make/expand.c
Paul Smith a940199072 Fix a core dump when reading_file is 0 (20033).
Fix some manual typos (20018).
2007-06-19 04:47:58 +00:00

601 lines
16 KiB
C
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/* Variable expansion functions for GNU Make.
Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software
Foundation, Inc.
This file is part of GNU Make.
GNU Make is free software; you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation; either version 2, or (at your option) any later version.
GNU Make is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
GNU Make; see the file COPYING. If not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. */
#include "make.h"
#include <assert.h>
#include "filedef.h"
#include "job.h"
#include "commands.h"
#include "variable.h"
#include "rule.h"
/* Initially, any errors reported when expanding strings will be reported
against the file where the error appears. */
const struct floc **expanding_var = &reading_file;
/* The next two describe the variable output buffer.
This buffer is used to hold the variable-expansion of a line of the
makefile. It is made bigger with realloc whenever it is too small.
variable_buffer_length is the size currently allocated.
variable_buffer is the address of the buffer.
For efficiency, it's guaranteed that the buffer will always have
VARIABLE_BUFFER_ZONE extra bytes allocated. This allows you to add a few
extra chars without having to call a function. Note you should never use
these bytes unless you're _sure_ you have room (you know when the buffer
length was last checked. */
#define VARIABLE_BUFFER_ZONE 5
static unsigned int variable_buffer_length;
char *variable_buffer;
/* Subroutine of variable_expand and friends:
The text to add is LENGTH chars starting at STRING to the variable_buffer.
The text is added to the buffer at PTR, and the updated pointer into
the buffer is returned as the value. Thus, the value returned by
each call to variable_buffer_output should be the first argument to
the following call. */
char *
variable_buffer_output (char *ptr, const char *string, unsigned int length)
{
register unsigned int newlen = length + (ptr - variable_buffer);
if ((newlen + VARIABLE_BUFFER_ZONE) > variable_buffer_length)
{
unsigned int offset = ptr - variable_buffer;
variable_buffer_length = (newlen + 100 > 2 * variable_buffer_length
? newlen + 100
: 2 * variable_buffer_length);
variable_buffer = xrealloc (variable_buffer, variable_buffer_length);
ptr = variable_buffer + offset;
}
memcpy (ptr, string, length);
return ptr + length;
}
/* Return a pointer to the beginning of the variable buffer. */
static char *
initialize_variable_output (void)
{
/* If we don't have a variable output buffer yet, get one. */
if (variable_buffer == 0)
{
variable_buffer_length = 200;
variable_buffer = xmalloc (variable_buffer_length);
variable_buffer[0] = '\0';
}
return variable_buffer;
}
/* Recursively expand V. The returned string is malloc'd. */
static char *allocated_variable_append (const struct variable *v);
char *
recursively_expand_for_file (struct variable *v, struct file *file)
{
char *value;
const struct floc *this_var;
const struct floc **saved_varp;
struct variable_set_list *save = 0;
int set_reading = 0;
/* Don't install a new location if this location is empty.
This can happen for command-line variables, builtin variables, etc. */
saved_varp = expanding_var;
if (v->fileinfo.filenm)
{
this_var = &v->fileinfo;
expanding_var = &this_var;
}
/* If we have no other file-reading context, use the variable's context. */
if (!reading_file)
{
set_reading = 1;
reading_file = &v->fileinfo;
}
if (v->expanding)
{
if (!v->exp_count)
/* Expanding V causes infinite recursion. Lose. */
fatal (*expanding_var,
_("Recursive variable `%s' references itself (eventually)"),
v->name);
--v->exp_count;
}
if (file)
{
save = current_variable_set_list;
current_variable_set_list = file->variables;
}
v->expanding = 1;
if (v->append)
value = allocated_variable_append (v);
else
value = allocated_variable_expand (v->value);
v->expanding = 0;
if (set_reading)
reading_file = 0;
if (file)
current_variable_set_list = save;
expanding_var = saved_varp;
return value;
}
/* Expand a simple reference to variable NAME, which is LENGTH chars long. */
#ifdef __GNUC__
__inline
#endif
static char *
reference_variable (char *o, const char *name, unsigned int length)
{
struct variable *v;
char *value;
v = lookup_variable (name, length);
if (v == 0)
warn_undefined (name, length);
/* If there's no variable by that name or it has no value, stop now. */
if (v == 0 || (*v->value == '\0' && !v->append))
return o;
value = (v->recursive ? recursively_expand (v) : v->value);
o = variable_buffer_output (o, value, strlen (value));
if (v->recursive)
free (value);
return o;
}
/* Scan STRING for variable references and expansion-function calls. Only
LENGTH bytes of STRING are actually scanned. If LENGTH is -1, scan until
a null byte is found.
Write the results to LINE, which must point into `variable_buffer'. If
LINE is NULL, start at the beginning of the buffer.
Return a pointer to LINE, or to the beginning of the buffer if LINE is
NULL.
*/
char *
variable_expand_string (char *line, const char *string, long length)
{
struct variable *v;
const char *p, *p1;
char *abuf = NULL;
char *o;
unsigned int line_offset;
if (!line)
line = initialize_variable_output();
o = line;
line_offset = line - variable_buffer;
if (length == 0)
{
variable_buffer_output (o, "", 1);
return (variable_buffer);
}
/* If we want a subset of the string, allocate a temporary buffer for it.
Most of the functions we use here don't work with length limits. */
if (length > 0 && string[length] != '\0')
{
abuf = xmalloc(length+1);
memcpy(abuf, string, length);
abuf[length] = '\0';
string = abuf;
}
p = string;
while (1)
{
/* Copy all following uninteresting chars all at once to the
variable output buffer, and skip them. Uninteresting chars end
at the next $ or the end of the input. */
p1 = strchr (p, '$');
o = variable_buffer_output (o, p, p1 != 0 ? (unsigned int)(p1 - p) : strlen (p) + 1);
if (p1 == 0)
break;
p = p1 + 1;
/* Dispatch on the char that follows the $. */
switch (*p)
{
case '$':
/* $$ seen means output one $ to the variable output buffer. */
o = variable_buffer_output (o, p, 1);
break;
case '(':
case '{':
/* $(...) or ${...} is the general case of substitution. */
{
char openparen = *p;
char closeparen = (openparen == '(') ? ')' : '}';
const char *begp;
const char *beg = p + 1;
char *op;
char *abeg = NULL;
const char *end, *colon;
op = o;
begp = p;
if (handle_function (&op, &begp))
{
o = op;
p = begp;
break;
}
/* Is there a variable reference inside the parens or braces?
If so, expand it before expanding the entire reference. */
end = strchr (beg, closeparen);
if (end == 0)
/* Unterminated variable reference. */
fatal (*expanding_var, _("unterminated variable reference"));
p1 = lindex (beg, end, '$');
if (p1 != 0)
{
/* BEG now points past the opening paren or brace.
Count parens or braces until it is matched. */
int count = 0;
for (p = beg; *p != '\0'; ++p)
{
if (*p == openparen)
++count;
else if (*p == closeparen && --count < 0)
break;
}
/* If COUNT is >= 0, there were unmatched opening parens
or braces, so we go to the simple case of a variable name
such as `$($(a)'. */
if (count < 0)
{
abeg = expand_argument (beg, p); /* Expand the name. */
beg = abeg;
end = strchr (beg, '\0');
}
}
else
/* Advance P to the end of this reference. After we are
finished expanding this one, P will be incremented to
continue the scan. */
p = end;
/* This is not a reference to a built-in function and
any variable references inside are now expanded.
Is the resultant text a substitution reference? */
colon = lindex (beg, end, ':');
if (colon)
{
/* This looks like a substitution reference: $(FOO:A=B). */
const char *subst_beg, *subst_end, *replace_beg, *replace_end;
subst_beg = colon + 1;
subst_end = lindex (subst_beg, end, '=');
if (subst_end == 0)
/* There is no = in sight. Punt on the substitution
reference and treat this as a variable name containing
a colon, in the code below. */
colon = 0;
else
{
replace_beg = subst_end + 1;
replace_end = end;
/* Extract the variable name before the colon
and look up that variable. */
v = lookup_variable (beg, colon - beg);
if (v == 0)
warn_undefined (beg, colon - beg);
/* If the variable is not empty, perform the
substitution. */
if (v != 0 && *v->value != '\0')
{
char *pattern, *replace, *ppercent, *rpercent;
char *value = (v->recursive
? recursively_expand (v)
: v->value);
/* Copy the pattern and the replacement. Add in an
extra % at the beginning to use in case there
isn't one in the pattern. */
pattern = alloca (subst_end - subst_beg + 2);
*(pattern++) = '%';
memcpy (pattern, subst_beg, subst_end - subst_beg);
pattern[subst_end - subst_beg] = '\0';
replace = alloca (replace_end - replace_beg + 2);
*(replace++) = '%';
memcpy (replace, replace_beg,
replace_end - replace_beg);
replace[replace_end - replace_beg] = '\0';
/* Look for %. Set the percent pointers properly
based on whether we find one or not. */
ppercent = find_percent (pattern);
if (ppercent)
{
++ppercent;
rpercent = find_percent (replace);
if (rpercent)
++rpercent;
}
else
{
ppercent = pattern;
rpercent = replace;
--pattern;
--replace;
}
o = patsubst_expand_pat (o, value, pattern, replace,
ppercent, rpercent);
if (v->recursive)
free (value);
}
}
}
if (colon == 0)
/* This is an ordinary variable reference.
Look up the value of the variable. */
o = reference_variable (o, beg, end - beg);
if (abeg)
free (abeg);
}
break;
case '\0':
break;
default:
if (isblank ((unsigned char)p[-1]))
break;
/* A $ followed by a random char is a variable reference:
$a is equivalent to $(a). */
o = reference_variable (o, p, 1);
break;
}
if (*p == '\0')
break;
else
++p;
}
if (abuf)
free (abuf);
variable_buffer_output (o, "", 1);
return (variable_buffer + line_offset);
}
/* Scan LINE for variable references and expansion-function calls.
Build in `variable_buffer' the result of expanding the references and calls.
Return the address of the resulting string, which is null-terminated
and is valid only until the next time this function is called. */
char *
variable_expand (const char *line)
{
return variable_expand_string(NULL, line, (long)-1);
}
/* Expand an argument for an expansion function.
The text starting at STR and ending at END is variable-expanded
into a null-terminated string that is returned as the value.
This is done without clobbering `variable_buffer' or the current
variable-expansion that is in progress. */
char *
expand_argument (const char *str, const char *end)
{
char *tmp;
if (str == end)
return xstrdup("");
if (!end || *end == '\0')
return allocated_variable_expand (str);
tmp = alloca (end - str + 1);
memcpy (tmp, str, end - str);
tmp[end - str] = '\0';
return allocated_variable_expand (tmp);
}
/* Expand LINE for FILE. Error messages refer to the file and line where
FILE's commands were found. Expansion uses FILE's variable set list. */
char *
variable_expand_for_file (const char *line, struct file *file)
{
char *result;
struct variable_set_list *savev;
const struct floc *savef;
if (file == 0)
return variable_expand (line);
savev = current_variable_set_list;
current_variable_set_list = file->variables;
savef = reading_file;
if (file->cmds && file->cmds->fileinfo.filenm)
reading_file = &file->cmds->fileinfo;
else
reading_file = 0;
result = variable_expand (line);
current_variable_set_list = savev;
reading_file = savef;
return result;
}
/* Like allocated_variable_expand, but for += target-specific variables.
First recursively construct the variable value from its appended parts in
any upper variable sets. Then expand the resulting value. */
static char *
variable_append (const char *name, unsigned int length,
const struct variable_set_list *set)
{
const struct variable *v;
char *buf = 0;
/* If there's nothing left to check, return the empty buffer. */
if (!set)
return initialize_variable_output ();
/* Try to find the variable in this variable set. */
v = lookup_variable_in_set (name, length, set->set);
/* If there isn't one, look to see if there's one in a set above us. */
if (!v)
return variable_append (name, length, set->next);
/* If this variable type is append, first get any upper values.
If not, initialize the buffer. */
if (v->append)
buf = variable_append (name, length, set->next);
else
buf = initialize_variable_output ();
/* Append this value to the buffer, and return it.
If we already have a value, first add a space. */
if (buf > variable_buffer)
buf = variable_buffer_output (buf, " ", 1);
/* Either expand it or copy it, depending. */
if (! v->recursive)
return variable_buffer_output (buf, v->value, strlen (v->value));
buf = variable_expand_string (buf, v->value, strlen (v->value));
return (buf + strlen (buf));
}
static char *
allocated_variable_append (const struct variable *v)
{
char *val;
/* Construct the appended variable value. */
char *obuf = variable_buffer;
unsigned int olen = variable_buffer_length;
variable_buffer = 0;
val = variable_append (v->name, strlen (v->name), current_variable_set_list);
variable_buffer_output (val, "", 1);
val = variable_buffer;
variable_buffer = obuf;
variable_buffer_length = olen;
return val;
}
/* Like variable_expand_for_file, but the returned string is malloc'd.
This function is called a lot. It wants to be efficient. */
char *
allocated_variable_expand_for_file (const char *line, struct file *file)
{
char *value;
char *obuf = variable_buffer;
unsigned int olen = variable_buffer_length;
variable_buffer = 0;
value = variable_expand_for_file (line, file);
#if 0
/* Waste a little memory and save time. */
value = xrealloc (value, strlen (value))
#endif
variable_buffer = obuf;
variable_buffer_length = olen;
return value;
}
/* Install a new variable_buffer context, returning the current one for
safe-keeping. */
void
install_variable_buffer (char **bufp, unsigned int *lenp)
{
*bufp = variable_buffer;
*lenp = variable_buffer_length;
variable_buffer = 0;
initialize_variable_output ();
}
/* Restore a previously-saved variable_buffer setting (free the current one).
*/
void
restore_variable_buffer (char *buf, unsigned int len)
{
free (variable_buffer);
variable_buffer = buf;
variable_buffer_length = len;
}