/* * Interfaces over Yamaha OPN2 (YM2612) chip emulators * * Copyright (c) 2018-2020 Vitaly Novichkov (Wohlstand) * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "mame_opna.h" #include "mamefm/fm.h" #include "mamefm/fmopn_2608rom.h" #include "mamefm/2608intf.h" #include "mamefm/resampler.hpp" struct MameOPNA::Impl { ym2608_device dev; void *chip; // typedef chip::SincResampler Resampler; typedef chip::LinearResampler Resampler; Resampler *psgrsm; int32_t *psgbuffer; static const ssg_callbacks cbssg; // callbacks static uint8_t cbInternalReadByte(device_t *, offs_t); static uint8_t cbExternalReadByte(device_t *, offs_t) { return 0; } static void cbExternalWriteByte(device_t *, offs_t, uint8_t) {} static void cbHandleTimer(device_t *, int, int, int) {} static void cbHandleIRQ(device_t *, int) {} static void cbSsgSetClock(device_t *dev, int clock); static void cbSsgWrite(device_t *dev, int addr, int data); static int cbSsgRead(device_t *dev); static void cbSsgReset(device_t *dev); }; const ssg_callbacks MameOPNA::Impl::cbssg = { &cbSsgSetClock, &cbSsgWrite, &cbSsgRead, &cbSsgReset, }; MameOPNA::MameOPNA(OPNFamily f) : OPNChipBaseBufferedT(f), impl(new Impl) { impl->chip = NULL; impl->psgrsm = NULL; impl->psgbuffer = NULL; setRate(m_rate, m_clock); } MameOPNA::~MameOPNA() { delete impl->psgrsm; delete[] impl->psgbuffer; ym2608_shutdown(impl->chip); delete impl; } void MameOPNA::setRate(uint32_t rate, uint32_t clock) { OPNChipBaseBufferedT::setRate(rate, clock); if(impl->chip) ym2608_shutdown(impl->chip); uint32_t chipRate = isRunningAtPcmRate() ? rate : nativeRate(); ym2608_device *device = &impl->dev; void *chip = impl->chip = ym2608_init( device, (int)clock, (int)chipRate, &Impl::cbInternalReadByte, &Impl::cbExternalReadByte, &Impl::cbExternalWriteByte, &Impl::cbHandleTimer, &Impl::cbHandleIRQ, &Impl::cbssg); PSG *psg = &device->m_psg; memset(psg, 0, sizeof(PSG)); uint32_t psgRate = clock / 32; PSG_init(psg, clock / 4, psgRate); // TODO libOPNMIDI verify clocks PSG_setVolumeMode(psg, 1); // YM2149 volume mode delete impl->psgrsm; Impl::Resampler *psgrsm = impl->psgrsm = new Impl::Resampler; psgrsm->init(psgRate, chipRate, 40); delete[] impl->psgbuffer; impl->psgbuffer = new int32_t[2 * psgrsm->calculateInternalSampleSize(buffer_size)]; ym2608_reset_chip(chip); ym2608_write(chip, 0, 0x29); ym2608_write(chip, 1, 0x9f); } void MameOPNA::reset() { OPNChipBaseBufferedT::reset(); void *chip = impl->chip; ym2608_reset_chip(chip); ym2608_write(chip, 0, 0x29); ym2608_write(chip, 1, 0x9f); } void MameOPNA::writeReg(uint32_t port, uint16_t addr, uint8_t data) { void *chip = impl->chip; ym2608_write(chip, 0 + (int)(port) * 2, (uint8_t)addr); ym2608_write(chip, 1 + (int)(port) * 2, data); } void MameOPNA::writePan(uint16_t chan, uint8_t data) { void *chip = impl->chip; ym2608_write_pan(chip, (int)chan, data); } void MameOPNA::nativeGenerateN(int16_t *output, size_t frames) { void *chip = impl->chip; FMSAMPLE fmLR[2 * buffer_size]; FMSAMPLE *fmR = fmLR + buffer_size; FMSAMPLE *fmbufs[2] = { fmLR, fmR }; ym2608_update_one(chip, fmbufs, (int)frames); PSG *psg = &impl->dev.m_psg; Impl::Resampler *psgrsm = impl->psgrsm; size_t psgframes = psgrsm->calculateInternalSampleSize(frames); int32_t *rawpsgLR = impl->psgbuffer; int32_t *rawpsgR = rawpsgLR + psgframes; int32_t *rawpsgbufs[2] = { rawpsgLR, rawpsgR }; PSG_calc_stereo(psg, rawpsgbufs, (int32_t)psgframes); int32_t **psgbufs = psgrsm->interpolate(rawpsgbufs, frames, psgframes); int32_t *psgL = psgbufs[0]; int32_t *psgR = psgbufs[1]; for(size_t i = 0; i < frames; ++i) { int32_t l = fmLR[i] + psgL[i]; l = (l > -32768) ? l : -32768; l = (l < 32767) ? l : 32767; int32_t r = fmR[i] + psgR[i]; r = (r > -32768) ? r : -32768; r = (r < 32767) ? r : 32767; output[2 * i] = l; output[2 * i + 1] = r; } } const char *MameOPNA::emulatorName() { return "MAME YM2608"; // git 2018-12-15 rev 8ab05c0 } uint8_t MameOPNA::Impl::cbInternalReadByte(device_t *dev, offs_t off) { (void)dev; return YM2608_ADPCM_ROM[off & 0x1fff]; } void MameOPNA::Impl::cbSsgSetClock(device_t *dev, int clock) { ym2608_device *ym = static_cast(dev); PSG_set_clock(&ym->m_psg, (uint32_t)clock); } void MameOPNA::Impl::cbSsgWrite(device_t *dev, int addr, int data) { ym2608_device *ym = static_cast(dev); PSG_writeIO(&ym->m_psg, (uint32_t)addr, (uint32_t)data); } int MameOPNA::Impl::cbSsgRead(device_t *dev) { ym2608_device *ym = static_cast(dev); return PSG_readIO(&ym->m_psg); } void MameOPNA::Impl::cbSsgReset(device_t *dev) { ym2608_device *ym = static_cast(dev); return PSG_reset(&ym->m_psg); }