#ifndef TINYGLTF3_SOURCE_INCLUDED_FROM_HEADER #include "tiny_gltf_v3.h" #endif #define TINYGLTF_JSON_C_IMPLEMENTATION #include "tinygltf_json_c.h" #include #include #include #include #include #define TG3__ARENA_DEFAULT_BLOCK_SIZE (256u * 1024u) #define TG3__ARENA_ALIGNMENT 8u typedef struct tg3__arena_block { struct tg3__arena_block *next; uint8_t *base; size_t used; size_t capacity; } tg3__arena_block; typedef struct tg3_arena tg3_arena; struct tg3_arena { tg3__arena_block *head; tg3__arena_block *current; size_t total_allocated; size_t memory_budget; size_t max_single_alloc; size_t block_size; tg3_allocator alloc; }; typedef struct tg3__parse_ctx { tg3_arena *arena; tg3_error_stack *errors; tg3_parse_options opts; const char *base_dir; uint32_t base_dir_len; const uint8_t *bin_data; uint64_t bin_size; int32_t is_binary; } tg3__parse_ctx; struct tg3_writer { tg3_write_chunk_fn chunk_fn; void *user_data; tg3_write_options options; tg3json_value root; int begun; }; static void *tg3__default_alloc(size_t size, void *ud) { (void)ud; return malloc(size); } static void *tg3__default_realloc(void *ptr, size_t old_size, size_t new_size, void *ud) { (void)old_size; (void)ud; return realloc(ptr, new_size); } static void tg3__default_free(void *ptr, size_t size, void *ud) { (void)size; (void)ud; free(ptr); } static tg3_arena *tg3__arena_create(const tg3_memory_config *config) { tg3_allocator alloc; tg3_arena *arena; if (config && config->allocator.alloc) { alloc = config->allocator; } else { alloc.alloc = tg3__default_alloc; alloc.realloc = tg3__default_realloc; alloc.free = tg3__default_free; alloc.user_data = NULL; } arena = (tg3_arena *)alloc.alloc(sizeof(tg3_arena), alloc.user_data); if (!arena) return NULL; memset(arena, 0, sizeof(*arena)); arena->alloc = alloc; arena->block_size = (config && config->arena_block_size > 0) ? (size_t)config->arena_block_size : (size_t)TG3__ARENA_DEFAULT_BLOCK_SIZE; arena->memory_budget = (config && config->memory_budget > 0) ? (size_t)config->memory_budget : (size_t)TINYGLTF3_MAX_MEMORY_BYTES; arena->max_single_alloc = (config && config->max_single_alloc > 0) ? (size_t)config->max_single_alloc : 0; return arena; } static tg3__arena_block *tg3__arena_new_block(tg3_arena *arena, size_t min_size) { size_t cap = arena->block_size; uint8_t *raw; tg3__arena_block *block; if (cap < min_size) cap = min_size; if (arena->max_single_alloc && cap > arena->max_single_alloc) return NULL; if (arena->total_allocated + sizeof(tg3__arena_block) + cap > arena->memory_budget) return NULL; raw = (uint8_t *)arena->alloc.alloc(sizeof(tg3__arena_block) + cap, arena->alloc.user_data); if (!raw) return NULL; block = (tg3__arena_block *)raw; block->next = NULL; block->base = raw + sizeof(tg3__arena_block); block->used = 0; block->capacity = cap; arena->total_allocated += sizeof(tg3__arena_block) + cap; if (arena->current) arena->current->next = block; else arena->head = block; arena->current = block; return block; } static void *tg3__arena_alloc(tg3_arena *arena, size_t size) { tg3__arena_block *block; void *ptr; if (!arena || size == 0) return NULL; if (arena->max_single_alloc && size > arena->max_single_alloc) return NULL; size = (size + (TG3__ARENA_ALIGNMENT - 1u)) & ~(size_t)(TG3__ARENA_ALIGNMENT - 1u); block = arena->current; if (!block || (block->used + size > block->capacity)) { block = tg3__arena_new_block(arena, size); if (!block) return NULL; } ptr = block->base + block->used; block->used += size; return ptr; } static char *tg3__arena_strdup(tg3_arena *arena, const char *s, size_t len) { char *dst; if (!s) return NULL; dst = (char *)tg3__arena_alloc(arena, len + 1); if (!dst) return NULL; if (len > 0) memcpy(dst, s, len); dst[len] = '\0'; return dst; } static tg3_str tg3__arena_str(tg3_arena *arena, const char *s, uint32_t len) { tg3_str out; out.data = tg3__arena_strdup(arena, s, len); out.len = out.data ? len : 0; return out; } static void tg3__arena_destroy(tg3_arena *arena) { tg3_allocator alloc; tg3__arena_block *block; if (!arena) return; alloc = arena->alloc; block = arena->head; while (block) { tg3__arena_block *next = block->next; alloc.free(block, sizeof(tg3__arena_block) + block->capacity, alloc.user_data); block = next; } alloc.free(arena, sizeof(*arena), alloc.user_data); } static void tg3__error_push(tg3_error_stack *es, tg3_severity sev, tg3_error_code code, const char *msg, const char *json_path, int64_t byte_offset) { tg3_error_entry *entry; tg3_error_entry *new_entries; uint32_t new_cap; if (!es) return; if (es->count >= es->capacity) { new_cap = es->capacity ? es->capacity * 2u : 16u; new_entries = (tg3_error_entry *)realloc(es->entries, new_cap * sizeof(tg3_error_entry)); if (!new_entries) return; es->entries = new_entries; es->capacity = new_cap; } entry = &es->entries[es->count++]; entry->severity = sev; entry->code = code; entry->message = msg; entry->json_path = json_path; entry->byte_offset = byte_offset; if (sev == TG3_SEVERITY_ERROR) es->has_error = 1; } static void tg3__error_pushf(tg3_error_stack *es, tg3_arena *arena, tg3_severity sev, tg3_error_code code, const char *json_path, const char *fmt, ...) { char buf[1024]; int n; va_list ap; const char *msg = buf; if (!es) return; va_start(ap, fmt); n = vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); if (n < 0) n = 0; if ((size_t)n >= sizeof(buf)) n = (int)(sizeof(buf) - 1u); if (arena) { char *dup = tg3__arena_strdup(arena, buf, (size_t)n); if (dup) msg = dup; } tg3__error_push(es, sev, code, msg, json_path, -1); } TINYGLTF3_API int32_t tg3_errors_has_error(const tg3_error_stack *es) { return es ? es->has_error : 0; } TINYGLTF3_API uint32_t tg3_errors_count(const tg3_error_stack *es) { return es ? es->count : 0; } TINYGLTF3_API const tg3_error_entry *tg3_errors_get(const tg3_error_stack *es, uint32_t index) { if (!es || index >= es->count) return NULL; return &es->entries[index]; } TINYGLTF3_API void tg3_error_stack_init(tg3_error_stack *es) { if (es) memset(es, 0, sizeof(*es)); } TINYGLTF3_API void tg3_error_stack_free(tg3_error_stack *es) { if (!es) return; free(es->entries); memset(es, 0, sizeof(*es)); } TINYGLTF3_API void tg3_parse_options_init(tg3_parse_options *options) { if (!options) return; memset(options, 0, sizeof(*options)); options->required_sections = TG3_REQUIRE_VERSION; options->strictness = TG3_PERMISSIVE; options->memory.memory_budget = TINYGLTF3_MAX_MEMORY_BYTES; options->memory.arena_block_size = TG3__ARENA_DEFAULT_BLOCK_SIZE; options->max_external_file_size = 0; } TINYGLTF3_API void tg3_write_options_init(tg3_write_options *options) { if (!options) return; memset(options, 0, sizeof(*options)); options->pretty_print = 1; options->memory.memory_budget = TINYGLTF3_MAX_MEMORY_BYTES; options->memory.arena_block_size = TG3__ARENA_DEFAULT_BLOCK_SIZE; } TINYGLTF3_API int32_t tg3_component_size(int32_t component_type) { switch (component_type) { case TG3_COMPONENT_TYPE_BYTE: case TG3_COMPONENT_TYPE_UNSIGNED_BYTE: return 1; case TG3_COMPONENT_TYPE_SHORT: case TG3_COMPONENT_TYPE_UNSIGNED_SHORT: return 2; case TG3_COMPONENT_TYPE_INT: case TG3_COMPONENT_TYPE_UNSIGNED_INT: case TG3_COMPONENT_TYPE_FLOAT: return 4; case TG3_COMPONENT_TYPE_DOUBLE: return 8; default: return -1; } } TINYGLTF3_API int32_t tg3_num_components(int32_t type) { switch (type) { case TG3_TYPE_SCALAR: return 1; case TG3_TYPE_VEC2: return 2; case TG3_TYPE_VEC3: return 3; case TG3_TYPE_VEC4: return 4; case TG3_TYPE_MAT2: return 4; case TG3_TYPE_MAT3: return 9; case TG3_TYPE_MAT4: return 16; default: return -1; } } TINYGLTF3_API int32_t tg3_accessor_byte_stride(const tg3_accessor *accessor, const tg3_buffer_view *bv) { int32_t comp; int32_t num; if (bv && bv->byte_stride > 0) return (int32_t)bv->byte_stride; comp = tg3_component_size(accessor->component_type); num = tg3_num_components(accessor->type); if (comp < 0 || num < 0) return -1; return comp * num; } TINYGLTF3_API int32_t tg3_str_equals(tg3_str a, tg3_str b) { if (a.len != b.len) return 0; if (a.len == 0) return 1; return memcmp(a.data, b.data, a.len) == 0 ? 1 : 0; } TINYGLTF3_API int32_t tg3_str_equals_cstr(tg3_str a, const char *b) { uint32_t blen; if (!b) return a.len == 0 ? 1 : 0; blen = (uint32_t)strlen(b); if (a.len != blen) return 0; if (a.len == 0) return 1; return memcmp(a.data, b, a.len) == 0 ? 1 : 0; } static int tg3__b64_decode_char(unsigned char c) { if (c >= 'A' && c <= 'Z') return c - 'A'; if (c >= 'a' && c <= 'z') return c - 'a' + 26; if (c >= '0' && c <= '9') return c - '0' + 52; if (c == '+') return 62; if (c == '/') return 63; return -1; } static uint8_t *tg3__b64_decode(const char *input, size_t input_len, size_t *out_len, tg3_arena *arena) { uint8_t *out; size_t decoded_len; size_t i; size_t j = 0; uint32_t accum = 0; int bits = 0; if (input_len == 0) { *out_len = 0; return NULL; } while (input_len > 0 && input[input_len - 1] == '=') --input_len; decoded_len = (input_len * 3u) / 4u; out = (uint8_t *)tg3__arena_alloc(arena, decoded_len + 1u); if (!out) { *out_len = 0; return NULL; } for (i = 0; i < input_len; ++i) { int val = tg3__b64_decode_char((unsigned char)input[i]); if (val < 0) continue; accum = (accum << 6) | (uint32_t)val; bits += 6; if (bits >= 8) { bits -= 8; out[j++] = (uint8_t)((accum >> bits) & 0xFFu); } } *out_len = j; return out; } TINYGLTF3_API int32_t tg3_is_data_uri(const char *uri, uint32_t len) { return (uri && len >= 5u && memcmp(uri, "data:", 5) == 0) ? 1 : 0; } typedef struct tg3__data_uri_result { const char *data_start; size_t data_len; char mime_type[64]; } tg3__data_uri_result; static int tg3__parse_data_uri(const char *uri, uint32_t uri_len, tg3__data_uri_result *result) { const char *p; const char *end; const char *semi; size_t mime_len; if (!uri || uri_len < 5u || memcmp(uri, "data:", 5) != 0) return 0; p = uri + 5; end = uri + uri_len; semi = p; while (semi < end && *semi != ';') ++semi; if (semi >= end) return 0; mime_len = (size_t)(semi - p); if (mime_len >= sizeof(result->mime_type)) mime_len = sizeof(result->mime_type) - 1u; memcpy(result->mime_type, p, mime_len); result->mime_type[mime_len] = '\0'; p = semi + 1; if ((size_t)(end - p) < 7u || memcmp(p, "base64,", 7) != 0) return 0; p += 7; result->data_start = p; result->data_len = (size_t)(end - p); return 1; } static uint8_t *tg3__decode_data_uri(tg3_arena *arena, const char *uri, uint32_t uri_len, size_t *out_len, char *out_mime, size_t out_mime_cap) { tg3__data_uri_result dr; size_t mlen; if (!tg3__parse_data_uri(uri, uri_len, &dr)) { *out_len = 0; return NULL; } if (out_mime && out_mime_cap > 0) { mlen = strlen(dr.mime_type); if (mlen >= out_mime_cap) mlen = out_mime_cap - 1u; memcpy(out_mime, dr.mime_type, mlen); out_mime[mlen] = '\0'; } return tg3__b64_decode(dr.data_start, dr.data_len, out_len, arena); } #ifdef TINYGLTF3_ENABLE_FS static int32_t tg3__fs_file_exists(const char *path, uint32_t path_len, void *ud) { FILE *fp; (void)path_len; (void)ud; fp = fopen(path, "rb"); if (!fp) return 0; fclose(fp); return 1; } static int32_t tg3__fs_read_file(uint8_t **out_data, uint64_t *out_size, const char *path, uint32_t path_len, void *ud) { FILE *fp; long size; uint8_t *data; size_t nread; (void)path_len; (void)ud; *out_data = NULL; *out_size = 0; fp = fopen(path, "rb"); if (!fp) return 0; if (fseek(fp, 0, SEEK_END) != 0) { fclose(fp); return 0; } size = ftell(fp); if (size < 0) { fclose(fp); return 0; } if (fseek(fp, 0, SEEK_SET) != 0) { fclose(fp); return 0; } data = (uint8_t *)malloc((size_t)size); if (!data) { fclose(fp); return 0; } nread = fread(data, 1, (size_t)size, fp); fclose(fp); if (nread != (size_t)size) { free(data); return 0; } *out_data = data; *out_size = (uint64_t)size; return 1; } static void tg3__fs_free_file(uint8_t *data, uint64_t size, void *ud) { (void)size; (void)ud; free(data); } static int32_t tg3__fs_write_file(const char *path, uint32_t path_len, const uint8_t *data, uint64_t size, void *ud) { FILE *fp; size_t nwritten; (void)path_len; (void)ud; fp = fopen(path, "wb"); if (!fp) return 0; nwritten = fwrite(data, 1, (size_t)size, fp); fclose(fp); return nwritten == (size_t)size ? 1 : 0; } static void tg3__set_default_fs(tg3_fs_callbacks *fs) { if (!fs->read_file) fs->read_file = tg3__fs_read_file; if (!fs->free_file) fs->free_file = tg3__fs_free_file; if (!fs->file_exists) fs->file_exists = tg3__fs_file_exists; if (!fs->write_file) fs->write_file = tg3__fs_write_file; } #endif static void tg3__model_init(tg3_model *model) { memset(model, 0, sizeof(*model)); model->default_scene = -1; } static int tg3__json_is_number(const tg3json_value *v) { return v && (v->type == TG3JSON_INT || v->type == TG3JSON_REAL); } static int tg3__json_number_to_int32(const tg3json_value *v, int32_t *out) { double real; int32_t converted; if (!tg3__json_is_number(v) || !out) return 0; if (v->type == TG3JSON_INT) { if (v->u.integer < INT32_MIN || v->u.integer > INT32_MAX) return 0; *out = (int32_t)v->u.integer; return 1; } real = v->u.real; if (!isfinite(real) || real < (double)INT32_MIN || real > (double)INT32_MAX) { return 0; } converted = (int32_t)real; if ((double)converted != real) return 0; *out = converted; return 1; } static int tg3__json_number_to_uint64(const tg3json_value *v, uint64_t *out) { double real; uint64_t converted; /* Doubles have a 53-bit mantissa, so 2^64 itself rounds up and would be UB on cast to uint64_t. Cap at the largest representable value strictly below 2^64 (== 2^64 - 2^11). */ const double max_safe_uint64_real = 18446744073709547520.0; if (!tg3__json_is_number(v) || !out) return 0; if (v->type == TG3JSON_INT) { if (v->u.integer < 0) return 0; *out = (uint64_t)v->u.integer; return 1; } real = v->u.real; if (!isfinite(real) || real < 0.0 || real > max_safe_uint64_real) { return 0; } converted = (uint64_t)real; if ((double)converted != real) return 0; *out = converted; return 1; } static double tg3__json_number_to_double(const tg3json_value *v) { if (!v) return 0.0; if (v->type == TG3JSON_INT) return (double)v->u.integer; if (v->type == TG3JSON_REAL) return v->u.real; return 0.0; } static int tg3__json_is_object(const tg3json_value *v) { return v && v->type == TG3JSON_OBJECT; } static int tg3__json_is_array(const tg3json_value *v) { return v && v->type == TG3JSON_ARRAY; } static int tg3__json_has(const tg3json_value *o, const char *key) { return tg3json_object_get(o, key) ? 1 : 0; } static const tg3json_value *tg3__json_get(const tg3json_value *o, const char *key) { return tg3json_object_get(o, key); } static int tg3__parse_string(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, tg3_str *out, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } out->data = NULL; out->len = 0; return 1; } if (it->type != TG3JSON_STRING) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a string", key); return 0; } *out = tg3__arena_str(ctx->arena, it->u.string.ptr, (uint32_t)it->u.string.len); return out->data != NULL || it->u.string.len == 0; } static int tg3__parse_int(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, int32_t *out, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } return 1; } if (!tg3__json_is_number(it)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a number", key); return 0; } if (!tg3__json_number_to_int32(it, out)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a finite int32-valued number", key); return 0; } return 1; } static int tg3__parse_uint64(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, uint64_t *out, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } return 1; } if (!tg3__json_is_number(it)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a number", key); return 0; } if (!tg3__json_number_to_uint64(it, out)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a finite uint64-valued number", key); return 0; } return 1; } static int tg3__parse_double(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, double *out, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } return 1; } if (!tg3__json_is_number(it)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a number", key); return 0; } *out = tg3__json_number_to_double(it); return 1; } static int tg3__parse_bool(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, int32_t *out, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } return 1; } if (it->type != TG3JSON_BOOL) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be a boolean", key); return 0; } *out = it->u.boolean ? 1 : 0; return 1; } static int tg3__parse_number_array(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, const double **out, uint32_t *out_count, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); size_t count; size_t i; double *arr; if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } *out = NULL; *out_count = 0; return 1; } if (!tg3__json_is_array(it)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be an array", key); return 0; } count = tg3json_array_size(it); if (count == 0) { *out = NULL; *out_count = 0; return 1; } arr = (double *)tg3__arena_alloc(ctx->arena, count * sizeof(double)); if (!arr) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "OOM allocating number array", parent, -1); return 0; } for (i = 0; i < count; ++i) { arr[i] = tg3__json_number_to_double(tg3json_array_get(it, i)); } *out = arr; *out_count = (uint32_t)count; return 1; } static int tg3__parse_int_array(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, const int32_t **out, uint32_t *out_count, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); size_t count; size_t i; int32_t *arr; if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } *out = NULL; *out_count = 0; return 1; } if (!tg3__json_is_array(it)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' must be an array", key); return 0; } count = tg3json_array_size(it); if (count == 0) { *out = NULL; *out_count = 0; return 1; } arr = (int32_t *)tg3__arena_alloc(ctx->arena, count * sizeof(int32_t)); if (!arr) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "OOM allocating int array", parent, -1); return 0; } for (i = 0; i < count; ++i) { const tg3json_value *item = tg3json_array_get(it, i); if (!item || !tg3__json_number_to_int32(item, &arr[i])) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, parent, "Field '%s' element %u must be a finite int32-valued number", key, (unsigned)i); return 0; } } *out = arr; *out_count = (uint32_t)count; return 1; } static void tg3__parse_number_to_fixed(const tg3json_value *o, const char *key, double *out, uint32_t max_count) { const tg3json_value *it = tg3__json_get(o, key); size_t count; size_t i; if (!tg3__json_is_array(it)) return; count = tg3json_array_size(it); if (count > max_count) count = max_count; for (i = 0; i < count; ++i) { const tg3json_value *item = tg3json_array_get(it, i); if (!item) continue; out[i] = tg3__json_number_to_double(item); } } static int tg3__parse_string_array(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, const tg3_str **out, uint32_t *out_count, int required, const char *parent) { const tg3json_value *it = tg3__json_get(o, key); size_t count; size_t i; tg3_str *arr; if (!it) { if (required) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_MISSING_FIELD, parent, "Missing required field '%s'", key); return 0; } *out = NULL; *out_count = 0; return 1; } if (!tg3__json_is_array(it)) return 0; count = tg3json_array_size(it); if (count == 0) { *out = NULL; *out_count = 0; return 1; } arr = (tg3_str *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_str)); if (!arr) return 0; for (i = 0; i < count; ++i) { const tg3json_value *item = tg3json_array_get(it, i); if (!item || item->type != TG3JSON_STRING) { arr[i].data = NULL; arr[i].len = 0; continue; } arr[i] = tg3__arena_str(ctx->arena, item->u.string.ptr, (uint32_t)item->u.string.len); } *out = arr; *out_count = (uint32_t)count; return 1; } static tg3_value tg3__json_to_value(tg3__parse_ctx *ctx, const tg3json_value *j) { tg3_value v; size_t i; memset(&v, 0, sizeof(v)); if (!j) return v; switch (j->type) { case TG3JSON_NULL: v.type = TG3_VALUE_NULL; break; case TG3JSON_BOOL: v.type = TG3_VALUE_BOOL; v.bool_val = j->u.boolean ? 1 : 0; break; case TG3JSON_INT: v.type = TG3_VALUE_INT; v.int_val = j->u.integer; break; case TG3JSON_REAL: v.type = TG3_VALUE_REAL; v.real_val = j->u.real; break; case TG3JSON_STRING: v.type = TG3_VALUE_STRING; v.string_val = tg3__arena_str(ctx->arena, j->u.string.ptr, (uint32_t)j->u.string.len); break; case TG3JSON_ARRAY: v.type = TG3_VALUE_ARRAY; if (j->u.array.count > 0) { tg3_value *arr = (tg3_value *)tg3__arena_alloc(ctx->arena, j->u.array.count * sizeof(tg3_value)); if (arr) { for (i = 0; i < j->u.array.count; ++i) arr[i] = tg3__json_to_value(ctx, &j->u.array.items[i]); v.array_data = arr; v.array_count = (uint32_t)j->u.array.count; } } break; case TG3JSON_OBJECT: v.type = TG3_VALUE_OBJECT; if (j->u.object.count > 0) { tg3_kv_pair *pairs = (tg3_kv_pair *)tg3__arena_alloc(ctx->arena, j->u.object.count * sizeof(tg3_kv_pair)); if (pairs) { for (i = 0; i < j->u.object.count; ++i) { pairs[i].key = tg3__arena_str(ctx->arena, j->u.object.items[i].key, (uint32_t)j->u.object.items[i].key_len); pairs[i].value = tg3__json_to_value(ctx, j->u.object.items[i].value); } v.object_data = pairs; v.object_count = (uint32_t)j->u.object.count; } } break; } return v; } static void tg3__parse_extras_and_extensions(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_extras_ext *ee) { const tg3json_value *extras_it; const tg3json_value *ext_it; memset(ee, 0, sizeof(*ee)); extras_it = tg3__json_get(o, "extras"); if (extras_it) { tg3_value *ev = (tg3_value *)tg3__arena_alloc(ctx->arena, sizeof(tg3_value)); if (ev) { *ev = tg3__json_to_value(ctx, extras_it); ee->extras = ev; } if (ctx->opts.store_original_json) { size_t raw_len = 0; char *raw = tg3json_stringify(extras_it, &raw_len); if (raw) { ee->extras_json = tg3__arena_str(ctx->arena, raw, (uint32_t)raw_len); free(raw); } } } ext_it = tg3__json_get(o, "extensions"); if (tg3__json_is_object(ext_it)) { size_t count = tg3json_object_size(ext_it); size_t i; if (count > 0) { tg3_extension *exts = (tg3_extension *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_extension)); if (exts) { for (i = 0; i < count; ++i) { const tg3json_object_entry *entry = tg3json_object_at(ext_it, i); exts[i].name = tg3__arena_str(ctx->arena, entry->key, (uint32_t)entry->key_len); exts[i].value = tg3__json_to_value(ctx, entry->value); } ee->extensions = exts; ee->extensions_count = (uint32_t)count; } } if (ctx->opts.store_original_json) { size_t raw_len = 0; char *raw = tg3json_stringify(ext_it, &raw_len); if (raw) { ee->extensions_json = tg3__arena_str(ctx->arena, raw, (uint32_t)raw_len); free(raw); } } } } static void tg3__init_texture_info(tg3_texture_info *ti) { memset(ti, 0, sizeof(*ti)); ti->index = -1; } static void tg3__init_normal_texture_info(tg3_normal_texture_info *ti) { memset(ti, 0, sizeof(*ti)); ti->index = -1; ti->scale = 1.0; } static void tg3__init_occlusion_texture_info(tg3_occlusion_texture_info *ti) { memset(ti, 0, sizeof(*ti)); ti->index = -1; ti->strength = 1.0; } static void tg3__init_pbr(tg3_pbr_metallic_roughness *pbr) { memset(pbr, 0, sizeof(*pbr)); pbr->base_color_factor[0] = 1.0; pbr->base_color_factor[1] = 1.0; pbr->base_color_factor[2] = 1.0; pbr->base_color_factor[3] = 1.0; pbr->metallic_factor = 1.0; pbr->roughness_factor = 1.0; tg3__init_texture_info(&pbr->base_color_texture); tg3__init_texture_info(&pbr->metallic_roughness_texture); } static void tg3__init_node(tg3_node *n) { memset(n, 0, sizeof(*n)); n->camera = -1; n->skin = -1; n->mesh = -1; n->light = -1; n->emitter = -1; n->rotation[3] = 1.0; n->scale[0] = 1.0; n->scale[1] = 1.0; n->scale[2] = 1.0; n->matrix[0] = 1.0; n->matrix[5] = 1.0; n->matrix[10] = 1.0; n->matrix[15] = 1.0; } static int tg3__parse_asset(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_asset *asset) { memset(asset, 0, sizeof(*asset)); tg3__parse_string(ctx, o, "version", &asset->version, 0, "/asset"); tg3__parse_string(ctx, o, "generator", &asset->generator, 0, "/asset"); tg3__parse_string(ctx, o, "minVersion", &asset->min_version, 0, "/asset"); tg3__parse_string(ctx, o, "copyright", &asset->copyright, 0, "/asset"); tg3__parse_extras_and_extensions(ctx, o, &asset->ext); return 1; } static int tg3__parse_texture_info(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, tg3_texture_info *ti) { const tg3json_value *it = tg3__json_get(o, key); tg3__init_texture_info(ti); if (!it) return 1; if (!tg3__json_is_object(it)) return 0; tg3__parse_int(ctx, it, "index", &ti->index, 0, key); tg3__parse_int(ctx, it, "texCoord", &ti->tex_coord, 0, key); tg3__parse_extras_and_extensions(ctx, it, &ti->ext); return 1; } static int tg3__parse_normal_texture_info(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, tg3_normal_texture_info *ti) { const tg3json_value *it = tg3__json_get(o, key); tg3__init_normal_texture_info(ti); if (!it) return 1; if (!tg3__json_is_object(it)) return 0; tg3__parse_int(ctx, it, "index", &ti->index, 0, key); tg3__parse_int(ctx, it, "texCoord", &ti->tex_coord, 0, key); tg3__parse_double(ctx, it, "scale", &ti->scale, 0, key); tg3__parse_extras_and_extensions(ctx, it, &ti->ext); return 1; } static int tg3__parse_occlusion_texture_info(tg3__parse_ctx *ctx, const tg3json_value *o, const char *key, tg3_occlusion_texture_info *ti) { const tg3json_value *it = tg3__json_get(o, key); tg3__init_occlusion_texture_info(ti); if (!it) return 1; if (!tg3__json_is_object(it)) return 0; tg3__parse_int(ctx, it, "index", &ti->index, 0, key); tg3__parse_int(ctx, it, "texCoord", &ti->tex_coord, 0, key); tg3__parse_double(ctx, it, "strength", &ti->strength, 0, key); tg3__parse_extras_and_extensions(ctx, it, &ti->ext); return 1; } static int tg3__accessor_type_from_string(const char *s, size_t len) { if (len == 6 && memcmp(s, "SCALAR", 6) == 0) return TG3_TYPE_SCALAR; if (len == 4 && memcmp(s, "VEC2", 4) == 0) return TG3_TYPE_VEC2; if (len == 4 && memcmp(s, "VEC3", 4) == 0) return TG3_TYPE_VEC3; if (len == 4 && memcmp(s, "VEC4", 4) == 0) return TG3_TYPE_VEC4; if (len == 4 && memcmp(s, "MAT2", 4) == 0) return TG3_TYPE_MAT2; if (len == 4 && memcmp(s, "MAT3", 4) == 0) return TG3_TYPE_MAT3; if (len == 4 && memcmp(s, "MAT4", 4) == 0) return TG3_TYPE_MAT4; return -1; } static int tg3__parse_accessor_sparse(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_accessor_sparse *sparse) { const tg3json_value *it = tg3__json_get(o, "sparse"); memset(sparse, 0, sizeof(*sparse)); sparse->indices.buffer_view = -1; sparse->values.buffer_view = -1; if (!it) return 1; if (!tg3__json_is_object(it)) return 0; sparse->is_sparse = 1; tg3__parse_int(ctx, it, "count", &sparse->count, 1, "/sparse"); { const tg3json_value *idx_it = tg3__json_get(it, "indices"); if (tg3__json_is_object(idx_it)) { uint64_t bo = 0; tg3__parse_int(ctx, idx_it, "bufferView", &sparse->indices.buffer_view, 1, "/sparse/indices"); tg3__parse_int(ctx, idx_it, "componentType", &sparse->indices.component_type, 1, "/sparse/indices"); tg3__parse_uint64(ctx, idx_it, "byteOffset", &bo, 0, "/sparse/indices"); sparse->indices.byte_offset = bo; tg3__parse_extras_and_extensions(ctx, idx_it, &sparse->indices.ext); } } { const tg3json_value *val_it = tg3__json_get(it, "values"); if (tg3__json_is_object(val_it)) { uint64_t bo = 0; tg3__parse_int(ctx, val_it, "bufferView", &sparse->values.buffer_view, 1, "/sparse/values"); tg3__parse_uint64(ctx, val_it, "byteOffset", &bo, 0, "/sparse/values"); sparse->values.byte_offset = bo; tg3__parse_extras_and_extensions(ctx, val_it, &sparse->values.ext); } } tg3__parse_extras_and_extensions(ctx, it, &sparse->ext); return 1; } static int tg3__parse_accessor(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_accessor *acc) { tg3_str type_str; uint64_t bo = 0; uint64_t cnt = 0; memset(acc, 0, sizeof(*acc)); acc->buffer_view = -1; acc->component_type = -1; acc->type = -1; tg3__parse_string(ctx, o, "name", &acc->name, 0, "/accessor"); tg3__parse_int(ctx, o, "bufferView", &acc->buffer_view, 0, "/accessor"); tg3__parse_uint64(ctx, o, "byteOffset", &bo, 0, "/accessor"); acc->byte_offset = bo; tg3__parse_bool(ctx, o, "normalized", &acc->normalized, 0, "/accessor"); tg3__parse_int(ctx, o, "componentType", &acc->component_type, 1, "/accessor"); tg3__parse_uint64(ctx, o, "count", &cnt, 1, "/accessor"); acc->count = cnt; type_str.data = NULL; type_str.len = 0; tg3__parse_string(ctx, o, "type", &type_str, 1, "/accessor"); if (type_str.data) acc->type = tg3__accessor_type_from_string(type_str.data, type_str.len); tg3__parse_number_array(ctx, o, "min", &acc->min_values, &acc->min_values_count, 0, "/accessor"); tg3__parse_number_array(ctx, o, "max", &acc->max_values, &acc->max_values_count, 0, "/accessor"); tg3__parse_accessor_sparse(ctx, o, &acc->sparse); tg3__parse_extras_and_extensions(ctx, o, &acc->ext); return 1; } static int tg3__load_external_file(tg3__parse_ctx *ctx, uint8_t **out_data, uint64_t *out_size, const char *uri, uint32_t uri_len) { char path_buf[4096]; uint32_t path_len = 0; int32_t ok; if (!ctx->opts.fs.read_file) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_FS_NOT_AVAILABLE, "No filesystem callbacks available", NULL, -1); return 0; } if (ctx->base_dir_len > 0) { if (ctx->base_dir_len + 1u + uri_len >= sizeof(path_buf)) return 0; memcpy(path_buf, ctx->base_dir, ctx->base_dir_len); path_len = ctx->base_dir_len; if (path_len > 0 && path_buf[path_len - 1u] != '/' && path_buf[path_len - 1u] != '\\') { path_buf[path_len++] = '/'; } } if (path_len + uri_len >= sizeof(path_buf)) return 0; memcpy(path_buf + path_len, uri, uri_len); path_len += uri_len; path_buf[path_len] = '\0'; ok = ctx->opts.fs.read_file(out_data, out_size, path_buf, path_len, ctx->opts.fs.user_data); if (!ok) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_FILE_READ, NULL, "Failed to read file: %s", path_buf); return 0; } return 1; } static int tg3__parse_buffer(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_buffer *buf, int32_t buf_idx) { uint64_t byte_length = 0; memset(buf, 0, sizeof(*buf)); tg3__parse_string(ctx, o, "name", &buf->name, 0, "/buffer"); tg3__parse_string(ctx, o, "uri", &buf->uri, 0, "/buffer"); tg3__parse_uint64(ctx, o, "byteLength", &byte_length, 1, "/buffer"); if (ctx->is_binary && buf_idx == 0 && buf->uri.len == 0) { uint8_t *data; if (!ctx->bin_data || ctx->bin_size < byte_length) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_BUFFER_SIZE_MISMATCH, "GLB BIN chunk missing or smaller than buffer.byteLength", NULL, -1); return 0; } data = (uint8_t *)tg3__arena_alloc(ctx->arena, (size_t)byte_length); if (!data) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "OOM for buffer data", NULL, -1); return 0; } memcpy(data, ctx->bin_data, (size_t)byte_length); buf->data.data = data; buf->data.count = byte_length; } else if (buf->uri.len > 0) { if (tg3_is_data_uri(buf->uri.data, buf->uri.len)) { size_t decoded_len = 0; char mime[64]; uint8_t *decoded; memset(mime, 0, sizeof(mime)); decoded = tg3__decode_data_uri(ctx->arena, buf->uri.data, buf->uri.len, &decoded_len, mime, sizeof(mime)); if (!decoded && byte_length > 0) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_DATA_URI_DECODE, "Failed to decode buffer data URI", NULL, -1); return 0; } buf->data.data = decoded; buf->data.count = decoded_len; } else { uint8_t *file_data = NULL; uint64_t file_size = 0; if (tg3__load_external_file(ctx, &file_data, &file_size, buf->uri.data, buf->uri.len)) { uint8_t *data = (uint8_t *)tg3__arena_alloc(ctx->arena, (size_t)file_size); if (data) { memcpy(data, file_data, (size_t)file_size); buf->data.data = data; buf->data.count = file_size; } if (ctx->opts.fs.free_file) ctx->opts.fs.free_file(file_data, file_size, ctx->opts.fs.user_data); } } } tg3__parse_extras_and_extensions(ctx, o, &buf->ext); return 1; } static int tg3__parse_buffer_view(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_buffer_view *bv) { uint64_t val = 0; int32_t stride = 0; memset(bv, 0, sizeof(*bv)); bv->buffer = -1; tg3__parse_string(ctx, o, "name", &bv->name, 0, "/bufferView"); tg3__parse_int(ctx, o, "buffer", &bv->buffer, 1, "/bufferView"); tg3__parse_uint64(ctx, o, "byteOffset", &val, 0, "/bufferView"); bv->byte_offset = val; val = 0; tg3__parse_uint64(ctx, o, "byteLength", &val, 1, "/bufferView"); bv->byte_length = val; tg3__parse_int(ctx, o, "byteStride", &stride, 0, "/bufferView"); bv->byte_stride = (uint32_t)stride; tg3__parse_int(ctx, o, "target", &bv->target, 0, "/bufferView"); tg3__parse_extras_and_extensions(ctx, o, &bv->ext); return 1; } static int tg3__parse_image(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_image *img, int32_t img_idx) { (void)img_idx; memset(img, 0, sizeof(*img)); img->width = -1; img->height = -1; img->component = -1; img->bits = -1; img->pixel_type = -1; img->buffer_view = -1; tg3__parse_string(ctx, o, "name", &img->name, 0, "/image"); tg3__parse_string(ctx, o, "uri", &img->uri, 0, "/image"); tg3__parse_string(ctx, o, "mimeType", &img->mime_type, 0, "/image"); tg3__parse_int(ctx, o, "bufferView", &img->buffer_view, 0, "/image"); if (ctx->opts.images_as_is) img->as_is = 1; tg3__parse_extras_and_extensions(ctx, o, &img->ext); return 1; } static int tg3__parse_sampler(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_sampler *samp) { memset(samp, 0, sizeof(*samp)); samp->min_filter = -1; samp->mag_filter = -1; samp->wrap_s = TG3_TEXTURE_WRAP_REPEAT; samp->wrap_t = TG3_TEXTURE_WRAP_REPEAT; tg3__parse_string(ctx, o, "name", &samp->name, 0, "/sampler"); tg3__parse_int(ctx, o, "minFilter", &samp->min_filter, 0, "/sampler"); tg3__parse_int(ctx, o, "magFilter", &samp->mag_filter, 0, "/sampler"); tg3__parse_int(ctx, o, "wrapS", &samp->wrap_s, 0, "/sampler"); tg3__parse_int(ctx, o, "wrapT", &samp->wrap_t, 0, "/sampler"); tg3__parse_extras_and_extensions(ctx, o, &samp->ext); return 1; } static int tg3__parse_texture(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_texture *tex) { memset(tex, 0, sizeof(*tex)); tex->sampler = -1; tex->source = -1; tg3__parse_string(ctx, o, "name", &tex->name, 0, "/texture"); tg3__parse_int(ctx, o, "sampler", &tex->sampler, 0, "/texture"); tg3__parse_int(ctx, o, "source", &tex->source, 0, "/texture"); tg3__parse_extras_and_extensions(ctx, o, &tex->ext); return 1; } static int tg3__parse_material(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_material *mat) { const tg3json_value *pbr_it; const tg3json_value *ext_it; memset(mat, 0, sizeof(*mat)); tg3__init_pbr(&mat->pbr_metallic_roughness); tg3__init_normal_texture_info(&mat->normal_texture); tg3__init_occlusion_texture_info(&mat->occlusion_texture); tg3__init_texture_info(&mat->emissive_texture); mat->alpha_cutoff = 0.5; tg3__parse_string(ctx, o, "name", &mat->name, 0, "/material"); tg3__parse_number_to_fixed(o, "emissiveFactor", mat->emissive_factor, 3); { tg3_str alpha_mode; alpha_mode.data = NULL; alpha_mode.len = 0; tg3__parse_string(ctx, o, "alphaMode", &alpha_mode, 0, "/material"); mat->alpha_mode = alpha_mode.len > 0 ? alpha_mode : tg3__arena_str(ctx->arena, "OPAQUE", 6); } tg3__parse_double(ctx, o, "alphaCutoff", &mat->alpha_cutoff, 0, "/material"); tg3__parse_bool(ctx, o, "doubleSided", &mat->double_sided, 0, "/material"); pbr_it = tg3__json_get(o, "pbrMetallicRoughness"); if (tg3__json_is_object(pbr_it)) { tg3__parse_number_to_fixed(pbr_it, "baseColorFactor", mat->pbr_metallic_roughness.base_color_factor, 4); tg3__parse_double(ctx, pbr_it, "metallicFactor", &mat->pbr_metallic_roughness.metallic_factor, 0, "/material/pbrMetallicRoughness"); tg3__parse_double(ctx, pbr_it, "roughnessFactor", &mat->pbr_metallic_roughness.roughness_factor, 0, "/material/pbrMetallicRoughness"); tg3__parse_texture_info(ctx, pbr_it, "baseColorTexture", &mat->pbr_metallic_roughness.base_color_texture); tg3__parse_texture_info(ctx, pbr_it, "metallicRoughnessTexture", &mat->pbr_metallic_roughness.metallic_roughness_texture); tg3__parse_extras_and_extensions(ctx, pbr_it, &mat->pbr_metallic_roughness.ext); } tg3__parse_normal_texture_info(ctx, o, "normalTexture", &mat->normal_texture); tg3__parse_occlusion_texture_info(ctx, o, "occlusionTexture", &mat->occlusion_texture); tg3__parse_texture_info(ctx, o, "emissiveTexture", &mat->emissive_texture); ext_it = tg3__json_get(o, "extensions"); if (tg3__json_is_object(ext_it)) { const tg3json_value *lod_it = tg3json_object_get(ext_it, "MSFT_lod"); if (tg3__json_is_object(lod_it)) { tg3__parse_int_array(ctx, lod_it, "ids", &mat->lods, &mat->lods_count, 0, "/material/extensions/MSFT_lod"); } } tg3__parse_extras_and_extensions(ctx, o, &mat->ext); return 1; } static int tg3__parse_primitive(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_primitive *prim) { const tg3json_value *attr_it; const tg3json_value *targets_it; memset(prim, 0, sizeof(*prim)); prim->material = -1; prim->indices = -1; prim->mode = TG3_MODE_TRIANGLES; tg3__parse_int(ctx, o, "material", &prim->material, 0, "/primitive"); tg3__parse_int(ctx, o, "indices", &prim->indices, 0, "/primitive"); tg3__parse_int(ctx, o, "mode", &prim->mode, 0, "/primitive"); attr_it = tg3__json_get(o, "attributes"); if (tg3__json_is_object(attr_it)) { size_t count = tg3json_object_size(attr_it); if (count > 0) { size_t i; tg3_str_int_pair *attrs = (tg3_str_int_pair *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_str_int_pair)); if (attrs) { for (i = 0; i < count; ++i) { const tg3json_object_entry *entry = tg3json_object_at(attr_it, i); attrs[i].key = tg3__arena_str(ctx->arena, entry->key, (uint32_t)entry->key_len); if (!tg3__json_number_to_int32(entry->value, &attrs[i].value)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, "/primitive/attributes", "Attribute '%s' must be a finite int32-valued number", entry->key ? entry->key : ""); attrs[i].value = 0; } } prim->attributes = attrs; prim->attributes_count = (uint32_t)count; } } } targets_it = tg3__json_get(o, "targets"); if (tg3__json_is_array(targets_it)) { size_t tcount = tg3json_array_size(targets_it); if (tcount > 0) { size_t ti; const tg3_str_int_pair **target_arrays = (const tg3_str_int_pair **)tg3__arena_alloc(ctx->arena, tcount * sizeof(tg3_str_int_pair *)); uint32_t *target_counts = (uint32_t *)tg3__arena_alloc(ctx->arena, tcount * sizeof(uint32_t)); if (target_arrays && target_counts) { for (ti = 0; ti < tcount; ++ti) { const tg3json_value *target_obj = tg3json_array_get(targets_it, ti); size_t acount; size_t ai; tg3_str_int_pair *tattrs; if (!tg3__json_is_object(target_obj)) { target_arrays[ti] = NULL; target_counts[ti] = 0; continue; } acount = tg3json_object_size(target_obj); tattrs = (tg3_str_int_pair *)tg3__arena_alloc(ctx->arena, acount * sizeof(tg3_str_int_pair)); if (tattrs) { for (ai = 0; ai < acount; ++ai) { const tg3json_object_entry *entry = tg3json_object_at(target_obj, ai); tattrs[ai].key = tg3__arena_str(ctx->arena, entry->key, (uint32_t)entry->key_len); if (!tg3__json_number_to_int32(entry->value, &tattrs[ai].value)) { tg3__error_pushf(ctx->errors, ctx->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, "/primitive/targets", "Target attribute '%s' must be a finite int32-valued number", entry->key ? entry->key : ""); tattrs[ai].value = 0; } } } target_arrays[ti] = tattrs; target_counts[ti] = (uint32_t)acount; } prim->targets = target_arrays; prim->target_attribute_counts = target_counts; prim->targets_count = (uint32_t)tcount; } } } tg3__parse_extras_and_extensions(ctx, o, &prim->ext); return 1; } static int tg3__parse_mesh(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_mesh *mesh) { const tg3json_value *prim_it = tg3__json_get(o, "primitives"); memset(mesh, 0, sizeof(*mesh)); tg3__parse_string(ctx, o, "name", &mesh->name, 0, "/mesh"); if (tg3__json_is_array(prim_it)) { size_t count = tg3json_array_size(prim_it); if (count > 0) { size_t i; tg3_primitive *prims = (tg3_primitive *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_primitive)); if (prims) { for (i = 0; i < count; ++i) tg3__parse_primitive(ctx, tg3json_array_get(prim_it, i), &prims[i]); mesh->primitives = prims; mesh->primitives_count = (uint32_t)count; } } } tg3__parse_number_array(ctx, o, "weights", &mesh->weights, &mesh->weights_count, 0, "/mesh"); tg3__parse_extras_and_extensions(ctx, o, &mesh->ext); return 1; } static int tg3__parse_node(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_node *node) { const tg3json_value *ext_it; tg3__init_node(node); tg3__parse_string(ctx, o, "name", &node->name, 0, "/node"); tg3__parse_int(ctx, o, "camera", &node->camera, 0, "/node"); tg3__parse_int(ctx, o, "skin", &node->skin, 0, "/node"); tg3__parse_int(ctx, o, "mesh", &node->mesh, 0, "/node"); tg3__parse_int_array(ctx, o, "children", &node->children, &node->children_count, 0, "/node"); if (tg3__json_has(o, "matrix")) { tg3__parse_number_to_fixed(o, "matrix", node->matrix, 16); node->has_matrix = 1; } if (tg3__json_has(o, "translation")) tg3__parse_number_to_fixed(o, "translation", node->translation, 3); if (tg3__json_has(o, "rotation")) tg3__parse_number_to_fixed(o, "rotation", node->rotation, 4); if (tg3__json_has(o, "scale")) tg3__parse_number_to_fixed(o, "scale", node->scale, 3); tg3__parse_number_array(ctx, o, "weights", &node->weights, &node->weights_count, 0, "/node"); ext_it = tg3__json_get(o, "extensions"); if (tg3__json_is_object(ext_it)) { const tg3json_value *khr_lights = tg3json_object_get(ext_it, "KHR_lights_punctual"); const tg3json_value *khr_audio = tg3json_object_get(ext_it, "KHR_audio"); const tg3json_value *msft_lod = tg3json_object_get(ext_it, "MSFT_lod"); if (tg3__json_is_object(khr_lights)) tg3__parse_int(ctx, khr_lights, "light", &node->light, 0, "/node/extensions/KHR_lights_punctual"); if (tg3__json_is_object(khr_audio)) tg3__parse_int(ctx, khr_audio, "emitter", &node->emitter, 0, "/node/extensions/KHR_audio"); if (tg3__json_is_object(msft_lod)) tg3__parse_int_array(ctx, msft_lod, "ids", &node->lods, &node->lods_count, 0, "/node/extensions/MSFT_lod"); } tg3__parse_extras_and_extensions(ctx, o, &node->ext); return 1; } static int tg3__parse_skin(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_skin *skin) { memset(skin, 0, sizeof(*skin)); skin->inverse_bind_matrices = -1; skin->skeleton = -1; tg3__parse_string(ctx, o, "name", &skin->name, 0, "/skin"); tg3__parse_int(ctx, o, "inverseBindMatrices", &skin->inverse_bind_matrices, 0, "/skin"); tg3__parse_int(ctx, o, "skeleton", &skin->skeleton, 0, "/skin"); tg3__parse_int_array(ctx, o, "joints", &skin->joints, &skin->joints_count, 1, "/skin"); tg3__parse_extras_and_extensions(ctx, o, &skin->ext); return 1; } static int tg3__parse_animation(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_animation *anim) { const tg3json_value *ch_it = tg3__json_get(o, "channels"); const tg3json_value *samp_it = tg3__json_get(o, "samplers"); memset(anim, 0, sizeof(*anim)); tg3__parse_string(ctx, o, "name", &anim->name, 0, "/animation"); if (tg3__json_is_array(ch_it)) { size_t count = tg3json_array_size(ch_it); if (count > 0) { size_t i; tg3_animation_channel *channels = (tg3_animation_channel *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_animation_channel)); if (channels) { for (i = 0; i < count; ++i) { const tg3json_value *item = tg3json_array_get(ch_it, i); const tg3json_value *tgt_it; memset(&channels[i], 0, sizeof(channels[i])); channels[i].sampler = -1; channels[i].target.node = -1; tg3__parse_int(ctx, item, "sampler", &channels[i].sampler, 1, "/animation/channel"); tgt_it = tg3__json_get(item, "target"); if (tg3__json_is_object(tgt_it)) { tg3__parse_int(ctx, tgt_it, "node", &channels[i].target.node, 0, "/animation/channel/target"); tg3__parse_string(ctx, tgt_it, "path", &channels[i].target.path, 1, "/animation/channel/target"); tg3__parse_extras_and_extensions(ctx, tgt_it, &channels[i].target.ext); } tg3__parse_extras_and_extensions(ctx, item, &channels[i].ext); } anim->channels = channels; anim->channels_count = (uint32_t)count; } } } if (tg3__json_is_array(samp_it)) { size_t count = tg3json_array_size(samp_it); if (count > 0) { size_t i; tg3_animation_sampler *samplers = (tg3_animation_sampler *)tg3__arena_alloc(ctx->arena, count * sizeof(tg3_animation_sampler)); if (samplers) { for (i = 0; i < count; ++i) { const tg3json_value *item = tg3json_array_get(samp_it, i); tg3_str interp; memset(&samplers[i], 0, sizeof(samplers[i])); samplers[i].input = -1; samplers[i].output = -1; tg3__parse_int(ctx, item, "input", &samplers[i].input, 1, "/animation/sampler"); tg3__parse_int(ctx, item, "output", &samplers[i].output, 1, "/animation/sampler"); interp.data = NULL; interp.len = 0; tg3__parse_string(ctx, item, "interpolation", &interp, 0, "/animation/sampler"); samplers[i].interpolation = interp.len > 0 ? interp : tg3__arena_str(ctx->arena, "LINEAR", 6); tg3__parse_extras_and_extensions(ctx, item, &samplers[i].ext); } anim->samplers = samplers; anim->samplers_count = (uint32_t)count; } } } tg3__parse_extras_and_extensions(ctx, o, &anim->ext); return 1; } static int tg3__parse_camera(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_camera *cam) { const tg3json_value *it; memset(cam, 0, sizeof(*cam)); tg3__parse_string(ctx, o, "name", &cam->name, 0, "/camera"); tg3__parse_string(ctx, o, "type", &cam->type, 1, "/camera"); if (cam->type.data && tg3_str_equals_cstr(cam->type, "perspective")) { it = tg3__json_get(o, "perspective"); if (tg3__json_is_object(it)) { tg3__parse_double(ctx, it, "aspectRatio", &cam->perspective.aspect_ratio, 0, "/camera/perspective"); tg3__parse_double(ctx, it, "yfov", &cam->perspective.yfov, 1, "/camera/perspective"); tg3__parse_double(ctx, it, "zfar", &cam->perspective.zfar, 0, "/camera/perspective"); tg3__parse_double(ctx, it, "znear", &cam->perspective.znear, 1, "/camera/perspective"); tg3__parse_extras_and_extensions(ctx, it, &cam->perspective.ext); } } else if (cam->type.data && tg3_str_equals_cstr(cam->type, "orthographic")) { it = tg3__json_get(o, "orthographic"); if (tg3__json_is_object(it)) { tg3__parse_double(ctx, it, "xmag", &cam->orthographic.xmag, 1, "/camera/orthographic"); tg3__parse_double(ctx, it, "ymag", &cam->orthographic.ymag, 1, "/camera/orthographic"); tg3__parse_double(ctx, it, "zfar", &cam->orthographic.zfar, 1, "/camera/orthographic"); tg3__parse_double(ctx, it, "znear", &cam->orthographic.znear, 1, "/camera/orthographic"); tg3__parse_extras_and_extensions(ctx, it, &cam->orthographic.ext); } } tg3__parse_extras_and_extensions(ctx, o, &cam->ext); return 1; } static int tg3__parse_scene(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_scene *scene) { const tg3json_value *ext_it; memset(scene, 0, sizeof(*scene)); tg3__parse_string(ctx, o, "name", &scene->name, 0, "/scene"); tg3__parse_int_array(ctx, o, "nodes", &scene->nodes, &scene->nodes_count, 0, "/scene"); ext_it = tg3__json_get(o, "extensions"); if (tg3__json_is_object(ext_it)) { const tg3json_value *audio_it = tg3json_object_get(ext_it, "KHR_audio"); if (tg3__json_is_object(audio_it)) { tg3__parse_int_array(ctx, audio_it, "emitters", &scene->audio_emitters, &scene->audio_emitters_count, 0, "/scene/extensions/KHR_audio"); } } tg3__parse_extras_and_extensions(ctx, o, &scene->ext); return 1; } static int tg3__parse_light(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_light *light) { const tg3json_value *spot_it; memset(light, 0, sizeof(*light)); light->color[0] = 1.0; light->color[1] = 1.0; light->color[2] = 1.0; light->intensity = 1.0; light->spot.outer_cone_angle = 0.7853981634; tg3__parse_string(ctx, o, "name", &light->name, 0, "/light"); tg3__parse_string(ctx, o, "type", &light->type, 1, "/light"); tg3__parse_double(ctx, o, "intensity", &light->intensity, 0, "/light"); tg3__parse_double(ctx, o, "range", &light->range, 0, "/light"); tg3__parse_number_to_fixed(o, "color", light->color, 3); spot_it = tg3__json_get(o, "spot"); if (tg3__json_is_object(spot_it)) { tg3__parse_double(ctx, spot_it, "innerConeAngle", &light->spot.inner_cone_angle, 0, "/light/spot"); tg3__parse_double(ctx, spot_it, "outerConeAngle", &light->spot.outer_cone_angle, 0, "/light/spot"); tg3__parse_extras_and_extensions(ctx, spot_it, &light->spot.ext); } tg3__parse_extras_and_extensions(ctx, o, &light->ext); return 1; } static int tg3__parse_audio_source(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_audio_source *src) { memset(src, 0, sizeof(*src)); src->buffer_view = -1; tg3__parse_string(ctx, o, "name", &src->name, 0, "/audioSource"); tg3__parse_string(ctx, o, "uri", &src->uri, 0, "/audioSource"); tg3__parse_int(ctx, o, "bufferView", &src->buffer_view, 0, "/audioSource"); tg3__parse_string(ctx, o, "mimeType", &src->mime_type, 0, "/audioSource"); tg3__parse_extras_and_extensions(ctx, o, &src->ext); return 1; } static int tg3__parse_audio_emitter(tg3__parse_ctx *ctx, const tg3json_value *o, tg3_audio_emitter *emitter) { const tg3json_value *pos_it; memset(emitter, 0, sizeof(*emitter)); emitter->gain = 1.0; emitter->source = -1; emitter->positional.cone_inner_angle = 6.283185307179586; emitter->positional.cone_outer_angle = 6.283185307179586; emitter->positional.max_distance = 100.0; emitter->positional.ref_distance = 1.0; emitter->positional.rolloff_factor = 1.0; tg3__parse_string(ctx, o, "name", &emitter->name, 0, "/audioEmitter"); tg3__parse_double(ctx, o, "gain", &emitter->gain, 0, "/audioEmitter"); tg3__parse_bool(ctx, o, "loop", &emitter->loop, 0, "/audioEmitter"); tg3__parse_bool(ctx, o, "playing", &emitter->playing, 0, "/audioEmitter"); tg3__parse_string(ctx, o, "type", &emitter->type, 0, "/audioEmitter"); tg3__parse_string(ctx, o, "distanceModel", &emitter->distance_model, 0, "/audioEmitter"); tg3__parse_int(ctx, o, "source", &emitter->source, 0, "/audioEmitter"); pos_it = tg3__json_get(o, "positional"); if (tg3__json_is_object(pos_it)) { tg3__parse_double(ctx, pos_it, "coneInnerAngle", &emitter->positional.cone_inner_angle, 0, "/positional"); tg3__parse_double(ctx, pos_it, "coneOuterAngle", &emitter->positional.cone_outer_angle, 0, "/positional"); tg3__parse_double(ctx, pos_it, "coneOuterGain", &emitter->positional.cone_outer_gain, 0, "/positional"); tg3__parse_double(ctx, pos_it, "maxDistance", &emitter->positional.max_distance, 0, "/positional"); tg3__parse_double(ctx, pos_it, "refDistance", &emitter->positional.ref_distance, 0, "/positional"); tg3__parse_double(ctx, pos_it, "rolloffFactor", &emitter->positional.rolloff_factor, 0, "/positional"); tg3__parse_extras_and_extensions(ctx, pos_it, &emitter->positional.ext); } tg3__parse_extras_and_extensions(ctx, o, &emitter->ext); return 1; } #define TG3__STREAM_CB(cb_name, model_arr, model_cnt) \ do { \ if ((ctx)->opts.stream && (ctx)->opts.stream->cb_name) { \ uint32_t _si; \ for (_si = 0; _si < (model_cnt); ++_si) { \ tg3_stream_action _sa = (ctx)->opts.stream->cb_name(&(model_arr)[_si], (int32_t)_si, (ctx)->opts.stream->user_data); \ if (_sa == TG3_STREAM_ABORT) return TG3_ERR_STREAM_ABORTED; \ } \ } \ } while (0) #define TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, json_key, Type, model_field, count_field, parse_fn) \ do { \ const tg3json_value *_arr = tg3json_object_get((json_doc), (json_key)); \ if (tg3__json_is_array(_arr)) { \ size_t _count = tg3json_array_size(_arr); \ if (_count > 0) { \ size_t _i; \ Type *_items = (Type *)tg3__arena_alloc((ctx)->arena, _count * sizeof(Type)); \ if (_items) { \ for (_i = 0; _i < _count; ++_i) { \ const tg3json_value *_it = tg3json_array_get(_arr, _i); \ if (!tg3__json_is_object(_it)) { \ tg3__error_pushf((ctx)->errors, (ctx)->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, (json_key), "Element %u must be an object", (unsigned)_i); \ continue; \ } \ parse_fn((ctx), _it, &_items[_i]); \ } \ (model_field) = _items; \ (count_field) = (uint32_t)_count; \ } \ } \ } \ } while (0) #define TG3__PARSE_ARRAY_IDX(ctx, json_doc, json_key, Type, model_field, count_field, parse_fn) \ do { \ const tg3json_value *_arr = tg3json_object_get((json_doc), (json_key)); \ if (tg3__json_is_array(_arr)) { \ size_t _count = tg3json_array_size(_arr); \ if (_count > 0) { \ size_t _i; \ Type *_items = (Type *)tg3__arena_alloc((ctx)->arena, _count * sizeof(Type)); \ if (_items) { \ for (_i = 0; _i < _count; ++_i) { \ const tg3json_value *_it = tg3json_array_get(_arr, _i); \ if (!tg3__json_is_object(_it)) { \ tg3__error_pushf((ctx)->errors, (ctx)->arena, TG3_SEVERITY_ERROR, TG3_ERR_JSON_TYPE_MISMATCH, (json_key), "Element %u must be an object", (unsigned)_i); \ continue; \ } \ parse_fn((ctx), _it, &_items[_i], (int32_t)_i); \ } \ (model_field) = _items; \ (count_field) = (uint32_t)_count; \ } \ } \ } \ } while (0) static tg3_error_code tg3__parse_from_json(tg3__parse_ctx *ctx, const tg3json_value *json_doc, tg3_model *model) { const tg3json_value *asset_it = tg3json_object_get(json_doc, "asset"); const tg3json_value *ext_it; if (tg3__json_is_object(asset_it)) { tg3__parse_asset(ctx, asset_it, &model->asset); } else if (ctx->opts.required_sections & TG3_REQUIRE_VERSION) { tg3__error_push(ctx->errors, TG3_SEVERITY_ERROR, TG3_ERR_MISSING_REQUIRED, "Missing required 'asset' property", "/", -1); return TG3_ERR_MISSING_REQUIRED; } if (ctx->opts.stream && ctx->opts.stream->on_asset) { tg3_stream_action sa = ctx->opts.stream->on_asset(&model->asset, ctx->opts.stream->user_data); if (sa == TG3_STREAM_ABORT) return TG3_ERR_STREAM_ABORTED; } tg3__parse_string_array(ctx, json_doc, "extensionsUsed", &model->extensions_used, &model->extensions_used_count, 0, "/"); tg3__parse_string_array(ctx, json_doc, "extensionsRequired", &model->extensions_required, &model->extensions_required_count, 0, "/"); model->default_scene = -1; tg3__parse_int(ctx, json_doc, "scene", &model->default_scene, 0, "/"); TG3__PARSE_ARRAY_IDX(ctx, json_doc, "buffers", tg3_buffer, model->buffers, model->buffers_count, tg3__parse_buffer); TG3__STREAM_CB(on_buffer, model->buffers, model->buffers_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "bufferViews", tg3_buffer_view, model->buffer_views, model->buffer_views_count, tg3__parse_buffer_view); TG3__STREAM_CB(on_buffer_view, model->buffer_views, model->buffer_views_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "accessors", tg3_accessor, model->accessors, model->accessors_count, tg3__parse_accessor); TG3__STREAM_CB(on_accessor, model->accessors, model->accessors_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "meshes", tg3_mesh, model->meshes, model->meshes_count, tg3__parse_mesh); TG3__STREAM_CB(on_mesh, model->meshes, model->meshes_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "nodes", tg3_node, model->nodes, model->nodes_count, tg3__parse_node); TG3__STREAM_CB(on_node, model->nodes, model->nodes_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "materials", tg3_material, model->materials, model->materials_count, tg3__parse_material); TG3__STREAM_CB(on_material, model->materials, model->materials_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "textures", tg3_texture, model->textures, model->textures_count, tg3__parse_texture); TG3__STREAM_CB(on_texture, model->textures, model->textures_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "samplers", tg3_sampler, model->samplers, model->samplers_count, tg3__parse_sampler); TG3__STREAM_CB(on_sampler, model->samplers, model->samplers_count); TG3__PARSE_ARRAY_IDX(ctx, json_doc, "images", tg3_image, model->images, model->images_count, tg3__parse_image); TG3__STREAM_CB(on_image, model->images, model->images_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "skins", tg3_skin, model->skins, model->skins_count, tg3__parse_skin); TG3__STREAM_CB(on_skin, model->skins, model->skins_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "animations", tg3_animation, model->animations, model->animations_count, tg3__parse_animation); TG3__STREAM_CB(on_animation, model->animations, model->animations_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "cameras", tg3_camera, model->cameras, model->cameras_count, tg3__parse_camera); TG3__STREAM_CB(on_camera, model->cameras, model->cameras_count); TG3__PARSE_ARRAY_SIMPLE(ctx, json_doc, "scenes", tg3_scene, model->scenes, model->scenes_count, tg3__parse_scene); TG3__STREAM_CB(on_scene, model->scenes, model->scenes_count); ext_it = tg3json_object_get(json_doc, "extensions"); if (tg3__json_is_object(ext_it)) { const tg3json_value *lights_ext = tg3json_object_get(ext_it, "KHR_lights_punctual"); const tg3json_value *audio_ext = tg3json_object_get(ext_it, "KHR_audio"); if (tg3__json_is_object(lights_ext)) { TG3__PARSE_ARRAY_SIMPLE(ctx, lights_ext, "lights", tg3_light, model->lights, model->lights_count, tg3__parse_light); TG3__STREAM_CB(on_light, model->lights, model->lights_count); } if (tg3__json_is_object(audio_ext)) { TG3__PARSE_ARRAY_SIMPLE(ctx, audio_ext, "sources", tg3_audio_source, model->audio_sources, model->audio_sources_count, tg3__parse_audio_source); TG3__PARSE_ARRAY_SIMPLE(ctx, audio_ext, "emitters", tg3_audio_emitter, model->audio_emitters, model->audio_emitters_count, tg3__parse_audio_emitter); } } tg3__parse_extras_and_extensions(ctx, json_doc, &model->ext); return (ctx->errors && ctx->errors->has_error) ? TG3_ERR_JSON_PARSE : TG3_OK; } static tg3_error_code tg3__parse_glb_header(const uint8_t *data, uint64_t size, const uint8_t **json_out, uint64_t *json_size_out, const uint8_t **bin_out, uint64_t *bin_size_out, tg3_error_stack *errors) { uint32_t version; uint32_t total_length; uint64_t offset = 12; *json_out = NULL; *json_size_out = 0; *bin_out = NULL; *bin_size_out = 0; if (size < 12) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_INVALID_HEADER, "GLB data too small for header", NULL, -1); return TG3_ERR_GLB_INVALID_HEADER; } if (data[0] != 'g' || data[1] != 'l' || data[2] != 'T' || data[3] != 'F') { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_INVALID_MAGIC, "Invalid GLB magic bytes", NULL, -1); return TG3_ERR_GLB_INVALID_MAGIC; } memcpy(&version, data + 4, 4); if (version != 2) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_INVALID_VERSION, "Unsupported GLB version (expected 2)", NULL, -1); return TG3_ERR_GLB_INVALID_VERSION; } memcpy(&total_length, data + 8, 4); if ((uint64_t)total_length > size) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_SIZE_MISMATCH, "GLB total length exceeds data size", NULL, -1); return TG3_ERR_GLB_SIZE_MISMATCH; } while (offset + 8 <= size) { uint32_t chunk_length; uint32_t chunk_type; memcpy(&chunk_length, data + offset, 4); offset += 4; memcpy(&chunk_type, data + offset, 4); offset += 4; if (offset + chunk_length > size) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_CHUNK_ERROR, "GLB chunk exceeds data size", NULL, -1); return TG3_ERR_GLB_CHUNK_ERROR; } if (chunk_type == 0x4E4F534Au) { *json_out = data + offset; *json_size_out = chunk_length; } else if (chunk_type == 0x004E4942u) { *bin_out = data + offset; *bin_size_out = chunk_length; } offset += chunk_length; while ((offset & 3u) != 0u && offset < size) ++offset; } if (!*json_out) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_GLB_CHUNK_ERROR, "GLB missing JSON chunk", NULL, -1); return TG3_ERR_GLB_CHUNK_ERROR; } return TG3_OK; } TINYGLTF3_API tg3_error_code tg3_parse(tg3_model *model, tg3_error_stack *errors, const uint8_t *json_data, uint64_t json_size, const char *base_dir, uint32_t base_dir_len, const tg3_parse_options *options) { tg3_parse_options default_opts; tg3_arena *arena; tg3__parse_ctx ctx; tg3json_value json_doc; const char *error_pos = NULL; tg3_error_code ret; int parsed_ok; if (!options) { tg3_parse_options_init(&default_opts); options = &default_opts; } tg3__model_init(model); arena = tg3__arena_create(&options->memory); if (!arena) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "Failed to create arena", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } model->arena_ = arena; parsed_ok = tg3json_parse_n((const char *)json_data, (size_t)json_size, TINYGLTF3_MAX_NESTING_DEPTH, &json_doc, &error_pos); if (!parsed_ok || json_doc.type != TG3JSON_OBJECT) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_JSON_PARSE, "Failed to parse JSON", NULL, error_pos ? (int64_t)(error_pos - (const char *)json_data) : -1); if (parsed_ok) tg3json_value_free(&json_doc); if (model->arena_) { tg3__arena_destroy(model->arena_); model->arena_ = NULL; } return TG3_ERR_JSON_PARSE; } memset(&ctx, 0, sizeof(ctx)); ctx.arena = arena; ctx.errors = errors; ctx.opts = *options; ctx.base_dir = base_dir; ctx.base_dir_len = base_dir_len; #ifdef TINYGLTF3_ENABLE_FS tg3__set_default_fs(&ctx.opts.fs); #endif ret = tg3__parse_from_json(&ctx, &json_doc, model); tg3json_value_free(&json_doc); if (ret != TG3_OK && model->arena_) { tg3__arena_destroy(model->arena_); model->arena_ = NULL; } return ret; } TINYGLTF3_API tg3_error_code tg3_parse_glb(tg3_model *model, tg3_error_stack *errors, const uint8_t *glb_data, uint64_t glb_size, const char *base_dir, uint32_t base_dir_len, const tg3_parse_options *options) { const uint8_t *json_chunk = NULL; uint64_t json_chunk_size = 0; const uint8_t *bin_chunk = NULL; uint64_t bin_chunk_size = 0; tg3_parse_options default_opts; tg3_arena *arena; tg3__parse_ctx ctx; tg3json_value json_doc; const char *error_pos = NULL; tg3_error_code err; int parsed_ok; err = tg3__parse_glb_header(glb_data, glb_size, &json_chunk, &json_chunk_size, &bin_chunk, &bin_chunk_size, errors); if (err != TG3_OK) return err; if (!options) { tg3_parse_options_init(&default_opts); options = &default_opts; } tg3__model_init(model); arena = tg3__arena_create(&options->memory); if (!arena) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "Failed to create arena", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } model->arena_ = arena; parsed_ok = tg3json_parse_n((const char *)json_chunk, (size_t)json_chunk_size, TINYGLTF3_MAX_NESTING_DEPTH, &json_doc, &error_pos); if (!parsed_ok || json_doc.type != TG3JSON_OBJECT) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_JSON_PARSE, "Failed to parse GLB JSON chunk", NULL, error_pos ? (int64_t)(error_pos - (const char *)json_chunk) : -1); if (parsed_ok) tg3json_value_free(&json_doc); tg3__arena_destroy(model->arena_); model->arena_ = NULL; return TG3_ERR_JSON_PARSE; } memset(&ctx, 0, sizeof(ctx)); ctx.arena = arena; ctx.errors = errors; ctx.opts = *options; ctx.base_dir = base_dir; ctx.base_dir_len = base_dir_len; ctx.is_binary = 1; ctx.bin_data = bin_chunk; ctx.bin_size = bin_chunk_size; #ifdef TINYGLTF3_ENABLE_FS tg3__set_default_fs(&ctx.opts.fs); #endif err = tg3__parse_from_json(&ctx, &json_doc, model); tg3json_value_free(&json_doc); if (err != TG3_OK && model->arena_) { tg3__arena_destroy(model->arena_); model->arena_ = NULL; } return err; } TINYGLTF3_API tg3_error_code tg3_parse_auto(tg3_model *model, tg3_error_stack *errors, const uint8_t *data, uint64_t size, const char *base_dir, uint32_t base_dir_len, const tg3_parse_options *options) { if (size >= 4 && data[0] == 'g' && data[1] == 'l' && data[2] == 'T' && data[3] == 'F') { return tg3_parse_glb(model, errors, data, size, base_dir, base_dir_len, options); } return tg3_parse(model, errors, data, size, base_dir, base_dir_len, options); } TINYGLTF3_API tg3_error_code tg3_parse_file(tg3_model *model, tg3_error_stack *errors, const char *filename, uint32_t filename_len, const tg3_parse_options *options) { tg3_parse_options opts; uint8_t *file_data = NULL; uint64_t file_size = 0; char base_dir_buf[4096]; uint32_t base_dir_len = 0; tg3_error_code result; uint32_t i; if (options) opts = *options; else tg3_parse_options_init(&opts); tg3__model_init(model); #ifdef TINYGLTF3_ENABLE_FS tg3__set_default_fs(&opts.fs); #endif if (!opts.fs.read_file) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_FS_NOT_AVAILABLE, "No filesystem callbacks. Define TINYGLTF3_ENABLE_FS or provide fs callbacks.", NULL, -1); return TG3_ERR_FS_NOT_AVAILABLE; } if (!opts.fs.read_file(&file_data, &file_size, filename, filename_len, opts.fs.user_data) || !file_data) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_FILE_NOT_FOUND, "Failed to read file", NULL, -1); return TG3_ERR_FILE_NOT_FOUND; } memset(base_dir_buf, 0, sizeof(base_dir_buf)); for (i = 0; i < filename_len; ++i) { if (filename[i] == '/' || filename[i] == '\\') base_dir_len = i; } if (base_dir_len > 0) { memcpy(base_dir_buf, filename, base_dir_len); base_dir_buf[base_dir_len] = '\0'; } result = tg3_parse_auto(model, errors, file_data, file_size, base_dir_buf, base_dir_len, &opts); if (opts.fs.free_file) opts.fs.free_file(file_data, file_size, opts.fs.user_data); return result; } TINYGLTF3_API void tg3_model_free(tg3_model *model) { if (!model) return; if (model->arena_) tg3__arena_destroy(model->arena_); memset(model, 0, sizeof(*model)); model->default_scene = -1; } static char *tg3__b64_encode(const uint8_t *input, size_t input_len, size_t *out_len) { static const char chars[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; size_t enc_len = ((input_len + 2u) / 3u) * 4u; char *out = (char *)malloc(enc_len + 1u); size_t i; size_t j = 0; if (!out) return NULL; for (i = 0; i < input_len; i += 3u) { uint32_t a = input[i]; uint32_t b = (i + 1u < input_len) ? input[i + 1u] : 0u; uint32_t c = (i + 2u < input_len) ? input[i + 2u] : 0u; uint32_t triple = (a << 16u) | (b << 8u) | c; out[j++] = chars[(triple >> 18u) & 0x3Fu]; out[j++] = chars[(triple >> 12u) & 0x3Fu]; out[j++] = (i + 1u < input_len) ? chars[(triple >> 6u) & 0x3Fu] : '='; out[j++] = (i + 2u < input_len) ? chars[triple & 0x3Fu] : '='; } out[j] = '\0'; if (out_len) *out_len = enc_len; return out; } static const char *tg3__accessor_type_to_string(int type) { switch (type) { case TG3_TYPE_SCALAR: return "SCALAR"; case TG3_TYPE_VEC2: return "VEC2"; case TG3_TYPE_VEC3: return "VEC3"; case TG3_TYPE_VEC4: return "VEC4"; case TG3_TYPE_MAT2: return "MAT2"; case TG3_TYPE_MAT3: return "MAT3"; case TG3_TYPE_MAT4: return "MAT4"; default: return ""; } } static int tg3__json_set_take(tg3json_value *obj, const char *key, tg3json_value *value) { if (!tg3json_object_set_take(obj, key, value)) { tg3json_value_free(value); return 0; } return 1; } static int tg3__json_push_take(tg3json_value *arr, tg3json_value *value) { if (!tg3json_array_append_take(arr, value)) { tg3json_value_free(value); return 0; } return 1; } static int tg3__json_set_int(tg3json_value *obj, const char *key, int64_t value) { tg3json_value tmp; tg3json_value_init_int(&tmp, value); return tg3__json_set_take(obj, key, &tmp); } static int tg3__json_set_real(tg3json_value *obj, const char *key, double value) { tg3json_value tmp; tg3json_value_init_real(&tmp, value); return tg3__json_set_take(obj, key, &tmp); } static int tg3__json_set_bool(tg3json_value *obj, const char *key, int value) { tg3json_value tmp; tg3json_value_init_bool(&tmp, value); return tg3__json_set_take(obj, key, &tmp); } static int tg3__json_set_string_n(tg3json_value *obj, const char *key, const char *str, size_t len) { tg3json_value tmp; if (!tg3json_value_init_string_n(&tmp, str, len)) return 0; return tg3__json_set_take(obj, key, &tmp); } static int tg3__json_set_string(tg3json_value *obj, const char *key, const char *str) { return tg3__json_set_string_n(obj, key, str, str ? strlen(str) : 0); } static int tg3__json_set_value_copy(tg3json_value *obj, const char *key, const tg3json_value *value) { return tg3json_object_set_copy(obj, key, value); } static int tg3__json_array_append_int(tg3json_value *arr, int64_t value) { tg3json_value tmp; tg3json_value_init_int(&tmp, value); return tg3__json_push_take(arr, &tmp); } static int tg3__json_array_append_real(tg3json_value *arr, double value) { tg3json_value tmp; tg3json_value_init_real(&tmp, value); return tg3__json_push_take(arr, &tmp); } static int tg3__json_ensure_object(tg3json_value *obj, const char *key, tg3json_value **out_child) { tg3json_value *existing = tg3json_object_get_mut(obj, key); if (existing) { if (existing->type != TG3JSON_OBJECT) return 0; *out_child = existing; return 1; } { tg3json_value tmp; tg3json_value_init_object(&tmp); if (!tg3__json_set_take(obj, key, &tmp)) return 0; } existing = tg3json_object_get_mut(obj, key); if (!existing || existing->type != TG3JSON_OBJECT) return 0; *out_child = existing; return 1; } static int tg3__json_ensure_array(tg3json_value *obj, const char *key, tg3json_value **out_child) { tg3json_value *existing = tg3json_object_get_mut(obj, key); if (existing) { if (existing->type != TG3JSON_ARRAY) return 0; *out_child = existing; return 1; } { tg3json_value tmp; tg3json_value_init_array(&tmp); if (!tg3__json_set_take(obj, key, &tmp)) return 0; } existing = tg3json_object_get_mut(obj, key); if (!existing || existing->type != TG3JSON_ARRAY) return 0; *out_child = existing; return 1; } static int tg3__serialize_str(tg3json_value *o, const char *key, tg3_str val) { if (!val.data || val.len == 0) return 1; return tg3__json_set_string_n(o, key, val.data, val.len); } static int tg3__serialize_int(tg3json_value *o, const char *key, int32_t val, int32_t default_val, int write_defaults) { if (val == default_val && !write_defaults) return 1; return tg3__json_set_int(o, key, val); } static int tg3__serialize_uint64(tg3json_value *o, const char *key, uint64_t val, uint64_t default_val, int write_defaults) { if (val == default_val && !write_defaults) return 1; return tg3__json_set_int(o, key, (int64_t)val); } static int tg3__serialize_double(tg3json_value *o, const char *key, double val, double default_val, int write_defaults) { if (fabs(val - default_val) <= 1e-12 && !write_defaults) return 1; return tg3__json_set_real(o, key, val); } static int tg3__serialize_bool(tg3json_value *o, const char *key, int32_t val, int32_t default_val, int write_defaults) { if (val == default_val && !write_defaults) return 1; return tg3__json_set_bool(o, key, val != 0); } static int tg3__json_from_double_array(const double *arr, uint32_t count, tg3json_value *out) { uint32_t i; tg3json_value_init_array(out); for (i = 0; i < count; ++i) { if (!tg3__json_array_append_real(out, arr[i])) { tg3json_value_free(out); return 0; } } return 1; } static int tg3__json_from_int_array(const int32_t *arr, uint32_t count, tg3json_value *out) { uint32_t i; tg3json_value_init_array(out); for (i = 0; i < count; ++i) { if (!tg3__json_array_append_int(out, arr[i])) { tg3json_value_free(out); return 0; } } return 1; } static int tg3__json_from_string_array(const tg3_str *arr, uint32_t count, tg3json_value *out) { uint32_t i; tg3json_value_init_array(out); for (i = 0; i < count; ++i) { tg3json_value tmp; if (!arr[i].data) continue; if (!tg3json_value_init_string_n(&tmp, arr[i].data, arr[i].len)) { tg3json_value_free(out); return 0; } if (!tg3__json_push_take(out, &tmp)) { tg3json_value_free(out); return 0; } } return 1; } static int tg3__serialize_double_array(tg3json_value *o, const char *key, const double *arr, uint32_t count) { tg3json_value tmp; if (!arr || count == 0) return 1; if (!tg3__json_from_double_array(arr, count, &tmp)) return 0; return tg3__json_set_take(o, key, &tmp); } static int tg3__serialize_int_array(tg3json_value *o, const char *key, const int32_t *arr, uint32_t count) { tg3json_value tmp; if (!arr || count == 0) return 1; if (!tg3__json_from_int_array(arr, count, &tmp)) return 0; return tg3__json_set_take(o, key, &tmp); } static int tg3__serialize_string_array(tg3json_value *o, const char *key, const tg3_str *arr, uint32_t count) { tg3json_value tmp; if (!arr || count == 0) return 1; if (!tg3__json_from_string_array(arr, count, &tmp)) return 0; return tg3__json_set_take(o, key, &tmp); } static int tg3__value_to_json(const tg3_value *v, tg3json_value *out) { uint32_t i; tg3json_value_init_null(out); if (!v) return 1; switch (v->type) { case TG3_VALUE_NULL: return 1; case TG3_VALUE_BOOL: tg3json_value_init_bool(out, v->bool_val != 0); return 1; case TG3_VALUE_INT: tg3json_value_init_int(out, v->int_val); return 1; case TG3_VALUE_REAL: tg3json_value_init_real(out, v->real_val); return 1; case TG3_VALUE_STRING: return tg3json_value_init_string_n(out, v->string_val.data ? v->string_val.data : "", v->string_val.data ? v->string_val.len : 0); case TG3_VALUE_ARRAY: tg3json_value_init_array(out); for (i = 0; i < v->array_count; ++i) { tg3json_value item; if (!tg3__value_to_json(&v->array_data[i], &item)) { tg3json_value_free(out); return 0; } if (!tg3__json_push_take(out, &item)) { tg3json_value_free(out); return 0; } } return 1; case TG3_VALUE_OBJECT: tg3json_value_init_object(out); for (i = 0; i < v->object_count; ++i) { tg3json_value item; if (!tg3__value_to_json(&v->object_data[i].value, &item)) { tg3json_value_free(out); return 0; } if (!tg3json_object_set_take_n(out, v->object_data[i].key.data ? v->object_data[i].key.data : "", v->object_data[i].key.data ? v->object_data[i].key.len : 0, &item)) { tg3json_value_free(&item); tg3json_value_free(out); return 0; } } return 1; default: return 0; } } static int tg3__serialize_extras_ext(tg3json_value *o, const tg3_extras_ext *ee) { uint32_t i; if (!ee) return 1; if (ee->extras) { tg3json_value extras; if (!tg3__value_to_json(ee->extras, &extras)) return 0; if (!tg3__json_set_take(o, "extras", &extras)) return 0; } if (ee->extensions && ee->extensions_count > 0) { tg3json_value *exts = NULL; if (!tg3__json_ensure_object(o, "extensions", &exts)) return 0; for (i = 0; i < ee->extensions_count; ++i) { tg3json_value item; if (!tg3__value_to_json(&ee->extensions[i].value, &item)) return 0; if (!tg3json_object_set_take_n(exts, ee->extensions[i].name.data ? ee->extensions[i].name.data : "", ee->extensions[i].name.data ? ee->extensions[i].name.len : 0, &item)) { tg3json_value_free(&item); return 0; } } } return 1; } static int tg3__serialize_texture_info(tg3json_value *parent, const char *key, const tg3_texture_info *ti, int wd) { tg3json_value o; if (ti->index < 0) return 1; tg3json_value_init_object(&o); if (!tg3__json_set_int(&o, "index", ti->index) || !tg3__serialize_int(&o, "texCoord", ti->tex_coord, 0, wd) || !tg3__serialize_extras_ext(&o, &ti->ext) || !tg3__json_set_take(parent, key, &o)) { tg3json_value_free(&o); return 0; } return 1; } static int tg3__serialize_normal_texture_info(tg3json_value *parent, const char *key, const tg3_normal_texture_info *ti, int wd) { tg3json_value o; if (ti->index < 0) return 1; tg3json_value_init_object(&o); if (!tg3__json_set_int(&o, "index", ti->index) || !tg3__serialize_int(&o, "texCoord", ti->tex_coord, 0, wd) || !tg3__serialize_double(&o, "scale", ti->scale, 1.0, wd) || !tg3__serialize_extras_ext(&o, &ti->ext) || !tg3__json_set_take(parent, key, &o)) { tg3json_value_free(&o); return 0; } return 1; } static int tg3__serialize_occlusion_texture_info(tg3json_value *parent, const char *key, const tg3_occlusion_texture_info *ti, int wd) { tg3json_value o; if (ti->index < 0) return 1; tg3json_value_init_object(&o); if (!tg3__json_set_int(&o, "index", ti->index) || !tg3__serialize_int(&o, "texCoord", ti->tex_coord, 0, wd) || !tg3__serialize_double(&o, "strength", ti->strength, 1.0, wd) || !tg3__serialize_extras_ext(&o, &ti->ext) || !tg3__json_set_take(parent, key, &o)) { tg3json_value_free(&o); return 0; } return 1; } static int tg3__serialize_asset(const tg3_asset *a, int wd, tg3json_value *out) { (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "version", a->version) || !tg3__serialize_str(out, "generator", a->generator) || !tg3__serialize_str(out, "minVersion", a->min_version) || !tg3__serialize_str(out, "copyright", a->copyright) || !tg3__serialize_extras_ext(out, &a->ext)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_buffer(const tg3_buffer *b, int wd, int embed, tg3json_value *out) { (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", b->name) || !tg3__json_set_int(out, "byteLength", (int64_t)b->data.count)) { tg3json_value_free(out); return 0; } if (b->uri.data && b->uri.len > 0) { if (!tg3__serialize_str(out, "uri", b->uri)) { tg3json_value_free(out); return 0; } } else if (embed && b->data.data && b->data.count > 0) { size_t enc_len = 0; char *encoded = tg3__b64_encode(b->data.data, (size_t)b->data.count, &enc_len); const char prefix[] = "data:application/octet-stream;base64,"; size_t prefix_len = sizeof(prefix) - 1u; char *uri; if (!encoded) { tg3json_value_free(out); return 0; } uri = (char *)malloc(prefix_len + enc_len + 1u); if (!uri) { free(encoded); tg3json_value_free(out); return 0; } memcpy(uri, prefix, prefix_len); memcpy(uri + prefix_len, encoded, enc_len); uri[prefix_len + enc_len] = '\0'; free(encoded); if (!tg3__json_set_string_n(out, "uri", uri, prefix_len + enc_len)) { free(uri); tg3json_value_free(out); return 0; } free(uri); } if (!tg3__serialize_extras_ext(out, &b->ext)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_buffer_view(const tg3_buffer_view *bv, int wd, tg3json_value *out) { tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", bv->name) || !tg3__json_set_int(out, "buffer", bv->buffer) || !tg3__json_set_int(out, "byteLength", (int64_t)bv->byte_length) || !tg3__serialize_uint64(out, "byteOffset", bv->byte_offset, 0, wd)) { tg3json_value_free(out); return 0; } if (bv->byte_stride > 0 && !tg3__json_set_int(out, "byteStride", bv->byte_stride)) { tg3json_value_free(out); return 0; } if (!tg3__serialize_int(out, "target", bv->target, 0, wd) || !tg3__serialize_extras_ext(out, &bv->ext)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_accessor(const tg3_accessor *acc, int wd, tg3json_value *out) { tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", acc->name) || !tg3__serialize_uint64(out, "byteOffset", acc->byte_offset, 0, wd) || !tg3__json_set_int(out, "componentType", acc->component_type) || !tg3__json_set_int(out, "count", (int64_t)acc->count) || !tg3__json_set_string(out, "type", tg3__accessor_type_to_string(acc->type)) || !tg3__serialize_bool(out, "normalized", acc->normalized, 0, wd) || !tg3__serialize_double_array(out, "min", acc->min_values, acc->min_values_count) || !tg3__serialize_double_array(out, "max", acc->max_values, acc->max_values_count)) { tg3json_value_free(out); return 0; } if (acc->buffer_view >= 0 && !tg3__json_set_int(out, "bufferView", acc->buffer_view)) { tg3json_value_free(out); return 0; } if (acc->sparse.is_sparse) { tg3json_value sparse, indices, values; tg3json_value_init_object(&sparse); tg3json_value_init_object(&indices); tg3json_value_init_object(&values); if (!tg3__json_set_int(&sparse, "count", acc->sparse.count) || !tg3__json_set_int(&indices, "bufferView", acc->sparse.indices.buffer_view) || !tg3__json_set_int(&indices, "componentType", acc->sparse.indices.component_type) || !tg3__serialize_uint64(&indices, "byteOffset", acc->sparse.indices.byte_offset, 0, wd) || !tg3__serialize_extras_ext(&indices, &acc->sparse.indices.ext) || !tg3__json_set_take(&sparse, "indices", &indices) || !tg3__json_set_int(&values, "bufferView", acc->sparse.values.buffer_view) || !tg3__serialize_uint64(&values, "byteOffset", acc->sparse.values.byte_offset, 0, wd) || !tg3__serialize_extras_ext(&values, &acc->sparse.values.ext) || !tg3__json_set_take(&sparse, "values", &values) || !tg3__serialize_extras_ext(&sparse, &acc->sparse.ext) || !tg3__json_set_take(out, "sparse", &sparse)) { tg3json_value_free(&indices); tg3json_value_free(&values); tg3json_value_free(&sparse); tg3json_value_free(out); return 0; } } if (!tg3__serialize_extras_ext(out, &acc->ext)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_image(const tg3_image *img, int wd, int embed, tg3json_value *out) { (void)wd; (void)embed; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", img->name) || !tg3__serialize_str(out, "uri", img->uri) || !tg3__serialize_str(out, "mimeType", img->mime_type) || !tg3__serialize_extras_ext(out, &img->ext)) { tg3json_value_free(out); return 0; } if (img->buffer_view >= 0 && !tg3__json_set_int(out, "bufferView", img->buffer_view)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_sampler(const tg3_sampler *s, int wd, tg3json_value *out) { tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", s->name) || !tg3__serialize_int(out, "wrapS", s->wrap_s, TG3_TEXTURE_WRAP_REPEAT, wd) || !tg3__serialize_int(out, "wrapT", s->wrap_t, TG3_TEXTURE_WRAP_REPEAT, wd) || !tg3__serialize_extras_ext(out, &s->ext)) { tg3json_value_free(out); return 0; } if (s->min_filter >= 0 && !tg3__json_set_int(out, "minFilter", s->min_filter)) { tg3json_value_free(out); return 0; } if (s->mag_filter >= 0 && !tg3__json_set_int(out, "magFilter", s->mag_filter)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_texture(const tg3_texture *t, int wd, tg3json_value *out) { (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", t->name) || !tg3__serialize_extras_ext(out, &t->ext)) { tg3json_value_free(out); return 0; } if (t->sampler >= 0 && !tg3__json_set_int(out, "sampler", t->sampler)) { tg3json_value_free(out); return 0; } if (t->source >= 0 && !tg3__json_set_int(out, "source", t->source)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_material(const tg3_material *m, int wd, tg3json_value *out) { tg3json_value pbr; int has_pbr = 0; const tg3_pbr_metallic_roughness *p = &m->pbr_metallic_roughness; tg3json_value_init_object(out); tg3json_value_init_object(&pbr); if (!tg3__serialize_str(out, "name", m->name)) goto fail; if (p->base_color_factor[0] != 1.0 || p->base_color_factor[1] != 1.0 || p->base_color_factor[2] != 1.0 || p->base_color_factor[3] != 1.0 || wd) { if (!tg3__serialize_double_array(&pbr, "baseColorFactor", p->base_color_factor, 4)) goto fail; has_pbr = 1; } if (!tg3__serialize_double(&pbr, "metallicFactor", p->metallic_factor, 1.0, wd)) goto fail; if (fabs(p->metallic_factor - 1.0) > 1e-12 || wd) has_pbr = 1; if (!tg3__serialize_double(&pbr, "roughnessFactor", p->roughness_factor, 1.0, wd)) goto fail; if (fabs(p->roughness_factor - 1.0) > 1e-12 || wd) has_pbr = 1; if (p->base_color_texture.index >= 0) { if (!tg3__serialize_texture_info(&pbr, "baseColorTexture", &p->base_color_texture, wd)) goto fail; has_pbr = 1; } if (p->metallic_roughness_texture.index >= 0) { if (!tg3__serialize_texture_info(&pbr, "metallicRoughnessTexture", &p->metallic_roughness_texture, wd)) goto fail; has_pbr = 1; } if (!tg3__serialize_extras_ext(&pbr, &p->ext)) goto fail; if ((has_pbr || wd) && !tg3__json_set_take(out, "pbrMetallicRoughness", &pbr)) goto fail; if (!tg3__serialize_normal_texture_info(out, "normalTexture", &m->normal_texture, wd) || !tg3__serialize_occlusion_texture_info(out, "occlusionTexture", &m->occlusion_texture, wd) || !tg3__serialize_texture_info(out, "emissiveTexture", &m->emissive_texture, wd)) goto fail; if ((m->emissive_factor[0] != 0.0 || m->emissive_factor[1] != 0.0 || m->emissive_factor[2] != 0.0 || wd) && !tg3__serialize_double_array(out, "emissiveFactor", m->emissive_factor, 3)) goto fail; if (m->alpha_mode.data && !tg3_str_equals_cstr(m->alpha_mode, "OPAQUE") && !tg3__serialize_str(out, "alphaMode", m->alpha_mode)) goto fail; if (!tg3__serialize_double(out, "alphaCutoff", m->alpha_cutoff, 0.5, wd) || !tg3__serialize_bool(out, "doubleSided", m->double_sided, 0, wd) || !tg3__serialize_extras_ext(out, &m->ext)) goto fail; return 1; fail: tg3json_value_free(&pbr); tg3json_value_free(out); return 0; } static int tg3__serialize_primitive(const tg3_primitive *p, int wd, tg3json_value *out) { tg3json_value attrs, targets; uint32_t i; tg3json_value_init_object(out); if (p->attributes && p->attributes_count > 0) { tg3json_value_init_object(&attrs); for (i = 0; i < p->attributes_count; ++i) { tg3json_value item; tg3json_value_init_int(&item, p->attributes[i].value); if (!tg3json_object_set_take_n(&attrs, p->attributes[i].key.data ? p->attributes[i].key.data : "", p->attributes[i].key.data ? p->attributes[i].key.len : 0, &item)) { tg3json_value_free(&item); tg3json_value_free(&attrs); goto fail; } } if (!tg3__json_set_take(out, "attributes", &attrs)) { tg3json_value_free(&attrs); goto fail; } } if (p->indices >= 0 && !tg3__json_set_int(out, "indices", p->indices)) goto fail; if (p->material >= 0 && !tg3__json_set_int(out, "material", p->material)) goto fail; if (!tg3__serialize_int(out, "mode", p->mode, TG3_MODE_TRIANGLES, wd)) goto fail; if (p->targets && p->targets_count > 0) { uint32_t t; tg3json_value_init_array(&targets); for (t = 0; t < p->targets_count; ++t) { tg3json_value tgt; uint32_t acount = p->target_attribute_counts ? p->target_attribute_counts[t] : 0; tg3json_value_init_object(&tgt); for (i = 0; i < acount; ++i) { tg3json_value item; tg3json_value_init_int(&item, p->targets[t][i].value); if (!tg3json_object_set_take_n(&tgt, p->targets[t][i].key.data ? p->targets[t][i].key.data : "", p->targets[t][i].key.data ? p->targets[t][i].key.len : 0, &item)) { tg3json_value_free(&item); tg3json_value_free(&tgt); tg3json_value_free(&targets); goto fail; } } if (!tg3__json_push_take(&targets, &tgt)) { tg3json_value_free(&tgt); tg3json_value_free(&targets); goto fail; } } if (!tg3__json_set_take(out, "targets", &targets)) { tg3json_value_free(&targets); goto fail; } } if (!tg3__serialize_extras_ext(out, &p->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_mesh(const tg3_mesh *m, int wd, tg3json_value *out) { uint32_t i; tg3json_value prims; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", m->name)) goto fail; if (m->primitives && m->primitives_count > 0) { tg3json_value_init_array(&prims); for (i = 0; i < m->primitives_count; ++i) { tg3json_value prim; if (!tg3__serialize_primitive(&m->primitives[i], wd, &prim) || !tg3__json_push_take(&prims, &prim)) { tg3json_value_free(&prim); tg3json_value_free(&prims); goto fail; } } if (!tg3__json_set_take(out, "primitives", &prims)) { tg3json_value_free(&prims); goto fail; } } if (!tg3__serialize_double_array(out, "weights", m->weights, m->weights_count) || !tg3__serialize_extras_ext(out, &m->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_node(const tg3_node *n, int wd, tg3json_value *out) { tg3json_value *exts = NULL; tg3json_value tmp; int has_t, has_r, has_s; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", n->name) || !tg3__serialize_int_array(out, "children", n->children, n->children_count)) goto fail; if (n->camera >= 0 && !tg3__json_set_int(out, "camera", n->camera)) goto fail; if (n->skin >= 0 && !tg3__json_set_int(out, "skin", n->skin)) goto fail; if (n->mesh >= 0 && !tg3__json_set_int(out, "mesh", n->mesh)) goto fail; if (n->has_matrix) { if (!tg3__serialize_double_array(out, "matrix", n->matrix, 16)) goto fail; } else { has_t = (n->translation[0] != 0.0 || n->translation[1] != 0.0 || n->translation[2] != 0.0); has_r = (n->rotation[0] != 0.0 || n->rotation[1] != 0.0 || n->rotation[2] != 0.0 || n->rotation[3] != 1.0); has_s = (n->scale[0] != 1.0 || n->scale[1] != 1.0 || n->scale[2] != 1.0); if ((has_t || wd) && !tg3__serialize_double_array(out, "translation", n->translation, 3)) goto fail; if ((has_r || wd) && !tg3__serialize_double_array(out, "rotation", n->rotation, 4)) goto fail; if ((has_s || wd) && !tg3__serialize_double_array(out, "scale", n->scale, 3)) goto fail; } if (!tg3__serialize_double_array(out, "weights", n->weights, n->weights_count) || !tg3__serialize_extras_ext(out, &n->ext)) goto fail; if (n->light >= 0 || n->emitter >= 0 || (n->lods && n->lods_count > 0)) { if (!tg3__json_ensure_object(out, "extensions", &exts)) goto fail; if (n->light >= 0) { tg3json_value_init_object(&tmp); if (!tg3__json_set_int(&tmp, "light", n->light) || !tg3__json_set_take(exts, "KHR_lights_punctual", &tmp)) { tg3json_value_free(&tmp); goto fail; } } if (n->emitter >= 0) { tg3json_value_init_object(&tmp); if (!tg3__json_set_int(&tmp, "emitter", n->emitter) || !tg3__json_set_take(exts, "KHR_audio", &tmp)) { tg3json_value_free(&tmp); goto fail; } } if (n->lods && n->lods_count > 0) { tg3json_value_init_object(&tmp); if (!tg3__serialize_int_array(&tmp, "ids", n->lods, n->lods_count) || !tg3__json_set_take(exts, "MSFT_lod", &tmp)) { tg3json_value_free(&tmp); goto fail; } } } return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_skin(const tg3_skin *s, int wd, tg3json_value *out) { (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", s->name) || !tg3__serialize_int_array(out, "joints", s->joints, s->joints_count) || !tg3__serialize_extras_ext(out, &s->ext)) { tg3json_value_free(out); return 0; } if (s->inverse_bind_matrices >= 0 && !tg3__json_set_int(out, "inverseBindMatrices", s->inverse_bind_matrices)) { tg3json_value_free(out); return 0; } if (s->skeleton >= 0 && !tg3__json_set_int(out, "skeleton", s->skeleton)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_animation(const tg3_animation *a, int wd, tg3json_value *out) { uint32_t i; tg3json_value channels, samplers; (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", a->name)) goto fail; if (a->channels && a->channels_count > 0) { tg3json_value_init_array(&channels); for (i = 0; i < a->channels_count; ++i) { tg3json_value ch, tgt; tg3json_value_init_object(&ch); tg3json_value_init_object(&tgt); if (a->channels[i].target.node >= 0 && !tg3__json_set_int(&tgt, "node", a->channels[i].target.node)) { tg3json_value_free(&tgt); tg3json_value_free(&ch); tg3json_value_free(&channels); goto fail; } if (!tg3__json_set_int(&ch, "sampler", a->channels[i].sampler) || !tg3__serialize_str(&tgt, "path", a->channels[i].target.path) || !tg3__serialize_extras_ext(&tgt, &a->channels[i].target.ext) || !tg3__json_set_take(&ch, "target", &tgt) || !tg3__serialize_extras_ext(&ch, &a->channels[i].ext) || !tg3__json_push_take(&channels, &ch)) { tg3json_value_free(&tgt); tg3json_value_free(&ch); tg3json_value_free(&channels); goto fail; } } if (!tg3__json_set_take(out, "channels", &channels)) { tg3json_value_free(&channels); goto fail; } } if (a->samplers && a->samplers_count > 0) { tg3json_value_init_array(&samplers); for (i = 0; i < a->samplers_count; ++i) { tg3json_value s; tg3json_value_init_object(&s); if (!tg3__json_set_int(&s, "input", a->samplers[i].input) || !tg3__json_set_int(&s, "output", a->samplers[i].output) || !tg3__serialize_str(&s, "interpolation", a->samplers[i].interpolation) || !tg3__serialize_extras_ext(&s, &a->samplers[i].ext) || !tg3__json_push_take(&samplers, &s)) { tg3json_value_free(&s); tg3json_value_free(&samplers); goto fail; } } if (!tg3__json_set_take(out, "samplers", &samplers)) { tg3json_value_free(&samplers); goto fail; } } if (!tg3__serialize_extras_ext(out, &a->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_camera(const tg3_camera *c, int wd, tg3json_value *out) { tg3json_value tmp; (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", c->name) || !tg3__serialize_str(out, "type", c->type)) goto fail; if (c->type.data && tg3_str_equals_cstr(c->type, "perspective")) { tg3json_value_init_object(&tmp); if ((c->perspective.aspect_ratio > 0.0 && !tg3__json_set_real(&tmp, "aspectRatio", c->perspective.aspect_ratio)) || !tg3__json_set_real(&tmp, "yfov", c->perspective.yfov) || (c->perspective.zfar > 0.0 && !tg3__json_set_real(&tmp, "zfar", c->perspective.zfar)) || !tg3__json_set_real(&tmp, "znear", c->perspective.znear) || !tg3__serialize_extras_ext(&tmp, &c->perspective.ext) || !tg3__json_set_take(out, "perspective", &tmp)) { tg3json_value_free(&tmp); goto fail; } } else if (c->type.data && tg3_str_equals_cstr(c->type, "orthographic")) { tg3json_value_init_object(&tmp); if (!tg3__json_set_real(&tmp, "xmag", c->orthographic.xmag) || !tg3__json_set_real(&tmp, "ymag", c->orthographic.ymag) || !tg3__json_set_real(&tmp, "zfar", c->orthographic.zfar) || !tg3__json_set_real(&tmp, "znear", c->orthographic.znear) || !tg3__serialize_extras_ext(&tmp, &c->orthographic.ext) || !tg3__json_set_take(out, "orthographic", &tmp)) { tg3json_value_free(&tmp); goto fail; } } if (!tg3__serialize_extras_ext(out, &c->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_scene(const tg3_scene *s, int wd, tg3json_value *out) { (void)wd; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", s->name) || !tg3__serialize_int_array(out, "nodes", s->nodes, s->nodes_count) || !tg3__serialize_extras_ext(out, &s->ext)) { tg3json_value_free(out); return 0; } return 1; } static int tg3__serialize_light(const tg3_light *l, int wd, tg3json_value *out) { tg3json_value spot; tg3json_value_init_object(out); if (!tg3__serialize_str(out, "name", l->name) || !tg3__serialize_str(out, "type", l->type) || !tg3__serialize_double(out, "intensity", l->intensity, 1.0, wd) || !tg3__serialize_double(out, "range", l->range, 0.0, wd)) goto fail; if ((l->color[0] != 1.0 || l->color[1] != 1.0 || l->color[2] != 1.0 || wd) && !tg3__serialize_double_array(out, "color", l->color, 3)) goto fail; if (l->type.data && tg3_str_equals_cstr(l->type, "spot")) { tg3json_value_init_object(&spot); if (!tg3__serialize_double(&spot, "innerConeAngle", l->spot.inner_cone_angle, 0.0, wd) || !tg3__serialize_double(&spot, "outerConeAngle", l->spot.outer_cone_angle, 0.7853981634, wd) || !tg3__serialize_extras_ext(&spot, &l->spot.ext) || !tg3__json_set_take(out, "spot", &spot)) { tg3json_value_free(&spot); goto fail; } } if (!tg3__serialize_extras_ext(out, &l->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } static int tg3__serialize_model(const tg3_model *model, int wd, int embed_images, int embed_buffers, tg3json_value *out) { tg3json_value asset, arr, item, lights_ext, lights, *exts; uint32_t i; tg3json_value_init_object(out); if (!tg3__serialize_asset(&model->asset, wd, &asset) || !tg3__json_set_take(out, "asset", &asset)) goto fail; if (model->default_scene >= 0 && !tg3__json_set_int(out, "scene", model->default_scene)) goto fail; if (!tg3__serialize_string_array(out, "extensionsUsed", model->extensions_used, model->extensions_used_count) || !tg3__serialize_string_array(out, "extensionsRequired", model->extensions_required, model->extensions_required_count)) goto fail; #define TG3__SERIALIZE_ARRAY_FIELD(json_key, arr_ptr, arr_count, fn, ...) \ do { \ if ((arr_ptr) && (arr_count) > 0) { \ tg3json_value_init_array(&arr); \ for (i = 0; i < (arr_count); ++i) { \ tg3json_value_init_null(&item); \ if (!fn(&(arr_ptr)[i], __VA_ARGS__, &item) || !tg3__json_push_take(&arr, &item)) { \ tg3json_value_free(&item); \ tg3json_value_free(&arr); \ goto fail; \ } \ } \ if (!tg3__json_set_take(out, json_key, &arr)) { \ tg3json_value_free(&arr); \ goto fail; \ } \ } \ } while (0) TG3__SERIALIZE_ARRAY_FIELD("buffers", model->buffers, model->buffers_count, tg3__serialize_buffer, wd, embed_buffers); TG3__SERIALIZE_ARRAY_FIELD("bufferViews", model->buffer_views, model->buffer_views_count, tg3__serialize_buffer_view, wd); TG3__SERIALIZE_ARRAY_FIELD("accessors", model->accessors, model->accessors_count, tg3__serialize_accessor, wd); TG3__SERIALIZE_ARRAY_FIELD("meshes", model->meshes, model->meshes_count, tg3__serialize_mesh, wd); TG3__SERIALIZE_ARRAY_FIELD("nodes", model->nodes, model->nodes_count, tg3__serialize_node, wd); TG3__SERIALIZE_ARRAY_FIELD("materials", model->materials, model->materials_count, tg3__serialize_material, wd); TG3__SERIALIZE_ARRAY_FIELD("textures", model->textures, model->textures_count, tg3__serialize_texture, wd); TG3__SERIALIZE_ARRAY_FIELD("samplers", model->samplers, model->samplers_count, tg3__serialize_sampler, wd); TG3__SERIALIZE_ARRAY_FIELD("images", model->images, model->images_count, tg3__serialize_image, wd, embed_images); TG3__SERIALIZE_ARRAY_FIELD("skins", model->skins, model->skins_count, tg3__serialize_skin, wd); TG3__SERIALIZE_ARRAY_FIELD("animations", model->animations, model->animations_count, tg3__serialize_animation, wd); TG3__SERIALIZE_ARRAY_FIELD("cameras", model->cameras, model->cameras_count, tg3__serialize_camera, wd); TG3__SERIALIZE_ARRAY_FIELD("scenes", model->scenes, model->scenes_count, tg3__serialize_scene, wd); #undef TG3__SERIALIZE_ARRAY_FIELD if (model->lights && model->lights_count > 0) { tg3json_value_init_object(&lights_ext); tg3json_value_init_array(&lights); for (i = 0; i < model->lights_count; ++i) { tg3json_value_init_null(&item); if (!tg3__serialize_light(&model->lights[i], wd, &item) || !tg3__json_push_take(&lights, &item)) { tg3json_value_free(&item); tg3json_value_free(&lights); tg3json_value_free(&lights_ext); goto fail; } } if (!tg3__json_set_take(&lights_ext, "lights", &lights) || !tg3__json_ensure_object(out, "extensions", &exts) || !tg3__json_set_take(exts, "KHR_lights_punctual", &lights_ext)) { tg3json_value_free(&lights); tg3json_value_free(&lights_ext); goto fail; } } if (!tg3__serialize_extras_ext(out, &model->ext)) goto fail; return 1; fail: tg3json_value_free(out); return 0; } TINYGLTF3_API tg3_error_code tg3_write_to_memory(const tg3_model *model, tg3_error_stack *errors, uint8_t **out_data, uint64_t *out_size, const tg3_write_options *options) { tg3_write_options default_opts; tg3json_value root; char *json_str; size_t json_len; if (out_data) *out_data = NULL; if (out_size) *out_size = 0; if (!model || !out_data || !out_size) return TG3_ERR_WRITE_FAILED; if (!options) { tg3_write_options_init(&default_opts); options = &default_opts; } if (!tg3__serialize_model(model, options->serialize_defaults, options->embed_images, options->embed_buffers, &root)) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "Failed to serialize model to JSON tree", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } json_str = options->pretty_print ? tg3json_stringify_pretty(&root, 2, &json_len) : tg3json_stringify(&root, &json_len); tg3json_value_free(&root); if (!json_str) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "Failed to stringify JSON output", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } if (options->write_binary) { uint32_t json_padded = ((uint32_t)json_len + 3u) & ~3u; const uint8_t *bin_data = NULL; uint64_t bin_len = 0; uint32_t bin_padded; uint32_t total; uint8_t *glb; if (model->buffers_count > 0 && model->buffers && model->buffers[0].data.data) { bin_data = model->buffers[0].data.data; bin_len = model->buffers[0].data.count; } bin_padded = ((uint32_t)bin_len + 3u) & ~3u; total = 12u + 8u + json_padded + ((bin_data && bin_len > 0) ? (8u + bin_padded) : 0u); glb = (uint8_t *)malloc(total); if (!glb) { free(json_str); tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "OOM allocating GLB output", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } memcpy(glb, "glTF", 4); { uint32_t version = 2u; uint32_t json_type = 0x4E4F534Au; memcpy(glb + 4, &version, 4); memcpy(glb + 8, &total, 4); memcpy(glb + 12, &json_padded, 4); memcpy(glb + 16, &json_type, 4); memcpy(glb + 20, json_str, json_len); } while ((uint32_t)json_len < json_padded) { glb[20u + json_len] = ' '; ++json_len; } if (bin_data && bin_len > 0) { uint32_t bin_off = 20u + json_padded; uint32_t bin_type = 0x004E4942u; uint32_t i; memcpy(glb + bin_off, &bin_padded, 4); memcpy(glb + bin_off + 4u, &bin_type, 4); memcpy(glb + bin_off + 8u, bin_data, (size_t)bin_len); for (i = (uint32_t)bin_len; i < bin_padded; ++i) glb[bin_off + 8u + i] = 0; } free(json_str); *out_data = glb; *out_size = total; return TG3_OK; } else { uint8_t *data = (uint8_t *)malloc(json_len); if (!data) { free(json_str); tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_OUT_OF_MEMORY, "OOM allocating JSON output", NULL, -1); return TG3_ERR_OUT_OF_MEMORY; } memcpy(data, json_str, json_len); free(json_str); *out_data = data; *out_size = (uint64_t)json_len; return TG3_OK; } } TINYGLTF3_API tg3_error_code tg3_write_to_file(const tg3_model *model, tg3_error_stack *errors, const char *filename, uint32_t filename_len, const tg3_write_options *options) { tg3_write_options opts; uint8_t *data = NULL; uint64_t size = 0; tg3_error_code err; int32_t ok; if (options) opts = *options; else tg3_write_options_init(&opts); #ifdef TINYGLTF3_ENABLE_FS tg3__set_default_fs(&opts.fs); #endif if (!opts.fs.write_file) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_FS_NOT_AVAILABLE, "No filesystem write callback", NULL, -1); return TG3_ERR_FS_NOT_AVAILABLE; } err = tg3_write_to_memory(model, errors, &data, &size, &opts); if (err != TG3_OK) return err; ok = opts.fs.write_file(filename, filename_len, data, size, opts.fs.user_data); free(data); if (!ok) { tg3__error_push(errors, TG3_SEVERITY_ERROR, TG3_ERR_FILE_WRITE, "Failed to write file", NULL, -1); return TG3_ERR_FILE_WRITE; } return TG3_OK; } TINYGLTF3_API void tg3_write_free(uint8_t *data, const tg3_write_options *options) { (void)options; free(data); } TINYGLTF3_API tg3_writer *tg3_writer_create(tg3_write_chunk_fn chunk_fn, void *user_data, const tg3_write_options *options) { tg3_writer *w = (tg3_writer *)malloc(sizeof(tg3_writer)); if (!w) return NULL; memset(w, 0, sizeof(*w)); w->chunk_fn = chunk_fn; w->user_data = user_data; if (options) w->options = *options; else tg3_write_options_init(&w->options); tg3json_value_init_object(&w->root); return w; } TINYGLTF3_API tg3_error_code tg3_writer_begin(tg3_writer *w, const tg3_asset *asset) { tg3json_value asset_json; if (!w || !asset) return TG3_ERR_WRITE_FAILED; tg3json_value_init_null(&asset_json); if (!tg3__serialize_asset(asset, w->options.serialize_defaults, &asset_json) || !tg3__json_set_take(&w->root, "asset", &asset_json)) { tg3json_value_free(&asset_json); return TG3_ERR_OUT_OF_MEMORY; } w->begun = 1; return TG3_OK; } static tg3_error_code tg3__writer_add_item(tg3_writer *w, const char *json_key, const tg3json_value *item) { tg3json_value *arr = NULL; if (!w || !w->begun) return TG3_ERR_WRITE_FAILED; if (!tg3__json_ensure_array(&w->root, json_key, &arr) || !tg3json_array_append_copy(arr, item)) { return TG3_ERR_OUT_OF_MEMORY; } return TG3_OK; } #define TG3__WRITER_ADD_IMPL(name, Type, json_key, serialize_fn, ...) \ TINYGLTF3_API tg3_error_code tg3_writer_add_##name(tg3_writer *w, const Type *item) { \ tg3json_value tmp; \ if (!item) return TG3_ERR_WRITE_FAILED; \ if (!serialize_fn(item, w->options.serialize_defaults, __VA_ARGS__, &tmp)) return TG3_ERR_OUT_OF_MEMORY; \ { tg3_error_code err = tg3__writer_add_item(w, json_key, &tmp); tg3json_value_free(&tmp); return err; } \ } #define TG3__WRITER_ADD_SIMPLE(name, Type, json_key, serialize_fn) \ TINYGLTF3_API tg3_error_code tg3_writer_add_##name(tg3_writer *w, const Type *item) { \ tg3json_value tmp; \ if (!item) return TG3_ERR_WRITE_FAILED; \ if (!serialize_fn(item, w->options.serialize_defaults, &tmp)) return TG3_ERR_OUT_OF_MEMORY; \ { tg3_error_code err = tg3__writer_add_item(w, json_key, &tmp); tg3json_value_free(&tmp); return err; } \ } TG3__WRITER_ADD_IMPL(buffer, tg3_buffer, "buffers", tg3__serialize_buffer, w->options.embed_buffers) TG3__WRITER_ADD_SIMPLE(buffer_view, tg3_buffer_view, "bufferViews", tg3__serialize_buffer_view) TG3__WRITER_ADD_SIMPLE(accessor, tg3_accessor, "accessors", tg3__serialize_accessor) TG3__WRITER_ADD_SIMPLE(mesh, tg3_mesh, "meshes", tg3__serialize_mesh) TG3__WRITER_ADD_SIMPLE(node, tg3_node, "nodes", tg3__serialize_node) TG3__WRITER_ADD_SIMPLE(material, tg3_material, "materials", tg3__serialize_material) TG3__WRITER_ADD_SIMPLE(texture, tg3_texture, "textures", tg3__serialize_texture) TG3__WRITER_ADD_IMPL(image, tg3_image, "images", tg3__serialize_image, w->options.embed_images) TG3__WRITER_ADD_SIMPLE(sampler, tg3_sampler, "samplers", tg3__serialize_sampler) TG3__WRITER_ADD_SIMPLE(animation, tg3_animation, "animations", tg3__serialize_animation) TG3__WRITER_ADD_SIMPLE(skin, tg3_skin, "skins", tg3__serialize_skin) TG3__WRITER_ADD_SIMPLE(camera, tg3_camera, "cameras", tg3__serialize_camera) TG3__WRITER_ADD_SIMPLE(scene, tg3_scene, "scenes", tg3__serialize_scene) TG3__WRITER_ADD_SIMPLE(light, tg3_light, "lights", tg3__serialize_light) #undef TG3__WRITER_ADD_IMPL #undef TG3__WRITER_ADD_SIMPLE TINYGLTF3_API tg3_error_code tg3_writer_end(tg3_writer *w) { char *json_str; size_t json_len; int32_t ok; if (!w || !w->begun || !w->chunk_fn) return TG3_ERR_WRITE_FAILED; json_str = w->options.pretty_print ? tg3json_stringify_pretty(&w->root, 2, &json_len) : tg3json_stringify(&w->root, &json_len); if (!json_str) return TG3_ERR_OUT_OF_MEMORY; ok = w->chunk_fn((const uint8_t *)json_str, (uint64_t)json_len, w->user_data); free(json_str); return ok ? TG3_OK : TG3_ERR_WRITE_FAILED; } TINYGLTF3_API void tg3_writer_destroy(tg3_writer *w) { if (!w) return; tg3json_value_free(&w->root); free(w); }