/* ** al-util.h ** ** This file is part of mkxp. ** ** Copyright (C) 2013 - 2021 Amaryllis Kulla ** ** mkxp 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. ** ** mkxp 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 mkxp. If not, see . */ #ifndef ALUTIL_H #define ALUTIL_H #include #include #include namespace AL { #define DEF_AL_ID \ struct ID \ { \ ALuint al; \ explicit ID(ALuint al = 0) \ : al(al) \ {} \ ID &operator=(const ID &o) \ { \ al = o.al; \ return *this; \ } \ bool operator==(const ID &o) const \ { \ return al == o.al; \ } \ }; namespace Buffer { DEF_AL_ID inline Buffer::ID gen() { Buffer::ID id; alGenBuffers(1, &id.al); return id; } inline void del(Buffer::ID id) { alDeleteBuffers(1, &id.al); } inline void uploadData(Buffer::ID id, ALenum format, const ALvoid *data, ALsizei size, ALsizei freq) { alBufferData(id.al, format, data, size, freq); } inline ALint getInteger(Buffer::ID id, ALenum prop) { ALint value; alGetBufferi(id.al, prop, &value); return value; } inline ALint getSize(Buffer::ID id) { return getInteger(id, AL_SIZE); } inline ALint getBits(Buffer::ID id) { return getInteger(id, AL_BITS); } inline ALint getChannels(Buffer::ID id) { return getInteger(id, AL_CHANNELS); } } namespace Source { DEF_AL_ID inline Source::ID gen() { Source::ID id; alGenSources(1, &id.al); return id; } inline void del(Source::ID id) { alDeleteSources(1, &id.al); } inline void attachBuffer(Source::ID id, Buffer::ID buffer) { alSourcei(id.al, AL_BUFFER, buffer.al); } inline void detachBuffer(Source::ID id) { attachBuffer(id, Buffer::ID(0)); } inline void queueBuffer(Source::ID id, Buffer::ID buffer) { alSourceQueueBuffers(id.al, 1, &buffer.al); } inline Buffer::ID unqueueBuffer(Source::ID id) { Buffer::ID buffer; alSourceUnqueueBuffers(id.al, 1, &buffer.al); return buffer; } inline void clearQueue(Source::ID id) { attachBuffer(id, Buffer::ID(0)); } inline ALint getInteger(Source::ID id, ALenum prop) { ALint value; alGetSourcei(id.al, prop, &value); return value; } inline ALint getProcBufferCount(Source::ID id) { return getInteger(id, AL_BUFFERS_PROCESSED); } inline ALenum getState(Source::ID id) { return getInteger(id, AL_SOURCE_STATE); } inline ALfloat getSecOffset(Source::ID id) { ALfloat value; alGetSourcef(id.al, AL_SEC_OFFSET, &value); return value; } inline void setVolume(Source::ID id, float value) { alSourcef(id.al, AL_GAIN, value); } inline void setPitch(Source::ID id, float value) { alSourcef(id.al, AL_PITCH, value); } inline void play(Source::ID id) { alSourcePlay(id.al); } inline void stop(Source::ID id) { alSourceStop(id.al); } inline void pause(Source::ID id) { alSourcePause(id.al); } } } inline uint8_t formatSampleSize(int sdlFormat) { switch (sdlFormat) { case AUDIO_U8 : case AUDIO_S8 : return 1; case AUDIO_U16LSB : case AUDIO_U16MSB : case AUDIO_S16LSB : case AUDIO_S16MSB : return 2; default : assert(!"Unhandled sample format"); } return 0; } inline ALenum chooseALFormat(int sampleSize, int channelCount) { switch (sampleSize) { case 1 : switch (channelCount) { case 1 : return AL_FORMAT_MONO8; case 2 : return AL_FORMAT_STEREO8; } case 2 : switch (channelCount) { case 1 : return AL_FORMAT_MONO16; case 2 : return AL_FORMAT_STEREO16; } default : assert(!"Unhandled sample size / channel count"); } return 0; } #define AUDIO_SLEEP 10 #define STREAM_BUF_SIZE 32768 #define GLOBAL_VOLUME 0.8f #endif // ALUTIL_H