#include #include #include #include static mrb_irep_debug_info_file* get_file(mrb_irep_debug_info *info, uint32_t pc) { mrb_irep_debug_info_file **ret; int32_t count; if (pc >= info->pc_count) { return NULL; } /* get upper bound */ ret = info->files; count = info->flen; while (count > 0) { int32_t step = count / 2; mrb_irep_debug_info_file **it = ret + step; if (!(pc < (*it)->start_pos)) { ret = it + 1; count -= step + 1; } else { count = step; } } --ret; /* check returning file exists inside debug info */ mrb_assert(info->files <= ret && ret < (info->files + info->flen)); /* check pc is within the range of returning file */ mrb_assert((*ret)->start_pos <= pc && pc < (((ret + 1 - info->files) < info->flen) ? (*(ret+1))->start_pos : info->pc_count)); return *ret; } static mrb_debug_line_type select_line_type(const uint16_t *lines, size_t lines_len) { size_t line_count = 0; int prev_line = -1; size_t i; for (i = 0; i < lines_len; ++i) { if (lines[i] != prev_line) { ++line_count; } } return (sizeof(uint16_t) * lines_len) <= (sizeof(mrb_irep_debug_info_line) * line_count) ? mrb_debug_line_ary : mrb_debug_line_flat_map; } MRB_API char const* mrb_debug_get_filename(mrb_state *mrb, mrb_irep *irep, ptrdiff_t pc) { if (irep && pc >= 0 && pc < irep->ilen) { mrb_irep_debug_info_file* f = NULL; if (!irep->debug_info) return NULL; else if ((f = get_file(irep->debug_info, (uint32_t)pc))) { return mrb_sym_name_len(mrb, f->filename_sym, NULL); } } return NULL; } MRB_API int32_t mrb_debug_get_line(mrb_state *mrb, mrb_irep *irep, ptrdiff_t pc) { if (irep && pc >= 0 && pc < irep->ilen) { mrb_irep_debug_info_file* f = NULL; if (!irep->debug_info) { return -1; } else if ((f = get_file(irep->debug_info, (uint32_t)pc))) { switch (f->line_type) { case mrb_debug_line_ary: mrb_assert(f->start_pos <= pc && pc < (f->start_pos + f->line_entry_count)); return f->lines.ary[pc - f->start_pos]; case mrb_debug_line_flat_map: { /* get upper bound */ mrb_irep_debug_info_line *ret = f->lines.flat_map; uint32_t count = f->line_entry_count; while (count > 0) { int32_t step = count / 2; mrb_irep_debug_info_line *it = ret + step; if (!(pc < it->start_pos)) { ret = it + 1; count -= step + 1; } else { count = step; } } --ret; /* check line entry pointer range */ mrb_assert(f->lines.flat_map <= ret && ret < (f->lines.flat_map + f->line_entry_count)); /* check pc range */ mrb_assert(ret->start_pos <= pc && pc < (((uint32_t)(ret + 1 - f->lines.flat_map) < f->line_entry_count) ? (ret+1)->start_pos : irep->debug_info->pc_count)); return ret->line; } } } } return -1; } MRB_API mrb_irep_debug_info* mrb_debug_info_alloc(mrb_state *mrb, mrb_irep *irep) { static const mrb_irep_debug_info initial = { 0, 0, NULL }; mrb_irep_debug_info *ret; mrb_assert(!irep->debug_info); ret = (mrb_irep_debug_info *)mrb_malloc(mrb, sizeof(*ret)); *ret = initial; irep->debug_info = ret; return ret; } MRB_API mrb_irep_debug_info_file* mrb_debug_info_append_file(mrb_state *mrb, mrb_irep_debug_info *d, const char *filename, uint16_t *lines, uint32_t start_pos, uint32_t end_pos) { mrb_irep_debug_info_file *f; uint32_t file_pc_count; size_t fn_len; uint32_t i; if (!d) return NULL; if (start_pos == end_pos) return NULL; mrb_assert(filename); mrb_assert(lines); if (d->flen > 0) { const char *fn = mrb_sym_name_len(mrb, d->files[d->flen - 1]->filename_sym, NULL); if (strcmp(filename, fn) == 0) return NULL; } f = (mrb_irep_debug_info_file*)mrb_malloc(mrb, sizeof(*f)); d->files = (mrb_irep_debug_info_file**)( d->files ? mrb_realloc(mrb, d->files, sizeof(mrb_irep_debug_info_file*) * (d->flen + 1)) : mrb_malloc(mrb, sizeof(mrb_irep_debug_info_file*))); d->files[d->flen++] = f; file_pc_count = end_pos - start_pos; f->start_pos = start_pos; d->pc_count = end_pos; fn_len = strlen(filename); f->filename_sym = mrb_intern(mrb, filename, fn_len); f->line_type = select_line_type(lines + start_pos, end_pos - start_pos); f->lines.ptr = NULL; switch (f->line_type) { case mrb_debug_line_ary: f->line_entry_count = file_pc_count; f->lines.ary = (uint16_t*)mrb_malloc(mrb, sizeof(uint16_t) * file_pc_count); for (i = 0; i < file_pc_count; ++i) { f->lines.ary[i] = lines[start_pos + i]; } break; case mrb_debug_line_flat_map: { uint16_t prev_line = 0; mrb_irep_debug_info_line m; f->lines.flat_map = (mrb_irep_debug_info_line*)mrb_malloc(mrb, sizeof(mrb_irep_debug_info_line) * 1); f->line_entry_count = 0; for (i = 0; i < file_pc_count; ++i) { if (lines[start_pos + i] == prev_line) { continue; } f->lines.flat_map = (mrb_irep_debug_info_line*)mrb_realloc( mrb, f->lines.flat_map, sizeof(mrb_irep_debug_info_line) * (f->line_entry_count + 1)); m.start_pos = start_pos + i; m.line = lines[start_pos + i]; f->lines.flat_map[f->line_entry_count] = m; /* update */ ++f->line_entry_count; prev_line = lines[start_pos + i]; } } break; default: mrb_assert(0); break; } return f; } MRB_API void mrb_debug_info_free(mrb_state *mrb, mrb_irep_debug_info *d) { uint32_t i; if (!d) { return; } if (d->files) { for (i = 0; i < d->flen; ++i) { if (d->files[i]) { mrb_free(mrb, d->files[i]->lines.ptr); mrb_free(mrb, d->files[i]); } } mrb_free(mrb, d->files); } mrb_free(mrb, d); }