2019-10-05 01:34:15 +00:00
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//
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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 04/10/2019.
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// Copyright © 2019 Thomas Harte. All rights reserved.
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//
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#include "Video.hpp"
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2019-10-09 01:18:08 +00:00
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#include <algorithm>
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2019-10-05 01:34:15 +00:00
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using namespace Atari::ST;
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2019-10-09 01:18:08 +00:00
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namespace {
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struct ModeParams {
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const int lines_per_frame;
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const int first_video_line;
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const int final_video_line;
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const int line_length;
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const int end_of_blank;
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const int start_of_display_enable;
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const int end_of_display_enable;
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const int start_of_output;
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const int end_of_output;
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const int start_of_blank;
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const int start_of_hsync;
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const int end_of_hsync;
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} modes[3] = {
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{313, 56, 256, 1024, 64, 116, 116+640, 116+48, 116+48+640, 904, 928, 1008 },
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{},
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{}
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};
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const ModeParams &mode_params_for_mode() {
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// TODO: rest of potential combinations, and accept mode as a paramter.
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return modes[0];
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}
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}
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2019-10-05 01:34:15 +00:00
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Video::Video() :
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2019-10-09 01:18:08 +00:00
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crt_(1024, 1, Outputs::Display::Type::PAL50, Outputs::Display::InputDataType::Red4Green4Blue4) {
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2019-10-05 01:34:15 +00:00
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}
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void Video::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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void Video::run_for(HalfCycles duration) {
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2019-10-09 01:18:08 +00:00
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int integer_duration = duration.as_int();
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const auto mode_params = mode_params_for_mode();
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#define Period(lower, upper, type) \
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if(x >= lower && x < upper) { \
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const auto target = std::min(upper, final_x); \
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type(target - x); \
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x = target; \
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}
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while(integer_duration) {
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const int final_x = std::min(x + integer_duration, mode_params.line_length);
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integer_duration -= (final_x - x);
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if(y >= mode_params.first_video_line && y < mode_params.final_video_line) {
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// TODO: Prior to output: collect all necessary data, obeying start_of_display_enable and end_of_display_enable.
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Period(0, mode_params.end_of_blank, crt_.output_blank);
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Period(mode_params.end_of_blank, mode_params.start_of_output, output_border);
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if(x >= mode_params.start_of_output && x < mode_params.end_of_output) {
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const auto target = std::min(mode_params.end_of_output, final_x);
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x = target;
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if(x == mode_params.end_of_output) {
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uint16_t *colour_pointer = reinterpret_cast<uint16_t *>(crt_.begin_data(1));
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if(colour_pointer) *colour_pointer = 0xffff;
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crt_.output_level(mode_params.end_of_output - mode_params.start_of_output);
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}
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}
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Period(mode_params.end_of_output, mode_params.start_of_blank, output_border);
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Period(mode_params.start_of_blank, mode_params.start_of_hsync, crt_.output_blank);
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2019-10-09 01:29:17 +00:00
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Period(mode_params.start_of_hsync, mode_params.end_of_hsync, crt_.output_sync);
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Period(mode_params.end_of_hsync, mode_params.line_length, crt_.output_blank);
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2019-10-09 01:18:08 +00:00
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} else {
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// Hard code the first three lines as vertical sync.
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if(y < 3) {
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Period(0, mode_params.start_of_hsync, crt_.output_sync);
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Period(mode_params.start_of_hsync, mode_params.end_of_hsync, crt_.output_blank);
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Period(mode_params.end_of_hsync, mode_params.line_length, crt_.output_sync);
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} else {
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Period(0, mode_params.end_of_blank, crt_.output_blank);
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Period(mode_params.end_of_blank, mode_params.start_of_blank, output_border);
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Period(mode_params.start_of_blank, mode_params.start_of_hsync, crt_.output_blank);
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2019-10-09 01:29:17 +00:00
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Period(mode_params.start_of_hsync, mode_params.end_of_hsync, crt_.output_sync);
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Period(mode_params.end_of_hsync, mode_params.line_length, crt_.output_blank);
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2019-10-09 01:18:08 +00:00
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}
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}
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if(x == mode_params.line_length) {
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x = 0;
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y = (y + 1) % mode_params.lines_per_frame;
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}
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}
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#undef Period
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}
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void Video::output_border(int duration) {
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uint16_t *colour_pointer = reinterpret_cast<uint16_t *>(crt_.begin_data(1));
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if(colour_pointer) *colour_pointer = 0x333;
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crt_.output_level(duration);
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2019-10-05 01:34:15 +00:00
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}
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2019-10-09 02:29:58 +00:00
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bool Video::hsync() {
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const auto mode_params = mode_params_for_mode();
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return x >= mode_params.start_of_hsync && x < mode_params.end_of_hsync;
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}
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bool Video::vsync() {
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return y < 3;
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}
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bool Video::display_enabled() {
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const auto mode_params = mode_params_for_mode();
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return y >= mode_params.first_video_line && y < mode_params.final_video_line && x >= mode_params.start_of_display_enable && x < mode_params.end_of_display_enable;
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}
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HalfCycles Video::get_next_sequence_point() {
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// The next hsync transition will occur either this line or the next.
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const auto mode_params = mode_params_for_mode();
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HalfCycles cycles_until_hsync;
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if(x < mode_params.start_of_hsync) {
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cycles_until_hsync = HalfCycles(mode_params.start_of_hsync - x);
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} else if(x < mode_params.end_of_hsync) {
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cycles_until_hsync = HalfCycles(mode_params.end_of_hsync - x);
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} else {
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cycles_until_hsync = HalfCycles(mode_params.start_of_hsync + mode_params.line_length - x);
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}
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// The next vsync transition depends purely on the current y.
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HalfCycles cycles_until_vsync;
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if(y < 3) {
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cycles_until_vsync = HalfCycles(mode_params.line_length - x + (2 - y)*mode_params.line_length);
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} else {
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cycles_until_vsync = HalfCycles(mode_params.line_length - x + (mode_params.lines_per_frame - 1 - y)*mode_params.line_length);
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}
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// The next display enable transition will occur only in the visible area.
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HalfCycles cycles_until_display_enable;
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if(display_enabled()) {
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cycles_until_display_enable = HalfCycles(mode_params.end_of_display_enable - x);
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} else {
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const auto horizontal_cycles = mode_params.start_of_display_enable - x;
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int vertical_lines = 0;
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if(y < mode_params.first_video_line) {
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vertical_lines = mode_params.first_video_line - y;
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} else if(y >= mode_params.final_video_line ) {
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vertical_lines = mode_params.first_video_line + mode_params.lines_per_frame - y;
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}
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2019-10-09 03:06:50 +00:00
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if(horizontal_cycles < 0) ++vertical_lines;
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2019-10-09 02:29:58 +00:00
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cycles_until_display_enable = HalfCycles(horizontal_cycles + vertical_lines * mode_params.line_length);
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}
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// Determine the minimum of the three
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if(cycles_until_hsync < cycles_until_vsync && cycles_until_hsync < cycles_until_display_enable) {
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return cycles_until_hsync;
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} else {
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return (cycles_until_vsync < cycles_until_display_enable) ? cycles_until_vsync : cycles_until_display_enable;
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}
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}
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