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https://github.com/TomHarte/CLK.git
synced 2024-12-27 01:31:42 +00:00
Removes the CRT requirement for an integral relationship between cycles and samples.
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6a79ce9eb1
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1c605d58e3
@ -287,7 +287,7 @@ template <class BusHandler> class MOS6560 {
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case State::Sync: crt_->output_sync(cycles_in_state_ * 4); break;
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case State::ColourBurst: crt_->output_colour_burst(cycles_in_state_ * 4, (is_odd_frame_ || is_odd_line_) ? 128 : 0); break;
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case State::Border: output_border(cycles_in_state_ * 4); break;
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case State::Pixels: crt_->output_data(cycles_in_state_ * 4, 1); break;
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case State::Pixels: crt_->output_data(cycles_in_state_ * 4); break;
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}
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output_state_ = this_state_;
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cycles_in_state_ = 0;
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@ -536,7 +536,8 @@ void TMS9918::run_for(const HalfCycles cycles) {
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}
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if(output_column_ == first_right_border_column_) {
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crt_->output_data(static_cast<unsigned int>(first_right_border_column_ - first_pixel_column_) * 4, 4);
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const unsigned int data_length = static_cast<unsigned int>(first_right_border_column_ - first_pixel_column_);
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crt_->output_data(data_length * 4, data_length);
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pixel_target_ = nullptr;
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}
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}
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@ -203,7 +203,7 @@ class CRTCBusHandler {
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} else {
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if(was_enabled_) {
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if(cycles_) {
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crt_->output_data(cycles_ * 16, pixel_divider_);
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crt_->output_data(cycles_ * 16, cycles_ * 16 / pixel_divider_);
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pixel_pointer_ = pixel_data_ = nullptr;
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}
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} else {
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@ -267,7 +267,7 @@ class CRTCBusHandler {
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// widths so it's not necessarily possible to predict the correct number in advance
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// and using the upper bound could lead to inefficient behaviour
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if(pixel_pointer_ == pixel_data_ + 320) {
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crt_->output_data(cycles_ * 16, pixel_divider_);
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crt_->output_data(cycles_ * 16, cycles_ * 16 / pixel_divider_);
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pixel_pointer_ = pixel_data_ = nullptr;
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cycles_ = 0;
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}
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@ -38,9 +38,14 @@ template <class BusHandler> class Video {
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// "uint texValue = texture(sampler, coordinate).r;"
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// "texValue <<= int(icoordinate.x * 8) & 7;"
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// "return float(texValue & 128u);"
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"uint texValue = texture(sampler, coordinate).r;"
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"texValue <<= uint(icoordinate.x * 7.0) % 7u;"
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"return float(texValue & 64u);"
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// "uint texValue = texture(sampler, coordinate).r;"
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// "texValue <<= uint(mod(icoordinate.x, 1.0) * 7.0);"
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// "return float(texValue & 64u);"
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"}");
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// TODO: the above has precision issues. Fix!
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@ -91,7 +96,7 @@ template <class BusHandler> class Video {
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const int pixel_end = std::min(40, ending_column);
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const int character_row = row_ >> 3;
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const int pixel_row = row_ & 7;
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const uint16_t line_address = static_cast<uint16_t>(0x400 + (character_row >> 3) * 40 + ((character_row&7) << 7));
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const uint16_t line_address = static_cast<uint16_t>(0x400 + (video_page_ * 0x400) + (character_row >> 3) * 40 + ((character_row&7) << 7));
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for(int c = column_; c < pixel_end; ++c) {
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const uint16_t address = static_cast<uint16_t>(line_address + c);
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@ -102,8 +107,10 @@ template <class BusHandler> class Video {
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pixel_pointer_[c] = character_rom_[character_address] ^ ((character & 0x80) ? 0x00 : 0xff);
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}
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// TODO: graphics; 0x2000+ for high resolution
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if(ending_column >= 40) {
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crt_->output_data(280, 7);
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crt_->output_data(280, 40);
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}
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} else {
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if(ending_column >= 40) {
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@ -163,6 +170,7 @@ template <class BusHandler> class Video {
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}
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void set_video_page(int page) {
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video_page_ = page;
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printf("Video page: %d\n", page);
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}
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@ -437,7 +437,10 @@ void TIA::output_for_cycles(int number_of_cycles) {
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if(output_mode_ & blank_flag) {
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if(pixel_target_) {
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output_pixels(pixels_start_location_, output_cursor);
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if(crt_) crt_->output_data(static_cast<unsigned int>(output_cursor - pixels_start_location_) * 2, 2);
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if(crt_) {
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const unsigned int data_length = static_cast<unsigned int>(output_cursor - pixels_start_location_);
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crt_->output_data(data_length * 2, data_length);
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}
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pixel_target_ = nullptr;
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pixels_start_location_ = 0;
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}
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@ -459,7 +462,8 @@ void TIA::output_for_cycles(int number_of_cycles) {
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}
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if(horizontal_counter_ == cycles_per_line && crt_) {
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crt_->output_data(static_cast<unsigned int>(output_cursor - pixels_start_location_) * 2, 2);
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const unsigned int data_length = static_cast<unsigned int>(output_cursor - pixels_start_location_);
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crt_->output_data(data_length * 2, data_length);
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pixel_target_ = nullptr;
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pixels_start_location_ = 0;
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}
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@ -97,7 +97,10 @@ void VideoOutput::start_pixel_line() {
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}
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void VideoOutput::end_pixel_line() {
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if(current_output_target_) crt_->output_data(static_cast<unsigned int>((current_output_target_ - initial_output_target_) * current_output_divider_), current_output_divider_);
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if(current_output_target_) {
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const unsigned int data_length = static_cast<unsigned int>(current_output_target_ - initial_output_target_);
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crt_->output_data(data_length * current_output_divider_, data_length);
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}
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current_character_row_++;
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}
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@ -115,7 +118,10 @@ void VideoOutput::output_pixels(unsigned int number_of_cycles) {
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}
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if(!initial_output_target_ || divider != current_output_divider_) {
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if(current_output_target_) crt_->output_data(static_cast<unsigned int>((current_output_target_ - initial_output_target_) * current_output_divider_), current_output_divider_);
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if(current_output_target_) {
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const unsigned int data_length = static_cast<unsigned int>(current_output_target_ - initial_output_target_);
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crt_->output_data(data_length * current_output_divider_, data_length);
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}
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current_output_divider_ = divider;
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initial_output_target_ = current_output_target_ = crt_->allocate_write_area(640 / current_output_divider_, 4);
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}
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@ -191,7 +191,7 @@ void VideoOutput::run_for(const Cycles cycles) {
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}
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if(h_counter == 40) {
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crt_->output_data(40 * 6, 1);
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crt_->output_data(40 * 6);
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}
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} else {
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// this is a blank line (or the equivalent part of a pixel line)
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@ -62,7 +62,7 @@ void Video::flush(bool next_sync) {
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unsigned int data_length = static_cast<unsigned int>(line_data_pointer_ - line_data_) * HalfCyclesPerByte;
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if(data_length < cycles_since_update_ || next_sync) {
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unsigned int output_length = std::min(data_length, cycles_since_update_);
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crt_->output_data(output_length, HalfCyclesPerByte);
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crt_->output_data(output_length, output_length / HalfCyclesPerByte);
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line_data_pointer_ = line_data_ = nullptr;
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cycles_since_update_ -= output_length;
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} else return;
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@ -100,7 +100,7 @@ void Video::output_byte(uint8_t byte) {
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if(line_data_) {
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// If the buffer is full, output it now and obtain a new one
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if(line_data_pointer_ - line_data_ == StandardAllocationSize) {
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crt_->output_data(StandardAllocationSize, HalfCyclesPerByte);
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crt_->output_data(StandardAllocationSize * HalfCyclesPerByte, StandardAllocationSize);
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cycles_since_update_ -= StandardAllocationSize * HalfCyclesPerByte;
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line_data_pointer_ = line_data_ = crt_->allocate_write_area(StandardAllocationSize);
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if(!line_data_) return;
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@ -125,11 +125,8 @@ Flywheel::SyncEvent CRT::get_next_horizontal_sync_event(bool hsync_is_requested,
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#define output_position_y() (*reinterpret_cast<uint16_t *>(&next_output_run[OutputVertexOffsetOfVertical + 0]))
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#define output_tex_y() (*reinterpret_cast<uint16_t *>(&next_output_run[OutputVertexOffsetOfVertical + 2]))
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#define source_input_position_x1() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfInputStart + 0]))
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#define source_input_position_y() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfInputStart + 2]))
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#define source_input_position_x2() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfEnds + 0]))
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#define source_output_position_x1() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfOutputStart + 0]))
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#define source_output_position_y() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfOutputStart + 2]))
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#define source_output_position_x2() (*reinterpret_cast<uint16_t *>(&next_run[SourceVertexOffsetOfEnds + 2]))
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#define source_phase() next_run[SourceVertexOffsetOfPhaseTimeAndAmplitude + 0]
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#define source_amplitude() next_run[SourceVertexOffsetOfPhaseTimeAndAmplitude + 1]
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@ -217,6 +214,9 @@ void CRT::advance_cycles(unsigned int number_of_cycles, bool hsync_requested, bo
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output_tex_y() = output_y;
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output_x2() = static_cast<uint16_t>(horizontal_flywheel_->get_current_output_position());
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}
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// TODO: below I've assumed a one-to-one correspondance with output runs and input data; that's
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// obviously not completely sustainable. It's a latent bug.
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openGL_output_builder_.array_builder.flush(
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[=] (uint8_t *input_buffer, std::size_t input_size, uint8_t *output_buffer, std::size_t output_size) {
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openGL_output_builder_.texture_builder.flush(
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@ -264,15 +264,11 @@ void CRT::advance_cycles(unsigned int number_of_cycles, bool hsync_requested, bo
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#undef output_position_y
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#undef output_tex_y
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#undef source_input_position_x1
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#undef source_input_position_y
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#undef source_input_position_x2
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#undef source_output_position_x1
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#undef source_output_position_y
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#undef source_output_position_x2
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#undef source_phase
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#undef source_amplitude
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#undef source_phase_time
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// MARK: - stream feeding methods
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@ -384,8 +380,8 @@ void CRT::set_immediate_default_phase(float phase) {
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phase_numerator_ = static_cast<unsigned int>(phase * static_cast<float>(phase_denominator_));
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}
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void CRT::output_data(unsigned int number_of_cycles, unsigned int source_divider) {
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openGL_output_builder_.texture_builder.reduce_previous_allocation_to(number_of_cycles / source_divider);
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void CRT::output_data(unsigned int number_of_cycles, unsigned int number_of_samples) {
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openGL_output_builder_.texture_builder.reduce_previous_allocation_to(number_of_samples);
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Scan scan;
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scan.type = Scan::Type::Data;
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scan.number_of_cycles = number_of_cycles;
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@ -180,17 +180,21 @@ class CRT {
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void output_level(unsigned int number_of_cycles);
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/*! Declares that the caller has created a run of data via @c allocate_write_area and @c get_write_target_for_buffer
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that is at least @c number_of_cycles long, and that the first @c number_of_cycles/source_divider should be spread
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over that amount of time.
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that is at least @c number_of_samples long, and that the first @c number_of_samples should be spread
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over @c number_of_cycles.
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@param number_of_cycles The amount of data to output.
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@param source_divider A divider for source data; if the divider is 1 then one source pixel is output every cycle,
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if it is 2 then one source pixel covers two cycles; if it is n then one source pixel covers n cycles.
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@param number_of_samples The number of samples of input data to output.
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@see @c allocate_write_area , @c get_write_target_for_buffer
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*/
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void output_data(unsigned int number_of_cycles, unsigned int source_divider);
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void output_data(unsigned int number_of_cycles, unsigned int number_of_samples);
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/*! A shorthand form for output_data that assumes the number of cycles to output for is the same as the number of samples. */
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void output_data(unsigned int number_of_cycles) {
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output_data(number_of_cycles, number_of_cycles);
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}
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/*! Outputs a colour burst.
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