/* * Copyright (c) 1983 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #ifndef lint static char sccsid[] = "@(#)dfn.c 5.1 (Berkeley) 6/4/85"; #endif not lint #include #include "gprof.h" #define DFN_DEPTH 100 struct dfnstruct { nltype *nlentryp; int cycletop; }; typedef struct dfnstruct dfntype; dfntype dfn_stack[ DFN_DEPTH ]; int dfn_depth = 0; int dfn_counter = DFN_NAN; /* * given this parent, depth first number its children. */ dfn( parentp ) nltype *parentp; { arctype *arcp; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn] dfn(" ); printname( parentp ); printf( ")\n" ); } # endif DEBUG /* * if we're already numbered, no need to look any furthur. */ if ( dfn_numbered( parentp ) ) { return; } /* * if we're already busy, must be a cycle */ if ( dfn_busy( parentp ) ) { dfn_findcycle( parentp ); return; } /* * visit yourself before your children */ dfn_pre_visit( parentp ); /* * visit children */ for ( arcp = parentp -> children ; arcp ; arcp = arcp -> arc_childlist ) { dfn( arcp -> arc_childp ); } /* * visit yourself after your children */ dfn_post_visit( parentp ); } /* * push a parent onto the stack and mark it busy */ dfn_pre_visit( parentp ) nltype *parentp; { dfn_depth += 1; if ( dfn_depth >= DFN_DEPTH ) { fprintf( stderr , "[dfn] out of my depth (dfn_stack overflow)\n" ); exit( 1 ); } dfn_stack[ dfn_depth ].nlentryp = parentp; dfn_stack[ dfn_depth ].cycletop = dfn_depth; parentp -> toporder = DFN_BUSY; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_pre_visit]\t\t%d:" , dfn_depth ); printname( parentp ); printf( "\n" ); } # endif DEBUG } /* * are we already numbered? */ bool dfn_numbered( childp ) nltype *childp; { return ( childp -> toporder != DFN_NAN && childp -> toporder != DFN_BUSY ); } /* * are we already busy? */ bool dfn_busy( childp ) nltype *childp; { if ( childp -> toporder == DFN_NAN ) { return FALSE; } return TRUE; } /* * MISSING: an explanation */ dfn_findcycle( childp ) nltype *childp; { int cycletop; nltype *cycleheadp; nltype *tailp; int index; for ( cycletop = dfn_depth ; cycletop > 0 ; cycletop -= 1 ) { cycleheadp = dfn_stack[ cycletop ].nlentryp; if ( childp == cycleheadp ) { break; } if ( childp -> cyclehead != childp && childp -> cyclehead == cycleheadp ) { break; } } if ( cycletop <= 0 ) { fprintf( stderr , "[dfn_findcycle] couldn't find head of cycle\n" ); exit( 1 ); } # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_findcycle] dfn_depth %d cycletop %d " , dfn_depth , cycletop ); printname( cycleheadp ); printf( "\n" ); } # endif DEBUG if ( cycletop == dfn_depth ) { /* * this is previous function, e.g. this calls itself * sort of boring */ dfn_self_cycle( childp ); } else { /* * glom intervening functions that aren't already * glommed into this cycle. * things have been glommed when their cyclehead field * points to the head of the cycle they are glommed into. */ for ( tailp = cycleheadp ; tailp -> cnext ; tailp = tailp -> cnext ) { /* void: chase down to tail of things already glommed */ # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_findcycle] tail " ); printname( tailp ); printf( "\n" ); } # endif DEBUG } /* * if what we think is the top of the cycle * has a cyclehead field, then it's not really the * head of the cycle, which is really what we want */ if ( cycleheadp -> cyclehead != cycleheadp ) { cycleheadp = cycleheadp -> cyclehead; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_findcycle] new cyclehead " ); printname( cycleheadp ); printf( "\n" ); } # endif DEBUG } for ( index = cycletop + 1 ; index <= dfn_depth ; index += 1 ) { childp = dfn_stack[ index ].nlentryp; if ( childp -> cyclehead == childp ) { /* * not yet glommed anywhere, glom it * and fix any children it has glommed */ tailp -> cnext = childp; childp -> cyclehead = cycleheadp; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_findcycle] glomming " ); printname( childp ); printf( " onto " ); printname( cycleheadp ); printf( "\n" ); } # endif DEBUG for ( tailp = childp ; tailp->cnext ; tailp = tailp->cnext ) { tailp -> cnext -> cyclehead = cycleheadp; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_findcycle] and its tail " ); printname( tailp -> cnext ); printf( " onto " ); printname( cycleheadp ); printf( "\n" ); } # endif DEBUG } } else if ( childp -> cyclehead != cycleheadp /* firewall */ ) { fprintf( stderr , "[dfn_busy] glommed, but not to cyclehead\n" ); } } } } /* * deal with self-cycles * for lint: ARGSUSED */ dfn_self_cycle( parentp ) nltype *parentp; { /* * since we are taking out self-cycles elsewhere * no need for the special case, here. */ # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_self_cycle] " ); printname( parentp ); printf( "\n" ); } # endif DEBUG } /* * visit a node after all its children * [MISSING: an explanation] * and pop it off the stack */ dfn_post_visit( parentp ) nltype *parentp; { nltype *memberp; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_post_visit]\t%d: " , dfn_depth ); printname( parentp ); printf( "\n" ); } # endif DEBUG /* * number functions and things in their cycles * unless the function is itself part of a cycle */ if ( parentp -> cyclehead == parentp ) { dfn_counter += 1; for ( memberp = parentp ; memberp ; memberp = memberp -> cnext ) { memberp -> toporder = dfn_counter; # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_post_visit]\t\tmember " ); printname( memberp ); printf( " -> toporder = %d\n" , dfn_counter ); } # endif DEBUG } } else { # ifdef DEBUG if ( debug & DFNDEBUG ) { printf( "[dfn_post_visit]\t\tis part of a cycle\n" ); } # endif DEBUG } dfn_depth -= 1; }