0 {
p . w ( "\nconst (" )
p . w ( "%s" , strings . Join ( p . defineLines , "\n" ) )
p . w ( "\n)\n\n" )
}
var a [ ] * enumSpec
for _ , es := range p . enumSpecs {
if es . spec . LexicalScope ( ) . Parent ( ) == nil && ! es . emitted {
a = append ( a , es )
}
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . decl . Position ( ) . String ( ) < a [ j ] . decl . Position ( ) . String ( )
} )
for _ , es := range a {
es . emit ( p )
}
for i , v := range p . task . asts {
var t0 time . Time
if p . task . traceTranslationUnits {
fmt . Printf ( "Go back end %v/%v: %s ... " , i + 1 , len ( p . task . asts ) , filepath . Base ( p . task . sources [ i ] . Name ) )
t0 = time . Now ( )
}
p . oneAST ( v )
if p . task . traceTranslationUnits {
fmt . Println ( time . Since ( t0 ) )
}
p . task . asts [ i ] = nil
memGuard ( i , p . task . isScripted )
}
sort . Slice ( p . task . imported , func ( i , j int ) bool { return p . task . imported [ i ] . path < p . task . imported [ j ] . path } )
p . o ( ` import (
"math"
"reflect"
"sync/atomic"
"unsafe"
` )
if len ( p . verifyStructs ) != 0 {
p . o ( "\t\"fmt\"\n" )
}
first := true
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libc := false
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for _ , v := range p . task . imported {
if v . used {
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if v . path == p . task . crtImportPath {
libc = true
}
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if first {
p . o ( "\n" )
first = false
}
p . o ( "\t%q\n" , v . path )
}
}
if p . task . crtImportPath != "" {
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if ! libc {
p . o ( "\t%q\n" , p . task . crtImportPath )
}
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p . o ( "\t%q\n" , p . task . crtImportPath + "/sys/types" )
}
p . o ( ` )
var _ = math . Pi
var _ reflect . Kind
var _ atomic . Value
var _ unsafe . Pointer
` )
if p . task . crtImportPath != "" {
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if libc {
p . o ( "var _ *libc.TLS\n" )
}
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p . o ( "var _ types.Size_t\n" )
}
if p . isMain {
p . o ( `
func main ( ) { % sStart ( % s ) } ` , p . task . crt , p . mainName )
}
p . flushStructs ( )
p . initPatches ( )
p . flushTS ( )
if ! p . task . noCapi {
p . flushCAPI ( )
}
p . doVerifyStructs ( )
if err := p . Err ( ) ; err != nil {
return err
}
if _ , err := p . buf . WriteTo ( p . task . out ) ; err != nil {
return err
}
return p . Err ( )
}
func ( p * project ) doVerifyStructs ( ) {
if len ( p . verifyStructs ) == 0 {
return
}
var a [ ] string
for k := range p . verifyStructs {
a = append ( a , k )
}
sort . Strings ( a )
p . w ( "\n\nfunc init() {" )
n := 0
for _ , k := range a {
t := p . verifyStructs [ k ]
p . w ( "\nvar v%d %s" , n , k )
p . w ( "\nif g, e := unsafe.Sizeof(v%d), uintptr(%d); g != e { panic(fmt.Sprintf(`invalid struct/union size, got %%v, expected %%v`, g, e))}" , n , t . Size ( ) )
nf := t . NumField ( )
for idx := [ ] int { 0 } ; idx [ 0 ] < nf ; idx [ 0 ] ++ {
f := t . FieldByIndex ( idx )
if f . IsFlexible ( ) {
break
}
if f . IsBitField ( ) || f . Type ( ) . Size ( ) == 0 {
continue
}
nm := p . fieldName2 ( f . Declarator ( ) , f )
switch {
case t . Kind ( ) == cc . Union :
if f . Offset ( ) != 0 {
panic ( todo ( "" ) )
}
if idx [ 0 ] != 0 {
break
}
fallthrough
default :
p . w ( "\nif g, e := unsafe.Offsetof(v%d.%s), uintptr(%d); g != e { panic(fmt.Sprintf(`invalid struct/union field offset, got %%v, expected %%v`, g, e))}" , n , nm , f . Offset ( ) )
p . w ( "\nif g, e := unsafe.Sizeof(v%d.%s), uintptr(%d); g != e { panic(fmt.Sprintf(`invalid struct/union field size, got %%v, expected %%v`, g, e))}" , n , nm , f . Type ( ) . Size ( ) )
}
}
n ++
}
p . w ( "\n}\n" )
}
func ( p * project ) flushCAPI ( ) {
if p . isMain {
return
}
b := bytes . NewBuffer ( nil )
fmt . Fprintf ( b , ` // Code generated by '%s %s', DO NOT EDIT.
package % s
` ,
filepath . Base ( p . task . args [ 0 ] ) ,
strings . Join ( p . task . args [ 1 : ] , " " ) ,
p . task . pkgName ,
)
fmt . Fprintf ( b , "\n\nvar CAPI = map[string]struct{}{" )
sort . Strings ( p . capi )
for _ , nm := range p . capi {
fmt . Fprintf ( b , "\n%q: {}," , nm )
}
fmt . Fprintf ( b , "\n}\n" )
if err := ioutil . WriteFile ( p . task . capif , b . Bytes ( ) , 0644 ) ; err != nil {
p . err ( nil , "%v" , err )
return
}
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if out , err := exec . Command ( "gofmt" , "-r" , "(x) -> x" , "-l" , "-s" , "-w" , p . task . capif ) . CombinedOutput ( ) ; err != nil {
p . err ( nil , "%s: %v" , out , err )
}
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if out , err := exec . Command ( "gofmt" , "-l" , "-s" , "-w" , p . task . capif ) . CombinedOutput ( ) ; err != nil {
p . err ( nil , "%s: %v" , out , err )
}
}
func ( p * project ) initPatches ( ) {
var tlds [ ] * tld
for _ , tld := range p . tlds {
if len ( tld . patches ) != 0 {
tlds = append ( tlds , tld )
}
}
if len ( tlds ) == 0 {
return
}
sort . Slice ( tlds , func ( i , j int ) bool { return tlds [ i ] . name < tlds [ j ] . name } )
p . w ( "\n\nfunc init() {" )
for _ , tld := range tlds {
for _ , patch := range tld . patches {
var fld string
if patch . fld != nil {
fld = fmt . Sprintf ( "/* .%s */" , patch . fld . Name ( ) )
}
init := patch . init
expr := init . AssignmentExpression
d := expr . Declarator ( )
switch {
case d != nil && d . Type ( ) . Kind ( ) == cc . Function :
p . w ( "\n*(*" )
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p . functionSignature ( d , nil , d . Type ( ) , "" )
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p . w ( ")(unsafe.Pointer(uintptr(unsafe.Pointer(&%s))+%d%s)) = " , tld . name , init . Offset , fld )
p . declarator ( init , nil , d , d . Type ( ) , exprFunc , 0 )
default :
p . w ( "\n*(*%s)(unsafe.Pointer(uintptr(unsafe.Pointer(&%s))+%d%s)) = " , p . typ ( init , patch . t ) , tld . name , init . Offset , fld )
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p . assignmentExpression ( nil , expr , patch . t , exprValue , 0 )
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}
p . w ( "// %s:" , p . pos ( init ) )
}
}
p . w ( "\n}\n" )
}
func ( p * project ) Err ( ) error {
if len ( p . errors ) == 0 {
return nil
}
var lpos token . Position
w := 0
for _ , v := range p . errors {
if lpos . Filename != "" {
if v . Pos . Filename == lpos . Filename && v . Pos . Line == lpos . Line && ! strings . HasPrefix ( v . Msg , tooManyErrors ) {
continue
}
}
p . errors [ w ] = v
w ++
lpos = v . Pos
}
p . errors = p . errors [ : w ]
sort . Slice ( p . errors , func ( i , j int ) bool {
a := p . errors [ i ]
if a . Msg == tooManyErrors {
return false
}
b := p . errors [ j ]
if b . Msg == tooManyErrors {
return true
}
if ! a . Pos . IsValid ( ) && b . Pos . IsValid ( ) {
return true
}
if a . Pos . IsValid ( ) && ! b . Pos . IsValid ( ) {
return false
}
if a . Pos . Filename < b . Pos . Filename {
return true
}
if a . Pos . Filename > b . Pos . Filename {
return false
}
if a . Pos . Line < b . Pos . Line {
return true
}
if a . Pos . Line > b . Pos . Line {
return false
}
return a . Pos . Column < b . Pos . Column
} )
a := make ( [ ] string , 0 , len ( p . errors ) )
for _ , v := range p . errors {
a = append ( a , v . Error ( ) )
}
return fmt . Errorf ( "%s" , strings . Join ( a , "\n" ) )
}
func ( p * project ) flushTS ( ) {
b := p . ts . Bytes ( )
if len ( b ) != 0 {
p . w ( "\n\n" )
//TODO add cmd line option for this
//TODO s := strings.TrimSpace(hex.Dump(b))
//TODO a := strings.Split(s, "\n")
//TODO p.w("// %s\n", strings.Join(a, "\n// "))
p . w ( "var %s = %q\n" , p . tsName , b )
p . w ( "var %s = (*reflect.StringHeader)(unsafe.Pointer(&%s)).Data\n" , p . tsNameP , p . tsName )
}
if len ( p . tsW ) != 0 {
p . w ( "var %s = [...]%s{" , p . tsWName , p . typ ( nil , p . ast . WideCharType ) )
for _ , v := range p . tsW {
p . w ( "%d, " , v )
}
p . w ( "}\n" )
p . w ( "var %s = uintptr(unsafe.Pointer(&%s[0]))\n" , p . tsWNameP , p . tsWName )
}
}
func ( p * project ) flushStructs ( ) {
var a [ ] * taggedStruct
for _ , v := range p . structs {
if ! v . emitted {
a = append ( a , v )
}
}
sort . Slice ( a , func ( i , j int ) bool { return a [ i ] . name < a [ j ] . name } )
for _ , v := range a {
v . emit ( p , nil )
}
}
func ( p * project ) oneAST ( ast * cc . AST ) {
p . ast = ast
for list := ast . TranslationUnit ; list != nil ; list = list . TranslationUnit {
p . externalDeclaration ( list . ExternalDeclaration )
}
p . w ( "%s" , tidyCommentString ( ast . TrailingSeperator . String ( ) ) )
}
func ( p * project ) externalDeclaration ( n * cc . ExternalDeclaration ) {
switch n . Case {
case cc . ExternalDeclarationFuncDef : // FunctionDefinition
p . functionDefinition ( n . FunctionDefinition )
case cc . ExternalDeclarationDecl : // Declaration
p . declaration ( nil , n . Declaration , false )
case cc . ExternalDeclarationAsm : // AsmFunctionDefinition
// nop
case cc . ExternalDeclarationAsmStmt : // AsmStatement
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ExternalDeclarationEmpty : // ';'
// nop
case cc . ExternalDeclarationPragma : // PragmaSTDC
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) declaration ( f * function , n * cc . Declaration , topDecl bool ) {
cc . Inspect ( n . DeclarationSpecifiers , func ( m cc . Node , entry bool ) bool {
switch x := m . ( type ) {
case * cc . EnumSpecifier :
if f == nil {
p . enumSpecs [ x ] . emit ( p )
}
case * cc . StructOrUnionSpecifier :
if tag := x . Token . Value ; tag != 0 {
switch {
case f == nil :
p . structs [ tag ] . emit ( p , n . DeclarationSpecifiers )
default :
p . localTaggedStructs = append ( p . localTaggedStructs , func ( ) {
p . structs [ tag ] . emit ( p , n . DeclarationSpecifiers )
} )
}
}
}
return true
} )
if n . InitDeclaratorList == nil {
return
}
// DeclarationSpecifiers InitDeclaratorList ';'
sep := tidyComment ( "\n" , n ) //TODO repeats
for list := n . InitDeclaratorList ; list != nil ; list = list . InitDeclaratorList {
p . initDeclarator ( f , list . InitDeclarator , sep , topDecl )
sep = "\n"
}
}
func ( p * project ) initDeclarator ( f * function , n * cc . InitDeclarator , sep string , topDecl bool ) {
if f == nil {
p . tld ( f , n , sep , false )
return
}
d := n . Declarator
if d . IsExtern ( ) || d . IsTypedefName {
return
}
if tld := p . tlds [ d ] ; tld != nil && ! topDecl { // static local
if ! p . pass1 {
p . staticQueue = append ( p . staticQueue , n )
}
return
}
local := f . locals [ d ]
if local == nil { // Dead declaration.
return
}
block := f . block
t := d . Type ( )
vla := t . Kind ( ) == cc . Array && t . IsVLA ( )
if vla && p . pass1 {
f . vlas [ d ] = struct { } { }
return
}
switch n . Case {
case cc . InitDeclaratorDecl : // Declarator AttributeSpecifierList
if block . noDecl || block . topDecl && ! topDecl {
return
}
switch {
case vla :
p . initDeclaratorDeclVLA ( f , n , sep )
default :
p . initDeclaratorDecl ( f , n , sep )
}
case cc . InitDeclaratorInit : // Declarator AttributeSpecifierList '=' Initializer
if vla {
panic ( todo ( "" ) )
}
if f . block . topDecl {
switch {
case topDecl :
p . initDeclaratorDecl ( f , n , sep )
if local . forceRead && ! local . isPinned {
p . w ( "_ = %s;" , local . name )
}
default :
sv := f . condInitPrefix
f . condInitPrefix = func ( ) {
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p . declarator ( d , f , d , d . Type ( ) , exprLValue , 0 )
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p . w ( " = " )
}
switch {
case p . isConditionalInitializer ( n . Initializer ) :
p . assignmentExpression ( f , n . Initializer . AssignmentExpression , d . Type ( ) , exprCondInit , 0 )
default :
f . condInitPrefix ( )
p . initializer ( f , n . Initializer , d . Type ( ) , d . StorageClass , nil )
}
f . condInitPrefix = sv
p . w ( ";" )
}
return
}
p . w ( "%s" , sep )
switch {
case local . isPinned :
sv := f . condInitPrefix
f . condInitPrefix = func ( ) {
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//TODO- p.declarator(d, f, d, d.Type(), exprLValue, 0)
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//TODO- p.w(" = ")
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */)) = " , p . typ ( n , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
}
switch {
case p . isConditionalInitializer ( n . Initializer ) :
p . assignmentExpression ( f , n . Initializer . AssignmentExpression , d . Type ( ) , exprCondInit , 0 )
default :
f . condInitPrefix ( )
p . initializer ( f , n . Initializer , d . Type ( ) , d . StorageClass , nil )
p . w ( ";" )
}
f . condInitPrefix = sv
p . w ( ";" )
default :
var semi string
switch {
case block . noDecl :
semi = ""
default :
p . w ( "var %s " , local . name )
if ! isAggregateTypeOrUnion ( d . Type ( ) ) {
p . w ( "%s " , p . typ ( n , d . Type ( ) ) )
}
semi = ";"
}
switch {
case p . isConditionalInitializer ( n . Initializer ) :
p . w ( "%s" , semi )
sv := f . condInitPrefix
f . condInitPrefix = func ( ) { p . w ( "%s = " , local . name ) }
p . assignmentExpression ( f , n . Initializer . AssignmentExpression , d . Type ( ) , exprCondInit , 0 )
f . condInitPrefix = sv
default :
if block . noDecl {
p . w ( "%s" , local . name )
}
p . w ( " = " )
p . initializer ( f , n . Initializer , d . Type ( ) , d . StorageClass , nil )
}
p . w ( ";" )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
if ! block . noDecl && local . forceRead && ! local . isPinned {
p . w ( "_ = %s;" , local . name )
}
}
func ( p * project ) isConditionalInitializer ( n * cc . Initializer ) bool {
return n . Case == cc . InitializerExpr && p . isConditionalAssignmentExpr ( n . AssignmentExpression )
}
func ( p * project ) isConditionalAssignmentExpr ( n * cc . AssignmentExpression ) bool {
return n . Case == cc . AssignmentExpressionCond &&
n . ConditionalExpression . Case == cc . ConditionalExpressionCond
}
func ( p * project ) initDeclaratorDeclVLA ( f * function , n * cc . InitDeclarator , sep string ) {
d := n . Declarator
local := f . locals [ d ]
if strings . TrimSpace ( sep ) == "" {
sep = "\n"
}
if local . isPinned {
panic ( todo ( "" ) )
p . w ( "%s// var %s %s at %s%s, %d\n" , sep , local . name , p . typ ( n , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , d . Type ( ) . Size ( ) )
return
}
p . w ( "%s%s = %sXrealloc(%s, %s, types.Size_t(" , sep , local . name , p . task . crt , f . tlsName , local . name )
e := d . Type ( ) . LenExpr ( )
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p . assignmentExpression ( f , e , e . Operand . Type ( ) , exprValue , 0 )
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if sz := d . Type ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
p . w ( "));" )
}
func ( p * project ) initDeclaratorDecl ( f * function , n * cc . InitDeclarator , sep string ) {
d := n . Declarator
local := f . locals [ d ]
if strings . TrimSpace ( sep ) == "" {
sep = "\n"
}
if local . isPinned {
p . w ( "%s// var %s %s at %s%s, %d\n" , sep , local . name , p . typ ( n , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , d . Type ( ) . Size ( ) )
return
}
p . w ( "%svar %s %s;" , sep , local . name , p . typ ( n , d . Type ( ) ) )
}
func ( p * project ) declarator ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprLValue :
p . declaratorLValue ( n , f , d , t , mode , flags )
case exprFunc :
p . declaratorFunc ( n , f , d , t , mode , flags )
case exprValue :
p . declaratorValue ( n , f , d , t , mode , flags )
case exprAddrOf :
p . declaratorAddrOf ( n , f , d , t , flags )
case exprSelect :
p . declaratorSelect ( n , f , d )
case exprDecay :
p . declaratorDecay ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , mode ) )
}
}
func ( p * project ) declaratorDecay ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if d . Type ( ) . Kind ( ) != cc . Array {
panic ( todo ( "" , n . Position ( ) , p . pos ( d ) ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if d . Type ( ) . IsVLA ( ) {
switch {
case local . isPinned :
panic ( todo ( "" ) )
default :
p . w ( "%s" , local . name )
return
}
}
if d . IsParameter {
p . w ( "%s" , local . name )
return
}
if p . pass1 {
if ! d . Type ( ) . IsVLA ( ) {
f . pin ( n , d )
}
return
}
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if ! local . isPinned {
p . err ( n , "%v: %v: missed pinning" , n . Position ( ) , d . Position ( ) , d . Name ( ) )
}
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p . w ( "(%s%s)/* &%s[0] */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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return
}
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
case * imported :
x . used = true
p . w ( "uintptr(unsafe.Pointer(&%sX%s))" , x . qualifier , d . Name ( ) )
default :
panic ( todo ( "%v: %v: %q %T" , n . Position ( ) , p . pos ( d ) , d . Name ( ) , x ) )
}
}
func ( p * project ) declaratorValue ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
switch k := p . declaratorKind ( d ) ; k {
case opNormal :
p . declaratorValueNormal ( n , f , d , t , mode , flags )
case opArray :
p . declaratorValueArray ( n , f , d , t , mode , flags )
case opFunction :
p . declarator ( n , f , d , t , exprAddrOf , flags )
case opUnion :
p . declaratorValueUnion ( n , f , d , t , mode , flags )
case opArrayParameter :
p . declaratorValueArrayParameter ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , d . Position ( ) , k ) )
}
}
func ( p * project ) declaratorValueArrayParameter ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if d . Type ( ) . IsScalarType ( ) {
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
}
local := f . locals [ d ]
if local . isPinned {
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */))" , p . typ ( n , paramTypeDecay ( d ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
}
func ( p * project ) declaratorValueUnion ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if d . Type ( ) . IsScalarType ( ) {
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */))" , p . typ ( d , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
}
p . declaratorDefault ( n , d )
}
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func ( p * project ) isVolatileOrAtomic ( d * cc . Declarator ) bool {
if d . Type ( ) . IsVolatile ( ) || d . Type ( ) . IsAtomic ( ) {
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return true
}
_ , ok := p . task . volatiles [ d . Name ( ) ]
return ok
}
func ( p * project ) declaratorDefault ( n cc . Node , d * cc . Declarator ) {
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
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if p . isVolatileOrAtomic ( d ) {
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p . atomicLoadNamedAddr ( n , d . Type ( ) , x . name )
return
}
p . w ( "%s" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
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if p . isVolatileOrAtomic ( d ) {
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p . atomicLoadNamedAddr ( n , d . Type ( ) , x . name )
return
}
p . w ( "%s" , x . name )
case * imported :
x . used = true
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if p . isVolatileOrAtomic ( d ) {
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p . atomicLoadNamedAddr ( n , d . Type ( ) , fmt . Sprintf ( "%sX%s" , x . qualifier , d . Name ( ) ) )
return
}
p . w ( "%sX%s" , x . qualifier , d . Name ( ) )
default :
if d . IsExtern ( ) {
switch d . Name ( ) {
case idEnviron :
if d . Type ( ) . String ( ) == "pointer to pointer to char" {
p . w ( "%sEnviron()" , p . task . crt )
return
}
}
}
if d . Linkage == cc . External && p . task . nostdlib {
p . w ( "X%s" , d . Name ( ) )
return
}
id := fmt . Sprintf ( "__builtin_%s" , d . Name ( ) )
switch x := p . symtab [ id ] . ( type ) {
case * imported :
x . used = true
p . w ( "%sX%s" , x . qualifier , d . Name ( ) )
return
}
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if ! d . IsImplicit ( ) {
nm := d . Name ( )
name := nm . String ( )
switch d . Linkage {
case cc . External :
name = p . task . exportExterns + name
tld := & tld { name : name }
p . externs [ nm ] = tld
p . w ( "%s" , name )
return
case cc . Internal :
if token . IsExported ( name ) {
name = "s" + name
}
tld := & tld { name : p . scope . take ( cc . String ( name ) ) }
for _ , v := range p . ast . Scope [ nm ] {
if d , ok := v . ( * cc . Declarator ) ; ok {
p . tlds [ d ] = tld
}
}
p . w ( "%s" , name )
return
}
}
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p . err ( n , "back-end: undefined: %s" , d . Name ( ) )
}
}
func ( p * project ) declaratorValueArray ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if t . IsIntegerType ( ) {
defer p . w ( "%s" , p . convertType ( n , nil , t , flags ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
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p . w ( "(%s%s)/* %s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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return
}
p . w ( "%s" , local . name )
return
}
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorValueNormal ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if d . Type ( ) . IsScalarType ( ) {
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
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if p . isVolatileOrAtomic ( d ) && d . IsParameter && d . Write != 0 {
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p . w ( "%sAtomicLoadP%s(%s%s/* %s */)" , p . task . crt , p . helperType ( n , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */))" , p . typ ( d , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
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if p . isVolatileOrAtomic ( d ) && d . IsParameter && d . Write != 0 {
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p . atomicLoadNamedAddr ( n , d . Type ( ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorFunc ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
switch k := p . declaratorKind ( d ) ; k {
case opFunction :
p . declaratorFuncFunc ( n , f , d , t , exprValue , flags )
case opNormal :
p . declaratorFuncNormal ( n , f , d , t , exprValue , flags )
default :
panic ( todo ( "" , d . Position ( ) , k ) )
}
}
func ( p * project ) declaratorFuncNormal ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
u := d . Type ( )
if u . Kind ( ) == cc . Ptr {
u = u . Elem ( )
}
switch u . Kind ( ) {
case cc . Function :
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "(*(*" )
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p . functionSignature ( n , f , u , "" )
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p . w ( ")(unsafe.Pointer(%s%s)))" , f . bpName , nonZeroUintptr ( local . off ) )
return
}
if d . IsParameter {
p . w ( "(*(*" )
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p . functionSignature ( n , f , u , "" )
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p . w ( ")(unsafe.Pointer(&%s)))" , local . name )
return
}
panic ( todo ( "" , p . pos ( d ) ) )
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "(*(*" )
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p . functionSignature ( n , f , u , "" )
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p . w ( ")(unsafe.Pointer(&%s)))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "(*(*" )
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p . functionSignature ( n , f , u , "" )
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p . w ( ")(unsafe.Pointer(&%s)))" , x . name )
case * imported :
x . used = true
p . w ( "uintptr(unsafe.Pointer(&%sX%s))" , x . qualifier , d . Name ( ) )
default :
panic ( todo ( "%v: %v: %q" , n . Position ( ) , p . pos ( d ) , d . Name ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( d ) , u ) )
}
}
func ( p * project ) declaratorFuncFunc ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
switch d . Type ( ) . Kind ( ) {
case cc . Function :
// ok
default :
panic ( todo ( "" , p . pos ( d ) , d . Type ( ) , d . Type ( ) . Kind ( ) ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
panic ( todo ( "" ) )
}
p . w ( " %s" , local . name )
return
}
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorLValue ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
switch k := p . declaratorKind ( d ) ; k {
case opNormal , opArrayParameter , opUnion :
p . declaratorLValueNormal ( n , f , d , t , mode , flags )
case opArray :
p . declaratorLValueArray ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , d . Position ( ) , k ) )
}
}
func ( p * project ) declaratorLValueArray ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */))" , p . typ ( d , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorLValueNormal ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , mode exprMode , flags flags ) {
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if p . isVolatileOrAtomic ( d ) {
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panic ( todo ( "" , n . Position ( ) , d . Position ( ) ) )
}
if d . Type ( ) . IsScalarType ( ) {
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "*(*%s)(unsafe.Pointer(%s%s/* %s */))" , p . dtyp ( d ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
}
p . declaratorLValueDefault ( n , d )
}
func ( p * project ) declaratorLValueDefault ( n cc . Node , d * cc . Declarator ) {
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "%s" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "%s" , x . name )
case * imported :
x . used = true
p . w ( "%sX%s" , x . qualifier , d . Name ( ) )
default :
if d . IsExtern ( ) {
switch d . Name ( ) {
case idEnviron :
if d . Type ( ) . String ( ) == "pointer to pointer to char" {
p . w ( "*(*uintptr)(unsafe.Pointer(%sEnvironP()))" , p . task . crt )
return
}
}
}
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panic ( todo ( "%v: %v: %q" , n . Position ( ) , p . pos ( d ) , d . Name ( ) ) )
}
}
func ( p * project ) declaratorKind ( d * cc . Declarator ) opKind {
switch {
case p . isArrayParameterDeclarator ( d ) :
return opArrayParameter
case ! p . pass1 && p . isArrayDeclarator ( d ) :
return opArray
case d . Type ( ) . Kind ( ) == cc . Function && ! d . IsParameter :
return opFunction
case d . Type ( ) . Kind ( ) == cc . Union :
return opUnion
default :
return opNormal
}
}
func ( p * project ) declaratorSelect ( n cc . Node , f * function , d * cc . Declarator ) {
switch k := p . declaratorKind ( d ) ; k {
case opNormal :
p . declaratorSelectNormal ( n , f , d )
case opArray :
p . declaratorSelectArray ( n , f , d )
default :
panic ( todo ( "" , d . Position ( ) , k ) )
}
}
func ( p * project ) declaratorSelectArray ( n cc . Node , f * function , d * cc . Declarator ) {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
panic ( todo ( "" , p . pos ( n ) ) )
//TODO type error
p . w ( "(*%s)(unsafe.Pointer(%s%s/* &%s */))" , p . typ ( d , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorSelectNormal ( n cc . Node , f * function , d * cc . Declarator ) {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "(*%s)(unsafe.Pointer(%s%s/* &%s */))" , p . typ ( d , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
return
}
p . w ( "%s" , local . name )
return
}
p . declaratorDefault ( n , d )
}
func ( p * project ) declaratorAddrOf ( n cc . Node , f * function , d * cc . Declarator , t cc . Type , flags flags ) {
switch k := p . declaratorKind ( d ) ; k {
case opArray :
p . declaratorAddrOfArray ( n , f , d )
case opNormal :
p . declaratorAddrOfNormal ( n , f , d , flags )
case opUnion :
p . declaratorAddrOfUnion ( n , f , d )
case opFunction :
p . declaratorAddrOfFunction ( n , f , d )
case opArrayParameter :
p . declaratorAddrOfArrayParameter ( n , f , d )
default :
panic ( todo ( "" , d . Position ( ) , k ) )
}
}
func ( p * project ) declaratorAddrOfArrayParameter ( n cc . Node , f * function , d * cc . Declarator ) {
if p . pass1 {
f . pin ( n , d )
return
}
local := f . locals [ d ]
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p . w ( "(%s%s)/* &%s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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}
func ( p * project ) declaratorAddrOfFunction ( n cc . Node , f * function , d * cc . Declarator ) {
if d . Type ( ) . Kind ( ) != cc . Function {
panic ( todo ( "" , p . pos ( n ) ) )
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "*(*uintptr)(unsafe.Pointer(&struct{f " )
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p . functionSignature ( n , f , d . Type ( ) , "" )
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p . w ( "}{%s}))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "*(*uintptr)(unsafe.Pointer(&struct{f " )
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p . functionSignature ( n , f , d . Type ( ) , "" )
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p . w ( "}{%s}))" , x . name )
case * imported :
x . used = true
p . w ( "*(*uintptr)(unsafe.Pointer(&struct{f " )
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p . functionSignature ( n , f , d . Type ( ) , "" )
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p . w ( "}{%sX%s}))" , x . qualifier , d . Name ( ) )
default :
p . err ( d , "back-end: undefined: %s" , d . Name ( ) )
}
}
func ( p * project ) declaratorAddrOfUnion ( n cc . Node , f * function , d * cc . Declarator ) {
if f != nil {
if local := f . locals [ d ] ; local != nil {
if p . pass1 {
f . pin ( n , d )
return
}
if local . isPinned {
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p . w ( "(%s%s)/* &%s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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return
}
panic ( todo ( "" , p . pos ( n ) ) )
}
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
case * imported :
x . used = true
p . w ( "uintptr(unsafe.Pointer(&%sX%s))" , x . qualifier , d . Name ( ) )
default :
panic ( todo ( "%v: %v: %q" , n . Position ( ) , p . pos ( d ) , d . Name ( ) ) )
}
}
func ( p * project ) declaratorAddrOfNormal ( n cc . Node , f * function , d * cc . Declarator , flags flags ) {
if f != nil {
if local := f . locals [ d ] ; local != nil {
if p . pass1 && flags & fAddrOfFuncPtrOk == 0 {
f . pin ( n , d )
return
}
if local . isPinned {
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p . w ( "(%s%s)/* &%s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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return
}
if flags & fAddrOfFuncPtrOk != 0 {
if dt := d . Type ( ) ; dt . Kind ( ) == cc . Ptr {
if elem := dt . Elem ( ) ; elem . Kind ( ) == cc . Function || elem . Kind ( ) == cc . Ptr && elem . Elem ( ) . Kind ( ) == cc . Function {
p . w ( "&%s" , local . name )
return
}
}
}
panic ( todo ( "" , p . pos ( n ) , p . pos ( d ) , d . Name ( ) , d . Type ( ) , d . IsParameter , d . AddressTaken , flags & fAddrOfFuncPtrOk != 0 ) )
}
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
case * imported :
x . used = true
p . w ( "uintptr(unsafe.Pointer(&%sX%s))" , x . qualifier , d . Name ( ) )
default :
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p . err ( n , "undefined: %s" , d . Name ( ) )
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}
}
func ( p * project ) declaratorAddrOfArray ( n cc . Node , f * function , d * cc . Declarator ) {
if f != nil {
if local := f . locals [ d ] ; local != nil {
if p . pass1 {
f . pin ( n , d )
return
}
if local . isPinned {
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p . w ( "(%s%s)/* &%s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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return
}
panic ( todo ( "" , p . pos ( d ) , d . Name ( ) , d . Type ( ) , d . IsParameter ) )
}
}
if x := p . tlds [ d ] ; x != nil && d . IsStatic ( ) {
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
return
}
switch x := p . symtab [ d . Name ( ) . String ( ) ] . ( type ) {
case * tld :
p . w ( "uintptr(unsafe.Pointer(&%s))" , x . name )
case * imported :
x . used = true
p . w ( "uintptr(unsafe.Pointer(&%sX%s))" , x . qualifier , d . Name ( ) )
default :
panic ( todo ( "%v: %v: %q" , n . Position ( ) , p . pos ( d ) , d . Name ( ) ) )
}
}
func ( p * project ) convertType ( n cc . Node , from , to cc . Type , flags flags ) string {
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// trc("%v: %v: %v -> %v %v", n.Position(), origin(1), from, to, flags) //TODO- DBG
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if from != nil {
switch from . Kind ( ) {
case cc . Int128 :
return p . convertTypeFromInt128 ( n , to , flags )
case cc . UInt128 :
return p . convertTypeFromUint128 ( n , to , flags )
}
}
switch to . Kind ( ) {
case cc . Int128 :
return p . convertTypeToInt128 ( n , from , flags )
case cc . UInt128 :
return p . convertTypeToUint128 ( n , from , flags )
}
// trc("%v: %v -> %v\n%s", p.pos(n), from, to, debug.Stack()[:600]) //TODO-
force := flags & fForceConv != 0
if from == nil {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
if from . IsScalarType ( ) {
switch {
case force :
p . w ( "%s(" , p . helperType2 ( n , from , to ) )
return ")"
case from . Kind ( ) == to . Kind ( ) :
return ""
default :
p . w ( "%s(" , p . typ ( n , to ) )
return ")"
}
}
switch from . Kind ( ) {
case cc . Function , cc . Struct , cc . Union , cc . Ptr , cc . Array :
if from . Kind ( ) == to . Kind ( ) {
return ""
}
panic ( todo ( "" , n . Position ( ) , from , to , from . Alias ( ) , to . Alias ( ) ) )
case cc . Double , cc . Float :
p . w ( "%s(" , p . typ ( n , to ) )
return ")"
}
panic ( todo ( "" , n . Position ( ) , from , to , from . Alias ( ) , to . Alias ( ) ) )
}
func ( p * project ) convertTypeFromInt128 ( n cc . Node , to cc . Type , flags flags ) string {
switch k := to . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "(" )
return fmt . Sprintf ( ").Float%d()" , to . Size ( ) * 8 )
case k == cc . Int128 :
return ""
case k == cc . UInt128 :
p . w ( "%sUint128FromInt128(" , p . task . crt )
return ")"
case to . IsIntegerType ( ) && to . IsSignedType ( ) :
p . w ( "int%d((" , to . Size ( ) * 8 )
return ").Lo)"
case to . IsIntegerType ( ) && ! to . IsSignedType ( ) :
p . w ( "uint%d((" , to . Size ( ) * 8 )
return ").Lo)"
default :
panic ( todo ( "" , n . Position ( ) , to , to . Alias ( ) ) )
}
}
func ( p * project ) convertTypeFromUint128 ( n cc . Node , to cc . Type , flags flags ) string {
switch k := to . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "(" )
return fmt . Sprintf ( ").Float%d()" , to . Size ( ) * 8 )
case k == cc . Int128 :
p . w ( "(" )
return ").Int128()"
case k == cc . UInt128 :
return ""
case to . IsIntegerType ( ) && to . IsSignedType ( ) :
p . w ( "int%d((" , to . Size ( ) * 8 )
return ").Lo)"
case to . IsIntegerType ( ) && ! to . IsSignedType ( ) :
p . w ( "uint%d((" , to . Size ( ) * 8 )
return ").Lo)"
default :
panic ( todo ( "" , n . Position ( ) , to , to . Alias ( ) ) )
}
}
func ( p * project ) convertTypeToInt128 ( n cc . Node , from cc . Type , flags flags ) string {
switch k := from . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "%sInt128FromFloat%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case k == cc . Int128 :
return ""
case k == cc . UInt128 :
p . w ( "%sInt128FromUint128(" , p . task . crt )
return ")"
case from . IsIntegerType ( ) && from . IsSignedType ( ) :
p . w ( "%sInt128FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case from . IsIntegerType ( ) && ! from . IsSignedType ( ) :
p . w ( "%sInt128FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , from , from . Alias ( ) ) )
}
}
func ( p * project ) convertTypeToUint128 ( n cc . Node , from cc . Type , flags flags ) string {
switch k := from . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "%sUint128FromFloat%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case k == cc . Int128 :
p . w ( "(" )
return ").Uint128()"
case k == cc . UInt128 :
return ""
case from . IsIntegerType ( ) && from . IsSignedType ( ) :
p . w ( "%sUint128FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case from . IsIntegerType ( ) && ! from . IsSignedType ( ) :
p . w ( "%sUint128FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , from , from . Alias ( ) ) )
}
}
func ( p * project ) convertFromInt128 ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
switch k := to . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "(" )
return fmt . Sprintf ( ").Float%d()" , to . Size ( ) * 8 )
case k == cc . Int128 :
return ""
case k == cc . UInt128 :
p . w ( "(" )
return ").Uint128()"
case to . IsIntegerType ( ) && to . IsSignedType ( ) :
p . w ( "%sInt%d(" , p . task . crt , to . Size ( ) * 8 )
return ")"
case to . IsIntegerType ( ) && ! to . IsSignedType ( ) :
p . w ( "%sUint%d(" , p . task . crt , to . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , to , to . Alias ( ) ) )
}
}
func ( p * project ) convertFromUint128 ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
switch k := to . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "%sUint128FromFloat%d(" , p . task . crt , to . Size ( ) * 8 )
return ")"
case k == cc . Int128 :
p . w ( "(" )
return ").Int128()"
case k == cc . UInt128 :
return ""
case to . IsIntegerType ( ) && to . IsSignedType ( ) :
p . w ( "%sInt%d(" , p . task . crt , to . Size ( ) * 8 )
return ")"
case to . IsIntegerType ( ) && ! to . IsSignedType ( ) :
p . w ( "%sUint%d(" , p . task . crt , to . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , to , to . Alias ( ) ) )
}
}
func ( p * project ) convertToInt128 ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
from := op . Type ( )
switch k := from . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "%sInt128FromFloat%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case k == cc . Int128 :
return ""
case k == cc . UInt128 :
p . w ( "(" )
return ").Int128()"
case from . IsIntegerType ( ) && from . IsSignedType ( ) :
p . w ( "%sInt128FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case from . IsIntegerType ( ) && ! from . IsSignedType ( ) :
p . w ( "%sInt128FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , from , from . Alias ( ) ) )
}
}
func ( p * project ) convertToUint128 ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
from := op . Type ( )
switch k := from . Kind ( ) ; {
case k == cc . Float , k == cc . Double :
p . w ( "%sUint128FromFloat%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case k == cc . Int128 :
p . w ( "(" )
return ").Uint128()"
case k == cc . UInt128 :
return ""
case from . IsIntegerType ( ) && from . IsSignedType ( ) :
p . w ( "%sUint128FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case from . IsIntegerType ( ) && ! from . IsSignedType ( ) :
p . w ( "%sUint128FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "" , n . Position ( ) , from , from . Alias ( ) ) )
}
}
func ( p * project ) convertNil ( n cc . Node , to cc . Type , flags flags ) string {
switch to . Kind ( ) {
case cc . Int128 :
panic ( todo ( "" , pos ( n ) ) )
case cc . UInt128 :
panic ( todo ( "" , pos ( n ) ) )
}
p . w ( "%s(" , p . typ ( n , to ) )
return ")"
}
func ( p * project ) convert ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
if op == nil {
panic ( todo ( "internal error" ) )
}
from := op . Type ( )
switch from . Kind ( ) {
case cc . Int128 :
return p . convertFromInt128 ( n , op , to , flags )
case cc . UInt128 :
return p . convertFromUint128 ( n , op , to , flags )
}
switch to . Kind ( ) {
case cc . Int128 :
return p . convertToInt128 ( n , op , to , flags )
case cc . UInt128 :
return p . convertToUint128 ( n , op , to , flags )
}
if flags & fForceRuntimeConv != 0 {
flags |= fForceConv
}
force := flags & fForceConv != 0
if ! force && from . IsScalarType ( ) && from . Kind ( ) == to . Kind ( ) {
return ""
}
if from . IsIntegerType ( ) {
return p . convertInt ( n , op , to , flags )
}
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if from == to {
return ""
}
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switch from . Kind ( ) {
case cc . Ptr :
if ! force && from . Kind ( ) == to . Kind ( ) {
return ""
}
if to . IsIntegerType ( ) {
p . w ( "%s(" , p . typ ( n , to ) )
return ")"
}
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if to . Kind ( ) == cc . Ptr {
return ""
}
panic ( todo ( "%v: force %v, %q %v -> %q %v" , p . pos ( n ) , force , from , from . Kind ( ) , to , to . Kind ( ) ) )
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case cc . Function , cc . Struct , cc . Union :
if ! force && from . Kind ( ) == to . Kind ( ) {
return ""
}
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trc ( "%p %p" , from , to )
panic ( todo ( "%q %v -> %q %v" , from , from . Kind ( ) , to , to . Kind ( ) ) )
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case cc . Double , cc . Float :
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switch {
case to . IsIntegerType ( ) :
p . w ( "%s(" , p . helperType2 ( n , from , to ) )
return ")"
default :
p . w ( "%s(" , p . typ ( n , to ) )
return ")"
}
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case cc . Array :
if from . Kind ( ) == to . Kind ( ) {
return ""
}
switch to . Kind ( ) {
case cc . Ptr :
return ""
}
panic ( todo ( "%q, %v -> %q, %v" , from , from . Kind ( ) , to . Kind ( ) ) )
}
panic ( todo ( "%q -> %q" , from , to ) )
}
func ( p * project ) convertInt ( n cc . Node , op cc . Operand , to cc . Type , flags flags ) string {
from := op . Type ( )
switch from . Kind ( ) {
case cc . Int128 :
panic ( todo ( "" , pos ( n ) ) )
case cc . UInt128 :
panic ( todo ( "" , pos ( n ) ) )
}
switch to . Kind ( ) {
case cc . Int128 :
panic ( todo ( "" , pos ( n ) ) )
case cc . UInt128 :
panic ( todo ( "" , pos ( n ) ) )
}
force := flags & fForceConv != 0
value := op . Value ( )
if value == nil || ! to . IsIntegerType ( ) {
if to . IsScalarType ( ) {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
panic ( todo ( "" , op . Type ( ) , to ) )
}
if flags & fForceRuntimeConv != 0 {
p . w ( "%s(" , p . helperType2 ( n , op . Type ( ) , to ) )
return ")"
}
switch {
case from . IsSignedType ( ) :
switch {
case to . IsSignedType ( ) :
switch x := value . ( type ) {
case cc . Int64Value :
switch to . Size ( ) {
case 1 :
if x >= math . MinInt8 && x <= math . MaxInt8 {
switch {
case ! force && from . Size ( ) == to . Size ( ) :
return ""
default :
p . w ( "int8(" )
return ")"
}
}
p . w ( "%sInt8FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 2 :
if x >= math . MinInt16 && x <= math . MaxInt16 {
switch {
case ! force && from . Size ( ) == to . Size ( ) :
return ""
default :
p . w ( "int16(" )
return ")"
}
}
p . w ( "%sInt16FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 4 :
if x >= math . MinInt32 && x <= math . MaxInt32 {
switch {
case ! force && from . Size ( ) == to . Size ( ) :
return ""
default :
p . w ( "int32(" )
return ")"
}
}
p . w ( "%sInt32FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 8 :
switch {
case ! force && from . Size ( ) == to . Size ( ) :
return ""
default :
p . w ( "int64(" )
return ")"
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default : // to is unsigned
switch x := value . ( type ) {
case cc . Int64Value :
switch to . Size ( ) {
case 1 :
if x >= 0 && x <= math . MaxUint8 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint8FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 2 :
if x >= 0 && x <= math . MaxUint16 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint16FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 4 :
if x >= 0 && x <= math . MaxUint32 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint32FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 8 :
if x >= 0 {
p . w ( "uint64(" )
return ")"
}
p . w ( "%sUint64FromInt%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
case cc . Uint64Value :
switch to . Size ( ) {
case 1 :
if x <= math . MaxUint8 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint8FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 2 :
if x <= math . MaxUint16 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint16FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 4 :
if x <= math . MaxUint32 {
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p . w ( "%s(" , p . typ ( n , to ) )
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return ")"
}
p . w ( "%sUint32FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 8 :
p . w ( "uint64(" )
return ")"
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
}
default : // from is unsigned
switch {
case to . IsSignedType ( ) :
switch x := value . ( type ) {
case cc . Uint64Value :
switch to . Size ( ) {
case 1 :
if x <= math . MaxInt8 {
p . w ( "int8(" )
return ")"
}
p . w ( "%sInt8FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 2 :
if x <= math . MaxInt16 {
p . w ( "int16(" )
return ")"
}
p . w ( "%sInt16FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 4 :
if x <= math . MaxInt32 {
p . w ( "int32(" )
return ")"
}
p . w ( "%sInt32FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 8 :
if x <= math . MaxInt64 {
p . w ( "int64(" )
return ")"
}
p . w ( "%sInt64FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default : // to is unsigned
switch x := value . ( type ) {
case cc . Uint64Value :
switch to . Size ( ) {
case 1 :
if x <= math . MaxUint8 {
switch {
case ! force && from . Size ( ) == 1 :
return ""
default :
p . w ( "uint8(" )
return ")"
}
}
p . w ( "%sUint8FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 2 :
if x <= math . MaxUint16 {
switch {
case ! force && from . Size ( ) == 2 :
return ""
default :
p . w ( "uint16(" )
return ")"
}
}
p . w ( "%sUint16FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 4 :
if x <= math . MaxUint32 {
switch {
case ! force && from . Size ( ) == 4 :
return ""
default :
p . w ( "uint32(" )
return ")"
}
}
p . w ( "%sUint32FromUint%d(" , p . task . crt , from . Size ( ) * 8 )
return ")"
case 8 :
switch {
case ! force && from . Size ( ) == 8 :
return ""
default :
p . w ( "uint64(" )
return ")"
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
default :
panic ( todo ( "%T(%v) %v -> %v" , x , op . Value ( ) , from , to ) )
}
}
}
}
func nonZeroUintptr ( n uintptr ) string {
if n == 0 {
return ""
}
return fmt . Sprintf ( "%+d" , n )
}
func alias ( attr [ ] * cc . AttributeSpecifier ) ( r cc . StringID ) {
for _ , v := range attr {
cc . Inspect ( v , func ( n cc . Node , entry bool ) bool {
if ! entry {
return true
}
if x , ok := n . ( * cc . AttributeValue ) ; ok && x . Token . Value == idAlias {
switch y := x . ExpressionList . AssignmentExpression . Operand . Value ( ) . ( type ) {
case cc . StringValue :
r = cc . StringID ( y )
return false
}
}
return true
} )
if r != 0 {
return r
}
}
return 0
}
func ( p * project ) tld ( f * function , n * cc . InitDeclarator , sep string , staticLocal bool ) {
d := n . Declarator
if d . IsExtern ( ) && d . Linkage == cc . External && ! d . IsTypedefName {
if alias := alias ( attrs ( d . Type ( ) ) ) ; alias != 0 {
p . capi = append ( p . capi , d . Name ( ) . String ( ) )
p . w ( "\n\nvar %s%s = %s\t// %v:\n" , p . task . exportExterns , d . Name ( ) , p . externs [ alias ] . name , p . pos ( d ) )
return
}
}
if _ , ok := p . wanted [ d ] ; ! ok && ! staticLocal {
isFn := d . Type ( ) . Kind ( ) == cc . Function
if isFn && p . task . header && p . task . funcSig {
if nm := d . Name ( ) . String ( ) ; ! strings . HasPrefix ( nm , "__" ) {
p . w ( "\n\n" )
t := p . tlds [ d ]
if t == nil {
t = & tld { }
t . name = p . tldScope . take ( d . Name ( ) )
}
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p . functionSignature2 ( n , nil , d . Type ( ) , t . name )
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}
}
return
}
tld := p . tlds [ d ]
if tld == nil { // Dead declaration.
return
}
t := d . Type ( )
if d . IsTypedefName {
p . checkAttributes ( t )
if _ , ok := p . typedefsEmited [ tld . name ] ; ok {
return
}
p . typedefsEmited [ tld . name ] = struct { } { }
if t . Kind ( ) != cc . Void {
p . w ( "%stype %s = %s; /* %v */" , sep , tld . name , p . typ ( n , t ) , p . pos ( d ) )
}
return
}
switch n . Case {
case cc . InitDeclaratorDecl : // Declarator AttributeSpecifierList
p . w ( "%svar %s %s\t/* %v: */" , sep , tld . name , p . typ ( n , t ) , p . pos ( n ) )
switch t . Kind ( ) {
case cc . Struct , cc . Union :
p . structs [ t . Tag ( ) ] . emit ( p , nil )
}
case cc . InitDeclaratorInit : // Declarator AttributeSpecifierList '=' Initializer
if d . IsStatic ( ) && d . Read == 0 && d . Write == 1 && n . Initializer . IsConst ( ) { // Initialized with no side effects and unused.
break
}
p . w ( "%svar %s " , sep , tld . name )
if ! isAggregateTypeOrUnion ( d . Type ( ) ) {
p . w ( "%s " , p . typ ( n , d . Type ( ) ) )
}
p . w ( "= " )
p . initializer ( f , n . Initializer , d . Type ( ) , d . StorageClass , tld )
p . w ( "; /* %v */" , p . pos ( d ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) functionDefinition ( n * cc . FunctionDefinition ) {
// DeclarationSpecifiers Declarator DeclarationList CompoundStatement
if p . task . header && ! p . task . funcSig {
return
}
if _ , ok := p . sharedFns [ n ] ; ok {
if _ , ok := p . sharedFnsEmitted [ n ] ; ok {
return
}
p . sharedFnsEmitted [ n ] = struct { } { }
}
d := n . Declarator
if d . IsExtern ( ) && d . Type ( ) . Inline ( ) {
// https://gcc.gnu.org/onlinedocs/gcc/Inline.html
//
// If you specify both inline and extern in the function definition, then the
// definition is used only for inlining. In no case is the function compiled on
// its own, not even if you refer to its address explicitly. Such an address
// becomes an external reference, as if you had only declared the function, and
// had not defined it.
//
// This combination of inline and extern has almost the effect of a macro. The
// way to use it is to put a function definition in a header file with these
// keywords, and put another copy of the definition (lacking inline and extern)
// in a library file. The definition in the header file causes most calls to
// the function to be inlined. If any uses of the function remain, they refer
// to the single copy in the library.
return
}
name := d . Name ( ) . String ( )
if _ , ok := p . task . hide [ name ] ; ok {
return
}
if p . isMain && d . Linkage == cc . External && d . Read == 0 && ! d . AddressTaken && len ( p . task . asts ) == 1 {
return
}
if d . Linkage == cc . Internal && d . Read == 0 && ! d . AddressTaken /*TODO- && strings.HasPrefix(name, "__") */ {
return
}
tld := p . tlds [ d ]
if tld == nil {
return
}
p . fn = name
defer func ( ) { p . fn = "" } ( )
f := newFunction ( p , n )
p . pass1 = true
p . compoundStatement ( f , n . CompoundStatement , "" , false , false , 0 )
p . pass1 = false
p . w ( "\n\n" )
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p . functionDefinitionSignature ( n , f , tld )
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if p . task . header && p . task . funcSig {
return
}
p . w ( " " )
comment := fmt . Sprintf ( "/* %v: */" , p . pos ( d ) )
if p . task . panicStubs {
p . w ( "%s{ panic(%q) }" , comment , tld . name )
return
}
brace := "{"
if need := f . off ; need != 0 {
scope := f . blocks [ n . CompoundStatement ] . scope
f . bpName = scope . take ( idBp )
p . w ( "{%s\n%s := %s.Alloc(%d)\n" , comment , f . bpName , f . tlsName , need )
p . w ( "defer %s.Free(%d)\n" , f . tlsName , need )
for _ , v := range d . Type ( ) . Parameters ( ) {
if local := f . locals [ v . Declarator ( ) ] ; local != nil && local . isPinned { // Pin it.
p . w ( "*(*%s)(unsafe.Pointer(%s%s)) = %s\n" , p . typ ( v . Declarator ( ) , paramTypeDecay ( v . Declarator ( ) ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
}
}
comment = ""
brace = ""
}
if len ( f . vlas ) != 0 {
p . w ( "%s%s\n" , brace , comment )
var vlas [ ] * cc . Declarator
for k := range f . vlas {
vlas = append ( vlas , k )
}
sort . Slice ( vlas , func ( i , j int ) bool {
return vlas [ i ] . NameTok ( ) . Seq ( ) < vlas [ j ] . NameTok ( ) . Seq ( )
} )
for _ , v := range vlas {
local := f . locals [ v ]
switch {
case local . isPinned :
panic ( todo ( "" , v . Position ( ) ) )
default :
p . w ( "var %s uintptr // %v: %v\n" , local . name , p . pos ( v ) , v . Type ( ) )
}
}
switch {
case len ( vlas ) == 1 :
p . w ( "defer %sXfree(%s, %s)\n" , p . task . crt , f . tlsName , f . locals [ vlas [ 0 ] ] . name )
default :
p . w ( "defer func() {\n" )
for _ , v := range vlas {
p . w ( "%sXfree(%s, %s)\n" , p . task . crt , f . tlsName , f . locals [ v ] . name )
}
p . w ( "\n}()\n" )
}
}
p . compoundStatement ( f , n . CompoundStatement , comment , false , true , 0 )
p . w ( ";" )
p . flushLocalTaggesStructs ( )
p . flushStaticTLDs ( )
}
func ( p * project ) flushLocalTaggesStructs ( ) {
for _ , v := range p . localTaggedStructs {
v ( )
}
p . localTaggedStructs = nil
}
func ( p * project ) flushStaticTLDs ( ) {
for _ , v := range p . staticQueue {
p . tld ( nil , v , "\n" , true )
}
p . staticQueue = nil
}
func ( p * project ) compoundStatement ( f * function , n * cc . CompoundStatement , scomment string , forceNoBraces , fnBody bool , mode exprMode ) {
if p . task . panicStubs {
return
}
// '{' BlockItemList '}'
brace := ( ! n . IsJumpTarget ( ) || n . Parent ( ) == nil ) && ! forceNoBraces
if brace && len ( f . vlas ) == 0 && ( n . Parent ( ) != nil || f . off == 0 ) {
p . w ( "{%s" , scomment )
}
if fnBody {
p . instrument ( n )
}
sv := f . block
f . block = f . blocks [ n ]
if f . block . topDecl {
for _ , v := range f . block . decls {
p . declaration ( f , v , true )
}
}
var r * cc . JumpStatement
for list := n . BlockItemList ; list != nil ; list = list . BlockItemList {
m := mode
if list . BlockItemList != nil {
m = 0
}
r = p . blockItem ( f , list . BlockItem , m )
}
if n . Parent ( ) == nil && r == nil && f . rt . Kind ( ) != cc . Void {
p . w ( "\nreturn " )
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p . zeroValue ( n , f . rt )
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}
s := tidyComment ( "\n" , & n . Token2 )
p . w ( "%s" , s )
if brace {
if ! strings . HasSuffix ( s , "\n" ) {
p . w ( "\n" )
}
p . w ( "}" )
}
f . block = sv
}
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func ( p * project ) zeroValue ( n cc . Node , t cc . Type ) {
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if t . IsScalarType ( ) {
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p . w ( "%s(0)" , p . typ ( n , t ) )
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return
}
switch t . Kind ( ) {
case cc . Struct , cc . Union :
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p . w ( "%s{}" , p . typ ( n , t ) )
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default :
panic ( todo ( "" , t , t . Kind ( ) ) )
}
}
func ( p * project ) blockItem ( f * function , n * cc . BlockItem , mode exprMode ) ( r * cc . JumpStatement ) {
switch n . Case {
case cc . BlockItemDecl : // Declaration
p . declaration ( f , n . Declaration , false )
case cc . BlockItemStmt : // Statement
r = p . statement ( f , n . Statement , false , false , false , mode )
p . w ( ";" )
if r == nil {
p . instrument ( n )
}
case cc . BlockItemLabel : // LabelDeclaration
panic ( todo ( "" , p . pos ( n ) ) )
p . w ( ";" )
case cc . BlockItemFuncDef : // DeclarationSpecifiers Declarator CompoundStatement
p . err ( n , "nested functions not supported" )
p . w ( ";" )
case cc . BlockItemPragma : // PragmaSTDC
panic ( todo ( "" , p . pos ( n ) ) )
p . w ( ";" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
return r
}
func ( p * project ) instrument ( n cc . Node ) {
if p . task . cover {
p . w ( "%sCover();" , p . task . crt )
}
if p . task . coverC {
p . w ( "%sCoverC(%q);" , p . task . crt , p . pos ( n ) . String ( ) + " " + p . fn )
}
if p . task . watch {
p . w ( "%sWatch();" , p . task . crt )
}
}
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var dummyJumpStatement = & cc . JumpStatement { }
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func ( p * project ) statement ( f * function , n * cc . Statement , forceCompoundStmtBrace , forceNoBraces , switchBlock bool , mode exprMode ) ( r * cc . JumpStatement ) {
if forceCompoundStmtBrace {
p . w ( " {" )
if ! switchBlock {
p . instrument ( n )
}
}
switch n . Case {
case cc . StatementLabeled : // LabeledStatement
r = p . labeledStatement ( f , n . LabeledStatement )
case cc . StatementCompound : // CompoundStatement
if ! forceCompoundStmtBrace {
p . w ( "%s" , n . CompoundStatement . Token . Sep )
}
if f . hasJumps {
forceNoBraces = true
}
p . compoundStatement ( f , n . CompoundStatement , "" , forceCompoundStmtBrace || forceNoBraces , false , 0 )
case cc . StatementExpr : // ExpressionStatement
if mode != 0 {
p . w ( "return " )
e := n . ExpressionStatement . Expression
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p . expression ( f , e , e . Operand . Type ( ) , exprValue , 0 )
r = dummyJumpStatement
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break
}
p . expressionStatement ( f , n . ExpressionStatement )
case cc . StatementSelection : // SelectionStatement
p . selectionStatement ( f , n . SelectionStatement )
case cc . StatementIteration : // IterationStatement
p . iterationStatement ( f , n . IterationStatement )
case cc . StatementJump : // JumpStatement
r = p . jumpStatement ( f , n . JumpStatement )
case cc . StatementAsm : // AsmStatement
// AsmStatement:
// Asm AttributeSpecifierList ';'
// Asm:
// "__asm__" AsmQualifierList '(' STRINGLITERAL AsmArgList ')'
if n . AsmStatement . Asm . Token3 . Value == 0 && n . AsmStatement . Asm . AsmArgList == nil {
break
}
p . w ( "panic(`%s: assembler statements not supported`)" , n . Position ( ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
if forceCompoundStmtBrace {
p . w ( "}" )
}
return r
}
func ( p * project ) jumpStatement ( f * function , n * cc . JumpStatement ) ( r * cc . JumpStatement ) {
p . w ( "%s" , tidyComment ( "\n" , n ) )
if _ , ok := n . Context ( ) . ( * cc . SelectionStatement ) ; ok && f . ifCtx == nil {
switch f . switchCtx {
case inSwitchCase :
f . switchCtx = inSwitchSeenBreak
case inSwitchSeenBreak :
// nop but TODO
case inSwitchFlat :
// ok
default :
panic ( todo ( "" , n . Position ( ) , f . switchCtx ) )
}
}
switch n . Case {
case cc . JumpStatementGoto : // "goto" IDENTIFIER ';'
p . w ( "goto %s" , f . labelNames [ n . Token2 . Value ] )
case cc . JumpStatementGotoExpr : // "goto" '*' Expression ';'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . JumpStatementContinue : // "continue" ';'
switch {
case f . continueCtx != 0 :
p . w ( "goto __%d" , f . continueCtx )
default :
p . w ( "continue" )
}
case cc . JumpStatementBreak : // "break" ';'
switch {
case f . breakCtx != 0 :
p . w ( "goto __%d" , f . breakCtx )
default :
p . w ( "break" )
}
case cc . JumpStatementReturn : // "return" Expression ';'
r = n
switch {
case f . rt != nil && f . rt . Kind ( ) == cc . Void :
if n . Expression != nil {
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , 0 )
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p . w ( ";" )
}
p . w ( "return" )
case f . rt != nil && f . rt . Kind ( ) != cc . Void :
if n . Expression != nil {
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p . expression ( f , n . Expression , f . rt , exprCondReturn , 0 )
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break
}
p . w ( "return " )
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p . zeroValue ( n , f . rt )
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default :
if n . Expression != nil {
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , 0 )
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p . w ( ";" )
}
p . w ( "return" )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
return r
}
func ( p * project ) expression ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprVoid :
p . expressionVoid ( f , n , t , mode , flags )
case exprValue , exprCondReturn , exprCondInit :
p . expressionValue ( f , n , t , mode , flags )
case exprBool :
p . expressionBool ( f , n , t , mode , flags )
case exprAddrOf :
p . expressionAddrOf ( f , n , t , mode , flags )
case exprPSelect :
p . expressionPSelect ( f , n , t , mode , flags )
case exprLValue :
p . expressionLValue ( f , n , t , mode , flags )
case exprFunc :
p . expressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . expressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . expressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) expressionDecay ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
p . w ( "func() uintptr {" )
p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , flags )
p . w ( "; return " )
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p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
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p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionSelect ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionFunc ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionLValue ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionPSelect ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionAddrOf ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
p . w ( " func() uintptr {" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , flags )
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p . w ( "; return " )
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p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
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p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionBool ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
p . w ( "func() bool {" )
p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , flags )
p . w ( "; return " )
p . assignmentExpression ( f , n . AssignmentExpression , n . AssignmentExpression . Operand . Type ( ) , mode , flags )
p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionValue ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
if mode == exprCondReturn {
p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , flags )
p . w ( "; return " )
p . assignmentExpression ( f , n . AssignmentExpression , n . AssignmentExpression . Operand . Type ( ) , exprValue , flags )
return
}
switch {
case n . AssignmentExpression . Operand . Type ( ) . Kind ( ) == cc . Array :
p . expressionDecay ( f , n , t , exprDecay , flags )
default :
defer p . w ( "%s" , p . convertType ( n , n . Operand . Type ( ) , t , flags ) )
p . w ( "func() %v {" , p . typ ( n , n . AssignmentExpression . Operand . Type ( ) ) )
p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , flags )
p . w ( "; return " )
p . assignmentExpression ( f , n . AssignmentExpression , n . AssignmentExpression . Operand . Type ( ) , exprValue , flags )
p . w ( "}()" )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) expressionVoid ( f * function , n * cc . Expression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExpressionAssign : // AssignmentExpression
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
case cc . ExpressionComma : // Expression ',' AssignmentExpression
p . expression ( f , n . Expression , t , mode , flags )
p . w ( ";" )
p . assignmentExpression ( f , n . AssignmentExpression , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) opKind ( f * function , d declarator , t cc . Type ) opKind {
switch {
case p . isArrayParameter ( d , t ) :
return opArrayParameter
case ! p . pass1 && p . isArray ( f , d , t ) :
return opArray
case t . Kind ( ) == cc . Union :
return opUnion
case t . Kind ( ) == cc . Struct :
return opStruct
case t . IsBitFieldType ( ) :
return opBitfield
case t . Kind ( ) == cc . Function :
return opFunction
default :
return opNormal
}
}
func ( p * project ) assignmentExpression ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprVoid :
p . assignmentExpressionVoid ( f , n , t , mode , flags )
case exprValue , exprCondReturn , exprCondInit :
p . assignmentExpressionValue ( f , n , t , mode , flags )
case exprAddrOf :
p . assignmentExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . assignmentExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . assignmentExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . assignmentExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . assignmentExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . assignmentExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . assignmentExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) assignmentExpressionDecay ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<= AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionSelect ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionFunc ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpremode, ssion "<<=
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionPSelect ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , n . AssignmentExpression . Operand . Type ( ) . Elem ( ) ) )
p . assignmentExpression ( f , n , t , exprValue , flags )
p . w ( "))" )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionLValue ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionBool ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
default :
// case cc.AssignmentExpressionAssign: // UnaryExpression '=' AssignmentExpression
// case cc.AssignmentExpressionMul: // UnaryExpression "*=" AssignmentExpression
// case cc.AssignmentExpressionDiv: // UnaryExpression "/=" AssignmentExpression
// case cc.AssignmentExpressionMod: // UnaryExpression "%=" AssignmentExpression
// case cc.AssignmentExpressionAdd: // UnaryExpression "+=" AssignmentExpression
// case cc.AssignmentExpressionSub: // UnaryExpression "-=" AssignmentExpression
// case cc.AssignmentExpressionLsh: // UnaryExpression "<<=" AssignmentExpression
// case cc.AssignmentExpressionRsh: // UnaryExpression ">>=" AssignmentExpression
// case cc.AssignmentExpressionAnd: // UnaryExpression "&=" AssignmentExpression
// case cc.AssignmentExpressionXor: // UnaryExpression "^=" AssignmentExpression
// case cc.AssignmentExpressionOr: // UnaryExpression "|=" AssignmentExpression
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0 " )
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p . assignmentExpression ( f , n , t , exprValue , flags )
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}
}
func ( p * project ) assignmentExpressionAddrOf ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
p . assignmentExpressionValueAddrOf ( f , n , t , mode , flags )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionValueAddrOf ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
// UnaryExpression '=' AssignmentExpression
if mode == exprCondReturn {
panic ( todo ( "" , p . pos ( n ) ) )
}
lhs := n . UnaryExpression
switch k := p . opKind ( f , lhs , lhs . Operand . Type ( ) ) ; k {
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case opStruct , opUnion :
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p . assignmentExpressionValueAssignStructAddrof ( f , n , n . Operand . Type ( ) , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) assignmentExpressionValueAssignStructAddrof ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
// UnaryExpression '=' AssignmentExpression
lhs := n . UnaryExpression . Operand . Type ( )
rhs := n . AssignmentExpression . Operand . Type ( )
if lhs . Kind ( ) == cc . Array || rhs . Kind ( ) == cc . Array {
panic ( todo ( "" , p . pos ( n ) ) )
}
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
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if ! p . pass1 {
p . w ( "%sXmemmove(tls, " , p . task . crt )
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p . unaryExpression ( f , n . UnaryExpression , lhs , exprAddrOf , flags )
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p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , rhs , exprAddrOf , flags )
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p . w ( ", %d)" , lhs . Size ( ) )
return
}
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}
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if ! p . pass1 {
panic ( todo ( "" , p . pos ( n ) ) )
}
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}
}
p . w ( "%sXmemmove(tls, " , p . task . crt )
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p . unaryExpression ( f , n . UnaryExpression , lhs , exprAddrOf , flags )
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p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , rhs , exprAddrOf , flags )
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p . w ( ", %d)" , lhs . Size ( ) )
}
func ( p * project ) assignmentExpressionValue ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
p . assignmentExpressionValueAssign ( f , n , t , mode , flags )
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
p . assignOp ( f , n , t , mode , "*" , "Mul" , flags )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
p . assignOp ( f , n , t , mode , "/" , "Div" , flags )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
p . assignOp ( f , n , t , mode , "%" , "Rem" , flags )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
p . assignOp ( f , n , t , mode , "+" , "Add" , flags )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
p . assignOp ( f , n , t , mode , "-" , "Sub" , flags )
case cc . AssignmentExpressionLsh : // UnaryExpremode, ssion "<<=
p . assignOp ( f , n , t , mode , "<<" , "Shl" , flags )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
p . assignOp ( f , n , t , mode , ">>" , "Shr" , flags )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
p . assignOp ( f , n , t , mode , "&" , "And" , flags )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
p . assignOp ( f , n , t , mode , "^" , "Xor" , flags )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
p . assignOp ( f , n , t , mode , "|" , "Or" , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) assignmentExpressionValueAssign ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
// UnaryExpression '=' AssignmentExpression
if mode == exprCondReturn {
p . w ( "return " )
}
lhs := n . UnaryExpression
switch k := p . opKind ( f , lhs , lhs . Operand . Type ( ) ) ; k {
case opNormal :
p . assignmentExpressionValueAssignNormal ( f , n , t , mode , flags )
case opBitfield :
p . assignmentExpressionValueAssignBitfield ( f , n , t , mode , flags )
case opStruct , opUnion :
p . assignmentExpressionValueAssignStruct ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) assignmentExpressionValueAssignStruct ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
// UnaryExpression '=' AssignmentExpression
lhs := n . UnaryExpression . Operand . Type ( )
rhs := n . AssignmentExpression . Operand . Type ( )
if lhs . Kind ( ) == cc . Array || rhs . Kind ( ) == cc . Array {
panic ( todo ( "" , p . pos ( n ) ) )
}
p . w ( " func() %s { __v := " , p . typ ( n , lhs ) )
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p . assignmentExpression ( f , n . AssignmentExpression , rhs , exprValue , flags )
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p . w ( ";" )
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p . unaryExpression ( f , n . UnaryExpression , lhs , exprLValue , flags )
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p . w ( " = __v; return __v}()" )
}
func ( p * project ) assignmentExpressionValueAssignBitfield ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
panic ( todo ( "" , p . pos ( n ) ) )
}
lhs := n . UnaryExpression
lt := lhs . Operand . Type ( )
bf := lt . BitField ( )
defer p . w ( "%s" , p . convertType ( n , lt , t , flags ) )
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p . w ( "%sAssignBitFieldPtr%d%s(" , p . task . crt , bf . BitFieldBlockWidth ( ) , p . bfHelperType ( lt ) )
p . unaryExpression ( f , lhs , lt , exprAddrOf , flags )
p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , lt , exprValue , flags )
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p . w ( ", %d, %d, %#x)" , bf . BitFieldWidth ( ) , bf . BitFieldOffset ( ) , bf . Mask ( ) )
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}
func ( p * project ) assignmentExpressionValueAssignNormal ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
if ! d . Type ( ) . IsScalarType ( ) {
panic ( todo ( "" , p . pos ( n ) ) )
}
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
defer p . w ( ")%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
p . w ( "%sAssignPtr%s(" , p . task . crt , p . helperType ( d , d . Type ( ) ) )
p . w ( "%s%s /* %s */" , f . bpName , nonZeroUintptr ( local . off ) , local . name )
p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , n . UnaryExpression . Operand . Type ( ) , exprValue , flags )
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return
}
defer p . w ( ")%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
p . w ( "%sAssign%s(&%s, " , p . task . crt , p . helperType ( n , d . Type ( ) ) , local . name )
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p . assignmentExpression ( f , n . AssignmentExpression , n . UnaryExpression . Operand . Type ( ) , exprValue , flags )
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return
}
}
defer p . w ( ")%s" , p . convertType ( n , n . UnaryExpression . Operand . Type ( ) , t , flags ) )
p . w ( "%sAssignPtr%s(" , p . task . crt , p . helperType ( n , n . UnaryExpression . Operand . Type ( ) ) )
p . unaryExpression ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) , exprAddrOf , flags )
p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , n . UnaryExpression . Operand . Type ( ) , exprValue , flags )
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}
func ( p * project ) assignmentExpressionVoid ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AssignmentExpressionCond : // ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
case cc . AssignmentExpressionAssign : // UnaryExpression '=' AssignmentExpression
d := n . UnaryExpression . Declarator ( )
lhs := n . UnaryExpression
lt := lhs . Operand . Type ( )
sv := f . condInitPrefix
switch k := p . opKind ( f , lhs , lt ) ; k {
case opArrayParameter :
lt = lt . Decay ( )
fallthrough
case opNormal , opStruct :
mode = exprValue
if p . isArrayOrPinnedArray ( f , n . AssignmentExpression , n . AssignmentExpression . Operand . Type ( ) ) {
mode = exprDecay
}
switch {
case flags & fNoCondAssignment == 0 && mode == exprValue && n . UnaryExpression . Declarator ( ) != nil && p . isConditionalAssignmentExpr ( n . AssignmentExpression ) :
f . condInitPrefix = func ( ) {
p . unaryExpression ( f , lhs , lt , exprLValue , flags )
p . w ( " = " )
}
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p . assignmentExpression ( f , n . AssignmentExpression , lt , exprCondInit , flags )
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p . w ( ";" )
default :
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if d != nil && p . isVolatileOrAtomic ( d ) {
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p . setVolatileDeclarator ( d , f , n . AssignmentExpression , lt , mode , flags )
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return
}
p . unaryExpression ( f , lhs , lt , exprLValue , flags )
p . w ( " = " )
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p . assignmentExpression ( f , n . AssignmentExpression , lt , mode , flags )
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}
case opBitfield :
bf := lt . BitField ( )
p . w ( "%sSetBitFieldPtr%d%s(" , p . task . crt , bf . BitFieldBlockWidth ( ) , p . bfHelperType ( lt ) )
p . unaryExpression ( f , lhs , lt , exprAddrOf , flags )
p . w ( ", " )
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p . assignmentExpression ( f , n . AssignmentExpression , lt , exprValue , flags )
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p . w ( ", %d, %#x)" , bf . BitFieldOffset ( ) , bf . Mask ( ) )
case opUnion :
p . unaryExpression ( f , lhs , lt , exprLValue , flags )
p . w ( " = " )
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p . assignmentExpression ( f , n . AssignmentExpression , lt , exprValue , flags )
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default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
f . condInitPrefix = sv
case cc . AssignmentExpressionMul : // UnaryExpression "*=" AssignmentExpression
p . assignOp ( f , n , t , mode , "*" , "Mul" , flags )
case cc . AssignmentExpressionDiv : // UnaryExpression "/=" AssignmentExpression
p . assignOp ( f , n , t , mode , "/" , "Div" , flags )
case cc . AssignmentExpressionMod : // UnaryExpression "%=" AssignmentExpression
p . assignOp ( f , n , t , mode , "%" , "Mod" , flags )
case cc . AssignmentExpressionAdd : // UnaryExpression "+=" AssignmentExpression
p . assignOp ( f , n , t , mode , "+" , "Add" , flags )
case cc . AssignmentExpressionSub : // UnaryExpression "-=" AssignmentExpression
p . assignOp ( f , n , t , mode , "-" , "Sub" , flags )
case cc . AssignmentExpressionLsh : // UnaryExpression "<<=" AssignmentExpression
p . assignShiftOp ( f , n , t , mode , "<<" , "Shl" , flags )
case cc . AssignmentExpressionRsh : // UnaryExpression ">>=" AssignmentExpression
p . assignShiftOp ( f , n , t , mode , ">>" , "Shr" , flags )
case cc . AssignmentExpressionAnd : // UnaryExpression "&=" AssignmentExpression
p . assignOp ( f , n , t , mode , "&" , "And" , flags )
case cc . AssignmentExpressionXor : // UnaryExpression "^=" AssignmentExpression
p . assignOp ( f , n , t , mode , "^" , "Xor" , flags )
case cc . AssignmentExpressionOr : // UnaryExpression "|=" AssignmentExpression
p . assignOp ( f , n , t , mode , "|" , "Or" , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) setVolatileDeclarator ( d * cc . Declarator , f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , flags flags ) {
sz := d . Type ( ) . Size ( )
switch sz {
case 4 , 8 :
// ok
default :
p . err ( d , "unsupported volatile declarator size: %v" , sz )
return
}
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
p . w ( "%sAtomicStoreP%s(%s%s /* %s */, " , p . task . crt , p . helperType ( n , d . Type ( ) ) , f . bpName , nonZeroUintptr ( local . off ) , local . name )
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p . assignmentExpression ( f , n , t , mode , flags )
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p . w ( ")" )
return
}
p . atomicStoreNamedAddr ( n , d . Type ( ) , local . name , n , f , mode , flags )
return
}
if tld := p . tlds [ d ] ; tld != nil {
p . atomicStoreNamedAddr ( n , d . Type ( ) , tld . name , n , f , mode , flags )
return
}
if imp := p . imports [ d . Name ( ) . String ( ) ] ; imp != nil {
p . atomicStoreNamedAddr ( n , d . Type ( ) , fmt . Sprintf ( "%sX%s" , imp . qualifier , d . Name ( ) ) , n , f , mode , flags )
return
}
panic ( todo ( "" , n . Position ( ) , d . Position ( ) , d . Name ( ) ) )
}
func ( p * project ) atomicStoreNamedAddr ( n cc . Node , t cc . Type , nm string , expr * cc . AssignmentExpression , f * function , mode exprMode , flags flags ) {
sz := t . Size ( )
switch sz {
case 4 , 8 :
// ok
default :
p . err ( n , "unsupported volatile declarator size: %v" , sz )
return
}
var ht string
switch {
case t . IsScalarType ( ) :
ht = p . helperType ( n , t )
default :
p . err ( n , "unsupported volatile declarator type: %v" , t )
return
}
p . w ( "%sAtomicStore%s(&%s, %s(" , p . task . crt , ht , nm , p . typ ( n , t ) )
p . assignmentExpression ( f , expr , t , mode , flags )
p . w ( "))" )
}
func ( p * project ) atomicLoadNamedAddr ( n cc . Node , t cc . Type , nm string ) {
sz := t . Size ( )
switch sz {
case 4 , 8 :
// ok
default :
p . err ( n , "unsupported volatile declarator size: %v" , sz )
return
}
var ht string
switch {
case t . IsScalarType ( ) :
ht = p . helperType ( n , t )
default :
p . err ( n , "unsupported volatile declarator type: %v" , t )
return
}
p . w ( "%sAtomicLoad%s(&%s)" , p . task . crt , ht , nm )
}
func isRealType ( op cc . Operand ) bool {
switch op . Type ( ) . Kind ( ) {
case cc . Float , cc . Double :
return true
default :
return false
}
}
func ( p * project ) bfHelperType ( t cc . Type ) string {
switch {
case t . IsSignedType ( ) :
return fmt . Sprintf ( "Int%d" , t . Size ( ) * 8 )
default :
return fmt . Sprintf ( "Uint%d" , t . Size ( ) * 8 )
}
}
func ( p * project ) helperType ( n cc . Node , t cc . Type ) string {
for t . IsAliasType ( ) {
if t2 := t . Alias ( ) ; t2 != t { //TODO HDF5 H5O.c
t = t2
continue
}
break
}
switch t . Kind ( ) {
case cc . Int128 :
return "Int128"
case cc . UInt128 :
return "Uint128"
}
s := p . typ ( n , t )
return strings . ToUpper ( s [ : 1 ] ) + s [ 1 : ]
}
func ( p * project ) helperType2 ( n cc . Node , from , to cc . Type ) string {
if from . Kind ( ) == to . Kind ( ) {
return fmt . Sprintf ( "%s%s" , p . task . crt , p . helperType ( n , from ) )
}
return fmt . Sprintf ( "%s%sFrom%s" , p . task . crt , p . helperType ( n , to ) , p . helperType ( n , from ) )
}
func ( p * project ) conditionalExpression ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . conditionalExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . conditionalExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . conditionalExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . conditionalExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . conditionalExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . conditionalExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . conditionalExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . conditionalExpressionSelect ( f , n , t , mode , flags )
case exprCondReturn :
p . conditionalExpressionReturn ( f , n , t , mode , flags )
case exprCondInit :
p . conditionalExpressionInit ( f , n , t , mode , flags )
case exprDecay :
p . conditionalExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) conditionalExpressionDecay ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
t = t . Decay ( )
p . w ( " func() %s { if " , p . typ ( n , t ) )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " { return " )
switch n . Expression . Operand . Type ( ) . Kind ( ) {
case cc . Array :
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p . expression ( f , n . Expression , t , exprDecay , flags )
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case cc . Ptr :
panic ( todo ( "" , n . Expression . Position ( ) , n . Expression . Operand . Type ( ) ) )
default :
panic ( todo ( "" , n . Expression . Position ( ) , n . Expression . Operand . Type ( ) ) )
}
p . w ( "}; return " )
switch n . ConditionalExpression . Operand . Type ( ) . Kind ( ) {
case cc . Array :
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p . conditionalExpression ( f , n . ConditionalExpression , t , exprDecay , flags )
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default :
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p . conditionalExpression ( f , n . ConditionalExpression , t , exprValue , flags )
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}
p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionInit ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
f . condInitPrefix ( )
p . logicalOrExpression ( f , n . LogicalOrExpression , t , exprValue , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
t = t . Decay ( )
p . w ( "if " )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " {" )
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p . expression ( f , n . Expression , t , mode , flags )
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p . w ( "} else { " )
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p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
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p . w ( "}" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionReturn ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . w ( "return " )
p . logicalOrExpression ( f , n . LogicalOrExpression , t , exprValue , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
t = t . Decay ( )
p . w ( "if " )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " {" )
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p . expression ( f , n . Expression , t , mode , flags )
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p . w ( "}; " )
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p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionSelect ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionFunc ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
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switch ot := n . Operand . Type ( ) ; ot . Kind ( ) {
case cc . Function :
if t . Kind ( ) != cc . Function {
panic ( todo ( "" , n . Position ( ) ) )
}
default :
panic ( todo ( "" , ot . Kind ( ) ) )
}
p . w ( " func() " )
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p . functionSignature ( n , f , t , "" )
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p . w ( "{ if " )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " { return " )
switch d := n . Expression . Declarator ( ) ; {
case d != nil :
p . declaratorDefault ( n , d )
default :
panic ( todo ( "" , n . Position ( ) ) )
}
p . w ( "}; return " )
switch d := n . ConditionalExpression . Declarator ( ) ; {
case d != nil :
p . declaratorDefault ( n , d )
default :
panic ( todo ( "" , n . Position ( ) ) )
}
p . w ( "}()" )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionPSelect ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) . Elem ( ) ) )
p . conditionalExpression ( f , n , t , exprValue , flags )
p . w ( "))" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionLValue ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionBool ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0 " )
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p . conditionalExpression ( f , n , t , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionAddrOf ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
t = t . Decay ( )
p . w ( " func() %s { if " , p . typ ( n , t ) )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " { return " )
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p . expression ( f , n . Expression , t , exprValue , flags )
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p . w ( "}; return " )
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p . conditionalExpression ( f , n . ConditionalExpression , t , exprValue , flags )
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p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionVoid ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , mode , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
switch {
case n . Expression . IsSideEffectsFree :
p . w ( "if !(" )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( ") {" )
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p . conditionalExpression ( f , n . ConditionalExpression , n . ConditionalExpression . Operand . Type ( ) , mode , flags )
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p . w ( "}" )
default :
p . w ( "if " )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " {" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , mode , flags )
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p . w ( "} else {" )
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p . conditionalExpression ( f , n . ConditionalExpression , n . ConditionalExpression . Operand . Type ( ) , mode , flags )
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p . w ( "}" )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) conditionalExpressionValue ( f * function , n * cc . ConditionalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ConditionalExpressionLOr : // LogicalOrExpression
p . logicalOrExpression ( f , n . LogicalOrExpression , t , exprValue , flags )
case cc . ConditionalExpressionCond : // LogicalOrExpression '?' Expression ':' ConditionalExpression
t = t . Decay ( )
p . w ( " func() %s { if " , p . typ ( n , t ) )
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p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( " { return " )
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p . expression ( f , n . Expression , t , exprValue , flags )
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p . w ( "}; return " )
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p . conditionalExpression ( f , n . ConditionalExpression , t , exprValue , flags )
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p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpression ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . logicalOrExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . logicalOrExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . logicalOrExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . logicalOrExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . logicalOrExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . logicalOrExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . logicalOrExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . logicalOrExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . logicalOrExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) logicalOrExpressionDecay ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionSelect ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionFunc ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionPSelect ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionLValue ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionBool ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
p . binaryLogicalOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionAddrOf ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionVoid ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
p . w ( "_ = " )
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p . logicalOrExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalOrExpressionValue ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalOrExpressionLAnd : // LogicalAndExpression
p . logicalAndExpression ( f , n . LogicalAndExpression , t , mode , flags )
case cc . LogicalOrExpressionLOr : // LogicalOrExpression "||" LogicalAndExpression
p . binaryLogicalOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryLogicalOrExpression ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . binaryLogicalOrExpressionValue ( f , n , t , mode , flags )
case exprBool :
p . binaryLogicalOrExpressionBool ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryLogicalOrExpressionBool ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , n . Operand . Type ( ) , & mode , flags ) )
p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
p . w ( " ||%s" , tidyComment ( " " , & n . Token ) )
p . logicalAndExpression ( f , n . LogicalAndExpression , n . LogicalAndExpression . Operand . Type ( ) , exprBool , flags )
}
func ( p * project ) binaryLogicalOrExpressionValue ( f * function , n * cc . LogicalOrExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . logicalOrExpression ( f , n . LogicalOrExpression , n . LogicalOrExpression . Operand . Type ( ) , exprBool , flags )
p . w ( " ||%s" , tidyComment ( " " , & n . Token ) )
p . logicalAndExpression ( f , n . LogicalAndExpression , n . LogicalAndExpression . Operand . Type ( ) , exprBool , flags )
}
func ( p * project ) booleanBinaryExpression ( n cc . Node , from cc . Operand , to cc . Type , mode * exprMode , flags flags ) ( r string ) {
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p . w ( "(" )
r = ")"
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switch * mode {
case exprBool :
* mode = exprValue
default :
r = p . convert ( n , from , to , flags ) + r
p . w ( "%sBool32(" , p . task . crt )
r = ")" + r
}
return r
}
func ( p * project ) logicalAndExpression ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . logicalAndExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . logicalAndExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . logicalAndExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . logicalAndExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . logicalAndExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . logicalAndExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . logicalAndExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . logicalAndExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . logicalAndExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) logicalAndExpressionDecay ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionSelect ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionFunc ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionPSelect ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionLValue ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionBool ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
p . binaryLogicalAndExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionAddrOf ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionVoid ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
p . binaryLogicalAndExpressionValue ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) logicalAndExpressionValue ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . LogicalAndExpressionOr : // InclusiveOrExpression
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , t , mode , flags )
case cc . LogicalAndExpressionLAnd : // LogicalAndExpression "&&" InclusiveOrExpression
p . binaryLogicalAndExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryLogicalAndExpression ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprBool :
p . binaryLogicalAndExpressionBool ( f , n , t , mode , flags )
case exprValue :
p . binaryLogicalAndExpressionValue ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryLogicalAndExpressionValue ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . logicalAndExpression ( f , n . LogicalAndExpression , n . LogicalAndExpression . Operand . Type ( ) , exprBool , flags )
p . w ( " &&%s" , tidyComment ( " " , & n . Token ) )
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . InclusiveOrExpression . Operand . Type ( ) , exprBool , flags )
}
func ( p * project ) binaryLogicalAndExpressionBool ( f * function , n * cc . LogicalAndExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . logicalAndExpression ( f , n . LogicalAndExpression , n . LogicalAndExpression . Operand . Type ( ) , exprBool , flags )
p . w ( " &&%s" , tidyComment ( " " , & n . Token ) )
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . InclusiveOrExpression . Operand . Type ( ) , exprBool , flags )
}
func ( p * project ) inclusiveOrExpression ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . inclusiveOrExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . inclusiveOrExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . inclusiveOrExpressionAddrof ( f , n , t , mode , flags )
case exprBool :
p . inclusiveOrExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . inclusiveOrExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . inclusiveOrExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . inclusiveOrExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . inclusiveOrExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . inclusiveOrExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) inclusiveOrExpressionDecay ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionSelect ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionFunc ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionPSelect ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionLValue ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionBool ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
p . binaryInclusiveOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionAddrof ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionVoid ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
p . w ( "_ = " )
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p . inclusiveOrExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) inclusiveOrExpressionValue ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . InclusiveOrExpressionXor : // ExclusiveOrExpression
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , t , mode , flags )
case cc . InclusiveOrExpressionOr : // InclusiveOrExpression '|' ExclusiveOrExpression
p . binaryInclusiveOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryInclusiveOrExpression ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// InclusiveOrExpression '|' ExclusiveOrExpression
switch mode {
case exprBool :
p . binaryInclusiveOrExpressionBool ( f , n , t , mode , flags )
case exprValue :
p . binaryInclusiveOrExpressionValue ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryInclusiveOrExpressionValue ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// InclusiveOrExpression '|' ExclusiveOrExpression
lt := n . InclusiveOrExpression . Operand . Type ( )
rt := n . ExclusiveOrExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryOrExpressionUint128 ( f , n , t , mode , flags )
return
}
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch {
case orOverflows ( n . InclusiveOrExpression . Operand , n . ExclusiveOrExpression . Operand , n . Promote ( ) ) :
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " |%s" , tidyComment ( " " , & n . Token ) )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " |%s" , tidyComment ( " " , & n . Token ) )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
}
}
func ( p * project ) binaryOrExpressionUint128 ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// InclusiveOrExpression '|' ExclusiveOrExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( ".Or(" )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( ")" )
}
func ( p * project ) binaryInclusiveOrExpressionBool ( f * function , n * cc . InclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch {
case orOverflows ( n . InclusiveOrExpression . Operand , n . ExclusiveOrExpression . Operand , n . Promote ( ) ) :
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " |%s" , tidyComment ( " " , & n . Token ) )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . inclusiveOrExpression ( f , n . InclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " |%s" , tidyComment ( " " , & n . Token ) )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
}
}
func orOverflows ( lo , ro cc . Operand , promote cc . Type ) bool {
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
return overflows ( a . Or ( a , b ) , promote )
}
func ( p * project ) artithmeticBinaryExpression ( n cc . Node , from cc . Operand , to cc . Type , mode * exprMode , flags flags ) ( r string ) {
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p . w ( "(" )
r = ")"
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switch * mode {
case exprBool :
p . w ( "(" )
r = ") != 0" + r
* mode = exprValue
default :
switch fk , tk := from . Type ( ) . Kind ( ) , to . Kind ( ) ; {
case fk != tk && fk == cc . Int128 :
return fmt . Sprintf ( ".%s()%s" , p . helperType ( n , to ) , r )
case fk != tk && fk == cc . UInt128 :
return fmt . Sprintf ( ".%s()%s" , p . helperType ( n , to ) , r )
default :
r = p . convert ( n , from , to , flags ) + r
}
}
return r
}
func ( p * project ) exclusiveOrExpression ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . exclusiveOrExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . exclusiveOrExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . exclusiveOrExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . exclusiveOrExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . exclusiveOrExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . exclusiveOrExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . exclusiveOrExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . exclusiveOrExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . exclusiveOrExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) exclusiveOrExpressionDecay ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionSelect ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionFunc ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionPSelect ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionLValue ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionBool ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
p . binaryExclusiveOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionAddrOf ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionVoid ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
p . w ( "_ = " )
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p . exclusiveOrExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) exclusiveOrExpressionValue ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ExclusiveOrExpressionAnd : // AndExpression
p . andExpression ( f , n . AndExpression , t , mode , flags )
case cc . ExclusiveOrExpressionXor : // ExclusiveOrExpression '^' AndExpression
p . binaryExclusiveOrExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryExclusiveOrExpression ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// ExclusiveOrExpression '^' AndExpression
switch mode {
case exprValue , exprBool :
p . binaryExclusiveOrExpressionValue ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryExclusiveOrExpressionValue ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// ExclusiveOrExpression '^' AndExpression
lt := n . ExclusiveOrExpression . Operand . Type ( )
rt := n . AndExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryExclusiveOrExpressionUint128 ( f , n , t , mode , flags )
return
}
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch {
case xorOverflows ( n . ExclusiveOrExpression . Operand , n . AndExpression . Operand , n . Promote ( ) ) :
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " ^%s" , tidyComment ( " " , & n . Token ) )
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( " ^%s" , tidyComment ( " " , & n . Token ) )
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
}
}
func ( p * project ) binaryExclusiveOrExpressionUint128 ( f * function , n * cc . ExclusiveOrExpression , t cc . Type , mode exprMode , flags flags ) {
// ExclusiveOrExpression '^' AndExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . exclusiveOrExpression ( f , n . ExclusiveOrExpression , n . Promote ( ) , exprValue , flags )
p . w ( ".Xor(" )
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( ")" )
}
func xorOverflows ( lo , ro cc . Operand , promote cc . Type ) bool {
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
return ! lo . Type ( ) . IsSignedType ( ) && a . Sign ( ) == 0 ||
! ro . Type ( ) . IsSignedType ( ) && b . Sign ( ) == 0 ||
overflows ( a . Xor ( a , b ) , promote )
}
func ( p * project ) andExpression ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . andExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . andExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . andExpressionAddrof ( f , n , t , mode , flags )
case exprBool :
p . andExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . andExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . andExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . andExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . andExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . andExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) andExpressionDecay ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionSelect ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionFunc ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionPSelect ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionLValue ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionBool ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
p . binaryAndExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionAddrof ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionVoid ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
p . w ( "_ = " )
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p . andExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) andExpressionValue ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AndExpressionEq : // EqualityExpression
p . equalityExpression ( f , n . EqualityExpression , t , mode , flags )
case cc . AndExpressionAnd : // AndExpression '&' EqualityExpression
p . binaryAndExpression ( f , n , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryAndExpression ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
// AndExpression '&' EqualityExpression
switch mode {
case exprValue :
p . binaryAndExpressionValue ( f , n , t , mode , flags )
case exprBool :
p . binaryAndExpressionBool ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryAndExpressionBool ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , n . Operand . Type ( ) , & mode , flags ) )
switch {
case andOverflows ( n . AndExpression . Operand , n . EqualityExpression . Operand , n . Promote ( ) ) :
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( " &%s" , tidyComment ( " " , & n . Token ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( " &%s" , tidyComment ( " " , & n . Token ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags )
}
}
func ( p * project ) binaryAndExpressionValue ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
// AndExpression '&' EqualityExpression
lt := n . AndExpression . Operand . Type ( )
rt := n . EqualityExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryAndExpressionUint128 ( f , n , t , mode , flags )
return
}
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch {
case andOverflows ( n . AndExpression . Operand , n . EqualityExpression . Operand , n . Promote ( ) ) :
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( " &%s" , tidyComment ( " " , & n . Token ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( " &%s" , tidyComment ( " " , & n . Token ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags )
}
}
func ( p * project ) binaryAndExpressionUint128 ( f * function , n * cc . AndExpression , t cc . Type , mode exprMode , flags flags ) {
// AndExpression '&' EqualityExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . andExpression ( f , n . AndExpression , n . Promote ( ) , exprValue , flags )
p . w ( ".And(" )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags )
p . w ( ")" )
}
func andOverflows ( lo , ro cc . Operand , promote cc . Type ) bool {
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
return overflows ( a . And ( a , b ) , promote )
}
func ( p * project ) equalityExpression ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . equalityExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . equalityExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . equalityExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . equalityExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . equalityExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . equalityExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . equalityExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . equalityExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . equalityExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) equalityExpressionDecay ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionSelect ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionFunc ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionPSelect ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionLValue ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionBool ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
p . binaryEqualityExpression ( f , n , " == " , t , mode , flags )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
p . binaryEqualityExpression ( f , n , " != " , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionAddrOf ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) equalityExpressionVoid ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
default :
// case cc.EqualityExpressionEq: // EqualityExpression "==" RelationalExpression
// case cc.EqualityExpressionNeq: // EqualityExpression "!=" RelationalExpression
p . w ( "_ = " )
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p . equalityExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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}
}
func ( p * project ) equalityExpressionValue ( f * function , n * cc . EqualityExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . EqualityExpressionRel : // RelationalExpression
p . relationalExpression ( f , n . RelationalExpression , t , mode , flags )
case cc . EqualityExpressionEq : // EqualityExpression "==" RelationalExpression
p . binaryEqualityExpression ( f , n , " == " , t , mode , flags )
case cc . EqualityExpressionNeq : // EqualityExpression "!=" RelationalExpression
p . binaryEqualityExpression ( f , n , " != " , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryEqualityExpression ( f * function , n * cc . EqualityExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . binaryEqualityExpressionValue ( f , n , oper , t , mode , flags )
case exprBool :
p . binaryEqualityExpressionBool ( f , n , oper , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryEqualityExpressionBool ( f * function , n * cc . EqualityExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . relationalExpression ( f , n . RelationalExpression , n . Promote ( ) , exprValue , flags )
}
func ( p * project ) binaryEqualityExpressionValue ( f * function , n * cc . EqualityExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . equalityExpression ( f , n . EqualityExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . relationalExpression ( f , n . RelationalExpression , n . Promote ( ) , exprValue , flags )
}
func ( p * project ) relationalExpression ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . relationalExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . relationalExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . relationalExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . relationalExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . relationalExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . relationalExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . relationalExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . relationalExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . relationalExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) relationalExpressionDecay ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionSelect ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionFunc ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionPSelect ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionLValue ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionBool ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
p . binaryRelationalExpression ( f , n , " < " , t , mode , flags )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
p . binaryRelationalExpression ( f , n , " > " , t , mode , flags )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
p . binaryRelationalExpression ( f , n , " <= " , t , mode , flags )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
p . binaryRelationalExpression ( f , n , " >= " , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionAddrOf ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) relationalExpressionVoid ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
default :
// case cc.RelationalExpressionLt: // RelationalExpression '<' ShiftExpression
// case cc.RelationalExpressionGt: // RelationalExpression '>' ShiftExpression
// case cc.RelationalExpressionLeq: // RelationalExpression "<=" ShiftExpression
// case cc.RelationalExpressionGeq: // RelationalExpression ">=" ShiftExpression
p . w ( "_ = " )
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p . relationalExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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}
}
func ( p * project ) relationalExpressionValue ( f * function , n * cc . RelationalExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . RelationalExpressionShift : // ShiftExpression
p . shiftExpression ( f , n . ShiftExpression , t , mode , flags )
case cc . RelationalExpressionLt : // RelationalExpression '<' ShiftExpression
p . binaryRelationalExpression ( f , n , " < " , t , mode , flags )
case cc . RelationalExpressionGt : // RelationalExpression '>' ShiftExpression
p . binaryRelationalExpression ( f , n , " > " , t , mode , flags )
case cc . RelationalExpressionLeq : // RelationalExpression "<=" ShiftExpression
p . binaryRelationalExpression ( f , n , " <= " , t , mode , flags )
case cc . RelationalExpressionGeq : // RelationalExpression ">=" ShiftExpression
p . binaryRelationalExpression ( f , n , " >= " , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryRelationalExpression ( f * function , n * cc . RelationalExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// RelationalExpression "<=" ShiftExpression
lt := n . RelationalExpression . Operand . Type ( )
rt := n . ShiftExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryRelationalExpressionInt128 ( f , n , oper , t , mode , flags )
return
}
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . relationalExpression ( f , n . RelationalExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . shiftExpression ( f , n . ShiftExpression , n . Promote ( ) , exprValue , flags )
}
func ( p * project ) binaryRelationalExpressionInt128 ( f * function , n * cc . RelationalExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// RelationalExpression "<=" ShiftExpression
defer p . w ( "%s" , p . booleanBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . relationalExpression ( f , n . RelationalExpression , n . Promote ( ) , exprValue , flags )
p . w ( ".Cmp(" )
p . shiftExpression ( f , n . ShiftExpression , n . Promote ( ) , exprValue , flags )
p . w ( ") %s 0" , oper )
}
func ( p * project ) shiftExpression ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . shiftExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . shiftExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . shiftExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . shiftExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . shiftExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . shiftExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . shiftExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . shiftExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . shiftExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) shiftExpressionDecay ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionSelect ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionFunc ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionPSelect ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionLValue ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionBool ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
p . binaryShiftExpression ( f , n , "<<" , t , mode , flags )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
p . binaryShiftExpression ( f , n , ">>" , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionAddrOf ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionVoid ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) shiftExpressionValue ( f * function , n * cc . ShiftExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . ShiftExpressionAdd : // AdditiveExpression
p . additiveExpression ( f , n . AdditiveExpression , t , mode , flags )
case cc . ShiftExpressionLsh : // ShiftExpression "<<" AdditiveExpression
p . binaryShiftExpression ( f , n , "<<" , t , mode , flags )
case cc . ShiftExpressionRsh : // ShiftExpression ">>" AdditiveExpression
p . binaryShiftExpression ( f , n , ">>" , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryShiftExpression ( f * function , n * cc . ShiftExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// ShiftExpression "<<" AdditiveExpression
switch mode {
case exprValue :
p . binaryShiftExpressionValue ( f , n , oper , t , mode , flags )
case exprBool :
p . binaryShiftExpressionBool ( f , n , oper , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) todo ( n cc . Node , t cc . Type ) {
p . w ( "func() %s { panic(`%v: TODO (%v)`)}()" , p . typ ( n , t ) , n . Position ( ) , origin ( 2 ) )
}
func ( p * project ) binaryShiftExpressionBool ( f * function , n * cc . ShiftExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , n . Operand . Type ( ) , & mode , flags ) )
switch {
case n . ShiftExpression . Operand . Type ( ) . IsBitFieldType ( ) :
p . w ( "(" )
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")&%#x" , bfValueMask ( n . ShiftExpression . Operand . Type ( ) . BitField ( ) ) )
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case shiftOverflows ( n , n . ShiftExpression . Operand , n . AdditiveExpression . Operand , oper , n . Operand . Type ( ) ) :
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags | fForceRuntimeConv )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
case isConstInteger ( n . ShiftExpression . Operand ) :
s := p . convertNil ( n , n . Operand . Type ( ) , 0 )
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( "%s %s%s" , s , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
default :
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
}
}
func shiftOp ( s string ) string {
switch s {
case "<<" :
return "Shl"
case ">>" :
return "Shr"
default :
panic ( todo ( "%q" , s ) )
}
}
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func bfValueMask ( bf cc . Field ) uint64 {
return uint64 ( 1 ) << bf . BitFieldWidth ( ) - 1
}
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func ( p * project ) binaryShiftExpressionValue ( f * function , n * cc . ShiftExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// ShiftExpression "<<" AdditiveExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch k := n . ShiftExpression . Operand . Type ( ) . Kind ( ) ; {
case k == cc . Int128 , k == cc . UInt128 :
p . w ( "(" )
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p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
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p . w ( ").%s(" , shiftOp ( oper ) )
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p . additiveExpression ( f , n . AdditiveExpression , p . intType , exprValue , flags )
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p . w ( ")" )
case n . ShiftExpression . Operand . Type ( ) . IsBitFieldType ( ) :
p . w ( "(" )
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")&%#x" , bfValueMask ( n . ShiftExpression . Operand . Type ( ) . BitField ( ) ) )
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case shiftOverflows ( n , n . ShiftExpression . Operand , n . AdditiveExpression . Operand , oper , n . Operand . Type ( ) ) :
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags | fForceRuntimeConv )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
case isConstInteger ( n . ShiftExpression . Operand ) :
s := p . convertNil ( n , n . Operand . Type ( ) , 0 )
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( "%s %s%s" , s , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
default :
p . shiftExpression ( f , n . ShiftExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
}
}
func shiftOverflows ( n cc . Node , lo , ro cc . Operand , oper string , result cc . Type ) bool {
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
if ! b . IsUint64 ( ) {
return true
}
bits := b . Uint64 ( )
if bits > mathutil . MaxUint {
return true
}
switch oper {
case "<<" :
return overflows ( a . Lsh ( a , uint ( bits ) ) , result )
case ">>" :
return overflows ( a . Rsh ( a , uint ( bits ) ) , result )
default :
panic ( todo ( "" , pos ( n ) ) )
}
}
func ( p * project ) additiveExpression ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . additiveExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . additiveExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . additiveExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . additiveExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . additiveExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . additiveExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . additiveExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . additiveExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . additiveExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) additiveExpressionDecay ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionSelect ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionFunc ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionPSelect ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , t . Elem ( ) ) )
p . additiveExpression ( f , n , t , exprValue , flags )
p . w ( "))" )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , t . Elem ( ) ) )
p . additiveExpression ( f , n , t , exprValue , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionLValue ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionBool ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
p . binaryAdditiveExpression ( f , n , "+" , t , mode , flags )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
p . binaryAdditiveExpression ( f , n , "-" , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionAddrOf ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionVoid ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case
cc . AdditiveExpressionAdd , // AdditiveExpression '+' MultiplicativeExpression
cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
p . w ( "_ = " )
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p . additiveExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) additiveExpressionValue ( f * function , n * cc . AdditiveExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . AdditiveExpressionMul : // MultiplicativeExpression
p . multiplicativeExpression ( f , n . MultiplicativeExpression , t , mode , flags )
case cc . AdditiveExpressionAdd : // AdditiveExpression '+' MultiplicativeExpression
p . binaryAdditiveExpression ( f , n , "+" , t , mode , flags )
case cc . AdditiveExpressionSub : // AdditiveExpression '-' MultiplicativeExpression
p . binaryAdditiveExpression ( f , n , "-" , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryAdditiveExpression ( f * function , n * cc . AdditiveExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// AdditiveExpression '+' MultiplicativeExpression
switch mode {
case exprValue :
p . binaryAdditiveExpressionValue ( f , n , oper , t , mode , flags )
case exprBool :
p . binaryAdditiveExpressionBool ( f , n , oper , t , mode , flags )
default :
panic ( todo ( "" , mode ) )
}
}
func ( p * project ) binaryAdditiveExpressionBool ( f * function , n * cc . AdditiveExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// AdditiveExpression '+' MultiplicativeExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , n . Operand . Type ( ) , & mode , flags ) )
lo := n . AdditiveExpression . Operand
ro := n . MultiplicativeExpression . Operand
lt := lo . Type ( )
rt := ro . Type ( )
switch {
case lt . Kind ( ) == cc . Ptr && rt . Kind ( ) == cc . Ptr && oper == "-" :
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
case lt . IsArithmeticType ( ) && rt . IsArithmeticType ( ) : // x +- y
defer p . w ( "%s" , p . bitFieldPatch2 ( n , lo , ro , n . Promote ( ) ) ) //TODO bit field big endian
switch {
case intAddOverflows ( n , lo , ro , oper , n . Promote ( ) ) : // i +- j
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
var s string
if isRealType ( n . Operand ) && n . Operand . Value ( ) != nil {
s = p . convertNil ( n , n . Promote ( ) , flags )
}
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
p . w ( "%s %s%s" , s , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
}
default :
panic ( todo ( "" , n . Position ( ) , lt , rt , oper ) )
}
}
func ( p * project ) binaryAdditiveExpressionValue ( f * function , n * cc . AdditiveExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// AdditiveExpression '+' MultiplicativeExpression
lt := n . AdditiveExpression . Operand . Type ( )
rt := n . MultiplicativeExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryAdditiveExpressionUint128 ( f , n , oper , t , mode , flags )
return
}
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
lo := n . AdditiveExpression . Operand
ro := n . MultiplicativeExpression . Operand
switch {
case lt . IsArithmeticType ( ) && rt . IsArithmeticType ( ) : // x +- y
defer p . w ( "%s" , p . bitFieldPatch2 ( n , lo , ro , n . Promote ( ) ) ) //TODO bit field big endian
switch {
case intAddOverflows ( n , lo , ro , oper , n . Promote ( ) ) : // i +- j
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
var s string
if isRealType ( n . Operand ) && n . Operand . Value ( ) != nil {
s = p . convertNil ( n , n . Promote ( ) , flags )
}
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
p . w ( "%s %s%s" , s , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
}
case lt . Kind ( ) == cc . Ptr && rt . IsIntegerType ( ) : // p +- i
p . additiveExpression ( f , n . AdditiveExpression , lt , exprValue , flags )
p . w ( " %s%s uintptr(" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , rt , exprValue , flags )
p . w ( ")" )
if sz := lt . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
case lt . Kind ( ) == cc . Array && rt . IsIntegerType ( ) : // p +- i
p . additiveExpression ( f , n . AdditiveExpression , lt , exprDecay , flags )
p . w ( " %s%s uintptr(" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , rt , exprValue , flags )
p . w ( ")" )
if sz := lt . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
case lt . IsIntegerType ( ) && rt . Kind ( ) == cc . Ptr : // i +- p
p . w ( "uintptr(" )
p . additiveExpression ( f , n . AdditiveExpression , lt , exprValue , flags )
p . w ( ")" )
if sz := rt . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
p . w ( " %s%s " , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , rt , exprValue , flags )
case lt . IsIntegerType ( ) && rt . Kind ( ) == cc . Array : // i +- p
panic ( todo ( "" , p . pos ( n ) ) )
case lt . Kind ( ) == cc . Ptr && rt . Kind ( ) == cc . Ptr && oper == "-" : // p - q
p . w ( "(" )
p . additiveExpression ( f , n . AdditiveExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Operand . Type ( ) , exprValue , flags )
p . w ( ")/%d" , lt . Elem ( ) . Size ( ) )
case lt . Kind ( ) == cc . Ptr && rt . Kind ( ) == cc . Array && oper == "-" : // p - q
defer p . w ( "%s" , p . convertType ( n , nil , n . Operand . Type ( ) , 0 ) )
p . w ( "(" )
p . additiveExpression ( f , n . AdditiveExpression , lt , exprValue , flags )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
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p . multiplicativeExpression ( f , n . MultiplicativeExpression , rt . Decay ( ) , exprDecay , flags )
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p . w ( ")/%d" , lt . Elem ( ) . Size ( ) )
case lt . Kind ( ) == cc . Array && rt . Kind ( ) == cc . Ptr && oper == "-" : // p - q
panic ( todo ( "" , p . pos ( n ) ) )
case lt . Kind ( ) == cc . Array && rt . Kind ( ) == cc . Array && oper == "-" : // p - q
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "" , n . Position ( ) , lt , rt , oper ) )
}
}
func ( p * project ) binaryAdditiveExpressionUint128 ( f * function , n * cc . AdditiveExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// AdditiveExpression '+' MultiplicativeExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . additiveExpression ( f , n . AdditiveExpression , n . Promote ( ) , exprValue , flags )
switch oper {
case "+" :
p . w ( ".Add(" )
case "-" :
p . w ( ".Sub(" )
default :
panic ( todo ( "%q" , oper ) )
}
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
p . w ( ")" )
}
func ( p * project ) bitFieldPatch2 ( n cc . Node , a , b cc . Operand , promote cc . Type ) string {
//TODO bit field big endian
var m uint64
var w int
switch {
case a . Type ( ) . IsBitFieldType ( ) :
bf := a . Type ( ) . BitField ( )
w = bf . BitFieldWidth ( )
m = bf . Mask ( ) >> bf . BitFieldOffset ( )
if b . Type ( ) . IsBitFieldType ( ) {
bf = b . Type ( ) . BitField ( )
w2 := bf . BitFieldWidth ( )
if w2 != w {
panic ( todo ( "" , p . pos ( n ) ) )
}
}
case b . Type ( ) . IsBitFieldType ( ) :
bf := b . Type ( ) . BitField ( )
w = bf . BitFieldWidth ( )
m = bf . Mask ( ) >> bf . BitFieldOffset ( )
default :
return ""
}
p . w ( "((" )
switch {
case promote . IsSignedType ( ) :
n := int ( promote . Size ( ) ) * 8 - w
var s string
switch promote . Size ( ) {
case 4 :
s = fmt . Sprintf ( ")&%#x" , int32 ( m ) )
default :
s = fmt . Sprintf ( ")&%#x" , m )
}
if n != 0 {
s += fmt . Sprintf ( "<<%d>>%[1]d" , n )
}
return ")" + s
default :
return fmt . Sprintf ( ")&%#x)" , m )
}
}
func intAddOverflows ( n cc . Node , lo , ro cc . Operand , oper string , promote cc . Type ) bool {
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
switch oper {
case "+" :
return overflows ( a . Add ( a , b ) , promote )
case "-" :
return overflows ( a . Sub ( a , b ) , promote )
default :
panic ( todo ( "" , pos ( n ) ) )
}
}
func getIntOperands ( a , b cc . Operand ) ( x , y * big . Int , ok bool ) {
switch n := a . Value ( ) . ( type ) {
case cc . Int64Value :
x = big . NewInt ( int64 ( n ) )
case cc . Uint64Value :
x = big . NewInt ( 0 ) . SetUint64 ( uint64 ( n ) )
default :
return nil , nil , false
}
switch n := b . Value ( ) . ( type ) {
case cc . Int64Value :
return x , big . NewInt ( int64 ( n ) ) , true
case cc . Uint64Value :
return x , big . NewInt ( 0 ) . SetUint64 ( uint64 ( n ) ) , true
default :
return nil , nil , false
}
}
func overflows ( n * big . Int , promote cc . Type ) bool {
switch k := promote . Kind ( ) ; {
case k == cc . Int128 , k == cc . UInt128 :
return false
case isSigned ( promote ) :
switch promote . Size ( ) {
case 4 :
return n . Cmp ( minInt32 ) < 0 || n . Cmp ( maxInt32 ) > 0
case 8 :
return n . Cmp ( minInt64 ) < 0 || n . Cmp ( maxInt64 ) > 0
}
default :
switch promote . Size ( ) {
case 4 :
return n . Sign ( ) < 0 || n . Cmp ( maxUint32 ) > 0
case 8 :
return n . Sign ( ) < 0 || n . Cmp ( maxUint64 ) > 0
}
}
panic ( todo ( "" , promote . Size ( ) , promote ) )
}
func ( p * project ) multiplicativeExpression ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprValue :
p . multiplicativeExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . multiplicativeExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . multiplicativeExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . multiplicativeExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . multiplicativeExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . multiplicativeExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . multiplicativeExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . multiplicativeExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . multiplicativeExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) multiplicativeExpressionDecay ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionSelect ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionFunc ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionPSelect ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionLValue ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionBool ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case
cc . MultiplicativeExpressionMul , // MultiplicativeExpression '*' CastExpression
cc . MultiplicativeExpressionDiv , // MultiplicativeExpression '/' CastExpression
cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0 " )
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p . multiplicativeExpression ( f , n , t , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionAddrOf ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionVoid ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) multiplicativeExpressionValue ( f * function , n * cc . MultiplicativeExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . MultiplicativeExpressionCast : // CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . MultiplicativeExpressionMul : // MultiplicativeExpression '*' CastExpression
p . binaryMultiplicativeExpression ( f , n , "*" , t , mode , flags )
case cc . MultiplicativeExpressionDiv : // MultiplicativeExpression '/' CastExpression
p . binaryMultiplicativeExpression ( f , n , "/" , t , mode , flags )
case cc . MultiplicativeExpressionMod : // MultiplicativeExpression '%' CastExpression
p . binaryMultiplicativeExpression ( f , n , "%" , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) binaryMultiplicativeExpression ( f * function , n * cc . MultiplicativeExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// MultiplicativeExpression '*' CastExpression
switch mode {
case exprValue :
p . binaryMultiplicativeExpressionValue ( f , n , oper , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) binaryMultiplicativeExpressionValue ( f * function , n * cc . MultiplicativeExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// MultiplicativeExpression '*' CastExpression
lt := n . MultiplicativeExpression . Operand . Type ( )
rt := n . CastExpression . Operand . Type ( )
switch lk , rk := lt . Kind ( ) , rt . Kind ( ) ; {
case
lk == cc . UInt128 || rk == cc . UInt128 ,
lk == cc . Int128 || rk == cc . Int128 :
p . binaryMultiplicativeExpressionUint128 ( f , n , oper , t , mode , flags )
return
}
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
switch {
case intMulOverflows ( n , n . Operand , n . MultiplicativeExpression . Operand , n . CastExpression . Operand , oper , n . Promote ( ) ) :
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
p . w ( " %s%s" , oper , tidyComment ( " " , & n . Token ) )
p . castExpression ( f , n . CastExpression , n . Promote ( ) , exprValue , flags | fForceRuntimeConv )
default :
defer p . w ( "%s" , p . bitFieldPatch2 ( n , n . MultiplicativeExpression . Operand , n . CastExpression . Operand , n . Promote ( ) ) ) //TODO bit field big endian
var s string
if isRealType ( n . Operand ) && n . Operand . Value ( ) != nil {
s = p . convertNil ( n , n . Promote ( ) , flags )
}
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
p . w ( "%s %s%s" , s , oper , tidyComment ( " " , & n . Token ) )
if ( oper == "/" || oper == "%" ) && ( isZeroReal ( n . MultiplicativeExpression . Operand ) || isZeroReal ( n . CastExpression . Operand ) ) {
p . w ( "%s%sFrom%[2]s(" , p . task . crt , p . helperType ( n , n . Promote ( ) ) )
defer p . w ( ")" )
}
p . castExpression ( f , n . CastExpression , n . Promote ( ) , exprValue , flags )
}
}
func ( p * project ) binaryMultiplicativeExpressionUint128 ( f * function , n * cc . MultiplicativeExpression , oper string , t cc . Type , mode exprMode , flags flags ) {
// MultiplicativeExpression '*' CastExpression
defer p . w ( "%s" , p . artithmeticBinaryExpression ( n , n . Operand , t , & mode , flags ) )
p . multiplicativeExpression ( f , n . MultiplicativeExpression , n . Promote ( ) , exprValue , flags )
switch oper {
case "*" :
p . w ( ".Mul(" )
case "/" :
p . w ( ".Div(" )
case "%" :
p . w ( ".Mod(" )
default :
panic ( todo ( "%q" , oper ) )
}
p . castExpression ( f , n . CastExpression , n . Promote ( ) , exprValue , flags )
p . w ( ")" )
}
func isZeroReal ( op cc . Operand ) bool {
switch x := op . Value ( ) . ( type ) {
case cc . Float32Value :
return x == 0
case cc . Float64Value :
return x == 0
default :
return false
}
}
func intMulOverflows ( n cc . Node , r , lo , ro cc . Operand , oper string , promote cc . Type ) bool {
if ( isReal ( lo ) && ! isInf ( lo ) || isReal ( ro ) && ! isInf ( ro ) ) && isInf ( r ) {
return true
}
a , b , ok := getIntOperands ( lo , ro )
if ! ok {
return false
}
switch oper {
case "*" :
return overflows ( a . Mul ( a , b ) , promote )
case "/" :
if b . Sign ( ) == 0 {
return true
}
return overflows ( a . Div ( a , b ) , promote )
case "%" :
if b . Sign ( ) == 0 {
return true
}
return overflows ( a . Mod ( a , b ) , promote )
default :
panic ( todo ( "" , pos ( n ) ) )
}
}
func isReal ( op cc . Operand ) bool {
switch op . Value ( ) . ( type ) {
case cc . Float32Value , cc . Float64Value :
return true
default :
return false
}
}
func isInf ( op cc . Operand ) bool {
switch x := op . Value ( ) . ( type ) {
case cc . Float32Value :
return math . IsInf ( float64 ( x ) , 0 )
case cc . Float64Value :
return math . IsInf ( float64 ( x ) , 0 )
default :
return false
}
}
func ( p * project ) castExpression ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
if n . Case == cc . CastExpressionCast {
if f != nil && n . CastExpression . Operand . Type ( ) . Kind ( ) == cc . Ptr { // void *__ccgo_va_arg(__builtin_va_list ap);
sv := f . vaType
f . vaType = n . TypeName . Type ( )
defer func ( ) { f . vaType = sv } ( )
}
}
switch mode {
case exprValue :
p . castExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . castExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . castExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . castExpressionBool ( f , n , t , mode , flags )
case exprLValue :
p . castExpressionLValue ( f , n , t , mode , flags )
case exprPSelect :
p . castExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . castExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . castExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . castExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) castExpressionDecay ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionSelect ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
p . castExpression ( f , n . CastExpression , n . TypeName . Type ( ) , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionFunc ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
ot := n . CastExpression . Operand . Type ( )
tn := n . TypeName . Type ( )
var ft cc . Type
switch tn . Kind ( ) {
case cc . Ptr :
switch et := ot . Elem ( ) ; et . Kind ( ) {
case cc . Function , cc . Void :
// ok
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "%v: %v, %v -> %v, %v -> %v, %v" , p . pos ( n ) , ot , ot . Kind ( ) , tn , tn . Kind ( ) , t , t . Kind ( ) ) )
}
switch t . Kind ( ) {
case cc . Ptr :
switch et := t . Elem ( ) ; et . Kind ( ) {
case cc . Function :
ft = et
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "%v: %v, %v -> %v, %v -> %v, %v" , p . pos ( n ) , ot , ot . Kind ( ) , tn , tn . Kind ( ) , t , t . Kind ( ) ) )
}
switch ot . Kind ( ) {
case cc . Ptr :
switch et := ot . Elem ( ) ; et . Kind ( ) {
case cc . Function , cc . Void :
p . w ( "(*(*" )
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p . functionSignature ( n , f , ft , "" )
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p . w ( ")(unsafe.Pointer(" )
p . castExpression ( f , n . CastExpression , ot , exprAddrOf , flags )
p . w ( ")))" )
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "%v: %v, %v -> %v, %v -> %v, %v" , p . pos ( n ) , ot , ot . Kind ( ) , tn , tn . Kind ( ) , t , t . Kind ( ) ) )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionPSelect ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
p . castExpression ( f , n . CastExpression , n . TypeName . Type ( ) , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionLValue ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionBool ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0 " )
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p . castExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionAddrOf ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
p . castExpressionAddrOf ( f , n . CastExpression , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionVoid ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
p . castExpression ( f , n . CastExpression , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionValue ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . CastExpressionUnary : // UnaryExpression
p . unaryExpression ( f , n . UnaryExpression , t , mode , flags )
case cc . CastExpressionCast : // '(' TypeName ')' CastExpression
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if f != nil && p . pass1 && n . TypeName . Type ( ) . IsIntegerType ( ) && n . CastExpression . Operand . Type ( ) . Kind ( ) == cc . Array {
if d := n . CastExpression . Declarator ( ) ; d != nil {
f . pin ( n , d )
}
}
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switch k := p . opKind ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) ) ; k {
case opNormal , opBitfield :
p . castExpressionValueNormal ( f , n , t , mode , flags )
case opArray :
p . castExpressionValueArray ( f , n , t , mode , flags )
case opFunction :
p . castExpressionValueFunction ( f , n , t , mode , flags )
case opArrayParameter :
p . castExpressionValueNormal ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) castExpressionValueArrayParameter ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
// '(' TypeName ')' CastExpression
tn := n . TypeName . Type ( )
defer p . w ( "%s" , p . convertType ( n , tn , t , flags ) )
p . castExpression ( f , n . CastExpression , tn , mode , flags )
}
func ( p * project ) castExpressionValueFunction ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
// '(' TypeName ')' CastExpression
op := n . CastExpression . Operand
tn := n . TypeName . Type ( )
switch {
case op . Type ( ) . Kind ( ) == cc . Function :
switch {
case tn . Kind ( ) == cc . Ptr && t . Kind ( ) == cc . Ptr :
p . castExpression ( f , n . CastExpression , op . Type ( ) , exprValue , flags )
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case tn . IsIntegerType ( ) :
p . w ( "%s(" , p . typ ( n , tn ) )
p . castExpression ( f , n . CastExpression , op . Type ( ) , exprValue , flags )
p . w ( ")" )
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default :
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panic ( todo ( "%v: tn %v expr %v" , n . Position ( ) , tn , op . Type ( ) ) )
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}
default :
panic ( todo ( "%v: %v -> %v -> %v" , p . pos ( n ) , op . Type ( ) , tn , t ) )
}
}
func ( p * project ) castExpressionValueArray ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
// '(' TypeName ')' CastExpression
tn := n . TypeName . Type ( )
switch {
case tn . IsScalarType ( ) :
defer p . w ( "%s" , p . convertType ( n , nil , t , flags ) )
p . castExpression ( f , n . CastExpression , tn , exprDecay , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
}
func ( p * project ) castExpressionValueNormal ( f * function , n * cc . CastExpression , t cc . Type , mode exprMode , flags flags ) {
// '(' TypeName ')' CastExpression
op := n . CastExpression . Operand
tn := n . TypeName . Type ( )
switch {
case op . Type ( ) . Kind ( ) == cc . Ptr && tn . IsArithmeticType ( ) :
defer p . w ( "%s" , p . convertType ( n , nil , t , flags | fForceConv ) )
p . castExpression ( f , n . CastExpression , op . Type ( ) , mode , flags )
case tn . IsArithmeticType ( ) :
switch {
case ( tn . Kind ( ) == cc . Float || tn . Kind ( ) == cc . Double ) && op . Type ( ) . IsIntegerType ( ) && op . Value ( ) != nil && t . IsIntegerType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case isNegativeInt ( op ) && isUnsigned ( t ) :
defer p . w ( "%s" , p . convertType ( n , tn , t , flags | fForceConv ) )
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p . castExpression ( f , n . CastExpression , tn , exprValue , flags )
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default :
defer p . w ( "%s" , p . convertType ( n , tn , t , flags ) )
p . castExpression ( f , n . CastExpression , tn , exprValue , flags )
}
default :
switch tn . Kind ( ) {
case cc . Ptr :
switch {
case t . Kind ( ) == cc . Ptr && isNegativeInt ( op ) :
p . w ( "%s(" , p . helperType2 ( n , op . Type ( ) , tn ) )
defer p . w ( ")" )
p . castExpression ( f , n . CastExpression , op . Type ( ) , mode , flags )
default :
defer p . w ( "%s" , p . convertType ( n , tn , t , flags ) )
p . castExpression ( f , n . CastExpression , tn , mode , flags )
}
case cc . Void :
p . castExpression ( f , n . CastExpression , tn , exprVoid , flags )
default :
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panic ( todo ( "%s: %s %s -> %s %s -> %s %s" , n . Position ( ) , op . Type ( ) , op . Type ( ) . Kind ( ) , tn , tn . Kind ( ) , t , t . Kind ( ) ) )
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}
}
}
func ( p * project ) unaryExpression ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprLValue :
p . unaryExpressionLValue ( f , n , t , mode , flags )
case exprValue :
p . unaryExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . unaryExpressionVoid ( f , n , t , mode , flags )
case exprAddrOf :
p . unaryExpressionAddrOf ( f , n , t , mode , flags )
case exprBool :
p . unaryExpressionBool ( f , n , t , mode , flags )
case exprPSelect :
p . unaryExpressionPSelect ( f , n , t , mode , flags )
case exprFunc :
p . unaryExpressionFunc ( f , n , t , mode , flags )
case exprSelect :
p . unaryExpressionSelect ( f , n , t , mode , flags )
case exprDecay :
p . unaryExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) unaryExpressionDecay ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDeref : // '*' CastExpression
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionSelect ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDeref : // '*' CastExpression
ot := n . CastExpression . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Ptr :
switch et := ot . Elem ( ) ; et . Kind ( ) {
case
cc . Struct ,
cc . Union :
p . w ( "(*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
p . w ( ")))" )
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
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case cc . Array :
p . w ( "(*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprAddrOf , flags )
p . w ( ")))" )
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default :
panic ( todo ( "" , p . pos ( n ) , ot , ot . Kind ( ) ) )
}
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionFunc ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDeref : // '*' CastExpression
ot := n . CastExpression . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Ptr :
switch et := ot . Elem ( ) ; et . Kind ( ) {
case cc . Function :
p . castExpression ( f , n . CastExpression , ot , mode , flags | fAddrOfFuncPtrOk )
case cc . Ptr :
switch et2 := et . Elem ( ) ; et2 . Kind ( ) {
case cc . Function :
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// C: (**)()
p . fnVal ( n , f , func ( ) { p . castExpression ( f , n . CastExpression , p . ptrType , exprValue , flags | fAddrOfFuncPtrOk ) } , n . CastExpression . Declarator ( ) , n . CastExpression . Operand . Type ( ) , 1 , mode , flags )
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default :
panic ( todo ( "" , p . pos ( n ) , et2 , et2 . Kind ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
case cc . Function :
p . castExpression ( f , n . CastExpression , ot , mode , flags | fAddrOfFuncPtrOk )
default :
panic ( todo ( "" , p . pos ( n ) , ot , ot . Kind ( ) , mode ) )
}
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionPSelect ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
//TODO- p.w("(*%s)(unsafe.Pointer(", p.typ(n, n.Operand.Type().Elem()))
//TODO- p.unaryExpression(f, n, t, exprValue, flags)
//TODO- p.w("))")
case cc . UnaryExpressionDeref : // '*' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
//TODO- ot := n.CastExpression.Operand.Type()
//TODO- switch ot.Kind() {
//TODO- case cc.Ptr:
//TODO- switch et := ot.Elem(); {
//TODO- case et.Kind() == cc.Ptr:
//TODO- switch et2 := et.Elem(); et2.Kind() {
//TODO- case cc.Struct:
//TODO- if et2.IsIncomplete() {
//TODO- p.w("(*(**uintptr)(unsafe.Pointer(")
//TODO- p.castExpression(f, n.CastExpression, t, exprValue, flags)
//TODO- p.w(")))")
//TODO- break
//TODO- }
//TODO- p.w("(*(**%s)(unsafe.Pointer(", p.typ(n, n.Operand.Type().Elem()))
//TODO- p.castExpression(f, n.CastExpression, t, exprValue, flags)
//TODO- p.w(")))")
//TODO- default:
//TODO- panic(todo("", p.pos(n), et2, et2.Kind()))
//TODO- }
//TODO- default:
//TODO- panic(todo("", p.pos(n), et, et.Kind()))
//TODO- }
//TODO- default:
//TODO- panic(todo("", p.pos(n), ot, ot.Kind()))
//TODO- }
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionBool ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionNot : // '!' CastExpression
p . w ( "!(" )
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p . castExpression ( f , n . CastExpression , t , mode , flags )
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p . w ( ")" )
default :
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0 " )
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p . unaryExpression ( f , n , t , exprValue , flags )
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}
}
func ( p * project ) unaryExpressionAddrOf ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionDeref : // '*' CastExpression
ot := n . CastExpression . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Ptr :
switch et := ot . Elem ( ) ; {
case
et . IsScalarType ( ) ,
et . Kind ( ) == cc . Struct ,
et . Kind ( ) == cc . Union ,
et . Kind ( ) == cc . Array :
p . unaryExpressionDeref ( f , n , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( n ) , ot , ot . Kind ( ) ) )
}
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionVoid ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
p . unaryExpressionPreIncDec ( f , n , "++" , "+=" , t , mode , flags )
case cc . UnaryExpressionDec : // "--" UnaryExpression
p . unaryExpressionPreIncDec ( f , n , "--" , "-=" , t , mode , flags )
case cc . UnaryExpressionAddrof : // '&' CastExpression
p . w ( "_ = " )
switch {
case n . CastExpression . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprAddrOf , flags )
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}
case cc . UnaryExpressionDeref : // '*' CastExpression
p . w ( "_ = *(*byte)(unsafe.Pointer(" )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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p . w ( "))" )
case
cc . UnaryExpressionPlus , // '+' CastExpression
cc . UnaryExpressionMinus , // '-' CastExpression
cc . UnaryExpressionNot , // '!' CastExpression
cc . UnaryExpressionCpl : // '~' CastExpression
p . w ( "_ = " )
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defer p . w ( "%s" , p . convert ( n , n . CastExpression . Operand , p . intType , flags ) )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
// nop
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
// nop
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) unaryExpressionValue ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
p . unaryExpressionPreIncDec ( f , n , "++" , "+=" , t , mode , flags )
case cc . UnaryExpressionDec : // "--" UnaryExpression
p . unaryExpressionPreIncDec ( f , n , "--" , "-=" , t , mode , flags )
case cc . UnaryExpressionAddrof : // '&' CastExpression
if t . Kind ( ) != cc . Ptr {
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
}
switch {
case n . CastExpression . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprAddrOf , flags )
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}
case cc . UnaryExpressionDeref : // '*' CastExpression
ot := n . CastExpression . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Ptr , cc . Array :
switch et := ot . Elem ( ) ; {
case
et . IsScalarType ( ) ,
et . Kind ( ) == cc . Array ,
et . Kind ( ) == cc . Struct ,
et . Kind ( ) == cc . Union :
p . unaryExpressionDeref ( f , n , t , mode , flags )
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case et . Kind ( ) == cc . Function :
p . castExpression ( f , n . CastExpression , t , mode , flags )
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default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( n ) , ot , ot . Kind ( ) ) )
}
case cc . UnaryExpressionPlus : // '+' CastExpression
p . w ( " +" )
p . castExpression ( f , n . CastExpression , t , mode , flags )
case cc . UnaryExpressionMinus : // '-' CastExpression
switch {
case isNonNegativeInt ( n . CastExpression . Operand ) && t . Kind ( ) == cc . Ptr :
p . w ( " -%sUintptr(" , p . task . crt )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
p . w ( ")" )
case isZeroReal ( n . CastExpression . Operand ) :
p . w ( " -" )
defer p . w ( "%s" , p . convert ( n , n . CastExpression . Operand , t , flags ) )
p . w ( "%s%sFrom%[2]s(" , p . task . crt , p . helperType ( n , n . CastExpression . Operand . Type ( ) ) )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
p . w ( ")" )
case isNonNegativeInt ( n . CastExpression . Operand ) && isUnsigned ( n . Operand . Type ( ) ) :
defer p . w ( "%s" , p . convert ( n , n . CastExpression . Operand , t , flags ) )
p . w ( "%sNeg%s(" , p . task . crt , p . helperType ( n , n . CastExpression . Operand . Type ( ) ) )
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
p . w ( ")" )
default :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( " -" )
p . castExpression ( f , n . CastExpression , n . Operand . Type ( ) , exprValue , flags )
}
case cc . UnaryExpressionCpl : // '~' CastExpression
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
switch {
case n . CastExpression . Operand . Value ( ) != nil :
switch {
case ! t . IsIntegerType ( ) :
p . w ( " ^" )
p . castExpression ( f , n . CastExpression , n . Operand . Type ( ) , exprValue , flags | fForceRuntimeConv )
default :
p . w ( "%sCpl%s(" , p . task . crt , p . helperType ( n , n . Operand . Type ( ) ) )
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p . castExpression ( f , n . CastExpression , n . Operand . Type ( ) , exprValue , flags )
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p . w ( ")" )
}
default :
p . w ( " ^" )
p . castExpression ( f , n . CastExpression , n . Operand . Type ( ) , exprValue , flags )
}
case cc . UnaryExpressionNot : // '!' CastExpression
p . w ( "%sBool%s(!(" , p . task . crt , p . helperType ( n , t ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprBool , flags )
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p . w ( "))" )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
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p . checkSizeof ( n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) )
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defer p . w ( "%s" , p . convertNil ( n , t , flags ) )
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
var isLocal bool
if f != nil {
if local := f . locals [ d ] ; local != nil {
isLocal = true
if ! local . isPinned {
p . w ( "unsafe.Sizeof(%s)" , local . name )
return
}
}
}
if ! isLocal {
if tld := p . tlds [ d ] ; tld != nil {
p . w ( "unsafe.Sizeof(%s)" , tld . name )
break
}
nm := d . Name ( ) . String ( )
if imp := p . imports [ nm ] ; imp != nil {
imp . used = true
p . w ( "unsafe.Sizeof(%sX%s)" , imp . qualifier , nm )
break
}
}
}
t := n . UnaryExpression . Operand . Type ( )
if p . isArray ( f , n . UnaryExpression , t ) {
p . w ( "%d" , t . Len ( ) * t . Elem ( ) . Size ( ) )
break
}
s := "(0)"
if ! t . IsArithmeticType ( ) {
switch t . Kind ( ) {
case cc . Ptr :
// ok
case cc . Struct , cc . Union , cc . Array :
s = "{}"
default :
panic ( todo ( "" , t . Kind ( ) ) )
}
}
switch t . Kind ( ) {
case cc . Int128 , cc . UInt128 :
s = "{}"
}
p . w ( "unsafe.Sizeof(%s%s)" , p . typ ( n , t ) , s )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
defer p . w ( "%s" , p . convertNil ( n , t , flags ) )
t := n . TypeName . Type ( )
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p . checkSizeof ( n . TypeName , t )
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if t . Kind ( ) == cc . Array {
p . w ( "%d" , t . Len ( ) * t . Elem ( ) . Size ( ) )
break
}
s := "(0)"
if ! t . IsArithmeticType ( ) {
switch t . Kind ( ) {
case cc . Ptr :
// ok
case cc . Struct , cc . Union :
s = "{}"
default :
panic ( todo ( "" , t . Kind ( ) ) )
}
}
switch t . Kind ( ) {
case cc . Int128 , cc . UInt128 :
s = "{}"
}
p . w ( "unsafe.Sizeof(%s%s)" , p . typ ( n , t ) , s )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
if n . TypeName . Type ( ) . Kind ( ) == cc . Void {
p . intConst ( n , "" , n . Operand , t , flags )
break
}
defer p . w ( "%s" , p . convertNil ( n , t , flags ) )
t := n . UnaryExpression . Operand . Type ( )
if p . isArray ( f , n . UnaryExpression , t ) {
p . w ( "%d" , t . Len ( ) * t . Elem ( ) . Size ( ) )
break
}
s := "(0)"
if ! t . IsArithmeticType ( ) {
switch t . Kind ( ) {
case cc . Ptr :
// ok
case cc . Struct , cc . Union :
s = "{}"
default :
panic ( todo ( "" , t . Kind ( ) ) )
}
}
p . w ( "unsafe.Alignof(%s%s)" , p . typ ( n , t ) , s )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
if n . TypeName . Type ( ) . Kind ( ) == cc . Void {
p . intConst ( n , "" , n . Operand , t , flags )
break
}
defer p . w ( "%s" , p . convertNil ( n , t , flags ) )
t := n . TypeName . Type ( )
if t . Kind ( ) == cc . Array {
p . w ( "%d" , t . Len ( ) * t . Elem ( ) . Size ( ) )
break
}
s := "(0)"
if ! t . IsArithmeticType ( ) {
switch t . Kind ( ) {
case cc . Ptr :
// ok
case cc . Struct , cc . Union :
s = "{}"
default :
panic ( todo ( "" , t . Kind ( ) ) )
}
}
p . w ( "unsafe.Alignof(%s%s)" , p . typ ( n , t ) , s )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
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func ( p * project ) checkSizeof ( n cc . Node , t cc . Type ) {
if ! p . checkSizeof0 ( n , t ) {
p . err ( n , "sizeof type %s: not supported" , t . Alias ( ) )
}
}
func ( p * project ) checkSizeof0 ( n cc . Node , t cc . Type ) ( ok bool ) {
switch t . Kind ( ) {
case cc . Array :
return ! t . IsVLA ( )
case cc . Struct , cc . Union :
nf := t . NumField ( )
for i := [ ] int { 0 } ; i [ 0 ] < nf ; i [ 0 ] ++ {
if ! p . checkSizeof0 ( n , t . FieldByIndex ( i ) . Type ( ) ) {
return false
}
}
}
return true
}
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func ( p * project ) unaryExpressionLValue ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
p . postfixExpression ( f , n . PostfixExpression , t , mode , flags )
case cc . UnaryExpressionInc : // "++" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionDec : // "--" UnaryExpression
panic ( todo ( "" , p . pos ( n ) ) )
case cc . UnaryExpressionAddrof : // '&' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionDeref : // '*' CastExpression
ot := n . CastExpression . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Ptr , cc . Array :
switch et := ot . Elem ( ) ; {
case
et . IsScalarType ( ) ,
et . Kind ( ) == cc . Struct ,
et . Kind ( ) == cc . Union :
p . unaryExpressionDeref ( f , n , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( n ) , ot , ot . Kind ( ) ) )
}
case cc . UnaryExpressionPlus : // '+' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionMinus : // '-' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionCpl : // '~' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionNot : // '!' CastExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionSizeofExpr : // "sizeof" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionSizeofType : // "sizeof" '(' TypeName ')'
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionLabelAddr : // "&&" IDENTIFIER
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofExpr : // "_Alignof" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionAlignofType : // "_Alignof" '(' TypeName ')'
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionImag : // "__imag__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
case cc . UnaryExpressionReal : // "__real__" UnaryExpression
panic ( todo ( "" , n . Position ( ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func isSigned ( t cc . Type ) bool { return t . IsIntegerType ( ) && t . IsSignedType ( ) }
func isUnsigned ( t cc . Type ) bool { return t . IsIntegerType ( ) && ! t . IsSignedType ( ) }
func isConstInteger ( op cc . Operand ) bool {
switch op . Value ( ) . ( type ) {
case cc . Int64Value , cc . Uint64Value :
return true
default :
return false
}
}
func isNegativeInt ( op cc . Operand ) bool {
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
return x < 0
default :
return false
}
}
func isNonNegativeInt ( op cc . Operand ) bool {
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
return x >= 0
case cc . Uint64Value :
return true
default :
return false
}
}
func ( p * project ) unaryExpressionPreIncDec ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
switch mode {
case exprValue :
p . unaryExpressionPreIncDecValue ( f , n , oper , oper2 , t , mode , flags )
case exprVoid :
p . unaryExpressionPreIncDecVoid ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) , mode ) )
}
}
func ( p * project ) unaryExpressionPreIncDecVoid ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
switch n . UnaryExpression . Operand . Type ( ) . Kind ( ) {
case cc . Int128 , cc . UInt128 :
p . unaryExpressionLValue ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) , exprLValue , 0 )
switch oper {
case "++" :
p . w ( ".LValueInc()" )
case "--" :
p . w ( ".LValueDec()" )
default :
panic ( todo ( "internal error: %q" , oper ) )
}
return
}
// "++" UnaryExpression etc.
switch k := p . opKind ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . unaryExpressionPreIncDecVoidNormal ( f , n , oper , oper2 , t , mode , flags )
case opArrayParameter :
p . unaryExpressionPreIncDecVoidArrayParameter ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) unaryExpressionPreIncDecVoidArrayParameter ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
ut := n . UnaryExpression . Operand . Type ( )
p . unaryExpression ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) , exprLValue , flags )
switch d := p . incDelta ( n , ut ) ; d {
case 1 :
p . w ( "%s" , oper )
default :
p . w ( "%s %d" , oper2 , d )
}
}
func ( p * project ) unaryExpressionPreIncDecVoidNormal ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
ut := n . UnaryExpression . Operand . Type ( )
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if d := n . UnaryExpression . Declarator ( ) ; d != nil && p . isVolatileOrAtomic ( d ) {
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x := "Dec"
if oper == "++" {
x = "Inc"
}
p . w ( "%sPre%sAtomic%s(&" , p . task . crt , x , p . helperType ( n , d . Type ( ) ) )
switch local , tld := f . locals [ d ] , p . tlds [ d ] ; {
case local != nil :
p . w ( "%s" , local . name )
case tld != nil :
p . w ( "%s" , tld . name )
default :
panic ( todo ( "" ) )
}
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , ut ) )
return
}
p . unaryExpression ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) , exprLValue , flags )
if ut . IsIntegerType ( ) || ut . Kind ( ) == cc . Ptr && p . incDelta ( n , ut ) == 1 {
p . w ( "%s" , oper )
return
}
switch ut . Kind ( ) {
case cc . Ptr , cc . Double , cc . Float :
p . w ( "%s %d" , oper2 , p . incDelta ( n , ut ) )
return
}
panic ( todo ( "" , p . pos ( n ) ) )
}
func ( p * project ) unaryExpressionPreIncDecValue ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
switch k := p . opKind ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . unaryExpressionPreIncDecValueNormal ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) unaryExpressionPreIncDecValueNormal ( f * function , n * cc . UnaryExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// "++" UnaryExpression etc.
defer p . w ( "%s" , p . convert ( n , n . UnaryExpression . Operand , t , flags ) )
x := "Dec"
if oper == "++" {
x = "Inc"
}
ut := n . UnaryExpression . Operand . Type ( )
p . w ( "%sPre%s%s(&" , p . task . crt , x , p . helperType ( n , ut ) )
p . unaryExpression ( f , n . UnaryExpression , ut , exprLValue , flags )
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , ut ) )
}
func ( p * project ) unaryExpressionDeref ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
switch mode {
case exprValue :
p . unaryExpressionDerefValue ( f , n , t , mode , flags )
case exprLValue :
p . unaryExpressionDerefLValue ( f , n , t , mode , flags )
case exprAddrOf :
p . unaryExpressionDerefAddrOf ( f , n , t , mode , flags )
case exprBool :
p . unaryExpressionDerefBool ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) unaryExpressionDerefBool ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
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p . w ( "(" )
defer p . w ( ")" )
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p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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p . w ( ")) != 0" )
}
func ( p * project ) unaryExpressionDerefAddrOf ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
}
func ( p * project ) unaryExpressionDerefLValue ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
switch k := p . opKind ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . unaryExpressionDerefLValueNormal ( f , n , t , mode , flags )
case opArray :
panic ( todo ( "" , p . pos ( n ) ) )
p . unaryExpressionDerefLValueArray ( f , n , t , mode , flags )
case opArrayParameter :
p . unaryExpressionDerefLValueNormal ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) unaryExpressionDerefLValueArray ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "))%s" , p . convertType ( n , n . CastExpression . Operand . Type ( ) . Elem ( ) , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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}
func ( p * project ) unaryExpressionDerefLValueNormal ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "))%s" , p . convertType ( n , n . CastExpression . Operand . Type ( ) . Elem ( ) , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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}
func ( p * project ) unaryExpressionDerefValue ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
switch k := p . opKind ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) ) ; k {
case opNormal , opArrayParameter :
p . unaryExpressionDerefValueNormal ( f , n , t , mode , flags )
case opArray :
p . unaryExpressionDerefValueArray ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) unaryExpressionDerefValueArray ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . convertType ( n , n . CastExpression . Operand . Type ( ) . Elem ( ) , t , flags ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , exprValue , flags )
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p . w ( "[0]" )
}
func ( p * project ) unaryExpressionDerefValueNormal ( f * function , n * cc . UnaryExpression , t cc . Type , mode exprMode , flags flags ) {
// '*' CastExpression
switch op := n . Operand . Type ( ) ; {
case op . Kind ( ) == cc . Array :
p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , mode , flags )
default :
defer p . w ( "))%s" , p . convertType ( n , n . CastExpression . Operand . Type ( ) . Elem ( ) , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . castExpression ( f , n . CastExpression , n . CastExpression . Operand . Type ( ) , mode , flags )
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}
}
func ( p * project ) postfixExpression ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprLValue :
p . postfixExpressionLValue ( f , n , t , mode , flags )
case exprValue :
p . postfixExpressionValue ( f , n , t , mode , flags )
case exprVoid :
p . postfixExpressionVoid ( f , n , t , mode , flags )
case exprFunc :
p . postfixExpressionFunc ( f , n , t , mode , flags )
case exprAddrOf :
p . postfixExpressionAddrOf ( f , n , t , mode , flags )
case exprSelect :
p . postfixExpressionSelect ( f , n , t , mode , flags )
case exprPSelect :
p . postfixExpressionPSelect ( f , n , t , mode , flags )
case exprBool :
p . postfixExpressionBool ( f , n , t , mode , flags )
case exprDecay :
p . postfixExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) postfixExpressionDecay ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
pe := n . PostfixExpression . Operand . Type ( )
p . w ( "(" )
switch {
case pe . Kind ( ) == cc . Array :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
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case pe . Kind ( ) == cc . Ptr :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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default :
panic ( todo ( "" , p . pos ( n ) ) )
}
if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( ")" )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpression ( f , n , t , exprAddrOf , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpression ( f , n , t , exprAddrOf , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionDec : // PostfixExpression "--"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionBool ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
p . postfixExpressionCall ( f , n , t , mode , flags )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionDec : // PostfixExpression "--"
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
p . postfixExpression ( f , n , t , exprValue , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionPSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
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// PostfixExpression "->" IDENTIFIER
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switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . postfixExpressionPSelectIndex ( f , n , t , mode , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
p . postfixExpressionPSelectCall ( f , n , t , mode , flags )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpressionPSelectSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpressionPSelectPSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionDec : // PostfixExpression "--"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionPSelectSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opStruct :
p . postfixExpressionPSelectSelectStruct ( f , n , t , mode , flags )
case opUnion :
p . postfixExpressionPSelectSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionPSelectSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
fld := n . Field
if fld . Offset ( ) != 0 {
p . err ( & n . Token2 , "internal error, union field with non-zero offset: %s %v" , n . Token2 . Value , fld . Offset ( ) )
}
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*(**%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) . Elem ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
p . w ( "/* .%s */" , p . fieldName ( n , n . Token2 . Value ) )
p . w ( ")))" )
}
}
func ( p * project ) postfixExpressionPSelectSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , t . Elem ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprSelect , flags )
p . w ( ".%s" , p . fieldName ( n , n . Token2 . Value ) )
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionPSelectCall ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) . Elem ( ) ) )
p . postfixExpressionCall ( f , n , t , exprValue , flags )
p . w ( "))" )
}
func ( p * project ) postfixExpressionPSelectIndex ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
// case opArray:
// p.postfixExpressionSelectIndexArray(f, n, t, mode, flags)
case opNormal :
p . postfixExpressionPSelectIndexNormal ( f , n , t , mode , flags )
case opArrayParameter :
p . postfixExpressionSelectIndexArrayParamater ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionPSelectIndexNormal ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
pe := n . PostfixExpression . Operand . Type ( )
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
case pe . Kind ( ) == cc . Array :
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p . w ( "(" )
defer p . w ( ")" )
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p . w ( "(*(**%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( ")))" )
default :
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p . w ( "(" )
defer p . w ( ")" )
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p . w ( "(*(**%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( ")))" )
}
}
func ( p * project ) postfixExpressionSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . postfixExpressionSelectIndex ( f , n , t , mode , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
p . postfixExpression ( f , n , t , exprValue , flags )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpressionSelectSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpressionSelectPSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionDec : // PostfixExpression "--"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionPSelectPSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) . Elem ( ) ) ; k {
case opStruct :
p . postfixExpressionPSelectPSelectStruct ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionPSelectPSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , t . Elem ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprPSelect , flags )
p . w ( ".%s" , p . fieldName ( n , n . Token2 . Value ) )
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionSelectPSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) . Elem ( ) ) ; k {
case opStruct :
p . postfixExpressionSelectPSelectStruct ( f , n , t , mode , flags )
case opUnion :
p . postfixExpressionSelectPSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionSelectPSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
if fld . Offset ( ) != 0 {
p . err ( & n . Token2 , "internal error, union field with non-zero offset: %s %v" , n . Token2 . Value , fld . Offset ( ) )
}
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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p . w ( "))" )
}
}
func ( p * project ) postfixExpressionSelectPSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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et := n . PostfixExpression . Operand . Type ( ) . Elem ( )
fld , path , ok := et . FieldByName2 ( n . Token2 . Value )
switch {
case ! ok :
panic ( todo ( "" , n . Token . Position ( ) ) )
case fld . InUnion ( ) :
p . w ( "(*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "%s)))" , nonZeroUintptr ( pathOff ( et , path ) ) )
case len ( path ) != 1 :
panic ( todo ( "" , n . Token . Position ( ) ) )
default :
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
switch {
case pe . Kind ( ) == cc . Array :
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
default :
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
}
p . w ( ")).%s" , p . fieldName ( n , n . Token2 . Value ) )
}
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}
}
func ( p * project ) postfixExpressionSelectSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opUnion :
p . postfixExpressionSelectSelectUnion ( f , n , t , mode , flags )
case opStruct :
p . postfixExpressionSelectSelectStruct ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionSelectSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprSelect , flags )
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p . w ( ".%s" , p . fieldName ( n , n . Token2 . Value ) )
}
}
func ( p * project ) postfixExpressionSelectSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
fld := n . Field
if fld . Offset ( ) != 0 {
p . err ( & n . Token2 , "internal error, union field with non-zero offset: %s %v" , n . Token2 . Value , fld . Offset ( ) )
}
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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p . w ( "))" )
}
}
func ( p * project ) postfixExpressionSelectIndex ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opArray :
p . postfixExpressionSelectIndexArray ( f , n , t , mode , flags )
case opNormal :
p . postfixExpressionSelectIndexNormal ( f , n , t , mode , flags )
case opArrayParameter :
p . postfixExpressionSelectIndexArrayParamater ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionSelectIndexArrayParamater ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
pe := n . PostfixExpression . Operand . Type ( )
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionSelectIndexNormal ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
pe := n . PostfixExpression . Operand . Type ( )
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
case pe . Kind ( ) != cc . Ptr :
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
default :
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionSelectIndexArray ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , pe , mode , flags )
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p . w ( "[" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags )
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p . w ( "]" )
}
}
func ( p * project ) postfixExpressionAddrOf ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . postfixExpressionAddrOfIndex ( f , n , t , mode , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
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ot := n . Operand . Type ( )
switch ot . Kind ( ) {
case cc . Struct , cc . Union :
// ok
default :
p . err ( n , "cannot take address of value of type %v" , n . Operand . Type ( ) )
return
}
if p . pass1 {
off := roundup ( f . off , uintptr ( ot . Align ( ) ) )
f . complits [ n ] = off
f . off += ot . Size ( )
return
}
off := f . complits [ n ]
p . w ( "func() uintptr { *(*%s)(unsafe.Pointer(%s%s)) = " , p . typ ( n , ot ) , f . bpName , nonZeroUintptr ( off ) )
p . postfixExpressionValue ( f , n , ot , exprValue , flags )
p . w ( "; return %s%s }()" , f . bpName , nonZeroUintptr ( off ) )
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case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpressionAddrOfSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpressionAddrOfPSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
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p . postfixExpressionIncDec ( f , n , "++" , "+=" , t , exprLValue , flags )
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case cc . PostfixExpressionDec : // PostfixExpression "--"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
tn := n . TypeName . Type ( )
switch tn . Decay ( ) . Kind ( ) {
case cc . Ptr :
switch tn . Kind ( ) {
case cc . Array :
switch {
case p . pass1 :
off := roundup ( f . off , uintptr ( tn . Elem ( ) . Align ( ) ) )
f . complits [ n ] = off
f . off += tn . Size ( )
default :
off := f . complits [ n ]
p . w ( " func() uintptr { *(*%s)(unsafe.Pointer(%s%s)) = " , p . typ ( n , tn ) , f . bpName , nonZeroUintptr ( off ) )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
p . w ( "; return %s%s }()" , f . bpName , nonZeroUintptr ( off ) )
}
default :
panic ( todo ( "%v: %v" , n . Position ( ) , tn ) )
}
default :
switch {
case p . pass1 :
off := roundup ( f . off , uintptr ( tn . Align ( ) ) )
f . complits [ n ] = off
f . off += tn . Size ( )
default :
off := f . complits [ n ]
p . w ( " func() uintptr { *(*%s)(unsafe.Pointer(%s%s)) = " , p . typ ( n , tn ) , f . bpName , nonZeroUintptr ( off ) )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
p . w ( "; return %s%s }()" , f . bpName , nonZeroUintptr ( off ) )
}
}
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionAddrOfPSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
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p . w ( "(" )
defer p . w ( ")" )
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pe := n . PostfixExpression . Operand . Type ( )
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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p . bitFldOff ( pe . Elem ( ) , n . Token2 )
case pe . Kind ( ) == cc . Array :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
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p . fldOff ( pe . Elem ( ) , n . Token2 )
default :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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p . fldOff ( pe . Elem ( ) , n . Token2 )
}
}
func ( p * project ) postfixExpressionAddrOfIndex ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
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p . w ( "(" )
defer p . w ( ")" )
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switch {
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
fallthrough
default :
pe := n . PostfixExpression . Operand . Type ( )
d := n . PostfixExpression . Declarator ( )
switch {
case pe . Kind ( ) == cc . Ptr :
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
case pe . Kind ( ) == cc . Array && d != nil && d . IsParameter :
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
default :
p . postfixExpression ( f , n . PostfixExpression , pe , mode , flags )
}
if ! n . Expression . Operand . IsZero ( ) {
p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
if sz := pe . Decay ( ) . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
}
}
func ( p * project ) postfixExpressionAddrOfSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
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p . w ( "(" )
defer p . w ( ")" )
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switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , nil , mode , flags )
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p . bitFldOff ( pe , n . Token2 )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
fallthrough
default :
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , nil , mode , flags )
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p . fldOff ( pe , n . Token2 )
}
}
func ( p * project ) postfixExpressionFunc ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
switch n . Operand . Type ( ) . Kind ( ) {
case cc . Ptr :
switch et := n . Operand . Type ( ) . Elem ( ) ; et . Kind ( ) {
case cc . Function :
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p . fnVal ( n , f , func ( ) {
p . postfixExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
} , nil , n . Operand . Type ( ) , 0 , mode , flags )
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default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , n . Position ( ) , n . Operand . Type ( ) ) )
}
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
switch n . Operand . Type ( ) . Kind ( ) {
case cc . Ptr :
switch et := n . Operand . Type ( ) . Elem ( ) ; et . Kind ( ) {
case cc . Function :
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p . fnVal ( n , f , func ( ) {
p . postfixExpressionCall ( f , n , t , exprValue , flags )
} , nil , n . Operand . Type ( ) , 0 , mode , flags )
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default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , n . Position ( ) , n . Operand . Type ( ) ) )
}
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
switch n . Operand . Type ( ) . Kind ( ) {
case cc . Ptr :
switch n . Operand . Type ( ) . Kind ( ) {
case cc . Ptr :
switch et := n . Operand . Type ( ) . Elem ( ) ; et . Kind ( ) {
case cc . Function :
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p . fnVal ( n , f , func ( ) { p . postfixExpression ( f , n , p . ptrType , exprValue , flags ) } , nil , n . Operand . Type ( ) , 0 , mode , flags )
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default :
panic ( todo ( "" , p . pos ( n ) , et , et . Kind ( ) ) )
}
default :
panic ( todo ( "" , p . pos ( n ) , n . Operand . Type ( ) , n . Operand . Type ( ) . Kind ( ) ) )
}
default :
panic ( todo ( "" , n . Position ( ) , n . Operand . Type ( ) ) )
}
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
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p . fnVal ( n , f , func ( ) { p . postfixExpression ( f , n , p . ptrType , exprValue , flags ) } , nil , n . Operand . Type ( ) , 0 , mode , flags )
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case cc . PostfixExpressionInc : // PostfixExpression "++"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionDec : // PostfixExpression "--"
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionVoid ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . w ( "_ = " )
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p . postfixExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
p . postfixExpressionCall ( f , n , n . Operand . Type ( ) , mode , flags )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . w ( "_ = " )
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p . postfixExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . w ( "_ = " )
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p . postfixExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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case cc . PostfixExpressionInc : // PostfixExpression "++"
p . postfixExpressionIncDec ( f , n , "++" , "+=" , t , mode , flags )
case cc . PostfixExpressionDec : // PostfixExpression "--"
p . postfixExpressionIncDec ( f , n , "--" , "-=" , t , mode , flags )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
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tn := n . TypeName . Type ( )
switch tn . Decay ( ) . Kind ( ) {
case cc . Ptr :
switch tn . Kind ( ) {
case cc . Array :
switch {
case p . pass1 :
off := roundup ( f . off , uintptr ( tn . Elem ( ) . Align ( ) ) )
f . complits [ n ] = off
f . off += tn . Size ( )
default :
off := f . complits [ n ]
p . w ( "*(*%s)(unsafe.Pointer(%s%s)) = " , p . typ ( n , tn ) , f . bpName , nonZeroUintptr ( off ) )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
}
return
default :
panic ( todo ( "%v: %v" , n . Position ( ) , tn ) )
}
}
defer p . w ( "%s" , p . convertType ( n , tn , t , flags ) )
p . w ( "_ = " )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
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case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionValue ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
if p . isArray ( f , n . PrimaryExpression , n . Operand . Type ( ) ) && t . Kind ( ) == cc . Ptr {
mode = exprDecay
}
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . postfixExpressionValueIndex ( f , n , t , mode , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
p . postfixExpressionCall ( f , n , t , mode , flags )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpressionValueSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpressionValuePSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
p . postfixExpressionIncDec ( f , n , "++" , "+=" , t , mode , flags )
case cc . PostfixExpressionDec : // PostfixExpression "--"
p . postfixExpressionIncDec ( f , n , "--" , "-=" , t , mode , flags )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
tn := n . TypeName . Type ( )
switch tn . Decay ( ) . Kind ( ) {
case cc . Ptr :
switch tn . Kind ( ) {
case cc . Array :
switch {
case p . pass1 :
off := roundup ( f . off , uintptr ( tn . Elem ( ) . Align ( ) ) )
f . complits [ n ] = off
f . off += tn . Size ( )
default :
off := f . complits [ n ]
p . w ( " func() uintptr { *(*%s)(unsafe.Pointer(%s%s)) = " , p . typ ( n , tn ) , f . bpName , nonZeroUintptr ( off ) )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
p . w ( "; return %s%s }()" , f . bpName , nonZeroUintptr ( off ) )
}
return
default :
panic ( todo ( "%v: %v" , n . Position ( ) , tn ) )
}
}
defer p . w ( "%s" , p . convertType ( n , tn , t , flags ) )
p . initializer ( f , & cc . Initializer { Case : cc . InitializerInitList , InitializerList : n . InitializerList } , tn , cc . Automatic , nil )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
// Built-in Function: int __builtin_types_compatible_p (type1, type2) You can
// use the built-in function __builtin_types_compatible_p to determine whether
// two types are the same.
//
// This built-in function returns 1 if the unqualified versions of the types
// type1 and type2 (which are types, not expressions) are compatible, 0
// otherwise. The result of this built-in function can be used in integer
// constant expressions.
//
// This built-in function ignores top level qualifiers (e.g., const, volatile).
// For example, int is equivalent to const int.
//
// The type int[] and int[5] are compatible. On the other hand, int and char *
// are not compatible, even if the size of their types, on the particular
// architecture are the same. Also, the amount of pointer indirection is taken
// into account when determining similarity. Consequently, short * is not
// similar to short **. Furthermore, two types that are typedefed are
// considered compatible if their underlying types are compatible.
//
// An enum type is not considered to be compatible with another enum type even
// if both are compatible with the same integer type; this is what the C
// standard specifies. For example, enum {foo, bar} is not similar to enum
// {hot, dog}.
//
// You typically use this function in code whose execution varies depending on
// the arguments’ types. For example:
//
// #define foo(x) \
// ({ \
// typeof (x) tmp = (x); \
// if (__builtin_types_compatible_p (typeof (x), long double)) \
// tmp = foo_long_double (tmp); \
// else if (__builtin_types_compatible_p (typeof (x), double)) \
// tmp = foo_double (tmp); \
// else if (__builtin_types_compatible_p (typeof (x), float)) \
// tmp = foo_float (tmp); \
// else \
// abort (); \
// tmp; \
// })
//
// Note: This construct is only available for C.
p . w ( " %d " , n . Operand . Value ( ) )
case cc . PostfixExpressionChooseExpr : // "__builtin_choose_expr" '(' AssignmentExpression ',' AssignmentExpression ',' AssignmentExpression ')'
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// You can use the built-in function __builtin_choose_expr to evaluate code
// depending on the value of a constant expression. This built-in function
// returns exp1 if const_exp, which is an integer constant expression, is
// nonzero. Otherwise it returns exp2.
//
// This built-in function is analogous to the ‘ ? :’ operator in C, except that
// the expression returned has its type unaltered by promotion rules. Also, the
// built-in function does not evaluate the expression that is not chosen. For
// example, if const_exp evaluates to true, exp2 is not evaluated even if it
// has side effects.
//
// This built-in function can return an lvalue if the chosen argument is an
// lvalue.
//
// If exp1 is returned, the return type is the same as exp1’ s type. Similarly,
// if exp2 is returned, its return type is the same as exp2.
//
// Example:
//
// #define foo(x) \
// __builtin_choose_expr ( \
// __builtin_types_compatible_p (typeof (x), double), \
// foo_double (x), \
// __builtin_choose_expr ( \
// __builtin_types_compatible_p (typeof (x), float), \
// foo_float (x), \
// /* The void expression results in a compile-time error \
// when assigning the result to something. */ \
// (void)0))
//
// Note: This construct is only available for C. Furthermore, the unused
// expression (exp1 or exp2 depending on the value of const_exp) may still
// generate syntax errors. This may change in future revisions.
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switch op := n . AssignmentExpression . Operand ; {
case op . IsNonZero ( ) :
p . assignmentExpression ( f , n . AssignmentExpression2 , t , mode , flags )
case op . IsZero ( ) :
p . assignmentExpression ( f , n . AssignmentExpression3 , t , mode , flags )
default :
panic ( todo ( "" ) )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionValuePSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) . Elem ( ) ) ; k {
case opStruct :
p . postfixExpressionValuePSelectStruct ( f , n , t , mode , flags )
case opUnion :
p . postfixExpressionValuePSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionValuePSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
if fld . Offset ( ) != 0 {
p . err ( & n . Token2 , "internal error, union field with non-zero offset: %s %v" , n . Token2 . Value , fld . Offset ( ) )
}
pe := n . PostfixExpression . Operand . Type ( )
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "/* .%s */" , p . fieldName ( n , n . Token2 . Value ) )
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionValuePSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
pe := n . PostfixExpression . Operand . Type ( )
k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) )
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
p . w ( "(" )
defer p . w ( ")" )
fld := n . Field
defer p . w ( "%s" , p . convertType ( n , fld . Promote ( ) , t , flags ) )
switch pe . Kind ( ) {
case cc . Array :
x := p . convertType ( n , nil , fld . Promote ( ) , flags )
p . w ( "*(*uint%d)(unsafe.Pointer(" , fld . BitFieldBlockWidth ( ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
p . bitFldOff ( pe . Elem ( ) , n . Token2 )
p . w ( "))" )
p . w ( "&%#x>>%d%s" , fld . Mask ( ) , fld . BitFieldOffset ( ) , x )
if fld . Type ( ) . IsSignedType ( ) {
panic ( todo ( "" ) )
p . w ( "<<%d>>%[1]d" , int ( fld . Promote ( ) . Size ( ) * 8 ) - fld . BitFieldWidth ( ) )
}
default :
x := p . convertType ( n , nil , fld . Promote ( ) , flags )
p . w ( "*(*uint%d)(unsafe.Pointer(" , fld . BitFieldBlockWidth ( ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . bitFldOff ( pe . Elem ( ) , n . Token2 )
p . w ( "))&%#x>>%d%s" , fld . Mask ( ) , fld . BitFieldOffset ( ) , x )
if fld . Type ( ) . IsSignedType ( ) {
p . w ( "<<%d>>%[1]d" , int ( fld . Promote ( ) . Size ( ) * 8 ) - fld . BitFieldWidth ( ) )
}
}
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
defer p . w ( "%s" , p . convertType ( n , n . Operand . Type ( ) . Decay ( ) , t . Decay ( ) , flags ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . fldOff ( n . PostfixExpression . Operand . Type ( ) . Elem ( ) , n . Token2 )
case k == opArray :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "[0].%s" , p . fieldName ( n , n . Token2 . Value ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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et := pe . Elem ( )
fld , path , ok := et . FieldByName2 ( n . Token2 . Value )
switch {
case ! ok :
panic ( todo ( "" ) )
case fld . InUnion ( ) :
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "%s))" , nonZeroUintptr ( pathOff ( et , path ) ) )
case len ( path ) != 1 :
panic ( todo ( "" ) )
default :
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( ")).%s" , p . fieldName ( n , n . Token2 . Value ) )
}
}
}
func pathOff ( t cc . Type , path [ ] int ) ( r uintptr ) {
for len ( path ) != 0 {
f := t . FieldByIndex ( path [ : 1 ] )
r += f . Offset ( )
path = path [ 1 : ]
t = f . Type ( )
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}
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return r
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}
func ( p * project ) postfixExpressionValueIndex ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opArray :
p . postfixExpressionValueIndexArray ( f , n , t , mode , flags )
case opNormal :
p . postfixExpressionValueIndexNormal ( f , n , t , mode , flags )
case opArrayParameter :
p . postfixExpressionValueIndexArrayParameter ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionValueIndexArrayParameter ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
pe := n . PostfixExpression . Operand . Type ( )
switch {
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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p . w ( "(" )
defer p . w ( ")" )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
default :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionValueIndexNormal ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
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p . w ( "(" )
defer p . w ( ")" )
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pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
default :
switch pe := n . PostfixExpression . Operand . Type ( ) ; pe . Kind ( ) {
case cc . Ptr :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
case cc . Array :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
default :
panic ( todo ( "" , p . pos ( n ) , pe , pe . Kind ( ) ) )
}
}
}
func ( p * project ) postfixExpressionValueIndexArray ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
pe := n . PostfixExpression . Operand . Type ( )
switch n . Operand . Type ( ) . Kind ( ) {
case cc . Array :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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p . w ( "(" )
defer p . w ( ")" )
p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
default :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , mode , flags )
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p . w ( "[" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags )
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p . w ( "]" )
}
}
func ( p * project ) postfixExpressionValueSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opStruct :
p . postfixExpressionValueSelectStruct ( f , n , t , mode , flags )
case opUnion :
p . postfixExpressionValueSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionValueSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
pe := n . PostfixExpression . Operand . Type ( )
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
p . w ( "(" )
defer p . w ( "%s)" , p . convertType ( n , fld . Promote ( ) , t , flags ) )
x := p . convertType ( n , nil , fld . Promote ( ) , flags )
p . w ( "*(*uint%d)(unsafe.Pointer(" , fld . BitFieldBlockWidth ( ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
p . bitFldOff ( pe , n . Token2 )
p . w ( "))&%#x>>%d%s" , fld . Mask ( ) , fld . BitFieldOffset ( ) , x )
if fld . Type ( ) . IsSignedType ( ) {
p . w ( "<<%d>>%[1]d" , int ( fld . Promote ( ) . Size ( ) * 8 ) - fld . BitFieldWidth ( ) )
}
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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p . w ( "))" )
}
}
func ( p * project ) postfixExpressionValueSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
pe := n . PostfixExpression . Operand . Type ( )
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
p . w ( "(" )
defer p . w ( "%s)" , p . convertType ( n , fld . Promote ( ) , t , flags ) )
x := p . convertType ( n , nil , fld . Promote ( ) , flags )
p . w ( "*(*uint%d)(unsafe.Pointer(" , fld . BitFieldBlockWidth ( ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
p . bitFldOff ( pe , n . Token2 )
p . w ( "))&%#x>>%d%s" , fld . Mask ( ) , fld . BitFieldOffset ( ) , x )
if fld . Type ( ) . IsSignedType ( ) {
p . w ( "<<%d>>%[1]d" , int ( fld . Promote ( ) . Size ( ) * 8 ) - fld . BitFieldWidth ( ) )
}
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
p . postfixExpression ( f , n , t , exprDecay , flags )
case fld . InUnion ( ) :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , fld . Type ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
p . fldOff ( pe , n . Token2 )
p . w ( "))" )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprSelect , flags )
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p . w ( ".%s" , p . fieldName ( n , n . Token2 . Value ) )
}
}
func ( p * project ) postfixExpressionLValue ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PostfixExpressionPrimary : // PrimaryExpression
p . primaryExpression ( f , n . PrimaryExpression , t , mode , flags )
case cc . PostfixExpressionIndex : // PostfixExpression '[' Expression ']'
p . postfixExpressionLValueIndex ( f , n , t , mode , flags )
case cc . PostfixExpressionCall : // PostfixExpression '(' ArgumentExpressionList ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . postfixExpressionLValueSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
p . postfixExpressionLValuePSelect ( f , n , t , mode , flags )
case cc . PostfixExpressionInc : // PostfixExpression "++"
p . postfixExpressionIncDec ( f , n , "++" , "+=" , t , mode , flags )
case cc . PostfixExpressionDec : // PostfixExpression "--"
p . postfixExpressionIncDec ( f , n , "--" , "-=" , t , mode , flags )
case cc . PostfixExpressionComplit : // '(' TypeName ')' '{' InitializerList ',' '}'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionTypeCmp : // "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')'
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PostfixExpressionChooseExpr :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) postfixExpressionLValuePSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
pe := n . PostfixExpression
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) . Elem ( ) ) ; k {
case opStruct :
if ! p . inUnion ( n , pe . Operand . Type ( ) . Elem ( ) , n . Token2 . Value ) {
p . postfixExpressionLValuePSelectStruct ( f , n , t , mode , flags )
break
}
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , pe , pe . Operand . Type ( ) , exprValue , flags )
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p . fldOff ( pe . Operand . Type ( ) . Elem ( ) , n . Token2 )
p . w ( "))" )
case opUnion :
p . postfixExpressionLValuePSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionLValuePSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
if fld . Offset ( ) != 0 {
p . err ( & n . Token2 , "internal error, union field with non-zero offset: %s %v" , n . Token2 . Value , fld . Offset ( ) )
}
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "/* .%s */" , p . fieldName ( n , n . Token2 . Value ) )
p . w ( ")))" )
}
}
func ( p * project ) postfixExpressionLValuePSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "->" IDENTIFIER
fld := n . Field
pe := n . PostfixExpression . Operand . Type ( )
k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) )
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
case k == opArray :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( "[0].%s" , p . fieldName ( n , n . Token2 . Value ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
p . w ( ")).%s" , p . fieldName ( n , n . Token2 . Value ) )
}
}
func ( p * project ) postfixExpressionLValueIndex ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch k := p . opKind ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) ) ; k {
case opArray :
p . postfixExpressionLValueIndexArray ( f , n , t , mode , flags )
case opNormal :
p . postfixExpressionLValueIndexNormal ( f , n , t , mode , flags )
case opArrayParameter :
p . postfixExpressionLValueIndexArrayParameter ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionLValueIndexArrayParameter ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
pe := n . PostfixExpression . Operand . Type ( )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
}
func ( p * project ) postfixExpressionLValueIndexNormal ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
switch {
case n . Operand . Type ( ) . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
default :
switch pe := n . PostfixExpression . Operand . Type ( ) ; pe . Kind ( ) {
case cc . Ptr :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprValue , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
case cc . Array :
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , pe . Elem ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprDecay , flags )
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if ! n . Expression . Operand . IsZero ( ) {
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p . nzUintptr ( n , func ( ) { p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags ) } , n . Expression . Operand )
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if sz := pe . Elem ( ) . Size ( ) ; sz != 1 {
p . w ( "*%d" , sz )
}
}
p . w ( "))" )
default :
panic ( todo ( "" , p . pos ( n ) , pe ) )
}
}
}
func ( p * project ) postfixExpressionLValueIndexArray ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '[' Expression ']'
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , pe , mode , flags )
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p . w ( "[" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprValue , flags )
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p . w ( "]" )
}
func ( p * project ) postfixExpressionLValueSelect ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
pe := n . PostfixExpression
switch k := p . opKind ( f , pe , pe . Operand . Type ( ) ) ; k {
case opStruct :
if ! p . inUnion ( n , pe . Operand . Type ( ) , n . Token2 . Value ) {
p . postfixExpressionLValueSelectStruct ( f , n , t , mode , flags )
break
}
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , pe , pe . Operand . Type ( ) , exprAddrOf , flags )
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p . fldOff ( pe . Operand . Type ( ) , n . Token2 )
p . w ( "))" )
case opUnion :
p . postfixExpressionLValueSelectUnion ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) inUnion ( n cc . Node , t cc . Type , fname cc . StringID ) bool {
f , ok := t . FieldByName ( fname )
if ! ok {
p . err ( n , "unknown field: %s" , fname )
return false
}
return f . InUnion ( )
}
func ( p * project ) postfixExpressionLValueSelectUnion ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
fld := n . Field
pe := n . PostfixExpression . Operand . Type ( )
switch {
case pe . Kind ( ) == cc . Array :
panic ( todo ( "" , p . pos ( n ) ) )
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , n . Operand . Type ( ) ) )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
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nonZeroUintptr ( fld . Offset ( ) )
p . w ( "))" )
}
}
func ( p * project ) postfixExpressionLValueSelectStruct ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '.' IDENTIFIER
fld := n . Field
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if fld . IsBitField ( ) {
p . err ( & n . Token2 , "internal error, wrong function for accessing a bit field: %s" , n . Token2 . Value )
}
pe := n . PostfixExpression . Operand . Type ( )
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p . postfixExpression ( f , n . PostfixExpression , pe , exprSelect , flags )
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p . w ( ".%s" , p . fieldName ( n , n . Token2 . Value ) )
}
}
func ( p * project ) postfixExpressionIncDec ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprVoid :
p . postfixExpressionIncDecVoid ( f , n , oper , oper2 , t , mode , flags )
case exprLValue :
p . postfixExpressionIncDecLValue ( f , n , oper , oper2 , t , mode , flags )
case exprValue :
p . postfixExpressionIncDecValue ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , mode ) )
}
}
func ( p * project ) postfixExpressionIncDecValue ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "++"
pe := n . PostfixExpression . Operand . Type ( )
switch k := p . opKind ( f , n . PostfixExpression , pe ) ; k {
case opNormal :
p . postfixExpressionIncDecValueNormal ( f , n , oper , oper2 , t , mode , flags )
case opBitfield :
p . postfixExpressionIncDecValueBitfield ( f , n , oper , oper2 , t , mode , flags )
case opArrayParameter :
p . postfixExpressionIncDecValueArrayParameter ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , pe , pe . Kind ( ) , k ) )
}
}
func ( p * project ) postfixExpressionIncDecValueArrayParameter ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "++"
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . PostfixExpression . Operand , t , flags ) )
x := "Dec"
if oper == "++" {
x = "Inc"
}
p . w ( "%sPost%s%s(&" , p . task . crt , x , p . helperType ( n , pe . Decay ( ) ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprLValue , flags )
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , pe ) )
}
func ( p * project ) postfixExpressionIncDecValueBitfield ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "++"
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . PostfixExpression . Operand , t , flags ) )
x := "Dec"
if oper == "++" {
x = "Inc"
}
bf := pe . BitField ( )
p . w ( "%sPost%sBitFieldPtr%d%s(" , p . task . crt , x , bf . BitFieldBlockWidth ( ) , p . bfHelperType ( pe ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprAddrOf , flags )
p . w ( ", %d, %d, %d, %#x)" , p . incDelta ( n . PostfixExpression , pe ) , bf . BitFieldBlockWidth ( ) , bf . BitFieldOffset ( ) , bf . Mask ( ) )
}
func ( p * project ) postfixExpressionIncDecValueNormal ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression "++"
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . PostfixExpression . Operand , t , flags ) )
x := "Dec"
if oper == "++" {
x = "Inc"
}
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if d := n . PostfixExpression . Declarator ( ) ; d != nil && p . isVolatileOrAtomic ( d ) {
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p . w ( "%sPost%sAtomic%s(&" , p . task . crt , x , p . helperType ( n , pe ) )
var local * local
var tld * tld
if f != nil {
local = f . locals [ d ]
}
if local == nil {
tld = p . tlds [ d ]
}
switch {
case local != nil :
p . w ( "%s" , local . name )
case tld != nil :
p . w ( "%s" , tld . name )
default :
panic ( todo ( "" ) )
}
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , pe ) )
return
}
p . w ( "%sPost%s%s(&" , p . task . crt , x , p . helperType ( n , pe ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprLValue , flags )
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , pe ) )
}
func ( p * project ) postfixExpressionIncDecLValue ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
switch k := p . opKind ( f , n , n . Operand . Type ( ) ) ; k {
case opNormal :
p . postfixExpressionIncDecLValueNormal ( f , n , oper , oper2 , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionIncDecLValueNormal ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
pe := n . PostfixExpression . Operand . Type ( )
defer p . w ( "%s" , p . convert ( n , n . PostfixExpression . Operand , t , flags ) )
x := "Dec"
if oper == "++" {
x = "Inc"
}
p . w ( "%sPost%s%s(&" , p . task . crt , x , p . helperType ( n , pe ) )
p . postfixExpression ( f , n . PostfixExpression , pe , exprLValue , flags )
p . w ( ", %d)" , p . incDelta ( n . PostfixExpression , pe ) )
}
func ( p * project ) postfixExpressionIncDecVoid ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
switch k := p . opKind ( f , n , n . Operand . Type ( ) ) ; k {
case opNormal :
p . postfixExpressionIncDecVoidNormal ( f , n , oper , oper2 , t , mode , flags )
case opBitfield :
p . postfixExpressionIncDec ( f , n , oper , oper2 , t , exprValue , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) postfixExpressionIncDecVoidNormal ( f * function , n * cc . PostfixExpression , oper , oper2 string , t cc . Type , mode exprMode , flags flags ) {
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if d := n . PostfixExpression . Declarator ( ) ; d != nil && p . isVolatileOrAtomic ( d ) {
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switch d . Type ( ) . Size ( ) {
case 4 , 8 :
if ! d . Type ( ) . IsIntegerType ( ) {
p . err ( n , "unsupported volatile declarator type: %v" , d . Type ( ) )
return
}
if f != nil {
if local := f . locals [ d ] ; local != nil {
if local . isPinned {
panic ( todo ( "" ) )
}
p . w ( "atomic.Add%s(&%s, " , p . helperType ( n , d . Type ( ) ) , local . name )
switch oper {
case "++" :
// ok
case "--" :
p . w ( "-" )
default :
p . err ( n , "unsupported volatile declarator operation: %v" , oper )
}
p . w ( "%d)" , p . incDelta ( n , d . Type ( ) ) )
return
}
}
if tld := p . tlds [ d ] ; tld != nil {
p . w ( "atomic.Add%s(&%s, " , p . helperType ( n , d . Type ( ) ) , tld . name )
switch oper {
case "++" :
// ok
case "--" :
p . w ( "-" )
default :
p . err ( n , "unsupported volatile declarator operation: %v" , oper )
}
p . w ( "%d)" , p . incDelta ( n , d . Type ( ) ) )
return
}
panic ( todo ( "" , n . Position ( ) , d . Position ( ) ) )
default :
p . err ( n , "unsupported volatile declarator size: %v" , d . Type ( ) . Size ( ) )
return
}
}
pe := n . PostfixExpression . Operand . Type ( ) . Decay ( )
p . postfixExpression ( f , n . PostfixExpression , pe , exprLValue , flags )
if pe . IsIntegerType ( ) || pe . Kind ( ) == cc . Ptr && p . incDelta ( n , pe ) == 1 {
p . w ( "%s" , oper )
return
}
switch pe . Kind ( ) {
case cc . Ptr , cc . Float , cc . Double :
p . w ( "%s %d" , oper2 , p . incDelta ( n , pe ) )
return
}
panic ( todo ( "" , n . Position ( ) , pe , pe . Kind ( ) ) )
}
func ( p * project ) incDelta ( n cc . Node , t cc . Type ) uintptr {
if t . IsArithmeticType ( ) {
return 1
}
if t . Kind ( ) == cc . Ptr || t . Kind ( ) == cc . Array {
return t . Elem ( ) . Size ( )
}
panic ( todo ( "" , n . Position ( ) , t . Kind ( ) ) )
}
func ( p * project ) bitFldOff ( t cc . Type , tok cc . Token ) {
var off uintptr
fld , ok := t . FieldByName ( tok . Value )
switch {
case ok && ! fld . IsBitField ( ) :
panic ( todo ( "%v: internal error: bitFdlOff must not be used with non bit fields" , origin ( 2 ) ) )
case ! ok :
p . err ( & tok , "uknown field: %s" , tok . Value )
default :
off = fld . BitFieldBlockFirst ( ) . Offset ( )
}
if off != 0 {
p . w ( "+%d" , off )
}
p . w ( "/* &.%s */" , tok . Value )
}
func ( p * project ) fldOff ( t cc . Type , tok cc . Token ) {
if t . Kind ( ) == cc . Ptr {
t = t . Elem ( )
}
var off uintptr
fld , ok := t . FieldByName ( tok . Value )
switch {
case ok && fld . IsBitField ( ) :
panic ( todo ( "%v: internal error: fdlOff must not be used with bit fields" , origin ( 2 ) ) )
case ! ok :
p . err ( & tok , "uknown field: %s" , tok . Value )
default :
off = fld . Offset ( )
}
if off != 0 {
p . w ( "+%d" , off )
}
p . w ( "/* &.%s */" , tok . Value )
}
func ( p * project ) postfixExpressionCall ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '(' ArgumentExpressionList ')'
switch mode {
case exprVoid :
p . postfixExpressionCallVoid ( f , n , t , mode , flags )
case exprValue :
p . postfixExpressionCallValue ( f , n , t , mode , flags )
case exprBool :
p . postfixExpressionCallBool ( f , n , t , mode , flags )
default :
panic ( todo ( "" , mode ) )
}
}
func ( p * project ) postfixExpressionCallBool ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '(' ArgumentExpressionList ')'
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p . w ( "(" )
defer p . w ( ")" )
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defer p . w ( " != 0" )
if d := n . PostfixExpression . Declarator ( ) ; d != nil {
switch d . Name ( ) {
case idVaArg :
if ! f . vaType . IsScalarType ( ) {
panic ( todo ( "" , f . vaType ) )
}
lhs := n . ArgumentExpressionList . AssignmentExpression
p . w ( "%sVa%s(&" , p . task . crt , p . helperType ( n , f . vaType ) )
p . assignmentExpression ( f , lhs , lhs . Operand . Type ( ) , exprLValue , flags )
p . w ( ")" )
return
case idAtomicLoadN :
p . atomicLoadN ( f , n , t , mode , flags )
return
case idBuiltinConstantPImpl :
p . w ( "%v" , n . Operand . Value ( ) )
return
}
}
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var va uintptr
if f != nil {
va = f . vaLists [ n ]
}
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p . postfixExpression ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) , exprFunc , flags )
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p . argumentExpressionList ( f , n . PostfixExpression , n . ArgumentExpressionList , va )
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}
func ( p * project ) postfixExpressionCallValue ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '(' ArgumentExpressionList ')'
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
if d := n . PostfixExpression . Declarator ( ) ; d != nil {
switch d . Name ( ) {
case idVaEnd :
p . w ( "_ = " )
arg := n . ArgumentExpressionList . AssignmentExpression
p . assignmentExpression ( f , arg , arg . Operand . Type ( ) , exprValue , flags )
return
case idVaStart :
lhs := n . ArgumentExpressionList . AssignmentExpression
p . assignmentExpression ( f , lhs , lhs . Operand . Type ( ) , exprLValue , flags )
p . w ( " = %s" , f . vaName )
return
case idVaArg :
if ! f . vaType . IsScalarType ( ) {
panic ( todo ( "" , f . vaType ) )
}
lhs := n . ArgumentExpressionList . AssignmentExpression
p . w ( "%sVa%s(&" , p . task . crt , p . helperType ( n , f . vaType ) )
p . assignmentExpression ( f , lhs , lhs . Operand . Type ( ) , exprLValue , flags )
p . w ( ")" )
return
case idAtomicLoadN :
p . atomicLoadN ( f , n , t , mode , flags )
return
case idAddOverflow :
p . addOverflow ( f , n , t , mode , flags )
return
case idSubOverflow :
p . subOverflow ( f , n , t , mode , flags )
return
case idMulOverflow :
p . mulOverflow ( f , n , t , mode , flags )
return
case idBuiltinConstantPImpl :
p . w ( "%v" , n . Operand . Value ( ) )
return
}
}
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var va uintptr
if f != nil {
va = f . vaLists [ n ]
}
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p . postfixExpression ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) , exprFunc , flags )
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p . argumentExpressionList ( f , n . PostfixExpression , n . ArgumentExpressionList , va )
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}
// bool __builtin_mul_overflow (type1 a, type2 b, type3 *res)
func ( p * project ) mulOverflow ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
args := p . argList ( n . ArgumentExpressionList )
if len ( args ) != 3 {
p . err ( n , "expected 3 arguments in call to __builtin_mul_overflow" )
return
}
pt := args [ 2 ] . Operand . Type ( )
if pt . Kind ( ) != cc . Ptr {
p . err ( n , "invalid argument of __builtin_mul_overflow (expected pointer): %s" , pt )
return
}
vt := pt . Elem ( )
switch {
case vt . IsIntegerType ( ) :
switch vt . Size ( ) {
case 1 , 2 , 4 , 8 , 16 :
p . w ( "%sX__builtin_mul_overflow%s" , p . task . crt , p . helperType ( n , vt ) )
default :
p . err ( n , "invalid argument of __builtin_mul_overflow: %v, elem kind %v" , pt , vt . Kind ( ) )
return
}
p . w ( "(%s" , f . tlsName )
types := [ ] cc . Type { vt , vt , pt }
for i , v := range args [ : 3 ] {
p . w ( ", " )
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p . assignmentExpression ( f , v , types [ i ] , exprValue , flags )
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}
p . w ( ")" )
return
}
p . err ( n , "invalid arguments of __builtin_mul_overflow: (%v, %v, %v)" , args [ 0 ] . Operand . Type ( ) , args [ 1 ] . Operand . Type ( ) , args [ 2 ] . Operand . Type ( ) )
}
// bool __builtin_sub_overflow (type1 a, type2 b, type3 *res)
func ( p * project ) subOverflow ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
args := p . argList ( n . ArgumentExpressionList )
if len ( args ) != 3 {
p . err ( n , "expected 3 arguments in call to __builtin_sub_overflow" )
return
}
pt := args [ 2 ] . Operand . Type ( )
if pt . Kind ( ) != cc . Ptr {
p . err ( n , "invalid argument of __builtin_sub_overflow (expected pointer): %s" , pt )
return
}
vt := pt . Elem ( )
switch {
case vt . IsIntegerType ( ) :
switch vt . Size ( ) {
case 1 , 2 , 4 , 8 :
p . w ( "%sX__builtin_sub_overflow%s" , p . task . crt , p . helperType ( n , vt ) )
default :
p . err ( n , "invalid argument of __builtin_sub_overflow: %v, elem kind %v" , pt , vt . Kind ( ) )
return
}
p . w ( "(%s" , f . tlsName )
types := [ ] cc . Type { vt , vt , pt }
for i , v := range args [ : 3 ] {
p . w ( ", " )
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p . assignmentExpression ( f , v , types [ i ] , exprValue , flags )
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}
p . w ( ")" )
return
}
p . err ( n , "invalid arguments of __builtin_sub_overflow: (%v, %v, %v)" , args [ 0 ] . Operand . Type ( ) , args [ 1 ] . Operand . Type ( ) , args [ 2 ] . Operand . Type ( ) )
}
// bool __builtin_add_overflow (type1 a, type2 b, type3 *res)
func ( p * project ) addOverflow ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
args := p . argList ( n . ArgumentExpressionList )
if len ( args ) != 3 {
p . err ( n , "expected 3 arguments in call to __builtin_add_overflow" )
return
}
pt := args [ 2 ] . Operand . Type ( )
if pt . Kind ( ) != cc . Ptr {
p . err ( n , "invalid argument of __builtin_add_overflow (expected pointer): %s" , pt )
return
}
vt := pt . Elem ( )
switch {
case vt . IsIntegerType ( ) :
switch vt . Size ( ) {
case 1 , 2 , 4 , 8 :
p . w ( "%sX__builtin_add_overflow%s" , p . task . crt , p . helperType ( n , vt ) )
default :
p . err ( n , "invalid argument of __builtin_add_overflow: %v, elem kind %v" , pt , vt . Kind ( ) )
return
}
p . w ( "(%s" , f . tlsName )
types := [ ] cc . Type { vt , vt , pt }
for i , v := range args [ : 3 ] {
p . w ( ", " )
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p . assignmentExpression ( f , v , types [ i ] , exprValue , flags )
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}
p . w ( ")" )
return
}
p . err ( n , "invalid arguments of __builtin_add_overflow: (%v, %v, %v)" , args [ 0 ] . Operand . Type ( ) , args [ 1 ] . Operand . Type ( ) , args [ 2 ] . Operand . Type ( ) )
}
// type __atomic_load_n (type *ptr, int memorder)
func ( p * project ) atomicLoadN ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
args := p . argList ( n . ArgumentExpressionList )
if len ( args ) != 2 {
p . err ( n , "expected 2 arguments in call to __atomic_load_n" )
return
}
pt := args [ 0 ] . Operand . Type ( )
if pt . Kind ( ) != cc . Ptr {
p . err ( n , "invalid argument of __atomic_load_n (expected pointer): %s" , pt )
return
}
vt := pt . Elem ( )
switch {
case vt . IsIntegerType ( ) :
var s string
switch {
case vt . IsSignedType ( ) :
s = "Int"
default :
s = "Uint"
}
switch vt . Size ( ) {
case 2 , 4 , 8 :
p . w ( "%sAtomicLoadN%s%d" , p . task . crt , s , 8 * vt . Size ( ) )
default :
p . err ( n , "invalid argument of __atomic_load_n: %v, elem kind %v" , pt , vt . Kind ( ) )
return
}
types := [ ] cc . Type { pt , p . intType }
p . w ( "(" )
for i , v := range args [ : 2 ] {
if i != 0 {
p . w ( ", " )
}
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p . assignmentExpression ( f , v , types [ i ] , exprValue , flags )
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}
p . w ( ")" )
return
case vt . Kind ( ) == cc . Ptr :
panic ( todo ( "" , pt , vt ) )
}
p . err ( n , "invalid first argument of __atomic_load_n: %v, elem kind %v" , pt , vt . Kind ( ) )
}
func ( p * project ) postfixExpressionCallVoid ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
// PostfixExpression '(' ArgumentExpressionList ')'
if d := n . PostfixExpression . Declarator ( ) ; d != nil {
switch d . Name ( ) {
case idVaEnd :
p . w ( "_ = " )
arg := n . ArgumentExpressionList . AssignmentExpression
p . assignmentExpression ( f , arg , arg . Operand . Type ( ) , exprValue , flags )
return
case idVaStart :
lhs := n . ArgumentExpressionList . AssignmentExpression
p . assignmentExpression ( f , lhs , lhs . Operand . Type ( ) , exprLValue , flags )
p . w ( " = %s" , f . vaName )
return
case idVaArg :
if ! f . vaType . IsScalarType ( ) {
panic ( todo ( "" , f . vaType ) )
}
lhs := n . ArgumentExpressionList . AssignmentExpression
p . w ( "%sVa%s(&" , p . task . crt , p . helperType ( n , f . vaType ) )
p . assignmentExpression ( f , lhs , lhs . Operand . Type ( ) , exprLValue , flags )
p . w ( ")" )
return
case idAtomicStoreN :
p . atomicStoreN ( f , n , t , mode , flags )
return
case idMulOverflow :
p . mulOverflow ( f , n , t , mode , flags )
return
}
}
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var va uintptr
if f != nil {
va = f . vaLists [ n ]
}
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p . postfixExpression ( f , n . PostfixExpression , n . PostfixExpression . Operand . Type ( ) , exprFunc , flags )
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p . argumentExpressionList ( f , n . PostfixExpression , n . ArgumentExpressionList , va )
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}
// void __atomic_store_n (type *ptr, type val, int memorder)
func ( p * project ) atomicStoreN ( f * function , n * cc . PostfixExpression , t cc . Type , mode exprMode , flags flags ) {
args := p . argList ( n . ArgumentExpressionList )
if len ( args ) != 3 {
p . err ( n , "expected 3 arguments in call to __atomic_store_n" )
return
}
pt := args [ 0 ] . Operand . Type ( )
if pt . Kind ( ) != cc . Ptr {
p . err ( n , "invalid first argument of __atomic_store_n (expected pointer): %s" , pt )
return
}
vt := args [ 1 ] . Operand . Type ( )
switch {
case vt . IsIntegerType ( ) :
var s string
switch {
case vt . IsSignedType ( ) :
s = "Int"
default :
s = "Uint"
}
switch vt . Size ( ) {
case 2 , 4 , 8 :
p . w ( "%sAtomicStoreN%s%d" , p . task . crt , s , 8 * vt . Size ( ) )
default :
p . err ( n , "invalid arguments of __atomic_store_n: (%v, %v), element kind %v" , pt , vt , vt . Kind ( ) )
return
}
p . w ( "(" )
types := [ ] cc . Type { pt , vt , p . intType }
for i , v := range args [ : 3 ] {
if i != 0 {
p . w ( ", " )
}
if i == 1 {
p . w ( "%s(" , strings . ToLower ( p . helperType ( n , vt ) ) )
}
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p . assignmentExpression ( f , v , types [ i ] , exprValue , flags )
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if i == 1 {
p . w ( ")" )
}
}
p . w ( ")" )
return
case vt . Kind ( ) == cc . Ptr :
panic ( todo ( "" , pt , vt ) )
}
p . err ( n , "invalid arguments of __atomic_store_n: (%v, %v), element kind %v" , pt , vt , vt . Kind ( ) )
}
func ( p * project ) argList ( n * cc . ArgumentExpressionList ) ( r [ ] * cc . AssignmentExpression ) {
for ; n != nil ; n = n . ArgumentExpressionList {
r = append ( r , n . AssignmentExpression )
}
return r
}
func ( p * project ) argumentExpressionList ( f * function , pe * cc . PostfixExpression , n * cc . ArgumentExpressionList , bpOff uintptr ) {
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switch {
case f == nil :
p . w ( "(nil" )
default :
p . w ( "(%s" , f . tlsName )
}
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ft := funcType ( pe . Operand . Type ( ) )
isVariadic := ft . IsVariadic ( )
params := ft . Parameters ( )
if len ( params ) == 1 && params [ 0 ] . Type ( ) . Kind ( ) == cc . Void {
params = nil
}
var args [ ] * cc . AssignmentExpression
for ; n != nil ; n = n . ArgumentExpressionList {
args = append ( args , n . AssignmentExpression )
}
if len ( args ) < len ( params ) {
panic ( todo ( "" , p . pos ( n ) ) )
}
va := true
if len ( args ) > len ( params ) && ! isVariadic {
var a [ ] string
for _ , v := range args {
a = append ( a , v . Operand . Type ( ) . String ( ) )
}
sargs := strings . Join ( a , "," )
switch d := pe . Declarator ( ) ; {
case d == nil :
p . err ( pe , "too many arguments (%s) in call to %s" , sargs , ft )
default :
p . err ( pe , "too many arguments (%s) in call to %s of type %s" , sargs , d . Name ( ) , ft )
}
va = false
}
paren := ""
for i , arg := range args {
p . w ( ",%s" , tidyComment ( " " , arg ) )
mode := exprValue
if at := arg . Operand . Type ( ) ; at . Kind ( ) == cc . Array {
mode = exprDecay
}
switch {
case i < len ( params ) :
switch pt := params [ i ] . Type ( ) ; {
case isTransparentUnion ( params [ i ] . Type ( ) ) :
p . callArgTransparentUnion ( f , arg , pt )
default :
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p . assignmentExpression ( f , arg , arg . Promote ( ) , mode , 0 )
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}
case va && i == len ( params ) :
p . w ( "%sVaList(%s%s, " , p . task . crt , f . bpName , nonZeroUintptr ( bpOff ) )
paren = ")"
fallthrough
default :
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var flags flags
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if arg . Promote ( ) . IsIntegerType ( ) {
switch x := arg . Operand . Value ( ) . ( type ) {
case cc . Int64Value :
if x < mathutil . MinInt || x > mathutil . MaxInt {
flags |= fForceConv
}
case cc . Uint64Value :
if x > mathutil . MaxInt {
flags |= fForceConv
}
}
}
p . assignmentExpression ( f , arg , arg . Promote ( ) , mode , flags )
}
}
if isVariadic && len ( args ) == len ( params ) {
p . w ( ", 0" )
}
p . w ( "%s)" , paren )
}
// https://gcc.gnu.org/onlinedocs/gcc-3.3/gcc/Type-Attributes.html
//
// transparent_union
//
// This attribute, attached to a union type definition, indicates that any
// function parameter having that union type causes calls to that function to
// be treated in a special way.
//
// First, the argument corresponding to a transparent union type can be of any
// type in the union; no cast is required. Also, if the union contains a
// pointer type, the corresponding argument can be a null pointer constant or a
// void pointer expression; and if the union contains a void pointer type, the
// corresponding argument can be any pointer expression. If the union member
// type is a pointer, qualifiers like const on the referenced type must be
// respected, just as with normal pointer conversions.
//
// Second, the argument is passed to the function using the calling conventions
// of first member of the transparent union, not the calling conventions of the
// union itself. All members of the union must have the same machine
// representation; this is necessary for this argument passing to work
// properly.
//
// Transparent unions are designed for library functions that have multiple
// interfaces for compatibility reasons. For example, suppose the wait function
// must accept either a value of type int * to comply with Posix, or a value of
// type union wait * to comply with the 4.1BSD interface. If wait's parameter
// were void *, wait would accept both kinds of arguments, but it would also
// accept any other pointer type and this would make argument type checking
// less useful. Instead, <sys/wait.h> might define the interface as follows:
//
// typedef union
// {
// int *__ip;
// union wait *__up;
// } wait_status_ptr_t __attribute__ ((__transparent_union__));
//
// pid_t wait (wait_status_ptr_t);
//
// This interface allows either int * or union wait * arguments to be passed,
// using the int * calling convention. The program can call wait with arguments
// of either type:
//
// int w1 () { int w; return wait (&w); }
// int w2 () { union wait w; return wait (&w); }
//
// With this interface, wait's implementation might look like this:
//
// pid_t wait (wait_status_ptr_t p)
// {
// return waitpid (-1, p.__ip, 0);
// }
func ( p * project ) callArgTransparentUnion ( f * function , n * cc . AssignmentExpression , pt cc . Type ) {
if pt . Kind ( ) != cc . Union {
panic ( todo ( "internal error" ) )
}
ot := n . Operand . Type ( )
switch k := pt . UnionCommon ( ) ; k {
case cc . Ptr :
if ot . Kind ( ) != k {
panic ( todo ( "" , n . Position ( ) , k , pt ) )
}
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p . assignmentExpression ( f , n , ot , exprValue , 0 )
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default :
panic ( todo ( "" , n . Position ( ) , k , pt ) )
}
}
func isTransparentUnion ( t cc . Type ) ( r bool ) {
for _ , v := range attrs ( t ) {
cc . Inspect ( v , func ( n cc . Node , _ bool ) bool {
if x , ok := n . ( * cc . AttributeValue ) ; ok && x . Token . Value == idTransparentUnion {
r = true
return false
}
return true
} )
}
return r
}
func attrs ( t cc . Type ) [ ] * cc . AttributeSpecifier {
if a := t . Attributes ( ) ; len ( a ) != 0 {
return a
}
if t . IsAliasType ( ) {
if a := t . Alias ( ) . Attributes ( ) ; len ( a ) != 0 {
return a
}
return t . AliasDeclarator ( ) . Type ( ) . Attributes ( )
}
return nil
}
func ( p * project ) nzUintptr ( n cc . Node , f func ( ) , op cc . Operand ) {
if op . Type ( ) . IsIntegerType ( ) {
switch {
case op . IsZero ( ) :
return
case op . Value ( ) != nil :
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
if x > 0 && uint64 ( x ) <= 1 << ( 8 * p . ptrSize ) - 1 {
p . w ( "+%d" , x )
return
}
case cc . Uint64Value :
if uint64 ( x ) <= 1 << ( 8 * p . ptrSize ) - 1 {
p . w ( "+%d" , x )
return
}
}
p . w ( " +%sUintptrFrom%s(" , p . task . crt , p . helperType ( n , op . Type ( ) ) )
default :
p . w ( " +uintptr(" )
}
f ( )
p . w ( ")" )
return
}
panic ( todo ( "" , p . pos ( n ) ) )
}
func ( p * project ) primaryExpression ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch mode {
case exprLValue :
p . primaryExpressionLValue ( f , n , t , mode , flags )
case exprValue :
p . primaryExpressionValue ( f , n , t , mode , flags )
case exprFunc :
p . primaryExpressionFunc ( f , n , t , mode , flags )
case exprAddrOf :
p . primaryExpressionAddrOf ( f , n , t , mode , flags )
case exprSelect :
p . primaryExpressionSelect ( f , n , t , mode , flags )
case exprPSelect :
p . primaryExpressionPSelect ( f , n , t , mode , flags )
case exprBool :
p . primaryExpressionBool ( f , n , t , mode , flags )
case exprVoid :
p . primaryExpressionVoid ( f , n , t , mode , flags )
case exprDecay :
p . primaryExpressionDecay ( f , n , t , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) primaryExpressionDecay ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
p . intConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
p . w ( "%s" , p . stringLiteral ( n . Operand . Value ( ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
p . w ( "%s" , p . wideStringLiteral ( n . Operand . Value ( ) , 0 ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . expression ( f , n . Expression , t , mode , flags )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionVoid ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
p . w ( "_ = " )
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p . primaryExpression ( f , n , n . Operand . Type ( ) , exprValue , flags )
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case cc . PrimaryExpressionInt , // INTCONST
cc . PrimaryExpressionFloat , // FLOATCONST
cc . PrimaryExpressionEnum , // ENUMCONST
cc . PrimaryExpressionChar , // CHARCONST
cc . PrimaryExpressionLChar , // LONGCHARCONST
cc . PrimaryExpressionString , // STRINGLITERAL
cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
// nop
case cc . PrimaryExpressionExpr : // '(' Expression ')'
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , mode , flags )
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case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . compoundStatement ( f , n . CompoundStatement , "" , true , false , 0 )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionBool ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
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if n . Case != cc . PrimaryExpressionExpr {
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p . w ( "(" )
defer p . w ( ")" )
}
if n . Case != cc . PrimaryExpressionExpr {
defer p . w ( " != 0" )
}
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , d . Type ( ) , exprValue , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
p . intConst ( n , n . Token . Src . String ( ) , n . Operand , n . Operand . Type ( ) , flags )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
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p . charConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
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case cc . PrimaryExpressionString : // STRINGLITERAL
p . w ( " 1 " )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . w ( "(" )
defer p . w ( ")" )
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p . expression ( f , n . Expression , t , mode , flags )
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case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . w ( "func() %v {" , p . typ ( n , n . CompoundStatement . Operand . Type ( ) ) )
p . compoundStatement ( f , n . CompoundStatement , "" , true , false , exprValue )
p . w ( "}()" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionPSelect ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
switch k := p . declaratorKind ( d ) ; k {
case opArray :
panic ( todo ( "" , p . pos ( n ) ) )
p . primaryExpression ( f , n , t , exprDecay , flags )
default :
p . declarator ( n , f , d , t , mode , flags )
}
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . expression ( f , n . Expression , t , mode , flags )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionSelect ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . expression ( f , n . Expression , t , mode , flags )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionAddrOf ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
p . w ( "%s" , p . stringLiteral ( n . Operand . Value ( ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
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p . w ( "%s" , p . wideStringLiteral ( n . Operand . Value ( ) , 0 ) )
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case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . expression ( f , n . Expression , t , mode , flags )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) primaryExpressionFunc ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
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p . fnVal ( n , f , func ( ) { p . primaryExpression ( f , n , n . Operand . Type ( ) , exprValue , flags ) } , n . Declarator ( ) , n . Operand . Type ( ) , 0 , mode , flags )
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case cc . PrimaryExpressionInt : // INTCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . expression ( f , n . Expression , t , mode , flags )
case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func cmpNormalizeValue ( v cc . Value ) cc . Value {
switch x := v . ( type ) {
case cc . Int64Value :
if x >= 0 {
return cc . Uint64Value ( x )
}
}
return v
}
func ( p * project ) primaryExpressionValue ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
if m := n . Token . Macro ( ) ; m != 0 {
if d := p . defines [ m ] ; d . name != "" {
if cmpNormalizeValue ( n . Operand . Value ( ) ) == cmpNormalizeValue ( d . value ) {
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( " %s " , d . name )
break
}
p . w ( "/* %s */" , m )
}
}
p . intConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
case cc . PrimaryExpressionFloat : // FLOATCONST
//TODO use #define
p . floatConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
case cc . PrimaryExpressionEnum : // ENUMCONST
en := n . ResolvedTo ( ) . ( * cc . Enumerator )
if n . ResolvedIn ( ) . Parent ( ) == nil {
if nm := p . enumConsts [ en . Token . Value ] ; nm != "" {
p . w ( " %s " , nm )
break
}
}
p . intConst ( n , "" , n . Operand , t , flags )
p . w ( "/* %s */" , en . Token . Value )
case cc . PrimaryExpressionChar : // CHARCONST
p . charConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
p . charConst ( n , n . Token . Src . String ( ) , n . Operand , t , flags )
case cc . PrimaryExpressionString : // STRINGLITERAL
p . w ( "%s" , p . stringLiteral ( n . Operand . Value ( ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
p . w ( "%s" , p . wideStringLiteral ( n . Operand . Value ( ) , 0 ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
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p . w ( "(" )
defer p . w ( ")" )
p . expression ( f , n . Expression , t , mode , flags )
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case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . statementExpression ( f , n . CompoundStatement , t , mode , flags )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) statementExpression ( f * function , n * cc . CompoundStatement , t cc . Type , mode exprMode , flags flags ) {
defer p . w ( "%s" , p . convert ( n , n . Operand , t , flags ) )
p . w ( " func() %v {" , p . typ ( n , n . Operand . Type ( ) ) )
p . compoundStatement ( f , n , "" , true , false , mode )
p . w ( "}()" )
}
func ( p * project ) primaryExpressionLValue ( f * function , n * cc . PrimaryExpression , t cc . Type , mode exprMode , flags flags ) {
switch n . Case {
case cc . PrimaryExpressionIdent : // IDENTIFIER
switch d := n . Declarator ( ) ; {
case d != nil :
p . declarator ( n , f , d , t , mode , flags )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
case cc . PrimaryExpressionInt : // INTCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionFloat : // FLOATCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionEnum : // ENUMCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionChar : // CHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLChar : // LONGCHARCONST
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionString : // STRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionLString : // LONGSTRINGLITERAL
panic ( todo ( "" , p . pos ( n ) ) )
case cc . PrimaryExpressionExpr : // '(' Expression ')'
p . w ( "(" )
defer p . w ( ")" )
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p . expression ( f , n . Expression , t , mode , flags )
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case cc . PrimaryExpressionStmt : // '(' CompoundStatement ')'
p . err ( n , "statement expressions not supported" )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) stringLiteralString ( s string ) string {
if p . pass1 {
return ""
}
id := cc . String ( s )
off , ok := p . tsOffs [ id ]
if ! ok {
off = uintptr ( p . ts . Len ( ) )
p . ts . WriteString ( s )
p . ts . WriteByte ( 0 )
p . tsOffs [ id ] = off
}
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return fmt . Sprintf ( "(%s%s)%s" , p . tsNameP , nonZeroUintptr ( off ) , p . stringSnippet ( s ) )
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}
func ( p * project ) stringLiteral ( v cc . Value ) string {
if p . pass1 {
return ""
}
switch x := v . ( type ) {
case cc . StringValue :
id := cc . StringID ( x )
off , ok := p . tsOffs [ id ]
s := id . String ( )
if ! ok {
off = uintptr ( p . ts . Len ( ) )
p . ts . WriteString ( s )
p . ts . WriteByte ( 0 )
p . tsOffs [ id ] = off
}
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return fmt . Sprintf ( "(%s%s)%s" , p . tsNameP , nonZeroUintptr ( off ) , p . stringSnippet ( s ) )
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default :
panic ( todo ( "%T" , x ) )
}
}
func ( p * project ) stringSnippet ( s string ) string {
s = strings . ReplaceAll ( s , "*/" , "*\\/" )
const max = 16
switch {
case len ( s ) <= max :
return fmt . Sprintf ( "/* %q */" , s )
default :
return fmt . Sprintf ( "/* %q */" , s [ : 16 ] + "..." )
}
}
func ( p * project ) wideStringLiteral ( v cc . Value , pad int ) string {
if p . pass1 {
return ""
}
switch x := v . ( type ) {
case cc . WideStringValue :
id := cc . StringID ( x )
off , ok := p . tsWOffs [ id ]
if ! ok {
off = p . wcharSize * uintptr ( len ( p . tsW ) )
s := [ ] rune ( id . String ( ) )
if pad != 0 {
s = append ( s , make ( [ ] rune , pad ) ... )
}
p . tsW = append ( p . tsW , s ... )
p . tsW = append ( p . tsW , 0 )
p . tsWOffs [ id ] = off
}
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return fmt . Sprintf ( "(%s%s)" , p . tsWNameP , nonZeroUintptr ( off ) )
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default :
panic ( todo ( "%T" , x ) )
}
}
func ( p * project ) charConst ( n cc . Node , src string , op cc . Operand , to cc . Type , flags flags ) {
switch {
case to . IsArithmeticType ( ) :
defer p . w ( "%s" , p . convert ( n , op , to , flags ) )
case to . Kind ( ) == cc . Ptr && op . IsZero ( ) :
p . w ( " 0 " )
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return
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default :
panic ( todo ( "%v: t %v, to %v, to.Alias() %v" , n . Position ( ) , op . Type ( ) , to , to . Alias ( ) ) )
}
r , mb , _ , err := strconv . UnquoteChar ( src [ 1 : len ( src ) - 1 ] , '\'' )
rValid := ! mb && err == nil
var on uint64
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
on = uint64 ( x )
case cc . Uint64Value :
on = uint64 ( x )
default :
panic ( todo ( "%T(%v)" , x , x ) )
}
var mask uint64
switch {
case ! to . IsIntegerType ( ) :
// ok
if rValid { // Prefer original form
p . w ( "%s" , src )
return
}
p . w ( "%d" , on )
return
case to . IsSignedType ( ) :
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var in int64
var ok bool
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switch to . Size ( ) {
case 1 :
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in = int64 ( int8 ( on ) )
ok = int8 ( on ) >= 0
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case 2 :
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in = int64 ( int16 ( on ) )
ok = int16 ( on ) >= 0
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case 4 :
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in = int64 ( int32 ( on ) )
ok = int32 ( on ) >= 0
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case 8 :
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in = int64 ( int64 ( on ) )
ok = in >= 0
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default :
panic ( todo ( "" , op . Type ( ) . Size ( ) ) )
}
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if ok && rValid && uint64 ( in ) == on { // Prefer original form
p . w ( "%s" , src )
return
}
p . w ( "%d" , in )
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default :
switch to . Size ( ) {
case 1 :
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mask = 0xff
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case 2 :
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mask = 0xffff
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case 4 :
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mask = 0xffffffff
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case 8 :
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mask = 0xffffffffffffffff
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default :
panic ( todo ( "" , op . Type ( ) . Size ( ) ) )
}
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if rValid && uint64 ( r ) & mask == on { // Prefer original form
p . w ( "%s" , src )
return
}
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p . w ( "%d" , on & mask )
}
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}
func ( p * project ) floatConst ( n cc . Node , src string , op cc . Operand , to cc . Type , flags flags ) {
if flags & fForceRuntimeConv != 0 {
p . w ( "%s(" , p . helperType2 ( n , op . Type ( ) , to ) )
defer p . w ( ")" )
}
bits := 64
switch to . Kind ( ) {
case cc . Float :
bits = 32
}
src = strings . TrimRight ( src , "flFL" )
sn , err := strconv . ParseFloat ( src , bits )
snValid := err == nil
switch x := op . Value ( ) . ( type ) {
case cc . Float64Value :
switch to . Kind ( ) {
case cc . Double :
if snValid && sn == float64 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float64frombits(%#x)" , math . Float64bits ( float64 ( x ) ) )
case cc . Float :
if snValid && float32 ( sn ) == float32 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float32frombits(%#x)" , math . Float32bits ( float32 ( x ) ) )
default :
defer p . w ( "%s" , p . convert ( n , op , to , 0 ) )
if snValid && sn == float64 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float64frombits(%#x)" , math . Float64bits ( float64 ( x ) ) )
}
case cc . Float32Value :
switch to . Kind ( ) {
case cc . Double :
if snValid && float32 ( sn ) == float32 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float64frombits(%#x)" , math . Float64bits ( float64 ( x ) ) )
case cc . Float :
if snValid && float32 ( sn ) == float32 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float32frombits(%#x)" , math . Float32bits ( float32 ( x ) ) )
default :
if to . IsIntegerType ( ) {
if s := p . float2Int ( n , x , to ) ; s != "" {
defer p . w ( "%s%s" , s , p . convertType ( n , op . Type ( ) , to , 0 ) )
break
}
}
defer p . w ( "%s" , p . convert ( n , op , to , 0 ) )
if snValid && float32 ( sn ) == float32 ( x ) { // Prefer original form.
p . w ( "%s" , src )
return
}
p . w ( "math.Float32frombits(%#x)" , math . Float32bits ( float32 ( x ) ) )
}
default :
panic ( todo ( "%T(%v)" , x , x ) )
}
}
func ( p * project ) float2Int ( n cc . Node , x cc . Float32Value , to cc . Type ) string {
switch {
case to . IsSignedType ( ) :
limits := & signedSaturationLimits [ to . Size ( ) ]
v := float64 ( x )
switch {
case math . IsNaN ( v ) :
panic ( todo ( "" , p . pos ( n ) ) )
case math . IsInf ( v , - 1 ) :
panic ( todo ( "" , p . pos ( n ) ) )
case math . IsInf ( v , 1 ) :
panic ( todo ( "" , p . pos ( n ) ) )
case v < limits . fmin :
return fmt . Sprint ( limits . min )
case v > limits . fmax :
return fmt . Sprint ( limits . max )
}
default :
limits := & unsignedSaturationLimits [ to . Size ( ) ]
v := float64 ( x )
switch {
case math . IsNaN ( v ) :
panic ( todo ( "" , p . pos ( n ) ) )
case math . IsInf ( v , - 1 ) :
panic ( todo ( "" , p . pos ( n ) ) )
case math . IsInf ( v , 1 ) :
panic ( todo ( "" , p . pos ( n ) ) )
case v < 0 :
return "0"
case v > limits . fmax :
return fmt . Sprint ( limits . max )
}
}
return ""
}
type signedSaturationLimit struct {
fmin , fmax float64
min , max int64
}
type unsignedSaturationLimit struct {
fmax float64
max uint64
}
var (
signedSaturationLimits = [ ... ] signedSaturationLimit {
1 : { math . Nextafter ( math . MinInt32 , 0 ) , math . Nextafter ( math . MaxInt32 , 0 ) , math . MinInt32 , math . MaxInt32 } ,
2 : { math . Nextafter ( math . MinInt32 , 0 ) , math . Nextafter ( math . MaxInt32 , 0 ) , math . MinInt32 , math . MaxInt32 } ,
4 : { math . Nextafter ( math . MinInt32 , 0 ) , math . Nextafter ( math . MaxInt32 , 0 ) , math . MinInt32 , math . MaxInt32 } ,
8 : { math . Nextafter ( math . MinInt64 , 0 ) , math . Nextafter ( math . MaxInt64 , 0 ) , math . MinInt64 , math . MaxInt64 } ,
}
unsignedSaturationLimits = [ ... ] unsignedSaturationLimit {
1 : { math . Nextafter ( math . MaxUint32 , 0 ) , math . MaxUint32 } ,
2 : { math . Nextafter ( math . MaxUint32 , 0 ) , math . MaxUint32 } ,
4 : { math . Nextafter ( math . MaxUint32 , 0 ) , math . MaxUint32 } ,
8 : { math . Nextafter ( math . MaxUint64 , 0 ) , math . MaxUint64 } ,
}
)
func ( p * project ) intConst ( n cc . Node , src string , op cc . Operand , to cc . Type , flags flags ) {
ptr := to . Kind ( ) == cc . Ptr
switch {
case to . IsArithmeticType ( ) :
// p.w("/*10568 %T(%#[1]x) %v -> %v */", op.Value(), op.Type(), to) //TODO-
if flags & fForceNoConv != 0 {
break
}
if ! op . Type ( ) . IsSignedType ( ) && op . Type ( ) . Size ( ) == 8 && op . Value ( ) . ( cc . Uint64Value ) > math . MaxInt64 {
flags |= fForceRuntimeConv
}
defer p . w ( "%s" , p . convert ( n , op , to , flags ) )
case ptr :
p . w ( " uintptr(" )
defer p . w ( ")" )
// ok
default :
panic ( todo ( "%v: %v -> %v" , pos ( n ) , op . Type ( ) , to ) )
}
src = strings . TrimRight ( src , "luLU" )
sn , err := strconv . ParseUint ( src , 0 , 64 )
snValid := err == nil
var on uint64
switch x := op . Value ( ) . ( type ) {
case cc . Int64Value :
if x < 0 {
sn , err := strconv . ParseInt ( src , 0 , 64 )
snValid := err == nil
if snValid && sn == int64 ( x ) { // Prefer original form
p . w ( "%s" , src )
return
}
p . w ( "%d" , x )
return
}
on = uint64 ( x )
case cc . Uint64Value :
on = uint64 ( x )
default :
panic ( todo ( "%T(%v)" , x , x ) )
}
if snValid && sn == on { // Prefer original form
p . w ( "%s" , src )
return
}
p . w ( "%d" , on )
}
func ( p * project ) assignShiftOp ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
// UnaryExpression "<<=" AssignmentExpression etc.
switch mode {
case exprVoid :
p . assignShiftOpVoid ( f , n , t , mode , oper , oper2 , flags )
default :
panic ( todo ( "" , mode ) )
}
}
func ( p * project ) assignShiftOpVoid ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
// UnaryExpression "<<=" AssignmentExpression etc.
switch k := p . opKind ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . assignShiftOpVoidNormal ( f , n , t , mode , oper , oper2 , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) assignShiftOpVoidNormal ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
switch {
case n . Operand . Type ( ) . IsBitFieldType ( ) :
panic ( todo ( "" , p . pos ( n ) ) )
default :
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
switch d . Type ( ) . Kind ( ) {
case cc . Int128 , cc . UInt128 :
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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p . w ( ".LValue%s(" , oper2 )
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p . assignmentExpression ( f , n . AssignmentExpression , p . intType , exprValue , flags )
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p . w ( ")" )
return
default :
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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p . w ( " %s= " , oper )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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return
}
}
lhs := n . UnaryExpression
switch {
case lhs . Operand . Type ( ) . IsArithmeticType ( ) :
p . w ( "%sAssign%sPtr%s(" , p . task . crt , oper2 , p . helperType ( n , lhs . Operand . Type ( ) ) )
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p . unaryExpression ( f , lhs , lhs . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( ", int(" )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( "))" )
default :
panic ( todo ( "" , p . pos ( n ) , lhs . Operand . Type ( ) ) )
}
}
}
func ( p * project ) assignOp ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
switch mode {
case exprVoid :
p . assignOpVoid ( f , n , t , mode , oper , oper2 , flags )
case exprValue , exprCondReturn :
p . assignOpValue ( f , n , t , mode , oper , oper2 , flags )
default :
panic ( todo ( "" , n . Position ( ) , mode ) )
}
}
func ( p * project ) assignOpValue ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
switch k := p . opKind ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . assignOpValueNormal ( f , n , t , oper , oper2 , mode , flags )
case opBitfield :
p . assignOpValueBitfield ( f , n , t , oper , oper2 , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) assignOpValueBitfield ( f * function , n * cc . AssignmentExpression , t cc . Type , oper , oper2 string , mode exprMode , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
asInt := oper2 == "Shl" || oper2 == "Shr"
if asInt {
panic ( todo ( "" ) )
}
ot := n . Operand . Type ( )
lhs := n . UnaryExpression
bf := lhs . Operand . Type ( ) . BitField ( )
defer p . w ( "%s" , p . convertType ( n , ot , t , flags ) )
p . w ( " func() %v {" , p . typ ( n , ot ) )
switch lhs . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
pe := n . UnaryExpression . PostfixExpression
switch pe . Case {
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
p . w ( "__p := " )
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p . postfixExpression ( f , pe , pe . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( "; __v := " )
p . readBitfield ( lhs , "__p" , bf , ot )
p . w ( " %s (" , oper )
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p . assignmentExpression ( f , n . AssignmentExpression , ot , exprValue , flags )
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p . w ( "); return %sAssignBitFieldPtr%d%s(__p, __v, %d, %d, %#x)" , p . task . crt , bf . BitFieldBlockWidth ( ) , p . bfHelperType ( ot ) , bf . BitFieldWidth ( ) , bf . BitFieldOffset ( ) , bf . Mask ( ) )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "" , n . Position ( ) , pe . Case ) )
}
default :
panic ( todo ( "" , n . Position ( ) , lhs . Case ) )
}
p . w ( "}()" )
}
func ( p * project ) readBitfield ( n cc . Node , ptr string , bf cc . Field , promote cc . Type ) {
bw := bf . BitFieldBlockWidth ( )
m := bf . Mask ( )
o := bf . BitFieldOffset ( )
w := bf . BitFieldWidth ( )
p . w ( "(%s(*(*uint%d)(unsafe.Pointer(%s))&%#x)" , p . typ ( n , promote ) , bw , ptr , m )
switch {
case bf . Type ( ) . IsSignedType ( ) :
bits := int ( promote . Size ( ) ) * 8
p . w ( "<<%d>>%d)" , bits - w - o , bits - w )
default :
p . w ( ">>%d)" , o )
}
}
func ( p * project ) assignOpValueNormal ( f * function , n * cc . AssignmentExpression , t cc . Type , oper , oper2 string , mode exprMode , flags flags ) {
if mode == exprCondReturn {
p . w ( "return " )
}
asInt := oper2 == "Shl" || oper2 == "Shr"
lhs := n . UnaryExpression
// UnaryExpression "*=" AssignmentExpression etc.
if d := lhs . Declarator ( ) ; d != nil {
if local := f . locals [ d ] ; local != nil && local . isPinned {
switch {
case lhs . Operand . Type ( ) . IsArithmeticType ( ) :
defer p . w ( "%s" , p . convertType ( n , lhs . Operand . Type ( ) , t , flags ) )
p . w ( "%sAssign%sPtr%s(" , p . task . crt , oper2 , p . helperType ( n , lhs . Operand . Type ( ) ) )
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p . unaryExpression ( f , lhs , lhs . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( ", " )
if asInt {
p . w ( "int(" )
}
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p . assignmentExpression ( f , n . AssignmentExpression , lhs . Operand . Type ( ) , exprValue , flags )
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if asInt {
p . w ( ")" )
}
p . w ( ")" )
default :
panic ( todo ( "" , lhs . Operand . Type ( ) ) )
}
return
}
switch {
case d . Type ( ) . Kind ( ) == cc . Ptr :
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
p . w ( "%sAssign%s%s(&" , p . task . crt , oper2 , p . helperType ( n , d . Type ( ) ) )
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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p . w ( ", " )
if dd := p . incDelta ( d , d . Type ( ) ) ; dd != 1 {
p . w ( "%d*(" , dd )
defer p . w ( ")" )
}
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p . assignmentExpression ( f , n . AssignmentExpression , d . Type ( ) , exprValue , flags )
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p . w ( ")" )
case d . Type ( ) . IsArithmeticType ( ) :
defer p . w ( "%s" , p . convertType ( n , d . Type ( ) , t , flags ) )
p . w ( "%sAssign%s%s(&" , p . task . crt , oper2 , p . helperType ( n , d . Type ( ) ) )
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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p . w ( ", " )
if asInt {
p . w ( "int(" )
}
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p . assignmentExpression ( f , n . AssignmentExpression , d . Type ( ) , exprValue , flags )
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p . w ( ")" )
if asInt {
p . w ( ")" )
}
default :
panic ( todo ( "" , p . pos ( n ) , p . pos ( d ) , d . Name ( ) ) )
}
return
}
switch {
case lhs . Operand . Type ( ) . IsArithmeticType ( ) :
defer p . w ( "%s" , p . convertType ( n , lhs . Operand . Type ( ) , t , flags ) )
p . w ( "%sAssign%sPtr%s(" , p . task . crt , oper2 , p . helperType ( n , lhs . Operand . Type ( ) ) )
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p . unaryExpression ( f , lhs , lhs . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( ", " )
if asInt {
p . w ( "int(" )
}
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p . assignmentExpression ( f , n . AssignmentExpression , lhs . Operand . Type ( ) , exprValue , flags )
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if asInt {
p . w ( ")" )
}
p . w ( ")" )
default :
panic ( todo ( "" , lhs . Operand . Type ( ) ) )
}
}
func ( p * project ) assignOpVoid ( f * function , n * cc . AssignmentExpression , t cc . Type , mode exprMode , oper , oper2 string , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
switch k := p . opKind ( f , n . UnaryExpression , n . UnaryExpression . Operand . Type ( ) ) ; k {
case opNormal :
p . assignOpVoidNormal ( f , n , t , oper , oper2 , mode , flags )
case opBitfield :
p . assignOpVoidBitfield ( f , n , t , oper , oper2 , mode , flags )
case opArrayParameter :
p . assignOpVoidArrayParameter ( f , n , t , oper , oper2 , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) , k ) )
}
}
func ( p * project ) assignOpVoidArrayParameter ( f * function , n * cc . AssignmentExpression , t cc . Type , oper , oper2 string , mode exprMode , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
if oper != "+" && oper != "-" {
panic ( todo ( "" , p . pos ( n ) ) )
}
d := n . UnaryExpression . Declarator ( )
switch local := f . locals [ d ] ; {
case local != nil && local . isPinned :
p . w ( "*(*uintptr)(unsafe.Pointer(%s%s))" , f . bpName , nonZeroUintptr ( local . off ) )
default :
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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}
p . w ( " %s= " , oper )
if dd := p . incDelta ( d , d . Type ( ) ) ; dd != 1 {
p . w ( "%d*" , dd )
}
p . w ( "uintptr(" )
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p . assignmentExpression ( f , n . AssignmentExpression , n . AssignmentExpression . Operand . Type ( ) , exprValue , flags )
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p . w ( ")" )
}
func ( p * project ) assignOpVoidBitfield ( f * function , n * cc . AssignmentExpression , t cc . Type , oper , oper2 string , mode exprMode , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
lhs := n . UnaryExpression
lt := lhs . Operand . Type ( )
switch lhs . Case {
case cc . UnaryExpressionPostfix : // PostfixExpression
pe := n . UnaryExpression . PostfixExpression
switch pe . Case {
case cc . PostfixExpressionSelect : // PostfixExpression '.' IDENTIFIER
bf := lt . BitField ( )
p . w ( "%sSetBitFieldPtr%d%s(" , p . task . crt , bf . BitFieldBlockWidth ( ) , p . bfHelperType ( n . Promote ( ) ) )
p . unaryExpression ( f , lhs , lt , exprAddrOf , flags )
p . w ( ", (" )
s := p . convertType ( n , lt , n . Promote ( ) , flags )
p . unaryExpression ( f , lhs , lt , exprValue , flags )
p . w ( ")%s %s " , s , oper )
s = p . convertType ( n , lt , n . Promote ( ) , flags )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( "%s" , s )
p . w ( ", %d, %#x)" , bf . BitFieldOffset ( ) , bf . Mask ( ) )
case cc . PostfixExpressionPSelect : // PostfixExpression "->" IDENTIFIER
switch d := pe . PostfixExpression . Declarator ( ) ; {
case d != nil :
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "" , p . pos ( n ) ) )
}
default :
panic ( todo ( "" , n . Position ( ) , pe . Case ) )
}
default :
panic ( todo ( "" , n . Position ( ) , lhs . Case ) )
}
}
func ( p * project ) assignOpVoidNormal ( f * function , n * cc . AssignmentExpression , t cc . Type , oper , oper2 string , mode exprMode , flags flags ) {
// UnaryExpression "*=" AssignmentExpression etc.
rop := n . AssignmentExpression . Operand
if d := n . UnaryExpression . Declarator ( ) ; d != nil {
if local := f . locals [ d ] ; local != nil && local . isPinned {
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if p . isVolatileOrAtomic ( d ) {
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panic ( todo ( "" ) )
}
p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
switch {
case d . Type ( ) . Kind ( ) == cc . Ptr :
p . w ( " %s= " , oper )
if dd := p . incDelta ( d , d . Type ( ) ) ; dd != 1 {
p . w ( "%d*(" , dd )
defer p . w ( ")" )
}
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , d . Type ( ) , flags ) )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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case d . Type ( ) . IsArithmeticType ( ) :
p . w ( " %s= " , oper )
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , d . Type ( ) , flags ) )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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default :
panic ( todo ( "" , n . Position ( ) , d . Type ( ) . Kind ( ) ) )
}
return
}
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if p . isVolatileOrAtomic ( d ) {
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var local * local
var tld * tld
var nm string
if f != nil {
if local = f . locals [ d ] ; local != nil {
nm = local . name
}
}
if local == nil {
if tld = p . tlds [ d ] ; tld == nil {
p . err ( n , "%v: internal error (%v: %v)" , n . Position ( ) , d . Position ( ) , d . Name ( ) )
return
}
nm = tld . name
}
var sign string
switch oper {
case "-" :
sign = oper
fallthrough
case "+" :
sz := d . Type ( ) . Size ( )
var ht string
switch sz {
case 4 , 8 :
if ! d . Type ( ) . IsScalarType ( ) {
p . err ( n , "unsupported volatile declarator type: %v" , d . Type ( ) )
break
}
ht = p . helperType ( n , d . Type ( ) )
default :
p . err ( n , "unsupported volatile declarator size: %v" , sz )
return
}
if local != nil {
if local . isPinned {
panic ( todo ( "" ) )
}
}
p . w ( "%sAtomicAdd%s(&%s, %s%s(" , p . task . crt , ht , nm , sign , p . typ ( n , d . Type ( ) ) )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( "))" )
return
default :
p . warn ( n , "unsupported volatile declarator operation: %v" , oper )
p . w ( "%s = " , nm )
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , d . Type ( ) , flags ) )
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p . declarator ( n , f , d , n . Promote ( ) , exprValue , flags )
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p . w ( " %s (" , oper )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")" )
return
}
}
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p . declarator ( n , f , d , d . Type ( ) , exprLValue , flags )
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switch d . Type ( ) . Kind ( ) {
case cc . Ptr :
if oper != "+" && oper != "-" {
panic ( todo ( "" , p . pos ( n ) ) )
}
p . w ( " %s= " , oper )
if dd := p . incDelta ( d , d . Type ( ) ) ; dd != 1 {
p . w ( "%d*(" , dd )
defer p . w ( ")" )
}
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , d . Type ( ) , flags ) )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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case cc . Int128 , cc . UInt128 :
p . w ( " = " )
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p . declarator ( n , f , d , n . Promote ( ) , exprValue , flags )
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p . w ( ".%s(" , oper2 )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")" )
default :
p . w ( " = " )
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , d . Type ( ) , flags ) )
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p . declarator ( n , f , d , n . Promote ( ) , exprValue , flags )
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p . w ( " %s (" , oper )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")" )
}
return
}
lhs := n . UnaryExpression
switch {
case lhs . Operand . Type ( ) . IsArithmeticType ( ) :
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , lhs . Operand . Type ( ) ) )
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p . unaryExpression ( f , lhs , lhs . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( ")) %s= " , oper )
defer p . w ( "%s" , p . convert ( n , rop . ConvertTo ( n . Promote ( ) ) , lhs . Operand . Type ( ) , flags ) )
p . w ( "(" )
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p . assignmentExpression ( f , n . AssignmentExpression , n . Promote ( ) , exprValue , flags )
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p . w ( ")" )
case lhs . Operand . Type ( ) . Kind ( ) == cc . Ptr :
p . w ( "*(*%s)(unsafe.Pointer(" , p . typ ( n , lhs . Operand . Type ( ) ) )
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p . unaryExpression ( f , lhs , lhs . Operand . Type ( ) , exprAddrOf , flags )
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p . w ( ")) %s= (" , oper )
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p . assignmentExpression ( f , n . AssignmentExpression , lhs . Operand . Type ( ) , exprValue , flags )
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p . w ( ")" )
if dd := p . incDelta ( n , lhs . Operand . Type ( ) ) ; dd != 1 {
p . w ( "*%d" , dd )
}
default :
panic ( todo ( "" , lhs . Operand . Type ( ) ) )
}
}
func ( p * project ) warn ( n cc . Node , s string , args ... interface { } ) {
s = fmt . Sprintf ( s , args ... )
s = strings . TrimRight ( s , "\t\n\r" )
fmt . Fprintf ( os . Stderr , "%v: warning: %s\n" , n . Position ( ) , s )
}
func ( p * project ) iterationStatement ( f * function , n * cc . IterationStatement ) {
sv := f . switchCtx
sv2 := f . continueCtx
sv3 := f . breakCtx
f . switchCtx = 0
f . continueCtx = 0
f . breakCtx = 0
defer func ( ) {
f . breakCtx = sv3
f . continueCtx = sv2
f . switchCtx = sv
} ( )
p . w ( "%s" , tidyComment ( "\n" , n ) )
switch n . Case {
case cc . IterationStatementWhile : // "while" '(' Expression ')' Statement
if f . hasJumps {
// a: if !expr goto b
// stmt
// goto a
// b:
a := f . flatLabel ( )
b := f . flatLabel ( )
f . continueCtx = a
f . breakCtx = b
p . w ( "__%d: if !(" , a )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . w ( ") { goto __%d };" , b )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( "; goto __%d; __%d:" , a , b )
break
}
p . w ( "for " )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . statement ( f , n . Statement , true , false , false , 0 )
case cc . IterationStatementDo : // "do" Statement "while" '(' Expression ')' ';'
if f . hasJumps {
// a: stmt
// b: if expr goto a // b is the continue label
// c:
a := f . flatLabel ( )
b := f . flatLabel ( )
c := f . flatLabel ( )
f . continueCtx = b
f . breakCtx = c
p . w ( "__%d:" , a )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( ";goto __%d; __%[1]d: if " , b )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . w ( "{goto __%d};goto __%d;__%[2]d:" , a , c )
break
}
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v := "__ccgo"
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if ! p . pass1 {
v = f . scope . take ( cc . String ( v ) )
}
p . w ( "for %v := true; %[1]v; %[1]v = " , v )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . statement ( f , n . Statement , true , false , false , 0 )
case cc . IterationStatementFor : // "for" '(' Expression ';' Expression ';' Expression ')' Statement
if f . hasJumps || n . Expression3 != nil && n . Expression3 . Case == cc . ExpressionComma {
// expr
// a: if !expr2 goto c
// stmt
// b: expr3 // label for continue
// goto a
// c:
a := f . flatLabel ( )
b := f . flatLabel ( )
f . continueCtx = b
c := f . flatLabel ( )
f . breakCtx = c
if n . Expression != nil {
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , fNoCondAssignment )
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}
semi := ""
if n . Expression != nil || n . Expression2 != nil || n . Expression3 != nil {
semi = ";"
}
p . w ( "%s__%d:" , semi , a )
if n . Expression2 != nil {
p . w ( "if !(" )
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p . expression ( f , n . Expression2 , n . Expression2 . Operand . Type ( ) , exprBool , 0 )
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p . w ( ") { goto __%d }" , c )
}
p . w ( "%s" , semi )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( ";goto __%d; __%[1]d:" , b )
if n . Expression3 != nil {
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p . expression ( f , n . Expression3 , n . Expression3 . Operand . Type ( ) , exprVoid , fNoCondAssignment )
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}
p . w ( "%sgoto __%d; goto __%d;__%[3]d:" , semi , a , c )
break
}
expr := true
if n . Expression != nil && n . Expression . Case == cc . ExpressionComma {
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , 0 )
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p . w ( ";" )
expr = false
}
p . w ( "for " )
if expr && n . Expression != nil {
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , fNoCondAssignment )
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}
p . w ( "; " )
if n . Expression2 != nil {
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p . expression ( f , n . Expression2 , n . Expression2 . Operand . Type ( ) , exprBool , 0 )
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}
p . w ( "; " )
if n . Expression3 != nil {
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p . expression ( f , n . Expression3 , n . Expression3 . Operand . Type ( ) , exprVoid , fNoCondAssignment )
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}
p . statement ( f , n . Statement , true , false , false , 0 )
case cc . IterationStatementForDecl : // "for" '(' Declaration Expression ';' Expression ')' Statement
var ids [ ] * cc . InitDeclarator
for list := n . Declaration . InitDeclaratorList ; list != nil ; list = list . InitDeclaratorList {
ids = append ( ids , list . InitDeclarator )
}
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// declaration
// a: if !expr goto c
// stmt
// b: expr2 // label for continue
// goto a
// c:
a := f . flatLabel ( )
b := f . flatLabel ( )
f . continueCtx = b
c := f . flatLabel ( )
f . breakCtx = c
p . w ( "{" )
p . declaration ( f , n . Declaration , false )
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p . w ( ";" )
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p . w ( "__%d:" , a )
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if n . Expression != nil {
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p . w ( "if !(" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . w ( ") { goto __%d }" , c )
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}
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p . w ( ";" )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( ";goto __%d; __%[1]d:" , b )
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if n . Expression2 != nil {
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p . expression ( f , n . Expression2 , n . Expression2 . Operand . Type ( ) , exprVoid , fNoCondAssignment )
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}
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p . w ( "; goto __%d; goto __%d;__%[2]d:\n}" , a , c )
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default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) selectionStatement ( f * function , n * cc . SelectionStatement ) {
p . w ( "%s" , tidyComment ( "\n" , n ) )
switch n . Case {
case cc . SelectionStatementIf : // "if" '(' Expression ')' Statement
sv := f . ifCtx
f . ifCtx = n
defer func ( ) { f . ifCtx = sv } ( )
if f . hasJumps {
// if !expr goto a
// stmt
// a:
f . ifCtx = n
a := f . flatLabel ( )
p . w ( "if !(" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . w ( ") { goto __%d };" , a )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( ";__%d: " , a )
break
}
p . w ( "if " )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . statement ( f , n . Statement , true , false , false , 0 )
case cc . SelectionStatementIfElse : // "if" '(' Expression ')' Statement "else" Statement
sv := f . ifCtx
f . ifCtx = n
defer func ( ) { f . ifCtx = sv } ( )
if f . hasJumps {
// if !expr goto a
// stmt
// goto b
// a:
// stmt2
// b:
a := f . flatLabel ( )
b := f . flatLabel ( )
p . w ( "if !(" )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . w ( ") { goto __%d };" , a )
p . statement ( f , n . Statement , false , false , false , 0 )
p . w ( ";goto __%d; __%d:" , b , a )
p . statement ( f , n . Statement2 , false , false , false , 0 )
p . w ( ";__%d:" , b )
break
}
p . w ( "if " )
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprBool , 0 )
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p . statement ( f , n . Statement , true , false , false , 0 )
p . w ( " else " )
switch {
case p . isIfStmt ( n . Statement2 ) :
p . statement ( f , n . Statement2 , false , true , false , 0 )
default :
p . statement ( f , n . Statement2 , true , false , false , 0 )
}
case cc . SelectionStatementSwitch : // "switch" '(' Expression ')' Statement
sv := f . switchCtx
svBreakCtx := f . breakCtx
f . breakCtx = 0
defer func ( ) {
f . switchCtx = sv
f . breakCtx = svBreakCtx
} ( )
if f . hasJumps {
f . switchCtx = inSwitchFlat
p . flatSwitch ( f , n )
break
}
f . switchCtx = inSwitchFirst
p . w ( "switch " )
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p . expression ( f , n . Expression , n . Promote ( ) , exprValue , 0 )
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p . statement ( f , n . Statement , true , false , true , 0 )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
}
func ( p * project ) isIfStmt ( n * cc . Statement ) bool {
if n . Case != cc . StatementSelection {
return false
}
switch n . SelectionStatement . Case {
case cc . SelectionStatementIf , cc . SelectionStatementIfElse :
return true
}
return false
}
func ( p * project ) flatSwitch ( f * function , n * cc . SelectionStatement ) {
if n . Statement . Case != cc . StatementCompound {
panic ( todo ( "" , p . pos ( n ) ) )
}
sv := f . block
f . block = f . blocks [ n . Statement . CompoundStatement ]
defer func ( ) { f . block = sv } ( )
// "switch" '(' Expression ')' Statement
cases := n . Cases ( )
labels := map [ * cc . LabeledStatement ] int { }
svBreakCtx := f . breakCtx
f . breakCtx = f . flatLabel ( )
p . w ( "switch " )
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p . expression ( f , n . Expression , n . Promote ( ) , exprValue , 0 )
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p . w ( "{" )
for _ , ls := range cases {
switch ls . Case {
case cc . LabeledStatementLabel : // IDENTIFIER ':' AttributeSpecifierList Statement
continue
case cc . LabeledStatementCaseLabel : // "case" ConstantExpression ':' Statement
p . w ( "%scase " , tidyComment ( "\n" , ls ) )
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p . constantExpression ( f , ls . ConstantExpression , ls . ConstantExpression . Operand . Type ( ) , exprValue , 0 )
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p . w ( ":" )
case cc . LabeledStatementDefault : // "default" ':' Statement
p . w ( "%sdefault:" , tidyComment ( "\n" , ls ) )
case cc . LabeledStatementRange : // "case" ConstantExpression "..." ConstantExpression ':' Statement
panic ( todo ( "" , p . pos ( n ) ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
label := f . flatLabel ( )
labels [ ls ] = label
p . w ( "goto __%d;" , label )
}
p . w ( "}; goto __%d;" , f . breakCtx )
svLabels := f . flatSwitchLabels
f . flatSwitchLabels = labels
p . statement ( f , n . Statement , false , true , false , 0 )
f . flatSwitchLabels = svLabels
p . w ( "__%d:" , f . breakCtx )
f . breakCtx = svBreakCtx
}
func ( p * project ) expressionStatement ( f * function , n * cc . ExpressionStatement ) {
p . w ( "%s" , tidyComment ( "\n" , n ) )
// Expression AttributeSpecifierList ';'
if n . Expression == nil {
return
}
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p . expression ( f , n . Expression , n . Expression . Operand . Type ( ) , exprVoid , 0 )
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}
func ( p * project ) labeledStatement ( f * function , n * cc . LabeledStatement ) ( r * cc . JumpStatement ) {
if f . hasJumps { //TODO merge with ...Flat below
return p . labeledStatementFlat ( f , n )
}
switch n . Case {
case cc . LabeledStatementLabel : // IDENTIFIER ':' AttributeSpecifierList Statement
if _ , ok := f . unusedLabels [ n . Token . Value ] ; ok {
p . w ( "goto %s;" , f . labelNames [ n . Token . Value ] )
}
p . w ( "%s%s:" , comment ( "\n" , n ) , f . labelNames [ n . Token . Value ] )
r = p . statement ( f , n . Statement , false , false , false , 0 )
case
cc . LabeledStatementCaseLabel , // "case" ConstantExpression ':' Statement
cc . LabeledStatementDefault : // "default" ':' Statement
p . labeledStatementCase ( f , n )
case cc . LabeledStatementRange : // "case" ConstantExpression "..." ConstantExpression ':' Statement
panic ( todo ( "" , n . Position ( ) , n . Case ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
return r
}
func ( p * project ) labeledStatementFlat ( f * function , n * cc . LabeledStatement ) ( r * cc . JumpStatement ) {
switch n . Case {
case cc . LabeledStatementLabel : // IDENTIFIER ':' AttributeSpecifierList Statement
if _ , ok := f . unusedLabels [ n . Token . Value ] ; ok {
p . w ( "goto %s;" , f . labelNames [ n . Token . Value ] )
}
p . w ( "%s%s:" , tidyComment ( "\n" , n ) , f . labelNames [ n . Token . Value ] )
r = p . statement ( f , n . Statement , false , false , false , 0 )
case
cc . LabeledStatementCaseLabel , // "case" ConstantExpression ':' Statement
cc . LabeledStatementDefault : // "default" ':' Statement
p . labeledStatementCase ( f , n )
case cc . LabeledStatementRange : // "case" ConstantExpression "..." ConstantExpression ':' Statement
panic ( todo ( "" , n . Position ( ) , n . Case ) )
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
return r
}
func ( p * project ) labeledStatementCase ( f * function , n * cc . LabeledStatement ) {
switch f . switchCtx {
case inSwitchFirst :
f . switchCtx = inSwitchCase
case inSwitchCase :
p . w ( "\nfallthrough;" )
case inSwitchSeenBreak :
f . switchCtx = inSwitchCase
case inSwitchFlat :
// ok
default :
panic ( todo ( "" , n . Position ( ) , f . switchCtx ) )
}
switch n . Case {
case cc . LabeledStatementCaseLabel : // "case" ConstantExpression ':' Statement
switch {
case f . switchCtx == inSwitchFlat :
p . w ( "%s__%d:" , tidyComment ( "\n" , n ) , f . flatSwitchLabels [ n ] )
default :
p . w ( "%scase " , tidyComment ( "\n" , n ) )
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p . constantExpression ( f , n . ConstantExpression , n . ConstantExpression . Operand . Type ( ) , exprValue , 0 )
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p . w ( ":" )
}
case cc . LabeledStatementDefault : // "default" ':' Statement
switch {
case f . switchCtx == inSwitchFlat :
p . w ( "%s__%d:" , tidyComment ( "\n" , n ) , f . flatSwitchLabels [ n ] )
default :
p . w ( "%sdefault:" , tidyComment ( "\n" , n ) )
}
default :
panic ( todo ( "%v: internal error: %v" , n . Position ( ) , n . Case ) )
}
p . statement ( f , n . Statement , false , false , false , 0 )
}
func ( p * project ) constantExpression ( f * function , n * cc . ConstantExpression , t cc . Type , mode exprMode , flags flags ) {
// ConditionalExpression
p . conditionalExpression ( f , n . ConditionalExpression , t , mode , flags )
}
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func ( p * project ) functionDefinitionSignature ( n cc . Node , f * function , tld * tld ) {
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switch {
case f . mainSignatureForced :
p . w ( "%sfunc %s(%s *%sTLS, _ int32, _ uintptr) int32" , tidyComment ( "\n" , f . fndef ) , tld . name , f . tlsName , p . task . crt )
default :
p . w ( "%s" , tidyComment ( "\n" , f . fndef ) )
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p . functionSignature ( n , f , f . fndef . Declarator . Type ( ) , tld . name )
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}
}
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func ( p * project ) functionSignature2 ( n cc . Node , f * function , t cc . Type , nm string ) {
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p . w ( "func %s" , nm )
p . w ( "(_ *%sTLS" , p . task . crt )
suffix := 1
for _ , v := range t . Parameters ( ) {
if v . Type ( ) . Kind ( ) == cc . Void {
break
}
pn := "_"
if d := v . Declarator ( ) ; d != nil {
pn = d . Name ( ) . String ( )
if _ , ok := reservedNames [ pn ] ; ok {
pn += strconv . Itoa ( suffix )
suffix ++
}
}
p . w ( ", %s %s" , pn , p . paramTyp ( v . Declarator ( ) , v . Type ( ) ) )
}
if t . IsVariadic ( ) {
p . w ( ", _ /* va_list */ uintptr" )
}
p . w ( ")" )
if rt := t . Result ( ) ; rt != nil && rt . Kind ( ) != cc . Void {
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p . w ( " %s" , p . typ ( n , rt ) )
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}
}
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func ( p * project ) functionSignature ( n cc . Node , f * function , t cc . Type , nm string ) {
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p . w ( "func" )
if nm != "" {
p . w ( " %s" , nm )
}
switch {
case f == nil || nm == "" :
p . w ( "(*%sTLS" , p . task . crt )
default :
p . w ( "(%s *%sTLS" , f . tlsName , p . task . crt )
}
for _ , v := range t . Parameters ( ) {
if v . Type ( ) . Kind ( ) == cc . Void {
break
}
var pn string
if f != nil && nm != "" {
pn = "_"
if d := v . Declarator ( ) ; d != nil {
if local := f . locals [ d ] ; local != nil {
pn = local . name
}
}
}
p . w ( ", %s %s" , pn , p . paramTyp ( v . Declarator ( ) , v . Type ( ) ) )
}
if t . IsVariadic ( ) {
switch {
case f == nil || nm == "" :
p . w ( ", uintptr" )
default :
p . w ( ", %s uintptr" , f . vaName )
}
}
p . w ( ")" )
if rt := t . Result ( ) ; rt != nil && rt . Kind ( ) != cc . Void {
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p . w ( " %s" , p . typ ( n , rt ) )
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}
}
func ( p * project ) paramTyp ( n cc . Node , t cc . Type ) string {
if t . Kind ( ) == cc . Array {
return "uintptr"
}
if isTransparentUnion ( t ) {
switch k := t . UnionCommon ( ) ; k {
case cc . Ptr :
return "uintptr"
default :
panic ( todo ( "%v: %v %k" , n , t , k ) )
}
}
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return p . typ ( n , t )
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}
func ( p * project ) dbg ( a ... interface { } ) {
p . w ( "/*DBG.%v %v */" , a , origin ( 2 ) )
}
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func ( p * project ) fnVal ( n cc . Node , f * function , expr func ( ) , exprDecl * cc . Declarator , exprType cc . Type , deref int , mode exprMode , flags flags ) {
// C type Go type
// fn N/A: produce name from exprDecl
// (*)() func()
// (**)() *func()
if deref < 0 || deref > 1 {
panic ( todo ( "" ) )
}
switch exprType . Kind ( ) {
case cc . Function :
// C: fn
switch deref {
case 0 :
p . declarator ( n , f , exprDecl , exprType , mode , flags )
default :
panic ( todo ( "" , n . Position ( ) ) )
}
case cc . Ptr :
switch et := exprType . Elem ( ) ; et . Kind ( ) {
case cc . Function :
// C: (*)()
switch deref {
case 0 :
// (*struct{ f func()})(unsafe.Pointer(&struct{uintptr}{fprintfptr})).f()
p . w ( "(*struct{ f " )
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p . functionSignature ( n , f , et , "" )
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p . w ( "})(unsafe.Pointer(&struct{uintptr}{" )
expr ( )
p . w ( "})).f" )
default :
p . declarator ( n , f , exprDecl , et , mode , flags )
}
case cc . Ptr :
switch et2 := et . Elem ( ) ; et2 . Kind ( ) {
case cc . Function :
// C: (**)()
switch deref {
case 0 :
panic ( todo ( "" , n . Position ( ) ) )
default :
// (*struct{ f func()})(unsafe.Pointer(&struct{uintptr}{fprintfptr})).f()
p . w ( "(*(**struct{ f " )
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p . functionSignature ( n , f , et2 , "" )
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p . w ( "})(unsafe.Pointer(&struct{uintptr}{" )
expr ( )
p . w ( "}))).f" )
}
default :
panic ( todo ( "" , n . Position ( ) , et2 . Kind ( ) , deref ) )
}
default :
panic ( todo ( "" , n . Position ( ) , et . Kind ( ) , deref ) )
}
default :
panic ( todo ( "" , n . Position ( ) , exprType . Kind ( ) , deref ) )
}
}