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303 lines
10 KiB
C++
303 lines
10 KiB
C++
//
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// Video.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 12/10/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#include "Video.hpp"
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#include <algorithm>
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//#define SUPPLY_COMPOSITE
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using namespace Oric;
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namespace {
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const unsigned int PAL50VSyncStartPosition = 256*64;
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const unsigned int PAL60VSyncStartPosition = 234*64;
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const unsigned int PAL50VSyncEndPosition = 260*64;
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const unsigned int PAL60VSyncEndPosition = 238*64;
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const unsigned int PAL50Period = 312*64;
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const unsigned int PAL60Period = 264*64;
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}
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VideoOutput::VideoOutput(uint8_t *memory) :
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ram_(memory),
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crt_(64*6, 1, Outputs::Display::Type::PAL50, Outputs::Display::InputDataType::Red1Green1Blue1),
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frequency_mismatch_warner_(*this),
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v_sync_start_position_(PAL50VSyncStartPosition), v_sync_end_position_(PAL50VSyncEndPosition),
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counter_period_(PAL50Period) {
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crt_.set_phase_linked_luminance_offset(-1.0f / 8.0f);
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data_type_ = Outputs::Display::InputDataType::Red1Green1Blue1;
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crt_.set_input_data_type(data_type_);
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crt_.set_delegate(&frequency_mismatch_warner_);
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update_crt_frequency();
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}
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void VideoOutput::register_crt_frequency_mismatch() {
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crt_is_60Hz_ ^= true;
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update_crt_frequency();
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}
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void VideoOutput::update_crt_frequency() {
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// Set the proper frequency...
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crt_.set_new_display_type(64*6, crt_is_60Hz_ ? Outputs::Display::Type::PAL60 : Outputs::Display::Type::PAL50);
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// ... but also pick an appropriate crop rectangle.
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crt_.set_visible_area(crt_.get_rect_for_area(crt_is_60Hz_ ? 26 : 54, 224, 16 * 6, 40 * 6, 4.0f / 3.0f));
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}
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void VideoOutput::set_display_type(Outputs::Display::DisplayType display_type) {
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crt_.set_display_type(display_type);
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#ifdef SUPPLY_COMPOSITE
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const auto data_type =
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(!has_colour_rom_ || display_type == Outputs::Display::DisplayType::RGB) ?
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Outputs::Display::InputDataType::Red1Green1Blue1 :
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Outputs::Display::InputDataType::PhaseLinkedLuminance8;
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#else
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const auto data_type = Outputs::Display::InputDataType::Red1Green1Blue1;
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#endif
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if(data_type_ != data_type) {
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data_type_ = data_type;
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crt_.set_input_data_type(data_type_);
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}
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}
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Outputs::Display::DisplayType VideoOutput::get_display_type() const {
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return crt_.get_display_type();
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}
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void VideoOutput::set_scan_target(Outputs::Display::ScanTarget *scan_target) {
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crt_.set_scan_target(scan_target);
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}
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Outputs::Display::ScanStatus VideoOutput::get_scaled_scan_status() const {
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return crt_.get_scaled_scan_status() / 6.0f;
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}
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void VideoOutput::set_colour_rom(const std::vector<uint8_t> &rom) {
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has_colour_rom_ = true;
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for(std::size_t c = 0; c < 8; c++) {
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colour_forms_[c] = 0;
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uint8_t *const colour = reinterpret_cast<uint8_t *>(&colour_forms_[c]);
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const std::size_t index = (c << 2);
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// Values in the ROM are encoded for indexing by two square waves
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// in quadrature, which means that they're indexed in the order
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// 0, 1, 3, 2.
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colour[0] = uint8_t((rom[index] & 0x0f) << 4);
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colour[1] = uint8_t(rom[index] & 0xf0);
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colour[2] = uint8_t(rom[index+1] & 0xf0);
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colour[3] = uint8_t((rom[index+1] & 0x0f) << 4);
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// Extracting just the visible part of the stored range of values
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// means extracting the range 0x40 to 0xe0.
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for(int sub = 0; sub < 4; ++sub) {
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colour[sub] = ((colour[sub] - 0x40) * 255) / 0xa0;
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}
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}
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// Check for big endianness and byte swap if required.
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// uint32_t test_value = 0x0001;
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// if(*reinterpret_cast<uint8_t *>(&test_value) != 0x01) {
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// for(std::size_t c = 0; c < 8; c++) {
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// colour_forms_[c] = uint16_t((colour_forms_[c] >> 8) | (colour_forms_[c] << 8));
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// }
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// }
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}
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bool VideoOutput::vsync() {
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return counter_ >= v_sync_start_position_ && counter_ < v_sync_end_position_;
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}
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Cycles VideoOutput::next_sequence_point() const {
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if(counter_ < v_sync_start_position_) {
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return Cycles(v_sync_start_position_ - counter_);
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} else if(counter_ < v_sync_end_position_) {
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return Cycles(v_sync_end_position_ - counter_);
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} else {
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// After vsync the length of the next frame is baked in, so this is safe
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// (but should probably be factored out).
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return Cycles(
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counter_period_ + static_cast<int>(next_frame_is_sixty_hertz_ ? PAL60VSyncStartPosition : PAL50VSyncStartPosition)
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- counter_
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);
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}
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}
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void VideoOutput::run_for(const Cycles cycles) {
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// Horizontal: 0-39: pixels; otherwise blank; 48-53 sync, 54-56 colour burst.
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// Vertical: 0-223: pixels; otherwise blank; 256-259 (50Hz) or 234-238 (60Hz) sync.
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#define clamp(action) \
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if(cycles_run_for <= number_of_cycles) { action; } else cycles_run_for = number_of_cycles;
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int number_of_cycles = int(cycles.as_integral());
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while(number_of_cycles) {
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int h_counter = counter_ & 63;
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int cycles_run_for = 0;
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if(vsync()) {
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// this is a sync line
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cycles_run_for = v_sync_end_position_ - counter_;
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clamp(crt_.output_sync((v_sync_end_position_ - v_sync_start_position_) * 6));
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} else if(counter_ < 224*64 && h_counter < 40) {
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// this is a pixel line
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if(!h_counter) {
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ink_ = 0x7;
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paper_ = 0x0;
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use_alternative_character_set_ = use_double_height_characters_ = blink_text_ = false;
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set_character_set_base_address();
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if(data_type_ == Outputs::Display::InputDataType::Red1Green1Blue1) {
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rgb_pixel_target_ = reinterpret_cast<uint8_t *>(crt_.begin_data(240));
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} else {
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composite_pixel_target_ = reinterpret_cast<uint32_t *>(crt_.begin_data(240));
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}
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if(!counter_) {
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frame_counter_++;
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v_sync_start_position_ = next_frame_is_sixty_hertz_ ? PAL60VSyncStartPosition : PAL50VSyncStartPosition;
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v_sync_end_position_ = next_frame_is_sixty_hertz_ ? PAL60VSyncEndPosition : PAL50VSyncEndPosition;
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counter_period_ = next_frame_is_sixty_hertz_ ? PAL60Period : PAL50Period;
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}
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}
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cycles_run_for = std::min(40 - h_counter, number_of_cycles);
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int columns = cycles_run_for;
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int pixel_base_address = 0xa000 + (counter_ >> 6) * 40;
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int character_base_address = 0xbb80 + (counter_ >> 9) * 40;
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const uint8_t blink_mask = (blink_text_ && (frame_counter_&32)) ? 0x00 : 0xff;
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while(columns--) {
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uint8_t pixels, control_byte;
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if(is_graphics_mode_ && counter_ < 200*64) {
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control_byte = pixels = ram_[pixel_base_address + h_counter];
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} else {
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int address = character_base_address + h_counter;
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control_byte = ram_[address];
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const int line = use_double_height_characters_ ? ((counter_ >> 7) & 7) : ((counter_ >> 6) & 7);
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pixels = ram_[character_set_base_address_ + (control_byte&127) * 8 + line];
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}
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const uint8_t inverse_mask = (control_byte & 0x80) ? 0x7 : 0x0;
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pixels &= blink_mask;
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if(control_byte & 0x60) {
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if(data_type_ == Outputs::Display::InputDataType::Red1Green1Blue1 && rgb_pixel_target_) {
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const uint8_t colours[2] = {
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uint8_t(paper_ ^ inverse_mask),
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uint8_t(ink_ ^ inverse_mask)
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};
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rgb_pixel_target_[0] = colours[(pixels >> 5)&1];
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rgb_pixel_target_[1] = colours[(pixels >> 4)&1];
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rgb_pixel_target_[2] = colours[(pixels >> 3)&1];
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rgb_pixel_target_[3] = colours[(pixels >> 2)&1];
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rgb_pixel_target_[4] = colours[(pixels >> 1)&1];
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rgb_pixel_target_[5] = colours[(pixels >> 0)&1];
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} else if(composite_pixel_target_) {
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const uint32_t colours[2] = {
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colour_forms_[paper_ ^ inverse_mask],
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colour_forms_[ink_ ^ inverse_mask]
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};
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composite_pixel_target_[0] = colours[(pixels >> 5)&1];
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composite_pixel_target_[1] = colours[(pixels >> 4)&1];
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composite_pixel_target_[2] = colours[(pixels >> 3)&1];
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composite_pixel_target_[3] = colours[(pixels >> 2)&1];
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composite_pixel_target_[4] = colours[(pixels >> 1)&1];
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composite_pixel_target_[5] = colours[(pixels >> 0)&1];
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}
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} else {
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switch(control_byte & 0x1f) {
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case 0x00: ink_ = 0x0; break;
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case 0x01: ink_ = 0x4; break;
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case 0x02: ink_ = 0x2; break;
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case 0x03: ink_ = 0x6; break;
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case 0x04: ink_ = 0x1; break;
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case 0x05: ink_ = 0x5; break;
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case 0x06: ink_ = 0x3; break;
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case 0x07: ink_ = 0x7; break;
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case 0x08: case 0x09: case 0x0a: case 0x0b:
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case 0x0c: case 0x0d: case 0x0e: case 0x0f:
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use_alternative_character_set_ = (control_byte&1);
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use_double_height_characters_ = (control_byte&2);
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blink_text_ = (control_byte&4);
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set_character_set_base_address();
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break;
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case 0x10: paper_ = 0x0; break;
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case 0x11: paper_ = 0x4; break;
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case 0x12: paper_ = 0x2; break;
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case 0x13: paper_ = 0x6; break;
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case 0x14: paper_ = 0x1; break;
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case 0x15: paper_ = 0x5; break;
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case 0x16: paper_ = 0x3; break;
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case 0x17: paper_ = 0x7; break;
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case 0x18: case 0x19: case 0x1a: case 0x1b:
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case 0x1c: case 0x1d: case 0x1e: case 0x1f:
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is_graphics_mode_ = (control_byte & 4);
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next_frame_is_sixty_hertz_ = !(control_byte & 2);
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break;
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default: break;
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}
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if(data_type_ == Outputs::Display::InputDataType::Red1Green1Blue1 && rgb_pixel_target_) {
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rgb_pixel_target_[0] = rgb_pixel_target_[1] =
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rgb_pixel_target_[2] = rgb_pixel_target_[3] =
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rgb_pixel_target_[4] = rgb_pixel_target_[5] = paper_ ^ inverse_mask;
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} else if(composite_pixel_target_) {
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composite_pixel_target_[0] = composite_pixel_target_[1] =
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composite_pixel_target_[2] = composite_pixel_target_[3] =
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composite_pixel_target_[4] = composite_pixel_target_[5] = colour_forms_[paper_ ^ inverse_mask];
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}
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}
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if(rgb_pixel_target_) rgb_pixel_target_ += 6;
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if(composite_pixel_target_) composite_pixel_target_ += 6;
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h_counter++;
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}
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if(h_counter == 40) {
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crt_.output_data(40 * 6);
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rgb_pixel_target_ = nullptr;
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composite_pixel_target_ = nullptr;
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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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if(h_counter < 48) {
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cycles_run_for = 48 - h_counter;
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clamp(
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int period = (counter_ < 224*64) ? 8 : 48;
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crt_.output_blank(period * 6);
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);
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} else if(h_counter < 54) {
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cycles_run_for = 54 - h_counter;
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clamp(crt_.output_sync(6 * 6));
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} else if(h_counter < 56) {
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cycles_run_for = 56 - h_counter;
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clamp(crt_.output_default_colour_burst(2 * 6));
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} else {
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cycles_run_for = 64 - h_counter;
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clamp(crt_.output_blank(8 * 6));
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}
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}
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counter_ = (counter_ + cycles_run_for)%counter_period_;
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number_of_cycles -= cycles_run_for;
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}
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}
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void VideoOutput::set_character_set_base_address() {
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if(is_graphics_mode_) character_set_base_address_ = use_alternative_character_set_ ? 0x9c00 : 0x9800;
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else character_set_base_address_ = use_alternative_character_set_ ? 0xb800 : 0xb400;
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}
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