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CLK/Storage/State/SZX.cpp
2023-05-16 16:40:09 -04:00

197 lines
5.8 KiB
C++

//
// SZX.cpp
// Clock Signal
//
// Created by Thomas Harte on 26/04/2021.
// Copyright © 2021 Thomas Harte. All rights reserved.
//
#include "SZX.hpp"
#include "../FileHolder.hpp"
#include "../../Analyser/Static/ZXSpectrum/Target.hpp"
#include "../../Machines/Sinclair/ZXSpectrum/State.hpp"
#define LOG_PREFIX "[SZX] "
#include "../../Outputs/Log.hpp"
#include <zlib.h>
using namespace Storage::State;
std::unique_ptr<Analyser::Static::Target> SZX::load(const std::string &file_name) {
FileHolder file(file_name);
// Construct a target with a Spectrum state.
using Target = Analyser::Static::ZXSpectrum::Target;
auto result = std::make_unique<Target>();
auto *const state = new Sinclair::ZXSpectrum::State();
result->state = std::unique_ptr<Reflection::Struct>(state);
// Check signature and major version number.
if(!file.check_signature("ZXST")) {
return nullptr;
}
const uint8_t major_version = file.get8();
[[maybe_unused]] const uint8_t minor_version = file.get8();
if(major_version > 1) {
return nullptr;
}
// Check for a supported machine type.
const uint8_t machine_type = file.get8();
switch(machine_type) {
default: return nullptr;
case 0: result->model = Target::Model::SixteenK; break;
case 1: result->model = Target::Model::FortyEightK; break;
case 2: result->model = Target::Model::OneTwoEightK; break;
case 3: result->model = Target::Model::Plus2; break;
case 4: result->model = Target::Model::Plus2a; break;
case 5: result->model = Target::Model::Plus3; break;
}
// Consequential upon selected machine...
switch(result->model) {
case Target::Model::SixteenK: state->ram.resize(16 * 1024); break;
case Target::Model::FortyEightK: state->ram.resize(48 * 1024); break;
default:
state->ram.resize(128 * 1024);
break;
}
const uint8_t file_flags = file.get8();
[[maybe_unused]] const bool uses_late_timings = file_flags & 1;
// Now parse all included blocks.
while(true) {
const uint32_t blockID = file.get32le();
const uint32_t size = file.get32le();
if(file.eof()) break;
const auto location = file.tell();
#define BLOCK(str) str[0] | (str[1] << 8) | (str[2] << 16) | (str[3] << 24)
switch(blockID) {
default:
LOG("Unhandled block " << char(blockID) << char(blockID >> 8) << char(blockID >> 16) << char(blockID >> 24));
break;
// ZXSTZ80REGS
case BLOCK("Z80R"): {
state->z80.registers.flags = file.get8();
state->z80.registers.a = file.get8();
state->z80.registers.bc = file.get16le();
state->z80.registers.de = file.get16le();
state->z80.registers.hl = file.get16le();
state->z80.registers.af_dash = file.get16le();
state->z80.registers.bc_dash = file.get16le();
state->z80.registers.de_dash = file.get16le();
state->z80.registers.hl_dash = file.get16le();
state->z80.registers.ix = file.get16le();
state->z80.registers.iy = file.get16le();
state->z80.registers.stack_pointer = file.get16le();
state->z80.registers.program_counter = file.get16le();
const uint8_t i = file.get8();
const uint8_t r = file.get8();
state->z80.registers.ir = uint16_t((i << 8) | r);
state->z80.registers.iff1 = file.get8();
state->z80.registers.iff2 = file.get8();
state->z80.registers.interrupt_mode = file.get8();
state->video.half_cycles_since_interrupt = int(file.get32le()) * 2;
// SZX includes a count of remaining cycles that interrupt should be asserted for
// because it supports hardware that might cause an interrupt other than the display.
// This emulator doesn't, so this field can be ignored.
[[maybe_unused]] uint8_t remaining_interrupt_cycles = file.get8();
const uint8_t flags = file.get8();
state->z80.execution_state.is_halted = flags & 2;
// TODO: bit 0 indicates that the last instruction was an EI, or an invalid
// DD or FD. I assume I'm supposed to use that to conclude an interrupt
// verdict but I'm unclear what the effect of an invalid DD or FD is so
// have not yet implemented this.
state->z80.registers.memptr = file.get16le();
} break;
// ZXSTAYBLOCK
case BLOCK("AY\0\0"): {
// This applies to 48kb machines with AY boxes only. This emulator
// doesn't currently support those.
[[maybe_unused]] const uint8_t interface_type = file.get8();
state->ay.selected_register = file.get8();
file.read(state->ay.registers, 16);
} break;
// ZXSTRAMPAGE
case BLOCK("RAMP"): {
const uint16_t flags = file.get16le();
const uint8_t page = file.get8();
std::vector<uint8_t> contents;
if(flags & 1) {
// ZLib compression is applied.
contents.resize(16 * 1024);
const std::vector<uint8_t> source = file.read(size - 3);
uLongf output_length;
uncompress(contents.data(), &output_length, source.data(), source.size());
assert(output_length == contents.size());
} else {
// Data is raw.
contents = file.read(16 * 1024);
}
switch(result->model) {
case Target::Model::SixteenK:
case Target::Model::FortyEightK: {
size_t address = 0;
switch(page) {
default: break;
case 5: address = 0x4000; break;
case 2: address = 0x8000; break;
case 0: address = 0xc000; break;
}
if(address > 0 && (address - 0x4000) <= state->ram.size()) {
memcpy(&state->ram[address - 0x4000], contents.data(), 0x4000);
}
} break;
default:
if(page < 8) {
memcpy(&state->ram[page * 0x4000], contents.data(), 0x4000);
}
break;
}
} break;
// ZXSTSPECREGS
case BLOCK("SPCR"): {
state->video.border_colour = file.get8();
state->last_7ffd = file.get8();
state->last_1ffd = file.get8();
// TODO: use last write to FE, at least.
} break;
}
#undef BLOCK
// Advance to the next block.
file.seek(location + size, SEEK_SET);
}
return result;
}