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Adding documentation and implementations for Ram, VRam, SRam

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This commit is contained in:
AnonymusRaccoon
2020-01-28 14:04:53 +01:00
parent 8698642636
commit 87ecd6c23d
7 changed files with 111 additions and 4 deletions
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CMakeLists.txt
+1 -1
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@@ -36,4 +36,4 @@ add_executable(ComSquare
sources/Exceptions/NotImplementedException.hpp sources/Exceptions/NotImplementedException.hpp
sources/APU/APU.hpp sources/APU/APU.hpp
sources/APU/APU.cpp sources/APU/APU.cpp
sources/Exceptions/InvalidAddress.hpp sources/Exceptions/InvalidRom.hpp sources/Models/Ints.hpp sources/Models/Ints.hpp) sources/Exceptions/InvalidAddress.hpp sources/Exceptions/InvalidRom.hpp sources/Models/Ints.hpp sources/Models/Ints.hpp sources/Ram/Ram.cpp sources/Ram/Ram.hpp)
sources/CPU/CPU.cpp
+10 -1
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@@ -44,6 +44,8 @@ namespace ComSquare::CPU
return this->_internalRegisters.mdmaen; return this->_internalRegisters.mdmaen;
case 0xC: case 0xC:
return this->_internalRegisters.hdmaen; return this->_internalRegisters.hdmaen;
case 0xD:
return this->_internalRegisters.memsel;
case 0x10: case 0x10:
return this->_internalRegisters.rdnmi; return this->_internalRegisters.rdnmi;
case 0x11: case 0x11:
@@ -123,6 +125,9 @@ namespace ComSquare::CPU
case 0xC: case 0xC:
this->_internalRegisters.hdmaen = data; this->_internalRegisters.hdmaen = data;
break; break;
case 0xD:
this->_internalRegisters.memsel = data;
break;
case 0x10: case 0x10:
this->_internalRegisters.rdnmi = data; this->_internalRegisters.rdnmi = data;
break; break;
@@ -178,7 +183,11 @@ namespace ComSquare::CPU
int CPU::update() int CPU::update()
{ {
throw NotImplementedException(); int cycles = 0;
for (int i = 0; i < 0xFF; i++)
cycles += this->executeInstruction();
return cycles;
} }
int CPU::executeInstruction() int CPU::executeInstruction()
sources/Memory/IMemory.hpp
+20
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@@ -12,15 +12,35 @@
namespace ComSquare namespace ComSquare
{ {
//! @brief Common interface implemented by all components mapping memory.
class IMemory { class IMemory {
private: private:
//! @brief The starting address mapped to this component.
uint24_t _start = 0; uint24_t _start = 0;
//! @brief The last continuous address mapped to this components. For shadows, see the MemoryShadow class.
uint24_t _end = 0; uint24_t _end = 0;
public: public:
//! @brief Read data from the component.
//! @param addr The local address to read from (0x0 should refer to the first byte of this component).
//! @throw This function should thrown an InvalidAddress for address that are not mapped to the component.
//! @return Return the data at the address given as parameter.
virtual uint8_t read(uint24_t addr) = 0; virtual uint8_t read(uint24_t addr) = 0;
//! @brief Write data to this component.
//! @param addr The local address to write data (0x0 should refer to the first byte of this component).
//! @param data The new data to write.
//! @throw This function should thrown an InvalidAddress for address that are not mapped to the component.
virtual void write(uint24_t addr, uint8_t data) = 0; virtual void write(uint24_t addr, uint8_t data) = 0;
//! @brief Change starting and ending points of this mapped memory.
//! @param start The first address mapped to this component.
//! @param end The last address mapped to this component.
//! @warning The start/end address should be a continuous range. You can't map address 0x0 and 0x2 but not 0x1. To do that, use two IMemory.
void setMemoryRegion(uint24_t start, uint24_t end); void setMemoryRegion(uint24_t start, uint24_t end);
//! @brief Return true if this component has mapped the address.
//! @param addr The address to check.
//! @return True if this address is mapped to the component. False otherwise.
bool hasMemoryAt(uint24_t addr); bool hasMemoryAt(uint24_t addr);
//! @brief Get the first address mapped to this component.
//! @return the _start value.
uint24_t getStart(); uint24_t getStart();
}; };
}; };
sources/Memory/MemoryBus.cpp
+4 -1
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@@ -10,10 +10,13 @@ namespace ComSquare
{ {
std::shared_ptr<IMemory> MemoryBus::getAccessor(uint24_t addr) std::shared_ptr<IMemory> MemoryBus::getAccessor(uint24_t addr)
{ {
return *std::find_if(this->_memoryAccessors.begin(), this->_memoryAccessors.end(), [addr](std::shared_ptr<IMemory> &accessor) auto it = std::find_if(this->_memoryAccessors.begin(), this->_memoryAccessors.end(), [addr](std::shared_ptr<IMemory> &accessor)
{ {
return accessor->hasMemoryAt(addr); return accessor->hasMemoryAt(addr);
}); });
if (it == this->_memoryAccessors.end())
return nullptr;
return *it;
} }
uint8_t MemoryBus::read(uint24_t addr) uint8_t MemoryBus::read(uint24_t addr)
sources/Memory/MemoryBus.hpp
+13 -1
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@@ -12,13 +12,25 @@
namespace ComSquare namespace ComSquare
{ {
//! @brief The memory bus is the component responsible of mapping addresses to components address and transmitting the data.
class MemoryBus { class MemoryBus {
private: private:
//! @brief The list of components registered inside the bus. Every components that can read/write to a public address should be in this vector.
std::vector<std::shared_ptr<IMemory>> _memoryAccessors; std::vector<std::shared_ptr<IMemory>> _memoryAccessors;
//! @brief Helper function to get the components that is responsible of read/write at an address.
//! @param addr The address you want to look for.
//! @return The components responsible for the address param or nullptr if none was found.
std::shared_ptr<IMemory> getAccessor(uint24_t addr); std::shared_ptr<IMemory> getAccessor(uint24_t addr);
uint8_t _openbus; //! @brief The last value read via the memory bus.
uint8_t _openbus = 0;
public: public:
//! @brief Read data at a global address.
//! @param addr The address to read from.
//! @return The value that the component returned for this address. If the address was mapped to ram, it simply returned the value. If the address was mapped to a register the component returned the register.
uint8_t read(uint24_t addr); uint8_t read(uint24_t addr);
//! @brief Write a data to a global address.
//! @param addr The address to write to.
//! @param data The data to write.
void write(uint24_t addr, uint8_t data); void write(uint24_t addr, uint8_t data);
}; };
} }
sources/Ram/Ram.cpp
+29
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@@ -0,0 +1,29 @@
//
// Created by anonymus-raccoon on 1/28/20.
//
#include "Ram.hpp"
#include "../Exceptions/InvalidAddress.hpp"
namespace ComSquare::Ram
{
Ram::Ram(size_t size)
: _size(size)
{
this->_data = new uint8_t[size];
}
uint8_t Ram::read(uint24_t addr)
{
if (addr >= this->_size)
throw InvalidAddress("Ram read", addr);
return this->_data[addr];
}
void Ram::write(uint24_t addr, uint8_t data)
{
if (addr >= this->_size)
throw InvalidAddress("Ram write", addr);
this->_data[addr] = data;
}
}
sources/Ram/Ram.hpp
+34
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@@ -0,0 +1,34 @@
//
// Created by anonymus-raccoon on 1/28/20.
//
#ifndef COMSQUARE_RAM_HPP
#define COMSQUARE_RAM_HPP
#include "../Memory/IMemory.hpp"
namespace ComSquare::Ram
{
class Ram : IMemory {
private:
//! @brief The ram. (Can be used for WRam, SRam, VRam etc)
uint8_t *_data;
//! @brief The size of the ram.
size_t _size;
public:
//! @brief Load a rom from it's path.
explicit Ram(size_t size);
//! @brief Read from the ram.
//! @param addr The address to read from. The address 0x0 should refer to the first byte of this ram.
//! @throw InvalidAddress will be thrown if the address is more than the size of the ram.
//! @return Return the data at the address.
uint8_t read(uint24_t addr) override;
//! @brief Write data to the ram.
//! @param addr The address to write to. The address 0x0 should refer to the first byte of this ram.
//! @param data The data to write.
//! @throw InvalidAddress will be thrown if the address is more than the size of the ram.
void write(uint24_t addr, uint8_t data) override;
};
}
#endif //COMSQUARE_RAM_HPP