#include "hp2graph.h"
#include "output.h"
#include "format.h"
#define MIN_SAMPLESIZE 4 /* Minimum number of samples to produce a heap profile */
#define THRESHOLD_PERCENT 1
int pflag = 0; /* read auxiliary file */
int eflag = 0; /* scaled EPSF */
int dflag = 0; /* sort by standard deviation */
int gflag = 0; /* output suitable for previewer */
int showMark = 1;
int showComment = 1;
int showSample = 1;
int showExploded = 0;
int verbose = 0;
int threshold_percent = THRESHOLD_PERCENT;
int epsfwidth;
UInt *yUInts;
double areabelow;
int hpProfile;
int filter; /* hp2graph used as a filter */
FILE *inFile;
FILE *outFile;
FILE *auxFile;
char *inName;
char *outName;
char *auxName;
char *programName;
typedef enum {POINTS, INCHES, MILLIMETRES} pim;
static pim Units(char *wstr)
{
int i;
i = strlen(wstr) - 2;
if (wstr[i] == 'p' && wstr[i+1] == 't') {
return POINTS;
} else if (wstr[i] == 'i' && wstr[i+1] == 'n') {
return INCHES;
} else if (wstr[i] == 'm' && wstr[i+1] == 'm') {
return MILLIMETRES;
} else {
return POINTS;
}
}
static double WidthInPoints(char *wstr)
{
double result;
result = atof(wstr);
switch (Units(wstr)) {
case INCHES:
result *= 72;
break;
case MILLIMETRES:
result = (double)(result*2.834646);
break;
case POINTS:
default: ;
}
return result;
}
static void printSample(int);
int main(int argc, char *argv[])
{
int i = 1;
int bioRestriction = 0;
int lifeRestriction = 0;
int lifetimeHigh = -1;
int lifetimeLow = -1;
int fewFlag = 0;
programName = argv[0];
while (i < argc && argv[i][0] == '-') {
switch(argv[i][1]) {
case '\0':
filter++;
goto nextarg;
case '0':
fewFlag++;
goto nextarg;
case 'v':
verbose++;
goto nextarg;
case 't':
threshold_percent = atoi(&argv[i][2]);
if(verbose) fprintf(stderr,"threshold_percent = %d\n",threshold_percent);
goto nextarg;
case 'p':
pflag++;
if(argv[i][2]) auxName = &argv[i][2];
if(verbose) fprintf(stderr,"auxName = %s\n",auxName?auxName:"<>");
goto nextarg;
case 'e':
eflag++;
epsfwidth = WidthInPoints(&argv[i][2]);
goto nextarg;
case 'd':
dflag++;
goto nextarg;
case 'x':
showExploded++;
goto nextarg;
case 'c':
showComment = 0;
goto nextarg;
case 'y':
showSample = 0;
goto nextarg;
case 'm':
showMark = 0;
goto nextarg;
case 'b':
if(!hpProfile && !argv[i][2])
hpProfile = PROFILE_BIOGRAPHY;
else
bioRestriction |= str2bio(&argv[i][2]);
goto nextarg;
case 'l':
if(!hpProfile && !argv[i][2])
hpProfile = PROFILE_LIFETIME;
else {
lifeRestriction = 1;
str2life(&argv[i][2],&lifetimeLow,&lifetimeHigh);
}
goto nextarg;
case 'f':
if(output) {
fprintf(stderr,"Only one -f allowed!\n");
exit(-1);
} else if (!strcmp(&argv[i][2],"draw")) {
output = &DrawOutput;
} else if (!strcmp(&argv[i][2],"ps")) {
output = &PsOutput;
} else if (!strcmp(&argv[i][2],"mif")) {
output = &MifOutput;
} else {
fprintf(stderr,"Unrecognized format %s!\n",&argv[i][2]);
exit(-1);
}
goto nextarg;
#if 0
case '?':
case 'h':
default:
Usage();
#endif
}
nextarg: ;
i++;
}
if(!output) {
output = &PsOutput;
}
if(gflag && output != &PsOutput) {
fprintf(stderr,"'-g' only allowed for postscript output.");
exit(-1);
}
if (i<argc) {
char *baseName = clone(argv[i]);
char *suff = strrchr(baseName,'.');
if(suff && !strcmp(suff,HP_SUFFIX))
*suff = 0;
inName = append(baseName, HP_SUFFIX);
if(!(inFile = fopen(inName,"r"))) {
fprintf(stderr,"Cannot open %s for input.",inName);
exit(-1);
}
outName = append(baseName, output->suffix);
if(!(outFile = fopen(outName,"w"))) {
fprintf(stderr,"Cannot open %s for output.",outName);
exit(-1);
}
if (!auxName)
auxName = append(baseName,AUX_SUFFIX);
} else { /* filter */
filter = 1;
inName = "<stdin>";
outName = "<stdout>";
inFile = stdin;
outFile = stdout;
if (!auxName) /* amended 19.03.1999, malcolm */
auxName = "stdin.aux";
}
if(pflag) {
if(!(auxFile = fopen(auxName,"r"))) {
fprintf(stderr,"Cannot open %s for input.",auxName);
exit(-1);
}
} else {
if(!(auxFile = fopen(auxName,"w"))) {
fprintf(stderr,"Cannot open %s for output.",auxName);
exit(-1);
}
}
if(!(entrydata = (Entry **)new(ENTRYMAX*sizeof(Entry *)))) {
fprintf(stderr,"No space for entry data in main.");
abort();
}
parseInFile();
if(!(yUInts = (UInt *)new(samplesize*sizeof(UInt)))) {
fprintf(stderr,"No space for census data in main.");
abort();
}
if(hpProfile) {
if(profile == PROFILE_BIOGRAPHY && hpProfile == PROFILE_LIFETIME) {
profile = hpProfile;
changeProfile(profile);
} else if(profile == PROFILE_LIFETIME && hpProfile == PROFILE_BIOGRAPHY) {
profile = hpProfile;
changeProfile(profile);
} else {
fprintf(stderr,"Sorry , can not change profile type for this hp-file.");
exit(-1);
}
}
switch (profile) {
case PROFILE_MODULE:
case PROFILE_PRODUCER:
case PROFILE_CONSTRUCTOR:
if(restriction & PROFILE_BIOGRAPHY) {
if(bioRestriction) {
updateBioRestriction(bioRestriction);
} else {
bioRestriction = decodeBioRestriction();
}
if(lifeRestriction) {
updateLifeRestriction(lifetimeLow,lifetimeHigh);
} else {
decodeLifeRestriction(&lifetimeLow,&lifetimeHigh);
}
bioStatic(bioRestriction,lifetimeLow,lifetimeHigh);
bioRestriction = 0;
lifeRestriction = 0;
} break;
case PROFILE_RETAINER:
break;
case PROFILE_BIOGRAPHY:
case PROFILE_LIFETIME:
if(lifeRestriction) {
updateLifeRestriction(lifetimeLow,lifetimeHigh);
} else {
decodeLifeRestriction(&lifetimeLow,&lifetimeHigh);
}
if(bioRestriction) {
updateBioRestriction(bioRestriction);
} else {
bioRestriction = decodeBioRestriction();
}
if(profile== PROFILE_BIOGRAPHY)
bioBio(!(restriction & PROFILE_RETAINER),(bioRestriction?bioRestriction:BIO_ALL),lifetimeLow,lifetimeHigh);
else
life(!(restriction & PROFILE_RETAINER),(bioRestriction?bioRestriction:BIO_ALL),lifetimeLow,lifetimeHigh);
lifeRestriction = 0;
bioRestriction = 0;
break;
default:
fprintf(stderr,"Unknown profile %d\n",profile);
abort();
}
if(bioRestriction)
fprintf(stderr,"Not enough informatin in %d to use bioraphical filtering.",outName);
if(lifeRestriction)
fprintf(stderr,"Not enough informatin in %d to use life time filtering.",outName);
{ Entry *ep = allEntries();
int i=0;
entrysize = areaEntries(ep);
if(entrysize >= ENTRYMAX)
free(entrydata);
if(!(entrydata = (Entry **)new(entrysize*sizeof(Entry *)))) {
fprintf(stderr,"No space to extend entry data in main.");
abort();
}
while(ep) {
entrydata[i++] = ep;
ep = ep->next;
}
if(i!=entrysize) {
fprintf(stderr,"Inconsistent in main %d != %d.",i,entrysize);
abort();
}
}
if(profile != PROFILE_LIFETIME)
sortEntries();
trcelement(threshold_percent);
#if 0
if (dflag) Deviation();
#endif
initKeys(); /* prepare key colours so that useAuxFlag can reoder them */
if(samplesize<MIN_SAMPLESIZE) {
if(!fewFlag || verbose) {
if(samplesize)
fprintf(stderr,"Only %d",samplesize);
else
fprintf(stderr,"No");
fprintf(stderr," samples in profile read from %s, need at least %d to produce a decent profile.\n"
,inName,MIN_SAMPLESIZE);
}
if(samplesize) {
if(!fewFlag) {
fprintf(stderr,"Use -0 to force a heap profile anyway.\n");
exit(-1);
}
} else {
fprintf(stderr,"There is no way to produce a profile from zero samples!\n");
exit(-1);
}
}
if(pflag)
useAuxFile();
areabelow = areaAll();
topkeys(!pflag);
dimensions();
putFile();
if(!pflag)
writeAuxFile();
return(0);
}
/* For debugging */
static void printKeyStr(Key k)
{
printf("%s",k.token);
}
static void printKeyInt(Key k)
{
printf("%d",k.binfo.all);
}
static void printSample(int late)
{
void (*pK)(Key) ;
int i;
for(i=0; i<samplesize; i++)
printf("SAMPLE %2d: time = %f\n",i,sampledata[i]);
for(i=0; i<marksize; i++)
printf("MARK: time = %f\n",markdata[i]);
for(i=0; i<commentsize; i++)
printf("COMMENT: time = %f \"%s\"\n",commentdata[i].time,commentdata[i].comment);
switch (profile) {
case PROFILE_MODULE:
case PROFILE_PRODUCER:
case PROFILE_CONSTRUCTOR:
case PROFILE_RETAINER:
pK = printKeyStr;
break;
case PROFILE_LIFETIME:
case PROFILE_BIOGRAPHY:
pK = late?printKeyStr:printKeyInt;
break;
default:
fprintf(stderr,"Unknown profile %d\n",profile);
abort();
}
for(i=0; i<ENTRYMAX; i++) {
Entry *ep;
if(entrydata[i])
printf("--------------------------------------------------- %3d\n",i);
for(ep = entrydata[i]; ep; ep = ep->next) {
Value *vp;
pK(ep->key);
printf("\n");
for(vp = ep->value; vp; vp = vp->next)
printf(" census = %2d info = %8x size = %d\n",vp->census,vp->binfo.all,vp->size);
}
}
}
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