fish-shell/parse_util.cpp

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/** \file parse_util.c
Various mostly unrelated utility functions related to parsing,
loading and evaluating fish code.
This library can be seen as a 'toolbox' for functions that are
used in many places in fish and that are somehow related to
parsing the code.
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
#include <unistd.h>
#include <wctype.h>
#include <wchar.h>
#include <map>
#include <set>
#include <algorithm>
#include <time.h>
#include <assert.h>
#include "fallback.h"
#include "util.h"
#include "wutil.h"
#include "common.h"
#include "tokenizer.h"
#include "parse_util.h"
#include "expand.h"
#include "intern.h"
#include "exec.h"
#include "env.h"
#include "signal.h"
#include "wildcard.h"
#include "halloc_util.h"
/**
Maximum number of autoloaded items opf a specific type to keep in
memory at a time.
*/
#define AUTOLOAD_MAX 10
/**
Minimum time, in seconds, before an autoloaded item will be
unloaded
*/
#define AUTOLOAD_MIN_AGE 60
int parse_util_lineno( const wchar_t *str, int len )
{
/**
First cached state
*/
static wchar_t *prev_str = 0;
static int i=0;
static int res = 1;
/**
Second cached state
*/
static wchar_t *prev_str2 = 0;
static int i2 = 0;
static int res2 = 1;
CHECK( str, 0 );
if( str != prev_str || i>len )
{
if( prev_str2 == str && i2 <= len )
{
wchar_t *tmp_str = prev_str;
int tmp_i = i;
int tmp_res = res;
prev_str = prev_str2;
i=i2;
res=res2;
prev_str2 = tmp_str;
i2 = tmp_i;
res2 = tmp_res;
}
else
{
prev_str2 = prev_str;
i2 = i;
res2=res;
prev_str = (wchar_t *)str;
i=0;
res=1;
}
}
for( ; str[i] && i<len; i++ )
{
if( str[i] == L'\n' )
{
res++;
}
}
return res;
}
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int parse_util_get_line_from_offset( const wcstring &str, int pos )
{
// return parse_util_lineno( buff, pos );
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const wchar_t *buff = str.c_str();
int i;
int count = 0;
if( pos < 0 )
{
return -1;
}
for( i=0; i<pos; i++ )
{
if( !buff[i] )
{
return -1;
}
if( buff[i] == L'\n' )
{
count++;
}
}
return count;
}
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int parse_util_get_offset_from_line( const wcstring &str, int line )
{
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const wchar_t *buff = str.c_str();
int i;
int count = 0;
if( line < 0 )
{
return -1;
}
if( line == 0 )
return 0;
for( i=0;; i++ )
{
if( !buff[i] )
{
return -1;
}
if( buff[i] == L'\n' )
{
count++;
if( count == line )
{
return i+1;
}
}
}
}
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int parse_util_get_offset( const wcstring &str, int line, int line_offset )
{
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const wchar_t *buff = str.c_str();
int off = parse_util_get_offset_from_line( buff, line );
int off2 = parse_util_get_offset_from_line( buff, line+1 );
int line_offset2 = line_offset;
if( off < 0 )
{
return -1;
}
if( off2 < 0 )
{
off2 = wcslen( buff )+1;
}
if( line_offset2 < 0 )
{
line_offset2 = 0;
}
if( line_offset2 >= off2-off-1 )
{
line_offset2 = off2-off-1;
}
return off + line_offset2;
}
int parse_util_locate_cmdsubst( const wchar_t *in,
wchar_t **begin,
wchar_t **end,
int allow_incomplete )
{
wchar_t *pos;
wchar_t prev=0;
int syntax_error=0;
int paran_count=0;
wchar_t *paran_begin=0, *paran_end=0;
CHECK( in, 0 );
for( pos = (wchar_t *)in; *pos; pos++ )
{
if( prev != '\\' )
{
if( wcschr( L"\'\"", *pos ) )
{
wchar_t *q_end = quote_end( pos );
if( q_end && *q_end)
{
pos=q_end;
}
else
{
break;
}
}
else
{
if( *pos == '(' )
{
if(( paran_count == 0)&&(paran_begin==0))
{
paran_begin = pos;
}
paran_count++;
}
else if( *pos == ')' )
{
paran_count--;
if( (paran_count == 0) && (paran_end == 0) )
{
paran_end = pos;
break;
}
if( paran_count < 0 )
{
syntax_error = 1;
break;
}
}
}
}
prev = *pos;
}
syntax_error |= (paran_count < 0 );
syntax_error |= ((paran_count>0)&&(!allow_incomplete));
if( syntax_error )
{
return -1;
}
if( paran_begin == 0 )
{
return 0;
}
if( begin )
{
*begin = paran_begin;
}
if( end )
{
*end = paran_count?(wchar_t *)in+wcslen(in):paran_end;
}
return 1;
}
void parse_util_cmdsubst_extent( const wchar_t *buff,
int cursor_pos,
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const wchar_t **a,
const wchar_t **b )
{
wchar_t *begin, *end;
wchar_t *pos;
const wchar_t *cursor = buff + cursor_pos;
CHECK( buff, );
if( a )
{
*a = (wchar_t *)buff;
}
if( b )
{
*b = (wchar_t *)buff+wcslen(buff);
}
pos = (wchar_t *)buff;
while( 1 )
{
if( parse_util_locate_cmdsubst( pos,
&begin,
&end,
1 ) <= 0)
{
/*
No subshell found
*/
break;
}
if( !end )
{
end = (wchar_t *)buff + wcslen(buff);
}
if(( begin < cursor ) && (end >= cursor) )
{
begin++;
if( a )
{
*a = begin;
}
if( b )
{
*b = end;
}
break;
}
if( !*end )
{
break;
}
pos = end+1;
}
}
/**
Get the beginning and end of the job or process definition under the cursor
*/
static void job_or_process_extent( const wchar_t *buff,
int cursor_pos,
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const wchar_t **a,
const wchar_t **b,
int process )
{
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const wchar_t *begin, *end;
int pos;
wchar_t *buffcpy;
int finished=0;
tokenizer tok;
CHECK( buff, );
if( a )
{
*a=0;
}
if( b )
{
*b = 0;
}
parse_util_cmdsubst_extent( buff, cursor_pos, &begin, &end );
if( !end || !begin )
{
return;
}
pos = cursor_pos - (begin - buff);
if( a )
{
*a = begin;
}
if( b )
{
*b = end;
}
buffcpy = wcsndup( begin, end-begin );
if( !buffcpy )
{
DIE_MEM();
}
for( tok_init( &tok, buffcpy, TOK_ACCEPT_UNFINISHED );
tok_has_next( &tok ) && !finished;
tok_next( &tok ) )
{
int tok_begin = tok_get_pos( &tok );
switch( tok_last_type( &tok ) )
{
case TOK_PIPE:
{
if( !process )
{
break;
}
}
case TOK_END:
case TOK_BACKGROUND:
{
if( tok_begin >= pos )
{
finished=1;
if( b )
{
*b = (wchar_t *)buff + tok_begin;
}
}
else
{
if( a )
{
*a = (wchar_t *)buff + tok_begin+1;
}
}
break;
}
}
}
free( buffcpy);
tok_destroy( &tok );
}
void parse_util_process_extent( const wchar_t *buff,
int pos,
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const wchar_t **a,
const wchar_t **b )
{
job_or_process_extent( buff, pos, a, b, 1 );
}
void parse_util_job_extent( const wchar_t *buff,
int pos,
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const wchar_t **a,
const wchar_t **b )
{
job_or_process_extent( buff,pos,a, b, 0 );
}
void parse_util_token_extent( const wchar_t *buff,
int cursor_pos,
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const wchar_t **tok_begin,
const wchar_t **tok_end,
const wchar_t **prev_begin,
const wchar_t **prev_end )
{
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const wchar_t *begin, *end;
int pos;
wchar_t *buffcpy;
tokenizer tok;
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const wchar_t *a, *b, *pa, *pb;
CHECK( buff, );
assert( cursor_pos >= 0 );
a = b = pa = pb = 0;
parse_util_cmdsubst_extent( buff, cursor_pos, &begin, &end );
if( !end || !begin )
{
return;
}
pos = cursor_pos - (begin - buff);
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a = buff + pos;
b = a;
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pa = buff + pos;
pb = pa;
assert( begin >= buff );
assert( begin <= (buff+wcslen(buff) ) );
assert( end >= begin );
assert( end <= (buff+wcslen(buff) ) );
buffcpy = wcsndup( begin, end-begin );
if( !buffcpy )
{
DIE_MEM();
}
for( tok_init( &tok, buffcpy, TOK_ACCEPT_UNFINISHED );
tok_has_next( &tok );
tok_next( &tok ) )
{
int tok_begin = tok_get_pos( &tok );
int tok_end=tok_begin;
/*
Calculate end of token
*/
if( tok_last_type( &tok ) == TOK_STRING )
{
tok_end +=wcslen(tok_last(&tok));
}
/*
Cursor was before beginning of this token, means that the
cursor is between two tokens, so we set it to a zero element
string and break
*/
if( tok_begin > pos )
{
a = b = (wchar_t *)buff + pos;
break;
}
/*
If cursor is inside the token, this is the token we are
looking for. If so, set a and b and break
*/
if( (tok_last_type( &tok ) == TOK_STRING) && (tok_end >= pos ) )
{
a = begin + tok_get_pos( &tok );
b = a + wcslen(tok_last(&tok));
break;
}
/*
Remember previous string token
*/
if( tok_last_type( &tok ) == TOK_STRING )
{
pa = begin + tok_get_pos( &tok );
pb = pa + wcslen(tok_last(&tok));
}
}
free( buffcpy);
tok_destroy( &tok );
if( tok_begin )
{
*tok_begin = a;
}
if( tok_end )
{
*tok_end = b;
}
if( prev_begin )
{
*prev_begin = pa;
}
if( prev_end )
{
*prev_end = pb;
}
assert( pa >= buff );
assert( pa <= (buff+wcslen(buff) ) );
assert( pb >= pa );
assert( pb <= (buff+wcslen(buff) ) );
}
void parse_util_set_argv( const wchar_t * const *argv, const wcstring_list_t &named_arguments )
{
if( *argv )
{
const wchar_t * const *arg;
string_buffer_t sb;
sb_init( &sb );
for( arg=argv; *arg; arg++ )
{
if( arg != argv )
{
sb_append( &sb, ARRAY_SEP_STR );
}
sb_append( &sb, *arg );
}
env_set( L"argv", (wchar_t *)sb.buff, ENV_LOCAL );
sb_destroy( &sb );
}
else
{
env_set( L"argv", 0, ENV_LOCAL );
}
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if( named_arguments.size() )
{
const wchar_t * const *arg;
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size_t i;
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for( i=0, arg=argv; i < named_arguments.size(); i++ )
{
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env_set( named_arguments.at(i).c_str(), *arg, ENV_LOCAL );
if( *arg )
arg++;
}
}
}
wchar_t *parse_util_unescape_wildcards( const wchar_t *str )
{
wchar_t *in, *out;
wchar_t *unescaped;
CHECK( str, 0 );
unescaped = wcsdup(str);
if( !unescaped )
{
DIE_MEM();
}
for( in=out=unescaped; *in; in++ )
{
switch( *in )
{
case L'\\':
{
if( *(in+1) )
{
in++;
*(out++)=*in;
}
*(out++)=*in;
break;
}
case L'*':
{
*(out++)=ANY_STRING;
break;
}
case L'?':
{
*(out++)=ANY_CHAR;
break;
}
default:
{
*(out++)=*in;
break;
}
}
}
return unescaped;
}