//Memory unsigned Memory::size() const { return 0; } //StaticRAM uint8* StaticRAM::data() { return data_; } unsigned StaticRAM::size() const { return size_; } uint8 StaticRAM::read(unsigned addr) { return data_[addr]; } void StaticRAM::write(unsigned addr, uint8 n) { data_[addr] = n; } uint8& StaticRAM::operator[](unsigned addr) { return data_[addr]; } const uint8& StaticRAM::operator[](unsigned addr) const { return data_[addr]; } StaticRAM::StaticRAM(unsigned n) : size_(n) { data_ = new uint8[size_]; } StaticRAM::~StaticRAM() { delete[] data_; } //MappedRAM void MappedRAM::reset() { if(data_) { delete[] data_; data_ = nullptr; } size_ = 0; write_protect_ = false; } void MappedRAM::map(uint8* source, unsigned length) { reset(); data_ = source; size_ = data_ ? length : 0; } void MappedRAM::copy(const stream& memory) { if(data_) delete[] data_; //round size up to multiple of 256-bytes size_ = (memory.size() & ~255) + ((bool)(memory.size() & 255) << 8); data_ = new uint8[size_](); memory.read(data_, memory.size()); } void MappedRAM::read(const stream& memory) { memory.read(data_, min(memory.size(), size_)); } void MappedRAM::write_protect(bool status) { write_protect_ = status; } uint8* MappedRAM::data() { return data_; } unsigned MappedRAM::size() const { return size_; } uint8 MappedRAM::read(unsigned addr) { return data_[addr]; } void MappedRAM::write(unsigned addr, uint8 n) { if(!write_protect_) data_[addr] = n; } const uint8& MappedRAM::operator[](unsigned addr) const { return data_[addr]; } MappedRAM::MappedRAM() : data_(nullptr), size_(0), write_protect_(false) {} //Bus unsigned Bus::mirror(unsigned addr, unsigned size) { unsigned base = 0; if(size) { unsigned mask = 1 << 23; while(addr >= size) { while(!(addr & mask)) mask >>= 1; addr -= mask; if(size > mask) { size -= mask; base += mask; } mask >>= 1; } base += addr; } return base; } unsigned Bus::reduce(unsigned addr, unsigned mask) { unsigned result = 0, length = 0; for(unsigned n = 0; n < 24; n++) { unsigned bit = 1 << n; if(mask & bit) continue; result |= (bool)(addr & bit) << length++; } return result; } uint8 Bus::read(unsigned addr) { if(cheat.override[addr]) return cheat.read(addr); return reader[lookup[addr]](target[addr]); } void Bus::write(unsigned addr, uint8 data) { return writer[lookup[addr]](target[addr], data); }