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https://github.com/TomHarte/CLK.git
synced 2024-11-26 08:49:37 +00:00
Substitutes a more efficient inner loop for audio generation.
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@ -12,7 +12,8 @@ using namespace Apple::Macintosh;
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namespace {
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// The sample_length is coupled with the clock rate selected within the Macintosh proper.
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// The sample_length is coupled with the clock rate selected within the Macintosh proper;
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// as per the header-declaration a divide-by-two clock is expected to arrive here.
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const std::size_t sample_length = 352 / 2;
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}
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@ -36,6 +37,7 @@ void Audio::set_volume(int volume) {
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// Post the volume change as a deferred event.
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task_queue_.defer([=] () {
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volume_ = volume;
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set_volume_multiplier();
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});
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}
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@ -47,6 +49,7 @@ void Audio::set_enabled(bool on) {
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// Post the enabled mask change as a deferred event.
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task_queue_.defer([=] () {
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enabled_mask_ = int(on);
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set_volume_multiplier();
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});
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}
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@ -58,7 +61,12 @@ bool Audio::is_zero_level() {
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void Audio::set_sample_volume_range(std::int16_t range) {
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// Some underflow here doesn't really matter.
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volume_multiplier_ = range / (7 * 255);
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output_volume_ = range / (7 * 255);
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set_volume_multiplier();
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}
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void Audio::set_volume_multiplier() {
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volume_multiplier_ = int16_t(output_volume_ * volume_ * enabled_mask_);
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}
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void Audio::get_samples(std::size_t number_of_samples, int16_t *target) {
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@ -66,14 +74,24 @@ void Audio::get_samples(std::size_t number_of_samples, int16_t *target) {
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// in fact it uses pulse-width modulation. But the scale for pulses isn't specified, so
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// that's something to return to.
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// TODO: temporary implementation. Very inefficient. Replace.
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for(std::size_t sample = 0; sample < number_of_samples; ++sample) {
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target[sample] = volume_multiplier_ * int16_t(sample_queue_.buffer[sample_queue_.read_pointer] * volume_ * enabled_mask_);
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++subcycle_offset_;
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while(number_of_samples) {
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// Determine how many output samples will be at the same level.
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const auto cycles_left_in_sample = std::min(number_of_samples, sample_length - subcycle_offset_);
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if(subcycle_offset_ == sample_length) {
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subcycle_offset_ = 0;
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sample_queue_.read_pointer = (sample_queue_.read_pointer + 1) % sample_queue_.buffer.size();
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// Determine the output level, and output that many samples.
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// (Hoping that the copiler substitutes an effective memset16-type operation here).
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const int16_t output_level = volume_multiplier_ * (int16_t(sample_queue_.buffer[sample_queue_.read_pointer]) - 128);
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for(size_t c = 0; c < cycles_left_in_sample; ++c) {
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target[c] = output_level;
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}
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target += cycles_left_in_sample;
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// Advance the sample pointer.
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subcycle_offset_ += cycles_left_in_sample;
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sample_queue_.read_pointer = (sample_queue_.read_pointer + (subcycle_offset_ / sample_length)) % sample_queue_.buffer.size();
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subcycle_offset_ %= sample_length;
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// Decreate the number of samples left to write.
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number_of_samples -= cycles_left_in_sample;
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}
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}
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@ -75,9 +75,11 @@ class Audio: public ::Outputs::Speaker::SampleSource {
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// thread only.
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int volume_ = 0;
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int enabled_mask_ = 0;
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std::int16_t output_volume_ = 0;
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std::int16_t volume_multiplier_ = 0;
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std::size_t subcycle_offset_ = 0;
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void set_volume_multiplier();
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};
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}
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