// Copyright 2006-2019 David Robillard // Copyright 2006 Steve Harris // SPDX-License-Identifier: ISC /** LV2 headers are based on the URI of the specification they come from, so a consistent convention can be used even for unofficial extensions. The URI of the core LV2 specification is , by replacing `http:/` with `lv2` any header in the specification bundle can be included, in this case `lv2.h`. */ #include "lv2/core/lv2.h" /** Include standard C headers */ #include #include /** The URI is the identifier for a plugin, and how the host associates this implementation in code with its description in data. In this plugin it is only used once in the code, but defining the plugin URI at the top of the file is a good convention to follow. If this URI does not match that used in the data files, the host will fail to load the plugin. */ #define TEST_URI "http://example.org/lilv-bindings-test-plugin" /** In code, ports are referred to by index. An enumeration of port indices should be defined for readability. */ typedef enum { TEST_CONTROL_IN = 0, TEST_CONTROL_OUT = 1, TEST_AUDIO_IN = 2, TEST_AUDIO_OUT = 3 } PortIndex; /** Every plugin defines a private structure for the plugin instance. All data associated with a plugin instance is stored here, and is available to every instance method. In this simple plugin, only port buffers need to be stored, since there is no additional instance data. */ typedef struct { float* buf; } Test; /** The instantiate() function is called by the host to create a new plugin instance. The host passes the plugin descriptor, sample rate, and bundle path for plugins that need to load additional resources (e.g. waveforms). The features parameter contains host-provided features defined in LV2 extensions, but this simple plugin does not use any. This function is in the ``instantiation'' threading class, so no other methods on this instance will be called concurrently with it. */ static LV2_Handle instantiate(const LV2_Descriptor* descriptor, double rate, const char* bundle_path, const LV2_Feature* const* features) { (void)descriptor; (void)rate; (void)bundle_path; (void)features; Test* test = (Test*)malloc(sizeof(Test)); return (LV2_Handle)test; } /** The connect_port() method is called by the host to connect a particular port to a buffer. The plugin must store the data location, but data may not be accessed except in run(). This method is in the ``audio'' threading class, and is called in the same context as run(). */ static void connect_port(LV2_Handle instance, uint32_t port, void* data) { (void)instance; (void)port; (void)data; } /** The activate() method is called by the host to initialise and prepare the plugin instance for running. The plugin must reset all internal state except for buffer locations set by connect_port(). Since this plugin has no other internal state, this method does nothing. This method is in the ``instantiation'' threading class, so no other methods on this instance will be called concurrently with it. */ static void activate(LV2_Handle instance) { (void)instance; } /** Process a block of audio (audio thread, must be RT safe). */ static void run(LV2_Handle instance, uint32_t n_samples) { (void)instance; (void)n_samples; } /** The deactivate() method is the counterpart to activate() called by the host after running the plugin. It indicates that the host will not call run() again until another call to activate() and is mainly useful for more advanced plugins with ``live'' characteristics such as those with auxiliary processing threads. As with activate(), this plugin has no use for this information so this method does nothing. This method is in the ``instantiation'' threading class, so no other methods on this instance will be called concurrently with it. */ static void deactivate(LV2_Handle instance) { (void)instance; } /** Destroy a plugin instance (counterpart to instantiate()). This method is in the ``instantiation'' threading class, so no other methods on this instance will be called concurrently with it. */ static void cleanup(LV2_Handle instance) { free(instance); } /** The extension_data function returns any extension data supported by the plugin. Note that this is not an instance method, but a function on the plugin descriptor. It is usually used by plugins to implement additional interfaces. This plugin does not have any extension data, so this function returns NULL. This method is in the ``discovery'' threading class, so no other functions or methods in this plugin library will be called concurrently with it. */ static const void* extension_data(const char* uri) { (void)uri; return NULL; } /** Define the LV2_Descriptor for this plugin. It is best to define descriptors statically to avoid leaking memory and non-portable shared library constructors and destructors to clean up properly. */ static const LV2_Descriptor descriptor = {TEST_URI, instantiate, connect_port, activate, run, deactivate, cleanup, extension_data}; /** The lv2_descriptor() function is the entry point to the plugin library. The host will load the library and call this function repeatedly with increasing indices to find all the plugins defined in the library. The index is not an indentifier, the URI of the returned descriptor is used to determine the identify of the plugin. This method is in the ``discovery'' threading class, so no other functions or methods in this plugin library will be called concurrently with it. */ LV2_SYMBOL_EXPORT const LV2_Descriptor* lv2_descriptor(uint32_t index) { return index ? NULL : &descriptor; }