// license:BSD-3-Clause // copyright-holders:Acho A. Tang,R. Belmont, Valley Bell /********************************************************* Irem GA20 PCM Sound Chip 80 pin QFP, label NANAO GA20 (Nanao Corporation was Irem's parent company) TODO: - It's not currently known whether this chip is stereo. - Is sample position base(regs 0,1) used while sample is playing, or latched at key on? We've always emulated it the latter way. gunforc2 seems to be the only game updating the address regs sometimes while a sample is playing, but it doesn't seem intentional. - What is the 2nd sample address for? Is it end(cut-off) address, or loop start address? Every game writes a value that's past sample end. - All games write either 0 or 2 to reg #6, do other bits have any function? Revisions: 04-15-2002 Acho A. Tang - rewrote channel mixing - added prelimenary volume and sample rate emulation 05-30-2002 Acho A. Tang - applied hyperbolic gain control to volume and used a musical-note style progression in sample rate calculation(still very inaccurate) 02-18-2004 R. Belmont - sample rate calculation reverse-engineered. Thanks to Fujix, Yasuhiro Ogawa, the Guru, and Tormod for real PCB samples that made this possible. 02-03-2007 R. Belmont - Cleaned up faux x86 assembly. 09-25-2018 Valley Bell & co - rewrote channel update to make data 0 act as sample terminator *********************************************************/ #include "emu.h" #include "iremga20.h" #include // device type definition DEFINE_DEVICE_TYPE(IREMGA20, iremga20_device, "iremga20", "Irem GA20") //************************************************************************** // LIVE DEVICE //************************************************************************** //------------------------------------------------- // iremga20_device - constructor //------------------------------------------------- iremga20_device::iremga20_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : device_t(mconfig, IREMGA20, tag, owner, clock), device_sound_interface(mconfig, *this), device_rom_interface(mconfig, *this, 20), m_stream(nullptr) { } //------------------------------------------------- // device_start - device-specific startup //------------------------------------------------- void iremga20_device::device_start() { m_stream = stream_alloc(0, 2, clock()/4); save_item(NAME(m_regs)); for (int i = 0; i < 4; i++) { save_item(NAME(m_channel[i].rate), i); save_item(NAME(m_channel[i].pos), i); save_item(NAME(m_channel[i].counter), i); save_item(NAME(m_channel[i].end), i); save_item(NAME(m_channel[i].volume), i); save_item(NAME(m_channel[i].play), i); } } //------------------------------------------------- // device_reset - device-specific reset //------------------------------------------------- void iremga20_device::device_reset() { std::fill(std::begin(m_regs), std::end(m_regs), 0); for (int i = 0; i < 4; i++) { m_channel[i].rate = 0; m_channel[i].pos = 0; m_channel[i].counter = 0; m_channel[i].end = 0; m_channel[i].volume = 0; m_channel[i].play = 0; } } //------------------------------------------------- // device_clock_changed - called if the clock // changes //------------------------------------------------- void iremga20_device::device_clock_changed() { m_stream->set_sample_rate(clock()/4); } //------------------------------------------------- // rom_bank_updated - the rom bank has changed //------------------------------------------------- void iremga20_device::rom_bank_updated() { m_stream->update(); } //------------------------------------------------- // sound_stream_update - handle a stream update //------------------------------------------------- void iremga20_device::sound_stream_update(sound_stream &stream, stream_sample_t **inputs, stream_sample_t **outputs, int samples) { stream_sample_t *outL, *outR; outL = outputs[0]; outR = outputs[1]; for (int i = 0; i < samples; i++) { stream_sample_t sampleout = 0; for (auto &ch : m_channel) { if (ch.play) { int sample = read_byte(ch.pos); if (sample == 0x00) // check for sample end marker ch.play = 0; else { sampleout += (sample - 0x80) * (int32_t)ch.volume; ch.counter--; if (ch.counter <= ch.rate) { ch.pos++; ch.counter = 0x100; } } } } sampleout >>= 2; outL[i] = sampleout; outR[i] = sampleout; } } WRITE8_MEMBER( iremga20_device::irem_ga20_w ) { m_stream->update(); offset &= 0x1f; m_regs[offset] = data; int ch = offset >> 3; // channel regs: // 0,1: start address // 2,3: end? address // 4: rate // 5: volume // 6: control // 7: voice status (read-only) switch (offset & 0x7) { case 4: m_channel[ch].rate = data; break; case 5: m_channel[ch].volume = (data * 256) / (data + 10); break; case 6: // d1: key on/off if (data & 2) { m_channel[ch].play = 1; m_channel[ch].pos = (m_regs[ch << 3 | 0] | m_regs[ch << 3 | 1] << 8) << 4; m_channel[ch].end = (m_regs[ch << 3 | 2] | m_regs[ch << 3 | 3] << 8) << 4; m_channel[ch].counter = 0x100; } else m_channel[ch].play = 0; // other: unknown/unused // possibilities are: loop flag, left/right speaker(stereo) break; } } READ8_MEMBER( iremga20_device::irem_ga20_r ) { m_stream->update(); offset &= 0x1f; int ch = offset >> 3; switch (offset & 0x7) { case 7: // voice status. bit 0 is 1 if active. (routine around 0xccc in rtypeleo) return m_channel[ch].play; default: logerror("GA20: read unk. register %d, channel %d\n", offset & 0x7, ch); break; } return 0; }