mirror of
https://github.com/MoleskiCoder/EightBit.git
synced 2024-11-19 02:08:25 +00:00
22506ea56c
Signed-off-by: Adrian Conlon <adrian.conlon@gmail.com>
474 lines
12 KiB
C++
474 lines
12 KiB
C++
#include "stdafx.h"
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#include "FuseTestRunner.h"
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#include "Disassembler.h"
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#include <stdexcept>
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#include <boost/algorithm/string/predicate.hpp>
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Fuse::TestRunner::TestRunner(const Test& test, const ExpectedTestResult& result)
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: m_test(test),
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m_result(result),
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m_cpu(*this),
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m_totalCycles(0) {
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for (const auto& event : m_result.events.events) {
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if (!boost::algorithm::ends_with(event.specifier, "C"))
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m_expectedEvents.events.push_back(event);
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}
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m_cpu.ExecutedInstruction.connect([this](EightBit::Z80& cpu) {
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m_totalCycles += cpu.cycles();
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std::cout << "**** Cycle count: " << cpu.cycles() << std::endl;
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});
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m_cpu.ReadMemory.connect([this](EightBit::EventArgs&) {
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addActualEvent("MR");
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});
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m_cpu.WrittenMemory.connect([this](EightBit::EventArgs&) {
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addActualEvent("MW");
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});
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m_cpu.ReadIO.connect([this](EightBit::EventArgs&) {
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addActualEvent("PR");
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});
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m_cpu.WrittenIO.connect([this](EightBit::EventArgs&) {
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addActualEvent("PW");
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});
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}
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void Fuse::TestRunner::addActualEvent(const std::string& specifier) {
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TestEvent actual;
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actual.address = ADDRESS().word;
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actual.cycles = m_totalCycles + m_cpu.cycles();
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actual.specifier = specifier;
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if (!boost::algorithm::ends_with(specifier, "C"))
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actual.value = DATA();
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actual.valid = true;
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m_actualEvents.events.push_back(actual);
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}
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//
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void Fuse::TestRunner::raisePOWER() {
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EightBit::Bus::raisePOWER();
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m_cpu.raisePOWER();
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m_cpu.raiseRESET();
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m_cpu.raiseINT();
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m_cpu.raiseNMI();
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initialiseRegisters();
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}
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void Fuse::TestRunner::lowerPOWER() {
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m_cpu.lowerPOWER();
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EightBit::Bus::lowerPOWER();
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}
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EightBit::MemoryMapping Fuse::TestRunner::mapping(uint16_t address) noexcept {
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const bool memory = m_cpu.requestingMemory();
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if (memory)
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return {
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m_ram,
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0x0000,
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0xffff,
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EightBit::MemoryMapping::AccessLevel::ReadWrite
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};
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const bool io = m_cpu.requestingIO();
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if (io) {
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m_ports.accessType() = EightBit::InputOutput::AccessType::Unknown;
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const bool reading = m_cpu.requestingRead();
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if (reading)
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m_ports.accessType() = EightBit::InputOutput::AccessType::Reading;
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const bool writing = m_cpu.requestingWrite();
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if (writing)
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m_ports.accessType() = EightBit::InputOutput::AccessType::Writing;
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return {
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m_ports,
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0x0000,
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0xff,
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EightBit::MemoryMapping::AccessLevel::ReadWrite
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};
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}
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}
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void Fuse::TestRunner::initialise() {
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initialiseMemory();
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}
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void Fuse::TestRunner::initialiseRegisters() {
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const auto& testState = m_test.registerState;
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const auto& inputRegisters = testState.registers;
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m_cpu.AF() = inputRegisters[Fuse::RegisterState::AF_];
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m_cpu.BC() = inputRegisters[Fuse::RegisterState::BC_];
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m_cpu.DE() = inputRegisters[Fuse::RegisterState::DE_];
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m_cpu.HL() = inputRegisters[Fuse::RegisterState::HL_];
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m_cpu.exx();
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m_cpu.exxAF();
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m_cpu.AF() = inputRegisters[Fuse::RegisterState::AF];
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m_cpu.BC() = inputRegisters[Fuse::RegisterState::BC];
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m_cpu.DE() = inputRegisters[Fuse::RegisterState::DE];
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m_cpu.HL() = inputRegisters[Fuse::RegisterState::HL];
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m_cpu.IX() = inputRegisters[Fuse::RegisterState::IX];
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m_cpu.IY() = inputRegisters[Fuse::RegisterState::IY];
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m_cpu.SP() = inputRegisters[Fuse::RegisterState::SP];
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m_cpu.PC() = inputRegisters[Fuse::RegisterState::PC];
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m_cpu.MEMPTR() = inputRegisters[Fuse::RegisterState::MEMPTR];
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m_cpu.IV() = testState.i;
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m_cpu.REFRESH() = testState.r;
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m_cpu.IFF1() = testState.iff1;
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m_cpu.IFF2() = testState.iff2;
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m_cpu.IM() = testState.im;
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}
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void Fuse::TestRunner::initialiseMemory() {
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for (auto memoryDatum : m_test.memoryData) {
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auto address = memoryDatum.address;
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auto bytes = memoryDatum.bytes;
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for (int i = 0; i < bytes.size(); ++i)
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m_ram.poke(address + i, bytes[i]);
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}
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}
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//
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void Fuse::TestRunner::check() {
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checkRegisters();
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checkMemory();
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checkEvents();
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}
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void Fuse::TestRunner::dumpDifference(const std::string& description, uint8_t actual, uint8_t expected) const {
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std::cerr
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<< "**** " << description << ", Expected: "
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<< EightBit::Disassembler::hex(expected)
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<< ", Got: "
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<< EightBit::Disassembler::hex(actual)
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<< std::endl;
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}
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void Fuse::TestRunner::dumpDifference(
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const std::string& highDescription,
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const std::string& lowDescription,
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EightBit::register16_t actual, EightBit::register16_t expected) const {
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auto expectedHigh = expected.high;
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auto expectedLow = expected.low;
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auto actualHigh = actual.high;
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auto actualLow = actual.low;
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if (expectedHigh != actualHigh)
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dumpDifference(highDescription, actualHigh, expectedHigh);
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if (expectedLow != actualLow)
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dumpDifference(lowDescription, actualLow, expectedLow);
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}
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void Fuse::TestRunner::checkRegisters() {
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const auto& expectedState = m_result.registerState;
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const auto& expectedRegisters = expectedState.registers;
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auto af = m_cpu.AF() == expectedRegisters[Fuse::RegisterState::AF];
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auto bc = m_cpu.BC() == expectedRegisters[Fuse::RegisterState::BC];
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auto de = m_cpu.DE() == expectedRegisters[Fuse::RegisterState::DE];
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auto hl = m_cpu.HL() == expectedRegisters[Fuse::RegisterState::HL];
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m_cpu.exx();
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m_cpu.exxAF();
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auto af_ = m_cpu.AF() == expectedRegisters[Fuse::RegisterState::AF_];
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auto bc_ = m_cpu.BC() == expectedRegisters[Fuse::RegisterState::BC_];
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auto de_ = m_cpu.DE() == expectedRegisters[Fuse::RegisterState::DE_];
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auto hl_ = m_cpu.HL() == expectedRegisters[Fuse::RegisterState::HL_];
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auto ix = m_cpu.IX() == expectedRegisters[Fuse::RegisterState::IX];
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auto iy = m_cpu.IY() == expectedRegisters[Fuse::RegisterState::IY];
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auto sp = m_cpu.SP() == expectedRegisters[Fuse::RegisterState::SP];
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auto pc = m_cpu.PC() == expectedRegisters[Fuse::RegisterState::PC];
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auto memptr = m_cpu.MEMPTR() == expectedRegisters[Fuse::RegisterState::MEMPTR];
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auto iv = m_cpu.IV() == expectedState.i;
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auto refresh = m_cpu.REFRESH() == expectedState.r;
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auto iff1 = m_cpu.IFF1() == expectedState.iff1;
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auto iff2 = m_cpu.IFF2() == expectedState.iff2;
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auto im = m_cpu.IM() == expectedState.im;
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// And back again, so the following works as expected...
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m_cpu.exx();
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m_cpu.exxAF();
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auto success =
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af && bc && de && hl
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&& af_ && bc_ && de_ && hl_
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&& ix && iy
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&& sp && pc
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&& iv && refresh
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&& iff1 && iff2
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&& im
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&& memptr;
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if (!success) {
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m_failed = true;
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std::cerr << "**** Failed test (Register): " << m_test.description << std::endl;
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if (!af) {
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auto expectedA = expectedRegisters[Fuse::RegisterState::AF].high;
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auto gotA = m_cpu.A();
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if (expectedA != gotA)
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dumpDifference("A", gotA, expectedA);
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auto expectedF = expectedRegisters[Fuse::RegisterState::AF].low;
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auto gotF = m_cpu.F();
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if (expectedF != gotF) {
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std::cerr
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<< "**** F, Expected: "
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<< EightBit::Disassembler::flags(expectedF)
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<< ", Got: "
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<< EightBit::Disassembler::flags(gotF)
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<< std::endl;
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}
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}
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if (!bc) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::BC];
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auto actualWord = m_cpu.BC();
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dumpDifference("B", "C", actualWord, expectedWord);
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}
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if (!de) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::DE];
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auto actualWord = m_cpu.DE();
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dumpDifference("D", "E", actualWord, expectedWord);
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}
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if (!hl) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::HL];
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auto actualWord = m_cpu.HL();
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dumpDifference("H", "L", actualWord, expectedWord);
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}
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if (!ix) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::IX];
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auto actualWord = m_cpu.IX();
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dumpDifference("IXH", "IXL", actualWord, expectedWord);
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}
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if (!iy) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::IY];
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auto actualWord = m_cpu.IY();
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dumpDifference("IYH", "IYL", actualWord, expectedWord);
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}
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if (!sp) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::SP];
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auto actualWord = m_cpu.SP();
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dumpDifference("SPH", "SPL", actualWord, expectedWord);
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}
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if (!pc) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::PC];
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auto actualWord = m_cpu.PC();
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dumpDifference("PCH", "PCL", actualWord, expectedWord);
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}
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if (!memptr) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::MEMPTR];
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auto actualWord = m_cpu.MEMPTR();
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dumpDifference("MEMPTRH", "MEMPTRL", actualWord, expectedWord);
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}
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m_cpu.exxAF();
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m_cpu.exx();
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if (!af_) {
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auto expectedA_ = expectedRegisters[Fuse::RegisterState::AF_].high;
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auto gotA_ = m_cpu.A();
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if (expectedA_ != gotA_)
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dumpDifference("A'", gotA_, expectedA_);
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auto expectedF_ = expectedRegisters[Fuse::RegisterState::AF_].low;
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auto gotF_ = m_cpu.F();
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if (expectedF_ != gotF_) {
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std::cerr
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<< "**** F', Expected: "
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<< EightBit::Disassembler::flags(expectedF_)
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<< ", Got: "
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<< EightBit::Disassembler::flags(gotF_)
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<< std::endl;
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}
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}
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if (!bc_) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::BC_];
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auto actualWord = m_cpu.BC();
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dumpDifference("B'", "C'", actualWord, expectedWord);
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}
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if (!de_) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::DE_];
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auto actualWord = m_cpu.DE();
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dumpDifference("D'", "E'", actualWord, expectedWord);
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}
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if (!hl_) {
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auto expectedWord = expectedRegisters[Fuse::RegisterState::HL_];
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auto actualWord = m_cpu.HL();
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dumpDifference("H'", "L'", actualWord, expectedWord);
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}
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if (!iv) {
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std::cerr
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<< "**** IV, Expected: "
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<< EightBit::Disassembler::hex((uint8_t)expectedState.i)
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<< ", Got: "
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<< EightBit::Disassembler::hex(m_cpu.IV())
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<< std::endl;
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}
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if (!refresh) {
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std::cerr
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<< "**** R, Expected: "
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<< EightBit::Disassembler::hex((uint8_t)expectedState.r)
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<< ", Got: "
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<< EightBit::Disassembler::hex((uint8_t)m_cpu.REFRESH())
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<< std::endl;
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}
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if (!iff1) {
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std::cerr
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<< "**** IFF1, Expected: "
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<< (bool)expectedState.iff1
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<< ", Got: "
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<< m_cpu.IFF1()
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<< std::endl;
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}
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if (!iff2) {
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std::cerr
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<< "**** IFF2, Expected: "
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<< (bool)expectedState.iff2
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<< ", Got: "
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<< m_cpu.IFF2()
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<< std::endl;
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}
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if (!im) {
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std::cerr
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<< "**** IM, Expected: "
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<< expectedState.im
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<< ", Got: "
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<< m_cpu.IM()
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<< std::endl;
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}
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}
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}
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void Fuse::TestRunner::checkMemory() {
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bool first = true;
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for (auto memoryDatum : m_result.memoryData) {
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auto bytes = memoryDatum.bytes;
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for (int i = 0; i < bytes.size(); ++i) {
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auto expected = bytes[i];
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uint16_t address = memoryDatum.address + i;
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auto actual = m_ram.peek(address);
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if (expected != actual) {
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m_failed = true;
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if (first) {
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first = false;
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std::cerr << "**** Failed test (Memory): " << m_test.description << std::endl;
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}
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std::cerr
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<< "**** Difference: "
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<< "Address: " << EightBit::Disassembler::hex(address)
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<< " Expected: " << EightBit::Disassembler::hex(expected)
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<< " Actual: " << EightBit::Disassembler::hex(actual)
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<< std::endl;
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}
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}
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}
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}
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void Fuse::TestRunner::checkEvents() {
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const auto& expectations = m_expectedEvents.events;
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const auto& actuals = m_actualEvents.events;
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auto eventFailure = expectations.size() != actuals.size();
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for (auto i = 0; !eventFailure && (i < expectations.size()); ++i) {
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const auto& expectation = expectations[i];
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const auto& actual = actuals[i];
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const auto equalCycles = expectation.cycles == actual.cycles;
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const auto equalSpecifier = expectation.specifier == actual.specifier;
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const auto equalAddress = expectation.address == actual.address;
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const auto equalValue = expectation.value == actual.value;
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const auto equal = equalCycles && equalSpecifier && equalAddress && equalValue;
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eventFailure = !equal;
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}
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if (eventFailure) {
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dumpExpectedEvents();
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dumpActualEvents();
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}
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if (!m_failed)
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m_failed = eventFailure;
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}
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void Fuse::TestRunner::dumpExpectedEvents() const {
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std::cerr << "++++ Dumping expected events:" << std::endl;
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dumpEvents(m_expectedEvents.events);
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}
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void Fuse::TestRunner::dumpActualEvents() const {
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std::cerr << "++++ Dumping actual events:" << std::endl;
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dumpEvents(m_actualEvents.events);
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}
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void Fuse::TestRunner::dumpEvents(const std::vector<TestEvent>& events) {
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for (const auto& event : events) {
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dumpEvent(event);
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}
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}
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void Fuse::TestRunner::dumpEvent(const TestEvent& event) {
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std::cerr << " Event issue " <<
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"Cycles = " << event.cycles <<
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", Specifier = " << event.specifier <<
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", Address = " << EightBit::Disassembler::hex((uint16_t)event.address);
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if (!boost::algorithm::ends_with(event.specifier, "C"))
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std::cerr << ", Value=" << EightBit::Disassembler::hex((uint8_t)event.value);
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std::cerr << std::endl;
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}
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void Fuse::TestRunner::run() {
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raisePOWER();
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initialise();
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auto allowedCycles = m_test.registerState.tstates;
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try {
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m_cpu.run(allowedCycles);
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check();
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} catch (std::logic_error& error) {
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m_unimplemented = true;
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std::cerr << "**** Error: " << error.what() << std::endl;
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}
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}
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