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https://github.com/TomHarte/CLK.git
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Via a unit test, confirms and fixes relative volumes of OPLL channels.
Also rejigs responsibility for scaling to emulator-standard volume.
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@ -40,12 +40,12 @@ int Channel::update(Operator *modulator, Operator *carrier, OperatorOverrides *m
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const auto modulator_level = modulator_state_.level();
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carrier->update(carrier_state_, key_on_, period_ << frequency_shift_, octave_, modulator_level, carrier_overrides);
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return carrier_state_.level() << 2;
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return carrier_state_.level();
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} else {
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// Get modulator and carrier levels separately, return their sum.
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modulator->update(modulator_state_, key_on_, period_ << frequency_shift_, octave_, 0, modulator_overrides);
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carrier->update(carrier_state_, key_on_, period_ << frequency_shift_, octave_, 0, carrier_overrides);
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return (modulator_state_.level() + carrier_state_.level()) << 1;
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return (modulator_state_.level() + carrier_state_.level());
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}
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}
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@ -178,7 +178,7 @@ void Operator::update(OperatorState &state, bool key_on, int channel_period, int
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// Overrides here represent per-channel volume on an OPLL. The bits are defined to represent
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// attenuations of 24db to 3db; the main envelope generator is stated to have a resolution of
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// 0.325db (which I've assumed is supposed to say 0.375db).
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state.attenuation.log += state.adsr_attenuation_ + (overrides->attenuation << 4);
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state.attenuation.log += (state.adsr_attenuation_ << 3) + (overrides->attenuation << 7);
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} else {
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// Overrides here represent per-channel volume on an OPLL. The bits are defined to represent
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// attenuations of 24db to 0.75db.
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@ -182,7 +182,7 @@ void OPLL::setup_fixed_instrument(int number, const uint8_t *data) {
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void OPLL::update_all_chanels() {
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// Channels that are updated for melodic output regardless.
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for(int c = 0; c < 6; ++ c) {
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channels_[c].level = (channels_[c].update() * total_volume_) >> 14;
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channels_[c].level = (channels_[c].update() * total_volume_) >> 11;
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}
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if(depth_rhythm_control_ & 0x20) {
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@ -190,7 +190,7 @@ void OPLL::update_all_chanels() {
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} else {
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// All melody, all the time.
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for(int c = 6; c < 9; ++ c) {
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channels_[c].level = (channels_[c].update() * total_volume_) >> 14;
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channels_[c].level = (channels_[c].update() * total_volume_) >> 11;
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}
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}
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@ -67,7 +67,7 @@
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</Testables>
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</TestAction>
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<LaunchAction
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buildConfiguration = "Debug"
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buildConfiguration = "Release"
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selectedDebuggerIdentifier = "Xcode.DebuggerFoundation.Debugger.LLDB"
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selectedLauncherIdentifier = "Xcode.DebuggerFoundation.Launcher.LLDB"
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enableASanStackUseAfterReturn = "YES"
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@ -68,7 +68,7 @@
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NSEnumerator *goodValues = [knownGood objectEnumerator];
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for(int c = 0; c < 16384; ++c) {
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const int generated = channel.update(&modulator, &carrier);
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const int known = [[goodValues nextObject] intValue];
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const int known = [[goodValues nextObject] intValue] >> 2;
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XCTAssertLessThanOrEqual(abs(generated - known), 10, "FM synthesis varies by more than 10 at sample %d of attenuation %d", c, attenuation);
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}
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}
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@ -87,6 +87,59 @@
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}
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}
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// MARK: - Level tests
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- (int)maxLevelForOPLLAttenuation:(int)attenuation {
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Yamaha::OPL::Operator modulator, carrier;
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Yamaha::OPL::Channel channel;
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Yamaha::OPL::OperatorOverrides overrides;
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// Reach maximum volume immediately, and hold it during sustain.
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carrier.set_sustain_release(0x0f);
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carrier.set_attack_decay(0xf0);
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// Use FM synthesis.
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channel.set_feedback_mode(1);
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// Set hold sustain level.
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carrier.set_am_vibrato_hold_sustain_ksr_multiple(0x20);
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// Disable the modulator.
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modulator.set_scaling_output(0x3f);
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// Set a non-zero frequency, set key on.
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channel.set_frequency_low(0x40);
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channel.set_9bit_frequency_octave_key_on(0x10);
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// Get the maximum output for this volume level.
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overrides.attenuation = attenuation;
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overrides.use_sustain_level = true;
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int max = 0;
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for(int c = 0; c < 16384; ++c) {
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const int level = channel.update(&modulator, &carrier, nullptr, &overrides);
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if(level > max) max = level;
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}
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return max;
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}
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- (void)testOPLLVolumeLevels {
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// Get maximum output levels for all channels.
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int maxLevels[16];
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for(int c = 0; c < 16; ++c) {
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maxLevels[c] = [self maxLevelForOPLLAttenuation:c];
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}
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// Figure out a divider to turn that into the sampled range.
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const double multiplier = 255.0 / double(maxLevels[0]);
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const double expectedLevels[16] = {255.0, 181.0, 127.0, 90.0, 63.0, 45.0, 31.0, 22.0, 15.0, 11.0, 7.0, 5.0, 3.0, 2.0, 1.0, 1.0};
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for(int c = 0; c < 16; ++c) {
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const double empiricalLevel = double(maxLevels[c]) * multiplier;
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XCTAssertLessThanOrEqual(fabs(round(empiricalLevel) - expectedLevels[c]), 2.0, "Fixed attenuation %d was %0.0f; should have been %0.0f", c, empiricalLevel, expectedLevels[c]);
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}
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}
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// MARK: - ADSR tests
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- (void)testADSR {
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