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fish-shell/tokenizer.cpp

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/** \file tokenizer.c
A specialized tokenizer for tokenizing the fish language. In the
future, the tokenizer should be extended to support marks,
tokenizing multiple strings and disposing of unused string
segments.
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <wchar.h>
#include <wctype.h>
#include <string.h>
#include <unistd.h>
#include "fallback.h"
#include "util.h"
#include "wutil.h"
#include "tokenizer.h"
#include "common.h"
/* Wow what a hack */
#define TOK_CALL_ERROR(t, e, x) do { tok_call_error((t), (e), (t)->squash_errors ? L"" : (x)); } while (0)
/**
Error string for unexpected end of string
*/
#define QUOTE_ERROR _( L"Unexpected end of string, quotes are not balanced" )
/**
Error string for mismatched parenthesis
*/
#define PARAN_ERROR _( L"Unexpected end of string, parenthesis do not match" )
/**
Error string for invalid redirections
*/
#define REDIRECT_ERROR _( L"Invalid input/output redirection" )
/**
Error string for when trying to pipe from fd 0
*/
#define PIPE_ERROR _( L"Can not use fd 0 as pipe output" )
/**
Characters that separate tokens. They are ordered by frequency of occurrence to increase parsing speed.
*/
#define SEP L" \n|\t;#\r<>^&"
/**
Maximum length of a string containing a file descriptor number
*/
#define FD_STR_MAX_LEN 16
/**
Descriptions of all tokenizer errors
*/
static const wchar_t *tok_desc[] =
{
N_(L"Tokenizer not yet initialized"),
N_(L"Tokenizer error"),
N_(L"Invalid token"),
N_(L"String"),
N_(L"Pipe"),
N_(L"End of command"),
N_(L"Redirect output to file"),
N_(L"Append output to file"),
N_(L"Redirect input to file"),
N_(L"Redirect to file descriptor"),
N_(L"Redirect output to file if file does not exist"),
N_(L"Run job in background"),
N_(L"Comment")
}
;
/**
Tests if the tokenizer buffer is large enough to hold contents of
the specified length, and if not, reallocates the tokenizer buffer.
\return 0 if the system could not provide the memory needed, and 1 otherwise.
*/
static int check_size(tokenizer *tok, size_t len)
{
if (tok->last_len <= len)
{
wchar_t *tmp;
tok->last_len = len +1;
tmp = (wchar_t *)realloc(tok->last, sizeof(wchar_t)*tok->last_len);
if (tmp == 0)
{
wperror(L"realloc");
return 0;
}
tok->last = tmp;
}
return 1;
}
/**
Set the latest tokens string to be the specified error message
*/
static void tok_call_error(tokenizer *tok, int error_type, const wchar_t *error_message)
{
tok->last_type = TOK_ERROR;
tok->error = error_type;
if (!check_size(tok, wcslen(error_message)+1))
{
if (tok->last != 0)
*tok->last=0;
return;
}
wcscpy(tok->last, error_message);
}
int tok_get_error(tokenizer *tok)
{
return tok->error;
}
void tok_init(tokenizer *tok, const wchar_t *b, int flags)
{
/* We can only generate error messages on the main thread due to wgettext() thread safety issues. */
if (!(flags & TOK_SQUASH_ERRORS))
{
ASSERT_IS_MAIN_THREAD();
}
CHECK(tok,);
memset(tok, 0, sizeof(tokenizer));
CHECK(b,);
tok->accept_unfinished = !!(flags & TOK_ACCEPT_UNFINISHED);
tok->show_comments = !!(flags & TOK_SHOW_COMMENTS);
tok->squash_errors = !!(flags & TOK_SQUASH_ERRORS);
tok->has_next=true;
tok->has_next = (*b != L'\0');
tok->orig_buff = tok->buff = b;
tok->cached_lineno_offset = 0;
tok->cached_lineno_count = 0;
tok_next(tok);
}
void tok_destroy(tokenizer *tok)
{
CHECK(tok,);
free(tok->last);
}
int tok_last_type(tokenizer *tok)
{
CHECK(tok, TOK_ERROR);
CHECK(tok->buff, TOK_ERROR);
return tok->last_type;
}
wchar_t *tok_last(tokenizer *tok)
{
CHECK(tok, 0);
return tok->last;
}
int tok_has_next(tokenizer *tok)
{
/*
Return 1 on broken tokenizer
*/
CHECK(tok, 1);
CHECK(tok->buff, 1);
/* fwprintf( stderr, L"has_next is %ls \n", tok->has_next?L"true":L"false" );*/
return tok->has_next;
}
int tokenizer::line_number_of_character_at_offset(size_t offset)
{
// we want to return (one plus) the number of newlines at offsets less than the given offset
// cached_lineno_count is the number of newlines at indexes less than cached_lineno_offset
const wchar_t *str = orig_buff;
if (! str)
return 0;
// easy hack to handle 0
if (offset == 0)
return 1;
size_t i;
if (offset > cached_lineno_offset)
{
for (i = cached_lineno_offset; str[i] && i<offset; i++)
{
/* Add one for every newline we find in the range [cached_lineno_offset, offset) */
if (str[i] == L'\n')
cached_lineno_count++;
}
cached_lineno_offset = i; //note: i, not offset, in case offset is beyond the length of the string
}
else if (offset < cached_lineno_offset)
{
/* Subtract one for every newline we find in the range [offset, cached_lineno_offset) */
for (i = offset; i < cached_lineno_offset; i++)
{
if (str[i] == L'\n')
cached_lineno_count--;
}
cached_lineno_offset = offset;
}
return cached_lineno_count + 1;
}
/**
Tests if this character can be a part of a string. The redirect ^ is allowed unless it's the first character.
*/
bool tok_is_string_character(wchar_t c, bool is_first)
{
switch (c)
{
/* Unconditional separators */
case L'\0':
case L' ':
case L'\n':
case L'|':
case L'\t':
case L';':
case L'#':
case L'\r':
case L'<':
case L'>':
case L'&':
return false;
/* Conditional separator */
case L'^':
return ! is_first;
default:
return true;
}
}
/**
Quick test to catch the most common 'non-magical' characters, makes
read_string slightly faster by adding a fast path for the most
common characters. This is obviously not a suitable replacement for
iswalpha.
*/
static int myal(wchar_t c)
{
return (c>=L'a' && c<=L'z') || (c>=L'A'&&c<=L'Z');
}
/**
Read the next token as a string
*/
static void read_string(tokenizer *tok)
{
const wchar_t *start;
long len;
int mode=0;
int do_loop=1;
int paran_count=0;
start = tok->buff;
bool is_first = true;
while (1)
{
if (!myal(*tok->buff))
{
// debug(1, L"%lc", *tok->buff );
if (*tok->buff == L'\\')
{
tok->buff++;
if (*tok->buff == L'\0')
{
if ((!tok->accept_unfinished))
{
TOK_CALL_ERROR(tok, TOK_UNTERMINATED_ESCAPE, QUOTE_ERROR);
return;
}
else
{
do_loop = 0;
}
}
else if (*tok->buff == L'\n' && mode == 0)
{
tok->buff--;
do_loop = 0;
break;
}
tok->buff++;
continue;
}
/*
The modes are as follows:
0: regular text
1: inside of subshell
2: inside of array brackets
3: inside of array brackets and subshell, like in '$foo[(ech'
*/
switch (mode)
{
case 0:
{
switch (*tok->buff)
{
case L'(':
{
paran_count=1;
mode = 1;
break;
}
case L'[':
{
if (tok->buff != start)
mode=2;
break;
}
case L'\'':
case L'"':
{
const wchar_t *end = quote_end(tok->buff);
tok->last_quote = *tok->buff;
if (end)
{
tok->buff=(wchar_t *)end;
}
else
{
tok->buff += wcslen(tok->buff);
if ((!tok->accept_unfinished))
{
TOK_CALL_ERROR(tok, TOK_UNTERMINATED_QUOTE, QUOTE_ERROR);
return;
}
do_loop = 0;
}
break;
}
default:
{
if (!tok_is_string_character(*(tok->buff), is_first))
{
do_loop=0;
}
}
}
break;
}
case 3:
case 1:
switch (*tok->buff)
{
case L'\'':
case L'\"':
{
const wchar_t *end = quote_end(tok->buff);
if (end)
{
tok->buff=(wchar_t *)end;
}
else
{
tok->buff += wcslen(tok->buff);
if ((!tok->accept_unfinished))
{
TOK_CALL_ERROR(tok, TOK_UNTERMINATED_QUOTE, QUOTE_ERROR);
return;
}
do_loop = 0;
}
break;
}
case L'(':
paran_count++;
break;
case L')':
paran_count--;
if (paran_count == 0)
{
mode--;
}
break;
case L'\0':
do_loop = 0;
break;
}
break;
case 2:
switch (*tok->buff)
{
case L'(':
paran_count=1;
mode = 3;
break;
case L']':
mode=0;
break;
case L'\0':
do_loop = 0;
break;
}
break;
}
}
if (!do_loop)
break;
tok->buff++;
is_first = false;
}
if ((!tok->accept_unfinished) && (mode!=0))
{
TOK_CALL_ERROR(tok, TOK_UNTERMINATED_SUBSHELL, PARAN_ERROR);
return;
}
len = tok->buff - start;
if (!check_size(tok, len))
return;
memcpy(tok->last, start, sizeof(wchar_t)*len);
tok->last[len] = L'\0';
tok->last_type = TOK_STRING;
}
/**
Read the next token as a comment.
*/
static void read_comment(tokenizer *tok)
{
const wchar_t *start;
start = tok->buff;
while (*(tok->buff)!= L'\n' && *(tok->buff)!= L'\0')
tok->buff++;
size_t len = tok->buff - start;
if (!check_size(tok, len))
return;
memcpy(tok->last, start, sizeof(wchar_t)*len);
tok->last[len] = L'\0';
tok->last_type = TOK_COMMENT;
}
/**
Read a FD redirection.
*/
static void read_redirect(tokenizer *tok, int fd)
{
int mode = -1;
if ((*tok->buff == L'>') ||
(*tok->buff == L'^'))
{
tok->buff++;
if (*tok->buff == *(tok->buff-1))
{
tok->buff++;
mode = 1;
}
else
{
mode = 0;
}
if (*tok->buff == L'|')
{
if (fd == 0)
{
TOK_CALL_ERROR(tok, TOK_OTHER, PIPE_ERROR);
return;
}
check_size(tok, FD_STR_MAX_LEN);
tok->buff++;
swprintf(tok->last, FD_STR_MAX_LEN, L"%d", fd);
tok->last_type = TOK_PIPE;
return;
}
}
else if (*tok->buff == L'<')
{
tok->buff++;
mode = 2;
}
else
{
TOK_CALL_ERROR(tok, TOK_OTHER, REDIRECT_ERROR);
}
if (!check_size(tok, 2))
{
return;
}
swprintf(tok->last, tok->last_len, L"%d", fd);
if (*tok->buff == L'&')
{
tok->buff++;
tok->last_type = TOK_REDIRECT_FD;
}
else if (*tok->buff == L'?')
{
tok->buff++;
tok->last_type = TOK_REDIRECT_NOCLOB;
}
else
{
tok->last_type = TOK_REDIRECT_OUT + mode;
}
}
wchar_t tok_last_quote(tokenizer *tok)
{
CHECK(tok, 0);
return tok->last_quote;
}
/**
Test if a character is whitespace. Differs from iswspace in that it
does not consider a newline to be whitespace.
*/
static int my_iswspace(wchar_t c)
{
if (c == L'\n')
return 0;
else
return iswspace(c);
}
const wchar_t *tok_get_desc(int type)
{
if (type < 0 || (size_t)type >= sizeof(tok_desc))
{
return _(L"Invalid token type");
}
return _(tok_desc[type]);
}
void tok_next(tokenizer *tok)
{
CHECK(tok,);
CHECK(tok->buff,);
if (tok_last_type(tok) == TOK_ERROR)
{
tok->has_next=false;
return;
}
if (!tok->has_next)
{
/* wprintf( L"EOL\n" );*/
tok->last_type = TOK_END;
return;
}
while (1)
{
if (my_iswspace(*(tok->buff)))
{
tok->buff++;
}
else
{
if ((*(tok->buff) == L'\\') &&(*(tok->buff+1) == L'\n'))
{
tok->last_pos = tok->buff - tok->orig_buff;
tok->buff+=2;
tok->last_type = TOK_END;
return;
}
break;
}
}
if (*tok->buff == L'#')
{
if (tok->show_comments)
{
tok->last_pos = tok->buff - tok->orig_buff;
read_comment(tok);
return;
}
else
{
while (*(tok->buff)!= L'\n' && *(tok->buff)!= L'\0')
tok->buff++;
}
while (my_iswspace(*(tok->buff)))
tok->buff++;
}
tok->last_pos = tok->buff - tok->orig_buff;
switch (*tok->buff)
{
case L'\0':
tok->last_type = TOK_END;
/*fwprintf( stderr, L"End of string\n" );*/
tok->has_next = false;
break;
case 13:
case L'\n':
case L';':
tok->last_type = TOK_END;
tok->buff++;
break;
case L'&':
tok->last_type = TOK_BACKGROUND;
tok->buff++;
break;
case L'|':
check_size(tok, 2);
tok->last[0]=L'1';
tok->last[1]=L'\0';
tok->last_type = TOK_PIPE;
tok->buff++;
break;
case L'>':
read_redirect(tok, 1);
return;
case L'<':
read_redirect(tok, 0);
return;
case L'^':
read_redirect(tok, 2);
return;
default:
{
if (iswdigit(*tok->buff))
{
const wchar_t *orig = tok->buff;
int fd = 0;
while (iswdigit(*tok->buff))
fd = (fd*10) + (*(tok->buff++) - L'0');
switch (*(tok->buff))
{
case L'^':
case L'>':
case L'<':
read_redirect(tok, fd);
return;
}
tok->buff = orig;
}
read_string(tok);
}
}
}
const wchar_t *tok_string(tokenizer *tok)
{
return tok?tok->orig_buff:0;
}
wchar_t *tok_first(const wchar_t *str)
{
tokenizer t;
wchar_t *res=0;
CHECK(str, 0);
tok_init(&t, str, TOK_SQUASH_ERRORS);
switch (tok_last_type(&t))
{
case TOK_STRING:
// fwprintf( stderr, L"Got token %ls\n", tok_last( &t ));
res = wcsdup(tok_last(&t));
break;
default:
break;
}
tok_destroy(&t);
return res;
}
int tok_get_pos(tokenizer *tok)
{
CHECK(tok, 0);
return (int)tok->last_pos;
}
void tok_set_pos(tokenizer *tok, int pos)
{
CHECK(tok,);
tok->buff = tok->orig_buff + pos;
tok->has_next = true;
tok_next(tok);
}
#ifdef TOKENIZER_TEST
/**
This main function is used for compiling the tokenizer_test command, used for testing the tokenizer.
*/
int main(int argc, char **argv)
{
tokenizer tok;
int i;
for (i=1; i<argc; i++)
{
wprintf(L"Tokenizing string %s\n", argv[i]);
for (tok_init(&tok, str2wcs(argv[i]), 0); tok_has_next(&tok); tok_next(&tok))
{
switch (tok_last_type(&tok))
{
case TOK_INVALID:
wprintf(L"Type: INVALID\n");
break;
case TOK_STRING:
wprintf(L"Type: STRING\t Value: %ls\n", tok_last(&tok));
break;
case TOK_PIPE:
wprintf(L"Type: PIPE\n");
break;
case TOK_END:
wprintf(L"Type: END\n");
break;
case TOK_ERROR:
wprintf(L"Type: ERROR\n");
break;
default:
wprintf(L"Type: Unknown\n");
break;
}
}
tok_destroy(&tok);
}
}
#endif
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