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159 lines
5.0 KiB
Plaintext
159 lines
5.0 KiB
Plaintext
//
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// SpectrumVideoContentionTests.cpp
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// Clock SignalTests
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//
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// Created by Thomas Harte on 23/4/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#import <XCTest/XCTest.h>
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#include "../../../Machines/Sinclair/ZXSpectrum/Video.hpp"
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@interface SpectrumVideoContentionTests : XCTestCase
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@end
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@implementation SpectrumVideoContentionTests
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struct ContentionAnalysis {
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int time_after_interrupt = 0;
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int contended_lines = 0;
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int contention_length = 0;
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int line_length = 0;
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int total_lines = 0;
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HalfCycles pattern[8];
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};
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using Timing = Sinclair::ZXSpectrum::Video::Timing;
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template <Timing video_timing> ContentionAnalysis analyse() {
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Sinclair::ZXSpectrum::Video::Video<video_timing> video;
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ContentionAnalysis analysis;
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// Advance to the start of the first interrupt.
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while(video.get_interrupt_line()) {
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video.run_for(HalfCycles(1));
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}
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while(!video.get_interrupt_line()) {
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video.run_for(HalfCycles(1));
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}
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// Count half cycles until first non-zero contended time.
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while(video.access_delay(HalfCycles(0)) == HalfCycles(0)) {
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video.run_for(HalfCycles(2));
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analysis.time_after_interrupt += 2;
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}
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// Grab the contention pattern.
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for(int c = 0; c < 8; c++) {
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analysis.pattern[c] = video.access_delay(HalfCycles(0));
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video.run_for(HalfCycles(2));
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}
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// Figure out how long contention goes on for.
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int c = 0;
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analysis.contention_length = 16; // For the 16 just skipped.
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do {
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analysis.contention_length += 2;
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video.run_for(HalfCycles(2));
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c++;
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} while(analysis.pattern[c&7] == video.access_delay(HalfCycles(0)));
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// Look for next start of contention to determine line length.
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analysis.line_length = analysis.contention_length;
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while(video.access_delay(HalfCycles(0)) == HalfCycles(0)) {
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video.run_for(HalfCycles(2));
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analysis.line_length += 2;
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}
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// Count contended lines.
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analysis.contended_lines = 1;
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while(video.access_delay(HalfCycles(0)) == analysis.pattern[0]) {
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video.run_for(HalfCycles(analysis.line_length));
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++analysis.contended_lines;
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}
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// Count total lines.
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analysis.total_lines = analysis.contended_lines;
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while(video.access_delay(HalfCycles(0)) != analysis.pattern[0]) {
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video.run_for(HalfCycles(analysis.line_length));
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++analysis.total_lines;
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}
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return analysis;
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}
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- (void)test48k {
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const auto analysis = analyse<Timing::FortyEightK>();
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// Check time from interrupt.
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XCTAssertEqual(analysis.time_after_interrupt, 14335*2);
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// Check contention pattern.
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XCTAssertEqual(analysis.pattern[0], HalfCycles(6 * 2));
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XCTAssertEqual(analysis.pattern[1], HalfCycles(5 * 2));
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XCTAssertEqual(analysis.pattern[2], HalfCycles(4 * 2));
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XCTAssertEqual(analysis.pattern[3], HalfCycles(3 * 2));
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XCTAssertEqual(analysis.pattern[4], HalfCycles(2 * 2));
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XCTAssertEqual(analysis.pattern[5], HalfCycles(1 * 2));
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XCTAssertEqual(analysis.pattern[6], HalfCycles(0 * 2));
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XCTAssertEqual(analysis.pattern[7], HalfCycles(0 * 2));
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// Check line length and count.
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XCTAssertEqual(analysis.contention_length, 128*2);
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XCTAssertEqual(analysis.line_length, 224*2);
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XCTAssertEqual(analysis.contended_lines, 192);
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XCTAssertEqual(analysis.total_lines, 312);
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}
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- (void)test128k {
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const auto analysis = analyse<Timing::OneTwoEightK>();
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// Check time from interrupt.
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XCTAssertEqual(analysis.time_after_interrupt, 14361*2);
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// Check contention pattern.
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XCTAssertEqual(analysis.pattern[0], HalfCycles(6 * 2));
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XCTAssertEqual(analysis.pattern[1], HalfCycles(5 * 2));
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XCTAssertEqual(analysis.pattern[2], HalfCycles(4 * 2));
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XCTAssertEqual(analysis.pattern[3], HalfCycles(3 * 2));
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XCTAssertEqual(analysis.pattern[4], HalfCycles(2 * 2));
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XCTAssertEqual(analysis.pattern[5], HalfCycles(1 * 2));
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XCTAssertEqual(analysis.pattern[6], HalfCycles(0 * 2));
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XCTAssertEqual(analysis.pattern[7], HalfCycles(0 * 2));
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// Check line length and count.
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XCTAssertEqual(analysis.contention_length, 128*2);
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XCTAssertEqual(analysis.line_length, 228*2);
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XCTAssertEqual(analysis.contended_lines, 192);
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XCTAssertEqual(analysis.total_lines, 311);
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}
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- (void)testPlus3 {
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const auto analysis = analyse<Timing::Plus3>();
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// Check time from interrupt.
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XCTAssertEqual(analysis.time_after_interrupt, 14361*2);
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// Check contention pattern.
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XCTAssertEqual(analysis.pattern[0], HalfCycles(1 * 2));
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XCTAssertEqual(analysis.pattern[1], HalfCycles(0 * 2));
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XCTAssertEqual(analysis.pattern[2], HalfCycles(7 * 2));
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XCTAssertEqual(analysis.pattern[3], HalfCycles(6 * 2));
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XCTAssertEqual(analysis.pattern[4], HalfCycles(5 * 2));
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XCTAssertEqual(analysis.pattern[5], HalfCycles(4 * 2));
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XCTAssertEqual(analysis.pattern[6], HalfCycles(3 * 2));
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XCTAssertEqual(analysis.pattern[7], HalfCycles(2 * 2));
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// Check line length and count.
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XCTAssertEqual(analysis.contention_length, 130*2); // By the manner used for detection above,
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// the first obviously missing contention spot
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// will be after 130 cycles, not the textbook 129,
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// because cycle 130 is a delay of 0 either way.
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XCTAssertEqual(analysis.line_length, 228*2);
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XCTAssertEqual(analysis.contended_lines, 192);
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XCTAssertEqual(analysis.total_lines, 311);
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}
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@end
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