1
0
mirror of https://github.com/TomHarte/CLK.git synced 2024-12-29 13:29:46 +00:00
CLK/OSBindings/Mac/Clock SignalTests/AmigaBlitterTests.mm

189 lines
4.7 KiB
Plaintext

//
// AmigaBlitterTests.m
// Clock SignalTests
//
// Created by Thomas Harte on 25/09/2021.
// Copyright © 2021 Thomas Harte. All rights reserved.
//
#import <XCTest/XCTest.h>
#include "Blitter.hpp"
#include <vector>
namespace Amiga {
/// An empty stub to satisfy Amiga::Blitter's inheritance from Amiga::DMADevice;
struct Chipset {};
};
@interface AmigaBlitterTests: XCTestCase
@end
@implementation AmigaBlitterTests
- (void)testKickstart13BootLogo {
uint16_t ram[256 * 1024]{};
Amiga::Chipset nonChipset;
Amiga::Blitter blitter(nonChipset, ram, 256 * 1024);
NSURL *const traceURL = [[NSBundle bundleForClass:[self class]] URLForResource:@"kickstart13 boot logo" withExtension:@"json"];
NSData *const traceData = [NSData dataWithContentsOfURL:traceURL];
NSArray *const trace = [NSJSONSerialization JSONObjectWithData:traceData options:0 error:nil];
// Step 1 in developing my version of the Blitter is to make sure that I understand
// the logic; as a result the first implementation is going to be a magical thing that
// completes all Blits in a single cycle.
//
// Therefore I've had to bodge my way around the trace's record of reads and writes by
// accumulating all writes into a blob and checking them en massse at the end of a blit
// (as detected by any register work in between memory accesses, since Kickstart 1.3
// doesn't do anything off-book).
enum class State {
AwaitingWrites,
LoggingWrites
} state = State::AwaitingWrites;
std::vector<std::pair<uint32_t, uint16_t>> writes;
BOOL hasFailed = NO;
for(NSArray *const event in trace) {
if(hasFailed) break;
NSString *const type = event[0];
const NSInteger param1 = [event[1] integerValue];
if([type isEqualToString:@"cread"] || [type isEqualToString:@"bread"] || [type isEqualToString:@"aread"]) {
ram[param1 >> 1] = [event[2] integerValue];
state = State::LoggingWrites;
continue;
}
if([type isEqualToString:@"write"]) {
const uint16_t value = uint16_t([event[2] integerValue]);
if(writes.empty() || writes.back().first != param1) {
writes.push_back(std::make_pair(uint32_t(param1), value));
} else {
writes.back().second = value;
}
state = State::LoggingWrites;
continue;
}
// Hackaround for testing my magical all-at-once Blitter is here.
if(state == State::LoggingWrites) {
// Run for however much time the Blitter wants.
while(blitter.get_status()) {
blitter.advance();
}
for(const auto &write: writes) {
XCTAssertEqual(ram[write.first >> 1], write.second, @"Didn't find %04x at address %08x; found %04x instead", write.second, write.first, ram[write.first >> 1]);
// For now, indicate only the first failure.
if(ram[write.first >> 1] != write.second) {
break;
// hasFailed = YES;
}
}
writes.clear();
state = State::AwaitingWrites;
}
// Hack ends here.
if([type isEqualToString:@"bltcon0"]) {
blitter.set_control(0, param1);
continue;
}
if([type isEqualToString:@"bltcon1"]) {
blitter.set_control(1, param1);
continue;
}
if([type isEqualToString:@"bltsize"]) {
blitter.set_size(param1);
continue;
}
if([type isEqualToString:@"bltafwm"]) {
blitter.set_first_word_mask(param1);
continue;
}
if([type isEqualToString:@"bltalwm"]) {
blitter.set_last_word_mask(param1);
continue;
}
if([type isEqualToString:@"bltadat"]) {
blitter.set_data(0, param1);
continue;
}
if([type isEqualToString:@"bltbdat"]) {
blitter.set_data(1, param1);
continue;
}
if([type isEqualToString:@"bltcdat"]) {
blitter.set_data(2, param1);
continue;
}
if([type isEqualToString:@"bltamod"]) {
blitter.set_modulo(0, param1);
continue;
}
if([type isEqualToString:@"bltbmod"]) {
blitter.set_modulo(1, param1);
continue;
}
if([type isEqualToString:@"bltcmod"]) {
blitter.set_modulo(2, param1);
continue;
}
if([type isEqualToString:@"bltdmod"]) {
blitter.set_modulo(3, param1);
continue;
}
if([type isEqualToString:@"bltaptl"]) {
blitter.set_pointer<0, 0>(param1);
continue;
}
if([type isEqualToString:@"bltbptl"]) {
blitter.set_pointer<1, 0>(param1);
continue;
}
if([type isEqualToString:@"bltcptl"]) {
blitter.set_pointer<2, 0>(param1);
continue;
}
if([type isEqualToString:@"bltdptl"]) {
blitter.set_pointer<3, 0>(param1);
continue;
}
if([type isEqualToString:@"bltapth"]) {
blitter.set_pointer<0, 16>(param1);
continue;
}
if([type isEqualToString:@"bltbpth"]) {
blitter.set_pointer<1, 16>(param1);
continue;
}
if([type isEqualToString:@"bltcpth"]) {
blitter.set_pointer<2, 16>(param1);
continue;
}
if([type isEqualToString:@"bltdpth"]) {
blitter.set_pointer<3, 16>(param1);
continue;
}
NSLog(@"Unhandled type: %@", type);
XCTAssert(false);
break;
}
}
@end