/* Copyright 2007-2014 David Robillard Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include "lv2/atom.h" #include "lv2/event.h" #include "lilv_internal.h" LilvPort* lilv_port_new(LilvWorld* world, const SordNode* node, uint32_t index, const char* symbol) { LilvPort* port = (LilvPort*)malloc(sizeof(LilvPort)); port->node = lilv_node_new_from_node(world, node); port->index = index; port->symbol = lilv_node_new(world, LILV_VALUE_STRING, symbol); port->classes = lilv_nodes_new(); return port; } void lilv_port_free(const LilvPlugin* plugin, LilvPort* port) { if (port) { lilv_node_free(port->node); lilv_nodes_free(port->classes); lilv_node_free(port->symbol); free(port); } } LILV_API bool lilv_port_is_a(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* port_class) { LILV_FOREACH(nodes, i, port->classes) if (lilv_node_equals(lilv_nodes_get(port->classes, i), port_class)) return true; return false; } LILV_API bool lilv_port_has_property(const LilvPlugin* p, const LilvPort* port, const LilvNode* property) { return lilv_world_ask_internal(p->world, port->node->node, p->world->uris.lv2_portProperty, property->node); } LILV_API bool lilv_port_supports_event(const LilvPlugin* p, const LilvPort* port, const LilvNode* event) { const uint8_t* predicates[] = { (const uint8_t*)LV2_EVENT__supportsEvent, (const uint8_t*)LV2_ATOM__supports, NULL }; for (const uint8_t** pred = predicates; *pred; ++pred) { if (lilv_world_ask_internal(p->world, port->node->node, sord_new_uri(p->world->world, *pred), event->node)) { return true; } } return false; } static LilvNodes* lilv_port_get_value_by_node(const LilvPlugin* p, const LilvPort* port, const SordNode* predicate) { return lilv_world_find_nodes_internal(p->world, port->node->node, predicate, NULL); } LILV_API const LilvNode* lilv_port_get_node(const LilvPlugin* plugin, const LilvPort* port) { return port->node; } LILV_API LilvNodes* lilv_port_get_value(const LilvPlugin* p, const LilvPort* port, const LilvNode* predicate) { if (!lilv_node_is_uri(predicate)) { LILV_ERRORF("Predicate `%s' is not a URI\n", sord_node_get_string(predicate->node)); return NULL; } return lilv_port_get_value_by_node(p, port, predicate->node); } LILV_API LilvNode* lilv_port_get(const LilvPlugin* p, const LilvPort* port, const LilvNode* predicate) { LilvNodes* values = lilv_port_get_value(p, port, predicate); LilvNode* value = lilv_node_duplicate( values ? lilv_nodes_get_first(values) : NULL); lilv_nodes_free(values); return value; } LILV_API uint32_t lilv_port_get_index(const LilvPlugin* p, const LilvPort* port) { return port->index; } LILV_API const LilvNode* lilv_port_get_symbol(const LilvPlugin* p, const LilvPort* port) { return port->symbol; } LILV_API LilvNode* lilv_port_get_name(const LilvPlugin* p, const LilvPort* port) { LilvNodes* results = lilv_port_get_value_by_node( p, port, p->world->uris.lv2_name); LilvNode* ret = NULL; if (results) { LilvNode* val = lilv_nodes_get_first(results); if (lilv_node_is_string(val)) ret = lilv_node_duplicate(val); lilv_nodes_free(results); } if (!ret) LILV_WARNF("Plugin <%s> port has no (mandatory) doap:name\n", lilv_node_as_string(lilv_plugin_get_uri(p))); return ret; } LILV_API const LilvNodes* lilv_port_get_classes(const LilvPlugin* p, const LilvPort* port) { return port->classes; } LILV_API void lilv_port_get_range(const LilvPlugin* p, const LilvPort* port, LilvNode** def, LilvNode** min, LilvNode** max) { if (def) { LilvNodes* defaults = lilv_port_get_value_by_node( p, port, p->world->uris.lv2_default); *def = defaults ? lilv_node_duplicate(lilv_nodes_get_first(defaults)) : NULL; lilv_nodes_free(defaults); } if (min) { LilvNodes* minimums = lilv_port_get_value_by_node( p, port, p->world->uris.lv2_minimum); *min = minimums ? lilv_node_duplicate(lilv_nodes_get_first(minimums)) : NULL; lilv_nodes_free(minimums); } if (max) { LilvNodes* maximums = lilv_port_get_value_by_node( p, port, p->world->uris.lv2_maximum); *max = maximums ? lilv_node_duplicate(lilv_nodes_get_first(maximums)) : NULL; lilv_nodes_free(maximums); } } LILV_API LilvScalePoints* lilv_port_get_scale_points(const LilvPlugin* p, const LilvPort* port) { SordIter* points = lilv_world_query_internal( p->world, port->node->node, sord_new_uri(p->world->world, (const uint8_t*)LV2_CORE__scalePoint), NULL); LilvScalePoints* ret = NULL; if (!sord_iter_end(points)) ret = lilv_scale_points_new(); FOREACH_MATCH(points) { const SordNode* point = sord_iter_get_node(points, SORD_OBJECT); LilvNode* value = lilv_plugin_get_unique(p, point, p->world->uris.rdf_value); LilvNode* label = lilv_plugin_get_unique(p, point, p->world->uris.rdfs_label); if (value && label) { zix_tree_insert( (ZixTree*)ret, lilv_scale_point_new(value, label), NULL); } } sord_iter_free(points); assert(!ret || lilv_nodes_size(ret) > 0); return ret; } LILV_API LilvNodes* lilv_port_get_properties(const LilvPlugin* p, const LilvPort* port) { LilvNode* pred = lilv_node_new_from_node( p->world, p->world->uris.lv2_portProperty); LilvNodes* ret = lilv_port_get_value(p, port, pred); lilv_node_free(pred); return ret; }