freebsd-nq/usr.bin/make/parse.c
Will Andrews fff8dac495 Fix make(1) bug: nested comments may be placed in .if, .else .if, and
.endif statements but can't be placed in .elif.  Basically, the problem
was that ParseSkipLine() didn't handle comments the same way that
ParseReadLine() did, and thus you had errors with comments that are on a
conditional line (i.e. "^.") rather than a non-conditional line.

MFC candidate for 4.3-STABLE and 3.5-STABLE.

PR:			25627
Bug found by:		jhs
Fix submitted by:	Seth Kingsley <sethk@osd.bsdi.com>  (thanks!!)
2001-03-15 02:51:11 +00:00

2638 lines
69 KiB
C

/*
* Copyright (c) 1988, 1989, 1990, 1993
* The Regents of the University of California. All rights reserved.
* Copyright (c) 1989 by Berkeley Softworks
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Adam de Boor.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)parse.c 8.3 (Berkeley) 3/19/94
*/
#ifndef lint
#include <sys/cdefs.h>
__RCSID("$FreeBSD$");
#endif /* not lint */
/*-
* parse.c --
* Functions to parse a makefile.
*
* One function, Parse_Init, must be called before any functions
* in this module are used. After that, the function Parse_File is the
* main entry point and controls most of the other functions in this
* module.
*
* Most important structures are kept in Lsts. Directories for
* the #include "..." function are kept in the 'parseIncPath' Lst, while
* those for the #include <...> are kept in the 'sysIncPath' Lst. The
* targets currently being defined are kept in the 'targets' Lst.
*
* The variables 'fname' and 'lineno' are used to track the name
* of the current file and the line number in that file so that error
* messages can be more meaningful.
*
* Interface:
* Parse_Init Initialization function which must be
* called before anything else in this module
* is used.
*
* Parse_End Cleanup the module
*
* Parse_File Function used to parse a makefile. It must
* be given the name of the file, which should
* already have been opened, and a function
* to call to read a character from the file.
*
* Parse_IsVar Returns TRUE if the given line is a
* variable assignment. Used by MainParseArgs
* to determine if an argument is a target
* or a variable assignment. Used internally
* for pretty much the same thing...
*
* Parse_Error Function called when an error occurs in
* parsing. Used by the variable and
* conditional modules.
* Parse_MainName Returns a Lst of the main target to create.
*/
#ifdef __STDC__
#include <stdarg.h>
#else
#include <varargs.h>
#endif
#include <ctype.h>
#include <err.h>
#include <stdio.h>
#include "make.h"
#include "hash.h"
#include "dir.h"
#include "job.h"
#include "buf.h"
#include "pathnames.h"
/*
* These values are returned by ParseEOF to tell Parse_File whether to
* CONTINUE parsing, i.e. it had only reached the end of an include file,
* or if it's DONE.
*/
#define CONTINUE 1
#define DONE 0
static Lst targets; /* targets we're working on */
static Lst targCmds; /* command lines for targets */
static Boolean inLine; /* true if currently in a dependency
* line or its commands */
typedef struct {
char *str;
char *ptr;
} PTR;
static char *fname; /* name of current file (for errors) */
static int lineno; /* line number in current file */
static FILE *curFILE = NULL; /* current makefile */
static PTR *curPTR = NULL; /* current makefile */
static int fatals = 0;
static GNode *mainNode; /* The main target to create. This is the
* first target on the first dependency
* line in the first makefile */
/*
* Definitions for handling #include specifications
*/
typedef struct IFile {
char *fname; /* name of previous file */
int lineno; /* saved line number */
FILE * F; /* the open stream */
PTR * p; /* the char pointer */
} IFile;
static Lst includes; /* stack of IFiles generated by
* #includes */
Lst parseIncPath; /* list of directories for "..." includes */
Lst sysIncPath; /* list of directories for <...> includes */
/*-
* specType contains the SPECial TYPE of the current target. It is
* Not if the target is unspecial. If it *is* special, however, the children
* are linked as children of the parent but not vice versa. This variable is
* set in ParseDoDependency
*/
typedef enum {
Begin, /* .BEGIN */
Default, /* .DEFAULT */
End, /* .END */
Ignore, /* .IGNORE */
Includes, /* .INCLUDES */
Interrupt, /* .INTERRUPT */
Libs, /* .LIBS */
MFlags, /* .MFLAGS or .MAKEFLAGS */
Main, /* .MAIN and we don't have anything user-specified to
* make */
NoExport, /* .NOEXPORT */
Not, /* Not special */
NotParallel, /* .NOTPARALELL */
Null, /* .NULL */
Order, /* .ORDER */
Parallel, /* .PARALLEL */
ExPath, /* .PATH */
Phony, /* .PHONY */
#ifdef POSIX
Posix, /* .POSIX */
#endif
Precious, /* .PRECIOUS */
ExShell, /* .SHELL */
Silent, /* .SILENT */
SingleShell, /* .SINGLESHELL */
Suffixes, /* .SUFFIXES */
Wait, /* .WAIT */
Attribute /* Generic attribute */
} ParseSpecial;
static ParseSpecial specType;
static int waiting;
/*
* Predecessor node for handling .ORDER. Initialized to NULL when .ORDER
* seen, then set to each successive source on the line.
*/
static GNode *predecessor;
/*
* The parseKeywords table is searched using binary search when deciding
* if a target or source is special. The 'spec' field is the ParseSpecial
* type of the keyword ("Not" if the keyword isn't special as a target) while
* the 'op' field is the operator to apply to the list of targets if the
* keyword is used as a source ("0" if the keyword isn't special as a source)
*/
static struct {
char *name; /* Name of keyword */
ParseSpecial spec; /* Type when used as a target */
int op; /* Operator when used as a source */
} parseKeywords[] = {
{ ".BEGIN", Begin, 0 },
{ ".DEFAULT", Default, 0 },
{ ".END", End, 0 },
{ ".EXEC", Attribute, OP_EXEC },
{ ".IGNORE", Ignore, OP_IGNORE },
{ ".INCLUDES", Includes, 0 },
{ ".INTERRUPT", Interrupt, 0 },
{ ".INVISIBLE", Attribute, OP_INVISIBLE },
{ ".JOIN", Attribute, OP_JOIN },
{ ".LIBS", Libs, 0 },
{ ".MAIN", Main, 0 },
{ ".MAKE", Attribute, OP_MAKE },
{ ".MAKEFLAGS", MFlags, 0 },
{ ".MFLAGS", MFlags, 0 },
{ ".NOTMAIN", Attribute, OP_NOTMAIN },
{ ".NOTPARALLEL", NotParallel, 0 },
{ ".NO_PARALLEL", NotParallel, 0 },
{ ".NULL", Null, 0 },
{ ".OPTIONAL", Attribute, OP_OPTIONAL },
{ ".ORDER", Order, 0 },
{ ".PARALLEL", Parallel, 0 },
{ ".PATH", ExPath, 0 },
{ ".PHONY", Phony, OP_PHONY },
#ifdef POSIX
{ ".POSIX", Posix, 0 },
#endif
{ ".PRECIOUS", Precious, OP_PRECIOUS },
{ ".RECURSIVE", Attribute, OP_MAKE },
{ ".SHELL", ExShell, 0 },
{ ".SILENT", Silent, OP_SILENT },
{ ".SINGLESHELL", SingleShell, 0 },
{ ".SUFFIXES", Suffixes, 0 },
{ ".USE", Attribute, OP_USE },
{ ".WAIT", Wait, 0 },
};
static int ParseFindKeyword __P((char *));
static int ParseLinkSrc __P((void *, void *));
static int ParseDoOp __P((void *, void *));
static int ParseAddDep __P((void *, void *));
static void ParseDoSrc __P((int, char *, Lst));
static int ParseFindMain __P((void *, void *));
static int ParseAddDir __P((void *, void *));
static int ParseClearPath __P((void *, void *));
static void ParseDoDependency __P((char *));
static int ParseAddCmd __P((void *, void *));
static int ParseReadc __P((void));
static void ParseUnreadc __P((int));
static void ParseHasCommands __P((void *));
static void ParseDoInclude __P((char *));
static void ParseDoError __P((char *));
#ifdef SYSVINCLUDE
static void ParseTraditionalInclude __P((char *));
#endif
static int ParseEOF __P((int));
static char *ParseReadLine __P((void));
static char *ParseSkipLine __P((int));
static void ParseFinishLine __P((void));
/*-
*----------------------------------------------------------------------
* ParseFindKeyword --
* Look in the table of keywords for one matching the given string.
*
* Results:
* The index of the keyword, or -1 if it isn't there.
*
* Side Effects:
* None
*----------------------------------------------------------------------
*/
static int
ParseFindKeyword (str)
char *str; /* String to find */
{
register int start,
end,
cur;
register int diff;
start = 0;
end = (sizeof(parseKeywords)/sizeof(parseKeywords[0])) - 1;
do {
cur = start + ((end - start) / 2);
diff = strcmp (str, parseKeywords[cur].name);
if (diff == 0) {
return (cur);
} else if (diff < 0) {
end = cur - 1;
} else {
start = cur + 1;
}
} while (start <= end);
return (-1);
}
/*-
* Parse_Error --
* Error message abort function for parsing. Prints out the context
* of the error (line number and file) as well as the message with
* two optional arguments.
*
* Results:
* None
*
* Side Effects:
* "fatals" is incremented if the level is PARSE_FATAL.
*/
/* VARARGS */
void
#ifdef __STDC__
Parse_Error(int type, char *fmt, ...)
#else
Parse_Error(va_alist)
va_dcl
#endif
{
va_list ap;
#ifdef __STDC__
va_start(ap, fmt);
#else
int type; /* Error type (PARSE_WARNING, PARSE_FATAL) */
char *fmt;
va_start(ap);
type = va_arg(ap, int);
fmt = va_arg(ap, char *);
#endif
(void)fprintf(stderr, "\"%s\", line %d: ", fname, lineno);
if (type == PARSE_WARNING)
(void)fprintf(stderr, "warning: ");
(void)vfprintf(stderr, fmt, ap);
va_end(ap);
(void)fprintf(stderr, "\n");
(void)fflush(stderr);
if (type == PARSE_FATAL)
fatals += 1;
}
/*-
*---------------------------------------------------------------------
* ParseLinkSrc --
* Link the parent node to its new child. Used in a Lst_ForEach by
* ParseDoDependency. If the specType isn't 'Not', the parent
* isn't linked as a parent of the child.
*
* Results:
* Always = 0
*
* Side Effects:
* New elements are added to the parents list of cgn and the
* children list of cgn. the unmade field of pgn is updated
* to reflect the additional child.
*---------------------------------------------------------------------
*/
static int
ParseLinkSrc (pgnp, cgnp)
void * pgnp; /* The parent node */
void * cgnp; /* The child node */
{
GNode *pgn = (GNode *) pgnp;
GNode *cgn = (GNode *) cgnp;
if (Lst_Member (pgn->children, (void *)cgn) == NULL) {
(void)Lst_AtEnd (pgn->children, (void *)cgn);
if (specType == Not) {
(void)Lst_AtEnd (cgn->parents, (void *)pgn);
}
pgn->unmade += 1;
}
return (0);
}
/*-
*---------------------------------------------------------------------
* ParseDoOp --
* Apply the parsed operator to the given target node. Used in a
* Lst_ForEach call by ParseDoDependency once all targets have
* been found and their operator parsed. If the previous and new
* operators are incompatible, a major error is taken.
*
* Results:
* Always 0
*
* Side Effects:
* The type field of the node is altered to reflect any new bits in
* the op.
*---------------------------------------------------------------------
*/
static int
ParseDoOp (gnp, opp)
void * gnp; /* The node to which the operator is to be
* applied */
void * opp; /* The operator to apply */
{
GNode *gn = (GNode *) gnp;
int op = *(int *) opp;
/*
* If the dependency mask of the operator and the node don't match and
* the node has actually had an operator applied to it before, and
* the operator actually has some dependency information in it, complain.
*/
if (((op & OP_OPMASK) != (gn->type & OP_OPMASK)) &&
!OP_NOP(gn->type) && !OP_NOP(op))
{
Parse_Error (PARSE_FATAL, "Inconsistent operator for %s", gn->name);
return (1);
}
if ((op == OP_DOUBLEDEP) && ((gn->type & OP_OPMASK) == OP_DOUBLEDEP)) {
/*
* If the node was the object of a :: operator, we need to create a
* new instance of it for the children and commands on this dependency
* line. The new instance is placed on the 'cohorts' list of the
* initial one (note the initial one is not on its own cohorts list)
* and the new instance is linked to all parents of the initial
* instance.
*/
register GNode *cohort;
LstNode ln;
cohort = Targ_NewGN(gn->name);
/*
* Duplicate links to parents so graph traversal is simple. Perhaps
* some type bits should be duplicated?
*
* Make the cohort invisible as well to avoid duplicating it into
* other variables. True, parents of this target won't tend to do
* anything with their local variables, but better safe than
* sorry.
*/
Lst_ForEach(gn->parents, ParseLinkSrc, (void *)cohort);
cohort->type = OP_DOUBLEDEP|OP_INVISIBLE;
(void)Lst_AtEnd(gn->cohorts, (void *)cohort);
/*
* Replace the node in the targets list with the new copy
*/
ln = Lst_Member(targets, (void *)gn);
Lst_Replace(ln, (void *)cohort);
gn = cohort;
}
/*
* We don't want to nuke any previous flags (whatever they were) so we
* just OR the new operator into the old
*/
gn->type |= op;
return (0);
}
/*-
*---------------------------------------------------------------------
* ParseAddDep --
* Check if the pair of GNodes given needs to be synchronized.
* This has to be when two nodes are on different sides of a
* .WAIT directive.
*
* Results:
* Returns 1 if the two targets need to be ordered, 0 otherwise.
* If it returns 1, the search can stop
*
* Side Effects:
* A dependency can be added between the two nodes.
*
*---------------------------------------------------------------------
*/
static int
ParseAddDep(pp, sp)
void * pp;
void * sp;
{
GNode *p = (GNode *) pp;
GNode *s = (GNode *) sp;
if (p->order < s->order) {
/*
* XXX: This can cause loops, and loops can cause unmade targets,
* but checking is tedious, and the debugging output can show the
* problem
*/
(void)Lst_AtEnd(p->successors, (void *)s);
(void)Lst_AtEnd(s->preds, (void *)p);
return 0;
}
else
return 1;
}
/*-
*---------------------------------------------------------------------
* ParseDoSrc --
* Given the name of a source, figure out if it is an attribute
* and apply it to the targets if it is. Else decide if there is
* some attribute which should be applied *to* the source because
* of some special target and apply it if so. Otherwise, make the
* source be a child of the targets in the list 'targets'
*
* Results:
* None
*
* Side Effects:
* Operator bits may be added to the list of targets or to the source.
* The targets may have a new source added to their lists of children.
*---------------------------------------------------------------------
*/
static void
ParseDoSrc (tOp, src, allsrc)
int tOp; /* operator (if any) from special targets */
char *src; /* name of the source to handle */
Lst allsrc; /* List of all sources to wait for */
{
GNode *gn = NULL;
if (*src == '.' && isupper (src[1])) {
int keywd = ParseFindKeyword(src);
if (keywd != -1) {
int op = parseKeywords[keywd].op;
if (op != 0) {
Lst_ForEach (targets, ParseDoOp, (void *)&op);
return;
}
if (parseKeywords[keywd].spec == Wait) {
waiting++;
return;
}
}
}
switch (specType) {
case Main:
/*
* If we have noted the existence of a .MAIN, it means we need
* to add the sources of said target to the list of things
* to create. The string 'src' is likely to be free, so we
* must make a new copy of it. Note that this will only be
* invoked if the user didn't specify a target on the command
* line. This is to allow #ifmake's to succeed, or something...
*/
(void) Lst_AtEnd (create, (void *)estrdup(src));
/*
* Add the name to the .TARGETS variable as well, so the user cna
* employ that, if desired.
*/
Var_Append(".TARGETS", src, VAR_GLOBAL);
return;
case Order:
/*
* Create proper predecessor/successor links between the previous
* source and the current one.
*/
gn = Targ_FindNode(src, TARG_CREATE);
if (predecessor != NULL) {
(void)Lst_AtEnd(predecessor->successors, (void *)gn);
(void)Lst_AtEnd(gn->preds, (void *)predecessor);
}
/*
* The current source now becomes the predecessor for the next one.
*/
predecessor = gn;
break;
default:
/*
* If the source is not an attribute, we need to find/create
* a node for it. After that we can apply any operator to it
* from a special target or link it to its parents, as
* appropriate.
*
* In the case of a source that was the object of a :: operator,
* the attribute is applied to all of its instances (as kept in
* the 'cohorts' list of the node) or all the cohorts are linked
* to all the targets.
*/
gn = Targ_FindNode (src, TARG_CREATE);
if (tOp) {
gn->type |= tOp;
} else {
Lst_ForEach (targets, ParseLinkSrc, (void *)gn);
}
if ((gn->type & OP_OPMASK) == OP_DOUBLEDEP) {
register GNode *cohort;
register LstNode ln;
for (ln=Lst_First(gn->cohorts); ln != NULL; ln = Lst_Succ(ln)){
cohort = (GNode *)Lst_Datum(ln);
if (tOp) {
cohort->type |= tOp;
} else {
Lst_ForEach(targets, ParseLinkSrc, (void *)cohort);
}
}
}
break;
}
gn->order = waiting;
(void)Lst_AtEnd(allsrc, (void *)gn);
if (waiting) {
Lst_ForEach(allsrc, ParseAddDep, (void *)gn);
}
}
/*-
*-----------------------------------------------------------------------
* ParseFindMain --
* Find a real target in the list and set it to be the main one.
* Called by ParseDoDependency when a main target hasn't been found
* yet.
*
* Results:
* 0 if main not found yet, 1 if it is.
*
* Side Effects:
* mainNode is changed and Targ_SetMain is called.
*
*-----------------------------------------------------------------------
*/
static int
ParseFindMain(gnp, dummy)
void * gnp; /* Node to examine */
void * dummy;
{
GNode *gn = (GNode *) gnp;
if ((gn->type & (OP_NOTMAIN|OP_USE|OP_EXEC|OP_TRANSFORM)) == 0) {
mainNode = gn;
Targ_SetMain(gn);
return (dummy ? 1 : 1);
} else {
return (dummy ? 0 : 0);
}
}
/*-
*-----------------------------------------------------------------------
* ParseAddDir --
* Front-end for Dir_AddDir to make sure Lst_ForEach keeps going
*
* Results:
* === 0
*
* Side Effects:
* See Dir_AddDir.
*
*-----------------------------------------------------------------------
*/
static int
ParseAddDir(path, name)
void * path;
void * name;
{
Dir_AddDir((Lst) path, (char *) name);
return(0);
}
/*-
*-----------------------------------------------------------------------
* ParseClearPath --
* Front-end for Dir_ClearPath to make sure Lst_ForEach keeps going
*
* Results:
* === 0
*
* Side Effects:
* See Dir_ClearPath
*
*-----------------------------------------------------------------------
*/
static int
ParseClearPath(path, dummy)
void * path;
void * dummy;
{
Dir_ClearPath((Lst) path);
return(dummy ? 0 : 0);
}
/*-
*---------------------------------------------------------------------
* ParseDoDependency --
* Parse the dependency line in line.
*
* Results:
* None
*
* Side Effects:
* The nodes of the sources are linked as children to the nodes of the
* targets. Some nodes may be created.
*
* We parse a dependency line by first extracting words from the line and
* finding nodes in the list of all targets with that name. This is done
* until a character is encountered which is an operator character. Currently
* these are only ! and :. At this point the operator is parsed and the
* pointer into the line advanced until the first source is encountered.
* The parsed operator is applied to each node in the 'targets' list,
* which is where the nodes found for the targets are kept, by means of
* the ParseDoOp function.
* The sources are read in much the same way as the targets were except
* that now they are expanded using the wildcarding scheme of the C-Shell
* and all instances of the resulting words in the list of all targets
* are found. Each of the resulting nodes is then linked to each of the
* targets as one of its children.
* Certain targets are handled specially. These are the ones detailed
* by the specType variable.
* The storing of transformation rules is also taken care of here.
* A target is recognized as a transformation rule by calling
* Suff_IsTransform. If it is a transformation rule, its node is gotten
* from the suffix module via Suff_AddTransform rather than the standard
* Targ_FindNode in the target module.
*---------------------------------------------------------------------
*/
static void
ParseDoDependency (line)
char *line; /* the line to parse */
{
char *cp; /* our current position */
GNode *gn; /* a general purpose temporary node */
int op; /* the operator on the line */
char savec; /* a place to save a character */
Lst paths; /* List of search paths to alter when parsing
* a list of .PATH targets */
int tOp; /* operator from special target */
Lst sources; /* list of archive source names after
* expansion */
Lst curTargs; /* list of target names to be found and added
* to the targets list */
Lst curSrcs; /* list of sources in order */
tOp = 0;
specType = Not;
waiting = 0;
paths = (Lst)NULL;
curTargs = Lst_Init(FALSE);
curSrcs = Lst_Init(FALSE);
do {
for (cp = line;
*cp && !isspace (*cp) &&
(*cp != '!') && (*cp != ':') && (*cp != '(');
cp++)
{
if (*cp == '$') {
/*
* Must be a dynamic source (would have been expanded
* otherwise), so call the Var module to parse the puppy
* so we can safely advance beyond it...There should be
* no errors in this, as they would have been discovered
* in the initial Var_Subst and we wouldn't be here.
*/
int length;
Boolean freeIt;
char *result;
result=Var_Parse(cp, VAR_CMD, TRUE, &length, &freeIt);
if (freeIt) {
free(result);
}
cp += length-1;
}
continue;
}
if (*cp == '(') {
/*
* Archives must be handled specially to make sure the OP_ARCHV
* flag is set in their 'type' field, for one thing, and because
* things like "archive(file1.o file2.o file3.o)" are permissible.
* Arch_ParseArchive will set 'line' to be the first non-blank
* after the archive-spec. It creates/finds nodes for the members
* and places them on the given list, returning SUCCESS if all
* went well and FAILURE if there was an error in the
* specification. On error, line should remain untouched.
*/
if (Arch_ParseArchive (&line, targets, VAR_CMD) != SUCCESS) {
Parse_Error (PARSE_FATAL,
"Error in archive specification: \"%s\"", line);
return;
} else {
continue;
}
}
savec = *cp;
if (!*cp) {
/*
* Ending a dependency line without an operator is a Bozo
* no-no
*/
Parse_Error (PARSE_FATAL, "Need an operator");
return;
}
*cp = '\0';
/*
* Have a word in line. See if it's a special target and set
* specType to match it.
*/
if (*line == '.' && isupper (line[1])) {
/*
* See if the target is a special target that must have it
* or its sources handled specially.
*/
int keywd = ParseFindKeyword(line);
if (keywd != -1) {
if (specType == ExPath && parseKeywords[keywd].spec != ExPath) {
Parse_Error(PARSE_FATAL, "Mismatched special targets");
return;
}
specType = parseKeywords[keywd].spec;
tOp = parseKeywords[keywd].op;
/*
* Certain special targets have special semantics:
* .PATH Have to set the dirSearchPath
* variable too
* .MAIN Its sources are only used if
* nothing has been specified to
* create.
* .DEFAULT Need to create a node to hang
* commands on, but we don't want
* it in the graph, nor do we want
* it to be the Main Target, so we
* create it, set OP_NOTMAIN and
* add it to the list, setting
* DEFAULT to the new node for
* later use. We claim the node is
* A transformation rule to make
* life easier later, when we'll
* use Make_HandleUse to actually
* apply the .DEFAULT commands.
* .PHONY The list of targets
* .BEGIN
* .END
* .INTERRUPT Are not to be considered the
* main target.
* .NOTPARALLEL Make only one target at a time.
* .SINGLESHELL Create a shell for each command.
* .ORDER Must set initial predecessor to NULL
*/
switch (specType) {
case ExPath:
if (paths == NULL) {
paths = Lst_Init(FALSE);
}
(void)Lst_AtEnd(paths, (void *)dirSearchPath);
break;
case Main:
if (!Lst_IsEmpty(create)) {
specType = Not;
}
break;
case Begin:
case End:
case Interrupt:
gn = Targ_FindNode(line, TARG_CREATE);
gn->type |= OP_NOTMAIN;
(void)Lst_AtEnd(targets, (void *)gn);
break;
case Default:
gn = Targ_NewGN(".DEFAULT");
gn->type |= (OP_NOTMAIN|OP_TRANSFORM);
(void)Lst_AtEnd(targets, (void *)gn);
DEFAULT = gn;
break;
case NotParallel:
{
extern int maxJobs;
maxJobs = 1;
break;
}
case SingleShell:
compatMake = 1;
break;
case Order:
predecessor = NULL;
break;
default:
break;
}
} else if (strncmp (line, ".PATH", 5) == 0) {
/*
* .PATH<suffix> has to be handled specially.
* Call on the suffix module to give us a path to
* modify.
*/
Lst path;
specType = ExPath;
path = Suff_GetPath (&line[5]);
if (path == NULL) {
Parse_Error (PARSE_FATAL,
"Suffix '%s' not defined (yet)",
&line[5]);
return;
} else {
if (paths == (Lst)NULL) {
paths = Lst_Init(FALSE);
}
(void)Lst_AtEnd(paths, (void *)path);
}
}
}
/*
* Have word in line. Get or create its node and stick it at
* the end of the targets list
*/
if ((specType == Not) && (*line != '\0')) {
if (Dir_HasWildcards(line)) {
/*
* Targets are to be sought only in the current directory,
* so create an empty path for the thing. Note we need to
* use Dir_Destroy in the destruction of the path as the
* Dir module could have added a directory to the path...
*/
Lst emptyPath = Lst_Init(FALSE);
Dir_Expand(line, emptyPath, curTargs);
Lst_Destroy(emptyPath, Dir_Destroy);
} else {
/*
* No wildcards, but we want to avoid code duplication,
* so create a list with the word on it.
*/
(void)Lst_AtEnd(curTargs, (void *)line);
}
while(!Lst_IsEmpty(curTargs)) {
char *targName = (char *)Lst_DeQueue(curTargs);
if (!Suff_IsTransform (targName)) {
gn = Targ_FindNode (targName, TARG_CREATE);
} else {
gn = Suff_AddTransform (targName);
}
(void)Lst_AtEnd (targets, (void *)gn);
}
} else if (specType == ExPath && *line != '.' && *line != '\0') {
Parse_Error(PARSE_WARNING, "Extra target (%s) ignored", line);
}
*cp = savec;
/*
* If it is a special type and not .PATH, it's the only target we
* allow on this line...
*/
if (specType != Not && specType != ExPath) {
Boolean warn = FALSE;
while ((*cp != '!') && (*cp != ':') && *cp) {
if (*cp != ' ' && *cp != '\t') {
warn = TRUE;
}
cp++;
}
if (warn) {
Parse_Error(PARSE_WARNING, "Extra target ignored");
}
} else {
while (*cp && isspace (*cp)) {
cp++;
}
}
line = cp;
} while ((*line != '!') && (*line != ':') && *line);
/*
* Don't need the list of target names anymore...
*/
Lst_Destroy(curTargs, NOFREE);
if (!Lst_IsEmpty(targets)) {
switch(specType) {
default:
Parse_Error(PARSE_WARNING, "Special and mundane targets don't mix. Mundane ones ignored");
break;
case Default:
case Begin:
case End:
case Interrupt:
/*
* These four create nodes on which to hang commands, so
* targets shouldn't be empty...
*/
case Not:
/*
* Nothing special here -- targets can be empty if it wants.
*/
break;
}
}
/*
* Have now parsed all the target names. Must parse the operator next. The
* result is left in op .
*/
if (*cp == '!') {
op = OP_FORCE;
} else if (*cp == ':') {
if (cp[1] == ':') {
op = OP_DOUBLEDEP;
cp++;
} else {
op = OP_DEPENDS;
}
} else {
Parse_Error (PARSE_FATAL, "Missing dependency operator");
return;
}
cp++; /* Advance beyond operator */
Lst_ForEach (targets, ParseDoOp, (void *)&op);
/*
* Get to the first source
*/
while (*cp && isspace (*cp)) {
cp++;
}
line = cp;
/*
* Several special targets take different actions if present with no
* sources:
* a .SUFFIXES line with no sources clears out all old suffixes
* a .PRECIOUS line makes all targets precious
* a .IGNORE line ignores errors for all targets
* a .SILENT line creates silence when making all targets
* a .PATH removes all directories from the search path(s).
*/
if (!*line) {
switch (specType) {
case Suffixes:
Suff_ClearSuffixes ();
break;
case Precious:
allPrecious = TRUE;
break;
case Ignore:
ignoreErrors = TRUE;
break;
case Silent:
beSilent = TRUE;
break;
case ExPath:
Lst_ForEach(paths, ParseClearPath, (void *)NULL);
break;
#ifdef POSIX
case Posix:
Var_Set("%POSIX", "1003.2", VAR_GLOBAL);
break;
#endif
default:
break;
}
} else if (specType == MFlags) {
/*
* Call on functions in main.c to deal with these arguments and
* set the initial character to a null-character so the loop to
* get sources won't get anything
*/
Main_ParseArgLine (line);
*line = '\0';
} else if (specType == ExShell) {
if (Job_ParseShell (line) != SUCCESS) {
Parse_Error (PARSE_FATAL, "improper shell specification");
return;
}
*line = '\0';
} else if ((specType == NotParallel) || (specType == SingleShell)) {
*line = '\0';
}
/*
* NOW GO FOR THE SOURCES
*/
if ((specType == Suffixes) || (specType == ExPath) ||
(specType == Includes) || (specType == Libs) ||
(specType == Null))
{
while (*line) {
/*
* If the target was one that doesn't take files as its sources
* but takes something like suffixes, we take each
* space-separated word on the line as a something and deal
* with it accordingly.
*
* If the target was .SUFFIXES, we take each source as a
* suffix and add it to the list of suffixes maintained by the
* Suff module.
*
* If the target was a .PATH, we add the source as a directory
* to search on the search path.
*
* If it was .INCLUDES, the source is taken to be the suffix of
* files which will be #included and whose search path should
* be present in the .INCLUDES variable.
*
* If it was .LIBS, the source is taken to be the suffix of
* files which are considered libraries and whose search path
* should be present in the .LIBS variable.
*
* If it was .NULL, the source is the suffix to use when a file
* has no valid suffix.
*/
char savec;
while (*cp && !isspace (*cp)) {
cp++;
}
savec = *cp;
*cp = '\0';
switch (specType) {
case Suffixes:
Suff_AddSuffix (line);
break;
case ExPath:
Lst_ForEach(paths, ParseAddDir, (void *)line);
break;
case Includes:
Suff_AddInclude (line);
break;
case Libs:
Suff_AddLib (line);
break;
case Null:
Suff_SetNull (line);
break;
default:
break;
}
*cp = savec;
if (savec != '\0') {
cp++;
}
while (*cp && isspace (*cp)) {
cp++;
}
line = cp;
}
if (paths) {
Lst_Destroy(paths, NOFREE);
}
} else {
while (*line) {
/*
* The targets take real sources, so we must beware of archive
* specifications (i.e. things with left parentheses in them)
* and handle them accordingly.
*/
while (*cp && !isspace (*cp)) {
if ((*cp == '(') && (cp > line) && (cp[-1] != '$')) {
/*
* Only stop for a left parenthesis if it isn't at the
* start of a word (that'll be for variable changes
* later) and isn't preceded by a dollar sign (a dynamic
* source).
*/
break;
} else {
cp++;
}
}
if (*cp == '(') {
GNode *gn;
sources = Lst_Init (FALSE);
if (Arch_ParseArchive (&line, sources, VAR_CMD) != SUCCESS) {
Parse_Error (PARSE_FATAL,
"Error in source archive spec \"%s\"", line);
return;
}
while (!Lst_IsEmpty (sources)) {
gn = (GNode *) Lst_DeQueue (sources);
ParseDoSrc (tOp, gn->name, curSrcs);
}
Lst_Destroy (sources, NOFREE);
cp = line;
} else {
if (*cp) {
*cp = '\0';
cp += 1;
}
ParseDoSrc (tOp, line, curSrcs);
}
while (*cp && isspace (*cp)) {
cp++;
}
line = cp;
}
}
if (mainNode == NULL) {
/*
* If we have yet to decide on a main target to make, in the
* absence of any user input, we want the first target on
* the first dependency line that is actually a real target
* (i.e. isn't a .USE or .EXEC rule) to be made.
*/
Lst_ForEach (targets, ParseFindMain, (void *)0);
}
/*
* Finally, destroy the list of sources
*/
Lst_Destroy(curSrcs, NOFREE);
}
/*-
*---------------------------------------------------------------------
* Parse_IsVar --
* Return TRUE if the passed line is a variable assignment. A variable
* assignment consists of a single word followed by optional whitespace
* followed by either a += or an = operator.
* This function is used both by the Parse_File function and main when
* parsing the command-line arguments.
*
* Results:
* TRUE if it is. FALSE if it ain't
*
* Side Effects:
* none
*---------------------------------------------------------------------
*/
Boolean
Parse_IsVar (line)
register char *line; /* the line to check */
{
register Boolean wasSpace = FALSE; /* set TRUE if found a space */
register Boolean haveName = FALSE; /* Set TRUE if have a variable name */
int level = 0;
#define ISEQOPERATOR(c) \
(((c) == '+') || ((c) == ':') || ((c) == '?') || ((c) == '!'))
/*
* Skip to variable name
*/
for (;(*line == ' ') || (*line == '\t'); line++)
continue;
for (; *line != '=' || level != 0; line++)
switch (*line) {
case '\0':
/*
* end-of-line -- can't be a variable assignment.
*/
return FALSE;
case ' ':
case '\t':
/*
* there can be as much white space as desired so long as there is
* only one word before the operator
*/
wasSpace = TRUE;
break;
case '(':
case '{':
level++;
break;
case '}':
case ')':
level--;
break;
default:
if (wasSpace && haveName) {
if (ISEQOPERATOR(*line)) {
/*
* We must have a finished word
*/
if (level != 0)
return FALSE;
/*
* When an = operator [+?!:] is found, the next
* character must be an = or it ain't a valid
* assignment.
*/
if (line[1] == '=')
return haveName;
#ifdef SUNSHCMD
/*
* This is a shell command
*/
if (strncmp(line, ":sh", 3) == 0)
return haveName;
#endif
}
/*
* This is the start of another word, so not assignment.
*/
return FALSE;
}
else {
haveName = TRUE;
wasSpace = FALSE;
}
break;
}
return haveName;
}
/*-
*---------------------------------------------------------------------
* Parse_DoVar --
* Take the variable assignment in the passed line and do it in the
* global context.
*
* Note: There is a lexical ambiguity with assignment modifier characters
* in variable names. This routine interprets the character before the =
* as a modifier. Therefore, an assignment like
* C++=/usr/bin/CC
* is interpreted as "C+ +=" instead of "C++ =".
*
* Results:
* none
*
* Side Effects:
* the variable structure of the given variable name is altered in the
* global context.
*---------------------------------------------------------------------
*/
void
Parse_DoVar (line, ctxt)
char *line; /* a line guaranteed to be a variable
* assignment. This reduces error checks */
GNode *ctxt; /* Context in which to do the assignment */
{
char *cp; /* pointer into line */
enum {
VAR_SUBST, VAR_APPEND, VAR_SHELL, VAR_NORMAL
} type; /* Type of assignment */
char *opc; /* ptr to operator character to
* null-terminate the variable name */
/*
* Avoid clobbered variable warnings by forcing the compiler
* to ``unregister'' variables
*/
#if __GNUC__
(void) &cp;
(void) &line;
#endif
/*
* Skip to variable name
*/
while ((*line == ' ') || (*line == '\t')) {
line++;
}
/*
* Skip to operator character, nulling out whitespace as we go
*/
for (cp = line + 1; *cp != '='; cp++) {
if (isspace (*cp)) {
*cp = '\0';
}
}
opc = cp-1; /* operator is the previous character */
*cp++ = '\0'; /* nuke the = */
/*
* Check operator type
*/
switch (*opc) {
case '+':
type = VAR_APPEND;
*opc = '\0';
break;
case '?':
/*
* If the variable already has a value, we don't do anything.
*/
*opc = '\0';
if (Var_Exists(line, ctxt)) {
return;
} else {
type = VAR_NORMAL;
}
break;
case ':':
type = VAR_SUBST;
*opc = '\0';
break;
case '!':
type = VAR_SHELL;
*opc = '\0';
break;
default:
#ifdef SUNSHCMD
while (*opc != ':')
if (opc == line)
break;
else
--opc;
if (strncmp(opc, ":sh", 3) == 0) {
type = VAR_SHELL;
*opc = '\0';
break;
}
#endif
type = VAR_NORMAL;
break;
}
while (isspace (*cp)) {
cp++;
}
if (type == VAR_APPEND) {
Var_Append (line, cp, ctxt);
} else if (type == VAR_SUBST) {
/*
* Allow variables in the old value to be undefined, but leave their
* invocation alone -- this is done by forcing oldVars to be false.
* XXX: This can cause recursive variables, but that's not hard to do,
* and this allows someone to do something like
*
* CFLAGS = $(.INCLUDES)
* CFLAGS := -I.. $(CFLAGS)
*
* And not get an error.
*/
Boolean oldOldVars = oldVars;
oldVars = FALSE;
cp = Var_Subst(NULL, cp, ctxt, FALSE);
oldVars = oldOldVars;
Var_Set(line, cp, ctxt);
free(cp);
} else if (type == VAR_SHELL) {
Boolean freeCmd = FALSE; /* TRUE if the command needs to be freed, i.e.
* if any variable expansion was performed */
char *res, *err;
if (strchr(cp, '$') != NULL) {
/*
* There's a dollar sign in the command, so perform variable
* expansion on the whole thing. The resulting string will need
* freeing when we're done, so set freeCmd to TRUE.
*/
cp = Var_Subst(NULL, cp, VAR_CMD, TRUE);
freeCmd = TRUE;
}
res = Cmd_Exec(cp, &err);
Var_Set(line, res, ctxt);
free(res);
if (err)
Parse_Error(PARSE_WARNING, err, cp);
if (freeCmd)
free(cp);
} else {
/*
* Normal assignment -- just do it.
*/
Var_Set(line, cp, ctxt);
}
}
/*-
* ParseAddCmd --
* Lst_ForEach function to add a command line to all targets
*
* Results:
* Always 0
*
* Side Effects:
* A new element is added to the commands list of the node.
*/
static int
ParseAddCmd(gnp, cmd)
void * gnp; /* the node to which the command is to be added */
void * cmd; /* the command to add */
{
GNode *gn = (GNode *) gnp;
/* if target already supplied, ignore commands */
if (!(gn->type & OP_HAS_COMMANDS))
(void)Lst_AtEnd(gn->commands, cmd);
return(0);
}
/*-
*-----------------------------------------------------------------------
* ParseHasCommands --
* Callback procedure for Parse_File when destroying the list of
* targets on the last dependency line. Marks a target as already
* having commands if it does, to keep from having shell commands
* on multiple dependency lines.
*
* Results:
* None
*
* Side Effects:
* OP_HAS_COMMANDS may be set for the target.
*
*-----------------------------------------------------------------------
*/
static void
ParseHasCommands(gnp)
void * gnp; /* Node to examine */
{
GNode *gn = (GNode *) gnp;
if (!Lst_IsEmpty(gn->commands)) {
gn->type |= OP_HAS_COMMANDS;
}
}
/*-
*-----------------------------------------------------------------------
* Parse_AddIncludeDir --
* Add a directory to the path searched for included makefiles
* bracketed by double-quotes. Used by functions in main.c
*
* Results:
* None.
*
* Side Effects:
* The directory is appended to the list.
*
*-----------------------------------------------------------------------
*/
void
Parse_AddIncludeDir (dir)
char *dir; /* The name of the directory to add */
{
Dir_AddDir (parseIncPath, dir);
}
/*---------------------------------------------------------------------
* ParseDoError --
* Handle error directive
*
* The input is the line minus the ".error". We substitute variables,
* print the message and exit(1) or just print a warning if the ".error"
* directive is malformed.
*
*---------------------------------------------------------------------
*/
static void
ParseDoError(errmsg)
char *errmsg; /* error message */
{
if (!isspace(*errmsg)) {
Parse_Error(PARSE_WARNING, "invalid syntax: .error%s", errmsg);
return;
}
while (isspace(*errmsg))
errmsg++;
errmsg = Var_Subst(NULL, errmsg, VAR_GLOBAL, FALSE);
/* use fprintf/exit instead of Parse_Error to terminate immediately */
fprintf(stderr, "\"%s\", line %d: %s\n", fname, lineno, errmsg);
exit(1);
}
/*-
*---------------------------------------------------------------------
* ParseDoInclude --
* Push to another file.
*
* The input is the line minus the #include. A file spec is a string
* enclosed in <> or "". The former is looked for only in sysIncPath.
* The latter in . and the directories specified by -I command line
* options
*
* Results:
* None
*
* Side Effects:
* A structure is added to the includes Lst and readProc, lineno,
* fname and curFILE are altered for the new file
*---------------------------------------------------------------------
*/
static void
ParseDoInclude (file)
char *file; /* file specification */
{
char *fullname; /* full pathname of file */
IFile *oldFile; /* state associated with current file */
char endc; /* the character which ends the file spec */
char *cp; /* current position in file spec */
Boolean isSystem; /* TRUE if makefile is a system makefile */
/*
* Skip to delimiter character so we know where to look
*/
while ((*file == ' ') || (*file == '\t')) {
file++;
}
if ((*file != '"') && (*file != '<')) {
Parse_Error (PARSE_FATAL,
".include filename must be delimited by '\"' or '<'");
return;
}
/*
* Set the search path on which to find the include file based on the
* characters which bracket its name. Angle-brackets imply it's
* a system Makefile while double-quotes imply it's a user makefile
*/
if (*file == '<') {
isSystem = TRUE;
endc = '>';
} else {
isSystem = FALSE;
endc = '"';
}
/*
* Skip to matching delimiter
*/
for (cp = ++file; *cp && *cp != endc; cp++) {
continue;
}
if (*cp != endc) {
Parse_Error (PARSE_FATAL,
"Unclosed %cinclude filename. '%c' expected",
'.', endc);
return;
}
*cp = '\0';
/*
* Substitute for any variables in the file name before trying to
* find the thing.
*/
file = Var_Subst (NULL, file, VAR_CMD, FALSE);
/*
* Now we know the file's name and its search path, we attempt to
* find the durn thing. A return of NULL indicates the file don't
* exist.
*/
if (!isSystem) {
/*
* Include files contained in double-quotes are first searched for
* relative to the including file's location. We don't want to
* cd there, of course, so we just tack on the old file's
* leading path components and call Dir_FindFile to see if
* we can locate the beast.
*/
char *prefEnd, *Fname;
/* Make a temporary copy of this, to be safe. */
Fname = estrdup(fname);
prefEnd = strrchr (Fname, '/');
if (prefEnd != (char *)NULL) {
char *newName;
*prefEnd = '\0';
if (file[0] == '/')
newName = estrdup(file);
else
newName = str_concat (Fname, file, STR_ADDSLASH);
fullname = Dir_FindFile (newName, parseIncPath);
if (fullname == (char *)NULL) {
fullname = Dir_FindFile(newName, dirSearchPath);
}
free (newName);
*prefEnd = '/';
} else {
fullname = (char *)NULL;
}
free (Fname);
} else {
fullname = (char *)NULL;
}
if (fullname == (char *)NULL) {
/*
* System makefile or makefile wasn't found in same directory as
* included makefile. Search for it first on the -I search path,
* then on the .PATH search path, if not found in a -I directory.
* XXX: Suffix specific?
*/
fullname = Dir_FindFile (file, parseIncPath);
if (fullname == (char *)NULL) {
fullname = Dir_FindFile(file, dirSearchPath);
}
}
if (fullname == (char *)NULL) {
/*
* Still haven't found the makefile. Look for it on the system
* path as a last resort.
*/
fullname = Dir_FindFile(file, sysIncPath);
}
if (fullname == (char *) NULL) {
*cp = endc;
Parse_Error (PARSE_FATAL, "Could not find %s", file);
return;
}
free(file);
/*
* Once we find the absolute path to the file, we get to save all the
* state from the current file before we can start reading this
* include file. The state is stored in an IFile structure which
* is placed on a list with other IFile structures. The list makes
* a very nice stack to track how we got here...
*/
oldFile = (IFile *) emalloc (sizeof (IFile));
oldFile->fname = fname;
oldFile->F = curFILE;
oldFile->p = curPTR;
oldFile->lineno = lineno;
(void) Lst_AtFront (includes, (void *)oldFile);
/*
* Once the previous state has been saved, we can get down to reading
* the new file. We set up the name of the file to be the absolute
* name of the include file so error messages refer to the right
* place. Naturally enough, we start reading at line number 0.
*/
fname = fullname;
lineno = 0;
curFILE = fopen (fullname, "r");
curPTR = NULL;
if (curFILE == (FILE * ) NULL) {
Parse_Error (PARSE_FATAL, "Cannot open %s", fullname);
/*
* Pop to previous file
*/
(void) ParseEOF(0);
}
}
/*-
*---------------------------------------------------------------------
* Parse_FromString --
* Start Parsing from the given string
*
* Results:
* None
*
* Side Effects:
* A structure is added to the includes Lst and readProc, lineno,
* fname and curFILE are altered for the new file
*---------------------------------------------------------------------
*/
void
Parse_FromString(str)
char *str;
{
IFile *oldFile; /* state associated with this file */
if (DEBUG(FOR))
(void) fprintf(stderr, "%s\n----\n", str);
oldFile = (IFile *) emalloc (sizeof (IFile));
oldFile->lineno = lineno;
oldFile->fname = fname;
oldFile->F = curFILE;
oldFile->p = curPTR;
(void) Lst_AtFront (includes, (void *)oldFile);
curFILE = NULL;
curPTR = (PTR *) emalloc (sizeof (PTR));
curPTR->str = curPTR->ptr = str;
lineno = 0;
fname = estrdup(fname);
}
#ifdef SYSVINCLUDE
/*-
*---------------------------------------------------------------------
* ParseTraditionalInclude --
* Push to another file.
*
* The input is the line minus the "include". The file name is
* the string following the "include".
*
* Results:
* None
*
* Side Effects:
* A structure is added to the includes Lst and readProc, lineno,
* fname and curFILE are altered for the new file
*---------------------------------------------------------------------
*/
static void
ParseTraditionalInclude (file)
char *file; /* file specification */
{
char *fullname; /* full pathname of file */
IFile *oldFile; /* state associated with current file */
char *cp; /* current position in file spec */
char *prefEnd;
/*
* Skip over whitespace
*/
while ((*file == ' ') || (*file == '\t')) {
file++;
}
if (*file == '\0') {
Parse_Error (PARSE_FATAL,
"Filename missing from \"include\"");
return;
}
/*
* Skip to end of line or next whitespace
*/
for (cp = file; *cp && *cp != '\n' && *cp != '\t' && *cp != ' '; cp++) {
continue;
}
*cp = '\0';
/*
* Substitute for any variables in the file name before trying to
* find the thing.
*/
file = Var_Subst (NULL, file, VAR_CMD, FALSE);
/*
* Now we know the file's name, we attempt to find the durn thing.
* A return of NULL indicates the file don't exist.
*
* Include files are first searched for relative to the including
* file's location. We don't want to cd there, of course, so we
* just tack on the old file's leading path components and call
* Dir_FindFile to see if we can locate the beast.
* XXX - this *does* search in the current directory, right?
*/
prefEnd = strrchr (fname, '/');
if (prefEnd != (char *)NULL) {
char *newName;
*prefEnd = '\0';
newName = str_concat (fname, file, STR_ADDSLASH);
fullname = Dir_FindFile (newName, parseIncPath);
if (fullname == (char *)NULL) {
fullname = Dir_FindFile(newName, dirSearchPath);
}
free (newName);
*prefEnd = '/';
} else {
fullname = (char *)NULL;
}
if (fullname == (char *)NULL) {
/*
* System makefile or makefile wasn't found in same directory as
* included makefile. Search for it first on the -I search path,
* then on the .PATH search path, if not found in a -I directory.
* XXX: Suffix specific?
*/
fullname = Dir_FindFile (file, parseIncPath);
if (fullname == (char *)NULL) {
fullname = Dir_FindFile(file, dirSearchPath);
}
}
if (fullname == (char *)NULL) {
/*
* Still haven't found the makefile. Look for it on the system
* path as a last resort.
*/
fullname = Dir_FindFile(file, sysIncPath);
}
if (fullname == (char *) NULL) {
Parse_Error (PARSE_FATAL, "Could not find %s", file);
return;
}
/*
* Once we find the absolute path to the file, we get to save all the
* state from the current file before we can start reading this
* include file. The state is stored in an IFile structure which
* is placed on a list with other IFile structures. The list makes
* a very nice stack to track how we got here...
*/
oldFile = (IFile *) emalloc (sizeof (IFile));
oldFile->fname = fname;
oldFile->F = curFILE;
oldFile->p = curPTR;
oldFile->lineno = lineno;
(void) Lst_AtFront (includes, (void *)oldFile);
/*
* Once the previous state has been saved, we can get down to reading
* the new file. We set up the name of the file to be the absolute
* name of the include file so error messages refer to the right
* place. Naturally enough, we start reading at line number 0.
*/
fname = fullname;
lineno = 0;
curFILE = fopen (fullname, "r");
curPTR = NULL;
if (curFILE == (FILE * ) NULL) {
Parse_Error (PARSE_FATAL, "Cannot open %s", fullname);
/*
* Pop to previous file
*/
(void) ParseEOF(1);
}
}
#endif
/*-
*---------------------------------------------------------------------
* ParseEOF --
* Called when EOF is reached in the current file. If we were reading
* an include file, the includes stack is popped and things set up
* to go back to reading the previous file at the previous location.
*
* Results:
* CONTINUE if there's more to do. DONE if not.
*
* Side Effects:
* The old curFILE, is closed. The includes list is shortened.
* lineno, curFILE, and fname are changed if CONTINUE is returned.
*---------------------------------------------------------------------
*/
static int
ParseEOF (opened)
int opened;
{
IFile *ifile; /* the state on the top of the includes stack */
if (Lst_IsEmpty (includes)) {
return (DONE);
}
ifile = (IFile *) Lst_DeQueue (includes);
free (fname);
fname = ifile->fname;
lineno = ifile->lineno;
if (opened && curFILE)
(void) fclose (curFILE);
if (curPTR) {
free(curPTR->str);
free(curPTR);
}
curFILE = ifile->F;
curPTR = ifile->p;
free (ifile);
return (CONTINUE);
}
/*-
*---------------------------------------------------------------------
* ParseReadc --
* Read a character from the current file
*
* Results:
* The character that was read
*
* Side Effects:
*---------------------------------------------------------------------
*/
static int
ParseReadc()
{
if (curFILE)
return fgetc(curFILE);
if (curPTR && *curPTR->ptr)
return *curPTR->ptr++;
return EOF;
}
/*-
*---------------------------------------------------------------------
* ParseUnreadc --
* Put back a character to the current file
*
* Results:
* None.
*
* Side Effects:
*---------------------------------------------------------------------
*/
static void
ParseUnreadc(c)
int c;
{
if (curFILE) {
ungetc(c, curFILE);
return;
}
if (curPTR) {
*--(curPTR->ptr) = c;
return;
}
}
/* ParseSkipLine():
* Grab the next line
*/
static char *
ParseSkipLine(skip)
int skip; /* Skip lines that don't start with . */
{
char *line;
int c, lastc, lineLength = 0;
Buffer buf;
buf = Buf_Init(MAKE_BSIZE);
do {
Buf_Discard(buf, lineLength);
lastc = '\0';
while (((c = ParseReadc()) != '\n' || lastc == '\\')
&& c != EOF) {
if (c == '#' && lastc != '\\') {
while ((c = ParseReadc()) != '\n' && c != EOF);
break;
} else {
if (c == '\n') {
Buf_ReplaceLastByte(buf, (Byte)' ');
lineno++;
while ((c = ParseReadc()) == ' ' || c == '\t');
if (c == EOF)
break;
}
Buf_AddByte(buf, (Byte)c);
lastc = c;
}
}
if (c == EOF) {
Parse_Error(PARSE_FATAL, "Unclosed conditional/for loop");
Buf_Destroy(buf, TRUE);
return((char *)NULL);
}
lineno++;
Buf_AddByte(buf, (Byte)'\0');
line = (char *)Buf_GetAll(buf, &lineLength);
} while (skip == 1 && line[0] != '.');
Buf_Destroy(buf, FALSE);
return line;
}
/*-
*---------------------------------------------------------------------
* ParseReadLine --
* Read an entire line from the input file. Called only by Parse_File.
* To facilitate escaped newlines and what have you, a character is
* buffered in 'lastc', which is '\0' when no characters have been
* read. When we break out of the loop, c holds the terminating
* character and lastc holds a character that should be added to
* the line (unless we don't read anything but a terminator).
*
* Results:
* A line w/o its newline
*
* Side Effects:
* Only those associated with reading a character
*---------------------------------------------------------------------
*/
static char *
ParseReadLine ()
{
Buffer buf; /* Buffer for current line */
register int c; /* the current character */
register int lastc; /* The most-recent character */
Boolean semiNL; /* treat semi-colons as newlines */
Boolean ignDepOp; /* TRUE if should ignore dependency operators
* for the purposes of setting semiNL */
Boolean ignComment; /* TRUE if should ignore comments (in a
* shell command */
char *line; /* Result */
char *ep; /* to strip trailing blanks */
int lineLength; /* Length of result */
semiNL = FALSE;
ignDepOp = FALSE;
ignComment = FALSE;
/*
* Handle special-characters at the beginning of the line. Either a
* leading tab (shell command) or pound-sign (possible conditional)
* forces us to ignore comments and dependency operators and treat
* semi-colons as semi-colons (by leaving semiNL FALSE). This also
* discards completely blank lines.
*/
for (;;) {
c = ParseReadc();
if (c == '\t') {
ignComment = ignDepOp = TRUE;
break;
} else if (c == '\n') {
lineno++;
} else if (c == '#') {
ParseUnreadc(c);
break;
} else {
/*
* Anything else breaks out without doing anything
*/
break;
}
}
if (c != EOF) {
lastc = c;
buf = Buf_Init(MAKE_BSIZE);
while (((c = ParseReadc ()) != '\n' || (lastc == '\\')) &&
(c != EOF))
{
test_char:
switch(c) {
case '\n':
/*
* Escaped newline: read characters until a non-space or an
* unescaped newline and replace them all by a single space.
* This is done by storing the space over the backslash and
* dropping through with the next nonspace. If it is a
* semi-colon and semiNL is TRUE, it will be recognized as a
* newline in the code below this...
*/
lineno++;
lastc = ' ';
while ((c = ParseReadc ()) == ' ' || c == '\t') {
continue;
}
if (c == EOF || c == '\n') {
goto line_read;
} else {
/*
* Check for comments, semiNL's, etc. -- easier than
* ParseUnreadc(c); continue;
*/
goto test_char;
}
/*NOTREACHED*/
break;
case ';':
/*
* Semi-colon: Need to see if it should be interpreted as a
* newline
*/
if (semiNL) {
/*
* To make sure the command that may be following this
* semi-colon begins with a tab, we push one back into the
* input stream. This will overwrite the semi-colon in the
* buffer. If there is no command following, this does no
* harm, since the newline remains in the buffer and the
* whole line is ignored.
*/
ParseUnreadc('\t');
goto line_read;
}
break;
case '=':
if (!semiNL) {
/*
* Haven't seen a dependency operator before this, so this
* must be a variable assignment -- don't pay attention to
* dependency operators after this.
*/
ignDepOp = TRUE;
} else if (lastc == ':' || lastc == '!') {
/*
* Well, we've seen a dependency operator already, but it
* was the previous character, so this is really just an
* expanded variable assignment. Revert semi-colons to
* being just semi-colons again and ignore any more
* dependency operators.
*
* XXX: Note that a line like "foo : a:=b" will blow up,
* but who'd write a line like that anyway?
*/
ignDepOp = TRUE; semiNL = FALSE;
}
break;
case '#':
if (!ignComment) {
if (
#if 0
compatMake &&
#endif
(lastc != '\\')) {
/*
* If the character is a hash mark and it isn't escaped
* (or we're being compatible), the thing is a comment.
* Skip to the end of the line.
*/
do {
c = ParseReadc();
} while ((c != '\n') && (c != EOF));
goto line_read;
} else {
/*
* Don't add the backslash. Just let the # get copied
* over.
*/
lastc = c;
continue;
}
}
break;
case ':':
case '!':
if (!ignDepOp && (c == ':' || c == '!')) {
/*
* A semi-colon is recognized as a newline only on
* dependency lines. Dependency lines are lines with a
* colon or an exclamation point. Ergo...
*/
semiNL = TRUE;
}
break;
}
/*
* Copy in the previous character and save this one in lastc.
*/
Buf_AddByte (buf, (Byte)lastc);
lastc = c;
}
line_read:
lineno++;
if (lastc != '\0') {
Buf_AddByte (buf, (Byte)lastc);
}
Buf_AddByte (buf, (Byte)'\0');
line = (char *)Buf_GetAll (buf, &lineLength);
Buf_Destroy (buf, FALSE);
/*
* Strip trailing blanks and tabs from the line.
* Do not strip a blank or tab that is preceded by
* a '\'
*/
ep = line;
while (*ep)
++ep;
while (ep > line + 1 && (ep[-1] == ' ' || ep[-1] == '\t')) {
if (ep > line + 1 && ep[-2] == '\\')
break;
--ep;
}
*ep = 0;
if (line[0] == '.') {
/*
* The line might be a conditional. Ask the conditional module
* about it and act accordingly
*/
switch (Cond_Eval (line)) {
case COND_SKIP:
/*
* Skip to next conditional that evaluates to COND_PARSE.
*/
do {
free (line);
line = ParseSkipLine(1);
} while (line && Cond_Eval(line) != COND_PARSE);
if (line == NULL)
break;
/*FALLTHRU*/
case COND_PARSE:
free (line);
line = ParseReadLine();
break;
case COND_INVALID:
if (For_Eval(line)) {
int ok;
free(line);
do {
/*
* Skip after the matching end
*/
line = ParseSkipLine(0);
if (line == NULL) {
Parse_Error (PARSE_FATAL,
"Unexpected end of file in for loop.\n");
break;
}
ok = For_Eval(line);
free(line);
}
while (ok);
if (line != NULL)
For_Run();
line = ParseReadLine();
}
break;
}
}
return (line);
} else {
/*
* Hit end-of-file, so return a NULL line to indicate this.
*/
return((char *)NULL);
}
}
/*-
*-----------------------------------------------------------------------
* ParseFinishLine --
* Handle the end of a dependency group.
*
* Results:
* Nothing.
*
* Side Effects:
* inLine set FALSE. 'targets' list destroyed.
*
*-----------------------------------------------------------------------
*/
static void
ParseFinishLine()
{
if (inLine) {
Lst_ForEach(targets, Suff_EndTransform, (void *)NULL);
Lst_Destroy (targets, ParseHasCommands);
targets = NULL;
inLine = FALSE;
}
}
/*-
*---------------------------------------------------------------------
* Parse_File --
* Parse a file into its component parts, incorporating it into the
* current dependency graph. This is the main function and controls
* almost every other function in this module
*
* Results:
* None
*
* Side Effects:
* Loads. Nodes are added to the list of all targets, nodes and links
* are added to the dependency graph. etc. etc. etc.
*---------------------------------------------------------------------
*/
void
Parse_File(name, stream)
char *name; /* the name of the file being read */
FILE * stream; /* Stream open to makefile to parse */
{
register char *cp, /* pointer into the line */
*line; /* the line we're working on */
inLine = FALSE;
fname = name;
curFILE = stream;
lineno = 0;
fatals = 0;
do {
while ((line = ParseReadLine ()) != NULL) {
if (*line == '.') {
/*
* Lines that begin with the special character are either
* include or undef directives.
*/
for (cp = line + 1; isspace (*cp); cp++) {
continue;
}
if (strncmp (cp, "include", 7) == 0) {
ParseDoInclude (cp + 7);
goto nextLine;
} else if (strncmp (cp, "error", 5) == 0) {
ParseDoError(cp + 5);
goto nextLine;
} else if (strncmp(cp, "undef", 5) == 0) {
char *cp2;
for (cp += 5; isspace((unsigned char) *cp); cp++) {
continue;
}
for (cp2 = cp; !isspace((unsigned char) *cp2) &&
(*cp2 != '\0'); cp2++) {
continue;
}
*cp2 = '\0';
Var_Delete(cp, VAR_GLOBAL);
goto nextLine;
}
}
if (*line == '#') {
/* If we're this far, the line must be a comment. */
goto nextLine;
}
if (*line == '\t') {
/*
* If a line starts with a tab, it can only hope to be
* a creation command.
*/
#ifndef POSIX
shellCommand:
#endif
for (cp = line + 1; isspace (*cp); cp++) {
continue;
}
if (*cp) {
if (inLine) {
/*
* So long as it's not a blank line and we're actually
* in a dependency spec, add the command to the list of
* commands of all targets in the dependency spec
*/
Lst_ForEach (targets, ParseAddCmd, cp);
Lst_AtEnd(targCmds, (void *) line);
continue;
} else {
Parse_Error (PARSE_FATAL,
"Unassociated shell command \"%s\"",
cp);
}
}
#ifdef SYSVINCLUDE
} else if (strncmp (line, "include", 7) == 0 &&
isspace((unsigned char) line[7]) &&
strchr(line, ':') == NULL) {
/*
* It's an S3/S5-style "include".
*/
ParseTraditionalInclude (line + 7);
goto nextLine;
#endif
} else if (Parse_IsVar (line)) {
ParseFinishLine();
Parse_DoVar (line, VAR_GLOBAL);
} else {
/*
* We now know it's a dependency line so it needs to have all
* variables expanded before being parsed. Tell the variable
* module to complain if some variable is undefined...
* To make life easier on novices, if the line is indented we
* first make sure the line has a dependency operator in it.
* If it doesn't have an operator and we're in a dependency
* line's script, we assume it's actually a shell command
* and add it to the current list of targets.
*/
#ifndef POSIX
Boolean nonSpace = FALSE;
#endif
cp = line;
if (isspace((unsigned char) line[0])) {
while ((*cp != '\0') && isspace((unsigned char) *cp)) {
cp++;
}
if (*cp == '\0') {
goto nextLine;
}
#ifndef POSIX
while ((*cp != ':') && (*cp != '!') && (*cp != '\0')) {
nonSpace = TRUE;
cp++;
}
#endif
}
#ifndef POSIX
if (*cp == '\0') {
if (inLine) {
Parse_Error (PARSE_WARNING,
"Shell command needs a leading tab");
goto shellCommand;
} else if (nonSpace) {
Parse_Error (PARSE_FATAL, "Missing operator");
}
} else {
#endif
ParseFinishLine();
cp = Var_Subst (NULL, line, VAR_CMD, TRUE);
free (line);
line = cp;
/*
* Need a non-circular list for the target nodes
*/
if (targets)
Lst_Destroy(targets, NOFREE);
targets = Lst_Init (FALSE);
inLine = TRUE;
ParseDoDependency (line);
#ifndef POSIX
}
#endif
}
nextLine:
free (line);
}
/*
* Reached EOF, but it may be just EOF of an include file...
*/
} while (ParseEOF(1) == CONTINUE);
/*
* Make sure conditionals are clean
*/
Cond_End();
if (fatals)
errx(1, "fatal errors encountered -- cannot continue");
}
/*-
*---------------------------------------------------------------------
* Parse_Init --
* initialize the parsing module
*
* Results:
* none
*
* Side Effects:
* the parseIncPath list is initialized...
*---------------------------------------------------------------------
*/
void
Parse_Init ()
{
mainNode = NULL;
parseIncPath = Lst_Init (FALSE);
sysIncPath = Lst_Init (FALSE);
includes = Lst_Init (FALSE);
targCmds = Lst_Init (FALSE);
}
void
Parse_End()
{
Lst_Destroy(targCmds, (void (*) __P((void *))) free);
if (targets)
Lst_Destroy(targets, NOFREE);
Lst_Destroy(sysIncPath, Dir_Destroy);
Lst_Destroy(parseIncPath, Dir_Destroy);
Lst_Destroy(includes, NOFREE); /* Should be empty now */
}
/*-
*-----------------------------------------------------------------------
* Parse_MainName --
* Return a Lst of the main target to create for main()'s sake. If
* no such target exists, we Punt with an obnoxious error message.
*
* Results:
* A Lst of the single node to create.
*
* Side Effects:
* None.
*
*-----------------------------------------------------------------------
*/
Lst
Parse_MainName()
{
Lst listmain; /* result list */
listmain = Lst_Init (FALSE);
if (mainNode == NULL) {
Punt ("no target to make.");
/*NOTREACHED*/
} else if (mainNode->type & OP_DOUBLEDEP) {
(void) Lst_AtEnd (listmain, (void *)mainNode);
Lst_Concat(listmain, mainNode->cohorts, LST_CONCNEW);
}
else
(void) Lst_AtEnd (listmain, (void *)mainNode);
return (listmain);
}