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NetBSD/usr.bin/make/suff.c
dsl b5e3384b9c A rather large rototil in the way the parallel make code schedules jobs. 
This gives a considerable speedup in the processing of .WAIT and .ORDER.
Both .WAIT and .ORDER stop both the commands of the node, and its dependant
nodes being built until the LH nodes are complete.
.WAIT only applies to the dependency line on which it appears, whereas
.ORDER applies globally between the two nodes.
In both cases dependant nodes can be built because other targets need them.
make now processes the target list left to right, scheduling child nodes
as they are needed to make other nodes (instead of attempting to generate
a bottom-up dependency graph at the start).  This means that 'make -j1'
will tend to build in the same order as a non-parallel make.
Note that:
    all: x y
    x: a .WAIT b
    y: b .WAIT a
does not generate a dependency loop.
But
    x: y
    .ORDER y x
does (unless something elswhere causes 'y' to be built).
2006-11-17 22:07:39 +00:00

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/* $NetBSD: suff.c,v 1.61 2006/11/17 22:07:39 dsl Exp $ */
/*
* Copyright (c) 1988, 1989, 1990, 1993
* The Regents of the University of California. 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. 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.
*/
/*
* 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.
*/
#ifndef MAKE_NATIVE
static char rcsid[] = "$NetBSD: suff.c,v 1.61 2006/11/17 22:07:39 dsl Exp $";
#else
#include <sys/cdefs.h>
#ifndef lint
#if 0
static char sccsid[] = "@(#)suff.c 8.4 (Berkeley) 3/21/94";
#else
__RCSID("$NetBSD: suff.c,v 1.61 2006/11/17 22:07:39 dsl Exp $");
#endif
#endif /* not lint */
#endif
/*-
* suff.c --
* Functions to maintain suffix lists and find implicit dependents
* using suffix transformation rules
*
* Interface:
* Suff_Init Initialize all things to do with suffixes.
*
* Suff_End Cleanup the module
*
* Suff_DoPaths This function is used to make life easier
* when searching for a file according to its
* suffix. It takes the global search path,
* as defined using the .PATH: target, and appends
* its directories to the path of each of the
* defined suffixes, as specified using
* .PATH<suffix>: targets. In addition, all
* directories given for suffixes labeled as
* include files or libraries, using the .INCLUDES
* or .LIBS targets, are played with using
* Dir_MakeFlags to create the .INCLUDES and
* .LIBS global variables.
*
* Suff_ClearSuffixes Clear out all the suffixes and defined
* transformations.
*
* Suff_IsTransform Return TRUE if the passed string is the lhs
* of a transformation rule.
*
* Suff_AddSuffix Add the passed string as another known suffix.
*
* Suff_GetPath Return the search path for the given suffix.
*
* Suff_AddInclude Mark the given suffix as denoting an include
* file.
*
* Suff_AddLib Mark the given suffix as denoting a library.
*
* Suff_AddTransform Add another transformation to the suffix
* graph. Returns GNode suitable for framing, I
* mean, tacking commands, attributes, etc. on.
*
* Suff_SetNull Define the suffix to consider the suffix of
* any file that doesn't have a known one.
*
* Suff_FindDeps Find implicit sources for and the location of
* a target based on its suffix. Returns the
* bottom-most node added to the graph or NILGNODE
* if the target had no implicit sources.
*
* Suff_FindPath Return the appropriate path to search in
* order to find the node.
*/
#include <stdio.h>
#include "make.h"
#include "hash.h"
#include "dir.h"
static Lst sufflist; /* Lst of suffixes */
#ifdef CLEANUP
static Lst suffClean; /* Lst of suffixes to be cleaned */
#endif
static Lst srclist; /* Lst of sources */
static Lst transforms; /* Lst of transformation rules */
static int sNum = 0; /* Counter for assigning suffix numbers */
/*
* Structure describing an individual suffix.
*/
typedef struct _Suff {
char *name; /* The suffix itself */
int nameLen; /* Length of the suffix */
short flags; /* Type of suffix */
#define SUFF_INCLUDE 0x01 /* One which is #include'd */
#define SUFF_LIBRARY 0x02 /* One which contains a library */
#define SUFF_NULL 0x04 /* The empty suffix */
Lst searchPath; /* The path along which files of this suffix
* may be found */
int sNum; /* The suffix number */
int refCount; /* Reference count of list membership */
Lst parents; /* Suffixes we have a transformation to */
Lst children; /* Suffixes we have a transformation from */
Lst ref; /* List of lists this suffix is referenced */
} Suff;
/*
* for SuffSuffIsSuffix
*/
typedef struct {
char *ename; /* The end of the name */
int len; /* Length of the name */
} SuffixCmpData;
/*
* Structure used in the search for implied sources.
*/
typedef struct _Src {
char *file; /* The file to look for */
char *pref; /* Prefix from which file was formed */
Suff *suff; /* The suffix on the file */
struct _Src *parent; /* The Src for which this is a source */
GNode *node; /* The node describing the file */
int children; /* Count of existing children (so we don't free
* this thing too early or never nuke it) */
#ifdef DEBUG_SRC
Lst cp; /* Debug; children list */
#endif
} Src;
/*
* A structure for passing more than one argument to the Lst-library-invoked
* function...
*/
typedef struct {
Lst l;
Src *s;
} LstSrc;
typedef struct {
GNode **gn;
Suff *s;
Boolean r;
} GNodeSuff;
static Suff *suffNull; /* The NULL suffix for this run */
static Suff *emptySuff; /* The empty suffix required for POSIX
* single-suffix transformation rules */
static char *SuffStrIsPrefix(char *, char *);
static char *SuffSuffIsSuffix(Suff *, SuffixCmpData *);
static int SuffSuffIsSuffixP(ClientData, ClientData);
static int SuffSuffHasNameP(ClientData, ClientData);
static int SuffSuffIsPrefix(ClientData, ClientData);
static int SuffGNHasNameP(ClientData, ClientData);
static void SuffUnRef(ClientData, ClientData);
static void SuffFree(ClientData);
static void SuffInsert(Lst, Suff *);
static void SuffRemove(Lst, Suff *);
static Boolean SuffParseTransform(char *, Suff **, Suff **);
static int SuffRebuildGraph(ClientData, ClientData);
static int SuffScanTargets(ClientData, ClientData);
static int SuffAddSrc(ClientData, ClientData);
static int SuffRemoveSrc(Lst);
static void SuffAddLevel(Lst, Src *);
static Src *SuffFindThem(Lst, Lst);
static Src *SuffFindCmds(Src *, Lst);
static void SuffExpandChildren(LstNode, GNode *);
static void SuffExpandWildcards(LstNode, GNode *);
static Boolean SuffApplyTransform(GNode *, GNode *, Suff *, Suff *);
static void SuffFindDeps(GNode *, Lst);
static void SuffFindArchiveDeps(GNode *, Lst);
static void SuffFindNormalDeps(GNode *, Lst);
static int SuffPrintName(ClientData, ClientData);
static int SuffPrintSuff(ClientData, ClientData);
static int SuffPrintTrans(ClientData, ClientData);
/*************** Lst Predicates ****************/
/*-
*-----------------------------------------------------------------------
* SuffStrIsPrefix --
* See if pref is a prefix of str.
*
* Input:
* pref possible prefix
* str string to check
*
* Results:
* NULL if it ain't, pointer to character in str after prefix if so
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static char *
SuffStrIsPrefix(char *pref, char *str)
{
while (*str && *pref == *str) {
pref++;
str++;
}
return (*pref ? NULL : str);
}
/*-
*-----------------------------------------------------------------------
* SuffSuffIsSuffix --
* See if suff is a suffix of str. sd->ename should point to THE END
* of the string to check. (THE END == the null byte)
*
* Input:
* s possible suffix
* sd string to examine
*
* Results:
* NULL if it ain't, pointer to character in str before suffix if
* it is.
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static char *
SuffSuffIsSuffix(Suff *s, SuffixCmpData *sd)
{
char *p1; /* Pointer into suffix name */
char *p2; /* Pointer into string being examined */
if (sd->len < s->nameLen)
return NULL; /* this string is shorter than the suffix */
p1 = s->name + s->nameLen;
p2 = sd->ename;
while (p1 >= s->name && *p1 == *p2) {
p1--;
p2--;
}
return (p1 == s->name - 1 ? p2 : NULL);
}
/*-
*-----------------------------------------------------------------------
* SuffSuffIsSuffixP --
* Predicate form of SuffSuffIsSuffix. Passed as the callback function
* to Lst_Find.
*
* Results:
* 0 if the suffix is the one desired, non-zero if not.
*
* Side Effects:
* None.
*
*-----------------------------------------------------------------------
*/
static int
SuffSuffIsSuffixP(ClientData s, ClientData sd)
{
return(!SuffSuffIsSuffix((Suff *)s, (SuffixCmpData *)sd));
}
/*-
*-----------------------------------------------------------------------
* SuffSuffHasNameP --
* Callback procedure for finding a suffix based on its name. Used by
* Suff_GetPath.
*
* Input:
* s Suffix to check
* sd Desired name
*
* Results:
* 0 if the suffix is of the given name. non-zero otherwise.
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static int
SuffSuffHasNameP(ClientData s, ClientData sname)
{
return (strcmp((char *)sname, ((Suff *)s)->name));
}
/*-
*-----------------------------------------------------------------------
* SuffSuffIsPrefix --
* See if the suffix described by s is a prefix of the string. Care
* must be taken when using this to search for transformations and
* what-not, since there could well be two suffixes, one of which
* is a prefix of the other...
*
* Input:
* s suffix to compare
* str string to examine
*
* Results:
* 0 if s is a prefix of str. non-zero otherwise
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static int
SuffSuffIsPrefix(ClientData s, ClientData str)
{
return (SuffStrIsPrefix(((Suff *)s)->name, (char *)str) == NULL ? 1 : 0);
}
/*-
*-----------------------------------------------------------------------
* SuffGNHasNameP --
* See if the graph node has the desired name
*
* Input:
* gn current node we're looking at
* name name we're looking for
*
* Results:
* 0 if it does. non-zero if it doesn't
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static int
SuffGNHasNameP(ClientData gn, ClientData name)
{
return (strcmp((char *)name, ((GNode *)gn)->name));
}
/*********** Maintenance Functions ************/
static void
SuffUnRef(ClientData lp, ClientData sp)
{
Lst l = (Lst) lp;
LstNode ln = Lst_Member(l, sp);
if (ln != NILLNODE) {
Lst_Remove(l, ln);
((Suff *)sp)->refCount--;
}
}
/*-
*-----------------------------------------------------------------------
* SuffFree --
* Free up all memory associated with the given suffix structure.
*
* Results:
* none
*
* Side Effects:
* the suffix entry is detroyed
*-----------------------------------------------------------------------
*/
static void
SuffFree(ClientData sp)
{
Suff *s = (Suff *)sp;
if (s == suffNull)
suffNull = NULL;
if (s == emptySuff)
emptySuff = NULL;
#ifdef notdef
/* We don't delete suffixes in order, so we cannot use this */
if (s->refCount)
Punt("Internal error deleting suffix `%s' with refcount = %d", s->name,
s->refCount);
#endif
Lst_Destroy(s->ref, NOFREE);
Lst_Destroy(s->children, NOFREE);
Lst_Destroy(s->parents, NOFREE);
Lst_Destroy(s->searchPath, Dir_Destroy);
free(s->name);
free(s);
}
/*-
*-----------------------------------------------------------------------
* SuffRemove --
* Remove the suffix into the list
*
* Results:
* None
*
* Side Effects:
* The reference count for the suffix is decremented and the
* suffix is possibly freed
*-----------------------------------------------------------------------
*/
static void
SuffRemove(Lst l, Suff *s)
{
SuffUnRef(l, s);
if (s->refCount == 0) {
SuffUnRef(sufflist, s);
SuffFree(s);
}
}
/*-
*-----------------------------------------------------------------------
* SuffInsert --
* Insert the suffix into the list keeping the list ordered by suffix
* numbers.
*
* Input:
* l the list where in s should be inserted
* s the suffix to insert
*
* Results:
* None
*
* Side Effects:
* The reference count of the suffix is incremented
*-----------------------------------------------------------------------
*/
static void
SuffInsert(Lst l, Suff *s)
{
LstNode ln; /* current element in l we're examining */
Suff *s2 = NULL; /* the suffix descriptor in this element */
if (Lst_Open(l) == FAILURE) {
return;
}
while ((ln = Lst_Next(l)) != NILLNODE) {
s2 = (Suff *)Lst_Datum(ln);
if (s2->sNum >= s->sNum) {
break;
}
}
Lst_Close(l);
if (DEBUG(SUFF)) {
fprintf(debug_file, "inserting %s(%d)...", s->name, s->sNum);
}
if (ln == NILLNODE) {
if (DEBUG(SUFF)) {
fprintf(debug_file, "at end of list\n");
}
(void)Lst_AtEnd(l, s);
s->refCount++;
(void)Lst_AtEnd(s->ref, l);
} else if (s2->sNum != s->sNum) {
if (DEBUG(SUFF)) {
fprintf(debug_file, "before %s(%d)\n", s2->name, s2->sNum);
}
(void)Lst_InsertBefore(l, ln, s);
s->refCount++;
(void)Lst_AtEnd(s->ref, l);
} else if (DEBUG(SUFF)) {
fprintf(debug_file, "already there\n");
}
}
/*-
*-----------------------------------------------------------------------
* Suff_ClearSuffixes --
* This is gross. Nuke the list of suffixes but keep all transformation
* rules around. The transformation graph is destroyed in this process,
* but we leave the list of rules so when a new graph is formed the rules
* will remain.
* This function is called from the parse module when a
* .SUFFIXES:\n line is encountered.
*
* Results:
* none
*
* Side Effects:
* the sufflist and its graph nodes are destroyed
*-----------------------------------------------------------------------
*/
void
Suff_ClearSuffixes(void)
{
#ifdef CLEANUP
Lst_Concat(suffClean, sufflist, LST_CONCLINK);
#endif
sufflist = Lst_Init(FALSE);
sNum = 0;
suffNull = emptySuff;
}
/*-
*-----------------------------------------------------------------------
* SuffParseTransform --
* Parse a transformation string to find its two component suffixes.
*
* Input:
* str String being parsed
* srcPtr Place to store source of trans.
* targPtr Place to store target of trans.
*
* Results:
* TRUE if the string is a valid transformation and FALSE otherwise.
*
* Side Effects:
* The passed pointers are overwritten.
*
*-----------------------------------------------------------------------
*/
static Boolean
SuffParseTransform(char *str, Suff **srcPtr, Suff **targPtr)
{
LstNode srcLn; /* element in suffix list of trans source*/
Suff *src; /* Source of transformation */
LstNode targLn; /* element in suffix list of trans target*/
char *str2; /* Extra pointer (maybe target suffix) */
LstNode singleLn; /* element in suffix list of any suffix
* that exactly matches str */
Suff *single = NULL;/* Source of possible transformation to
* null suffix */
srcLn = NILLNODE;
singleLn = NILLNODE;
/*
* Loop looking first for a suffix that matches the start of the
* string and then for one that exactly matches the rest of it. If
* we can find two that meet these criteria, we've successfully
* parsed the string.
*/
for (;;) {
if (srcLn == NILLNODE) {
srcLn = Lst_Find(sufflist, str, SuffSuffIsPrefix);
} else {
srcLn = Lst_FindFrom(sufflist, Lst_Succ(srcLn), str,
SuffSuffIsPrefix);
}
if (srcLn == NILLNODE) {
/*
* Ran out of source suffixes -- no such rule
*/
if (singleLn != NILLNODE) {
/*
* Not so fast Mr. Smith! There was a suffix that encompassed
* the entire string, so we assume it was a transformation
* to the null suffix (thank you POSIX). We still prefer to
* find a double rule over a singleton, hence we leave this
* check until the end.
*
* XXX: Use emptySuff over suffNull?
*/
*srcPtr = single;
*targPtr = suffNull;
return(TRUE);
}
return (FALSE);
}
src = (Suff *)Lst_Datum(srcLn);
str2 = str + src->nameLen;
if (*str2 == '\0') {
single = src;
singleLn = srcLn;
} else {
targLn = Lst_Find(sufflist, str2, SuffSuffHasNameP);
if (targLn != NILLNODE) {
*srcPtr = src;
*targPtr = (Suff *)Lst_Datum(targLn);
return (TRUE);
}
}
}
}
/*-
*-----------------------------------------------------------------------
* Suff_IsTransform --
* Return TRUE if the given string is a transformation rule
*
*
* Input:
* str string to check
*
* Results:
* TRUE if the string is a concatenation of two known suffixes.
* FALSE otherwise
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
Boolean
Suff_IsTransform(char *str)
{
Suff *src, *targ;
return (SuffParseTransform(str, &src, &targ));
}
/*-
*-----------------------------------------------------------------------
* Suff_AddTransform --
* Add the transformation rule described by the line to the
* list of rules and place the transformation itself in the graph
*
* Input:
* line name of transformation to add
*
* Results:
* The node created for the transformation in the transforms list
*
* Side Effects:
* The node is placed on the end of the transforms Lst and links are
* made between the two suffixes mentioned in the target name
*-----------------------------------------------------------------------
*/
GNode *
Suff_AddTransform(char *line)
{
GNode *gn; /* GNode of transformation rule */
Suff *s, /* source suffix */
*t; /* target suffix */
LstNode ln; /* Node for existing transformation */
ln = Lst_Find(transforms, line, SuffGNHasNameP);
if (ln == NILLNODE) {
/*
* Make a new graph node for the transformation. It will be filled in
* by the Parse module.
*/
gn = Targ_NewGN(line);
(void)Lst_AtEnd(transforms, gn);
} else {
/*
* New specification for transformation rule. Just nuke the old list
* of commands so they can be filled in again... We don't actually
* free the commands themselves, because a given command can be
* attached to several different transformations.
*/
gn = (GNode *)Lst_Datum(ln);
Lst_Destroy(gn->commands, NOFREE);
Lst_Destroy(gn->children, NOFREE);
gn->commands = Lst_Init(FALSE);
gn->children = Lst_Init(FALSE);
}
gn->type = OP_TRANSFORM;
(void)SuffParseTransform(line, &s, &t);
/*
* link the two together in the proper relationship and order
*/
if (DEBUG(SUFF)) {
fprintf(debug_file, "defining transformation from `%s' to `%s'\n",
s->name, t->name);
}
SuffInsert(t->children, s);
SuffInsert(s->parents, t);
return (gn);
}
/*-
*-----------------------------------------------------------------------
* Suff_EndTransform --
* Handle the finish of a transformation definition, removing the
* transformation from the graph if it has neither commands nor
* sources. This is a callback procedure for the Parse module via
* Lst_ForEach
*
* Input:
* gnp Node for transformation
* dummy Node for transformation
*
* Results:
* === 0
*
* Side Effects:
* If the node has no commands or children, the children and parents
* lists of the affected suffixes are altered.
*
*-----------------------------------------------------------------------
*/
int
Suff_EndTransform(ClientData gnp, ClientData dummy)
{
GNode *gn = (GNode *)gnp;
if ((gn->type & OP_DOUBLEDEP) && !Lst_IsEmpty (gn->cohorts))
gn = (GNode *)Lst_Datum(Lst_Last(gn->cohorts));
if ((gn->type & OP_TRANSFORM) && Lst_IsEmpty(gn->commands) &&
Lst_IsEmpty(gn->children))
{
Suff *s, *t;
/*
* SuffParseTransform() may fail for special rules which are not
* actual transformation rules. (e.g. .DEFAULT)
*/
if (SuffParseTransform(gn->name, &s, &t)) {
Lst p;
if (DEBUG(SUFF)) {
fprintf(debug_file, "deleting transformation from `%s' to `%s'\n",
s->name, t->name);
}
/*
* Store s->parents because s could be deleted in SuffRemove
*/
p = s->parents;
/*
* Remove the source from the target's children list. We check for a
* nil return to handle a beanhead saying something like
* .c.o .c.o:
*
* We'll be called twice when the next target is seen, but .c and .o
* are only linked once...
*/
SuffRemove(t->children, s);
/*
* Remove the target from the source's parents list
*/
SuffRemove(p, t);
}
} else if ((gn->type & OP_TRANSFORM) && DEBUG(SUFF)) {
fprintf(debug_file, "transformation %s complete\n", gn->name);
}
return(dummy ? 0 : 0);
}
/*-
*-----------------------------------------------------------------------
* SuffRebuildGraph --
* Called from Suff_AddSuffix via Lst_ForEach to search through the
* list of existing transformation rules and rebuild the transformation
* graph when it has been destroyed by Suff_ClearSuffixes. If the
* given rule is a transformation involving this suffix and another,
* existing suffix, the proper relationship is established between
* the two.
*
* Input:
* transformp Transformation to test
* sp Suffix to rebuild
*
* Results:
* Always 0.
*
* Side Effects:
* The appropriate links will be made between this suffix and
* others if transformation rules exist for it.
*
*-----------------------------------------------------------------------
*/
static int
SuffRebuildGraph(ClientData transformp, ClientData sp)
{
GNode *transform = (GNode *)transformp;
Suff *s = (Suff *)sp;
char *cp;
LstNode ln;
Suff *s2;
SuffixCmpData sd;
/*
* First see if it is a transformation from this suffix.
*/
cp = SuffStrIsPrefix(s->name, transform->name);
if (cp != NULL) {
ln = Lst_Find(sufflist, cp, SuffSuffHasNameP);
if (ln != NILLNODE) {
/*
* Found target. Link in and return, since it can't be anything
* else.
*/
s2 = (Suff *)Lst_Datum(ln);
SuffInsert(s2->children, s);
SuffInsert(s->parents, s2);
return(0);
}
}
/*
* Not from, maybe to?
*/
sd.len = strlen(transform->name);
sd.ename = transform->name + sd.len;
cp = SuffSuffIsSuffix(s, &sd);
if (cp != NULL) {
/*
* Null-terminate the source suffix in order to find it.
*/
cp[1] = '\0';
ln = Lst_Find(sufflist, transform->name, SuffSuffHasNameP);
/*
* Replace the start of the target suffix
*/
cp[1] = s->name[0];
if (ln != NILLNODE) {
/*
* Found it -- establish the proper relationship
*/
s2 = (Suff *)Lst_Datum(ln);
SuffInsert(s->children, s2);
SuffInsert(s2->parents, s);
}
}
return(0);
}
/*-
*-----------------------------------------------------------------------
* SuffScanTargets --
* Called from Suff_AddSuffix via Lst_ForEach to search through the
* list of existing targets and find if any of the existing targets
* can be turned into a transformation rule.
*
* Results:
* 1 if a new main target has been selected, 0 otherwise.
*
* Side Effects:
* If such a target is found and the target is the current main
* target, the main target is set to NULL and the next target
* examined (if that exists) becomes the main target.
*
*-----------------------------------------------------------------------
*/
static int
SuffScanTargets(ClientData targetp, ClientData gsp)
{
GNode *target = (GNode *)targetp;
GNodeSuff *gs = (GNodeSuff *)gsp;
Suff *s, *t;
char *ptr;
if (*gs->gn == NILGNODE && gs->r && (target->type & OP_NOTARGET) == 0) {
*gs->gn = target;
Targ_SetMain(target);
return 1;
}
if ((unsigned int)target->type == OP_TRANSFORM)
return 0;
if ((ptr = strstr(target->name, gs->s->name)) == NULL ||
ptr == target->name)
return 0;
if (SuffParseTransform(target->name, &s, &t)) {
if (*gs->gn == target) {
gs->r = TRUE;
*gs->gn = NILGNODE;
Targ_SetMain(NILGNODE);
}
Lst_Destroy(target->children, NOFREE);
target->children = Lst_Init(FALSE);
target->type = OP_TRANSFORM;
/*
* link the two together in the proper relationship and order
*/
if (DEBUG(SUFF)) {
fprintf(debug_file, "defining transformation from `%s' to `%s'\n",
s->name, t->name);
}
SuffInsert(t->children, s);
SuffInsert(s->parents, t);
}
return 0;
}
/*-
*-----------------------------------------------------------------------
* Suff_AddSuffix --
* Add the suffix in string to the end of the list of known suffixes.
* Should we restructure the suffix graph? Make doesn't...
*
* Input:
* str the name of the suffix to add
*
* Results:
* None
*
* Side Effects:
* A GNode is created for the suffix and a Suff structure is created and
* added to the suffixes list unless the suffix was already known.
* The mainNode passed can be modified if a target mutated into a
* transform and that target happened to be the main target.
*-----------------------------------------------------------------------
*/
void
Suff_AddSuffix(char *str, GNode **gn)
{
Suff *s; /* new suffix descriptor */
LstNode ln;
GNodeSuff gs;
ln = Lst_Find(sufflist, str, SuffSuffHasNameP);
if (ln == NILLNODE) {
s = emalloc(sizeof(Suff));
s->name = estrdup(str);
s->nameLen = strlen(s->name);
s->searchPath = Lst_Init(FALSE);
s->children = Lst_Init(FALSE);
s->parents = Lst_Init(FALSE);
s->ref = Lst_Init(FALSE);
s->sNum = sNum++;
s->flags = 0;
s->refCount = 1;
(void)Lst_AtEnd(sufflist, s);
/*
* We also look at our existing targets list to see if adding
* this suffix will make one of our current targets mutate into
* a suffix rule. This is ugly, but other makes treat all targets
* that start with a . as suffix rules.
*/
gs.gn = gn;
gs.s = s;
gs.r = FALSE;
Lst_ForEach(Targ_List(), SuffScanTargets, &gs);
/*
* Look for any existing transformations from or to this suffix.
* XXX: Only do this after a Suff_ClearSuffixes?
*/
Lst_ForEach(transforms, SuffRebuildGraph, s);
}
}
/*-
*-----------------------------------------------------------------------
* Suff_GetPath --
* Return the search path for the given suffix, if it's defined.
*
* Results:
* The searchPath for the desired suffix or NILLST if the suffix isn't
* defined.
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
Lst
Suff_GetPath(char *sname)
{
LstNode ln;
Suff *s;
ln = Lst_Find(sufflist, sname, SuffSuffHasNameP);
if (ln == NILLNODE) {
return (NILLST);
} else {
s = (Suff *)Lst_Datum(ln);
return (s->searchPath);
}
}
/*-
*-----------------------------------------------------------------------
* Suff_DoPaths --
* Extend the search paths for all suffixes to include the default
* search path.
*
* Results:
* None.
*
* Side Effects:
* The searchPath field of all the suffixes is extended by the
* directories in dirSearchPath. If paths were specified for the
* ".h" suffix, the directories are stuffed into a global variable
* called ".INCLUDES" with each directory preceded by a -I. The same
* is done for the ".a" suffix, except the variable is called
* ".LIBS" and the flag is -L.
*-----------------------------------------------------------------------
*/
void
Suff_DoPaths(void)
{
Suff *s;
LstNode ln;
char *ptr;
Lst inIncludes; /* Cumulative .INCLUDES path */
Lst inLibs; /* Cumulative .LIBS path */
if (Lst_Open(sufflist) == FAILURE) {
return;
}
inIncludes = Lst_Init(FALSE);
inLibs = Lst_Init(FALSE);
while ((ln = Lst_Next(sufflist)) != NILLNODE) {
s = (Suff *)Lst_Datum(ln);
if (!Lst_IsEmpty (s->searchPath)) {
#ifdef INCLUDES
if (s->flags & SUFF_INCLUDE) {
Dir_Concat(inIncludes, s->searchPath);
}
#endif /* INCLUDES */
#ifdef LIBRARIES
if (s->flags & SUFF_LIBRARY) {
Dir_Concat(inLibs, s->searchPath);
}
#endif /* LIBRARIES */
Dir_Concat(s->searchPath, dirSearchPath);
} else {
Lst_Destroy(s->searchPath, Dir_Destroy);
s->searchPath = Lst_Duplicate(dirSearchPath, Dir_CopyDir);
}
}
Var_Set(".INCLUDES", ptr = Dir_MakeFlags("-I", inIncludes), VAR_GLOBAL, 0);
free(ptr);
Var_Set(".LIBS", ptr = Dir_MakeFlags("-L", inLibs), VAR_GLOBAL, 0);
free(ptr);
Lst_Destroy(inIncludes, Dir_Destroy);
Lst_Destroy(inLibs, Dir_Destroy);
Lst_Close(sufflist);
}
/*-
*-----------------------------------------------------------------------
* Suff_AddInclude --
* Add the given suffix as a type of file which gets included.
* Called from the parse module when a .INCLUDES line is parsed.
* The suffix must have already been defined.
*
* Input:
* sname Name of the suffix to mark
*
* Results:
* None.
*
* Side Effects:
* The SUFF_INCLUDE bit is set in the suffix's flags field
*
*-----------------------------------------------------------------------
*/
void
Suff_AddInclude(char *sname)
{
LstNode ln;
Suff *s;
ln = Lst_Find(sufflist, sname, SuffSuffHasNameP);
if (ln != NILLNODE) {
s = (Suff *)Lst_Datum(ln);
s->flags |= SUFF_INCLUDE;
}
}
/*-
*-----------------------------------------------------------------------
* Suff_AddLib --
* Add the given suffix as a type of file which is a library.
* Called from the parse module when parsing a .LIBS line. The
* suffix must have been defined via .SUFFIXES before this is
* called.
*
* Input:
* sname Name of the suffix to mark
*
* Results:
* None.
*
* Side Effects:
* The SUFF_LIBRARY bit is set in the suffix's flags field
*
*-----------------------------------------------------------------------
*/
void
Suff_AddLib(char *sname)
{
LstNode ln;
Suff *s;
ln = Lst_Find(sufflist, sname, SuffSuffHasNameP);
if (ln != NILLNODE) {
s = (Suff *)Lst_Datum(ln);
s->flags |= SUFF_LIBRARY;
}
}
/********** Implicit Source Search Functions *********/
/*-
*-----------------------------------------------------------------------
* SuffAddSrc --
* Add a suffix as a Src structure to the given list with its parent
* being the given Src structure. If the suffix is the null suffix,
* the prefix is used unaltered as the file name in the Src structure.
*
* Input:
* sp suffix for which to create a Src structure
* lsp list and parent for the new Src
*
* Results:
* always returns 0
*
* Side Effects:
* A Src structure is created and tacked onto the end of the list
*-----------------------------------------------------------------------
*/
static int
SuffAddSrc(ClientData sp, ClientData lsp)
{
Suff *s = (Suff *)sp;
LstSrc *ls = (LstSrc *)lsp;
Src *s2; /* new Src structure */
Src *targ; /* Target structure */
targ = ls->s;
if ((s->flags & SUFF_NULL) && (*s->name != '\0')) {
/*
* If the suffix has been marked as the NULL suffix, also create a Src
* structure for a file with no suffix attached. Two birds, and all
* that...
*/
s2 = emalloc(sizeof(Src));
s2->file = estrdup(targ->pref);
s2->pref = targ->pref;
s2->parent = targ;
s2->node = NILGNODE;
s2->suff = s;
s->refCount++;
s2->children = 0;
targ->children += 1;
(void)Lst_AtEnd(ls->l, s2);
#ifdef DEBUG_SRC
s2->cp = Lst_Init(FALSE);
Lst_AtEnd(targ->cp, s2);
fprintf(debug_file, "1 add %x %x to %x:", targ, s2, ls->l);
Lst_ForEach(ls->l, PrintAddr, NULL);
fprintf(debug_file, "\n");
#endif
}
s2 = emalloc(sizeof(Src));
s2->file = str_concat(targ->pref, s->name, 0);
s2->pref = targ->pref;
s2->parent = targ;
s2->node = NILGNODE;
s2->suff = s;
s->refCount++;
s2->children = 0;
targ->children += 1;
(void)Lst_AtEnd(ls->l, s2);
#ifdef DEBUG_SRC
s2->cp = Lst_Init(FALSE);
Lst_AtEnd(targ->cp, s2);
fprintf(debug_file, "2 add %x %x to %x:", targ, s2, ls->l);
Lst_ForEach(ls->l, PrintAddr, NULL);
fprintf(debug_file, "\n");
#endif
return(0);
}
/*-
*-----------------------------------------------------------------------
* SuffAddLevel --
* Add all the children of targ as Src structures to the given list
*
* Input:
* l list to which to add the new level
* targ Src structure to use as the parent
*
* Results:
* None
*
* Side Effects:
* Lots of structures are created and added to the list
*-----------------------------------------------------------------------
*/
static void
SuffAddLevel(Lst l, Src *targ)
{
LstSrc ls;
ls.s = targ;
ls.l = l;
Lst_ForEach(targ->suff->children, SuffAddSrc, &ls);
}
/*-
*----------------------------------------------------------------------
* SuffRemoveSrc --
* Free all src structures in list that don't have a reference count
*
* Results:
* Ture if an src was removed
*
* Side Effects:
* The memory is free'd.
*----------------------------------------------------------------------
*/
static int
SuffRemoveSrc(Lst l)
{
LstNode ln;
Src *s;
int t = 0;
if (Lst_Open(l) == FAILURE) {
return 0;
}
#ifdef DEBUG_SRC
fprintf(debug_file, "cleaning %lx: ", (unsigned long) l);
Lst_ForEach(l, PrintAddr, NULL);
fprintf(debug_file, "\n");
#endif
while ((ln = Lst_Next(l)) != NILLNODE) {
s = (Src *)Lst_Datum(ln);
if (s->children == 0) {
free(s->file);
if (!s->parent)
free(s->pref);
else {
#ifdef DEBUG_SRC
LstNode ln = Lst_Member(s->parent->cp, s);
if (ln != NILLNODE)
Lst_Remove(s->parent->cp, ln);
#endif
--s->parent->children;
}
#ifdef DEBUG_SRC
fprintf(debug_file, "free: [l=%x] p=%x %d\n", l, s, s->children);
Lst_Destroy(s->cp, NOFREE);
#endif
Lst_Remove(l, ln);
free(s);
t |= 1;
Lst_Close(l);
return TRUE;
}
#ifdef DEBUG_SRC
else {
fprintf(debug_file, "keep: [l=%x] p=%x %d: ", l, s, s->children);
Lst_ForEach(s->cp, PrintAddr, NULL);
fprintf(debug_file, "\n");
}
#endif
}
Lst_Close(l);
return t;
}
/*-
*-----------------------------------------------------------------------
* SuffFindThem --
* Find the first existing file/target in the list srcs
*
* Input:
* srcs list of Src structures to search through
*
* Results:
* The lowest structure in the chain of transformations
*
* Side Effects:
* None
*-----------------------------------------------------------------------
*/
static Src *
SuffFindThem(Lst srcs, Lst slst)
{
Src *s; /* current Src */
Src *rs; /* returned Src */
char *ptr;
rs = NULL;
while (!Lst_IsEmpty (srcs)) {
s = (Src *)Lst_DeQueue(srcs);
if (DEBUG(SUFF)) {
fprintf(debug_file, "\ttrying %s...", s->file);
}
/*
* A file is considered to exist if either a node exists in the
* graph for it or the file actually exists.
*/
if (Targ_FindNode(s->file, TARG_NOCREATE) != NILGNODE) {
#ifdef DEBUG_SRC
fprintf(debug_file, "remove %x from %x\n", s, srcs);
#endif
rs = s;
break;
}
if ((ptr = Dir_FindFile(s->file, s->suff->searchPath)) != NULL) {
rs = s;
#ifdef DEBUG_SRC
fprintf(debug_file, "remove %x from %x\n", s, srcs);
#endif
free(ptr);
break;
}
if (DEBUG(SUFF)) {
fprintf(debug_file, "not there\n");
}
SuffAddLevel(srcs, s);
Lst_AtEnd(slst, s);
}
if (DEBUG(SUFF) && rs) {
fprintf(debug_file, "got it\n");
}
return (rs);
}
/*-
*-----------------------------------------------------------------------
* SuffFindCmds --
* See if any of the children of the target in the Src structure is
* one from which the target can be transformed. If there is one,
* a Src structure is put together for it and returned.
*
* Input:
* targ Src structure to play with
*
* Results:
* The Src structure of the "winning" child, or NIL if no such beast.
*
* Side Effects:
* A Src structure may be allocated.
*
*-----------------------------------------------------------------------
*/
static Src *
SuffFindCmds(Src *targ, Lst slst)
{
LstNode ln; /* General-purpose list node */
GNode *t, /* Target GNode */
*s; /* Source GNode */
int prefLen;/* The length of the defined prefix */
Suff *suff; /* Suffix on matching beastie */
Src *ret; /* Return value */
char *cp;
t = targ->node;
(void)Lst_Open(t->children);
prefLen = strlen(targ->pref);
for (;;) {
ln = Lst_Next(t->children);
if (ln == NILLNODE) {
Lst_Close(t->children);
return NULL;
}
s = (GNode *)Lst_Datum(ln);
if (s->type & OP_OPTIONAL && Lst_IsEmpty(t->commands)) {
/*
* We haven't looked to see if .OPTIONAL files exist yet, so
* don't use one as the implicit source.
* This allows us to use .OPTIONAL in .depend files so make won't
* complain "don't know how to make xxx.h' when a dependant file
* has been moved/deleted.
*/
continue;
}
cp = strrchr(s->name, '/');
if (cp == NULL) {
cp = s->name;
} else {
cp++;
}
if (strncmp(cp, targ->pref, prefLen) != 0)
continue;
/*
* The node matches the prefix ok, see if it has a known
* suffix.
*/
ln = Lst_Find(sufflist, &cp[prefLen],
SuffSuffHasNameP);
if (ln == NILLNODE)
continue;
/*
* It even has a known suffix, see if there's a transformation
* defined between the node's suffix and the target's suffix.
*
* XXX: Handle multi-stage transformations here, too.
*/
suff = (Suff *)Lst_Datum(ln);
if (Lst_Member(suff->parents, targ->suff) != NILLNODE)
break;
}
/*
* Hot Damn! Create a new Src structure to describe
* this transformation (making sure to duplicate the
* source node's name so Suff_FindDeps can free it
* again (ick)), and return the new structure.
*/
ret = emalloc(sizeof(Src));
ret->file = estrdup(s->name);
ret->pref = targ->pref;
ret->suff = suff;
suff->refCount++;
ret->parent = targ;
ret->node = s;
ret->children = 0;
targ->children += 1;
#ifdef DEBUG_SRC
ret->cp = Lst_Init(FALSE);
fprintf(debug_file, "3 add %x %x\n", targ, ret);
Lst_AtEnd(targ->cp, ret);
#endif
Lst_AtEnd(slst, ret);
if (DEBUG(SUFF)) {
fprintf(debug_file, "\tusing existing source %s\n", s->name);
}
return (ret);
}
/*-
*-----------------------------------------------------------------------
* SuffExpandChildren --
* Expand the names of any children of a given node that contain
* variable invocations or file wildcards into actual targets.
*
* Input:
* cln Child to examine
* pgn Parent node being processed
*
* Results:
* === 0 (continue)
*
* Side Effects:
* The expanded node is removed from the parent's list of children,
* and the parent's unmade counter is decremented, but other nodes
* may be added.
*
*-----------------------------------------------------------------------
*/
static void
SuffExpandChildren(LstNode cln, GNode *pgn)
{
GNode *cgn = (GNode *)Lst_Datum(cln);
GNode *gn; /* New source 8) */
char *cp; /* Expanded value */
if (!Lst_IsEmpty(cgn->order_pred) || !Lst_IsEmpty(cgn->order_succ))
/* It is all too hard to process the result of .ORDER */
return;
if (cgn->type & OP_WAIT)
/* Ignore these (& OP_PHONY ?) */
return;
/*
* First do variable expansion -- this takes precedence over
* wildcard expansion. If the result contains wildcards, they'll be gotten
* to later since the resulting words are tacked on to the end of
* the children list.
*/
if (strchr(cgn->name, '$') == NULL) {
SuffExpandWildcards(cln, pgn);
return;
}
if (DEBUG(SUFF)) {
fprintf(debug_file, "Expanding \"%s\"...", cgn->name);
}
cp = Var_Subst(NULL, cgn->name, pgn, TRUE);
if (cp != NULL) {
Lst members = Lst_Init(FALSE);
if (cgn->type & OP_ARCHV) {
/*
* Node was an archive(member) target, so we want to call
* on the Arch module to find the nodes for us, expanding
* variables in the parent's context.
*/
char *sacrifice = cp;
(void)Arch_ParseArchive(&sacrifice, members, pgn);
} else {
/*
* Break the result into a vector of strings whose nodes
* we can find, then add those nodes to the members list.
* Unfortunately, we can't use brk_string b/c it
* doesn't understand about variable specifications with
* spaces in them...
*/
char *start;
char *initcp = cp; /* For freeing... */
for (start = cp; *start == ' ' || *start == '\t'; start++)
continue;
for (cp = start; *cp != '\0'; cp++) {
if (*cp == ' ' || *cp == '\t') {
/*
* White-space -- terminate element, find the node,
* add it, skip any further spaces.
*/
*cp++ = '\0';
gn = Targ_FindNode(start, TARG_CREATE);
(void)Lst_AtEnd(members, gn);
while (*cp == ' ' || *cp == '\t') {
cp++;
}
/*
* Adjust cp for increment at start of loop, but
* set start to first non-space.
*/
start = cp--;
} else if (*cp == '$') {
/*
* Start of a variable spec -- contact variable module
* to find the end so we can skip over it.
*/
char *junk;
int len;
void *freeIt;
junk = Var_Parse(cp, pgn, TRUE, &len, &freeIt);
if (junk != var_Error) {
cp += len - 1;
}
if (freeIt)
free(freeIt);
} else if (*cp == '\\' && *cp != '\0') {
/*
* Escaped something -- skip over it
*/
cp++;
}
}
if (cp != start) {
/*
* Stuff left over -- add it to the list too
*/
gn = Targ_FindNode(start, TARG_CREATE);
(void)Lst_AtEnd(members, gn);
}
/*
* Point cp back at the beginning again so the variable value
* can be freed.
*/
cp = initcp;
}
/*
* Add all elements of the members list to the parent node.
*/
while(!Lst_IsEmpty(members)) {
gn = (GNode *)Lst_DeQueue(members);
if (DEBUG(SUFF)) {
fprintf(debug_file, "%s...", gn->name);
}
/* Add gn to the parents child list before the original child */
(void)Lst_InsertBefore(pgn->children, cln, gn);
(void)Lst_AtEnd(gn->parents, pgn);
pgn->unmade++;
/* Expand wildcards on new node */
SuffExpandWildcards(Lst_Prev(cln), pgn);
}
Lst_Destroy(members, NOFREE);
/*
* Free the result
*/
free(cp);
}
if (DEBUG(SUFF)) {
fprintf(debug_file, "\n");
}
/*
* Now the source is expanded, remove it from the list of children to
* keep it from being processed.
*/
pgn->unmade--;
Lst_Remove(pgn->children, cln);
Lst_Remove(cgn->parents, Lst_Member(cgn->parents, pgn));
}
static void
SuffExpandWildcards(LstNode cln, GNode *pgn)
{
GNode *cgn = (GNode *)Lst_Datum(cln);
GNode *gn; /* New source 8) */
char *cp; /* Expanded value */
Lst explist; /* List of expansions */
if (!Dir_HasWildcards(cgn->name))
return;
/*
* Expand the word along the chosen path
*/
explist = Lst_Init(FALSE);
Dir_Expand(cgn->name, Suff_FindPath(cgn), explist);
while (!Lst_IsEmpty(explist)) {
/*
* Fetch next expansion off the list and find its GNode
*/
cp = (char *)Lst_DeQueue(explist);
if (DEBUG(SUFF)) {
fprintf(debug_file, "%s...", cp);
}
gn = Targ_FindNode(cp, TARG_CREATE);
/* Add gn to the parents child list before the original child */
(void)Lst_InsertBefore(pgn->children, cln, gn);
(void)Lst_AtEnd(gn->parents, pgn);
pgn->unmade++;
}
/*
* Nuke what's left of the list
*/
Lst_Destroy(explist, NOFREE);
if (DEBUG(SUFF)) {
fprintf(debug_file, "\n");
}
/*
* Now the source is expanded, remove it from the list of children to
* keep it from being processed.
*/
pgn->unmade--;
Lst_Remove(pgn->children, cln);
Lst_Remove(cgn->parents, Lst_Member(cgn->parents, pgn));
}
/*-
*-----------------------------------------------------------------------
* Suff_FindPath --
* Find a path along which to expand the node.
*
* If the word has a known suffix, use that path.
* If it has no known suffix, use the default system search path.
*
* Input:
* gn Node being examined
*
* Results:
* The appropriate path to search for the GNode.
*
* Side Effects:
* XXX: We could set the suffix here so that we don't have to scan
* again.
*
*-----------------------------------------------------------------------
*/
Lst
Suff_FindPath(GNode* gn)
{
Suff *suff = gn->suffix;
if (suff == NULL) {
SuffixCmpData sd; /* Search string data */
LstNode ln;
sd.len = strlen(gn->name);
sd.ename = gn->name + sd.len;
ln = Lst_Find(sufflist, &sd, SuffSuffIsSuffixP);
if (DEBUG(SUFF)) {
fprintf(debug_file, "Wildcard expanding \"%s\"...", gn->name);
}
if (ln != NILLNODE)
suff = (Suff *)Lst_Datum(ln);
/* XXX: Here we can save the suffix so we don't have to do this again */
}
if (suff != NULL) {
if (DEBUG(SUFF)) {
fprintf(debug_file, "suffix is \"%s\"...", suff->name);
}
return suff->searchPath;
} else {
/*
* Use default search path
*/
return dirSearchPath;
}
}
/*-
*-----------------------------------------------------------------------
* SuffApplyTransform --
* Apply a transformation rule, given the source and target nodes
* and suffixes.
*
* Input:
* tGn Target node
* sGn Source node
* t Target suffix
* s Source suffix
*
* Results:
* TRUE if successful, FALSE if not.
*
* Side Effects:
* The source and target are linked and the commands from the
* transformation are added to the target node's commands list.
* All attributes but OP_DEPMASK and OP_TRANSFORM are applied
* to the target. The target also inherits all the sources for
* the transformation rule.
*
*-----------------------------------------------------------------------
*/
static Boolean
SuffApplyTransform(GNode *tGn, GNode *sGn, Suff *t, Suff *s)
{
LstNode ln, nln; /* General node */
char *tname; /* Name of transformation rule */
GNode *gn; /* Node for same */
/*
* Form the proper links between the target and source.
*/
(void)Lst_AtEnd(tGn->children, sGn);
(void)Lst_AtEnd(sGn->parents, tGn);
tGn->unmade += 1;
/*
* Locate the transformation rule itself
*/
tname = str_concat(s->name, t->name, 0);
ln = Lst_Find(transforms, tname, SuffGNHasNameP);
free(tname);
if (ln == NILLNODE) {
/*
* Not really such a transformation rule (can happen when we're
* called to link an OP_MEMBER and OP_ARCHV node), so return
* FALSE.
*/
return(FALSE);
}
gn = (GNode *)Lst_Datum(ln);
if (DEBUG(SUFF)) {
fprintf(debug_file, "\tapplying %s -> %s to \"%s\"\n", s->name, t->name, tGn->name);
}
/*
* Record last child for expansion purposes
*/
ln = Lst_Last(tGn->children);
/*
* Pass the buck to Make_HandleUse to apply the rule
*/
(void)Make_HandleUse(gn, tGn);
/*
* Deal with wildcards and variables in any acquired sources
*/
for (ln = Lst_Succ(ln); ln != NILLNODE; ln = nln) {
nln = Lst_Succ(ln);
SuffExpandChildren(ln, tGn);
}
/*
* Keep track of another parent to which this beast is transformed so
* the .IMPSRC variable can be set correctly for the parent.
*/
(void)Lst_AtEnd(sGn->iParents, tGn);
return(TRUE);
}
/*-
*-----------------------------------------------------------------------
* SuffFindArchiveDeps --
* Locate dependencies for an OP_ARCHV node.
*
* Input:
* gn Node for which to locate dependencies
*
* Results:
* None
*
* Side Effects:
* Same as Suff_FindDeps
*
*-----------------------------------------------------------------------
*/
static void
SuffFindArchiveDeps(GNode *gn, Lst slst)
{
char *eoarch; /* End of archive portion */
char *eoname; /* End of member portion */
GNode *mem; /* Node for member */
static const char *copy[] = {
/* Variables to be copied from the member node */
TARGET, /* Must be first */
PREFIX, /* Must be second */
};
int i; /* Index into copy and vals */
Suff *ms; /* Suffix descriptor for member */
char *name; /* Start of member's name */
/*
* The node is an archive(member) pair. so we must find a
* suffix for both of them.
*/
eoarch = strchr(gn->name, '(');
eoname = strchr(eoarch, ')');
*eoname = '\0'; /* Nuke parentheses during suffix search */
*eoarch = '\0'; /* So a suffix can be found */
name = eoarch + 1;
/*
* To simplify things, call Suff_FindDeps recursively on the member now,
* so we can simply compare the member's .PREFIX and .TARGET variables
* to locate its suffix. This allows us to figure out the suffix to
* use for the archive without having to do a quadratic search over the
* suffix list, backtracking for each one...
*/
mem = Targ_FindNode(name, TARG_CREATE);
SuffFindDeps(mem, slst);
/*
* Create the link between the two nodes right off
*/
(void)Lst_AtEnd(gn->children, mem);
(void)Lst_AtEnd(mem->parents, gn);
gn->unmade += 1;
/*
* Copy in the variables from the member node to this one.
*/
for (i = (sizeof(copy)/sizeof(copy[0]))-1; i >= 0; i--) {
char *p1;
Var_Set(copy[i], Var_Value(copy[i], mem, &p1), gn, 0);
if (p1)
free(p1);
}
ms = mem->suffix;
if (ms == NULL) {
/*
* Didn't know what it was -- use .NULL suffix if not in make mode
*/
if (DEBUG(SUFF)) {
fprintf(debug_file, "using null suffix\n");
}
ms = suffNull;
}
/*
* Set the other two local variables required for this target.
*/
Var_Set(MEMBER, name, gn, 0);
Var_Set(ARCHIVE, gn->name, gn, 0);
if (ms != NULL) {
/*
* Member has a known suffix, so look for a transformation rule from
* it to a possible suffix of the archive. Rather than searching
* through the entire list, we just look at suffixes to which the
* member's suffix may be transformed...
*/
LstNode ln;
SuffixCmpData sd; /* Search string data */
/*
* Use first matching suffix...
*/
sd.len = eoarch - gn->name;
sd.ename = eoarch;
ln = Lst_Find(ms->parents, &sd, SuffSuffIsSuffixP);
if (ln != NILLNODE) {
/*
* Got one -- apply it
*/
if (!SuffApplyTransform(gn, mem, (Suff *)Lst_Datum(ln), ms) &&
DEBUG(SUFF))
{
fprintf(debug_file, "\tNo transformation from %s -> %s\n",
ms->name, ((Suff *)Lst_Datum(ln))->name);
}
}
}
/*
* Replace the opening and closing parens now we've no need of the separate
* pieces.
*/
*eoarch = '('; *eoname = ')';
/*
* Pretend gn appeared to the left of a dependency operator so
* the user needn't provide a transformation from the member to the
* archive.
*/
if (OP_NOP(gn->type)) {
gn->type |= OP_DEPENDS;
}
/*
* Flag the member as such so we remember to look in the archive for
* its modification time.
*/
mem->type |= OP_MEMBER;
}
/*-
*-----------------------------------------------------------------------
* SuffFindNormalDeps --
* Locate implicit dependencies for regular targets.
*
* Input:
* gn Node for which to find sources
*
* Results:
* None.
*
* Side Effects:
* Same as Suff_FindDeps...
*
*-----------------------------------------------------------------------
*/
static void
SuffFindNormalDeps(GNode *gn, Lst slst)
{
char *eoname; /* End of name */
char *sopref; /* Start of prefix */
LstNode ln, nln; /* Next suffix node to check */
Lst srcs; /* List of sources at which to look */
Lst targs; /* List of targets to which things can be
* transformed. They all have the same file,
* but different suff and pref fields */
Src *bottom; /* Start of found transformation path */
Src *src; /* General Src pointer */
char *pref; /* Prefix to use */
Src *targ; /* General Src target pointer */
SuffixCmpData sd; /* Search string data */
sd.len = strlen(gn->name);
sd.ename = eoname = gn->name + sd.len;
sopref = gn->name;
/*
* Begin at the beginning...
*/
ln = Lst_First(sufflist);
srcs = Lst_Init(FALSE);
targs = Lst_Init(FALSE);
/*
* We're caught in a catch-22 here. On the one hand, we want to use any
* transformation implied by the target's sources, but we can't examine
* the sources until we've expanded any variables/wildcards they may hold,
* and we can't do that until we've set up the target's local variables
* and we can't do that until we know what the proper suffix for the
* target is (in case there are two suffixes one of which is a suffix of
* the other) and we can't know that until we've found its implied
* source, which we may not want to use if there's an existing source
* that implies a different transformation.
*
* In an attempt to get around this, which may not work all the time,
* but should work most of the time, we look for implied sources first,
* checking transformations to all possible suffixes of the target,
* use what we find to set the target's local variables, expand the
* children, then look for any overriding transformations they imply.
* Should we find one, we discard the one we found before.
*/
while (ln != NILLNODE) {
/*
* Look for next possible suffix...
*/
ln = Lst_FindFrom(sufflist, ln, &sd, SuffSuffIsSuffixP);
if (ln != NILLNODE) {
int prefLen; /* Length of the prefix */
/*
* Allocate a Src structure to which things can be transformed
*/
targ = emalloc(sizeof(Src));
targ->file = estrdup(gn->name);
targ->suff = (Suff *)Lst_Datum(ln);
targ->suff->refCount++;
targ->node = gn;
targ->parent = NULL;
targ->children = 0;
#ifdef DEBUG_SRC
targ->cp = Lst_Init(FALSE);
#endif
/*
* Allocate room for the prefix, whose end is found by subtracting
* the length of the suffix from the end of the name.
*/
prefLen = (eoname - targ->suff->nameLen) - sopref;
targ->pref = emalloc(prefLen + 1);
memcpy(targ->pref, sopref, prefLen);
targ->pref[prefLen] = '\0';
/*
* Add nodes from which the target can be made
*/
SuffAddLevel(srcs, targ);
/*
* Record the target so we can nuke it
*/
(void)Lst_AtEnd(targs, targ);
/*
* Search from this suffix's successor...
*/
ln = Lst_Succ(ln);
}
}
/*
* Handle target of unknown suffix...
*/
if (Lst_IsEmpty(targs) && suffNull != NULL) {
if (DEBUG(SUFF)) {
fprintf(debug_file, "\tNo known suffix on %s. Using .NULL suffix\n", gn->name);
}
targ = emalloc(sizeof(Src));
targ->file = estrdup(gn->name);
targ->suff = suffNull;
targ->suff->refCount++;
targ->node = gn;
targ->parent = NULL;
targ->children = 0;
targ->pref = estrdup(sopref);
#ifdef DEBUG_SRC
targ->cp = Lst_Init(FALSE);
#endif
/*
* Only use the default suffix rules if we don't have commands
* defined for this gnode; traditional make programs used to
* not define suffix rules if the gnode had children but we
* don't do this anymore.
*/
if (Lst_IsEmpty(gn->commands))
SuffAddLevel(srcs, targ);
else {
if (DEBUG(SUFF))
fprintf(debug_file, "not ");
}
if (DEBUG(SUFF))
fprintf(debug_file, "adding suffix rules\n");
(void)Lst_AtEnd(targs, targ);
}
/*
* Using the list of possible sources built up from the target suffix(es),
* try and find an existing file/target that matches.
*/
bottom = SuffFindThem(srcs, slst);
if (bottom == NULL) {
/*
* No known transformations -- use the first suffix found for setting
* the local variables.
*/
if (!Lst_IsEmpty(targs)) {
targ = (Src *)Lst_Datum(Lst_First(targs));
} else {
targ = NULL;
}
} else {
/*
* Work up the transformation path to find the suffix of the
* target to which the transformation was made.
*/
for (targ = bottom; targ->parent != NULL; targ = targ->parent)
continue;
}
Var_Set(TARGET, gn->path ? gn->path : gn->name, gn, 0);
pref = (targ != NULL) ? targ->pref : gn->name;
Var_Set(PREFIX, pref, gn, 0);
/*
* Now we've got the important local variables set, expand any sources
* that still contain variables or wildcards in their names.
*/
for (ln = Lst_First(gn->children); ln != NILLNODE; ln = nln) {
nln = Lst_Succ(ln);
SuffExpandChildren(ln, gn);
}
if (targ == NULL) {
if (DEBUG(SUFF)) {
fprintf(debug_file, "\tNo valid suffix on %s\n", gn->name);
}
sfnd_abort:
/*
* Deal with finding the thing on the default search path. We
* always do that, not only if the node is only a source (not
* on the lhs of a dependency operator or [XXX] it has neither
* children or commands) as the old pmake did.
*/
if ((gn->type & (OP_PHONY|OP_NOPATH)) == 0) {
free(gn->path);
gn->path = Dir_FindFile(gn->name,
(targ == NULL ? dirSearchPath :
targ->suff->searchPath));
if (gn->path != NULL) {
char *ptr;
Var_Set(TARGET, gn->path, gn, 0);
if (targ != NULL) {
/*
* Suffix known for the thing -- trim the suffix off
* the path to form the proper .PREFIX variable.
*/
int savep = strlen(gn->path) - targ->suff->nameLen;
char savec;
if (gn->suffix)
gn->suffix->refCount--;
gn->suffix = targ->suff;
gn->suffix->refCount++;
savec = gn->path[savep];
gn->path[savep] = '\0';
if ((ptr = strrchr(gn->path, '/')) != NULL)
ptr++;
else
ptr = gn->path;
Var_Set(PREFIX, ptr, gn, 0);
gn->path[savep] = savec;
} else {
/*
* The .PREFIX gets the full path if the target has
* no known suffix.
*/
if (gn->suffix)
gn->suffix->refCount--;
gn->suffix = NULL;
if ((ptr = strrchr(gn->path, '/')) != NULL)
ptr++;
else
ptr = gn->path;
Var_Set(PREFIX, ptr, gn, 0);
}
}
}
goto sfnd_return;
}
/*
* If the suffix indicates that the target is a library, mark that in
* the node's type field.
*/
if (targ->suff->flags & SUFF_LIBRARY) {
gn->type |= OP_LIB;
}
/*
* Check for overriding transformation rule implied by sources
*/
if (!Lst_IsEmpty(gn->children)) {
src = SuffFindCmds(targ, slst);
if (src != NULL) {
/*
* Free up all the Src structures in the transformation path
* up to, but not including, the parent node.
*/
while (bottom && bottom->parent != NULL) {
if (Lst_Member(slst, bottom) == NILLNODE) {
Lst_AtEnd(slst, bottom);
}
bottom = bottom->parent;
}
bottom = src;
}
}
if (bottom == NULL) {
/*
* No idea from where it can come -- return now.
*/
goto sfnd_abort;
}
/*
* We now have a list of Src structures headed by 'bottom' and linked via
* their 'parent' pointers. What we do next is create links between
* source and target nodes (which may or may not have been created)
* and set the necessary local variables in each target. The
* commands for each target are set from the commands of the
* transformation rule used to get from the src suffix to the targ
* suffix. Note that this causes the commands list of the original
* node, gn, to be replaced by the commands of the final
* transformation rule. Also, the unmade field of gn is incremented.
* Etc.
*/
if (bottom->node == NILGNODE) {
bottom->node = Targ_FindNode(bottom->file, TARG_CREATE);
}
for (src = bottom; src->parent != NULL; src = src->parent) {
targ = src->parent;
if (src->node->suffix)
src->node->suffix->refCount--;
src->node->suffix = src->suff;
src->node->suffix->refCount++;
if (targ->node == NILGNODE) {
targ->node = Targ_FindNode(targ->file, TARG_CREATE);
}
SuffApplyTransform(targ->node, src->node,
targ->suff, src->suff);
if (targ->node != gn) {
/*
* Finish off the dependency-search process for any nodes
* between bottom and gn (no point in questing around the
* filesystem for their implicit source when it's already
* known). Note that the node can't have any sources that
* need expanding, since SuffFindThem will stop on an existing
* node, so all we need to do is set the standard and System V
* variables.
*/
targ->node->type |= OP_DEPS_FOUND;
Var_Set(PREFIX, targ->pref, targ->node, 0);
Var_Set(TARGET, targ->node->name, targ->node, 0);
}
}
if (gn->suffix)
gn->suffix->refCount--;
gn->suffix = src->suff;
gn->suffix->refCount++;
/*
* Nuke the transformation path and the Src structures left over in the
* two lists.
*/
sfnd_return:
if (bottom)
if (Lst_Member(slst, bottom) == NILLNODE)
Lst_AtEnd(slst, bottom);
while (SuffRemoveSrc(srcs) || SuffRemoveSrc(targs))
continue;
Lst_Concat(slst, srcs, LST_CONCLINK);
Lst_Concat(slst, targs, LST_CONCLINK);
}
/*-
*-----------------------------------------------------------------------
* Suff_FindDeps --
* Find implicit sources for the target described by the graph node
* gn
*
* Results:
* Nothing.
*
* Side Effects:
* Nodes are added to the graph below the passed-in node. The nodes
* are marked to have their IMPSRC variable filled in. The
* PREFIX variable is set for the given node and all its
* implied children.
*
* Notes:
* The path found by this target is the shortest path in the
* transformation graph, which may pass through non-existent targets,
* to an existing target. The search continues on all paths from the
* root suffix until a file is found. I.e. if there's a path
* .o -> .c -> .l -> .l,v from the root and the .l,v file exists but
* the .c and .l files don't, the search will branch out in
* all directions from .o and again from all the nodes on the
* next level until the .l,v node is encountered.
*
*-----------------------------------------------------------------------
*/
void
Suff_FindDeps(GNode *gn)
{
SuffFindDeps(gn, srclist);
while (SuffRemoveSrc(srclist))
continue;
}
/*
* Input:
* gn node we're dealing with
*
*/
static void
SuffFindDeps(GNode *gn, Lst slst)
{
if (gn->type & (OP_DEPS_FOUND|OP_PHONY)) {
/*
* If dependencies already found, no need to do it again...
* If this is a .PHONY target, we do not apply suffix rules.
*/
return;
} else {
gn->type |= OP_DEPS_FOUND;
}
if (DEBUG(SUFF)) {
fprintf(debug_file, "SuffFindDeps (%s)\n", gn->name);
}
if (gn->type & OP_ARCHV) {
SuffFindArchiveDeps(gn, slst);
} else if (gn->type & OP_LIB) {
/*
* If the node is a library, it is the arch module's job to find it
* and set the TARGET variable accordingly. We merely provide the
* search path, assuming all libraries end in ".a" (if the suffix
* hasn't been defined, there's nothing we can do for it, so we just
* set the TARGET variable to the node's name in order to give it a
* value).
*/
LstNode ln;
Suff *s;
ln = Lst_Find(sufflist, UNCONST(LIBSUFF),
SuffSuffHasNameP);
if (gn->suffix)
gn->suffix->refCount--;
if (ln != NILLNODE) {
gn->suffix = s = (Suff *)Lst_Datum(ln);
gn->suffix->refCount++;
Arch_FindLib(gn, s->searchPath);
} else {
gn->suffix = NULL;
Var_Set(TARGET, gn->name, gn, 0);
}
/*
* Because a library (-lfoo) target doesn't follow the standard
* filesystem conventions, we don't set the regular variables for
* the thing. .PREFIX is simply made empty...
*/
Var_Set(PREFIX, "", gn, 0);
} else {
SuffFindNormalDeps(gn, slst);
}
}
/*-
*-----------------------------------------------------------------------
* Suff_SetNull --
* Define which suffix is the null suffix.
*
* Input:
* name Name of null suffix
*
* Results:
* None.
*
* Side Effects:
* 'suffNull' is altered.
*
* Notes:
* Need to handle the changing of the null suffix gracefully so the
* old transformation rules don't just go away.
*
*-----------------------------------------------------------------------
*/
void
Suff_SetNull(char *name)
{
Suff *s;
LstNode ln;
ln = Lst_Find(sufflist, name, SuffSuffHasNameP);
if (ln != NILLNODE) {
s = (Suff *)Lst_Datum(ln);
if (suffNull != NULL) {
suffNull->flags &= ~SUFF_NULL;
}
s->flags |= SUFF_NULL;
/*
* XXX: Here's where the transformation mangling would take place
*/
suffNull = s;
} else {
Parse_Error(PARSE_WARNING, "Desired null suffix %s not defined.",
name);
}
}
/*-
*-----------------------------------------------------------------------
* Suff_Init --
* Initialize suffixes module
*
* Results:
* None
*
* Side Effects:
* Many
*-----------------------------------------------------------------------
*/
void
Suff_Init(void)
{
sufflist = Lst_Init(FALSE);
#ifdef CLEANUP
suffClean = Lst_Init(FALSE);
#endif
srclist = Lst_Init(FALSE);
transforms = Lst_Init(FALSE);
sNum = 0;
/*
* Create null suffix for single-suffix rules (POSIX). The thing doesn't
* actually go on the suffix list or everyone will think that's its
* suffix.
*/
emptySuff = suffNull = emalloc(sizeof(Suff));
suffNull->name = estrdup("");
suffNull->nameLen = 0;
suffNull->searchPath = Lst_Init(FALSE);
Dir_Concat(suffNull->searchPath, dirSearchPath);
suffNull->children = Lst_Init(FALSE);
suffNull->parents = Lst_Init(FALSE);
suffNull->ref = Lst_Init(FALSE);
suffNull->sNum = sNum++;
suffNull->flags = SUFF_NULL;
suffNull->refCount = 1;
}
/*-
*----------------------------------------------------------------------
* Suff_End --
* Cleanup the this module
*
* Results:
* None
*
* Side Effects:
* The memory is free'd.
*----------------------------------------------------------------------
*/
void
Suff_End(void)
{
#ifdef CLEANUP
Lst_Destroy(sufflist, SuffFree);
Lst_Destroy(suffClean, SuffFree);
if (suffNull)
SuffFree(suffNull);
Lst_Destroy(srclist, NOFREE);
Lst_Destroy(transforms, NOFREE);
#endif
}
/********************* DEBUGGING FUNCTIONS **********************/
static int SuffPrintName(ClientData s, ClientData dummy)
{
fprintf(debug_file, "%s ", ((Suff *)s)->name);
return (dummy ? 0 : 0);
}
static int
SuffPrintSuff(ClientData sp, ClientData dummy)
{
Suff *s = (Suff *)sp;
int flags;
int flag;
fprintf(debug_file, "# `%s' [%d] ", s->name, s->refCount);
flags = s->flags;
if (flags) {
fputs(" (", debug_file);
while (flags) {
flag = 1 << (ffs(flags) - 1);
flags &= ~flag;
switch (flag) {
case SUFF_NULL:
fprintf(debug_file, "NULL");
break;
case SUFF_INCLUDE:
fprintf(debug_file, "INCLUDE");
break;
case SUFF_LIBRARY:
fprintf(debug_file, "LIBRARY");
break;
}
fputc(flags ? '|' : ')', debug_file);
}
}
fputc('\n', debug_file);
fprintf(debug_file, "#\tTo: ");
Lst_ForEach(s->parents, SuffPrintName, NULL);
fputc('\n', debug_file);
fprintf(debug_file, "#\tFrom: ");
Lst_ForEach(s->children, SuffPrintName, NULL);
fputc('\n', debug_file);
fprintf(debug_file, "#\tSearch Path: ");
Dir_PrintPath(s->searchPath);
fputc('\n', debug_file);
return (dummy ? 0 : 0);
}
static int
SuffPrintTrans(ClientData tp, ClientData dummy)
{
GNode *t = (GNode *)tp;
fprintf(debug_file, "%-16s: ", t->name);
Targ_PrintType(t->type);
fputc('\n', debug_file);
Lst_ForEach(t->commands, Targ_PrintCmd, NULL);
fputc('\n', debug_file);
return(dummy ? 0 : 0);
}
void
Suff_PrintAll(void)
{
fprintf(debug_file, "#*** Suffixes:\n");
Lst_ForEach(sufflist, SuffPrintSuff, NULL);
fprintf(debug_file, "#*** Transformations:\n");
Lst_ForEach(transforms, SuffPrintTrans, NULL);
}
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