// Copyright 2007-2019 David Robillard // SPDX-License-Identifier: ISC #include "lilv_internal.h" #include "lilv/lilv.h" #include "serd/serd.h" #include "sord/sord.h" #include "zix/allocator.h" #include "zix/filesystem.h" #include "zix/path.h" #include #include #include #include #include #include static void lilv_node_set_numerics_from_string(LilvNode* val) { const char* str = (const char*)sord_node_get_string(val->node); switch (val->type) { case LILV_VALUE_URI: case LILV_VALUE_BLANK: case LILV_VALUE_STRING: case LILV_VALUE_BLOB: break; case LILV_VALUE_INT: val->val.int_val = strtol(str, NULL, 10); break; case LILV_VALUE_FLOAT: val->val.float_val = serd_strtod(str, NULL); break; case LILV_VALUE_BOOL: val->val.bool_val = !strcmp(str, "true"); break; } } /** Note that if `type` is numeric or boolean, the returned value is corrupt * until lilv_node_set_numerics_from_string is called. It is not * automatically called from here to avoid overhead and imprecision when the * exact string value is known. */ LilvNode* lilv_node_new(LilvWorld* world, LilvNodeType type, const char* str) { LilvNode* val = (LilvNode*)malloc(sizeof(LilvNode)); val->world = world; val->type = type; const uint8_t* ustr = (const uint8_t*)str; switch (type) { case LILV_VALUE_URI: val->node = sord_new_uri(world->world, ustr); break; case LILV_VALUE_BLANK: val->node = sord_new_blank(world->world, ustr); break; case LILV_VALUE_STRING: val->node = sord_new_literal(world->world, NULL, ustr, NULL); break; case LILV_VALUE_INT: val->node = sord_new_literal(world->world, world->uris.xsd_integer, ustr, NULL); break; case LILV_VALUE_FLOAT: val->node = sord_new_literal(world->world, world->uris.xsd_decimal, ustr, NULL); break; case LILV_VALUE_BOOL: val->node = sord_new_literal(world->world, world->uris.xsd_boolean, ustr, NULL); break; case LILV_VALUE_BLOB: val->node = sord_new_literal(world->world, world->uris.xsd_base64Binary, ustr, NULL); break; } if (!val->node) { free(val); return NULL; } return val; } /** Create a new LilvNode from `node`, or return NULL if impossible */ LilvNode* lilv_node_new_from_node(LilvWorld* world, const SordNode* node) { if (!node) { return NULL; } LilvNode* result = NULL; const SordNode* datatype_uri = NULL; LilvNodeType type = LILV_VALUE_STRING; switch (sord_node_get_type(node)) { case SORD_URI: result = (LilvNode*)malloc(sizeof(LilvNode)); result->world = world; result->type = LILV_VALUE_URI; result->node = sord_node_copy(node); break; case SORD_BLANK: result = (LilvNode*)malloc(sizeof(LilvNode)); result->world = world; result->type = LILV_VALUE_BLANK; result->node = sord_node_copy(node); break; case SORD_LITERAL: datatype_uri = sord_node_get_datatype(node); if (datatype_uri) { if (sord_node_equals(datatype_uri, world->uris.xsd_boolean)) { type = LILV_VALUE_BOOL; } else if (sord_node_equals(datatype_uri, world->uris.xsd_decimal) || sord_node_equals(datatype_uri, world->uris.xsd_double)) { type = LILV_VALUE_FLOAT; } else if (sord_node_equals(datatype_uri, world->uris.xsd_integer)) { type = LILV_VALUE_INT; } else if (sord_node_equals(datatype_uri, world->uris.xsd_base64Binary)) { type = LILV_VALUE_BLOB; } else { LILV_ERRORF("Unknown datatype `%s'\n", sord_node_get_string(datatype_uri)); } } result = lilv_node_new(world, type, (const char*)sord_node_get_string(node)); lilv_node_set_numerics_from_string(result); break; } return result; } LilvNode* lilv_new_uri(LilvWorld* world, const char* uri) { return lilv_node_new(world, LILV_VALUE_URI, uri); } LilvNode* lilv_new_file_uri(LilvWorld* world, const char* host, const char* path) { SerdNode s = SERD_NODE_NULL; if (zix_path_root_directory(path).length) { s = serd_node_new_file_uri( (const uint8_t*)path, (const uint8_t*)host, NULL, true); } else { char* const cwd = zix_current_path(NULL); char* const abs_path = zix_path_join(NULL, cwd, path); s = serd_node_new_file_uri( (const uint8_t*)abs_path, (const uint8_t*)host, NULL, true); zix_free(NULL, abs_path); zix_free(NULL, cwd); } LilvNode* ret = lilv_node_new(world, LILV_VALUE_URI, (const char*)s.buf); serd_node_free(&s); return ret; } LilvNode* lilv_new_string(LilvWorld* world, const char* str) { return lilv_node_new(world, LILV_VALUE_STRING, str); } LilvNode* lilv_new_int(LilvWorld* world, int val) { char str[32]; snprintf(str, sizeof(str), "%d", val); LilvNode* ret = lilv_node_new(world, LILV_VALUE_INT, str); if (ret) { ret->val.int_val = val; } return ret; } LilvNode* lilv_new_float(LilvWorld* world, float val) { char str[32]; snprintf(str, sizeof(str), "%f", val); LilvNode* ret = lilv_node_new(world, LILV_VALUE_FLOAT, str); if (ret) { ret->val.float_val = val; } return ret; } LilvNode* lilv_new_bool(LilvWorld* world, bool val) { LilvNode* ret = lilv_node_new(world, LILV_VALUE_BOOL, val ? "true" : "false"); if (ret) { ret->val.bool_val = val; } return ret; } LilvNode* lilv_node_duplicate(const LilvNode* val) { if (!val) { return NULL; } LilvNode* result = (LilvNode*)malloc(sizeof(LilvNode)); result->world = val->world; result->node = sord_node_copy(val->node); result->val = val->val; result->type = val->type; return result; } void lilv_node_free(LilvNode* val) { if (val) { sord_node_free(val->world->world, val->node); free(val); } } bool lilv_node_equals(const LilvNode* value, const LilvNode* other) { if (value == NULL && other == NULL) { return true; } if (value == NULL || other == NULL || value->type != other->type) { return false; } switch (value->type) { case LILV_VALUE_URI: case LILV_VALUE_BLANK: case LILV_VALUE_STRING: case LILV_VALUE_BLOB: return sord_node_equals(value->node, other->node); case LILV_VALUE_INT: return (value->val.int_val == other->val.int_val); case LILV_VALUE_FLOAT: return (value->val.float_val == other->val.float_val); case LILV_VALUE_BOOL: return (value->val.bool_val == other->val.bool_val); } return false; /* shouldn't get here */ } char* lilv_node_get_turtle_token(const LilvNode* value) { const char* str = (const char*)sord_node_get_string(value->node); size_t len = 0; char* result = NULL; SerdNode node; switch (value->type) { case LILV_VALUE_URI: len = strlen(str) + 3; result = (char*)calloc(len, 1); snprintf(result, len, "<%s>", str); break; case LILV_VALUE_BLANK: len = strlen(str) + 3; result = (char*)calloc(len, 1); snprintf(result, len, "_:%s", str); break; case LILV_VALUE_STRING: case LILV_VALUE_BOOL: case LILV_VALUE_BLOB: result = lilv_strdup(str); break; case LILV_VALUE_INT: node = serd_node_new_integer(value->val.int_val); result = lilv_strdup((char*)node.buf); serd_node_free(&node); break; case LILV_VALUE_FLOAT: node = serd_node_new_decimal(value->val.float_val, 8); result = lilv_strdup((char*)node.buf); serd_node_free(&node); break; } return result; } bool lilv_node_is_uri(const LilvNode* value) { return (value && value->type == LILV_VALUE_URI); } const char* lilv_node_as_uri(const LilvNode* value) { return (lilv_node_is_uri(value) ? (const char*)sord_node_get_string(value->node) : NULL); } bool lilv_node_is_blank(const LilvNode* value) { return (value && value->type == LILV_VALUE_BLANK); } const char* lilv_node_as_blank(const LilvNode* value) { return (lilv_node_is_blank(value) ? (const char*)sord_node_get_string(value->node) : NULL); } bool lilv_node_is_literal(const LilvNode* value) { if (!value) { return false; } switch (value->type) { case LILV_VALUE_STRING: case LILV_VALUE_INT: case LILV_VALUE_FLOAT: case LILV_VALUE_BLOB: return true; default: return false; } } bool lilv_node_is_string(const LilvNode* value) { return (value && value->type == LILV_VALUE_STRING); } const char* lilv_node_as_string(const LilvNode* value) { return value ? (const char*)sord_node_get_string(value->node) : NULL; } bool lilv_node_is_int(const LilvNode* value) { return (value && value->type == LILV_VALUE_INT); } int lilv_node_as_int(const LilvNode* value) { return lilv_node_is_int(value) ? value->val.int_val : 0; } bool lilv_node_is_float(const LilvNode* value) { return (value && value->type == LILV_VALUE_FLOAT); } float lilv_node_as_float(const LilvNode* value) { if (lilv_node_is_float(value)) { return value->val.float_val; } if (lilv_node_is_int(value)) { return (float)value->val.int_val; } return NAN; } bool lilv_node_is_bool(const LilvNode* value) { return (value && value->type == LILV_VALUE_BOOL); } bool lilv_node_as_bool(const LilvNode* value) { return lilv_node_is_bool(value) ? value->val.bool_val : false; } char* lilv_node_get_path(const LilvNode* value, char** hostname) { if (lilv_node_is_uri(value)) { return lilv_file_uri_parse(lilv_node_as_uri(value), hostname); } return NULL; }