mirror of
https://github.com/MoleskiCoder/EightBit.git
synced 2024-12-28 01:29:18 +00:00
244 lines
7.3 KiB
C++
244 lines
7.3 KiB
C++
#include "stdafx.h"
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#include "checker_t.h"
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void checker_t::addActualCycle(const uint16_t address, const uint8_t value, const std::string action) {
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m_actualCycles.push_back({ address, value, action });
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}
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void checker_t::addActualCycle(const EightBit::register16_t address, const uint8_t value, const std::string action) {
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addActualCycle(address.word, value, action);
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}
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void checker_t::addActualReadCycle(const EightBit::register16_t address, const uint8_t value) {
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addActualCycle(address, value, "read");
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}
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void checker_t::addActualWriteCycle(const EightBit::register16_t address, const uint8_t value) {
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addActualCycle(address, value, "write");
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}
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void checker_t::dumpCycles(const std::string which, const actual_cycles_t& events) {
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m_messages.push_back(which);
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dumpCycles(events);
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}
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void checker_t::dumpCycles(const actual_cycles_t& cycles) {
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for (const auto& cycle : cycles)
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dumpCycle(cycle);
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}
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void checker_t::dumpCycle(const actual_cycle_t& cycle) {
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dumpCycle(std::get<0>(cycle), std::get<1>(cycle), std::get<2>(cycle));
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}
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void checker_t::dumpCycles(const std::string which, const cycles_t events) {
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m_messages.push_back(which);
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dumpCycles(events);
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}
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void checker_t::dumpCycles(const cycles_t cycles) {
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for (const auto cycle : cycles)
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dumpCycle(cycle_t(cycle));
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}
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void checker_t::dumpCycle(const cycle_t cycle) {
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dumpCycle(cycle.address(), cycle.value(), cycle.action());
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}
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void checker_t::raise(std::string_view what, const uint16_t expected, const uint16_t actual) {
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os()
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<< std::setw(2) << std::setfill(' ')
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<< what
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<< std::setw(4) << std::setfill('0')
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<< ": expected: " << (int)expected
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<< ", actual: " << (int)actual;
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pushCurrentMessage();
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}
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void checker_t::raise(std::string_view what, const uint8_t expected, const uint8_t actual) {
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os()
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<< std::setw(2) << std::setfill(' ')
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<< what
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<< std::setfill('0')
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<< ": expected: " << (int)expected
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<< " (" << EightBit::Disassembly::dump_Flags(expected) << ")"
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<< ", actual: " << (int)actual
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<< " (" << EightBit::Disassembly::dump_Flags(actual) << ")";
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pushCurrentMessage();
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}
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void checker_t::raise(std::string_view what, const std::string_view expected, const std::string_view actual) {
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os()
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<< std::setw(0) << std::setfill(' ')
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<< what
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<< ": expected: " << expected
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<< ", actual: " << actual;
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pushCurrentMessage();
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}
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bool checker_t::check(std::string_view what, const uint16_t address, const uint8_t expected, const uint8_t actual) {
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const auto success = actual == expected;
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if (!success) {
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os() << what << ": " << std::setw(4) << std::setfill('0') << (int)address;
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raise(os().str(), expected, actual);
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}
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return success;
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}
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checker_t::checker_t(TestRunner& runner)
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: m_runner(runner) {}
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void checker_t::initialiseState(const test_t test) {
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auto& cpu = runner().CPU();
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auto& ram = runner().RAM();
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const auto initial = test.initial();
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cpu.PC().word = initial.pc();
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cpu.S() = initial.s();
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cpu.A() = initial.a();
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cpu.X() = initial.x();
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cpu.Y() = initial.y();
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cpu.P() = initial.p();
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for (const auto entry : initial.ram()) {
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auto data = entry.begin();
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const auto address = uint16_t(int64_t(*data++));
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const auto value = uint8_t(int64_t(*data));
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ram.poke(address, value);
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}
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}
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void checker_t::initialise() {
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auto& bus = runner();
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bus.ReadByte.connect([this, &bus](EightBit::EventArgs&) {
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addActualReadCycle(bus.ADDRESS(), bus.DATA());
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});
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bus.WrittenByte.connect([this, &bus](EightBit::EventArgs&) {
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addActualWriteCycle(bus.ADDRESS(), bus.DATA());
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});
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os() << std::hex << std::uppercase;
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}
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//
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bool checker_t::checkState(test_t test) {
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auto& cpu = runner().CPU();
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auto& ram = runner().RAM();
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const auto expected_cycles = test.cycles();
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const auto& actual_cycles = m_actualCycles;
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m_cycle_count_mismatch = expected_cycles.size() != actual_cycles.size();
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if (m_cycle_count_mismatch)
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return false;
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size_t actual_idx = 0;
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for (const auto expected_cycle : expected_cycles) {
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auto expected_data = expected_cycle.begin();
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const auto& actual = actual_cycles.at(actual_idx++); // actual could be less than expected
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const auto expected_address = uint16_t(int64_t(*expected_data++));
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const auto actual_address = std::get<0>(actual);
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check("Cycle address", expected_address, actual_address);
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const auto expected_value = uint8_t(int64_t(*expected_data++));
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const auto actual_value = std::get<1>(actual);
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check("Cycle value", expected_value, actual_value);
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const auto expected_action = std::string_view(*expected_data);
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const auto& actual_action = std::get<2>(actual);
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check("Cycle action", expected_action, std::string_view(actual_action));
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}
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if (!m_messages.empty())
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return false;
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const auto final = test.final();
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const auto pc_good = check("PC", final.pc(), cpu.PC().word);
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const auto s_good = check("S", final.s(), cpu.S());
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const auto a_good = check("A", final.a(), cpu.A());
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const auto x_good = check("X", final.x(), cpu.X());
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const auto y_good = check("Y", final.y(), cpu.Y());
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const auto p_good = check("P", final.p(), cpu.P());
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bool ram_problem = false;
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for (const auto entry : final.ram()) {
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auto data = entry.begin();
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const auto address = uint16_t(int64_t(*data++));
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const auto value = uint8_t(int64_t(*data));
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const auto ram_good = check("RAM", address, value, ram.peek(address));
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if (!ram_good && !ram_problem)
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ram_problem = true;
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}
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return
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pc_good && s_good
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&& a_good && x_good && y_good && p_good
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&& !ram_problem;
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}
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//
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void checker_t::pushCurrentMessage() {
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m_messages.push_back(os().str());
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os().str("");
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}
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void checker_t::disassemble(uint16_t address) {
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try {
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os() << m_disassembler.disassemble(address);
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}
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catch (const std::domain_error& error) {
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os() << "Disassembly problem: " << error.what();
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}
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pushCurrentMessage();
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}
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void checker_t::check(test_t test) {
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auto& cpu = runner().CPU();
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m_messages.clear();
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m_actualCycles.clear();
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runner().raisePOWER();
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initialiseState(test);
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const auto pc = cpu.PC().word;
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const auto start_opcode = runner().peek(pc);
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m_cycles = cpu.step();
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runner().lowerPOWER();
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m_valid = checkState(test);
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if (unimplemented()) {
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m_messages.push_back("Unimplemented");
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return;
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}
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if (invalid() && implemented()) {
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disassemble(pc);
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const auto final = test.final();
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raise("PC", final.pc(), cpu.PC().word);
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raise("S", final.s(), cpu.S());
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raise("A", final.a(), cpu.A());
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raise("X", final.x(), cpu.X());
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raise("Y", final.y(), cpu.Y());
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raise("P", final.p(), cpu.P());
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os()
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<< std::dec << std::setfill(' ')
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<< "Stepped cycles: " << cycles()
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<< ", expected events: " << test.cycles().size()
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<< ", actual events: " << m_actualCycles.size();
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pushCurrentMessage();
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dumpCycles("-- Expected cycles", test.cycles());
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dumpCycles("-- Actual cycles", m_actualCycles);
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}
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}
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