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CLK/Machines/Sinclair/ZX8081/Video.cpp

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//
// Video.cpp
// Clock Signal
//
// Created by Thomas Harte on 06/06/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
//
#include "Video.hpp"
#include <algorithm>
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using namespace Sinclair::ZX8081;
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namespace {
/*!
The number of bytes of PCM data to allocate at once; if/when more are required,
the class will simply allocate another batch.
*/
const std::size_t StandardAllocationSize = 320;
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}
Video::Video() :
crt_(207 * 2, 1, Outputs::Display::Type::PAL50, Outputs::Display::InputDataType::Luminance1) {
// Show only the centre 80% of the TV frame.
crt_.set_display_type(Outputs::Display::DisplayType::CompositeMonochrome);
crt_.set_visible_area(Outputs::Display::Rect(0.1f, 0.1f, 0.8f, 0.8f));
}
void Video::run_for(const HalfCycles half_cycles) {
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// Just keep a running total of the amount of time that remains owed to the CRT.
time_since_update_ += half_cycles;
}
void Video::flush() {
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flush(sync_);
}
void Video::flush(bool next_sync) {
if(sync_) {
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// If in sync, that takes priority. Output the proper amount of sync.
crt_.output_sync(int(time_since_update_.as_integral()));
} else {
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// If not presently in sync, then...
if(line_data_) {
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// If there is output data queued, output it either if it's being interrupted by
// sync, or if we're past its end anyway. Otherwise let it be.
int data_length = int(line_data_pointer_ - line_data_);
if(data_length < int(time_since_update_.as_integral()) || next_sync) {
auto output_length = std::min(data_length, int(time_since_update_.as_integral()));
crt_.output_data(output_length);
line_data_pointer_ = line_data_ = nullptr;
time_since_update_ -= HalfCycles(output_length);
} else return;
}
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// Any pending pixels being dealt with, pad with the white level.
uint8_t *colour_pointer = static_cast<uint8_t *>(crt_.begin_data(1));
if(colour_pointer) *colour_pointer = 0xff;
crt_.output_level(int(time_since_update_.as_integral()));
}
time_since_update_ = 0;
}
void Video::set_sync(bool sync) {
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// Do nothing if sync hasn't changed.
if(sync_ == sync) return;
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// Complete whatever was being drawn, and update sync.
flush(sync);
sync_ = sync;
}
void Video::output_byte(uint8_t byte) {
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// Complete whatever was going on.
if(sync_) return;
flush();
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// Grab a buffer if one isn't already available.
if(!line_data_) {
line_data_pointer_ = line_data_ = crt_.begin_data(StandardAllocationSize);
}
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// If a buffer was obtained, serialise the new pixels.
if(line_data_) {
// If the buffer is full, output it now and obtain a new one
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if(line_data_pointer_ - line_data_ == StandardAllocationSize) {
crt_.output_data(StandardAllocationSize, StandardAllocationSize);
time_since_update_ -= StandardAllocationSize;
line_data_pointer_ = line_data_ = crt_.begin_data(StandardAllocationSize);
if(!line_data_) return;
}
// Convert to one-byte-per-pixel where any non-zero value will act as white.
uint8_t mask = 0x80;
for(int c = 0; c < 8; c++) {
line_data_pointer_[c] = byte & mask;
mask >>= 1;
}
line_data_pointer_ += 8;
}
}
void Video::set_scan_target(Outputs::Display::ScanTarget *scan_target) {
crt_.set_scan_target(scan_target);
}
Outputs::Display::ScanStatus Video::get_scaled_scan_status() const {
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return crt_.get_scaled_scan_status() / 2.0f;
}