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ftmemsim-valgrind/callgrind/debug.c
Josef Weidendorfer 4d34d8da4d Callgrind: event sets now consist of event groups 
Offsets of groups within event sets are now
stored in a offset table as part of the event set, and
can be accessed directly. Before, offsets were hardcoded
all over the place. This should make addition of further
event groups much simpler.

git-svn-id: svn://svn.valgrind.org/valgrind/trunk@11165
2010-06-09 22:32:53 +00:00

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C
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/*
This file is part of Callgrind, a Valgrind tool for call graph
profiling programs.
Copyright (C) 2002-2010, Josef Weidendorfer (Josef.Weidendorfer@gmx.de)
This tool is derived from and contains lot of code from Cachegrind
Copyright (C) 2002 Nicholas Nethercote (njn@valgrind.org)
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
This program 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
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307, USA.
The GNU General Public License is contained in the file COPYING.
*/
#include "global.h"
#include "events.h"
/* If debugging mode of, dummy functions are provided (see below)
*/
#if CLG_ENABLE_DEBUG
/*------------------------------------------------------------*/
/*--- Debug output helpers ---*/
/*------------------------------------------------------------*/
static void print_indent(int s)
{
/* max of 40 spaces */
char sp[] = " ";
if (s>40) s=40;
VG_(printf)("%s", sp+40-s);
}
void CLG_(print_bb)(int s, BB* bb)
{
if (s<0) {
s = -s;
print_indent(s);
}
VG_(printf)("BB %#lx (Obj '%s')", bb_addr(bb), bb->obj->name);
}
static
void print_mangled_cxt(Context* cxt, int rec_index)
{
int i;
if (!cxt)
VG_(printf)("(none)");
else {
VG_(printf)("%s", cxt->fn[0]->name);
if (rec_index >0)
VG_(printf)("'%d", rec_index +1);
for(i=1;i<cxt->size;i++)
VG_(printf)("'%s", cxt->fn[i]->name);
}
}
void CLG_(print_cxt)(int s, Context* cxt, int rec_index)
{
if (s<0) {
s = -s;
print_indent(s);
}
if (cxt) {
UInt *pactive = CLG_(get_fn_entry)(cxt->fn[0]->number);
CLG_ASSERT(rec_index < cxt->fn[0]->separate_recursions);
VG_(printf)("Cxt %d" ,cxt->base_number + rec_index);
if (*pactive>0)
VG_(printf)(" [active=%d]", *pactive);
VG_(printf)(": ");
print_mangled_cxt(cxt, rec_index);
VG_(printf)("\n");
}
else
VG_(printf)("(no context)\n");
}
void CLG_(print_execstate)(int s, exec_state* es)
{
if (s<0) {
s = -s;
print_indent(s);
}
if (!es) {
VG_(printf)("ExecState 0x0\n");
return;
}
VG_(printf)("ExecState [Sig %d, collect %s, nonskipped %p]: jmps_passed %d\n",
es->sig, es->collect?"yes":"no",
es->nonskipped, es->jmps_passed);
}
void CLG_(print_bbcc)(int s, BBCC* bbcc)
{
BB* bb;
if (s<0) {
s = -s;
print_indent(s);
}
if (!bbcc) {
VG_(printf)("BBCC 0x0\n");
return;
}
bb = bbcc->bb;
CLG_ASSERT(bb!=0);
VG_(printf)("%s +%#lx=%#lx, ",
bb->obj->name + bb->obj->last_slash_pos,
bb->offset, bb_addr(bb));
CLG_(print_cxt)(s+8, bbcc->cxt, bbcc->rec_index);
}
void CLG_(print_eventset)(int s, EventSet* es)
{
int i, j;
UInt mask;
EventGroup* eg;
if (s<0) {
s = -s;
print_indent(s);
}
if (!es) {
VG_(printf)("(EventSet not set)\n");
return;
}
VG_(printf)("EventSet %d (%d groups, size %d):",
es->mask, es->count, es->size);
if (es->count == 0) {
VG_(printf)("-\n");
return;
}
for(i=0, mask=1; i<MAX_EVENTGROUP_COUNT; i++, mask=mask<<1) {
if ((es->mask & mask)==0) continue;
eg = CLG_(get_event_group)(i);
if (!eg) continue;
VG_(printf)(" (%d: %s", i, eg->name[0]);
for(j=1; j<eg->size; j++)
VG_(printf)(" %s", eg->name[j]);
VG_(printf)(")");
}
VG_(printf)("\n");
}
void CLG_(print_cost)(int s, EventSet* es, ULong* c)
{
Int i, j, pos, off;
UInt mask;
EventGroup* eg;
if (s<0) {
s = -s;
print_indent(s);
}
if (!es) {
VG_(printf)("Cost (Nothing, EventSet not set)\n");
return;
}
if (!c) {
VG_(printf)("Cost (Null, EventSet %d)\n", es->mask);
return;
}
if (es->size == 0) {
VG_(printf)("Cost (Nothing, EventSet with len 0)\n");
return;
}
pos = s;
pos += VG_(printf)("Cost [%p]: ", c);
off = 0;
for(i=0, mask=1; i<MAX_EVENTGROUP_COUNT; i++, mask=mask<<1) {
if ((es->mask & mask)==0) continue;
eg = CLG_(get_event_group)(i);
if (!eg) continue;
for(j=0; j<eg->size; j++) {
if (off>0) {
if (pos > 70) {
VG_(printf)(",\n");
print_indent(s+5);
pos = s+5;
}
else
pos += VG_(printf)(", ");
}
pos += VG_(printf)("%s %llu", eg->name[j], c[off++]);
}
}
VG_(printf)("\n");
}
void CLG_(print_short_jcc)(jCC* jcc)
{
if (jcc)
VG_(printf)("%#lx => %#lx [calls %llu/Ir %llu, Dr %llu, Dw %llu]",
bb_jmpaddr(jcc->from->bb),
bb_addr(jcc->to->bb),
jcc->call_counter,
jcc->cost ? jcc->cost[fullOffset(EG_IR)]:0,
jcc->cost ? jcc->cost[fullOffset(EG_DR)]:0,
jcc->cost ? jcc->cost[fullOffset(EG_DW)]:0);
else
VG_(printf)("[Skipped JCC]");
}
void CLG_(print_jcc)(int s, jCC* jcc)
{
if (s<0) {
s = -s;
print_indent(s);
}
if (!jcc) {
VG_(printf)("JCC to skipped function\n");
return;
}
VG_(printf)("JCC %p from ", jcc);
CLG_(print_bbcc)(s+9, jcc->from);
print_indent(s+4);
VG_(printf)("to ");
CLG_(print_bbcc)(s+9, jcc->to);
print_indent(s+4);
VG_(printf)("Calls %llu\n", jcc->call_counter);
print_indent(s+4);
CLG_(print_cost)(s+9, CLG_(sets).full, jcc->cost);
}
/* dump out the current call stack */
void CLG_(print_stackentry)(int s, int sp)
{
call_entry* ce;
if (s<0) {
s = -s;
print_indent(s);
}
ce = CLG_(get_call_entry)(sp);
VG_(printf)("[%-2d] SP %#lx, RA %#lx", sp, ce->sp, ce->ret_addr);
if (ce->nonskipped)
VG_(printf)(" NonSkipped BB %#lx / %s",
bb_addr(ce->nonskipped->bb),
ce->nonskipped->cxt->fn[0]->name);
VG_(printf)("\n");
print_indent(s+5);
CLG_(print_jcc)(5,ce->jcc);
}
/* debug output */
#if 0
static void print_call_stack()
{
int c;
VG_(printf)("Call Stack:\n");
for(c=0;c<CLG_(current_call_stack).sp;c++)
CLG_(print_stackentry)(-2, c);
}
#endif
void CLG_(print_bbcc_fn)(BBCC* bbcc)
{
obj_node* obj;
if (!bbcc) {
VG_(printf)("%08x", 0);
return;
}
VG_(printf)("%08lx/%c %d:", bb_addr(bbcc->bb),
(bbcc->bb->sect_kind == Vg_SectText) ? 'T' :
(bbcc->bb->sect_kind == Vg_SectData) ? 'D' :
(bbcc->bb->sect_kind == Vg_SectBSS) ? 'B' :
(bbcc->bb->sect_kind == Vg_SectGOT) ? 'G' :
(bbcc->bb->sect_kind == Vg_SectPLT) ? 'P' : 'U',
bbcc->cxt->base_number+bbcc->rec_index);
print_mangled_cxt(bbcc->cxt, bbcc->rec_index);
obj = bbcc->cxt->fn[0]->file->obj;
if (obj->name[0])
VG_(printf)(" %s", obj->name+obj->last_slash_pos);
if (VG_(strcmp)(bbcc->cxt->fn[0]->file->name, "???") !=0) {
VG_(printf)(" %s", bbcc->cxt->fn[0]->file->name);
if ((bbcc->cxt->fn[0] == bbcc->bb->fn) && (bbcc->bb->line>0))
VG_(printf)(":%d", bbcc->bb->line);
}
}
void CLG_(print_bbcc_cost)(int s, BBCC* bbcc)
{
BB* bb;
Int i, cjmpNo;
ULong ecounter;
if (s<0) {
s = -s;
print_indent(s);
}
if (!bbcc) {
VG_(printf)("BBCC 0x0\n");
return;
}
bb = bbcc->bb;
CLG_ASSERT(bb!=0);
CLG_(print_bbcc)(s, bbcc);
ecounter = bbcc->ecounter_sum;
print_indent(s+2);
VG_(printf)("ECounter: sum %llu ", ecounter);
for(i=0; i<bb->cjmp_count; i++) {
VG_(printf)("[%d]=%llu ",
bb->jmp[i].instr, bbcc->jmp[i].ecounter);
}
VG_(printf)("\n");
cjmpNo = 0;
for(i=0; i<bb->instr_count; i++) {
InstrInfo* ii = &(bb->instr[i]);
print_indent(s+2);
VG_(printf)("[%2d] IOff %2d ecnt %3llu ",
i, ii->instr_offset, ecounter);
CLG_(print_cost)(s+5, ii->eventset, bbcc->cost + ii->cost_offset);
/* update execution counter */
if (cjmpNo < bb->cjmp_count)
if (bb->jmp[cjmpNo].instr == i) {
ecounter -= bbcc->jmp[cjmpNo].ecounter;
cjmpNo++;
}
}
}
/* dump out an address with source info if available */
void CLG_(print_addr)(Addr addr)
{
Char fl_buf[FILENAME_LEN];
Char fn_buf[FN_NAME_LEN];
const UChar* obj_name;
DebugInfo* di;
int ln, i=0, opos=0;
if (addr == 0) {
VG_(printf)("%08lx", addr);
return;
}
CLG_(get_debug_info)(addr, fl_buf, fn_buf, &ln, &di);
if (VG_(strcmp)(fn_buf,"???")==0)
VG_(printf)("%#lx", addr);
else
VG_(printf)("%#lx %s", addr, fn_buf);
if (di) {
obj_name = VG_(DebugInfo_get_filename)(di);
if (obj_name) {
while(obj_name[i]) {
if (obj_name[i]=='/') opos = i+1;
i++;
}
if (obj_name[0])
VG_(printf)(" %s", obj_name+opos);
}
}
if (ln>0)
VG_(printf)(" (%s:%u)", fl_buf,ln);
}
void CLG_(print_addr_ln)(Addr addr)
{
CLG_(print_addr)(addr);
VG_(printf)("\n");
}
static ULong bb_written = 0;
void CLG_(print_bbno)(void)
{
if (bb_written != CLG_(stat).bb_executions) {
bb_written = CLG_(stat).bb_executions;
VG_(printf)("BB# %llu\n",CLG_(stat).bb_executions);
}
}
void CLG_(print_context)(void)
{
BBCC* bbcc;
CLG_DEBUG(0,"In tid %d [%d] ",
CLG_(current_tid), CLG_(current_call_stack).sp);
bbcc = CLG_(current_state).bbcc;
print_mangled_cxt(CLG_(current_state).cxt,
bbcc ? bbcc->rec_index : 0);
VG_(printf)("\n");
}
void* CLG_(malloc)(HChar* cc, UWord s, char* f)
{
CLG_DEBUG(3, "Malloc(%lu) in %s.\n", s, f);
return VG_(malloc)(cc,s);
}
#else /* CLG_ENABLE_DEBUG */
void CLG_(print_bbno)(void) {}
void CLG_(print_context)(void) {}
void CLG_(print_jcc)(int s, jCC* jcc) {}
void CLG_(print_bbcc)(int s, BBCC* bbcc) {}
void CLG_(print_bbcc_fn)(BBCC* bbcc) {}
void CLG_(print_cost)(int s, EventSet* es, ULong* cost) {}
void CLG_(print_bb)(int s, BB* bb) {}
void CLG_(print_cxt)(int s, Context* cxt, int rec_index) {}
void CLG_(print_short_jcc)(jCC* jcc) {}
void CLG_(print_stackentry)(int s, int sp) {}
void CLG_(print_addr)(Addr addr) {}
void CLG_(print_addr_ln)(Addr addr) {}
#endif
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