// Copyright 2007-2019 David Robillard // SPDX-License-Identifier: ISC /// @file lilv.h API for Lilv, a lightweight LV2 host library. #ifndef LILV_LILV_H #define LILV_LILV_H #include "lv2/core/lv2.h" #include "lv2/urid/urid.h" #include // IWYU pragma: keep #include #include #include // LILV_API must be used to decorate things in the public API #ifndef LILV_API # if defined(_WIN32) && !defined(LILV_STATIC) && defined(LILV_INTERNAL) # define LILV_API __declspec(dllexport) # elif defined(_WIN32) && !defined(LILV_STATIC) # define LILV_API __declspec(dllimport) # elif defined(__GNUC__) # define LILV_API __attribute__((visibility("default"))) # else # define LILV_API # endif #endif #if defined(__GNUC__) && \ (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1)) # define LILV_DEPRECATED __attribute__((__deprecated__)) #else # define LILV_DEPRECATED #endif #ifdef __cplusplus extern "C" { # if defined(__clang__) # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wzero-as-null-pointer-constant" # endif #endif #define LILV_NS_DOAP "http://usefulinc.com/ns/doap#" #define LILV_NS_FOAF "http://xmlns.com/foaf/0.1/" #define LILV_NS_LILV "http://drobilla.net/ns/lilv#" #define LILV_NS_LV2 "http://lv2plug.in/ns/lv2core#" #define LILV_NS_OWL "http://www.w3.org/2002/07/owl#" #define LILV_NS_RDF "http://www.w3.org/1999/02/22-rdf-syntax-ns#" #define LILV_NS_RDFS "http://www.w3.org/2000/01/rdf-schema#" #define LILV_NS_XSD "http://www.w3.org/2001/XMLSchema#" #define LILV_URI_ATOM_PORT "http://lv2plug.in/ns/ext/atom#AtomPort" #define LILV_URI_AUDIO_PORT "http://lv2plug.in/ns/lv2core#AudioPort" #define LILV_URI_CONTROL_PORT "http://lv2plug.in/ns/lv2core#ControlPort" #define LILV_URI_CV_PORT "http://lv2plug.in/ns/lv2core#CVPort" #define LILV_URI_EVENT_PORT "http://lv2plug.in/ns/ext/event#EventPort" #define LILV_URI_INPUT_PORT "http://lv2plug.in/ns/lv2core#InputPort" #define LILV_URI_MIDI_EVENT "http://lv2plug.in/ns/ext/midi#MidiEvent" #define LILV_URI_OUTPUT_PORT "http://lv2plug.in/ns/lv2core#OutputPort" #define LILV_URI_PORT "http://lv2plug.in/ns/lv2core#Port" struct LilvInstanceImpl; /** @defgroup lilv Lilv C API This is the complete public C API of lilv. @{ */ typedef struct LilvPluginImpl LilvPlugin; /**< LV2 Plugin. */ typedef struct LilvPluginClassImpl LilvPluginClass; /**< Plugin Class. */ typedef struct LilvPortImpl LilvPort; /**< Port. */ typedef struct LilvScalePointImpl LilvScalePoint; /**< Scale Point. */ typedef struct LilvUIImpl LilvUI; /**< Plugin UI. */ typedef struct LilvNodeImpl LilvNode; /**< Typed Value. */ typedef struct LilvWorldImpl LilvWorld; /**< Lilv World. */ typedef struct LilvInstanceImpl LilvInstance; /**< Plugin instance. */ typedef struct LilvStateImpl LilvState; /**< Plugin state. */ typedef void LilvIter; /**< Collection iterator */ typedef void LilvPluginClasses; /**< A set of #LilvPluginClass. */ typedef void LilvPlugins; /**< A set of #LilvPlugin. */ typedef void LilvScalePoints; /**< A set of #LilvScalePoint. */ typedef void LilvUIs; /**< A set of #LilvUI. */ typedef void LilvNodes; /**< A set of #LilvNode. */ /** Free memory allocated by Lilv. This function exists because some systems require memory allocated by a library to be freed by code in the same library. It is otherwise equivalent to the standard C free() function. */ LILV_API void lilv_free(void* ptr); /** @defgroup lilv_node Nodes @{ */ /** Convert a file URI string to a local path string. For example, "file://foo/bar/baz.ttl" returns "/foo/bar/baz.ttl". Return value is shared and must not be deleted by caller. This function does not handle escaping correctly and should not be used for general file URIs. Use lilv_file_uri_parse() instead. @return `uri` converted to a path, or NULL on failure (URI is not local). */ LILV_API LILV_DEPRECATED const char* lilv_uri_to_path(const char* uri); /** Convert a file URI string to a local path string. For example, "file://foo/bar%20one/baz.ttl" returns "/foo/bar one/baz.ttl". Return value must be freed by caller with lilv_free(). @param uri The file URI to parse. @param hostname If non-NULL, set to the hostname in the URI, if any. @return `uri` converted to a path, or NULL on failure (URI is not local). */ LILV_API char* lilv_file_uri_parse(const char* uri, char** hostname); /** Create a new URI value. Returned value must be freed by caller with lilv_node_free(). */ LILV_API LilvNode* lilv_new_uri(LilvWorld* world, const char* uri); /** Create a new file URI value. Relative paths are resolved against the current working directory. Note that this may yield unexpected results if `host` is another machine. @param world The world. @param host Host name, or NULL. @param path Path on host. @return A new node that must be freed by caller. */ LILV_API LilvNode* lilv_new_file_uri(LilvWorld* world, const char* host, const char* path); /** Create a new string value (with no language). Returned value must be freed by caller with lilv_node_free(). */ LILV_API LilvNode* lilv_new_string(LilvWorld* world, const char* str); /** Create a new integer value. Returned value must be freed by caller with lilv_node_free(). */ LILV_API LilvNode* lilv_new_int(LilvWorld* world, int val); /** Create a new floating point value. Returned value must be freed by caller with lilv_node_free(). */ LILV_API LilvNode* lilv_new_float(LilvWorld* world, float val); /** Create a new boolean value. Returned value must be freed by caller with lilv_node_free(). */ LILV_API LilvNode* lilv_new_bool(LilvWorld* world, bool val); /** Free a LilvNode. It is safe to call this function on NULL. */ LILV_API void lilv_node_free(LilvNode* val); /** Duplicate a LilvNode. */ LILV_API LilvNode* lilv_node_duplicate(const LilvNode* val); /** Return whether two values are equivalent. */ LILV_API bool lilv_node_equals(const LilvNode* value, const LilvNode* other); /** Return this value as a Turtle/SPARQL token. Returned value must be freed by caller with lilv_free(). Example tokens: - URI: <http://example.org/foo> - QName: doap:name - String: "this is a string" - Float: 1.0 - Integer: 1 - Boolean: true */ LILV_API char* lilv_node_get_turtle_token(const LilvNode* value); /** Return whether the value is a URI (resource). */ LILV_API bool lilv_node_is_uri(const LilvNode* value); /** Return this value as a URI string, like "http://example.org/foo". Valid to call only if `lilv_node_is_uri(value)` returns true. Returned value is owned by `value` and must not be freed by caller. */ LILV_API const char* lilv_node_as_uri(const LilvNode* value); /** Return whether the value is a blank node (resource with no URI). */ LILV_API bool lilv_node_is_blank(const LilvNode* value); /** Return this value as a blank node identifier, like "genid03". Valid to call only if `lilv_node_is_blank(value)` returns true. Returned value is owned by `value` and must not be freed by caller. */ LILV_API const char* lilv_node_as_blank(const LilvNode* value); /** Return whether this value is a literal (that is, not a URI). Returns true if `value` is a string or numeric value. */ LILV_API bool lilv_node_is_literal(const LilvNode* value); /** Return whether this value is a string literal. Returns true if `value` is a string value (and not numeric). */ LILV_API bool lilv_node_is_string(const LilvNode* value); /** Return `value` as a string. */ LILV_API const char* lilv_node_as_string(const LilvNode* value); /** Return the path of a file URI node. Returns NULL if `value` is not a file URI. Returned value must be freed by caller with lilv_free(). */ LILV_API char* lilv_node_get_path(const LilvNode* value, char** hostname); /** Return whether this value is a decimal literal. */ LILV_API bool lilv_node_is_float(const LilvNode* value); /** Return `value` as a float. Valid to call only if `lilv_node_is_float(value)` or `lilv_node_is_int(value)` returns true. */ LILV_API float lilv_node_as_float(const LilvNode* value); /** Return whether this value is an integer literal. */ LILV_API bool lilv_node_is_int(const LilvNode* value); /** Return `value` as an integer. Valid to call only if `lilv_node_is_int(value)` returns true. */ LILV_API int lilv_node_as_int(const LilvNode* value); /** Return whether this value is a boolean. */ LILV_API bool lilv_node_is_bool(const LilvNode* value); /** Return `value` as a bool. Valid to call only if `lilv_node_is_bool(value)` returns true. */ LILV_API bool lilv_node_as_bool(const LilvNode* value); /** @} @defgroup lilv_collections Collections Lilv has several collection types for holding various types of value. Each collection type supports a similar basic API, except #LilvPlugins which is internal and thus lacks a free function: - void PREFIX_free (coll) - unsigned PREFIX_size (coll) - LilvIter* PREFIX_begin (coll) The types of collection are: - LilvPlugins, with function prefix `lilv_plugins_`. - LilvPluginClasses, with function prefix `lilv_plugin_classes_`. - LilvScalePoints, with function prefix `lilv_scale_points_`. - LilvNodes, with function prefix `lilv_nodes_`. - LilvUIs, with function prefix `lilv_uis_`. @{ */ /* Collections */ /** Iterate over each element of a collection. @code LILV_FOREACH(plugin_classes, i, classes) { LilvPluginClass c = lilv_plugin_classes_get(classes, i); // ... } @endcode */ #define LILV_FOREACH(colltype, iter, collection) \ /* NOLINTNEXTLINE(bugprone-macro-parentheses) */ \ for (LilvIter* iter = lilv_##colltype##_begin(collection); \ !lilv_##colltype##_is_end(collection, iter); \ (iter) = lilv_##colltype##_next(collection, iter)) /* LilvPluginClasses */ LILV_API void lilv_plugin_classes_free(LilvPluginClasses* collection); LILV_API unsigned lilv_plugin_classes_size(const LilvPluginClasses* collection); LILV_API LilvIter* lilv_plugin_classes_begin(const LilvPluginClasses* collection); LILV_API const LilvPluginClass* lilv_plugin_classes_get(const LilvPluginClasses* collection, const LilvIter* i); LILV_API LilvIter* lilv_plugin_classes_next(const LilvPluginClasses* collection, LilvIter* i); LILV_API bool lilv_plugin_classes_is_end(const LilvPluginClasses* collection, const LilvIter* i); /** Get a plugin class from `classes` by URI. Return value is shared (stored in `classes`) and must not be freed or modified by the caller in any way. @return NULL if no plugin class with `uri` is found in `classes`. */ LILV_API const LilvPluginClass* lilv_plugin_classes_get_by_uri(const LilvPluginClasses* classes, const LilvNode* uri); /* ScalePoints */ LILV_API void lilv_scale_points_free(LilvScalePoints* collection); LILV_API unsigned lilv_scale_points_size(const LilvScalePoints* collection); LILV_API LilvIter* lilv_scale_points_begin(const LilvScalePoints* collection); LILV_API const LilvScalePoint* lilv_scale_points_get(const LilvScalePoints* collection, const LilvIter* i); LILV_API LilvIter* lilv_scale_points_next(const LilvScalePoints* collection, LilvIter* i); LILV_API bool lilv_scale_points_is_end(const LilvScalePoints* collection, const LilvIter* i); /* UIs */ LILV_API void lilv_uis_free(LilvUIs* collection); LILV_API unsigned lilv_uis_size(const LilvUIs* collection); LILV_API LilvIter* lilv_uis_begin(const LilvUIs* collection); LILV_API const LilvUI* lilv_uis_get(const LilvUIs* collection, const LilvIter* i); LILV_API LilvIter* lilv_uis_next(const LilvUIs* collection, LilvIter* i); LILV_API bool lilv_uis_is_end(const LilvUIs* collection, const LilvIter* i); /** Get a UI from `uis` by URI. Return value is shared (stored in `uis`) and must not be freed or modified by the caller in any way. @return NULL if no UI with `uri` is found in `list`. */ LILV_API const LilvUI* lilv_uis_get_by_uri(const LilvUIs* uis, const LilvNode* uri); /* Nodes */ LILV_API void lilv_nodes_free(LilvNodes* collection); LILV_API unsigned lilv_nodes_size(const LilvNodes* collection); LILV_API LilvIter* lilv_nodes_begin(const LilvNodes* collection); LILV_API const LilvNode* lilv_nodes_get(const LilvNodes* collection, const LilvIter* i); LILV_API LilvIter* lilv_nodes_next(const LilvNodes* collection, LilvIter* i); LILV_API bool lilv_nodes_is_end(const LilvNodes* collection, const LilvIter* i); LILV_API LilvNode* lilv_nodes_get_first(const LilvNodes* collection); /** Return whether `values` contains `value`. */ LILV_API bool lilv_nodes_contains(const LilvNodes* nodes, const LilvNode* value); /** Return a new LilvNodes that contains all nodes from both `a` and `b`. */ LILV_API LilvNodes* lilv_nodes_merge(const LilvNodes* a, const LilvNodes* b); /* Plugins */ LILV_API unsigned lilv_plugins_size(const LilvPlugins* collection); LILV_API LilvIter* lilv_plugins_begin(const LilvPlugins* collection); LILV_API const LilvPlugin* lilv_plugins_get(const LilvPlugins* collection, const LilvIter* i); LILV_API LilvIter* lilv_plugins_next(const LilvPlugins* collection, LilvIter* i); LILV_API bool lilv_plugins_is_end(const LilvPlugins* collection, const LilvIter* i); /** Get a plugin from `plugins` by URI. Return value is shared (stored in `plugins`) and must not be freed or modified by the caller in any way. @return NULL if no plugin with `uri` is found in `plugins`. */ LILV_API const LilvPlugin* lilv_plugins_get_by_uri(const LilvPlugins* plugins, const LilvNode* uri); /** @} @defgroup lilv_world World The "world" represents all Lilv state, and is used to discover/load/cache LV2 data (plugins, UIs, and extensions). Normal hosts which just need to load plugins by URI should simply use lilv_world_load_all() to discover/load the system's LV2 resources. @{ */ /** Initialize a new, empty world. If initialization fails, NULL is returned. */ LILV_API LilvWorld* lilv_world_new(void); /** Enable/disable language filtering. Language filtering applies to any functions that return (a) value(s). With filtering enabled, Lilv will automatically return the best value(s) for the current LANG. With filtering disabled, all matching values will be returned regardless of language tag. Filtering is enabled by default. */ #define LILV_OPTION_FILTER_LANG "http://drobilla.net/ns/lilv#filter-lang" /** Enable/disable dynamic manifest support. Dynamic manifest data will only be loaded if this option is true. */ #define LILV_OPTION_DYN_MANIFEST "http://drobilla.net/ns/lilv#dyn-manifest" /** Set application-specific LV2_PATH. This overrides the LV2_PATH from the environment, so that lilv will only look inside the given path. This can be used to make self-contained applications. */ #define LILV_OPTION_LV2_PATH "http://drobilla.net/ns/lilv#lv2-path" /** Set an option for `world`. Currently recognized options: - #LILV_OPTION_FILTER_LANG - #LILV_OPTION_DYN_MANIFEST - #LILV_OPTION_LV2_PATH */ LILV_API void lilv_world_set_option(LilvWorld* world, const char* uri, const LilvNode* value); /** Destroy the world. It is safe to call this function on NULL. Note that destroying `world` will destroy all the objects it contains. Do not destroy the world until you are finished with all objects that came from it. */ LILV_API void lilv_world_free(LilvWorld* world); /** Load all installed LV2 bundles on the system. This is the recommended way for hosts to load LV2 data. It implements the established/standard best practice for discovering all LV2 data on the system. The environment variable LV2_PATH may be used to control where this function will look for bundles. Hosts should use this function rather than explicitly load bundles, except in special circumstances such as development utilities, or hosts that ship with special plugin bundles which are installed to a known location. */ LILV_API void lilv_world_load_all(LilvWorld* world); /** Load a specific bundle. `bundle_uri` must be a fully qualified URI to the bundle directory, with the trailing slash, eg. file:///usr/lib/lv2/foo.lv2/ Normal hosts should not need this function (use lilv_world_load_all()). Hosts MUST NOT attach any long-term significance to bundle paths (for example in save files), since there are no guarantees they will remain unchanged between (or even during) program invocations. Plugins (among other things) MUST be identified by URIs (not paths) in save files. */ LILV_API void lilv_world_load_bundle(LilvWorld* world, const LilvNode* bundle_uri); /** Load all specifications from currently loaded bundles. This is for hosts that explicitly load specific bundles, its use is not necessary when using lilv_world_load_all(). This function parses the specifications and adds them to the model. */ LILV_API void lilv_world_load_specifications(LilvWorld* world); /** Load all plugin classes from currently loaded specifications. Must be called after lilv_world_load_specifications(). This is for hosts that explicitly load specific bundles, its use is not necessary when using lilv_world_load_all(). */ LILV_API void lilv_world_load_plugin_classes(LilvWorld* world); /** Unload a specific bundle. This unloads statements loaded by lilv_world_load_bundle(). Note that this is not necessarily all information loaded from the bundle. If any resources have been separately loaded with lilv_world_load_resource(), they must be separately unloaded with lilv_world_unload_resource(). */ LILV_API int lilv_world_unload_bundle(LilvWorld* world, const LilvNode* bundle_uri); /** Load all the data associated with the given `resource`. All accessible data files linked to `resource` with rdfs:seeAlso will be loaded into the world model. @param world The world. @param resource Must be a subject (a URI or a blank node). @return The number of files parsed, or -1 on error */ LILV_API int lilv_world_load_resource(LilvWorld* world, const LilvNode* resource); /** Unload all the data associated with the given `resource`. This unloads all data loaded by a previous call to lilv_world_load_resource() with the given `resource`. @param world The world. @param resource Must be a subject (a URI or a blank node). */ LILV_API int lilv_world_unload_resource(LilvWorld* world, const LilvNode* resource); /** Get the parent of all other plugin classes, lv2:Plugin. */ LILV_API const LilvPluginClass* lilv_world_get_plugin_class(const LilvWorld* world); /** Return a list of all found plugin classes. Returned list is owned by world and must not be freed by the caller. */ LILV_API const LilvPluginClasses* lilv_world_get_plugin_classes(const LilvWorld* world); /** Return a list of all found plugins. The returned list contains just enough references to query or instantiate plugins. The data for a particular plugin will not be loaded into memory until a call to an lilv_plugin_* function results in a query (at which time the data is cached with the LilvPlugin so future queries are very fast). The returned list and the plugins it contains are owned by `world` and must not be freed by caller. */ LILV_API const LilvPlugins* lilv_world_get_all_plugins(const LilvWorld* world); /** Find nodes matching a triple pattern. Either `subject` or `object` may be NULL (a wildcard), but not both. @return All matches for the wildcard field, or NULL. */ LILV_API LilvNodes* lilv_world_find_nodes(LilvWorld* world, const LilvNode* subject, const LilvNode* predicate, const LilvNode* object); /** Find a single node that matches a pattern. Exactly one of `subject`, `predicate`, `object` must be NULL. This function is equivalent to lilv_nodes_get_first(lilv_world_find_nodes(...)) but simplifies the common case of only wanting a single value. @return The first matching node, or NULL if no matches are found. */ LILV_API LilvNode* lilv_world_get(LilvWorld* world, const LilvNode* subject, const LilvNode* predicate, const LilvNode* object); /** Return true iff a statement matching a certain pattern exists. This is useful for checking if particular statement exists without having to bother with collections and memory management. @param world The world. @param subject Subject of statement, or NULL for anything. @param predicate Predicate (key) of statement, or NULL for anything. @param object Object (value) of statement, or NULL for anything. */ LILV_API bool lilv_world_ask(LilvWorld* world, const LilvNode* subject, const LilvNode* predicate, const LilvNode* object); /** Get an LV2 symbol for some subject. This will return the lv2:symbol property of the subject if it is given explicitly, and otherwise will attempt to derive a symbol from the URI. @return A string node that is a valid LV2 symbol, or NULL on error. */ LILV_API LilvNode* lilv_world_get_symbol(LilvWorld* world, const LilvNode* subject); /** @} @defgroup lilv_plugin Plugins @{ */ /** Check if `plugin` is valid. This is not a rigorous validator, but can be used to reject some malformed plugins that could cause bugs (for example, plugins with missing required fields). Note that normal hosts do NOT need to use this - lilv does not load invalid plugins into plugin lists. This is included for plugin testing utilities, etc. @return True iff `plugin` is valid. */ LILV_API bool lilv_plugin_verify(const LilvPlugin* plugin); /** Get the URI of `plugin`. Any serialization that refers to plugins should refer to them by this. Hosts SHOULD NOT save any filesystem paths, plugin indexes, etc. in saved files; save only the URI. The URI is a globally unique identifier for one specific plugin. Two plugins with the same URI are compatible in port signature, and should be guaranteed to work in a compatible and consistent way. If a plugin is upgraded in an incompatible way (eg if it has different ports), it MUST have a different URI than it's predecessor. @return A shared URI value which must not be modified or freed. */ LILV_API const LilvNode* lilv_plugin_get_uri(const LilvPlugin* plugin); /** Get the (resolvable) URI of the plugin's "main" bundle. This returns the URI of the bundle where the plugin itself was found. Note that the data for a plugin may be spread over many bundles, that is, lilv_plugin_get_data_uris() may return URIs which are not within this bundle. Typical hosts should not need to use this function. Note this always returns a fully qualified URI. If you want a local filesystem path, use lilv_file_uri_parse(). @return A shared string which must not be modified or freed. */ LILV_API const LilvNode* lilv_plugin_get_bundle_uri(const LilvPlugin* plugin); /** Get the (resolvable) URIs of the RDF data files that define a plugin. Typical hosts should not need to use this function. Note this always returns fully qualified URIs. If you want local filesystem paths, use lilv_file_uri_parse(). @return A list of complete URLs eg. "file:///foo/ABundle.lv2/aplug.ttl", which is shared and must not be modified or freed. */ LILV_API const LilvNodes* lilv_plugin_get_data_uris(const LilvPlugin* plugin); /** Get the (resolvable) URI of the shared library for `plugin`. Note this always returns a fully qualified URI. If you want a local filesystem path, use lilv_file_uri_parse(). @return A shared string which must not be modified or freed. */ LILV_API const LilvNode* lilv_plugin_get_library_uri(const LilvPlugin* plugin); /** Get the name of `plugin`. This returns the name (doap:name) of the plugin. The name may be translated according to the current locale, this value MUST NOT be used as a plugin identifier (use the URI for that). Returned value must be freed by the caller. */ LILV_API LilvNode* lilv_plugin_get_name(const LilvPlugin* plugin); /** Get the class this plugin belongs to (like "Filters" or "Effects"). */ LILV_API const LilvPluginClass* lilv_plugin_get_class(const LilvPlugin* plugin); /** Get a value associated with the plugin in a plugin's data files. `predicate` must be either a URI or a QName. Returns the ?object of all triples found of the form: <plugin-uri> predicate ?object May return NULL if the property was not found, or if object(s) is not sensibly represented as a LilvNodes. Return value must be freed by caller with lilv_nodes_free(). */ LILV_API LilvNodes* lilv_plugin_get_value(const LilvPlugin* plugin, const LilvNode* predicate); /** Return whether a feature is supported by a plugin. This will return true if the feature is an optional or required feature of the plugin. */ LILV_API bool lilv_plugin_has_feature(const LilvPlugin* plugin, const LilvNode* feature); /** Get the LV2 Features supported (required or optionally) by a plugin. A feature is "supported" by a plugin if it is required OR optional. Since required features have special rules the host must obey, this function probably shouldn't be used by normal hosts. Using lilv_plugin_get_optional_features() and lilv_plugin_get_required_features() separately is best in most cases. Returned value must be freed by caller with lilv_nodes_free(). */ LILV_API LilvNodes* lilv_plugin_get_supported_features(const LilvPlugin* plugin); /** Get the LV2 Features required by a plugin. If a feature is required by a plugin, hosts MUST NOT use the plugin if they do not understand (or are unable to support) that feature. All values returned here MUST be passed to the plugin's instantiate method (along with data, if necessary, as defined by the feature specification) or plugin instantiation will fail. Return value must be freed by caller with lilv_nodes_free(). */ LILV_API LilvNodes* lilv_plugin_get_required_features(const LilvPlugin* plugin); /** Get the LV2 Features optionally supported by a plugin. Hosts MAY ignore optional plugin features for whatever reasons. Plugins MUST operate (at least somewhat) if they are instantiated without being passed optional features. Return value must be freed by caller with lilv_nodes_free(). */ LILV_API LilvNodes* lilv_plugin_get_optional_features(const LilvPlugin* plugin); /** Return whether or not a plugin provides a specific extension data. */ LILV_API bool lilv_plugin_has_extension_data(const LilvPlugin* plugin, const LilvNode* uri); /** Get a sequence of all extension data provided by a plugin. This can be used to find which URIs lilv_instance_get_extension_data() will return a value for without instantiating the plugin. */ LILV_API LilvNodes* lilv_plugin_get_extension_data(const LilvPlugin* plugin); /** Get the number of ports on this plugin. */ LILV_API uint32_t lilv_plugin_get_num_ports(const LilvPlugin* plugin); /** Get the port ranges (minimum, maximum and default values) for all ports. `min_values`, `max_values` and `def_values` must either point to an array of N floats, where N is the value returned by lilv_plugin_get_num_ports() for this plugin, or NULL. The elements of the array will be set to the the minimum, maximum and default values of the ports on this plugin, with array index corresponding to port index. If a port doesn't have a minimum, maximum or default value, or the port's type is not float, the corresponding array element will be set to NAN. This is a convenience method for the common case of getting the range of all float ports on a plugin, and may be significantly faster than repeated calls to lilv_port_get_range(). */ LILV_API void lilv_plugin_get_port_ranges_float(const LilvPlugin* plugin, float* min_values, float* max_values, float* def_values); /** Get the number of ports on this plugin that are members of some class(es). Note that this is a varargs function so ports fitting any type 'profile' desired can be found quickly. REMEMBER TO TERMINATE THE PARAMETER LIST OF THIS FUNCTION WITH NULL OR VERY NASTY THINGS WILL HAPPEN. */ LILV_API uint32_t lilv_plugin_get_num_ports_of_class(const LilvPlugin* plugin, const LilvNode* class_1, ...); /** Variant of lilv_plugin_get_num_ports_of_class() that takes a va_list. This function calls va_arg() on `args` but does not call va_end(). */ LILV_API uint32_t lilv_plugin_get_num_ports_of_class_va(const LilvPlugin* plugin, const LilvNode* class_1, va_list args); /** Return whether or not the plugin introduces (and reports) latency. The index of the latency port can be found with lilv_plugin_get_latency_port() ONLY if this function returns true. */ LILV_API bool lilv_plugin_has_latency(const LilvPlugin* plugin); /** Return the index of the plugin's latency port. It is a fatal error to call this on a plugin without checking if the port exists by first calling lilv_plugin_has_latency(). Any plugin that introduces unwanted latency that should be compensated for (by hosts with the ability/need) MUST provide this port, which is a control rate output port that reports the latency for each cycle in frames. */ LILV_API uint32_t lilv_plugin_get_latency_port_index(const LilvPlugin* plugin); /** Get a port on `plugin` by `index`. */ LILV_API const LilvPort* lilv_plugin_get_port_by_index(const LilvPlugin* plugin, uint32_t index); /** Get a port on `plugin` by `symbol`. Note this function is slower than lilv_plugin_get_port_by_index(), especially on plugins with a very large number of ports. */ LILV_API const LilvPort* lilv_plugin_get_port_by_symbol(const LilvPlugin* plugin, const LilvNode* symbol); /** Get a port on `plugin` by its lv2:designation. The designation of a port describes the meaning, assignment, allocation or role of the port, like "left channel" or "gain". If found, the port with matching `port_class` and `designation` is be returned, otherwise NULL is returned. The `port_class` can be used to distinguish the input and output ports for a particular designation. If `port_class` is NULL, any port with the given designation will be returned. */ LILV_API const LilvPort* lilv_plugin_get_port_by_designation(const LilvPlugin* plugin, const LilvNode* port_class, const LilvNode* designation); /** Get the project the plugin is a part of. More information about the project can be read via lilv_world_find_nodes(), typically using properties from DOAP (such as doap:name). */ LILV_API LilvNode* lilv_plugin_get_project(const LilvPlugin* plugin); /** Get the full name of the plugin's author. Returns NULL if author name is not present. Returned value must be freed by caller. */ LILV_API LilvNode* lilv_plugin_get_author_name(const LilvPlugin* plugin); /** Get the email address of the plugin's author. Returns NULL if author email address is not present. Returned value must be freed by caller. */ LILV_API LilvNode* lilv_plugin_get_author_email(const LilvPlugin* plugin); /** Get the address of the plugin author's home page. Returns NULL if author homepage is not present. Returned value must be freed by caller. */ LILV_API LilvNode* lilv_plugin_get_author_homepage(const LilvPlugin* plugin); /** Return true iff `plugin` has been replaced by another plugin. The plugin will still be usable, but hosts should hide them from their user interfaces to prevent users from using deprecated plugins. */ LILV_API bool lilv_plugin_is_replaced(const LilvPlugin* plugin); /** Write the Turtle description of `plugin` to `plugin_file`. This function is particularly useful for porting plugins in conjunction with an LV2 bridge such as NASPRO. */ LILV_API void lilv_plugin_write_description(LilvWorld* world, const LilvPlugin* plugin, const LilvNode* base_uri, FILE* plugin_file); /** Write a manifest entry for `plugin` to `manifest_file`. This function is intended for use with lilv_plugin_write_description() to write a complete description of a plugin to a bundle. */ LILV_API void lilv_plugin_write_manifest_entry(LilvWorld* world, const LilvPlugin* plugin, const LilvNode* base_uri, FILE* manifest_file, const char* plugin_file_path); /** Get the resources related to `plugin` with lv2:appliesTo. Some plugin-related resources are not linked directly to the plugin with rdfs:seeAlso and thus will not be automatically loaded along with the plugin data (usually for performance reasons). All such resources of the given @c type related to `plugin` can be accessed with this function. If `type` is NULL, all such resources will be returned, regardless of type. To actually load the data for each returned resource, use lilv_world_load_resource(). */ LILV_API LilvNodes* lilv_plugin_get_related(const LilvPlugin* plugin, const LilvNode* type); /** @} @defgroup lilv_port Ports @{ */ /** Get the RDF node of `port`. Ports nodes may be may be URIs or blank nodes. @return A shared node which must not be modified or freed. */ LILV_API const LilvNode* lilv_port_get_node(const LilvPlugin* plugin, const LilvPort* port); /** Port analog of lilv_plugin_get_value(). */ LILV_API LilvNodes* lilv_port_get_value(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* predicate); /** Get a single property value of a port. This is equivalent to lilv_nodes_get_first(lilv_port_get_value(...)) but is simpler to use in the common case of only caring about one value. The caller is responsible for freeing the returned node. */ LILV_API LilvNode* lilv_port_get(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* predicate); /** Return the LV2 port properties of a port. */ LILV_API LilvNodes* lilv_port_get_properties(const LilvPlugin* plugin, const LilvPort* port); /** Return whether a port has a certain property. */ LILV_API bool lilv_port_has_property(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* property); /** Return whether a port supports a certain event type. More precisely, this returns true iff the port has an atom:supports or an ev:supportsEvent property with `event_type` as the value. */ LILV_API bool lilv_port_supports_event(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* event_type); /** Get the index of a port. The index is only valid for the life of the plugin and may change between versions. For a stable identifier, use the symbol. */ LILV_API uint32_t lilv_port_get_index(const LilvPlugin* plugin, const LilvPort* port); /** Get the symbol of a port. The 'symbol' is a short string, a valid C identifier. Returned value is owned by `port` and must not be freed. */ LILV_API const LilvNode* lilv_port_get_symbol(const LilvPlugin* plugin, const LilvPort* port); /** Get the name of a port. This is guaranteed to return the untranslated name (the doap:name in the data file without a language tag). Returned value must be freed by the caller. */ LILV_API LilvNode* lilv_port_get_name(const LilvPlugin* plugin, const LilvPort* port); /** Get all the classes of a port. This can be used to determine if a port is an input, output, audio, control, midi, etc, etc, though it's simpler to use lilv_port_is_a(). The returned list does not include lv2:Port, which is implied. Returned value is shared and must not be destroyed by caller. */ LILV_API const LilvNodes* lilv_port_get_classes(const LilvPlugin* plugin, const LilvPort* port); /** Determine if a port is of a given class (input, output, audio, etc). For convenience/performance/extensibility reasons, hosts are expected to create a LilvNode for each port class they "care about". Well-known type URI strings like `LILV_URI_INPUT_PORT` are defined for convenience, but this function is designed so that Lilv is usable with any port types without requiring explicit support in Lilv. */ LILV_API bool lilv_port_is_a(const LilvPlugin* plugin, const LilvPort* port, const LilvNode* port_class); /** Get the default, minimum, and maximum values of a port. `def`, `min`, and `max` are outputs, pass pointers to uninitialized LilvNode* variables. These will be set to point at new values (which must be freed by the caller using lilv_node_free()), or NULL if the value does not exist. */ LILV_API void lilv_port_get_range(const LilvPlugin* plugin, const LilvPort* port, LilvNode** def, LilvNode** min, LilvNode** max); /** Get the scale points (enumeration values) of a port. This returns a collection of 'interesting' named values of a port, which for example might be appropriate entries for a value selector in a UI. Returned value may be NULL if `port` has no scale points, otherwise it must be freed by caller with lilv_scale_points_free(). */ LILV_API LilvScalePoints* lilv_port_get_scale_points(const LilvPlugin* plugin, const LilvPort* port); /** @} @defgroup lilv_state Plugin State @{ */ /** Load a state snapshot from the world RDF model. This function can be used to load the default state of a plugin by passing the plugin URI as the `subject` parameter. @param world The world. @param map URID mapper. @param node The subject of the state description (such as a preset URI). @return A new LilvState which must be freed with lilv_state_free(), or NULL. */ LILV_API LilvState* lilv_state_new_from_world(LilvWorld* world, LV2_URID_Map* map, const LilvNode* node); /** Load a state snapshot from a file. If `subject` is NULL, it is taken to be the URI of the file (`<>` in Turtle). This function parses the file separately to create the state, it does not parse the file into the world model, that is, the returned state is the only new memory consumed once this function returns. @param world The world. @param map URID mapper. @param subject The subject of the state description (such as a preset URI). @param path The path of the file containing the state description. @return A new LilvState which must be freed with lilv_state_free(). */ LILV_API LilvState* lilv_state_new_from_file(LilvWorld* world, LV2_URID_Map* map, const LilvNode* subject, const char* path); /** Load a state snapshot from a string made by lilv_state_to_string(). */ LILV_API LilvState* lilv_state_new_from_string(LilvWorld* world, LV2_URID_Map* map, const char* str); /** Function to get a port value. This function MUST set `size` and `type` appropriately. @param port_symbol The symbol of the port. @param user_data The user_data passed to lilv_state_new_from_instance(). @param size (Output) The size of the returned value. @param type (Output) The URID of the type of the returned value. @return A pointer to the port value. */ typedef const void* (*LilvGetPortValueFunc)(const char* port_symbol, void* user_data, uint32_t* size, uint32_t* type); /** Create a new state snapshot from a plugin instance. This function may be called simultaneously with any instance function (except discovery functions) unless the threading class of that function explicitly disallows this. To support advanced file functionality, there are several directory parameters. The multiple parameters are necessary to support saving an instance's state many times, or saving states from multiple instances, while avoiding any duplication of data. For example, a host could pass the same `copy_dir` and `link_dir` for all plugins in a session (for example `session/shared/copy/` `session/shared/link/`), while the `save_dir` would be unique to each plugin instance (for example `session/states/state1.lv2` for one instance and `session/states/state2.lv2` for another instance). Simple hosts that only wish to save a single plugin's state once may simply use the same directory for all of them, or pass NULL to not support files at all. If supported (via state:makePath passed to LV2_Descriptor::instantiate()), `scratch_dir` should be the directory where any files created by the plugin (for example during instantiation or while running) are stored. Any files here that are referred to in the state will be copied to preserve their contents at the time of the save. Lilv will assume any files within this directory (recursively) are created by the plugin and that all other files are immutable. Note that this function does not completely save the state, use lilv_state_save() for that. See state.h from the LV2 State extension for details on the `flags` and `features` parameters. @param plugin The plugin this state applies to. @param instance An instance of `plugin`. @param map The map to use for mapping URIs in state. @param scratch_dir Directory of files created by the plugin earlier, or NULL. This is for hosts that support file creation at any time with state state:makePath. These files will be copied as necessary to `copy_dir` and not be referred to directly in state (a temporary directory is appropriate). @param copy_dir Directory of copies of files in `scratch_dir`, or NULL. This directory will have the same structure as `scratch_dir` but with possibly modified file names to distinguish revisions. This allows the saved state to contain the exact contents of the scratch file at save time, so that the state is not ruined if the file is later modified (for example, by the plugin continuing to record). This can be the same as `save_dir` to create a copy in the state bundle, but can also be a separate directory which allows multiple state snapshots to share a single copy if the file has not changed. @param link_dir Directory of links to external files, or NULL. A link will be made in this directory to any external files referred to in plugin state. In turn, links will be created in the save directory to these links (like save_dir/file => link_dir/file => /foo/bar/file). This allows many state snapshots to share a single link to an external file, so archival (for example, with `tar -h`) will not create several copies of the file. If this is not required, it can be the same as `save_dir`. @param save_dir Directory of files created by plugin during save (or NULL). This is typically the bundle directory later passed to lilv_state_save(). @param get_value Function to get port values (or NULL). If NULL, the returned state will not represent port values. This should only be NULL in hosts that save and restore port values via some other mechanism. @param user_data User data to pass to `get_value`. @param flags Bitwise OR of LV2_State_Flags values. @param features Features to pass LV2_State_Interface.save(). @return A new LilvState which must be freed with lilv_state_free(). */ LILV_API LilvState* lilv_state_new_from_instance(const LilvPlugin* plugin, LilvInstance* instance, LV2_URID_Map* map, const char* scratch_dir, const char* copy_dir, const char* link_dir, const char* save_dir, LilvGetPortValueFunc get_value, void* user_data, uint32_t flags, const LV2_Feature* const* features); /** Free `state`. */ LILV_API void lilv_state_free(LilvState* state); /** Return true iff `a` is equivalent to `b`. */ LILV_API bool lilv_state_equals(const LilvState* a, const LilvState* b); /** Return the number of properties in `state`. */ LILV_API unsigned lilv_state_get_num_properties(const LilvState* state); /** Get the URI of the plugin `state` applies to. */ LILV_API const LilvNode* lilv_state_get_plugin_uri(const LilvState* state); /** Get the URI of `state`. This may return NULL if the state has not been saved and has no URI. */ LILV_API const LilvNode* lilv_state_get_uri(const LilvState* state); /** Get the label of `state`. */ LILV_API const char* lilv_state_get_label(const LilvState* state); /** Set the label of `state`. */ LILV_API void lilv_state_set_label(LilvState* state, const char* label); /** Set a metadata property on `state`. This is a generic version of lilv_state_set_label(), which sets metadata properties visible to hosts, but not plugins. This allows storing useful information such as comments or preset banks. @param state The state to set the metadata for. @param key The key to store `value` under (URID). @param value Pointer to the value to be stored. @param size The size of `value` in bytes. @param type The type of `value` (URID). @param flags LV2_State_Flags for `value`. @return Zero on success. */ LILV_API int lilv_state_set_metadata(LilvState* state, uint32_t key, const void* value, size_t size, uint32_t type, uint32_t flags); /** Function to set a port value. @param port_symbol The symbol of the port. @param user_data The user_data passed to lilv_state_restore(). @param size The size of `value`. @param type The URID of the type of `value`. @param value A pointer to the port value. */ typedef void (*LilvSetPortValueFunc)(const char* port_symbol, void* user_data, const void* value, uint32_t size, uint32_t type); /** Enumerate the port values in a state snapshot. This function is a subset of lilv_state_restore() that only fires the `set_value` callback and does not directly affect a plugin instance. This is useful in hosts that need to retrieve the port values in a state snapshot for special handling. @param state The state to retrieve port values from. @param set_value A function to receive port values. @param user_data User data to pass to `set_value`. */ LILV_API void lilv_state_emit_port_values(const LilvState* state, LilvSetPortValueFunc set_value, void* user_data); /** Restore a plugin instance from a state snapshot. This will set all the properties of `instance`, if given, to the values stored in `state`. If `set_value` is provided, it will be called (with the given `user_data`) to restore each port value, otherwise the host must restore the port values itself (using lilv_state_get_port_value()) in order to completely restore `state`. If the state has properties and `instance` is given, this function is in the "instantiation" threading class, so it MUST NOT be called simultaneously with any function on the same plugin instance. If the state has no properties, only port values are set via `set_value`. See state.h from the LV2 State extension for details on the `flags` and `features` parameters. @param state The state to restore, which must apply to the correct plugin. @param instance An instance of the plugin `state` applies to, or NULL. @param set_value A function to set a port value (may be NULL). @param user_data User data to pass to `set_value`. @param flags Bitwise OR of LV2_State_Flags values. @param features Features to pass LV2_State_Interface.restore(). */ LILV_API void lilv_state_restore(const LilvState* state, LilvInstance* instance, LilvSetPortValueFunc set_value, void* user_data, uint32_t flags, const LV2_Feature* const* features); /** Save state to a file. The format of state on disk is compatible with that defined in the LV2 preset extension, so this function may be used to save presets which can be loaded by any host. If `uri` is NULL, the preset URI will be a file URI, but the bundle can safely be moved (the state file will use `<>` as the subject). @param world The world. @param map URID mapper. @param unmap URID unmapper. @param state State to save. @param uri URI of state, may be NULL. @param dir Path of the bundle directory to save into. @param filename Path of the state file relative to `dir`. */ LILV_API int lilv_state_save(LilvWorld* world, LV2_URID_Map* map, LV2_URID_Unmap* unmap, const LilvState* state, const char* uri, const char* dir, const char* filename); /** Save state to a string. This function does not use the filesystem. @param world The world. @param map URID mapper. @param unmap URID unmapper. @param state The state to serialize. @param uri URI for the state description (mandatory). @param base_uri Base URI for serialisation. Unless you know what you are doing, pass NULL for this, otherwise the state may not be restorable via lilv_state_new_from_string(). */ LILV_API char* lilv_state_to_string(LilvWorld* world, LV2_URID_Map* map, LV2_URID_Unmap* unmap, const LilvState* state, const char* uri, const char* base_uri); /** Unload a state from the world and delete all associated files. This function DELETES FILES/DIRECTORIES FROM THE FILESYSTEM! It is intended for removing user-saved presets, but can delete any state the user has permission to delete, including presets shipped with plugins. The rdfs:seeAlso file for the state will be removed. The entry in the bundle's manifest.ttl is removed, and if this results in an empty manifest, then the manifest file is removed. If this results in an empty bundle, then the bundle directory is removed as well. @param world The world. @param state State to remove from the system. */ LILV_API int lilv_state_delete(LilvWorld* world, const LilvState* state); /** @} @defgroup lilv_scalepoint Scale Points @{ */ /** Get the label of this scale point (enumeration value). Returned value is owned by `point` and must not be freed. */ LILV_API const LilvNode* lilv_scale_point_get_label(const LilvScalePoint* point); /** Get the value of this scale point (enumeration value). Returned value is owned by `point` and must not be freed. */ LILV_API const LilvNode* lilv_scale_point_get_value(const LilvScalePoint* point); /** @} @defgroup lilv_class Plugin Classes @{ */ /** Get the URI of this class' superclass. Returned value is owned by `plugin_class` and must not be freed by caller. Returned value may be NULL, if class has no parent. */ LILV_API const LilvNode* lilv_plugin_class_get_parent_uri(const LilvPluginClass* plugin_class); /** Get the URI of this plugin class. Returned value is owned by `plugin_class` and must not be freed by caller. */ LILV_API const LilvNode* lilv_plugin_class_get_uri(const LilvPluginClass* plugin_class); /** Get the label of this plugin class, like "Oscillators". Returned value is owned by `plugin_class` and must not be freed by caller. */ LILV_API const LilvNode* lilv_plugin_class_get_label(const LilvPluginClass* plugin_class); /** Get the subclasses of this plugin class. Returned value must be freed by caller with lilv_plugin_classes_free(). */ LILV_API LilvPluginClasses* lilv_plugin_class_get_children(const LilvPluginClass* plugin_class); /** @} @defgroup lilv_instance Plugin Instances @{ */ /** @cond LILV_DOCUMENT_INSTANCE_IMPL */ /* Instance of a plugin. This is exposed in the ABI to allow inlining of performance critical functions like lilv_instance_run() (simple wrappers of functions in lv2.h). This is for performance reasons, user code should not use this definition in any way (which is why it is not machine documented). Truly private implementation details are hidden via `pimpl`. */ struct LilvInstanceImpl { const LV2_Descriptor* lv2_descriptor; LV2_Handle lv2_handle; void* pimpl; }; /** @endcond */ /** Instantiate a plugin. The returned value is a lightweight handle for an LV2 plugin instance, it does not refer to `plugin`, or any other Lilv state. The caller must eventually free it with lilv_instance_free(). `features` is a NULL-terminated array of features the host supports. NULL may be passed if the host supports no additional features. This function is in the "discovery" threading class: it isn't real-time safe, and may not be called concurrently with itself for the same plugin. @return NULL if instantiation failed. */ LILV_API LilvInstance* lilv_plugin_instantiate(const LilvPlugin* plugin, double sample_rate, const LV2_Feature* const* features); /** Free a plugin instance. It is safe to call this function on NULL. The `instance` is invalid after this call. This function is in the "discovery" threading class: it isn't real-time safe, and may not be called concurrently with any other function for the same instance, or with lilv_plugin_instantiate() for the same plugin. */ LILV_API void lilv_instance_free(LilvInstance* instance); #ifndef LILV_INTERNAL /** Get the URI of the plugin which `instance` is an instance of. This function is a simple accessor and may be called at any time. The returned string is shared and must not be modified or deleted. */ static inline const char* lilv_instance_get_uri(const LilvInstance* instance) { return instance->lv2_descriptor->URI; } /** Connect a port to a data location. This may be called regardless of whether the plugin is activated, activation and deactivation does not destroy port connections. This function is in the "audio" threading class: it's real-time safe if the plugin is , but may not be called concurrently with any other function for the same instance. */ static inline void lilv_instance_connect_port(LilvInstance* instance, uint32_t port_index, void* data_location) { instance->lv2_descriptor->connect_port( instance->lv2_handle, port_index, data_location); } /** Activate a plugin instance. This resets all state information in the plugin, except for port data locations (as set by lilv_instance_connect_port()). This MUST be called before calling lilv_instance_run(). This function is in the "instantiation" threading class: it isn't real-time safe, and may not be called concurrently with any other function for the same instance. */ static inline void lilv_instance_activate(LilvInstance* instance) { if (instance->lv2_descriptor->activate) { instance->lv2_descriptor->activate(instance->lv2_handle); } } /** Run `instance` for `sample_count` frames. If the hint lv2:hardRTCapable is set for this plugin, this function is guaranteed not to block. This function is in the "audio" threading class: it's real-time safe if the plugin is , but may not be called concurrently with any other function for the same instance. */ static inline void lilv_instance_run(LilvInstance* instance, uint32_t sample_count) { instance->lv2_descriptor->run(instance->lv2_handle, sample_count); } /** Deactivate a plugin instance. Note that to run the plugin after this you must activate it, which will reset all state information (except port connections). This function is in the "instantiation" threading class: it isn't real-time safe and may not be called concurrently with any other function for the same instance. */ static inline void lilv_instance_deactivate(LilvInstance* instance) { if (instance->lv2_descriptor->deactivate) { instance->lv2_descriptor->deactivate(instance->lv2_handle); } } /** Get extension data from the plugin instance. The type and semantics of the data returned is specific to the particular extension, though in all cases it is shared and must not be deleted. This function is in the "discovery" threading class: it isn't real-time safe and may not be called concurrently with any other function for the same instance. */ static inline const void* lilv_instance_get_extension_data(const LilvInstance* instance, const char* uri) { if (instance->lv2_descriptor->extension_data) { return instance->lv2_descriptor->extension_data(uri); } return NULL; } /** Get the LV2_Descriptor of the plugin instance. Normally hosts should not need to access the LV2_Descriptor directly, use the lilv_instance_* functions. The returned descriptor is shared and must not be deleted. This function is a simple accessor and may be called at any time. */ static inline const LV2_Descriptor* lilv_instance_get_descriptor(const LilvInstance* instance) { return instance->lv2_descriptor; } /** Get the LV2_Handle of the plugin instance. Normally hosts should not need to access the LV2_Handle directly, use the lilv_instance_* functions. The returned handle is shared and must not be deleted. This function is a simple accessor and may be called at any time. */ static inline LV2_Handle lilv_instance_get_handle(const LilvInstance* instance) { return instance->lv2_handle; } #endif /* LILV_INTERNAL */ /** @} @defgroup lilv_ui Plugin UIs @{ */ /** Get all UIs for `plugin`. Returned value must be freed by caller using lilv_uis_free(). */ LILV_API LilvUIs* lilv_plugin_get_uis(const LilvPlugin* plugin); /** Get the URI of a Plugin UI. @return A shared value which must not be modified or freed. */ LILV_API const LilvNode* lilv_ui_get_uri(const LilvUI* ui); /** Get the types (URIs of RDF classes) of a Plugin UI. Note that in most cases lilv_ui_is_supported() should be used, which avoids the need to use this function (and type specific logic). @return A shared value which must not be modified or freed. */ LILV_API const LilvNodes* lilv_ui_get_classes(const LilvUI* ui); /** Check whether a plugin UI has a given type. @param ui The Plugin UI @param class_uri The URI of the LV2 UI type to check this UI against */ LILV_API bool lilv_ui_is_a(const LilvUI* ui, const LilvNode* class_uri); /** Function to determine whether a UI type is supported. This is provided by the user and must return non-zero iff using a UI of type `ui_type_uri` in a container of type `container_type_uri` is supported. */ typedef unsigned (*LilvUISupportedFunc)(const char* container_type_uri, const char* ui_type_uri); /** Return true iff a Plugin UI is supported as a given widget type. @param ui The Plugin UI @param supported_func User provided supported predicate. @param container_type The widget type to host the UI within. @param ui_type (Output) If non-NULL, set to the native type of the UI which is owned by `ui` and must not be freed by the caller. @return The embedding quality level returned by `supported_func`. */ LILV_API unsigned lilv_ui_is_supported(const LilvUI* ui, LilvUISupportedFunc supported_func, const LilvNode* container_type, const LilvNode** ui_type); /** Get the URI for a Plugin UI's bundle. @return A shared value which must not be modified or freed. */ LILV_API const LilvNode* lilv_ui_get_bundle_uri(const LilvUI* ui); /** Get the URI for a Plugin UI's shared library. @return A shared value which must not be modified or freed. */ LILV_API const LilvNode* lilv_ui_get_binary_uri(const LilvUI* ui); /** @} @} */ #ifdef __cplusplus # if defined(__clang__) # pragma clang diagnostic pop # endif } /* extern "C" */ #endif #endif /* LILV_LILV_H */