std::string OutputZonesAsString(const ProfileZone *a_root, uint32_t a_count) { float fTicksToPc = 100.0f / a_root->data.childTicks.avg; std::string str; str.resize((1 + a_count) * (OUTPUT_WIDTH_SUM + 1) - 1); char *s = &str[0]; _printHeader(s, "flat profile"); s += OUTPUT_WIDTH_SUM; (*s++) = '\n'; const ProfileZone *zone = a_root; do { snprintf(s, OUTPUT_WIDTH_NAME + TRAILING, "%-*s", OUTPUT_WIDTH_NAME, zone->name); s += OUTPUT_WIDTH_NAME; _printData(s, zone->data, fTicksToPc); s += OUTPUT_WIDTH_DATA; (*s++) = '\n'; zone = zone->next; } while (zone); *(--s) = '\0'; return str; }
std::string OutputNodesAsString(const ProfileNode *a_root, uint32_t a_count) { float fTicksToPc = 100.0f / a_root->data.childTicks.avg; std::string str; str.resize((1 + a_count) * (OUTPUT_WIDTH_SUM + 1) - 1); char *s = &str[0]; _printHeader(s, "call tree"); s += OUTPUT_WIDTH_SUM; (*s++) = '\n'; const ProfileNode *node = a_root; do { int offset = node->entryLevel * 2; snprintf(s, OUTPUT_WIDTH_NAME + TRAILING, "%*s%-*s", offset, "", OUTPUT_WIDTH_NAME - offset, node->zone->name); s += OUTPUT_WIDTH_NAME; _printData(s, node->data, fTicksToPc); s += OUTPUT_WIDTH_DATA; (*s++) = '\n'; node = node->findNextInTree(); } while (node); *(--s) = '\0'; return str; }
void Box_printRow(T t) { ASSERT(t); if (t->index.row == 0) { _printBorderTop(t); if (t->options.header.enabled) { _printHeader(t); _printBorderMiddle(t); } } else { _printBorderMiddle(t); } boolean_t repeat = false; do { repeat = _printRow(t); } while (repeat); _resetRow(t); }
void KLTWriteFeatureTable( KLT_FeatureTable ft, char *fname, char *fmt) { FILE *fp; char format[100]; char type; int i, j; if (KLT_verbose >= 1 && fname != NULL) { fprintf(stderr, "(KLT) Writing feature table to %s file: '%s'\n", (fmt == NULL ? "binary" : "text"), fname); } if (fmt != NULL) { /* text file or stderr */ fp = _printSetupTxt(fname, fmt, format, &type); _printHeader(fp, format, FEATURE_TABLE, ft->nFrames, ft->nFeatures); for (j = 0 ; j < ft->nFeatures ; j++) { fprintf(fp, "%7d | ", j); for (i = 0 ; i < ft->nFrames ; i++) _printFeatureTxt(fp, ft->feature[j][i], format, type); fprintf(fp, "\n"); } _printShutdown(fp); } else { /* binary file */ fp = _printSetupBin(fname); fwrite(binheader_ft, sizeof(char), BINHEADERLENGTH, fp); fwrite(&(ft->nFrames), sizeof(int), 1, fp); fwrite(&(ft->nFeatures), sizeof(int), 1, fp); for (j = 0 ; j < ft->nFeatures ; j++) { for (i = 0 ; i < ft->nFrames ; i++) { _printFeatureBin(fp, ft->feature[j][i]); } } fclose(fp); } }
void KLTWriteFeatureHistory( KLT_FeatureHistory fh, char *fname, char *fmt) { FILE *fp; char format[100]; char type; int i; if (KLT_verbose >= 1 && fname != NULL) { fprintf(stderr, "(KLT) Writing feature history to %s file: '%s'\n", (fmt == NULL ? "binary" : "text"), fname); } if (fmt != NULL) { /* text file or stderr */ fp = _printSetupTxt(fname, fmt, format, &type); _printHeader(fp, format, FEATURE_HISTORY, fh->nFrames, 0); for (i = 0 ; i < fh->nFrames ; i++) { fprintf(fp, "%5d | ", i); _printFeatureTxt(fp, fh->feature[i], format, type); fprintf(fp, "\n"); } _printShutdown(fp); } else { /* binary file */ fp = _printSetupBin(fname); fwrite(binheader_fh, sizeof(char), BINHEADERLENGTH, fp); fwrite(&(fh->nFrames), sizeof(int), 1, fp); for (i = 0 ; i < fh->nFrames ; i++) { _printFeatureBin(fp, fh->feature[i]); } fclose(fp); } }