/**************************************************************************** * Copyright (C) 2015 Dimok * * 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 3 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, see . ****************************************************************************/ #ifndef _AXSOUND_H_ #define _AXSOUND_H_ #include #include class Voice { public: enum VoicePriorities { PRIO_MIN = 1, PRIO_MAX = 31 }; enum VoiceStates { STATE_STOPPED, STATE_START, STATE_PLAYING, STATE_STOP, }; Voice(int32_t prio) : state(STATE_STOPPED) { lastLoopCounter = 0; nextBufferSize = 0; voice = AXAcquireVoice(prio, 0, 0); if(voice) { AXVoiceBegin(voice); AXSetVoiceType(voice, 0); setVolume(0x80000000); AXVoiceDeviceMixData mix[6]; memset(mix, 0, sizeof(mix)); mix[0].bus[0].volume = 0x8000; mix[0].bus[0].delta = 0; mix[1].bus[0].volume = 0x8000; mix[1].bus[0].delta = 0; AXSetVoiceDeviceMix(voice, 0, 0, mix); AXSetVoiceDeviceMix(voice, 1, 0, mix); AXVoiceEnd(voice); } } ~Voice() { if(voice) { AXFreeVoice(voice); } } void play(const uint8_t *buffer, uint32_t bufferSize, const uint8_t *nextBuffer, uint32_t nextBufSize, uint16_t format, uint32_t sampleRate) { if(!voice) return; memset(&voiceBuffer, 0, sizeof(voiceBuffer)); voiceBuffer.data = buffer; voiceBuffer.dataType = format; voiceBuffer.loopingEnabled = (nextBuffer == NULL) ? 0 : 1; voiceBuffer.currentOffset = 0; voiceBuffer.endOffset = (bufferSize >> 1) - 1; voiceBuffer.loopOffset = ((nextBuffer - buffer) >> 1); nextBufferSize = nextBufSize; // TODO: handle support for 3.1.0 with dynamic libs instead of static linking it //uint32_t samplesPerSec = (AXGetInputSamplesPerSec != 0) ? AXGetInputSamplesPerSec() : 32000; uint32_t samplesPerSec = AXGetInputSamplesPerSec(); memset(&ratioBits, 0, sizeof(ratioBits)); ratioBits.ratio = (uint32_t)(0x00010000 * ((float)sampleRate / (float)samplesPerSec)); AXSetVoiceOffsets(voice, &voiceBuffer); AXSetVoiceSrc(voice, &ratioBits); AXSetVoiceSrcType(voice, 1); AXSetVoiceState(voice, 1); } void stop() { if(voice) AXSetVoiceState(voice, 0); } void setVolume(uint32_t vol) { if(voice) { AXVoiceVeData data; data.volume = vol >> 16; data.delta = vol & 0xFFFF; AXSetVoiceVe(voice, &data); } } void setNextBuffer(const uint8_t *buffer, uint32_t bufferSize) { voiceBuffer.loopOffset = ((buffer - (const uint8_t*)voiceBuffer.data) >> 1); nextBufferSize = bufferSize; AXSetVoiceLoopOffset(voice, voiceBuffer.loopOffset); } bool isBufferSwitched() { uint32_t loopCounter = AXGetVoiceLoopCount(voice); if(lastLoopCounter != loopCounter) { lastLoopCounter = loopCounter; AXSetVoiceEndOffset(voice, voiceBuffer.loopOffset + (nextBufferSize >> 1) - 1); return true; } return false; } uint32_t getInternState() const { if(voice) return ((uint32_t *)voice)[1]; return 0; } uint32_t getState() const { return state; } void setState(uint32_t s) { state = s; } void * getVoice() const { return voice; } private: AXVoice *voice; AXVoiceSrc ratioBits; AXVoiceOffsets voiceBuffer; uint32_t state; uint32_t nextBufferSize; uint32_t lastLoopCounter; }; #endif // _AXSOUND_H_