Merge pull request #3330 from lioncash/alloc

EXI/SI: Get rid of explicit delete and new
This commit is contained in:
Markus Wick 2015-12-15 17:38:52 +01:00
commit 67557e1f91
8 changed files with 94 additions and 103 deletions

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@ -2,6 +2,8 @@
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include <memory>
#include "Common/ChunkFile.h"
#include "Core/ConfigManager.h"
#include "Core/CoreTiming.h"
@ -35,7 +37,7 @@ CEXIChannel::CEXIChannel(u32 ChannelId) :
m_Status.CHIP_SELECT = 1;
for (auto& device : m_pDevices)
device.reset(EXIDevice_Create(EXIDEVICE_NONE, m_ChannelId));
device = EXIDevice_Create(EXIDEVICE_NONE, m_ChannelId);
}
CEXIChannel::~CEXIChannel()
@ -166,18 +168,17 @@ void CEXIChannel::RemoveDevices()
void CEXIChannel::AddDevice(const TEXIDevices device_type, const int device_num)
{
IEXIDevice* pNewDevice = EXIDevice_Create(device_type, m_ChannelId);
AddDevice(pNewDevice, device_num);
AddDevice(EXIDevice_Create(device_type, m_ChannelId), device_num);
}
void CEXIChannel::AddDevice(IEXIDevice* pDevice, const int device_num, bool notifyPresenceChanged)
void CEXIChannel::AddDevice(std::unique_ptr<IEXIDevice> device, const int device_num, bool notify_presence_changed)
{
_dbg_assert_(EXPANSIONINTERFACE, device_num < NUM_DEVICES);
// replace it with the new one
m_pDevices[device_num].reset(pDevice);
// Replace it with the new one
m_pDevices[device_num] = std::move(device);
if (notifyPresenceChanged)
if (notify_presence_changed)
{
// This means "device presence changed", software has to check
// m_Status.EXT to see if it is now present or not
@ -228,27 +229,21 @@ void CEXIChannel::DoState(PointerWrap &p)
p.Do(m_Control);
p.Do(m_ImmData);
for (int d = 0; d < NUM_DEVICES; ++d)
for (int device_index = 0; device_index < NUM_DEVICES; ++device_index)
{
IEXIDevice* pDevice = m_pDevices[d].get();
TEXIDevices type = pDevice->m_deviceType;
std::unique_ptr<IEXIDevice>& device = m_pDevices[device_index];
TEXIDevices type = device->m_deviceType;
p.Do(type);
IEXIDevice* pSaveDevice = (type == pDevice->m_deviceType) ? pDevice : EXIDevice_Create(type, m_ChannelId);
pSaveDevice->DoState(p);
if (pSaveDevice != pDevice)
if (type == device->m_deviceType)
{
// if we had to create a temporary device, discard it if we're not loading.
// also, if no movie is active, we'll assume the user wants to keep their current devices
// instead of the ones they had when the savestate was created,
// unless the device is NONE (since ChangeDevice sets that temporarily).
if (p.GetMode() != PointerWrap::MODE_READ)
{
delete pSaveDevice;
device->DoState(p);
}
else
{
AddDevice(pSaveDevice, d, false);
}
std::unique_ptr<IEXIDevice> save_device = EXIDevice_Create(type, m_ChannelId);
save_device->DoState(p);
AddDevice(std::move(save_device), device_index, false);
}
}
}

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@ -97,7 +97,7 @@ public:
void SendTransferComplete();
void AddDevice(const TEXIDevices device_type, const int device_num);
void AddDevice(IEXIDevice* pDevice, const int device_num, bool notifyPresenceChanged = true);
void AddDevice(std::unique_ptr<IEXIDevice> device, const int device_num, bool notify_presence_changed = true);
// Remove all devices
void RemoveDevices();

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@ -2,6 +2,8 @@
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include <memory>
#include "Common/ChunkFile.h"
#include "Core/ConfigManager.h"
#include "Core/Core.h"
@ -89,54 +91,54 @@ public:
// F A C T O R Y
IEXIDevice* EXIDevice_Create(TEXIDevices device_type, const int channel_num)
std::unique_ptr<IEXIDevice> EXIDevice_Create(TEXIDevices device_type, const int channel_num)
{
IEXIDevice* result = nullptr;
std::unique_ptr<IEXIDevice> result;
switch (device_type)
{
case EXIDEVICE_DUMMY:
result = new CEXIDummy("Dummy");
result = std::make_unique<CEXIDummy>("Dummy");
break;
case EXIDEVICE_MEMORYCARD:
case EXIDEVICE_MEMORYCARDFOLDER:
{
bool gci_folder = (device_type == EXIDEVICE_MEMORYCARDFOLDER);
result = new CEXIMemoryCard(channel_num, gci_folder);
result = std::make_unique<CEXIMemoryCard>(channel_num, gci_folder);
break;
}
case EXIDEVICE_MASKROM:
result = new CEXIIPL();
result = std::make_unique<CEXIIPL>();
break;
case EXIDEVICE_AD16:
result = new CEXIAD16();
result = std::make_unique<CEXIAD16>();
break;
case EXIDEVICE_MIC:
result = new CEXIMic(channel_num);
result = std::make_unique<CEXIMic>(channel_num);
break;
case EXIDEVICE_ETH:
result = new CEXIETHERNET();
result = std::make_unique<CEXIETHERNET>();
break;
case EXIDEVICE_AM_BASEBOARD:
result = new CEXIAMBaseboard();
result = std::make_unique<CEXIAMBaseboard>();
break;
case EXIDEVICE_GECKO:
result = new CEXIGecko();
result = std::make_unique<CEXIGecko>();
break;
case EXIDEVICE_AGP:
result = new CEXIAgp(channel_num);
result = std::make_unique<CEXIAgp>(channel_num);
break;
case EXIDEVICE_NONE:
default:
result = new IEXIDevice();
result = std::make_unique<IEXIDevice>();
break;
}

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@ -4,6 +4,7 @@
#pragma once
#include <memory>
#include "Common/CommonTypes.h"
class PointerWrap;
@ -57,4 +58,4 @@ public:
TEXIDevices m_deviceType;
};
IEXIDevice* EXIDevice_Create(const TEXIDevices device_type, const int channel_num);
std::unique_ptr<IEXIDevice> EXIDevice_Create(const TEXIDevices device_type, const int channel_num);

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@ -3,6 +3,8 @@
// Refer to the license.txt file included.
#include <algorithm>
#include <array>
#include <memory>
#include "Common/ChunkFile.h"
#include "Common/CommonTypes.h"
@ -104,7 +106,7 @@ struct SSIChannel
USIChannelOut m_Out;
USIChannelIn_Hi m_InHi;
USIChannelIn_Lo m_InLo;
ISIDevice* m_pDevice;
std::unique_ptr<ISIDevice> m_device;
};
// SI Poll: Controls how often a device is polled
@ -206,7 +208,7 @@ union USIEXIClockCount
};
// STATE_TO_SAVE
static SSIChannel g_Channel[MAX_SI_CHANNELS];
static std::array<SSIChannel, MAX_SI_CHANNELS> g_Channel;
static USIPoll g_Poll;
static USIComCSR g_ComCSR;
static USIStatusReg g_StatusReg;
@ -221,26 +223,27 @@ void DoState(PointerWrap &p)
p.Do(g_Channel[i].m_InLo.Hex);
p.Do(g_Channel[i].m_Out.Hex);
ISIDevice* pDevice = g_Channel[i].m_pDevice;
SIDevices type = pDevice->GetDeviceType();
std::unique_ptr<ISIDevice>& device = g_Channel[i].m_device;
SIDevices type = device->GetDeviceType();
p.Do(type);
ISIDevice* pSaveDevice = (type == pDevice->GetDeviceType()) ? pDevice : SIDevice_Create(type, i);
pSaveDevice->DoState(p);
if (pSaveDevice != pDevice)
if (type == device->GetDeviceType())
{
// if we had to create a temporary device, discard it if we're not loading.
// also, if no movie is active, we'll assume the user wants to keep their current devices
// instead of the ones they had when the savestate was created.
if (p.GetMode() != PointerWrap::MODE_READ || !Movie::IsMovieActive())
{
delete pSaveDevice;
device->DoState(p);
}
else
{
AddDevice(pSaveDevice);
}
// If no movie is active, we'll assume the user wants to keep their current devices
// instead of the ones they had when the savestate was created.
if (!Movie::IsMovieActive())
return;
std::unique_ptr<ISIDevice> save_device = SIDevice_Create(type, i);
save_device->DoState(p);
AddDevice(std::move(save_device));
}
}
p.Do(g_Poll);
p.DoPOD(g_ComCSR);
p.DoPOD(g_StatusReg);
@ -392,10 +395,10 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
// send command to devices
if (tmpStatus.WR)
{
g_Channel[0].m_pDevice->SendCommand(g_Channel[0].m_Out.Hex, g_Poll.EN0);
g_Channel[1].m_pDevice->SendCommand(g_Channel[1].m_Out.Hex, g_Poll.EN1);
g_Channel[2].m_pDevice->SendCommand(g_Channel[2].m_Out.Hex, g_Poll.EN2);
g_Channel[3].m_pDevice->SendCommand(g_Channel[3].m_Out.Hex, g_Poll.EN3);
g_Channel[0].m_device->SendCommand(g_Channel[0].m_Out.Hex, g_Poll.EN0);
g_Channel[1].m_device->SendCommand(g_Channel[1].m_Out.Hex, g_Poll.EN1);
g_Channel[2].m_device->SendCommand(g_Channel[2].m_Out.Hex, g_Poll.EN2);
g_Channel[3].m_device->SendCommand(g_Channel[3].m_Out.Hex, g_Poll.EN3);
g_StatusReg.WR = 0;
g_StatusReg.WRST0 = 0;
@ -444,29 +447,25 @@ void GenerateSIInterrupt(SIInterruptType _SIInterrupt)
UpdateInterrupts();
}
void RemoveDevice(int _iDeviceNumber)
void RemoveDevice(int device_number)
{
delete g_Channel[_iDeviceNumber].m_pDevice;
g_Channel[_iDeviceNumber].m_pDevice = nullptr;
g_Channel.at(device_number).m_device.reset();
}
void AddDevice(ISIDevice* pDevice)
void AddDevice(std::unique_ptr<ISIDevice> device)
{
int _iDeviceNumber = pDevice->GetDeviceNumber();
int device_number = device->GetDeviceNumber();
//_dbg_assert_(SERIALINTERFACE, _iDeviceNumber < MAX_SI_CHANNELS);
// Delete the old device
RemoveDevice(device_number);
// delete the old device
RemoveDevice(_iDeviceNumber);
// create the new one
g_Channel[_iDeviceNumber].m_pDevice = pDevice;
// Set the new one
g_Channel.at(device_number).m_device = std::move(device);
}
void AddDevice(const SIDevices _device, int _iDeviceNumber)
void AddDevice(const SIDevices device, int device_number)
{
ISIDevice *pDevice = SIDevice_Create(_device, _iDeviceNumber);
AddDevice(pDevice);
AddDevice(SIDevice_Create(device, device_number));
}
static void SetNoResponse(u32 channel)
@ -515,10 +514,10 @@ void ChangeDevice(SIDevices device, int channel)
void UpdateDevices()
{
// Update channels and set the status bit if there's new data
g_StatusReg.RDST0 = !!g_Channel[0].m_pDevice->GetData(g_Channel[0].m_InHi.Hex, g_Channel[0].m_InLo.Hex);
g_StatusReg.RDST1 = !!g_Channel[1].m_pDevice->GetData(g_Channel[1].m_InHi.Hex, g_Channel[1].m_InLo.Hex);
g_StatusReg.RDST2 = !!g_Channel[2].m_pDevice->GetData(g_Channel[2].m_InHi.Hex, g_Channel[2].m_InLo.Hex);
g_StatusReg.RDST3 = !!g_Channel[3].m_pDevice->GetData(g_Channel[3].m_InHi.Hex, g_Channel[3].m_InLo.Hex);
g_StatusReg.RDST0 = !!g_Channel[0].m_device->GetData(g_Channel[0].m_InHi.Hex, g_Channel[0].m_InLo.Hex);
g_StatusReg.RDST1 = !!g_Channel[1].m_device->GetData(g_Channel[1].m_InHi.Hex, g_Channel[1].m_InLo.Hex);
g_StatusReg.RDST2 = !!g_Channel[2].m_device->GetData(g_Channel[2].m_InHi.Hex, g_Channel[2].m_InLo.Hex);
g_StatusReg.RDST3 = !!g_Channel[3].m_device->GetData(g_Channel[3].m_InHi.Hex, g_Channel[3].m_InLo.Hex);
UpdateInterrupts();
}
@ -527,8 +526,8 @@ SIDevices GetDeviceType(int channel)
{
if (channel < 0 || channel > 3)
return SIDEVICE_NONE;
else
return g_Channel[channel].m_pDevice->GetDeviceType();
return g_Channel[channel].m_device->GetDeviceType();
}
void RunSIBuffer(u64 userdata, int cyclesLate)
@ -549,9 +548,8 @@ void RunSIBuffer(u64 userdata, int cyclesLate)
else
outLength++;
int numOutput = 0;
numOutput = g_Channel[g_ComCSR.CHANNEL].m_pDevice->RunBuffer(g_SIBuffer, inLength);
std::unique_ptr<ISIDevice>& device = g_Channel[g_ComCSR.CHANNEL].m_device;
int numOutput = device->RunBuffer(g_SIBuffer, inLength);
DEBUG_LOG(SERIALINTERFACE, "RunSIBuffer chan: %d inLen: %i outLen: %i processed: %i", g_ComCSR.CHANNEL, inLength, outLength, numOutput);
@ -562,7 +560,7 @@ void RunSIBuffer(u64 userdata, int cyclesLate)
}
else
{
CoreTiming::ScheduleEvent(g_Channel[g_ComCSR.CHANNEL].m_pDevice->TransferInterval() - cyclesLate, et_transfer_pending);
CoreTiming::ScheduleEvent(device->TransferInterval() - cyclesLate, et_transfer_pending);
}
}
}

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@ -4,6 +4,7 @@
#pragma once
#include <memory>
#include "Common/CommonTypes.h"
class PointerWrap;
@ -30,7 +31,7 @@ void UpdateDevices();
void RemoveDevice(int _iDeviceNumber);
void AddDevice(const SIDevices _device, int _iDeviceNumber);
void AddDevice(ISIDevice* pDevice);
void AddDevice(std::unique_ptr<ISIDevice> device);
void ChangeDeviceCallback(u64 userdata, int cyclesLate);
void ChangeDevice(SIDevices device, int channel);

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@ -2,6 +2,7 @@
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include <memory>
#include <string>
#include "Common/StringUtil.h"
@ -65,41 +66,33 @@ public:
// F A C T O R Y
ISIDevice* SIDevice_Create(const SIDevices device, const int port_number)
std::unique_ptr<ISIDevice> SIDevice_Create(const SIDevices device, const int port_number)
{
switch (device)
{
case SIDEVICE_GC_CONTROLLER:
return new CSIDevice_GCController(device, port_number);
break;
return std::make_unique<CSIDevice_GCController>(device, port_number);
case SIDEVICE_DANCEMAT:
return new CSIDevice_DanceMat(device, port_number);
break;
return std::make_unique<CSIDevice_DanceMat>(device, port_number);
case SIDEVICE_GC_STEERING:
return new CSIDevice_GCSteeringWheel(device, port_number);
break;
return std::make_unique<CSIDevice_GCSteeringWheel>(device, port_number);
case SIDEVICE_GC_TARUKONGA:
return new CSIDevice_TaruKonga(device, port_number);
break;
return std::make_unique<CSIDevice_TaruKonga>(device, port_number);
case SIDEVICE_GC_GBA:
return new CSIDevice_GBA(device, port_number);
break;
return std::make_unique<CSIDevice_GBA>(device, port_number);
case SIDEVICE_GC_KEYBOARD:
return new CSIDevice_Keyboard(device, port_number);
break;
return std::make_unique<CSIDevice_Keyboard>(device, port_number);
case SIDEVICE_AM_BASEBOARD:
return new CSIDevice_AMBaseboard(device, port_number);
break;
return std::make_unique<CSIDevice_AMBaseboard>(device, port_number);
case SIDEVICE_NONE:
default:
return new CSIDevice_Null(device, port_number);
break;
return std::make_unique<CSIDevice_Null>(device, port_number);
}
}

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@ -4,6 +4,7 @@
#pragma once
#include <memory>
#include "Common/CommonTypes.h"
class PointerWrap;
@ -105,4 +106,4 @@ public:
}
};
ISIDevice* SIDevice_Create(const SIDevices device, const int port_number);
std::unique_ptr<ISIDevice> SIDevice_Create(const SIDevices device, const int port_number);