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CLK/Machines/MSX/MemorySlotHandler.cpp

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//
// MemorySlotHandler.cpp
// Clock Signal
//
// Created by Thomas Harte on 12/01/2023.
// Copyright © 2023 Thomas Harte. All rights reserved.
//
#include "MemorySlotHandler.hpp"
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#include <cassert>
using namespace MSX;
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PrimarySlot::PrimarySlot(MemorySlotChangeHandler &handler) :
subslots_{handler, handler, handler, handler} {}
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MemorySlot::MemorySlot(MemorySlotChangeHandler &handler) : handler_(handler) {
unmap(0x0000, 0x10000);
}
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void PrimarySlot::set_secondary_paging(uint8_t value) {
secondary_paging_ = value;
}
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uint8_t PrimarySlot::secondary_paging() const {
return secondary_paging_;
}
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const uint8_t *PrimarySlot::read_pointer(int segment) const {
const int subslot = (secondary_paging_ >> (segment & ~1)) & 3;
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return subslots_[subslot].read_pointer(segment);
}
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uint8_t *PrimarySlot::write_pointer(int segment) const {
const int subslot = (secondary_paging_ >> (segment & ~1)) & 3;
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return subslots_[subslot].write_pointer(segment);
}
const uint8_t *MemorySlot::read_pointer(int segment) const {
return read_pointers_[segment];
}
uint8_t *MemorySlot::write_pointer(int segment) const {
return write_pointers_[segment];
}
void MemorySlot::set_source(const std::vector<uint8_t> &source) {
source_ = source;
}
void MemorySlot::resize_source(std::size_t size) {
source_.resize(size);
}
std::vector<uint8_t> &MemorySlot::source() {
return source_;
}
const std::vector<uint8_t> &MemorySlot::source() const {
return source_;
}
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template <MSX::MemorySlot::AccessType type>
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void MemorySlot::map(std::size_t source_address, uint16_t destination_address, std::size_t length) {
assert(!(destination_address & 8191));
assert(!(length & 8191));
assert(size_t(destination_address) + length <= 65536);
for(std::size_t c = 0; c < (length >> 13); ++c) {
source_address %= source_.size();
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const int bank = int((destination_address >> 13) + c);
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read_pointers_[bank] = &source_[source_address];
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if constexpr (type == AccessType::ReadWrite) {
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write_pointers_[bank] = read_pointers_[bank];
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}
source_address += 8192;
}
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handler_.did_page();
}
void MemorySlot::map_handler(uint16_t destination_address, std::size_t length) {
assert(!(destination_address & 8191));
assert(!(length & 8191));
assert(size_t(destination_address) + length <= 65536);
for(std::size_t c = 0; c < (length >> 13); ++c) {
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read_pointers_[(destination_address >> 13) + c] = nullptr;
}
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handler_.did_page();
}
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void MemorySlot::unmap(uint16_t destination_address, std::size_t length) {
assert(!(destination_address & 8191));
assert(!(length & 8191));
assert(size_t(destination_address) + length <= 65536);
for(std::size_t c = 0; c < (length >> 13); ++c) {
read_pointers_[(destination_address >> 13) + c] = unmapped.data();
write_pointers_[(destination_address >> 13) + c] = scratch.data();
}
handler_.did_page();
}
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MemorySlot &PrimarySlot::subslot(int slot) {
return subslots_[slot];
}
template void MemorySlot::map<MSX::MemorySlot::AccessType::Read>(std::size_t source_address, uint16_t destination_address, std::size_t length);
template void MemorySlot::map<MSX::MemorySlot::AccessType::ReadWrite>(std::size_t source_address, uint16_t destination_address, std::size_t length);