/************************************************************************* * * $RCSfile: dag.c,v $ * * $Revision: 1.3 $ * * last change: $Author: hr $ $Date: 2003-03-25 14:02:10 $ * * The Contents of this file are made available subject to the terms of * either of the following licenses * * - GNU Lesser General Public License Version 2.1 * - Sun Industry Standards Source License Version 1.1 * * Sun Microsystems Inc., October, 2000 * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2000 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * * * Sun Industry Standards Source License Version 1.1 * ================================================= * The contents of this file are subject to the Sun Industry Standards * Source License Version 1.1 (the "License"); You may not use this file * except in compliance with the License. You may obtain a copy of the * License at http://www.openoffice.org/license.html. * * Software provided under this License is provided on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, * WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS, * MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING. * See the License for the specific provisions governing your rights and * obligations concerning the Software. * * The Initial Developer of the Original Code is: Sun Microsystems, Inc. * * Copyright: 2000 by Sun Microsystems, Inc. * * All Rights Reserved. * * Contributor(s): _______________________________________ * * ************************************************************************/ /* -- SYNOPSIS -- Routines to construct the internal dag. -- -- DESCRIPTION -- This file contains all the routines that are responsible for -- defining and manipulating all objects used by the make facility. -- -- AUTHOR -- Dennis Vadura, dvadura@dmake.wticorp.com -- -- WWW -- http://dmake.wticorp.com/ -- -- COPYRIGHT -- Copyright (c) 1996,1997 by WTI Corp. All rights reserved. -- -- This program is NOT free software; you can redistribute it and/or -- modify it under the terms of the Software License Agreement Provided -- in the file /readme/license.txt. -- -- LOG -- Use cvs log to obtain detailed change logs. */ #include "extern.h" static void set_macro_value(hp) HASHPTR hp; { switch( hp->ht_flag & M_VAR_MASK ) /* only one var type per var */ { case M_VAR_STRING: *hp->MV_SVAR = hp->ht_value; break; case M_VAR_CHAR: *hp->MV_CVAR = (hp->ht_value == NIL(char)) ? '\0':*hp->ht_value; break; case M_VAR_INT: { int tvalue; if( hp->MV_IVAR == NIL(int) ) break; /* first time */ tvalue = atoi(hp->ht_value); if( hp->MV_IVAR == &Buffer_size ) { /* If Buffer_size is modified then make sure you change the * size of the real buffer as well. */ tvalue = (tvalue < (BUFSIZ-2)) ? BUFSIZ : tvalue+2; if( Buffer_size == tvalue ) break; if( Buffer ) FREE(Buffer); if((Buffer=MALLOC(tvalue, char)) == NIL(char)) No_ram(); *Buffer = '\0'; } *hp->MV_IVAR = tvalue; if( hp->MV_IVAR == &Max_proc || hp->MV_IVAR == &Max_proclmt ) { if( tvalue < 1 ) Fatal( "Process limit value must be > 1" ); if( Max_proc > Max_proclmt ) Fatal( "Specified # of processes exceeds limit of [%d]", Max_proclmt ); } } break; case M_VAR_BIT: /* Bit variables are set to 1 if ht_value is not NULL and 0 * otherwise */ if( hp->ht_value == NIL(char) ) *hp->MV_BVAR &= ~hp->MV_MASK; else *hp->MV_BVAR |= hp->MV_MASK; break; } } PUBLIC HASHPTR Get_name( name, tab, define )/* =============================== Look to see if the name is defined, if it is then return a pointer to its node, if not return NIL(HASH). If define is TRUE and the name is not found it will be added. */ char *name; /* name we are looking for */ HASHPTR *tab; /* the hash table to look in */ int define; /* TRUE => add to table */ { register HASHPTR hp; register char *p; uint16 hv; uint32 hash_key; DB_ENTER( "Get_name" ); DB_PRINT( "name", ("Looking for %s", name) ); hp = Search_table( tab, name, &hv, &hash_key ); if( hp == NIL(HASH) && define ) { /* Check to make sure that CELL name contains only printable chars */ for( p=name; *p; p++ ) if( !isprint(*p) && !iswhite(*p) && *p != '\n' ) Fatal( "Name contains non-printable character [0x%02x]", *p ); TALLOC( hp, 1, HASH ); /* allocate a cell and add it in */ hp->ht_name = DmStrDup( name ); hp->ht_hash = hash_key; hp->ht_next = tab[ hv ]; tab[ hv ] = hp; DB_PRINT( "name", ("Adding %s", name) ); } DB_PRINT( "name",("Returning: [%s,%lu]", (hp == NIL(HASH)) ? "":hp->ht_name, hv) ); DB_RETURN( hp ); } PUBLIC HASHPTR Search_table( tab, name, phv, phkey ) HASHPTR *tab; char *name; uint16 *phv; uint32 *phkey; { HASHPTR hp; *phv = Hash( name, phkey ); for( hp = tab[ *phv ]; hp != NIL(HASH); hp = hp->ht_next ) if( hp->ht_hash == *phkey && !strcmp(hp->ht_name, name) ) break; return( hp ); } PUBLIC HASHPTR Push_macro(hp) HASHPTR hp; { HASHPTR cur,prev; uint16 hv; uint32 key; hv = Hash(hp->ht_name, &key); for(prev=NIL(HASH),cur=Macs[hv]; cur!=NIL(HASH); prev=cur,cur=cur->ht_next) if( cur->ht_hash == key && !strcmp(cur->ht_name, hp->ht_name) ) break; if (cur == NIL(HASH) || prev == NIL(HASH)) { hp->ht_next = Macs[hv]; Macs[hv] = hp; } else { hp->ht_next = prev->ht_next; prev->ht_next = hp; } if (cur) { memcpy((void *)&hp->var, (void *)&cur->var, sizeof(hp->var)); hp->ht_flag |= ((M_VAR_MASK|M_PRECIOUS) & cur->ht_flag); } return(hp); } PUBLIC HASHPTR Pop_macro(hp) HASHPTR hp; { HASHPTR cur,prev; uint16 hv; uint32 key; hv = Hash(hp->ht_name, &key); for(prev=NIL(HASH),cur=Macs[hv]; cur != NIL(HASH);prev=cur,cur=cur->ht_next) if (cur == hp) break; if (cur == NIL(HASH)) return(NIL(HASH)); if (prev) prev->ht_next = cur->ht_next; else Macs[hv] = cur->ht_next; for(cur=cur->ht_next; cur != NIL(HASH); cur=cur->ht_next) if( cur->ht_hash == key && !strcmp(cur->ht_name, hp->ht_name) ) break; if (cur) set_macro_value(cur); hp->ht_next = NIL(HASH); return(hp); } PUBLIC HASHPTR Def_macro( name, value, flags )/* ================================= This routine is used to define a macro, and it's value. The flags indicates if it is a permanent macro or if it's value can be redefined. A flags of M_PRECIOUS means it is a precious macro and cannot be further redefined. If the flags flag also contains the M_MULTI bit it means that the macro can be redefined multiple times and no warning of the redefinitions should be issued. Once a macro's VAR flags are set they are preserved through all future macro definitions. Macro definitions that have one of the variable bits set are treated specially. In each case the hash table entry var field points at the global variable that can be set by assigning to the macro. bit valued global vars must be computed when the macro value is changed. char valued global vars must have the first char of ht_value copied to them. string valued global vars have the same value as ht_value and should just have the new value of ht_value copied to them. */ char *name; /* macro name to define */ char *value; /* macro value to set */ int flags; /* initial ht_flags */ { register HASHPTR hp; register char *p, *q; DB_ENTER( "Def_macro" ); DB_PRINT( "mac", ("Defining macro %s = %s, %x", name, value, flags) ); /* check to see if name is in the table, if so then just overwrite the previous definition. Otherwise allocate a new node, and stuff it in the hash table, at the front of any linked list */ if( Readenv ) flags |= M_LITERAL|M_EXPANDED; hp = Get_name( name, Macs, TRUE ); if ((flags & M_PUSH) && hp->ht_name != NIL(char)) { HASHPTR thp=hp; TALLOC(hp,1,HASH); hp->ht_name = DmStrDup(thp->ht_name); hp->ht_hash = thp->ht_hash; Push_macro(hp); flags |= hp->ht_flag; } flags &= ~M_PUSH; if( (hp->ht_flag & M_PRECIOUS) && !(flags & M_FORCE) ) { if (Verbose & V_WARNALL) Warning( "Macro `%s' cannot be redefined", name ); DB_RETURN( hp ); } /* Make sure we don't export macros whose names contain legal macro * assignment operators, since we can't do proper quoting in the * environment. */ if( *DmStrPbrk(name, "*+:=") != '\0' ) flags |= M_NOEXPORT; if( hp->ht_value != NIL(char) ) FREE( hp->ht_value ); if( (hp->ht_flag & M_USED) && !((flags | hp->ht_flag) & M_MULTI) ) Warning( "Macro `%s' redefined after use", name ); if( (value != NIL(char)) && (*value) ) { /* strip out any \ combinations where \ is the current CONTINUATION * char */ for( p = value; (p = strchr(p, CONTINUATION_CHAR)) != NIL(char); ) if( p[1] == '\n' ) strcpy( p, p+2 ); else p++; if( !(flags & M_LITERAL) ) { p = DmStrDup( DmStrSpn(value," \t")); /* strip white space before */ /* ... and after value */ if( *p ) { for(q=p+strlen(p)-1; ((*q == ' ')||(*q == '\t')); q--); *++q = '\0'; } flags &= ~M_LITERAL; } else p = DmStrDup( value ); /* take string literally */ if( !*p ) { /* check if result is "" */ FREE( p ); p = NIL(char); flags |= M_EXPANDED; } else if( *DmStrPbrk( p, "${}" ) == '\0' ) flags |= M_EXPANDED; hp->ht_value = p; } else hp->ht_value = NIL(char); /* Assign the hash table flag less the M_MULTI flag, it is used only * to silence the warning. But carry it over if it was previously * defined in ht_flag, as this is a permanent M_MULTI variable. */ hp->ht_flag = (((flags & ~(M_MULTI|M_FORCE)) | (hp->ht_flag & (M_VAR_MASK | M_MULTI)))) & ~M_INIT; /* Check for macro variables and make the necessary adjustment in the * corresponding global variables */ if( hp->ht_flag & M_VAR_MASK ) { if( !(flags & M_EXPANDED) ) Error( "Macro variable '%s' must be assigned with :=", name ); else set_macro_value(hp); } DB_RETURN( hp ); } PUBLIC CELLPTR Def_cell( name )/* ================== Take a string passed in and define it as a cell If the cell exists then return a pointer to it. */ char *name; { register HASHPTR hp; register CELLPTR cp; register CELLPTR lib; char *member; char *end; DB_ENTER( "Def_cell" ); /* Check to see if the cell is a member of the form lib(member) or * lib((symbol)) and handle the cases appropriately. * What we do is we look at the target, if it is of the above two * forms we get the lib, and add the member/symbol to the list of * prerequisites for the library. If this is a symbol name def'n * we additionally add the attribute A_SYMBOL, so that stat can * try to do the right thing. */ if( ((member = strchr(name, '(')) != NIL(char)) && ((end = strrchr(member, ')')) != NIL(char)) && (member > name) && (member[-1] != '$') && (end > member+1) && (end[1] == '\0') ) { *member++ = *end = '\0'; if( (*member == '(') && (member[strlen(member)-1] == ')') ) { member[ strlen(member)-1 ] = '\0'; cp = Def_cell( member+1 ); cp->ce_attr |= A_SYMBOL; } else cp = Def_cell( member ); lib = Def_cell( name ); Add_prerequisite( lib, cp, FALSE, FALSE ); lib->ce_attr |= A_LIBRARY | A_COMPOSITE; if( !Def_targets ) cp = lib; } else { hp = Get_name( name, Defs, TRUE );/* get the name from hash table */ if( hp->CP_OWNR == NIL(CELL) ) /* was it previously defined */ { /* NO, so define a new cell */ DB_PRINT( "cell", ("Defining cell [%s]", name) ); TALLOC( cp, 1, CELL ); hp->CP_OWNR = cp; cp->ce_name = hp; cp->ce_fname = hp->ht_name; cp->ce_all.cl_prq = cp; } else /* YES, so return the old cell */ { DB_PRINT( "cell", ("Getting cell [%s]", hp->ht_name) ); cp = hp->CP_OWNR; } } DB_RETURN( cp ); } PUBLIC LINKPTR Add_prerequisite( cell, prq, head, force )/* ============================================ Add a dependency node to the dag. It adds it to the prerequisites, if any, of the cell and makes certain they are in linear order. If head == 1, then add to head of the prerequisite list, else add to tail. */ CELLPTR cell; CELLPTR prq; int head; int force; { register LINKPTR lp, tlp; DB_ENTER( "Add_prerequisite" ); DB_PRINT( "cell", ("Defining prerequisite %s", prq->CE_NAME) ); if( (prq->ce_flag & (F_MAGIC | F_PERCENT)) && !force ) Fatal( "Special target [%s] cannot be a prerequisite", prq->CE_NAME ); if( cell->ce_prq == NIL(LINK) ) { /* it's the first one */ TALLOC( lp, 1, LINK ); lp->cl_prq = prq; cell->ce_prq = lp; } else { /* search the list, checking for duplicates */ for( lp = cell->ce_prq; (lp->cl_next != NIL(LINK)) && (lp->cl_prq != prq); lp = lp->cl_next ); /* If the prq is not found and we are at the last prq in the list, * allocate a new prq and place it into the list, insert it at the * head if head == 1, else we add it to the end. */ if( lp->cl_prq != prq ) { TALLOC( tlp, 1, LINK ); tlp->cl_prq = prq; if( head ) { tlp->cl_next = cell->ce_prq; cell->ce_prq = tlp; } else lp->cl_next = tlp; lp = tlp; } } DB_RETURN( lp ); } PUBLIC void Clear_prerequisites( cell )/* ============================= Clear out the list of prerequisites, freeing all of the LINK nodes, and setting the list to NULL */ CELLPTR cell; { LINKPTR lp, tlp; DB_ENTER( "Clear_prerequisites" ); DB_PRINT( "cell", ("Nuking prerequisites") ); if( cell == NIL(CELL) ) { DB_VOID_RETURN; } for( lp=cell->ce_prq; lp != NIL(LINK); lp=tlp ) { tlp=lp->cl_next; FREE( lp ); } cell->ce_prq = NIL(LINK); DB_VOID_RETURN; } PUBLIC int Test_circle( cp, fail )/* ========================= Actually run through the graph */ CELLPTR cp; int fail; { register LINKPTR lp; int res = 0; DB_ENTER( "Test_circle" ); DB_PRINT( "tc", ("checking [%s]", cp->CE_NAME) ); if( cp->ce_flag & F_MARK ) { if( fail ) Fatal("Detected circular dependency in graph at [%s]", cp->CE_NAME); else DB_RETURN( 1 ); } cp->ce_flag |= F_MARK; for( lp = cp->ce_prq; !res && lp != NIL(LINK); lp = lp->cl_next ) res = Test_circle( lp->cl_prq, fail ); cp->ce_flag ^= F_MARK; DB_RETURN( res ); } PUBLIC STRINGPTR Def_recipe( rcp, sp, white_too, no_check )/* ============================================= Take the recipe and add it to the list of recipes pointed to by sp. sp points to the last element. return a pointer to the new recipe. If white_too == TRUE add the recipe even if it contains only white space. If no_check is true then don't look for -@ at the start of the recipe line. */ char *rcp; STRINGPTR sp; int white_too; int no_check; { register STRINGPTR nsp; register char *rp; DB_ENTER( "Def_recipe" ); DB_PRINT( "rul", ("Defining recipe %s", rcp) ); if( !white_too ) rcp = DmStrSpn( rcp, " \t" ); if( (rcp == NIL(char)) || (*rcp == 0 && !white_too) ) DB_RETURN( sp ); /* return last recipe when new recipe not added */ rp = no_check ? rcp : DmStrSpn( rcp, " \t@-+%" ); TALLOC(nsp, 1, STRING); nsp->st_string = DmStrDup( rp ); if( sp != NIL(STRING) ) sp->st_next = nsp; nsp->st_next = NIL(STRING); if( !no_check ) nsp->st_attr |= Rcp_attribute( rcp ); DB_RETURN( nsp ); } PUBLIC t_attr Rcp_attribute( rp )/* ====================== Look at the recipe and return the set of attributes that it defines. */ char *rp; { t_attr flag = A_DEFAULT; int done = FALSE; while( !done ) switch( *rp++ ) { case '@' : flag |= A_SILENT; break; case '-' : flag |= A_IGNORE; break; case '+' : flag |= A_SHELL; break; case '%' : flag |= A_SWAP; break; case ' ' : case '\t': break; default: done = TRUE; break; } return(flag); }