make/expand.c
2017-07-09 21:52:28 -04:00

597 lines
18 KiB
C
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/* Variable expansion functions for GNU Make.
Copyright (C) 1988-2017 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 3 of the License, 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
this program. If not, see <http://www.gnu.org/licenses/>. */
#include "makeint.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 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)
{
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 floc *this_var;
const 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. */
OS (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 *save;
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);
}
/* We need a copy of STRING: due to eval, it's possible that it will get
freed as we process it (it might be the value of a variable that's reset
for example). Also having a nil-terminated string is handy. */
save = length < 0 ? xstrdup (string) : xstrndup (string, length);
p = save;
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 $. */
switch (*p)
{
case '$':
case '\0':
/* $$ or $ at the end of the string means output one $ to the
variable output buffer. */
o = variable_buffer_output (o, p1, 1);
break;
case '(':
case '{':
/* $(...) or ${...} is the general case of substitution. */
{
char openparen = *p;
char closeparen = (openparen == '(') ? ')' : '}';
const char *begp;
const char *beg = p + 1;
char *op;
char *abeg = NULL;
const char *end, *colon;
op = o;
begp = p;
if (handle_function (&op, &begp))
{
o = op;
p = begp;
break;
}
/* Is there a variable reference inside the parens or braces?
If so, expand it before expanding the entire reference. */
end = strchr (beg, closeparen);
if (end == 0)
/* Unterminated variable reference. */
O (fatal, *expanding_var, _("unterminated variable reference"));
p1 = lindex (beg, end, '$');
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 = colon + 1;
const char *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
{
const char *replace_beg = subst_end + 1;
const char *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);
free (abeg);
}
break;
default:
if (ISSPACE (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;
++p;
}
free (save);
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, *alloc = NULL;
char *r;
if (str == end)
return xstrdup ("");
if (!end || *end == '\0')
return allocated_variable_expand (str);
if (end - str + 1 > 1000)
tmp = alloc = xmalloc (end - str + 1);
else
tmp = alloca (end - str + 1);
memcpy (tmp, str, end - str);
tmp[end - str] = '\0';
r = allocated_variable_expand (tmp);
free (alloc);
return r;
}
/* 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 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, int local)
{
const struct variable *v;
char *buf = 0;
int nextlocal;
/* If there's nothing left to check, return the empty buffer. */
if (!set)
return initialize_variable_output ();
/* If this set is local and the next is not a parent, then next is local. */
nextlocal = local && set->next_is_parent == 0;
/* Try to find the variable in this variable set. */
v = lookup_variable_in_set (name, length, set->set);
/* If there isn't one, or this one is private, try the set above us. */
if (!v || (!local && v->private_var))
return variable_append (name, length, set->next, nextlocal);
/* 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, nextlocal);
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, 1);
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);
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;
}