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view DPF-Prymula-audioplugins/dpf/distrho/src/clap/ext/params.h @ 8:923377f8ebcb
immposiblerush-0.230919-0_ALLDISTRIBUTIONS
author | prymula <prymula76@outlook.com> |
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date | Sat, 03 Feb 2024 18:23:04 +0100 |
parents | 84e66ea83026 |
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#pragma once #include "../plugin.h" #include "../string-sizes.h" /// @page Parameters /// @brief parameters management /// /// Main idea: /// /// The host sees the plugin as an atomic entity; and acts as a controller on top of its parameters. /// The plugin is responsible for keeping its audio processor and its GUI in sync. /// /// The host can at any time read parameters' value on the [main-thread] using /// @ref clap_plugin_params.value(). /// /// There are two options to communicate parameter value changes, and they are not concurrent. /// - send automation points during clap_plugin.process() /// - send automation points during clap_plugin_params.flush(), for parameter changes /// without processing audio /// /// When the plugin changes a parameter value, it must inform the host. /// It will send @ref CLAP_EVENT_PARAM_VALUE event during process() or flush(). /// If the user is adjusting the value, don't forget to mark the begining and end /// of the gesture by sending CLAP_EVENT_PARAM_GESTURE_BEGIN and CLAP_EVENT_PARAM_GESTURE_END /// events. /// /// @note MIDI CCs are tricky because you may not know when the parameter adjustment ends. /// Also if the host records incoming MIDI CC and parameter change automation at the same time, /// there will be a conflict at playback: MIDI CC vs Automation. /// The parameter automation will always target the same parameter because the param_id is stable. /// The MIDI CC may have a different mapping in the future and may result in a different playback. /// /// When a MIDI CC changes a parameter's value, set the flag CLAP_EVENT_DONT_RECORD in /// clap_event_param.header.flags. That way the host may record the MIDI CC automation, but not the /// parameter change and there won't be conflict at playback. /// /// Scenarios: /// /// I. Loading a preset /// - load the preset in a temporary state /// - call @ref clap_host_params.rescan() if anything changed /// - call @ref clap_host_latency.changed() if latency changed /// - invalidate any other info that may be cached by the host /// - if the plugin is activated and the preset will introduce breaking changes /// (latency, audio ports, new parameters, ...) be sure to wait for the host /// to deactivate the plugin to apply those changes. /// If there are no breaking changes, the plugin can apply them them right away. /// The plugin is resonsible for updating both its audio processor and its gui. /// /// II. Turning a knob on the DAW interface /// - the host will send an automation event to the plugin via a process() or flush() /// /// III. Turning a knob on the Plugin interface /// - the plugin is responsible for sending the parameter value to its audio processor /// - call clap_host_params->request_flush() or clap_host->request_process(). /// - when the host calls either clap_plugin->process() or clap_plugin_params->flush(), /// send an automation event and don't forget to set begin_adjust, /// end_adjust and should_record flags /// /// IV. Turning a knob via automation /// - host sends an automation point during clap_plugin->process() or clap_plugin_params->flush(). /// - the plugin is responsible for updating its GUI /// /// V. Turning a knob via plugin's internal MIDI mapping /// - the plugin sends a CLAP_EVENT_PARAM_SET output event, set should_record to false /// - the plugin is responsible to update its GUI /// /// VI. Adding or removing parameters /// - if the plugin is activated call clap_host->restart() /// - once the plugin isn't active: /// - apply the new state /// - if a parameter is gone or is created with an id that may have been used before, /// call clap_host_params.clear(host, param_id, CLAP_PARAM_CLEAR_ALL) /// - call clap_host_params->rescan(CLAP_PARAM_RESCAN_ALL) static CLAP_CONSTEXPR const char CLAP_EXT_PARAMS[] = "clap.params"; #ifdef __cplusplus extern "C" { #endif enum { // Is this param stepped? (integer values only) // if so the double value is converted to integer using a cast (equivalent to trunc). CLAP_PARAM_IS_STEPPED = 1 << 0, // Useful for for periodic parameters like a phase CLAP_PARAM_IS_PERIODIC = 1 << 1, // The parameter should not be shown to the user, because it is currently not used. // It is not necessary to process automation for this parameter. CLAP_PARAM_IS_HIDDEN = 1 << 2, // The parameter can't be changed by the host. CLAP_PARAM_IS_READONLY = 1 << 3, // This parameter is used to merge the plugin and host bypass button. // It implies that the parameter is stepped. // min: 0 -> bypass off // max: 1 -> bypass on CLAP_PARAM_IS_BYPASS = 1 << 4, // When set: // - automation can be recorded // - automation can be played back // // The host can send live user changes for this parameter regardless of this flag. // // If this parameters affect the internal processing structure of the plugin, ie: max delay, fft // size, ... and the plugins needs to re-allocate its working buffers, then it should call // host->request_restart(), and perform the change once the plugin is re-activated. CLAP_PARAM_IS_AUTOMATABLE = 1 << 5, // Does this parameter support per note automations? CLAP_PARAM_IS_AUTOMATABLE_PER_NOTE_ID = 1 << 6, // Does this parameter support per key automations? CLAP_PARAM_IS_AUTOMATABLE_PER_KEY = 1 << 7, // Does this parameter support per channel automations? CLAP_PARAM_IS_AUTOMATABLE_PER_CHANNEL = 1 << 8, // Does this parameter support per port automations? CLAP_PARAM_IS_AUTOMATABLE_PER_PORT = 1 << 9, // Does this parameter support the modulation signal? CLAP_PARAM_IS_MODULATABLE = 1 << 10, // Does this parameter support per note modulations? CLAP_PARAM_IS_MODULATABLE_PER_NOTE_ID = 1 << 11, // Does this parameter support per key modulations? CLAP_PARAM_IS_MODULATABLE_PER_KEY = 1 << 12, // Does this parameter support per channel modulations? CLAP_PARAM_IS_MODULATABLE_PER_CHANNEL = 1 << 13, // Does this parameter support per port modulations? CLAP_PARAM_IS_MODULATABLE_PER_PORT = 1 << 14, // Any change to this parameter will affect the plugin output and requires to be done via // process() if the plugin is active. // // A simple example would be a DC Offset, changing it will change the output signal and must be // processed. CLAP_PARAM_REQUIRES_PROCESS = 1 << 15, }; typedef uint32_t clap_param_info_flags; /* This describes a parameter */ typedef struct clap_param_info { // stable parameter identifier, it must never change. clap_id id; clap_param_info_flags flags; // This value is optional and set by the plugin. The host will // set it on all subsequent events regarding this param_id // or set the cookie to nullptr if the host chooses to // not implement cookies. // // The plugin must gracefully handle the case of a cookie // which is nullptr, but can safely assume any cookie // which is not nullptr is the value it issued. // // It is very strongly recommended that the host implement // cookies. Some plugins may have noticably reduced // performance when addressing params in hosts without cookies. // // The cookie's purpose is to provide a fast access to the // plugin parameter objects. For instance: // // in clap_plugin_params.get_info // Parameter *p = findParameter(param_id); // param_info->cookie = p; // // later, in clap_plugin.process: // // Parameter *p{nullptr}; // if (evt->cookie) [[likely]] // p = (Parameter *)evt->cookie; // else // p = -- alternate mechanism -- // // where "alternate mechanism" is a mechanism the plugin implements // to map parameter ids to internal objects. // // The host should make no assumption about the // value of the cookie other than passing it back to the plugin or // replacing it with nullptr. // // Once set, the cookie is valid until invalidated by a call to // clap_host_params->rescan(CLAP_PARAM_RESCAN_ALL) or when the plugin is // destroyed. void *cookie; // the display name char name[CLAP_NAME_SIZE]; // the module path containing the param, eg:"oscillators/wt1" // '/' will be used as a separator to show a tree like structure. char module[CLAP_PATH_SIZE]; double min_value; // minimum plain value double max_value; // maximum plain value double default_value; // default plain value } clap_param_info_t; typedef struct clap_plugin_params { // Returns the number of parameters. // [main-thread] uint32_t(CLAP_ABI *count)(const clap_plugin_t *plugin); // Copies the parameter's info to param_info and returns true on success. // [main-thread] bool(CLAP_ABI *get_info)(const clap_plugin_t *plugin, uint32_t param_index, clap_param_info_t *param_info); // Gets the parameter plain value. // [main-thread] bool(CLAP_ABI *get_value)(const clap_plugin_t *plugin, clap_id param_id, double *value); // Formats the display text for the given parameter value. // The host should always format the parameter value to text using this function // before displaying it to the user. // [main-thread] bool(CLAP_ABI *value_to_text)( const clap_plugin_t *plugin, clap_id param_id, double value, char *display, uint32_t size); // Converts the display text to a parameter value. // [main-thread] bool(CLAP_ABI *text_to_value)(const clap_plugin_t *plugin, clap_id param_id, const char *display, double *value); // Flushes a set of parameter changes. // This method must not be called concurrently to clap_plugin->process(). // // Note: if the plugin is processing, then the process() call will already achieve the // parameter update (bi-directionnal), so a call to flush isn't required, also be aware // that the plugin may use the sample offset in process(), while this information would be // lost within flush(). // // [active ? audio-thread : main-thread] void(CLAP_ABI *flush)(const clap_plugin_t *plugin, const clap_input_events_t *in, const clap_output_events_t *out); } clap_plugin_params_t; enum { // The parameter values did change, eg. after loading a preset. // The host will scan all the parameters value. // The host will not record those changes as automation points. // New values takes effect immediately. CLAP_PARAM_RESCAN_VALUES = 1 << 0, // The value to text conversion changed, and the text needs to be rendered again. CLAP_PARAM_RESCAN_TEXT = 1 << 1, // The parameter info did change, use this flag for: // - name change // - module change // - is_periodic (flag) // - is_hidden (flag) // New info takes effect immediately. CLAP_PARAM_RESCAN_INFO = 1 << 2, // Invalidates everything the host knows about parameters. // It can only be used while the plugin is deactivated. // If the plugin is activated use clap_host->restart() and delay any change until the host calls // clap_plugin->deactivate(). // // You must use this flag if: // - some parameters were added or removed. // - some parameters had critical changes: // - is_per_note (flag) // - is_per_channel (flag) // - is_readonly (flag) // - is_bypass (flag) // - is_stepped (flag) // - is_modulatable (flag) // - min_value // - max_value // - cookie CLAP_PARAM_RESCAN_ALL = 1 << 3, }; typedef uint32_t clap_param_rescan_flags; enum { // Clears all possible references to a parameter CLAP_PARAM_CLEAR_ALL = 1 << 0, // Clears all automations to a parameter CLAP_PARAM_CLEAR_AUTOMATIONS = 1 << 1, // Clears all modulations to a parameter CLAP_PARAM_CLEAR_MODULATIONS = 1 << 2, }; typedef uint32_t clap_param_clear_flags; typedef struct clap_host_params { // Rescan the full list of parameters according to the flags. // [main-thread] void(CLAP_ABI *rescan)(const clap_host_t *host, clap_param_rescan_flags flags); // Clears references to a parameter. // [main-thread] void(CLAP_ABI *clear)(const clap_host_t *host, clap_id param_id, clap_param_clear_flags flags); // Request a parameter flush. // // The host will then schedule a call to either: // - clap_plugin.process() // - clap_plugin_params.flush() // // This function is always safe to use and should not be called from an [audio-thread] as the // plugin would already be within process() or flush(). // // [thread-safe,!audio-thread] void(CLAP_ABI *request_flush)(const clap_host_t *host); } clap_host_params_t; #ifdef __cplusplus } #endif