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387 lines
8.5 KiB
Plaintext
387 lines
8.5 KiB
Plaintext
//
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// MasterSystemVDPTests.m
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// Clock SignalTests
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//
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// Created by Thomas Harte on 09/10/2018.
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// Copyright © 2018 Thomas Harte. All rights reserved.
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//
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#import <XCTest/XCTest.h>
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#include <memory>
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#include "../../../Machines/Atari/ST/Video.hpp"
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// Implement Atari::ST::Video's friend class, to expose some
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// internal state.
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struct VideoTester {
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static bool vsync(Atari::ST::Video &video) {
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return video.vertical_.sync;
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}
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};
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@interface AtariSTVideoTests : XCTestCase
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@end
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@implementation AtariSTVideoTests {
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std::unique_ptr<Atari::ST::Video> _video;
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uint16_t _ram[256*1024];
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}
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// MARK: - Setup and tear down.
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- (void)setUp {
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[super setUp];
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// Establish an instance of video.
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_video = std::make_unique<Atari::ST::Video>();
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_video->set_ram(_ram, sizeof(_ram));
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}
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- (void)tearDown {
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[super tearDown];
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// Release the video instance.
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_video = nullptr;
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}
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// MARK: - Helpers
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- (void)runVideoForCycles:(int)cycles {
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while(cycles--) {
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_video->run_for(Cycles(1));
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}
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}
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- (void)syncToStartOfLine {
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// Run until the visible fetch address changes, to get to the start of the pixel zone.
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const uint32_t original_address = [self currentVideoAddress];
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while(original_address == [self currentVideoAddress]) {
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_video->run_for(Cycles(1));
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}
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// Run until start of hsync.
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while(!_video->hsync()) {
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_video->run_for(Cycles(1));
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}
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// Run until end of hsync.
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while(_video->hsync()) {
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_video->run_for(Cycles(1));
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}
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}
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- (void)setFrequency:(int)frequency {
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switch(frequency) {
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default:
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case 50: _video->write(0x05, 0x200); _video->write(0x30, 0x000); break;
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case 60: _video->write(0x05, 0x000); _video->write(0x30, 0x000); break;
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case 72: _video->write(0x30, 0x200); break;
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}
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}
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- (uint32_t)currentVideoAddress {
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return
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(_video->read(0x04) & 0xff) |
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((_video->read(0x03) & 0xff) << 8) |
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((_video->read(0x02) & 0xff) << 16);
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}
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- (void)setVideoBaseAddress:(uint32_t)baseAddress {
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_video->write(0x00, baseAddress >> 16);
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_video->write(0x01, baseAddress >> 8);
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}
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// MARK: - Sequence Point Prediction Tests
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/// Tests that no events occur outside of the sequence points the video predicts.
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- (void)testSequencePoints50 {
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// Set 4bpp, 50Hz.
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_video->write(0x05, 0x0200);
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_video->write(0x30, 0x0000);
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[self runSequencePointsTest];
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}
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- (void)testSequencePoints72 {
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// Set 1bpp, 72Hz.
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_video->write(0x30, 0x0200);
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[self runSequencePointsTest];
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}
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- (void)runSequencePointsTest {
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// Run for [more than] two frames making sure that no observeable outputs
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// change at any time other than a sequence point.
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HalfCycles next_event;
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bool display_enable = false;
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bool vsync = false;
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bool hsync = false;
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for(size_t c = 0; c < 8000000 / 20; ++c) {
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const bool is_transition_point = next_event == HalfCycles(0);
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if(is_transition_point) {
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display_enable = _video->display_enabled();
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vsync = _video->vsync();
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hsync = _video->hsync();
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next_event = _video->get_next_sequence_point();
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} else {
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NSAssert(display_enable == _video->display_enabled(), @"Unannounced change in display enabled at cycle %zu [%d before next sequence point]", c, next_event.as<int>());
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NSAssert(vsync == _video->vsync(), @"Unannounced change in vsync at cycle %zu [%d before next sequence point]", c, next_event.as<int>());
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NSAssert(hsync == _video->hsync(), @"Unannounced change in hsync at cycle %zu [%d before next sequence point]", c, next_event.as<int>());
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}
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_video->run_for(HalfCycles(2));
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next_event -= HalfCycles(2);
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}
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}
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// MARK: - Sync Line Length Tests
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struct RunLength {
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int frequency;
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int length;
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};
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- (void)testSequence:(const RunLength *)sequence targetLength:(int)duration {
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[self syncToStartOfLine];
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const uint32_t start_address = [self currentVideoAddress];
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while(sequence->frequency != -1) {
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[self setFrequency:sequence->frequency];
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[self runVideoForCycles:sequence->length];
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++sequence;
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}
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const uint32_t final_address = [self currentVideoAddress];
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XCTAssertEqual(final_address - start_address, duration);
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}
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- (void)testLineLength54 {
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// Run as though a regular 50Hz line at least until cycle 52;
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// then switch to 72 Hz by 164, and allow the line to finish.
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const RunLength test[] = {
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{50, 60},
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{72, 452},
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{-1}
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};
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[self testSequence:test targetLength:54];
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}
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- (void)testLineLength56 {
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// Run as though a regular 60Hz line at least until cycle 52;
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// then switch to 72 Hz by 164, and allow the line to finish.
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const RunLength test[] = {
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{60, 60},
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{72, 452},
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{-1}
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};
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[self testSequence:test targetLength:56];
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}
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- (void)testLineLength80 {
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// Run a standard 72Hz line.
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const RunLength test[] = {
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{72, 224},
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{-1}
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};
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[self testSequence:test targetLength:80];
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}
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- (void)testLineLengthLong80 {
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// Run a 72Hz line with a switch through 50Hz to extend the length to 512 cycles.
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const RunLength test[] = {
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{72, 50},
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{50, 20},
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{72, 442},
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{-1}
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};
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[self testSequence:test targetLength:80];
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}
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- (void)testLineLength158 {
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// Transition from 50Hz to 60Hz mid-line.
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const RunLength test[] = {
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{50, 60},
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{60, 458},
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{-1}
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};
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[self testSequence:test targetLength:158];
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}
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- (void)testLineLength160_60Hz {
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const RunLength test[] = {
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{60, 508},
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{-1}
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};
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[self testSequence:test targetLength:160];
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}
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- (void)testLineLength160_50Hz {
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const RunLength test[] = {
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{50, 512},
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{-1}
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};
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[self testSequence:test targetLength:160];
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}
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- (void)testLineLength162 {
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// Transition from 60Hz to 50Hz mid-line.
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const RunLength test[] = {
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{60, 54},
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{50, 458},
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{-1}
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};
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[self testSequence:test targetLength:162];
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}
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- (void)testLineLength184 {
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// Start off in 72Hz, switch to 60 during pixels.
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const RunLength test[] = {
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{72, 8},
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{60, 500},
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{-1}
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};
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[self testSequence:test targetLength:184];
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}
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- (void)testLineLength186 {
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// Start off in 72Hz, switch to 50 during pixels.
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const RunLength test[] = {
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{72, 8},
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{50, 504},
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{-1}
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};
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[self testSequence:test targetLength:186];
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}
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- (void)testLineLength204 {
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// Start in 50Hz, avoid DE disable.
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const RunLength test[] = {
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{50, 374},
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{60, 138},
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{-1}
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};
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[self testSequence:test targetLength:204];
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}
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- (void)testLineLength206 {
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// Start in 60Hz, get a 50Hz line length, avoid DE disable.
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const RunLength test[] = {
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{60, 53},
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{50, 3}, // To 56.
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{60, 314}, // 370.
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{50, 4}, // 374.
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{60, 138}, // 512.
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{-1}
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};
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[self testSequence:test targetLength:206];
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}
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- (void)testLineLength230 {
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// Start in 72Hz, avoid DE disable.
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const RunLength test[] = {
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{72, 8},
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{50, 366},
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{60, 138},
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{-1}
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};
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[self testSequence:test targetLength:230];
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}
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// MARK: - Address Reload Timing tests
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/// Tests that the current video address is reloaded constantly throughout vsync (subject to caveat: observed .
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- (void)testVsyncReload {
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// Set an initial video address of 0.
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[self setVideoBaseAddress:0];
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// Find next area of non-vsync.
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while(VideoTester::vsync(*_video)) {
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_video->run_for(Cycles(1));
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}
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// Set a different base video address.
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[self setVideoBaseAddress:0x800000];
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// Find next area of vsync, checking that the address isn't
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// reloaded before then.
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while(!VideoTester::vsync(*_video)) {
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XCTAssertNotEqual([self currentVideoAddress], 0x800000);
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_video->run_for(Cycles(1));
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}
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// Vsync has now started, test that video address has been set.
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XCTAssertEqual([self currentVideoAddress], 0x800000);
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// Run a few cycles, set a different video base address,
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// confirm that has been set.
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[self runVideoForCycles:200];
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XCTAssertEqual([self currentVideoAddress], 0x800000);
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[self setVideoBaseAddress:0xc00000];
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[self runVideoForCycles:1];
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XCTAssertEqual([self currentVideoAddress], 0xc00000);
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// Find end of vertical sync, set a different base address,
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// check that it doesn't become current.
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while(VideoTester::vsync(*_video)) {
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_video->run_for(Cycles(1));
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}
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[self setVideoBaseAddress:0];
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[self runVideoForCycles:1];
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XCTAssertNotEqual([self currentVideoAddress], 0);
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}
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// MARK: - Tests Relating To Specific Bugs
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- (void)test72LineLength {
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// Set 1bpp, 72Hz.
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_video->write(0x30, 0x0200);
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[self syncToStartOfLine];
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_video->run_for(HalfCycles(400)); // 392, 399, 406
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}
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// MARK: - Tests Correlating To Exact Pieces of Software
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- (void)testUnionDemoScroller {
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const RunLength test[] = {
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{72, 8},
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{50, 365},
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{60, 8},
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{50, 59},
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{72, 12},
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{50, 60},
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{-1}
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};
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[self testSequence:test targetLength:230];
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}
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- (void)testPP88 {
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// Test a full line.
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{
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const RunLength test[] = {
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{72, 8},
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{50, 364},
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{60, 16},
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{50, 116},
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{72, 8},
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{-1}
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};
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[self testSequence:test targetLength:230];
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}
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{
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const RunLength test[] = {
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{72, 8},
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{496, 50},
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{72, 8},
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{-1}
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};
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[self testSequence:test targetLength:186];
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}
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}
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@end
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