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9138a2e2f6
Makefile: it shouldn't be under cvs; given that it is, fix it too arcs.c: fprintf used where printf should have been. lookup.c: misdeclared calloc; use a cast instead.
567 lines
16 KiB
C
567 lines
16 KiB
C
/*
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* Copyright (c) 1983 Regents of the University of California.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms are permitted
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* provided that: (1) source distributions retain this entire copyright
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* notice and comment, and (2) distributions including binaries display
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* the following acknowledgement: ``This product includes software
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* developed by the University of California, Berkeley and its contributors''
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* in the documentation or other materials provided with the distribution
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* and in all advertising materials mentioning features or use of this
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* software. Neither the name of the University nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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*/
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#ifndef lint
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static char sccsid[] = "@(#)arcs.c 5.6 (Berkeley) 6/1/90";
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#endif /* not lint */
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#include "gprof.h"
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/*
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* add (or just increment) an arc
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*/
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addarc( parentp , childp , count )
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nltype *parentp;
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nltype *childp;
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long count;
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{
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arctype *arcp;
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# ifdef DEBUG
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if ( debug & TALLYDEBUG ) {
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printf( "[addarc] %d arcs from %s to %s\n" ,
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count , parentp -> name , childp -> name );
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}
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# endif DEBUG
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arcp = arclookup( parentp , childp );
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if ( arcp != 0 ) {
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/*
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* a hit: just increment the count.
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*/
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# ifdef DEBUG
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if ( debug & TALLYDEBUG ) {
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printf( "[tally] hit %d += %d\n" ,
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arcp -> arc_count , count );
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}
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# endif DEBUG
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arcp -> arc_count += count;
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return;
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}
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arcp = (arctype *) calloc( 1 , sizeof *arcp );
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arcp -> arc_parentp = parentp;
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arcp -> arc_childp = childp;
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arcp -> arc_count = count;
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/*
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* prepend this child to the children of this parent
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*/
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arcp -> arc_childlist = parentp -> children;
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parentp -> children = arcp;
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/*
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* prepend this parent to the parents of this child
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*/
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arcp -> arc_parentlist = childp -> parents;
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childp -> parents = arcp;
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}
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/*
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* the code below topologically sorts the graph (collapsing cycles),
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* and propagates time bottom up and flags top down.
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*/
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/*
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* the topologically sorted name list pointers
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*/
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nltype **topsortnlp;
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topcmp( npp1 , npp2 )
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nltype **npp1;
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nltype **npp2;
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{
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return (*npp1) -> toporder - (*npp2) -> toporder;
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}
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nltype **
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doarcs()
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{
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nltype *parentp, **timesortnlp;
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arctype *arcp;
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long index;
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/*
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* initialize various things:
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* zero out child times.
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* count self-recursive calls.
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* indicate that nothing is on cycles.
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*/
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for ( parentp = nl ; parentp < npe ; parentp++ ) {
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parentp -> childtime = 0.0;
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arcp = arclookup( parentp , parentp );
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if ( arcp != 0 ) {
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parentp -> ncall -= arcp -> arc_count;
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parentp -> selfcalls = arcp -> arc_count;
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} else {
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parentp -> selfcalls = 0;
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}
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parentp -> propfraction = 0.0;
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parentp -> propself = 0.0;
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parentp -> propchild = 0.0;
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parentp -> printflag = FALSE;
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parentp -> toporder = DFN_NAN;
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parentp -> cycleno = 0;
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parentp -> cyclehead = parentp;
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parentp -> cnext = 0;
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if ( cflag ) {
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findcall( parentp , parentp -> value , (parentp+1) -> value );
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}
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}
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/*
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* topologically order things
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* if any node is unnumbered,
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* number it and any of its descendents.
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*/
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for ( parentp = nl ; parentp < npe ; parentp++ ) {
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if ( parentp -> toporder == DFN_NAN ) {
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dfn( parentp );
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}
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}
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/*
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* link together nodes on the same cycle
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*/
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cyclelink();
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/*
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* Sort the symbol table in reverse topological order
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*/
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topsortnlp = (nltype **) calloc( nname , sizeof(nltype *) );
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if ( topsortnlp == (nltype **) 0 ) {
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fprintf( stderr , "[doarcs] ran out of memory for topo sorting\n" );
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}
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for ( index = 0 ; index < nname ; index += 1 ) {
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topsortnlp[ index ] = &nl[ index ];
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}
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qsort( topsortnlp , nname , sizeof(nltype *) , topcmp );
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# ifdef DEBUG
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if ( debug & DFNDEBUG ) {
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printf( "[doarcs] topological sort listing\n" );
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for ( index = 0 ; index < nname ; index += 1 ) {
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printf( "[doarcs] " );
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printf( "%d:" , topsortnlp[ index ] -> toporder );
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printname( topsortnlp[ index ] );
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printf( "\n" );
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}
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}
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# endif DEBUG
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/*
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* starting from the topological top,
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* propagate print flags to children.
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* also, calculate propagation fractions.
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* this happens before time propagation
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* since time propagation uses the fractions.
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*/
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doflags();
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/*
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* starting from the topological bottom,
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* propogate children times up to parents.
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*/
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dotime();
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/*
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* Now, sort by propself + propchild.
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* sorting both the regular function names
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* and cycle headers.
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*/
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timesortnlp = (nltype **) calloc( nname + ncycle , sizeof(nltype *) );
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if ( timesortnlp == (nltype **) 0 ) {
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fprintf( stderr , "%s: ran out of memory for sorting\n" , whoami );
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}
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for ( index = 0 ; index < nname ; index++ ) {
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timesortnlp[index] = &nl[index];
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}
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for ( index = 1 ; index <= ncycle ; index++ ) {
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timesortnlp[nname+index-1] = &cyclenl[index];
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}
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qsort( timesortnlp , nname + ncycle , sizeof(nltype *) , totalcmp );
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for ( index = 0 ; index < nname + ncycle ; index++ ) {
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timesortnlp[ index ] -> index = index + 1;
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}
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return( timesortnlp );
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}
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dotime()
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{
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int index;
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cycletime();
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for ( index = 0 ; index < nname ; index += 1 ) {
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timepropagate( topsortnlp[ index ] );
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}
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}
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timepropagate( parentp )
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nltype *parentp;
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{
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arctype *arcp;
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nltype *childp;
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double share;
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double propshare;
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if ( parentp -> propfraction == 0.0 ) {
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return;
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}
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/*
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* gather time from children of this parent.
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*/
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for ( arcp = parentp -> children ; arcp ; arcp = arcp -> arc_childlist ) {
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childp = arcp -> arc_childp;
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if ( arcp -> arc_count == 0 ) {
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continue;
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}
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if ( childp == parentp ) {
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continue;
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}
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if ( childp -> propfraction == 0.0 ) {
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continue;
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}
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if ( childp -> cyclehead != childp ) {
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if ( parentp -> cycleno == childp -> cycleno ) {
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continue;
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}
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if ( parentp -> toporder <= childp -> toporder ) {
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fprintf( stderr , "[propagate] toporder botches\n" );
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}
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childp = childp -> cyclehead;
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} else {
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if ( parentp -> toporder <= childp -> toporder ) {
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fprintf( stderr , "[propagate] toporder botches\n" );
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continue;
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}
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}
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if ( childp -> ncall == 0 ) {
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continue;
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}
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/*
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* distribute time for this arc
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*/
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arcp -> arc_time = childp -> time
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* ( ( (double) arcp -> arc_count ) /
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( (double) childp -> ncall ) );
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arcp -> arc_childtime = childp -> childtime
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* ( ( (double) arcp -> arc_count ) /
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( (double) childp -> ncall ) );
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share = arcp -> arc_time + arcp -> arc_childtime;
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parentp -> childtime += share;
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/*
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* ( 1 - propfraction ) gets lost along the way
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*/
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propshare = parentp -> propfraction * share;
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/*
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* fix things for printing
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*/
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parentp -> propchild += propshare;
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arcp -> arc_time *= parentp -> propfraction;
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arcp -> arc_childtime *= parentp -> propfraction;
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/*
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* add this share to the parent's cycle header, if any.
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*/
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if ( parentp -> cyclehead != parentp ) {
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parentp -> cyclehead -> childtime += share;
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parentp -> cyclehead -> propchild += propshare;
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}
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# ifdef DEBUG
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if ( debug & PROPDEBUG ) {
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printf( "[dotime] child \t" );
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printname( childp );
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printf( " with %f %f %d/%d\n" ,
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childp -> time , childp -> childtime ,
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arcp -> arc_count , childp -> ncall );
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printf( "[dotime] parent\t" );
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printname( parentp );
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printf( "\n[dotime] share %f\n" , share );
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}
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# endif DEBUG
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}
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}
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cyclelink()
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{
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register nltype *nlp;
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register nltype *cyclenlp;
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int cycle;
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nltype *memberp;
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arctype *arcp;
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/*
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* Count the number of cycles, and initialze the cycle lists
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*/
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ncycle = 0;
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for ( nlp = nl ; nlp < npe ; nlp++ ) {
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/*
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* this is how you find unattached cycles
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*/
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if ( nlp -> cyclehead == nlp && nlp -> cnext != 0 ) {
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ncycle += 1;
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}
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}
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/*
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* cyclenl is indexed by cycle number:
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* i.e. it is origin 1, not origin 0.
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*/
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cyclenl = (nltype *) calloc( ncycle + 1 , sizeof( nltype ) );
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if ( cyclenl == 0 ) {
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fprintf( stderr , "%s: No room for %d bytes of cycle headers\n" ,
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whoami , ( ncycle + 1 ) * sizeof( nltype ) );
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done();
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}
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/*
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* now link cycles to true cycleheads,
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* number them, accumulate the data for the cycle
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*/
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cycle = 0;
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for ( nlp = nl ; nlp < npe ; nlp++ ) {
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if ( !( nlp -> cyclehead == nlp && nlp -> cnext != 0 ) ) {
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continue;
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}
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cycle += 1;
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cyclenlp = &cyclenl[cycle];
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cyclenlp -> name = 0; /* the name */
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cyclenlp -> value = 0; /* the pc entry point */
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cyclenlp -> time = 0.0; /* ticks in this routine */
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cyclenlp -> childtime = 0.0; /* cumulative ticks in children */
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cyclenlp -> ncall = 0; /* how many times called */
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cyclenlp -> selfcalls = 0; /* how many calls to self */
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cyclenlp -> propfraction = 0.0; /* what % of time propagates */
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cyclenlp -> propself = 0.0; /* how much self time propagates */
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cyclenlp -> propchild = 0.0; /* how much child time propagates */
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cyclenlp -> printflag = TRUE; /* should this be printed? */
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cyclenlp -> index = 0; /* index in the graph list */
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cyclenlp -> toporder = DFN_NAN; /* graph call chain top-sort order */
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cyclenlp -> cycleno = cycle; /* internal number of cycle on */
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cyclenlp -> cyclehead = cyclenlp; /* pointer to head of cycle */
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cyclenlp -> cnext = nlp; /* pointer to next member of cycle */
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cyclenlp -> parents = 0; /* list of caller arcs */
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cyclenlp -> children = 0; /* list of callee arcs */
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# ifdef DEBUG
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if ( debug & CYCLEDEBUG ) {
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printf( "[cyclelink] " );
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printname( nlp );
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printf( " is the head of cycle %d\n" , cycle );
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}
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# endif DEBUG
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/*
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* link members to cycle header
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*/
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for ( memberp = nlp ; memberp ; memberp = memberp -> cnext ) {
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memberp -> cycleno = cycle;
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memberp -> cyclehead = cyclenlp;
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}
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/*
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* count calls from outside the cycle
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* and those among cycle members
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*/
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for ( memberp = nlp ; memberp ; memberp = memberp -> cnext ) {
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for ( arcp=memberp->parents ; arcp ; arcp=arcp->arc_parentlist ) {
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if ( arcp -> arc_parentp == memberp ) {
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continue;
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}
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if ( arcp -> arc_parentp -> cycleno == cycle ) {
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cyclenlp -> selfcalls += arcp -> arc_count;
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} else {
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cyclenlp -> ncall += arcp -> arc_count;
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}
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}
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}
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}
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}
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cycletime()
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{
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int cycle;
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nltype *cyclenlp;
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nltype *childp;
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for ( cycle = 1 ; cycle <= ncycle ; cycle += 1 ) {
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cyclenlp = &cyclenl[ cycle ];
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for ( childp = cyclenlp -> cnext ; childp ; childp = childp -> cnext ) {
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if ( childp -> propfraction == 0.0 ) {
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/*
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* all members have the same propfraction except those
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* that were excluded with -E
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*/
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continue;
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}
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cyclenlp -> time += childp -> time;
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}
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cyclenlp -> propself = cyclenlp -> propfraction * cyclenlp -> time;
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}
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}
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/*
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* in one top to bottom pass over the topologically sorted namelist
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* propagate:
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* printflag as the union of parents' printflags
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* propfraction as the sum of fractional parents' propfractions
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* and while we're here, sum time for functions.
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*/
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doflags()
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{
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int index;
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nltype *childp;
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nltype *oldhead;
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oldhead = 0;
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for ( index = nname-1 ; index >= 0 ; index -= 1 ) {
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childp = topsortnlp[ index ];
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/*
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* if we haven't done this function or cycle,
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* inherit things from parent.
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* this way, we are linear in the number of arcs
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* since we do all members of a cycle (and the cycle itself)
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* as we hit the first member of the cycle.
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*/
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if ( childp -> cyclehead != oldhead ) {
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oldhead = childp -> cyclehead;
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inheritflags( childp );
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}
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# ifdef DEBUG
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if ( debug & PROPDEBUG ) {
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printf( "[doflags] " );
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printname( childp );
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printf( " inherits printflag %d and propfraction %f\n" ,
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childp -> printflag , childp -> propfraction );
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}
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# endif DEBUG
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if ( ! childp -> printflag ) {
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/*
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* printflag is off
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* it gets turned on by
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* being on -f list,
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* or there not being any -f list and not being on -e list.
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*/
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if ( onlist( flist , childp -> name )
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|| ( !fflag && !onlist( elist , childp -> name ) ) ) {
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childp -> printflag = TRUE;
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}
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} else {
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/*
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* this function has printing parents:
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* maybe someone wants to shut it up
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* by putting it on -e list. (but favor -f over -e)
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*/
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if ( ( !onlist( flist , childp -> name ) )
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&& onlist( elist , childp -> name ) ) {
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childp -> printflag = FALSE;
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}
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}
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if ( childp -> propfraction == 0.0 ) {
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/*
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* no parents to pass time to.
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* collect time from children if
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* its on -F list,
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* or there isn't any -F list and its not on -E list.
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*/
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if ( onlist( Flist , childp -> name )
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|| ( !Fflag && !onlist( Elist , childp -> name ) ) ) {
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childp -> propfraction = 1.0;
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}
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} else {
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/*
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* it has parents to pass time to,
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* but maybe someone wants to shut it up
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* by puttting it on -E list. (but favor -F over -E)
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*/
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if ( !onlist( Flist , childp -> name )
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&& onlist( Elist , childp -> name ) ) {
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childp -> propfraction = 0.0;
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}
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}
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childp -> propself = childp -> time * childp -> propfraction;
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printtime += childp -> propself;
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# ifdef DEBUG
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if ( debug & PROPDEBUG ) {
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printf( "[doflags] " );
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printname( childp );
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printf( " ends up with printflag %d and propfraction %f\n" ,
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childp -> printflag , childp -> propfraction );
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printf( "time %f propself %f printtime %f\n" ,
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childp -> time , childp -> propself , printtime );
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}
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# endif DEBUG
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}
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}
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/*
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* check if any parent of this child
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* (or outside parents of this cycle)
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* have their print flags on and set the
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* print flag of the child (cycle) appropriately.
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* similarly, deal with propagation fractions from parents.
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*/
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inheritflags( childp )
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nltype *childp;
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{
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nltype *headp;
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arctype *arcp;
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nltype *parentp;
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nltype *memp;
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headp = childp -> cyclehead;
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if ( childp == headp ) {
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/*
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* just a regular child, check its parents
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*/
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childp -> printflag = FALSE;
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childp -> propfraction = 0.0;
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for (arcp = childp -> parents ; arcp ; arcp = arcp -> arc_parentlist) {
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parentp = arcp -> arc_parentp;
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if ( childp == parentp ) {
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continue;
|
|
}
|
|
childp -> printflag |= parentp -> printflag;
|
|
/*
|
|
* if the child was never actually called
|
|
* (e.g. this arc is static (and all others are, too))
|
|
* no time propagates along this arc.
|
|
*/
|
|
if ( childp -> ncall ) {
|
|
childp -> propfraction += parentp -> propfraction
|
|
* ( ( (double) arcp -> arc_count )
|
|
/ ( (double) childp -> ncall ) );
|
|
}
|
|
}
|
|
} else {
|
|
/*
|
|
* its a member of a cycle, look at all parents from
|
|
* outside the cycle
|
|
*/
|
|
headp -> printflag = FALSE;
|
|
headp -> propfraction = 0.0;
|
|
for ( memp = headp -> cnext ; memp ; memp = memp -> cnext ) {
|
|
for (arcp = memp->parents ; arcp ; arcp = arcp->arc_parentlist) {
|
|
if ( arcp -> arc_parentp -> cyclehead == headp ) {
|
|
continue;
|
|
}
|
|
parentp = arcp -> arc_parentp;
|
|
headp -> printflag |= parentp -> printflag;
|
|
/*
|
|
* if the cycle was never actually called
|
|
* (e.g. this arc is static (and all others are, too))
|
|
* no time propagates along this arc.
|
|
*/
|
|
if ( headp -> ncall ) {
|
|
headp -> propfraction += parentp -> propfraction
|
|
* ( ( (double) arcp -> arc_count )
|
|
/ ( (double) headp -> ncall ) );
|
|
}
|
|
}
|
|
}
|
|
for ( memp = headp ; memp ; memp = memp -> cnext ) {
|
|
memp -> printflag = headp -> printflag;
|
|
memp -> propfraction = headp -> propfraction;
|
|
}
|
|
}
|
|
}
|