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162 lines
4.1 KiB
C++
162 lines
4.1 KiB
C++
//
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// SN76489.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 26/02/2018.
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// Copyright 2018 Thomas Harte. All rights reserved.
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//
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#include "SN76489.hpp"
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#include <cassert>
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#include <cmath>
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using namespace TI;
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SN76489::SN76489(Personality personality, Concurrency::DeferringAsyncTaskQueue &task_queue, int additional_divider) : task_queue_(task_queue) {
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set_sample_volume_range(0);
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switch(personality) {
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case Personality::SN76494:
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master_divider_period_ = 2;
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shifter_is_16bit_ = false;
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break;
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case Personality::SN76489:
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master_divider_period_ = 16;
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shifter_is_16bit_ = false;
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break;
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case Personality::SMS:
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master_divider_period_ = 16;
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shifter_is_16bit_ = true;
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break;
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}
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assert((master_divider_period_ % additional_divider) == 0);
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assert(additional_divider < master_divider_period_);
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master_divider_period_ /= additional_divider;
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}
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void SN76489::set_sample_volume_range(std::int16_t range) {
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// Build a volume table.
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double multiplier = pow(10.0, -0.1);
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double volume = float(range) / 4.0f; // As there are four channels.
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for(int c = 0; c < 16; ++c) {
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volumes_[c] = int(round(volume));
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volume *= multiplier;
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}
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volumes_[15] = 0;
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evaluate_output_volume();
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}
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void SN76489::write(uint8_t value) {
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task_queue_.defer([value, this] () {
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if(value & 0x80) {
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active_register_ = value;
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}
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const int channel = (active_register_ >> 5)&3;
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if(active_register_ & 0x10) {
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// latch for volume
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channels_[channel].volume = value & 0xf;
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evaluate_output_volume();
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} else {
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// latch for tone/data
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if(channel < 3) {
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if(value & 0x80) {
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channels_[channel].divider = (channels_[channel].divider & ~0xf) | (value & 0xf);
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} else {
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channels_[channel].divider = uint16_t((channels_[channel].divider & 0xf) | ((value & 0x3f) << 4));
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}
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} else {
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// writes to the noise register always reset the shifter
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noise_shifter_ = shifter_is_16bit_ ? 0x8000 : 0x4000;
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if(value & 4) {
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noise_mode_ = shifter_is_16bit_ ? Noise16 : Noise15;
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} else {
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noise_mode_ = shifter_is_16bit_ ? Periodic16 : Periodic15;
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}
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channels_[3].divider = uint16_t(0x10 << (value & 3));
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// Special case: if these bits are both set, the noise channel should track channel 2,
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// which is marked with a divider of 0xffff.
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if(channels_[3].divider == 0x80) channels_[3].divider = 0xffff;
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}
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}
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});
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}
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bool SN76489::is_zero_level() const {
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return channels_[0].volume == 0xf && channels_[1].volume == 0xf && channels_[2].volume == 0xf && channels_[3].volume == 0xf;
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}
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void SN76489::evaluate_output_volume() {
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output_volume_ = int16_t(
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channels_[0].level * volumes_[channels_[0].volume] +
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channels_[1].level * volumes_[channels_[1].volume] +
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channels_[2].level * volumes_[channels_[2].volume] +
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channels_[3].level * volumes_[channels_[3].volume]
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);
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}
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void SN76489::get_samples(std::size_t number_of_samples, std::int16_t *target) {
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std::size_t c = 0;
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while((master_divider_& (master_divider_period_ - 1)) && c < number_of_samples) {
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target[c] = output_volume_;
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master_divider_++;
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c++;
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}
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while(c < number_of_samples) {
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bool did_flip = false;
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#define step_channel(x, s) \
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if(channels_[x].counter) channels_[x].counter--;\
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else {\
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channels_[x].level ^= 1;\
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channels_[x].counter = channels_[x].divider;\
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s;\
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}
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step_channel(0, /**/);
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step_channel(1, /**/);
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step_channel(2, did_flip = true);
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#undef step_channel
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if(channels_[3].divider != 0xffff) {
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if(channels_[3].counter) channels_[3].counter--;
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else {
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did_flip = true;
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channels_[3].counter = channels_[3].divider;
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}
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}
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if(did_flip) {
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channels_[3].level = noise_shifter_ & 1;
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int new_bit = channels_[3].level;
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switch(noise_mode_) {
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default: break;
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case Noise15:
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new_bit ^= (noise_shifter_ >> 1);
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break;
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case Noise16:
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new_bit ^= (noise_shifter_ >> 3);
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break;
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}
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noise_shifter_ >>= 1;
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noise_shifter_ |= (new_bit & 1) << (shifter_is_16bit_ ? 15 : 14);
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}
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evaluate_output_volume();
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for(int ic = 0; ic < master_divider_period_ && c < number_of_samples; ++ic) {
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target[c] = output_volume_;
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c++;
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master_divider_++;
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}
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}
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master_divider_ &= (master_divider_period_ - 1);
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}
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