/* * Copyright (C) 2003-2013 The Music Player Daemon Project * http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef MPD_ENCODER_PLUGIN_HXX #define MPD_ENCODER_PLUGIN_HXX #include "gerror.h" #include #include #include struct EncoderPlugin; struct audio_format; struct config_param; struct tag; struct Encoder { const EncoderPlugin &plugin; #ifndef NDEBUG bool open, pre_tag, tag, end; #endif explicit Encoder(const EncoderPlugin &_plugin) :plugin(_plugin) #ifndef NDEBUG , open(false) #endif {} }; struct EncoderPlugin { const char *name; Encoder *(*init)(const struct config_param *param, GError **error); void (*finish)(Encoder *encoder); bool (*open)(Encoder *encoder, struct audio_format *audio_format, GError **error); void (*close)(Encoder *encoder); bool (*end)(Encoder *encoder, GError **error); bool (*flush)(Encoder *encoder, GError **error); bool (*pre_tag)(Encoder *encoder, GError **error); bool (*tag)(Encoder *encoder, const struct tag *tag, GError **error); bool (*write)(Encoder *encoder, const void *data, size_t length, GError **error); size_t (*read)(Encoder *encoder, void *dest, size_t length); const char *(*get_mime_type)(Encoder *encoder); }; /** * Creates a new encoder object. * * @param plugin the encoder plugin * @param param optional configuration * @param error location to store the error occurring, or NULL to ignore errors. * @return an encoder object on success, NULL on failure */ static inline Encoder * encoder_init(const EncoderPlugin &plugin, const config_param *param, GError **error_r) { return plugin.init(param, error_r); } /** * Frees an encoder object. * * @param encoder the encoder */ static inline void encoder_finish(Encoder *encoder) { assert(!encoder->open); encoder->plugin.finish(encoder); } /** * Opens an encoder object. You must call this prior to using it. * Before you free it, you must call encoder_close(). You may open * and close (reuse) one encoder any number of times. * * After this function returns successfully and before the first * encoder_write() call, you should invoke encoder_read() to obtain * the file header. * * @param encoder the encoder * @param audio_format the encoder's input audio format; the plugin * may modify the struct to adapt it to its abilities * @param error location to store the error occurring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_open(Encoder *encoder, struct audio_format *audio_format, GError **error) { assert(!encoder->open); bool success = encoder->plugin.open(encoder, audio_format, error); #ifndef NDEBUG encoder->open = success; encoder->pre_tag = encoder->tag = encoder->end = false; #endif return success; } /** * Closes an encoder object. This disables the encoder, and readies * it for reusal by calling encoder_open() again. * * @param encoder the encoder */ static inline void encoder_close(Encoder *encoder) { assert(encoder->open); if (encoder->plugin.close != NULL) encoder->plugin.close(encoder); #ifndef NDEBUG encoder->open = false; #endif } /** * Ends the stream: flushes the encoder object, generate an * end-of-stream marker (if applicable), make everything which might * currently be buffered available by encoder_read(). * * After this function has been called, the encoder may not be usable * for more data, and only encoder_read() and encoder_close() can be * called. * * @param encoder the encoder * @param error location to store the error occuring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_end(Encoder *encoder, GError **error) { assert(encoder->open); assert(!encoder->end); #ifndef NDEBUG encoder->end = true; #endif /* this method is optional */ return encoder->plugin.end != NULL ? encoder->plugin.end(encoder, error) : true; } /** * Flushes an encoder object, make everything which might currently be * buffered available by encoder_read(). * * @param encoder the encoder * @param error location to store the error occurring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_flush(Encoder *encoder, GError **error) { assert(encoder->open); assert(!encoder->pre_tag); assert(!encoder->tag); assert(!encoder->end); /* this method is optional */ return encoder->plugin.flush != NULL ? encoder->plugin.flush(encoder, error) : true; } /** * Prepare for sending a tag to the encoder. This is used by some * encoders to flush the previous sub-stream, in preparation to begin * a new one. * * @param encoder the encoder * @param tag the tag object * @param error location to store the error occuring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_pre_tag(Encoder *encoder, GError **error) { assert(encoder->open); assert(!encoder->pre_tag); assert(!encoder->tag); assert(!encoder->end); /* this method is optional */ bool success = encoder->plugin.pre_tag != NULL ? encoder->plugin.pre_tag(encoder, error) : true; #ifndef NDEBUG encoder->pre_tag = success; #endif return success; } /** * Sends a tag to the encoder. * * Instructions: call encoder_pre_tag(); then obtain flushed data with * encoder_read(); finally call encoder_tag(). * * @param encoder the encoder * @param tag the tag object * @param error location to store the error occurring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_tag(Encoder *encoder, const struct tag *tag, GError **error) { assert(encoder->open); assert(!encoder->pre_tag); assert(encoder->tag); assert(!encoder->end); #ifndef NDEBUG encoder->tag = false; #endif /* this method is optional */ return encoder->plugin.tag != NULL ? encoder->plugin.tag(encoder, tag, error) : true; } /** * Writes raw PCM data to the encoder. * * @param encoder the encoder * @param data the buffer containing PCM samples * @param length the length of the buffer in bytes * @param error location to store the error occurring, or NULL to ignore errors. * @return true on success */ static inline bool encoder_write(Encoder *encoder, const void *data, size_t length, GError **error) { assert(encoder->open); assert(!encoder->pre_tag); assert(!encoder->tag); assert(!encoder->end); return encoder->plugin.write(encoder, data, length, error); } /** * Reads encoded data from the encoder. * * Call this repeatedly until no more data is returned. * * @param encoder the encoder * @param dest the destination buffer to copy to * @param length the maximum length of the destination buffer * @return the number of bytes written to #dest */ static inline size_t encoder_read(Encoder *encoder, void *dest, size_t length) { assert(encoder->open); assert(!encoder->pre_tag || !encoder->tag); #ifndef NDEBUG if (encoder->pre_tag) { encoder->pre_tag = false; encoder->tag = true; } #endif return encoder->plugin.read(encoder, dest, length); } /** * Get mime type of encoded content. * * @param plugin the encoder plugin * @return an constant string, NULL on failure */ static inline const char * encoder_get_mime_type(Encoder *encoder) { /* this method is optional */ return encoder->plugin.get_mime_type != NULL ? encoder->plugin.get_mime_type(encoder) : NULL; } #endif