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use clippy_utils ::diagnostics ::{ span_lint_and_note , span_lint_and_sugg } ;
use clippy_utils ::source ::snippet_with_macro_callsite ;
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use clippy_utils ::ty ::{ has_drop , is_copy } ;
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use clippy_utils ::{ any_parent_is_automatically_derived , contains_name , match_def_path , paths } ;
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use if_chain ::if_chain ;
use rustc_data_structures ::fx ::FxHashSet ;
use rustc_errors ::Applicability ;
use rustc_hir ::def ::Res ;
use rustc_hir ::{ Block , Expr , ExprKind , PatKind , QPath , Stmt , StmtKind } ;
use rustc_lint ::{ LateContext , LateLintPass } ;
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use rustc_middle ::ty ;
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use rustc_session ::{ declare_tool_lint , impl_lint_pass } ;
use rustc_span ::symbol ::{ Ident , Symbol } ;
use rustc_span ::Span ;
declare_clippy_lint! {
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/// ### What it does
/// Checks for literal calls to `Default::default()`.
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///
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/// ### Why is this bad?
/// It's more clear to the reader to use the name of the type whose default is
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/// being gotten than the generic `Default`.
///
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/// ### Example
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/// ```rust
/// // Bad
/// let s: String = Default::default();
///
/// // Good
/// let s = String::default();
/// ```
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#[ clippy::version = " pre 1.29.0 " ]
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pub DEFAULT_TRAIT_ACCESS ,
pedantic ,
" checks for literal calls to `Default::default()` "
}
declare_clippy_lint! {
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/// ### What it does
/// Checks for immediate reassignment of fields initialized
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/// with Default::default().
///
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/// ### Why is this bad?
///It's more idiomatic to use the [functional update syntax](https://doc.rust-lang.org/reference/expressions/struct-expr.html#functional-update-syntax).
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///
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/// ### Known problems
/// Assignments to patterns that are of tuple type are not linted.
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///
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/// ### Example
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/// Bad:
/// ```
/// # #[derive(Default)]
/// # struct A { i: i32 }
/// let mut a: A = Default::default();
/// a.i = 42;
/// ```
/// Use instead:
/// ```
/// # #[derive(Default)]
/// # struct A { i: i32 }
/// let a = A {
/// i: 42,
/// .. Default::default()
/// };
/// ```
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#[ clippy::version = " 1.49.0 " ]
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pub FIELD_REASSIGN_WITH_DEFAULT ,
style ,
" binding initialized with Default should have its fields set in the initializer "
}
#[ derive(Default) ]
pub struct Default {
// Spans linted by `field_reassign_with_default`.
reassigned_linted : FxHashSet < Span > ,
}
impl_lint_pass! ( Default = > [ DEFAULT_TRAIT_ACCESS , FIELD_REASSIGN_WITH_DEFAULT ] ) ;
impl LateLintPass < '_ > for Default {
fn check_expr ( & mut self , cx : & LateContext < ' tcx > , expr : & ' tcx Expr < '_ > ) {
if_chain! {
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if ! expr . span . from_expansion ( ) ;
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// Avoid cases already linted by `field_reassign_with_default`
if ! self . reassigned_linted . contains ( & expr . span ) ;
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if let ExprKind ::Call ( path , .. ) = expr . kind ;
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if ! any_parent_is_automatically_derived ( cx . tcx , expr . hir_id ) ;
if let ExprKind ::Path ( ref qpath ) = path . kind ;
if let Some ( def_id ) = cx . qpath_res ( qpath , path . hir_id ) . opt_def_id ( ) ;
if match_def_path ( cx , def_id , & paths ::DEFAULT_TRAIT_METHOD ) ;
// Detect and ignore <Foo as Default>::default() because these calls do explicitly name the type.
if let QPath ::Resolved ( None , _path ) = qpath ;
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let expr_ty = cx . typeck_results ( ) . expr_ty ( expr ) ;
if let ty ::Adt ( def , .. ) = expr_ty . kind ( ) ;
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then {
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// TODO: Work out a way to put "whatever the imported way of referencing
// this type in this file" rather than a fully-qualified type.
let replacement = format! ( " {} ::default() " , cx . tcx . def_path_str ( def . did ) ) ;
span_lint_and_sugg (
cx ,
DEFAULT_TRAIT_ACCESS ,
expr . span ,
& format! ( " calling ` {} ` is more clear than this expression " , replacement ) ,
" try " ,
replacement ,
Applicability ::Unspecified , // First resolve the TODO above
) ;
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}
}
}
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#[ allow(clippy::too_many_lines) ]
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fn check_block < ' tcx > ( & mut self , cx : & LateContext < ' tcx > , block : & Block < ' tcx > ) {
// start from the `let mut _ = _::default();` and look at all the following
// statements, see if they re-assign the fields of the binding
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let stmts_head = match block . stmts {
// Skip the last statement since there cannot possibly be any following statements that re-assign fields.
[ head @ .. , _ ] if ! head . is_empty ( ) = > head ,
_ = > return ,
} ;
for ( stmt_idx , stmt ) in stmts_head . iter ( ) . enumerate ( ) {
// find all binding statements like `let mut _ = T::default()` where `T::default()` is the
// `default` method of the `Default` trait, and store statement index in current block being
// checked and the name of the bound variable
let ( local , variant , binding_name , binding_type , span ) = if_chain! {
// only take `let ...` statements
if let StmtKind ::Local ( local ) = stmt . kind ;
if let Some ( expr ) = local . init ;
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if ! any_parent_is_automatically_derived ( cx . tcx , expr . hir_id ) ;
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if ! expr . span . from_expansion ( ) ;
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// only take bindings to identifiers
if let PatKind ::Binding ( _ , binding_id , ident , _ ) = local . pat . kind ;
// only when assigning `... = Default::default()`
if is_expr_default ( expr , cx ) ;
let binding_type = cx . typeck_results ( ) . node_type ( binding_id ) ;
if let Some ( adt ) = binding_type . ty_adt_def ( ) ;
if adt . is_struct ( ) ;
let variant = adt . non_enum_variant ( ) ;
if adt . did . is_local ( ) | | ! variant . is_field_list_non_exhaustive ( ) ;
let module_did = cx . tcx . parent_module ( stmt . hir_id ) . to_def_id ( ) ;
if variant
. fields
. iter ( )
. all ( | field | field . vis . is_accessible_from ( module_did , cx . tcx ) ) ;
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let all_fields_are_copy = variant
. fields
. iter ( )
. all ( | field | {
is_copy ( cx , cx . tcx . type_of ( field . did ) )
} ) ;
if ! has_drop ( cx , binding_type ) | | all_fields_are_copy ;
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then {
( local , variant , ident . name , binding_type , expr . span )
} else {
continue ;
}
} ;
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// find all "later statement"'s where the fields of the binding set as
// Default::default() get reassigned, unless the reassignment refers to the original binding
let mut first_assign = None ;
let mut assigned_fields = Vec ::new ( ) ;
let mut cancel_lint = false ;
for consecutive_statement in & block . stmts [ stmt_idx + 1 .. ] {
// find out if and which field was set by this `consecutive_statement`
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if let Some ( ( field_ident , assign_rhs ) ) = field_reassigned_by_stmt ( consecutive_statement , binding_name ) {
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// interrupt and cancel lint if assign_rhs references the original binding
if contains_name ( binding_name , assign_rhs ) {
cancel_lint = true ;
break ;
}
// if the field was previously assigned, replace the assignment, otherwise insert the assignment
if let Some ( prev ) = assigned_fields
. iter_mut ( )
. find ( | ( field_name , _ ) | field_name = = & field_ident . name )
{
* prev = ( field_ident . name , assign_rhs ) ;
} else {
assigned_fields . push ( ( field_ident . name , assign_rhs ) ) ;
}
// also set first instance of error for help message
if first_assign . is_none ( ) {
first_assign = Some ( consecutive_statement ) ;
}
}
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// interrupt if no field was assigned, since we only want to look at consecutive statements
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else {
break ;
}
}
// if there are incorrectly assigned fields, do a span_lint_and_note to suggest
// construction using `Ty { fields, ..Default::default() }`
if ! assigned_fields . is_empty ( ) & & ! cancel_lint {
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// if all fields of the struct are not assigned, add `.. Default::default()` to the suggestion.
let ext_with_default = ! variant
. fields
. iter ( )
. all ( | field | assigned_fields . iter ( ) . any ( | ( a , _ ) | a = = & field . ident . name ) ) ;
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let field_list = assigned_fields
. into_iter ( )
. map ( | ( field , rhs ) | {
// extract and store the assigned value for help message
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let value_snippet = snippet_with_macro_callsite ( cx , rhs . span , " .. " ) ;
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format! ( " {} : {} " , field , value_snippet )
} )
. collect ::< Vec < String > > ( )
. join ( " , " ) ;
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// give correct suggestion if generics are involved (see #6944)
let binding_type = if_chain! {
if let ty ::Adt ( adt_def , substs ) = binding_type . kind ( ) ;
if ! substs . is_empty ( ) ;
then {
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let adt_def_ty_name = cx . tcx . item_name ( adt_def . did ) ;
let generic_args = substs . iter ( ) . collect ::< Vec < _ > > ( ) ;
let tys_str = generic_args
. iter ( )
. map ( ToString ::to_string )
. collect ::< Vec < _ > > ( )
. join ( " , " ) ;
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format! ( " {} ::< {} > " , adt_def_ty_name , & tys_str )
} else {
binding_type . to_string ( )
}
} ;
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let sugg = if ext_with_default {
if field_list . is_empty ( ) {
format! ( " {} ::default() " , binding_type )
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} else {
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format! ( " {} {{ {} , ..Default::default() }} " , binding_type , field_list )
}
} else {
format! ( " {} {{ {} }} " , binding_type , field_list )
} ;
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// span lint once per statement that binds default
span_lint_and_note (
cx ,
FIELD_REASSIGN_WITH_DEFAULT ,
first_assign . unwrap ( ) . span ,
" field assignment outside of initializer for an instance created with Default::default() " ,
Some ( local . span ) ,
& format! (
" consider initializing the variable with `{}` and removing relevant reassignments " ,
sugg
) ,
) ;
self . reassigned_linted . insert ( span ) ;
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}
}
}
}
/// Checks if the given expression is the `default` method belonging to the `Default` trait.
fn is_expr_default < ' tcx > ( expr : & ' tcx Expr < ' tcx > , cx : & LateContext < ' tcx > ) -> bool {
if_chain! {
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if let ExprKind ::Call ( fn_expr , _ ) = & expr . kind ;
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if let ExprKind ::Path ( qpath ) = & fn_expr . kind ;
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if let Res ::Def ( _ , def_id ) = cx . qpath_res ( qpath , fn_expr . hir_id ) ;
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then {
// right hand side of assignment is `Default::default`
match_def_path ( cx , def_id , & paths ::DEFAULT_TRAIT_METHOD )
} else {
false
}
}
}
/// Returns the reassigned field and the assigning expression (right-hand side of assign).
fn field_reassigned_by_stmt < ' tcx > ( this : & Stmt < ' tcx > , binding_name : Symbol ) -> Option < ( Ident , & ' tcx Expr < ' tcx > ) > {
if_chain! {
// only take assignments
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if let StmtKind ::Semi ( later_expr ) = this . kind ;
if let ExprKind ::Assign ( assign_lhs , assign_rhs , _ ) = later_expr . kind ;
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// only take assignments to fields where the left-hand side field is a field of
// the same binding as the previous statement
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if let ExprKind ::Field ( binding , field_ident ) = assign_lhs . kind ;
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if let ExprKind ::Path ( QPath ::Resolved ( _ , path ) ) = binding . kind ;
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if let Some ( second_binding_name ) = path . segments . last ( ) ;
if second_binding_name . ident . name = = binding_name ;
then {
Some ( ( field_ident , assign_rhs ) )
} else {
None
}
}
}