replaced common code with dolphin common

This commit is contained in:
ShizZy 2013-09-04 20:17:46 -04:00
parent 72325bef1d
commit 7564d28faf
54 changed files with 8641 additions and 164 deletions

View file

@ -1,23 +1,7 @@
Microsoft Visual Studio Solution File, Format Version 11.00 Microsoft Visual Studio Solution File, Format Version 11.00
# Visual Studio 2010 # Visual Studio 2010
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Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "common", "src\common\common.vcxproj", "{DFE335FC-755D-4BAA-8452-94434F8A1EDB}" Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "common", "src\common\common.vcxproj", "{DFE335FC-755D-4BAA-8452-94434F8A1EDB}"
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Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "akiru", "src\akiru\akiru.vcxproj", "{CE7D2C07-21CE-4590-81AB-2ADA88A2B85F}"
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View file

@ -1,6 +1,14 @@
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<ClInclude Include="src\types.h" />
<ClInclude Include="src\log.h" />
<ClInclude Include="src\timer.h" />
<ClInclude Include="src\x86_utils.h" />
<ClInclude Include="src\config.h" />
<ClInclude Include="src\xml.h" />
<ClInclude Include="src\misc_utils.h" />
<ClInclude Include="src\atomic.h" /> <ClInclude Include="src\atomic.h" />
<ClInclude Include="src\atomic_win32.h" /> <ClInclude Include="src\break_points.h" />
<ClInclude Include="src\atomic_gcc.h" /> <ClInclude Include="src\chunk_file.h" />
<ClInclude Include="src\common.h" />
<ClInclude Include="src\common_funcs.h" />
<ClInclude Include="src\common_paths.h" />
<ClInclude Include="src\common_types.h" />
<ClInclude Include="src\console_listener.h" />
<ClInclude Include="src\cpu_detect.h" />
<ClInclude Include="src\debug_interface.h" />
<ClInclude Include="src\extended_trace.h" />
<ClInclude Include="src\fifo_queue.h" />
<ClInclude Include="src\file_search.h" />
<ClInclude Include="src\file_util.h" />
<ClInclude Include="src\fixed_size_queue.h" />
<ClInclude Include="src\hash.h" />
<ClInclude Include="src\linear_disk_cache.h" />
<ClInclude Include="src\log.h" />
<ClInclude Include="src\log_manager.h" />
<ClInclude Include="src\math_util.h" />
<ClInclude Include="src\memory_util.h" />
<ClInclude Include="src\mem_arena.h" />
<ClInclude Include="src\msg_handler.h" />
<ClInclude Include="src\scm_rev.h" />
<ClInclude Include="src\std_condition_variable.h" /> <ClInclude Include="src\std_condition_variable.h" />
<ClInclude Include="src\std_mutex.h" /> <ClInclude Include="src\std_mutex.h" />
<ClInclude Include="src\std_thread.h" /> <ClInclude Include="src\std_thread.h" />
<ClInclude Include="src\hash_container.h" /> <ClInclude Include="src\string_util.h" />
<ClInclude Include="src\hash.h" /> <ClInclude Include="src\thread.h" />
<ClInclude Include="src\file_utils.h" /> <ClInclude Include="src\thunk.h" />
<ClInclude Include="src\timer.h" />
<ClInclude Include="src\atomic_gcc.h" />
<ClInclude Include="src\atomic_win32.h" />
</ItemGroup>
<ItemGroup>
<None Include="CMakeLists.txt" />
</ItemGroup> </ItemGroup>
</Project> </Project>

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _ATOMIC_H_
#define _ATOMIC_H_
#ifdef _WIN32
#include "atomic_win32.h"
#else
// GCC-compatible compiler assumed!
#include "atomic_gcc.h"
#endif
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _ATOMIC_GCC_H_
#define _ATOMIC_GCC_H_
#include "common.h"
// Atomic operations are performed in a single step by the CPU. It is
// impossible for other threads to see the operation "half-done."
//
// Some atomic operations can be combined with different types of memory
// barriers called "Acquire semantics" and "Release semantics", defined below.
//
// Acquire semantics: Future memory accesses cannot be relocated to before the
// operation.
//
// Release semantics: Past memory accesses cannot be relocated to after the
// operation.
//
// These barriers affect not only the compiler, but also the CPU.
namespace Common
{
inline void AtomicAdd(volatile u32& target, u32 value) {
__sync_add_and_fetch(&target, value);
}
inline void AtomicAnd(volatile u32& target, u32 value) {
__sync_and_and_fetch(&target, value);
}
inline void AtomicDecrement(volatile u32& target) {
__sync_add_and_fetch(&target, -1);
}
inline void AtomicIncrement(volatile u32& target) {
__sync_add_and_fetch(&target, 1);
}
inline u32 AtomicLoad(volatile u32& src) {
return src; // 32-bit reads are always atomic.
}
inline u32 AtomicLoadAcquire(volatile u32& src) {
//keep the compiler from caching any memory references
u32 result = src; // 32-bit reads are always atomic.
//__sync_synchronize(); // TODO: May not be necessary.
// Compiler instruction only. x86 loads always have acquire semantics.
__asm__ __volatile__ ( "":::"memory" );
return result;
}
inline void AtomicOr(volatile u32& target, u32 value) {
__sync_or_and_fetch(&target, value);
}
inline void AtomicStore(volatile u32& dest, u32 value) {
dest = value; // 32-bit writes are always atomic.
}
inline void AtomicStoreRelease(volatile u32& dest, u32 value) {
__sync_lock_test_and_set(&dest, value); // TODO: Wrong! This function is has acquire semantics.
}
}
// Old code kept here for reference in case we need the parts with __asm__ __volatile__.
#if 0
LONG SyncInterlockedIncrement(LONG *Dest)
{
#if defined(__GNUC__) && defined (__GNUC_MINOR__) && ((4 < __GNUC__) || (4 == __GNUC__ && 1 <= __GNUC_MINOR__))
return __sync_add_and_fetch(Dest, 1);
#else
register int result;
__asm__ __volatile__("lock; xadd %0,%1"
: "=r" (result), "=m" (*Dest)
: "0" (1), "m" (*Dest)
: "memory");
return result;
#endif
}
LONG SyncInterlockedExchangeAdd(LONG *Dest, LONG Val)
{
#if defined(__GNUC__) && defined (__GNUC_MINOR__) && ((4 < __GNUC__) || (4 == __GNUC__ && 1 <= __GNUC_MINOR__))
return __sync_add_and_fetch(Dest, Val);
#else
register int result;
__asm__ __volatile__("lock; xadd %0,%1"
: "=r" (result), "=m" (*Dest)
: "0" (Val), "m" (*Dest)
: "memory");
return result;
#endif
}
LONG SyncInterlockedExchange(LONG *Dest, LONG Val)
{
#if defined(__GNUC__) && defined (__GNUC_MINOR__) && ((4 < __GNUC__) || (4 == __GNUC__ && 1 <= __GNUC_MINOR__))
return __sync_lock_test_and_set(Dest, Val);
#else
register int result;
__asm__ __volatile__("lock; xchg %0,%1"
: "=r" (result), "=m" (*Dest)
: "0" (Val), "m" (*Dest)
: "memory");
return result;
#endif
}
#endif
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _ATOMIC_WIN32_H_
#define _ATOMIC_WIN32_H_
#include "common.h"
#include <intrin.h>
#include <Windows.h>
// Atomic operations are performed in a single step by the CPU. It is
// impossible for other threads to see the operation "half-done."
//
// Some atomic operations can be combined with different types of memory
// barriers called "Acquire semantics" and "Release semantics", defined below.
//
// Acquire semantics: Future memory accesses cannot be relocated to before the
// operation.
//
// Release semantics: Past memory accesses cannot be relocated to after the
// operation.
//
// These barriers affect not only the compiler, but also the CPU.
//
// NOTE: Acquire and Release are not differentiated right now. They perform a
// full memory barrier instead of a "one-way" memory barrier. The newest
// Windows SDK has Acquire and Release versions of some Interlocked* functions.
namespace Common
{
inline void AtomicAdd(volatile u32& target, u32 value) {
InterlockedExchangeAdd((volatile LONG*)&target, (LONG)value);
}
inline void AtomicAnd(volatile u32& target, u32 value) {
_InterlockedAnd((volatile LONG*)&target, (LONG)value);
}
inline void AtomicIncrement(volatile u32& target) {
InterlockedIncrement((volatile LONG*)&target);
}
inline void AtomicDecrement(volatile u32& target) {
InterlockedDecrement((volatile LONG*)&target);
}
inline u32 AtomicLoad(volatile u32& src) {
return src; // 32-bit reads are always atomic.
}
inline u32 AtomicLoadAcquire(volatile u32& src) {
u32 result = src; // 32-bit reads are always atomic.
_ReadBarrier(); // Compiler instruction only. x86 loads always have acquire semantics.
return result;
}
inline void AtomicOr(volatile u32& target, u32 value) {
_InterlockedOr((volatile LONG*)&target, (LONG)value);
}
inline void AtomicStore(volatile u32& dest, u32 value) {
dest = value; // 32-bit writes are always atomic.
}
inline void AtomicStoreRelease(volatile u32& dest, u32 value) {
_WriteBarrier(); // Compiler instruction only. x86 stores always have release semantics.
dest = value; // 32-bit writes are always atomic.
}
}
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "debug_interface.h"
#include "break_points.h"
#include <sstream>
#include <algorithm>
bool BreakPoints::IsAddressBreakPoint(u32 _iAddress)
{
for (TBreakPoints::iterator i = m_BreakPoints.begin(); i != m_BreakPoints.end(); ++i)
if (i->iAddress == _iAddress)
return true;
return false;
}
bool BreakPoints::IsTempBreakPoint(u32 _iAddress)
{
for (TBreakPoints::iterator i = m_BreakPoints.begin(); i != m_BreakPoints.end(); ++i)
if (i->iAddress == _iAddress && i->bTemporary)
return true;
return false;
}
BreakPoints::TBreakPointsStr BreakPoints::GetStrings() const
{
TBreakPointsStr bps;
for (TBreakPoints::const_iterator i = m_BreakPoints.begin();
i != m_BreakPoints.end(); ++i)
{
if (!i->bTemporary)
{
std::stringstream bp;
bp << std::hex << i->iAddress << " " << (i->bOn ? "n" : "");
bps.push_back(bp.str());
}
}
return bps;
}
void BreakPoints::AddFromStrings(const TBreakPointsStr& bps)
{
for (TBreakPointsStr::const_iterator i = bps.begin(); i != bps.end(); ++i)
{
TBreakPoint bp;
std::stringstream bpstr;
bpstr << std::hex << *i;
bpstr >> bp.iAddress;
bp.bOn = i->find("n") != i->npos;
bp.bTemporary = false;
Add(bp);
}
}
void BreakPoints::Add(const TBreakPoint& bp)
{
if (!IsAddressBreakPoint(bp.iAddress))
{
m_BreakPoints.push_back(bp);
//if (jit)
// jit->GetBlockCache()->InvalidateICache(bp.iAddress, 4);
}
}
void BreakPoints::Add(u32 em_address, bool temp)
{
if (!IsAddressBreakPoint(em_address)) // only add new addresses
{
TBreakPoint pt; // breakpoint settings
pt.bOn = true;
pt.bTemporary = temp;
pt.iAddress = em_address;
m_BreakPoints.push_back(pt);
//if (jit)
// jit->GetBlockCache()->InvalidateICache(em_address, 4);
}
}
void BreakPoints::Remove(u32 em_address)
{
for (TBreakPoints::iterator i = m_BreakPoints.begin(); i != m_BreakPoints.end(); ++i)
{
if (i->iAddress == em_address)
{
m_BreakPoints.erase(i);
//if (jit)
// jit->GetBlockCache()->InvalidateICache(em_address, 4);
return;
}
}
}
void BreakPoints::Clear()
{
//if (jit)
//{
// std::for_each(m_BreakPoints.begin(), m_BreakPoints.end(),
// [](const TBreakPoint& bp)
// {
// jit->GetBlockCache()->InvalidateICache(bp.iAddress, 4);
// }
// );
//}
m_BreakPoints.clear();
}
MemChecks::TMemChecksStr MemChecks::GetStrings() const
{
TMemChecksStr mcs;
for (TMemChecks::const_iterator i = m_MemChecks.begin();
i != m_MemChecks.end(); ++i)
{
std::stringstream mc;
mc << std::hex << i->StartAddress;
mc << " " << (i->bRange ? i->EndAddress : i->StartAddress) << " " <<
(i->bRange ? "n" : "") << (i->OnRead ? "r" : "") <<
(i->OnWrite ? "w" : "") << (i->Log ? "l" : "") << (i->Break ? "p" : "");
mcs.push_back(mc.str());
}
return mcs;
}
void MemChecks::AddFromStrings(const TMemChecksStr& mcs)
{
for (TMemChecksStr::const_iterator i = mcs.begin(); i != mcs.end(); ++i)
{
TMemCheck mc;
std::stringstream mcstr;
mcstr << std::hex << *i;
mcstr >> mc.StartAddress;
mc.bRange = i->find("n") != i->npos;
mc.OnRead = i->find("r") != i->npos;
mc.OnWrite = i->find("w") != i->npos;
mc.Log = i->find("l") != i->npos;
mc.Break = i->find("p") != i->npos;
if (mc.bRange)
mcstr >> mc.EndAddress;
else
mc.EndAddress = mc.StartAddress;
Add(mc);
}
}
void MemChecks::Add(const TMemCheck& _rMemoryCheck)
{
if (GetMemCheck(_rMemoryCheck.StartAddress) == 0)
m_MemChecks.push_back(_rMemoryCheck);
}
void MemChecks::Remove(u32 _Address)
{
for (TMemChecks::iterator i = m_MemChecks.begin(); i != m_MemChecks.end(); ++i)
{
if (i->StartAddress == _Address)
{
m_MemChecks.erase(i);
return;
}
}
}
TMemCheck *MemChecks::GetMemCheck(u32 address)
{
for (TMemChecks::iterator i = m_MemChecks.begin(); i != m_MemChecks.end(); ++i)
{
if (i->bRange)
{
if (address >= i->StartAddress && address <= i->EndAddress)
return &(*i);
}
else if (i->StartAddress == address)
return &(*i);
}
// none found
return 0;
}
void TMemCheck::Action(DebugInterface *debug_interface, u32 iValue, u32 addr,
bool write, int size, u32 pc)
{
if ((write && OnWrite) || (!write && OnRead))
{
if (Log)
{
INFO_LOG(MEMMAP, "CHK %08x (%s) %s%i %0*x at %08x (%s)",
pc, debug_interface->getDescription(pc).c_str(),
write ? "Write" : "Read", size*8, size*2, iValue, addr,
debug_interface->getDescription(addr).c_str()
);
}
if (Break)
debug_interface->breakNow();
}
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _DEBUGGER_BREAKPOINTS_H
#define _DEBUGGER_BREAKPOINTS_H
#include <vector>
#include <string>
#include "common.h"
class DebugInterface;
struct TBreakPoint
{
u32 iAddress;
bool bOn;
bool bTemporary;
};
struct TMemCheck
{
TMemCheck() {
numHits = 0;
StartAddress = EndAddress = 0;
bRange = OnRead = OnWrite = Log = Break = false;
}
u32 StartAddress;
u32 EndAddress;
bool bRange;
bool OnRead;
bool OnWrite;
bool Log;
bool Break;
u32 numHits;
void Action(DebugInterface *dbg_interface, u32 _iValue, u32 addr,
bool write, int size, u32 pc);
};
// Code breakpoints.
class BreakPoints
{
public:
typedef std::vector<TBreakPoint> TBreakPoints;
typedef std::vector<std::string> TBreakPointsStr;
const TBreakPoints& GetBreakPoints() { return m_BreakPoints; }
TBreakPointsStr GetStrings() const;
void AddFromStrings(const TBreakPointsStr& bps);
// is address breakpoint
bool IsAddressBreakPoint(u32 _iAddress);
bool IsTempBreakPoint(u32 _iAddress);
// Add BreakPoint
void Add(u32 em_address, bool temp=false);
void Add(const TBreakPoint& bp);
// Remove Breakpoint
void Remove(u32 _iAddress);
void Clear();
void DeleteByAddress(u32 _Address);
private:
TBreakPoints m_BreakPoints;
u32 m_iBreakOnCount;
};
// Memory breakpoints
class MemChecks
{
public:
typedef std::vector<TMemCheck> TMemChecks;
typedef std::vector<std::string> TMemChecksStr;
TMemChecks m_MemChecks;
const TMemChecks& GetMemChecks() { return m_MemChecks; }
TMemChecksStr GetStrings() const;
void AddFromStrings(const TMemChecksStr& mcs);
void Add(const TMemCheck& _rMemoryCheck);
// memory breakpoint
TMemCheck *GetMemCheck(u32 address);
void Remove(u32 _Address);
void Clear() { m_MemChecks.clear(); };
};
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _POINTERWRAP_H_
#define _POINTERWRAP_H_
// Extremely simple serialization framework.
// (mis)-features:
// + Super fast
// + Very simple
// + Same code is used for serialization and deserializaition (in most cases)
// - Zero backwards/forwards compatibility
// - Serialization code for anything complex has to be manually written.
#include <map>
#include <vector>
#include <list>
#include <deque>
#include <string>
#include <type_traits>
#include "common.h"
#include "file_util.h"
template <class T>
struct LinkedListItem : public T
{
LinkedListItem<T> *next;
};
// Wrapper class
class PointerWrap
{
public:
enum Mode
{
MODE_READ = 1, // load
MODE_WRITE, // save
MODE_MEASURE, // calculate size
MODE_VERIFY, // compare
};
u8 **ptr;
Mode mode;
public:
PointerWrap(u8 **ptr_, Mode mode_) : ptr(ptr_), mode(mode_) {}
void SetMode(Mode mode_) { mode = mode_; }
Mode GetMode() const { return mode; }
u8** GetPPtr() { return ptr; }
template <typename K, class V>
void Do(std::map<K, V>& x)
{
u32 count = (u32)x.size();
Do(count);
switch (mode)
{
case MODE_READ:
for (x.clear(); count != 0; --count)
{
std::pair<K, V> pair;
Do(pair.first);
Do(pair.second);
x.insert(pair);
}
break;
case MODE_WRITE:
case MODE_MEASURE:
case MODE_VERIFY:
for (auto itr = x.begin(); itr != x.end(); ++itr)
{
Do(itr->first);
Do(itr->second);
}
break;
}
}
template <typename T>
void DoContainer(T& x)
{
u32 size = (u32)x.size();
Do(size);
x.resize(size);
for (auto itr = x.begin(); itr != x.end(); ++itr)
Do(*itr);
}
template <typename T>
void Do(std::vector<T>& x)
{
DoContainer(x);
}
template <typename T>
void Do(std::list<T>& x)
{
DoContainer(x);
}
template <typename T>
void Do(std::deque<T>& x)
{
DoContainer(x);
}
template <typename T>
void Do(std::basic_string<T>& x)
{
DoContainer(x);
}
template <typename T>
void DoArray(T* x, u32 count)
{
for (u32 i = 0; i != count; ++i)
Do(x[i]);
}
template <typename T>
void Do(T& x)
{
// Ideally this would be std::is_trivially_copyable, but not enough support yet
static_assert(std::is_pod<T>::value, "Only sane for POD types");
DoVoid((void*)&x, sizeof(x));
}
template <typename T>
void DoPOD(T& x)
{
DoVoid((void*)&x, sizeof(x));
}
template <typename T>
void DoPointer(T*& x, T* const base)
{
// pointers can be more than 2^31 apart, but you're using this function wrong if you need that much range
s32 offset = x - base;
Do(offset);
if (mode == MODE_READ)
x = base + offset;
}
// Let's pretend std::list doesn't exist!
template <class T, LinkedListItem<T>* (*TNew)(), void (*TFree)(LinkedListItem<T>*), void (*TDo)(PointerWrap&, T*)>
void DoLinkedList(LinkedListItem<T>*& list_start, LinkedListItem<T>** list_end=0)
{
LinkedListItem<T>* list_cur = list_start;
LinkedListItem<T>* prev = 0;
while (true)
{
u8 shouldExist = (list_cur ? 1 : 0);
Do(shouldExist);
if (shouldExist == 1)
{
LinkedListItem<T>* cur = list_cur ? list_cur : TNew();
TDo(*this, (T*)cur);
if (!list_cur)
{
if (mode == MODE_READ)
{
cur->next = 0;
list_cur = cur;
if (prev)
prev->next = cur;
else
list_start = cur;
}
else
{
TFree(cur);
continue;
}
}
}
else
{
if (mode == MODE_READ)
{
if (prev)
prev->next = 0;
if (list_end)
*list_end = prev;
if (list_cur)
{
if (list_start == list_cur)
list_start = 0;
do
{
LinkedListItem<T>* next = list_cur->next;
TFree(list_cur);
list_cur = next;
}
while (list_cur);
}
}
break;
}
prev = list_cur;
list_cur = list_cur->next;
}
}
void DoMarker(const char* prevName, u32 arbitraryNumber = 0x42)
{
u32 cookie = arbitraryNumber;
Do(cookie);
if (mode == PointerWrap::MODE_READ && cookie != arbitraryNumber)
{
PanicAlertT("Error: After \"%s\", found %d (0x%X) instead of save marker %d (0x%X). Aborting savestate load...",
prevName, cookie, cookie, arbitraryNumber, arbitraryNumber);
mode = PointerWrap::MODE_MEASURE;
}
}
private:
__forceinline void DoByte(u8& x)
{
switch (mode)
{
case MODE_READ:
x = **ptr;
break;
case MODE_WRITE:
**ptr = x;
break;
case MODE_MEASURE:
break;
case MODE_VERIFY:
_dbg_assert_msg_(COMMON, (x == **ptr),
"Savestate verification failure: %d (0x%X) (at %p) != %d (0x%X) (at %p).\n",
x, x, &x, **ptr, **ptr, *ptr);
break;
default:
break;
}
++(*ptr);
}
void DoVoid(void *data, u32 size)
{
for(u32 i = 0; i != size; ++i)
DoByte(reinterpret_cast<u8*>(data)[i]);
}
};
class CChunkFileReader
{
public:
// Load file template
template<class T>
static bool Load(const std::string& _rFilename, u32 _Revision, T& _class)
{
INFO_LOG(COMMON, "ChunkReader: Loading %s" , _rFilename.c_str());
if (!File::Exists(_rFilename))
return false;
// Check file size
const u64 fileSize = File::GetSize(_rFilename);
static const u64 headerSize = sizeof(SChunkHeader);
if (fileSize < headerSize)
{
ERROR_LOG(COMMON,"ChunkReader: File too small");
return false;
}
File::IOFile pFile(_rFilename, "rb");
if (!pFile)
{
ERROR_LOG(COMMON,"ChunkReader: Can't open file for reading");
return false;
}
// read the header
SChunkHeader header;
if (!pFile.ReadArray(&header, 1))
{
ERROR_LOG(COMMON,"ChunkReader: Bad header size");
return false;
}
// Check revision
if (header.Revision != _Revision)
{
ERROR_LOG(COMMON,"ChunkReader: Wrong file revision, got %d expected %d",
header.Revision, _Revision);
return false;
}
// get size
const u32 sz = (u32)(fileSize - headerSize);
if (header.ExpectedSize != sz)
{
ERROR_LOG(COMMON,"ChunkReader: Bad file size, got %d expected %d",
sz, header.ExpectedSize);
return false;
}
// read the state
std::vector<u8> buffer(sz);
if (!pFile.ReadArray(&buffer[0], sz))
{
ERROR_LOG(COMMON,"ChunkReader: Error reading file");
return false;
}
u8* ptr = &buffer[0];
PointerWrap p(&ptr, PointerWrap::MODE_READ);
_class.DoState(p);
INFO_LOG(COMMON, "ChunkReader: Done loading %s" , _rFilename.c_str());
return true;
}
// Save file template
template<class T>
static bool Save(const std::string& _rFilename, u32 _Revision, T& _class)
{
INFO_LOG(COMMON, "ChunkReader: Writing %s" , _rFilename.c_str());
File::IOFile pFile(_rFilename, "wb");
if (!pFile)
{
ERROR_LOG(COMMON,"ChunkReader: Error opening file for write");
return false;
}
// Get data
u8 *ptr = 0;
PointerWrap p(&ptr, PointerWrap::MODE_MEASURE);
_class.DoState(p);
size_t const sz = (size_t)ptr;
std::vector<u8> buffer(sz);
ptr = &buffer[0];
p.SetMode(PointerWrap::MODE_WRITE);
_class.DoState(p);
// Create header
SChunkHeader header;
header.Revision = _Revision;
header.ExpectedSize = (u32)sz;
// Write to file
if (!pFile.WriteArray(&header, 1))
{
ERROR_LOG(COMMON,"ChunkReader: Failed writing header");
return false;
}
if (!pFile.WriteArray(&buffer[0], sz))
{
ERROR_LOG(COMMON,"ChunkReader: Failed writing data");
return false;
}
INFO_LOG(COMMON,"ChunkReader: Done writing %s", _rFilename.c_str());
return true;
}
private:
struct SChunkHeader
{
u32 Revision;
u32 ExpectedSize;
};
};
#endif // _POINTERWRAP_H_

164
src/common/src/common.h Normal file
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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _COMMON_H_
#define _COMMON_H_
// DO NOT EVER INCLUDE <windows.h> directly _or indirectly_ from this file
// since it slows down the build a lot.
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
// SVN version number
extern const char *scm_rev_str;
extern const char *netplay_dolphin_ver;
// Force enable logging in the right modes. For some reason, something had changed
// so that debugfast no longer logged.
#if defined(_DEBUG) || defined(DEBUGFAST)
#undef LOGGING
#define LOGGING 1
#endif
#define STACKALIGN
#if __cplusplus >= 201103 || defined(_MSC_VER) || defined(__GXX_EXPERIMENTAL_CXX0X__)
#define HAVE_CXX11_SYNTAX 1
#endif
#if HAVE_CXX11_SYNTAX
// An inheritable class to disallow the copy constructor and operator= functions
class NonCopyable
{
protected:
NonCopyable() {}
NonCopyable(const NonCopyable&&) {}
void operator=(const NonCopyable&&) {}
private:
NonCopyable(NonCopyable&);
NonCopyable& operator=(NonCopyable& other);
};
#endif
#include "log.h"
#include "common_types.h"
#include "msg_handler.h"
#include "common_funcs.h"
#ifdef __APPLE__
// The Darwin ABI requires that stack frames be aligned to 16-byte boundaries.
// This is only needed on i386 gcc - x86_64 already aligns to 16 bytes.
#if defined __i386__ && defined __GNUC__
#undef STACKALIGN
#define STACKALIGN __attribute__((__force_align_arg_pointer__))
#endif
#elif defined _WIN32
// Check MSC ver
#if !defined _MSC_VER || _MSC_VER <= 1000
#error needs at least version 1000 of MSC
#endif
#define NOMINMAX
// Memory leak checks
#define CHECK_HEAP_INTEGRITY()
// Alignment
#define GC_ALIGNED16(x) __declspec(align(16)) x
#define GC_ALIGNED32(x) __declspec(align(32)) x
#define GC_ALIGNED64(x) __declspec(align(64)) x
#define GC_ALIGNED128(x) __declspec(align(128)) x
#define GC_ALIGNED16_DECL(x) __declspec(align(16)) x
#define GC_ALIGNED64_DECL(x) __declspec(align(64)) x
// Since they are always around on windows
#define HAVE_WX 1
#define HAVE_OPENAL 1
#define HAVE_PORTAUDIO 1
// Debug definitions
#if defined(_DEBUG)
#include <crtdbg.h>
#undef CHECK_HEAP_INTEGRITY
#define CHECK_HEAP_INTEGRITY() {if (!_CrtCheckMemory()) PanicAlert("memory corruption detected. see log.");}
// If you want to see how much a pain in the ass singletons are, for example:
// {614} normal block at 0x030C5310, 188 bytes long.
// Data: <Master Log > 4D 61 73 74 65 72 20 4C 6F 67 00 00 00 00 00 00
struct CrtDebugBreak { CrtDebugBreak(int spot) { _CrtSetBreakAlloc(spot); } };
//CrtDebugBreak breakAt(614);
#endif // end DEBUG/FAST
#endif
// Windows compatibility
#ifndef _WIN32
#include <limits.h>
#define MAX_PATH PATH_MAX
#ifdef _LP64
#define _M_X64 1
#else
#define _M_IX86 1
#endif
#define __forceinline inline __attribute__((always_inline))
#define GC_ALIGNED16(x) __attribute__((aligned(16))) x
#define GC_ALIGNED32(x) __attribute__((aligned(32))) x
#define GC_ALIGNED64(x) __attribute__((aligned(64))) x
#define GC_ALIGNED128(x) __attribute__((aligned(128))) x
#define GC_ALIGNED16_DECL(x) __attribute__((aligned(16))) x
#define GC_ALIGNED64_DECL(x) __attribute__((aligned(64))) x
#endif
#ifdef _MSC_VER
#define __strdup _strdup
#define __getcwd _getcwd
#define __chdir _chdir
#else
#define __strdup strdup
#define __getcwd getcwd
#define __chdir chdir
#endif
// Dummy macro for marking translatable strings that can not be immediately translated.
// wxWidgets does not have a true dummy macro for this.
#define _trans(a) a
#if defined _M_GENERIC
# define _M_SSE 0x0
#elif defined __GNUC__
# if defined __SSE4_2__
# define _M_SSE 0x402
# elif defined __SSE4_1__
# define _M_SSE 0x401
# elif defined __SSSE3__
# define _M_SSE 0x301
# elif defined __SSE3__
# define _M_SSE 0x300
# endif
#elif (_MSC_VER >= 1500) || __INTEL_COMPILER // Visual Studio 2008
# define _M_SSE 0x402
#endif
// Host communication.
enum HOST_COMM
{
// Begin at 10 in case there is already messages with wParam = 0, 1, 2 and so on
WM_USER_STOP = 10,
WM_USER_CREATE,
WM_USER_SETCURSOR,
};
// Used for notification on emulation state
enum EMUSTATE_CHANGE
{
EMUSTATE_CHANGE_PLAY = 1,
EMUSTATE_CHANGE_PAUSE,
EMUSTATE_CHANGE_STOP
};
#endif // _COMMON_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _COMMONFUNCS_H_
#define _COMMONFUNCS_H_
#ifdef _WIN32
#define SLEEP(x) Sleep(x)
#else
#include <unistd.h>
#define SLEEP(x) usleep(x*1000)
#endif
template <bool> struct CompileTimeAssert;
template<> struct CompileTimeAssert<true> {};
#define b2(x) ( (x) | ( (x) >> 1) )
#define b4(x) ( b2(x) | ( b2(x) >> 2) )
#define b8(x) ( b4(x) | ( b4(x) >> 4) )
#define b16(x) ( b8(x) | ( b8(x) >> 8) )
#define b32(x) (b16(x) | (b16(x) >>16) )
#define ROUND_UP_POW2(x) (b32(x - 1) + 1)
#if defined __GNUC__ && !defined __SSSE3__ && !defined _M_GENERIC
#include <emmintrin.h>
static __inline __m128i __attribute__((__always_inline__))
_mm_shuffle_epi8(__m128i a, __m128i mask)
{
__m128i result;
__asm__("pshufb %1, %0"
: "=x" (result)
: "xm" (mask), "0" (a));
return result;
}
#endif
#ifndef _WIN32
#include <errno.h>
#ifdef __linux__
#include <byteswap.h>
#elif defined __FreeBSD__
#include <sys/endian.h>
#endif
// go to debugger mode
#ifdef GEKKO
#define Crash()
#elif defined _M_GENERIC
#define Crash() { exit(1); }
#else
#define Crash() {asm ("int $3");}
#endif
#define ARRAYSIZE(A) (sizeof(A)/sizeof((A)[0]))
// GCC 4.8 defines all the rotate functions now
// Small issue with GCC's lrotl/lrotr intrinsics is they are still 32bit while we require 64bit
#ifndef _rotl
inline u32 _rotl(u32 x, int shift) {
shift &= 31;
if (!shift) return x;
return (x << shift) | (x >> (32 - shift));
}
inline u32 _rotr(u32 x, int shift) {
shift &= 31;
if (!shift) return x;
return (x >> shift) | (x << (32 - shift));
}
#endif
inline u64 _rotl64(u64 x, unsigned int shift){
unsigned int n = shift % 64;
return (x << n) | (x >> (64 - n));
}
inline u64 _rotr64(u64 x, unsigned int shift){
unsigned int n = shift % 64;
return (x >> n) | (x << (64 - n));
}
#else // WIN32
// Function Cross-Compatibility
#define strcasecmp _stricmp
#define strncasecmp _strnicmp
#define unlink _unlink
#define snprintf _snprintf
#define vscprintf _vscprintf
// Locale Cross-Compatibility
#define locale_t _locale_t
#define freelocale _free_locale
#define newlocale(mask, locale, base) _create_locale(mask, locale)
#define LC_GLOBAL_LOCALE ((locale_t)-1)
#define LC_ALL_MASK LC_ALL
#define LC_COLLATE_MASK LC_COLLATE
#define LC_CTYPE_MASK LC_CTYPE
#define LC_MONETARY_MASK LC_MONETARY
#define LC_NUMERIC_MASK LC_NUMERIC
#define LC_TIME_MASK LC_TIME
inline locale_t uselocale(locale_t new_locale)
{
// Retrieve the current per thread locale setting
bool bIsPerThread = (_configthreadlocale(0) == _ENABLE_PER_THREAD_LOCALE);
// Retrieve the current thread-specific locale
locale_t old_locale = bIsPerThread ? _get_current_locale() : LC_GLOBAL_LOCALE;
if(new_locale == LC_GLOBAL_LOCALE)
{
// Restore the global locale
_configthreadlocale(_DISABLE_PER_THREAD_LOCALE);
}
else if(new_locale != NULL)
{
// Configure the thread to set the locale only for this thread
_configthreadlocale(_ENABLE_PER_THREAD_LOCALE);
// Set all locale categories
for(int i = LC_MIN; i <= LC_MAX; i++)
setlocale(i, new_locale->locinfo->lc_category[i].locale);
}
return old_locale;
}
// 64 bit offsets for windows
#define fseeko _fseeki64
#define ftello _ftelli64
#define atoll _atoi64
#define stat64 _stat64
#define fstat64 _fstat64
#define fileno _fileno
#if _M_IX86
#define Crash() {__asm int 3}
#else
extern "C" {
__declspec(dllimport) void __stdcall DebugBreak(void);
}
#define Crash() {DebugBreak();}
#endif // M_IX86
#endif // WIN32 ndef
// Dolphin's min and max functions
#undef min
#undef max
template<class T>
inline T min(const T& a, const T& b) {return a > b ? b : a;}
template<class T>
inline T max(const T& a, const T& b) {return a > b ? a : b;}
// Generic function to get last error message.
// Call directly after the command or use the error num.
// This function might change the error code.
// Defined in Misc.cpp.
const char* GetLastErrorMsg();
namespace Common
{
inline u8 swap8(u8 _data) {return _data;}
inline u32 swap24(const u8* _data) {return (_data[0] << 16) | (_data[1] << 8) | _data[2];}
#ifdef ANDROID
#undef swap16
#undef swap32
#undef swap64
#endif
#ifdef _WIN32
inline u16 swap16(u16 _data) {return _byteswap_ushort(_data);}
inline u32 swap32(u32 _data) {return _byteswap_ulong (_data);}
inline u64 swap64(u64 _data) {return _byteswap_uint64(_data);}
#elif _M_ARM
inline u16 swap16 (u16 _data) { u32 data = _data; __asm__ ("rev16 %0, %1\n" : "=l" (data) : "l" (data)); return (u16)data;}
inline u32 swap32 (u32 _data) {__asm__ ("rev %0, %1\n" : "=l" (_data) : "l" (_data)); return _data;}
inline u64 swap64(u64 _data) {return ((u64)swap32(_data) << 32) | swap32(_data >> 32);}
#elif __linux__
inline u16 swap16(u16 _data) {return bswap_16(_data);}
inline u32 swap32(u32 _data) {return bswap_32(_data);}
inline u64 swap64(u64 _data) {return bswap_64(_data);}
#elif __APPLE__
inline __attribute__((always_inline)) u16 swap16(u16 _data)
{return (_data >> 8) | (_data << 8);}
inline __attribute__((always_inline)) u32 swap32(u32 _data)
{return __builtin_bswap32(_data);}
inline __attribute__((always_inline)) u64 swap64(u64 _data)
{return __builtin_bswap64(_data);}
#elif __FreeBSD__
inline u16 swap16(u16 _data) {return bswap16(_data);}
inline u32 swap32(u32 _data) {return bswap32(_data);}
inline u64 swap64(u64 _data) {return bswap64(_data);}
#else
// Slow generic implementation.
inline u16 swap16(u16 data) {return (data >> 8) | (data << 8);}
inline u32 swap32(u32 data) {return (swap16(data) << 16) | swap16(data >> 16);}
inline u64 swap64(u64 data) {return ((u64)swap32(data) << 32) | swap32(data >> 32);}
#endif
inline u16 swap16(const u8* _pData) {return swap16(*(const u16*)_pData);}
inline u32 swap32(const u8* _pData) {return swap32(*(const u32*)_pData);}
inline u64 swap64(const u8* _pData) {return swap64(*(const u64*)_pData);}
template <int count>
void swap(u8*);
template <>
inline void swap<1>(u8* data)
{}
template <>
inline void swap<2>(u8* data)
{
*reinterpret_cast<u16*>(data) = swap16(data);
}
template <>
inline void swap<4>(u8* data)
{
*reinterpret_cast<u32*>(data) = swap32(data);
}
template <>
inline void swap<8>(u8* data)
{
*reinterpret_cast<u64*>(data) = swap64(data);
}
template <typename T>
inline T FromBigEndian(T data)
{
//static_assert(std::is_arithmetic<T>::value, "function only makes sense with arithmetic types");
swap<sizeof(data)>(reinterpret_cast<u8*>(&data));
return data;
}
} // Namespace Common
#endif // _COMMONFUNCS_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _COMMON_PATHS_H_
#define _COMMON_PATHS_H_
// Make sure we pick up USER_DIR if set in config.h
#include "common.h"
// Directory seperators, do we need this?
#define DIR_SEP "/"
#define DIR_SEP_CHR '/'
// The user data dir
#define ROOT_DIR "."
#ifdef _WIN32
#define USERDATA_DIR "user"
#define DOLPHIN_DATA_DIR "akiru"
#else
#define USERDATA_DIR "user"
#ifdef USER_DIR
#define DOLPHIN_DATA_DIR USER_DIR
#else
#define DOLPHIN_DATA_DIR ".akiru"
#endif
#endif
// Shared data dirs (Sys and shared User for linux)
#ifdef _WIN32
#define SYSDATA_DIR "sys"
#else
#ifdef DATA_DIR
#define SYSDATA_DIR DATA_DIR "sys"
#define SHARED_USER_DIR DATA_DIR USERDATA_DIR DIR_SEP
#else
#define SYSDATA_DIR "sys"
#define SHARED_USER_DIR ROOT_DIR DIR_SEP USERDATA_DIR DIR_SEP
#endif
#endif
// Dirs in both User and Sys
#define EUR_DIR "EUR"
#define USA_DIR "USA"
#define JAP_DIR "JAP"
// Subdirs in the User dir returned by GetUserPath(D_USER_IDX)
#define CONFIG_DIR "config"
#define GAMECONFIG_DIR "game_config"
#define MAPS_DIR "maps"
#define CACHE_DIR "cache"
#define SHADERCACHE_DIR "shader_cache"
#define STATESAVES_DIR "state_saves"
#define SCREENSHOTS_DIR "screenShots"
#define DUMP_DIR "dump"
#define DUMP_TEXTURES_DIR "textures"
#define DUMP_FRAMES_DIR "frames"
#define DUMP_AUDIO_DIR "audio"
#define LOGS_DIR "logs"
#define SHADERS_DIR "shaders"
// Filenames
// Files in the directory returned by GetUserPath(D_CONFIG_IDX)
#define AKIRU_CONFIG "akiru.ini"
#define DEBUGGER_CONFIG "debugger.ini"
#define LOGGER_CONFIG "logger.ini"
// Files in the directory returned by GetUserPath(D_LOGS_IDX)
#define MAIN_LOG "akiru.log"
#endif // _COMMON_PATHS_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
// This header contains type definitions that are shared between the Dolphin core and
// other parts of the code. Any definitions that are only used by the core should be
// placed in "common.h" instead.
#ifndef _COMMONTYPES_H_
#define _COMMONTYPES_H_
#ifdef _WIN32
#include <tchar.h>
typedef unsigned __int8 u8;
typedef unsigned __int16 u16;
typedef unsigned __int32 u32;
typedef unsigned __int64 u64;
typedef signed __int8 s8;
typedef signed __int16 s16;
typedef signed __int32 s32;
typedef signed __int64 s64;
#else
#ifndef GEKKO
typedef unsigned char u8;
typedef unsigned short u16;
typedef unsigned int u32;
typedef unsigned long long u64;
typedef signed char s8;
typedef signed short s16;
typedef signed int s32;
typedef signed long long s64;
#endif
// For using windows lock code
#define TCHAR char
#define LONG int
#endif // _WIN32
#endif // _COMMONTYPES_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <algorithm> // min
#include <string> // System: To be able to add strings with "+"
#include <stdio.h>
#include <math.h>
#ifdef _WIN32
#include <windows.h>
#include <array>
#else
#include <stdarg.h>
#endif
#include "common.h"
#include "log_manager.h" // Common
#include "console_listener.h" // Common
ConsoleListener::ConsoleListener()
{
#ifdef _WIN32
hConsole = NULL;
bUseColor = true;
#else
bUseColor = isatty(fileno(stdout));
#endif
}
ConsoleListener::~ConsoleListener()
{
Close();
}
// 100, 100, "Dolphin Log Console"
// Open console window - width and height is the size of console window
// Name is the window title
void ConsoleListener::Open(bool Hidden, int Width, int Height, const char *Title)
{
#ifdef _WIN32
if (!GetConsoleWindow())
{
// Open the console window and create the window handle for GetStdHandle()
AllocConsole();
// Hide
if (Hidden) ShowWindow(GetConsoleWindow(), SW_HIDE);
// Save the window handle that AllocConsole() created
hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
// Set the console window title
SetConsoleTitle(UTF8ToTStr(Title).c_str());
// Set letter space
LetterSpace(80, 4000);
//MoveWindow(GetConsoleWindow(), 200,200, 800,800, true);
}
else
{
hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
}
#endif
}
void ConsoleListener::UpdateHandle()
{
#ifdef _WIN32
hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
#endif
}
// Close the console window and close the eventual file handle
void ConsoleListener::Close()
{
#ifdef _WIN32
if (hConsole == NULL)
return;
FreeConsole();
hConsole = NULL;
#else
fflush(NULL);
#endif
}
bool ConsoleListener::IsOpen()
{
#ifdef _WIN32
return (hConsole != NULL);
#else
return true;
#endif
}
/*
LetterSpace: SetConsoleScreenBufferSize and SetConsoleWindowInfo are
dependent on each other, that's the reason for the additional checks.
*/
void ConsoleListener::BufferWidthHeight(int BufferWidth, int BufferHeight, int ScreenWidth, int ScreenHeight, bool BufferFirst)
{
#ifdef _WIN32
BOOL SB, SW;
if (BufferFirst)
{
// Change screen buffer size
COORD Co = {BufferWidth, BufferHeight};
SB = SetConsoleScreenBufferSize(hConsole, Co);
// Change the screen buffer window size
SMALL_RECT coo = {0,0,ScreenWidth, ScreenHeight}; // top, left, right, bottom
SW = SetConsoleWindowInfo(hConsole, TRUE, &coo);
}
else
{
// Change the screen buffer window size
SMALL_RECT coo = {0,0, ScreenWidth, ScreenHeight}; // top, left, right, bottom
SW = SetConsoleWindowInfo(hConsole, TRUE, &coo);
// Change screen buffer size
COORD Co = {BufferWidth, BufferHeight};
SB = SetConsoleScreenBufferSize(hConsole, Co);
}
#endif
}
void ConsoleListener::LetterSpace(int Width, int Height)
{
#ifdef _WIN32
// Get console info
CONSOLE_SCREEN_BUFFER_INFO ConInfo;
GetConsoleScreenBufferInfo(hConsole, &ConInfo);
//
int OldBufferWidth = ConInfo.dwSize.X;
int OldBufferHeight = ConInfo.dwSize.Y;
int OldScreenWidth = (ConInfo.srWindow.Right - ConInfo.srWindow.Left);
int OldScreenHeight = (ConInfo.srWindow.Bottom - ConInfo.srWindow.Top);
//
int NewBufferWidth = Width;
int NewBufferHeight = Height;
int NewScreenWidth = NewBufferWidth - 1;
int NewScreenHeight = OldScreenHeight;
// Width
BufferWidthHeight(NewBufferWidth, OldBufferHeight, NewScreenWidth, OldScreenHeight, (NewBufferWidth > OldScreenWidth-1));
// Height
BufferWidthHeight(NewBufferWidth, NewBufferHeight, NewScreenWidth, NewScreenHeight, (NewBufferHeight > OldScreenHeight-1));
// Resize the window too
//MoveWindow(GetConsoleWindow(), 200,200, (Width*8 + 50),(NewScreenHeight*12 + 200), true);
#endif
}
#ifdef _WIN32
COORD ConsoleListener::GetCoordinates(int BytesRead, int BufferWidth)
{
COORD Ret = {0, 0};
// Full rows
int Step = (int)floor((float)BytesRead / (float)BufferWidth);
Ret.Y += Step;
// Partial row
Ret.X = BytesRead - (BufferWidth * Step);
return Ret;
}
#endif
void ConsoleListener::PixelSpace(int Left, int Top, int Width, int Height, bool Resize)
{
#ifdef _WIN32
// Check size
if (Width < 8 || Height < 12) return;
bool DBef = true;
bool DAft = true;
std::string SLog = "";
const HWND hWnd = GetConsoleWindow();
const HANDLE hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
// Get console info
CONSOLE_SCREEN_BUFFER_INFO ConInfo;
GetConsoleScreenBufferInfo(hConsole, &ConInfo);
DWORD BufferSize = ConInfo.dwSize.X * ConInfo.dwSize.Y;
// ---------------------------------------------------------------------
// Save the current text
// ------------------------
DWORD cCharsRead = 0;
COORD coordScreen = { 0, 0 };
static const int MAX_BYTES = 1024 * 16;
std::vector<std::array<TCHAR, MAX_BYTES>> Str;
std::vector<std::array<WORD, MAX_BYTES>> Attr;
// ReadConsoleOutputAttribute seems to have a limit at this level
static const int ReadBufferSize = MAX_BYTES - 32;
DWORD cAttrRead = ReadBufferSize;
DWORD BytesRead = 0;
while (BytesRead < BufferSize)
{
Str.resize(Str.size() + 1);
if (!ReadConsoleOutputCharacter(hConsole, Str.back().data(), ReadBufferSize, coordScreen, &cCharsRead))
SLog += StringFromFormat("WriteConsoleOutputCharacter error");
Attr.resize(Attr.size() + 1);
if (!ReadConsoleOutputAttribute(hConsole, Attr.back().data(), ReadBufferSize, coordScreen, &cAttrRead))
SLog += StringFromFormat("WriteConsoleOutputAttribute error");
// Break on error
if (cAttrRead == 0) break;
BytesRead += cAttrRead;
coordScreen = GetCoordinates(BytesRead, ConInfo.dwSize.X);
}
// Letter space
int LWidth = (int)(floor((float)Width / 8.0f) - 1.0f);
int LHeight = (int)(floor((float)Height / 12.0f) - 1.0f);
int LBufWidth = LWidth + 1;
int LBufHeight = (int)floor((float)BufferSize / (float)LBufWidth);
// Change screen buffer size
LetterSpace(LBufWidth, LBufHeight);
ClearScreen(true);
coordScreen.Y = 0;
coordScreen.X = 0;
DWORD cCharsWritten = 0;
int BytesWritten = 0;
DWORD cAttrWritten = 0;
for (size_t i = 0; i < Attr.size(); i++)
{
if (!WriteConsoleOutputCharacter(hConsole, Str[i].data(), ReadBufferSize, coordScreen, &cCharsWritten))
SLog += StringFromFormat("WriteConsoleOutputCharacter error");
if (!WriteConsoleOutputAttribute(hConsole, Attr[i].data(), ReadBufferSize, coordScreen, &cAttrWritten))
SLog += StringFromFormat("WriteConsoleOutputAttribute error");
BytesWritten += cAttrWritten;
coordScreen = GetCoordinates(BytesWritten, LBufWidth);
}
const int OldCursor = ConInfo.dwCursorPosition.Y * ConInfo.dwSize.X + ConInfo.dwCursorPosition.X;
COORD Coo = GetCoordinates(OldCursor, LBufWidth);
SetConsoleCursorPosition(hConsole, Coo);
if (SLog.length() > 0) Log(LogTypes::LNOTICE, SLog.c_str());
// Resize the window too
if (Resize) MoveWindow(GetConsoleWindow(), Left,Top, (Width + 100),Height, true);
#endif
}
void ConsoleListener::Log(LogTypes::LOG_LEVELS Level, const char *Text)
{
#if defined(_WIN32)
/*
const int MAX_BYTES = 1024*10;
char Str[MAX_BYTES];
va_list ArgPtr;
int Cnt;
va_start(ArgPtr, Text);
Cnt = vsnprintf(Str, MAX_BYTES, Text, ArgPtr);
va_end(ArgPtr);
*/
DWORD cCharsWritten;
WORD Color;
switch (Level)
{
case NOTICE_LEVEL: // light green
Color = FOREGROUND_GREEN | FOREGROUND_INTENSITY;
break;
case ERROR_LEVEL: // light red
Color = FOREGROUND_RED | FOREGROUND_INTENSITY;
break;
case WARNING_LEVEL: // light yellow
Color = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_INTENSITY;
break;
case INFO_LEVEL: // cyan
Color = FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY;
break;
case DEBUG_LEVEL: // gray
Color = FOREGROUND_INTENSITY;
break;
default: // off-white
Color = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE;
break;
}
if (strlen(Text) > 10)
{
// First 10 chars white
SetConsoleTextAttribute(hConsole, FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY);
WriteConsole(hConsole, Text, 10, &cCharsWritten, NULL);
Text += 10;
}
SetConsoleTextAttribute(hConsole, Color);
WriteConsole(hConsole, Text, (DWORD)strlen(Text), &cCharsWritten, NULL);
#else
char ColorAttr[16] = "";
char ResetAttr[16] = "";
if (bUseColor)
{
strcpy(ResetAttr, "\033[0m");
switch (Level)
{
case NOTICE_LEVEL: // light green
strcpy(ColorAttr, "\033[92m");
break;
case ERROR_LEVEL: // light red
strcpy(ColorAttr, "\033[91m");
break;
case WARNING_LEVEL: // light yellow
strcpy(ColorAttr, "\033[93m");
break;
default:
break;
}
}
fprintf(stderr, "%s%s%s", ColorAttr, Text, ResetAttr);
#endif
}
// Clear console screen
void ConsoleListener::ClearScreen(bool Cursor)
{
#if defined(_WIN32)
COORD coordScreen = { 0, 0 };
DWORD cCharsWritten;
CONSOLE_SCREEN_BUFFER_INFO csbi;
DWORD dwConSize;
HANDLE hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
GetConsoleScreenBufferInfo(hConsole, &csbi);
dwConSize = csbi.dwSize.X * csbi.dwSize.Y;
// Write space to the entire console
FillConsoleOutputCharacter(hConsole, TEXT(' '), dwConSize, coordScreen, &cCharsWritten);
GetConsoleScreenBufferInfo(hConsole, &csbi);
FillConsoleOutputAttribute(hConsole, csbi.wAttributes, dwConSize, coordScreen, &cCharsWritten);
// Reset cursor
if (Cursor) SetConsoleCursorPosition(hConsole, coordScreen);
#endif
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _CONSOLELISTENER_H
#define _CONSOLELISTENER_H
#include "log_manager.h"
#ifdef _WIN32
#include <windows.h>
#endif
class ConsoleListener : public LogListener
{
public:
ConsoleListener();
~ConsoleListener();
void Open(bool Hidden = false, int Width = 100, int Height = 100, const char * Name = "Console");
void UpdateHandle();
void Close();
bool IsOpen();
void LetterSpace(int Width, int Height);
void BufferWidthHeight(int BufferWidth, int BufferHeight, int ScreenWidth, int ScreenHeight, bool BufferFirst);
void PixelSpace(int Left, int Top, int Width, int Height, bool);
#ifdef _WIN32
COORD GetCoordinates(int BytesRead, int BufferWidth);
#endif
void Log(LogTypes::LOG_LEVELS, const char *Text);
void ClearScreen(bool Cursor = true);
private:
#ifdef _WIN32
HWND GetHwnd(void);
HANDLE hConsole;
#endif
bool bUseColor;
};
#endif // _CONSOLELISTENER_H

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
// Detect the cpu, so we'll know which optimizations to use
#ifndef _CPUDETECT_H_
#define _CPUDETECT_H_
#include <string>
enum CPUVendor
{
VENDOR_INTEL = 0,
VENDOR_AMD = 1,
VENDOR_ARM = 2,
VENDOR_OTHER = 3,
};
struct CPUInfo
{
CPUVendor vendor;
char cpu_string[0x21];
char brand_string[0x41];
bool OS64bit;
bool CPU64bit;
bool Mode64bit;
bool HTT;
int num_cores;
int logical_cpu_count;
bool bSSE;
bool bSSE2;
bool bSSE3;
bool bSSSE3;
bool bPOPCNT;
bool bSSE4_1;
bool bSSE4_2;
bool bLZCNT;
bool bSSE4A;
bool bAVX;
bool bAES;
bool bLAHFSAHF64;
bool bLongMode;
// ARM specific CPUInfo
bool bSwp;
bool bHalf;
bool bThumb;
bool bFastMult;
bool bVFP;
bool bEDSP;
bool bThumbEE;
bool bNEON;
bool bVFPv3;
bool bTLS;
bool bVFPv4;
bool bIDIVa;
bool bIDIVt;
bool bArmV7; // enable MOVT, MOVW etc
// ARMv8 specific
bool bFP;
bool bASIMD;
// Call Detect()
explicit CPUInfo();
// Turn the cpu info into a string we can show
std::string Summarize();
private:
// Detects the various cpu features
void Detect();
};
extern CPUInfo cpu_info;
#endif // _CPUDETECT_H_

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#ifndef _DEBUGINTERFACE_H
#define _DEBUGINTERFACE_H
#include <string>
#include <string.h>
class DebugInterface
{
protected:
virtual ~DebugInterface() {}
public:
virtual void disasm(unsigned int /*address*/, char *dest, int /*max_size*/) {strcpy(dest, "NODEBUGGER");}
virtual void getRawMemoryString(int /*memory*/, unsigned int /*address*/, char *dest, int /*max_size*/) {strcpy(dest, "NODEBUGGER");}
virtual int getInstructionSize(int /*instruction*/) {return 1;}
virtual bool isAlive() {return true;}
virtual bool isBreakpoint(unsigned int /*address*/) {return false;}
virtual void setBreakpoint(unsigned int /*address*/){}
virtual void clearBreakpoint(unsigned int /*address*/){}
virtual void clearAllBreakpoints() {}
virtual void toggleBreakpoint(unsigned int /*address*/){}
virtual bool isMemCheck(unsigned int /*address*/) {return false;}
virtual void toggleMemCheck(unsigned int /*address*/){}
virtual unsigned int readMemory(unsigned int /*address*/){return 0;}
virtual void writeExtraMemory(int /*memory*/, unsigned int /*value*/, unsigned int /*address*/) {}
virtual unsigned int readExtraMemory(int /*memory*/, unsigned int /*address*/){return 0;}
virtual unsigned int readInstruction(unsigned int /*address*/){return 0;}
virtual unsigned int getPC() {return 0;}
virtual void setPC(unsigned int /*address*/) {}
virtual void step() {}
virtual void runToBreakpoint() {}
virtual void breakNow() {}
virtual void insertBLR(unsigned int /*address*/, unsigned int /*value*/) {}
virtual void showJitResults(unsigned int /*address*/) {};
virtual int getColor(unsigned int /*address*/){return 0xFFFFFFFF;}
virtual std::string getDescription(unsigned int /*address*/) = 0;
};
#endif

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// --------------------------------------------------------------------------------------
//
// Written by Zoltan Csizmadia, zoltan_csizmadia@yahoo.com
// For companies(Austin,TX): If you would like to get my resume, send an email.
//
// The source is free, but if you want to use it, mention my name and e-mail address
//
// History:
// 1.0 Initial version Zoltan Csizmadia
// 1.1 WhineCube version Masken
// 1.2 Dolphin version Masken
//
// --------------------------------------------------------------------------------------
#if defined(WIN32)
#include <windows.h>
#include <stdio.h>
#include "extended_trace.h"
#include "string_util.h"
using namespace std;
#include <tchar.h>
#include <ImageHlp.h>
#define BUFFERSIZE 0x200
#pragma warning(disable:4996)
// Unicode safe char* -> TCHAR* conversion
void PCSTR2LPTSTR( PCSTR lpszIn, LPTSTR lpszOut )
{
#if defined(UNICODE)||defined(_UNICODE)
ULONG index = 0;
PCSTR lpAct = lpszIn;
for( ; ; lpAct++ )
{
lpszOut[index++] = (TCHAR)(*lpAct);
if ( *lpAct == 0 )
break;
}
#else
// This is trivial :)
strcpy( lpszOut, lpszIn );
#endif
}
// Let's figure out the path for the symbol files
// Search path= ".;%_NT_SYMBOL_PATH%;%_NT_ALTERNATE_SYMBOL_PATH%;%SYSTEMROOT%;%SYSTEMROOT%\System32;" + lpszIniPath
// Note: There is no size check for lpszSymbolPath!
static void InitSymbolPath( PSTR lpszSymbolPath, PCSTR lpszIniPath )
{
CHAR lpszPath[BUFFERSIZE];
// Creating the default path
// ".;%_NT_SYMBOL_PATH%;%_NT_ALTERNATE_SYMBOL_PATH%;%SYSTEMROOT%;%SYSTEMROOT%\System32;"
strcpy( lpszSymbolPath, "." );
// environment variable _NT_SYMBOL_PATH
if ( GetEnvironmentVariableA( "_NT_SYMBOL_PATH", lpszPath, BUFFERSIZE ) )
{
strcat( lpszSymbolPath, ";" );
strcat( lpszSymbolPath, lpszPath );
}
// environment variable _NT_ALTERNATE_SYMBOL_PATH
if ( GetEnvironmentVariableA( "_NT_ALTERNATE_SYMBOL_PATH", lpszPath, BUFFERSIZE ) )
{
strcat( lpszSymbolPath, ";" );
strcat( lpszSymbolPath, lpszPath );
}
// environment variable SYSTEMROOT
if ( GetEnvironmentVariableA( "SYSTEMROOT", lpszPath, BUFFERSIZE ) )
{
strcat( lpszSymbolPath, ";" );
strcat( lpszSymbolPath, lpszPath );
strcat( lpszSymbolPath, ";" );
// SYSTEMROOT\System32
strcat( lpszSymbolPath, lpszPath );
strcat( lpszSymbolPath, "\\System32" );
}
// Add user defined path
if ( lpszIniPath != NULL )
if ( lpszIniPath[0] != '\0' )
{
strcat( lpszSymbolPath, ";" );
strcat( lpszSymbolPath, lpszIniPath );
}
}
// Uninitialize the loaded symbol files
BOOL UninitSymInfo() {
return SymCleanup( GetCurrentProcess() );
}
// Initializes the symbol files
BOOL InitSymInfo( PCSTR lpszInitialSymbolPath )
{
CHAR lpszSymbolPath[BUFFERSIZE];
DWORD symOptions = SymGetOptions();
symOptions |= SYMOPT_LOAD_LINES;
symOptions &= ~SYMOPT_UNDNAME;
SymSetOptions( symOptions );
InitSymbolPath( lpszSymbolPath, lpszInitialSymbolPath );
return SymInitialize( GetCurrentProcess(), lpszSymbolPath, TRUE);
}
// Get the module name from a given address
static BOOL GetModuleNameFromAddress( UINT address, LPTSTR lpszModule )
{
BOOL ret = FALSE;
IMAGEHLP_MODULE moduleInfo;
::ZeroMemory( &moduleInfo, sizeof(moduleInfo) );
moduleInfo.SizeOfStruct = sizeof(moduleInfo);
if ( SymGetModuleInfo( GetCurrentProcess(), (DWORD)address, &moduleInfo ) )
{
// Got it!
PCSTR2LPTSTR( moduleInfo.ModuleName, lpszModule );
ret = TRUE;
}
else
// Not found :(
_tcscpy( lpszModule, _T("?") );
return ret;
}
// Get function prototype and parameter info from ip address and stack address
static BOOL GetFunctionInfoFromAddresses( ULONG fnAddress, ULONG stackAddress, LPTSTR lpszSymbol )
{
BOOL ret = FALSE;
DWORD dwSymSize = 10000;
TCHAR lpszUnDSymbol[BUFFERSIZE]=_T("?");
CHAR lpszNonUnicodeUnDSymbol[BUFFERSIZE]="?";
LPTSTR lpszParamSep = NULL;
LPTSTR lpszParsed = lpszUnDSymbol;
PIMAGEHLP_SYMBOL pSym = (PIMAGEHLP_SYMBOL)GlobalAlloc( GMEM_FIXED, dwSymSize );
::ZeroMemory( pSym, dwSymSize );
pSym->SizeOfStruct = dwSymSize;
pSym->MaxNameLength = dwSymSize - sizeof(IMAGEHLP_SYMBOL);
// Set the default to unknown
_tcscpy( lpszSymbol, _T("?") );
// Get symbol info for IP
#ifndef _M_X64
DWORD dwDisp = 0;
if ( SymGetSymFromAddr( GetCurrentProcess(), (ULONG)fnAddress, &dwDisp, pSym ) )
#else
//makes it compile but hell im not sure if this works...
DWORD64 dwDisp = 0;
if ( SymGetSymFromAddr( GetCurrentProcess(), (ULONG)fnAddress, (PDWORD64)&dwDisp, pSym ) )
#endif
{
// Make the symbol readable for humans
UnDecorateSymbolName( pSym->Name, lpszNonUnicodeUnDSymbol, BUFFERSIZE,
UNDNAME_COMPLETE |
UNDNAME_NO_THISTYPE |
UNDNAME_NO_SPECIAL_SYMS |
UNDNAME_NO_MEMBER_TYPE |
UNDNAME_NO_MS_KEYWORDS |
UNDNAME_NO_ACCESS_SPECIFIERS );
// Symbol information is ANSI string
PCSTR2LPTSTR( lpszNonUnicodeUnDSymbol, lpszUnDSymbol );
// I am just smarter than the symbol file :)
if ( _tcscmp(lpszUnDSymbol, _T("_WinMain@16")) == 0 )
_tcscpy(lpszUnDSymbol, _T("WinMain(HINSTANCE,HINSTANCE,LPCTSTR,int)"));
else
if ( _tcscmp(lpszUnDSymbol, _T("_main")) == 0 )
_tcscpy(lpszUnDSymbol, _T("main(int,TCHAR * *)"));
else
if ( _tcscmp(lpszUnDSymbol, _T("_mainCRTStartup")) == 0 )
_tcscpy(lpszUnDSymbol, _T("mainCRTStartup()"));
else
if ( _tcscmp(lpszUnDSymbol, _T("_wmain")) == 0 )
_tcscpy(lpszUnDSymbol, _T("wmain(int,TCHAR * *,TCHAR * *)"));
else
if ( _tcscmp(lpszUnDSymbol, _T("_wmainCRTStartup")) == 0 )
_tcscpy(lpszUnDSymbol, _T("wmainCRTStartup()"));
lpszSymbol[0] = _T('\0');
// Let's go through the stack, and modify the function prototype, and insert the actual
// parameter values from the stack
if ( _tcsstr( lpszUnDSymbol, _T("(void)") ) == NULL && _tcsstr( lpszUnDSymbol, _T("()") ) == NULL)
{
ULONG index = 0;
for( ; ; index++ )
{
lpszParamSep = _tcschr( lpszParsed, _T(',') );
if ( lpszParamSep == NULL )
break;
*lpszParamSep = _T('\0');
_tcscat( lpszSymbol, lpszParsed );
_stprintf( lpszSymbol + _tcslen(lpszSymbol), _T("=0x%08X,"), *((ULONG*)(stackAddress) + 2 + index) );
lpszParsed = lpszParamSep + 1;
}
lpszParamSep = _tcschr( lpszParsed, _T(')') );
if ( lpszParamSep != NULL )
{
*lpszParamSep = _T('\0');
_tcscat( lpszSymbol, lpszParsed );
_stprintf( lpszSymbol + _tcslen(lpszSymbol), _T("=0x%08X)"), *((ULONG*)(stackAddress) + 2 + index) );
lpszParsed = lpszParamSep + 1;
}
}
_tcscat( lpszSymbol, lpszParsed );
ret = TRUE;
}
GlobalFree( pSym );
return ret;
}
// Get source file name and line number from IP address
// The output format is: "sourcefile(linenumber)" or
// "modulename!address" or
// "address"
static BOOL GetSourceInfoFromAddress( UINT address, LPTSTR lpszSourceInfo )
{
BOOL ret = FALSE;
IMAGEHLP_LINE lineInfo;
DWORD dwDisp;
TCHAR lpszFileName[BUFFERSIZE] = _T("");
TCHAR lpModuleInfo[BUFFERSIZE] = _T("");
_tcscpy( lpszSourceInfo, _T("?(?)") );
::ZeroMemory( &lineInfo, sizeof( lineInfo ) );
lineInfo.SizeOfStruct = sizeof( lineInfo );
if ( SymGetLineFromAddr( GetCurrentProcess(), address, &dwDisp, &lineInfo ) )
{
// Got it. Let's use "sourcefile(linenumber)" format
PCSTR2LPTSTR( lineInfo.FileName, lpszFileName );
TCHAR fname[_MAX_FNAME];
TCHAR ext[_MAX_EXT];
_tsplitpath(lpszFileName, NULL, NULL, fname, ext);
_stprintf( lpszSourceInfo, _T("%s%s(%d)"), fname, ext, lineInfo.LineNumber );
ret = TRUE;
}
else
{
// There is no source file information. :(
// Let's use the "modulename!address" format
GetModuleNameFromAddress( address, lpModuleInfo );
if ( lpModuleInfo[0] == _T('?') || lpModuleInfo[0] == _T('\0'))
// There is no modulename information. :((
// Let's use the "address" format
_stprintf( lpszSourceInfo, _T("0x%08X"), address );
else
_stprintf( lpszSourceInfo, _T("%s!0x%08X"), lpModuleInfo, address );
ret = FALSE;
}
return ret;
}
void PrintFunctionAndSourceInfo(FILE* file, const STACKFRAME& callstack)
{
TCHAR symInfo[BUFFERSIZE] = _T("?");
TCHAR srcInfo[BUFFERSIZE] = _T("?");
GetFunctionInfoFromAddresses((ULONG)callstack.AddrPC.Offset, (ULONG)callstack.AddrFrame.Offset, symInfo);
GetSourceInfoFromAddress((ULONG)callstack.AddrPC.Offset, srcInfo);
etfprint(file, " " + TStrToUTF8(srcInfo) + " : " + TStrToUTF8(symInfo) + "\n");
}
void StackTrace( HANDLE hThread, const char* lpszMessage, FILE *file )
{
STACKFRAME callStack;
BOOL bResult;
CONTEXT context;
HANDLE hProcess = GetCurrentProcess();
// If it's not this thread, let's suspend it, and resume it at the end
if ( hThread != GetCurrentThread() )
if ( SuspendThread( hThread ) == -1 )
{
// whaaat ?!
etfprint(file, "Call stack info failed\n");
return;
}
::ZeroMemory( &context, sizeof(context) );
context.ContextFlags = CONTEXT_FULL;
if ( !GetThreadContext( hThread, &context ) )
{
etfprint(file, "Call stack info failed\n");
return;
}
::ZeroMemory( &callStack, sizeof(callStack) );
#ifndef _M_X64
callStack.AddrPC.Offset = context.Eip;
callStack.AddrStack.Offset = context.Esp;
callStack.AddrFrame.Offset = context.Ebp;
#else
callStack.AddrPC.Offset = context.Rip;
callStack.AddrStack.Offset = context.Rsp;
callStack.AddrFrame.Offset = context.Rbp;
#endif
callStack.AddrPC.Mode = AddrModeFlat;
callStack.AddrStack.Mode = AddrModeFlat;
callStack.AddrFrame.Mode = AddrModeFlat;
etfprint(file, "Call stack info: \n");
etfprint(file, lpszMessage);
PrintFunctionAndSourceInfo(file, callStack);
for( ULONG index = 0; ; index++ )
{
bResult = StackWalk(
IMAGE_FILE_MACHINE_I386,
hProcess,
hThread,
&callStack,
NULL,
NULL,
SymFunctionTableAccess,
SymGetModuleBase,
NULL);
if ( index == 0 )
continue;
if( !bResult || callStack.AddrFrame.Offset == 0 )
break;
PrintFunctionAndSourceInfo(file, callStack);
}
if ( hThread != GetCurrentThread() )
ResumeThread( hThread );
}
void StackTrace(HANDLE hThread, const char* lpszMessage, FILE *file, DWORD eip, DWORD esp, DWORD ebp )
{
STACKFRAME callStack;
BOOL bResult;
TCHAR symInfo[BUFFERSIZE] = _T("?");
TCHAR srcInfo[BUFFERSIZE] = _T("?");
HANDLE hProcess = GetCurrentProcess();
// If it's not this thread, let's suspend it, and resume it at the end
if ( hThread != GetCurrentThread() )
if ( SuspendThread( hThread ) == -1 )
{
// whaaat ?!
etfprint(file, "Call stack info failed\n");
return;
}
::ZeroMemory( &callStack, sizeof(callStack) );
callStack.AddrPC.Offset = eip;
callStack.AddrStack.Offset = esp;
callStack.AddrFrame.Offset = ebp;
callStack.AddrPC.Mode = AddrModeFlat;
callStack.AddrStack.Mode = AddrModeFlat;
callStack.AddrFrame.Mode = AddrModeFlat;
etfprint(file, "Call stack info: \n");
etfprint(file, lpszMessage);
PrintFunctionAndSourceInfo(file, callStack);
for( ULONG index = 0; ; index++ )
{
bResult = StackWalk(
IMAGE_FILE_MACHINE_I386,
hProcess,
hThread,
&callStack,
NULL,
NULL,
SymFunctionTableAccess,
SymGetModuleBase,
NULL);
if ( index == 0 )
continue;
if( !bResult || callStack.AddrFrame.Offset == 0 )
break;
PrintFunctionAndSourceInfo(file, callStack);
}
if ( hThread != GetCurrentThread() )
ResumeThread( hThread );
}
char g_uefbuf[2048];
void etfprintf(FILE *file, const char *format, ...)
{
va_list ap;
va_start(ap, format);
int len = vsprintf(g_uefbuf, format, ap);
fwrite(g_uefbuf, 1, len, file);
va_end(ap);
}
void etfprint(FILE *file, const std::string &text)
{
size_t len = text.length();
fwrite(text.data(), 1, len, file);
}
#endif //WIN32

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// -----------------------------------------------------------------------------------------
//
// Written by Zoltan Csizmadia, zoltan_csizmadia@yahoo.com
// For companies(Austin,TX): If you would like to get my resume, send an email.
//
// The source is free, but if you want to use it, mention my name and e-mail address
//
// History:
// 1.0 Initial version Zoltan Csizmadia
// 1.1 WhineCube version Masken
// 1.2 Dolphin version Masken
//
// ----------------------------------------------------------------------------------------
#ifndef _EXTENDEDTRACE_H_INCLUDED_
#define _EXTENDEDTRACE_H_INCLUDED_
#if defined(WIN32)
#include <windows.h>
#include <tchar.h>
#include <string>
#pragma comment( lib, "imagehlp.lib" )
#define EXTENDEDTRACEINITIALIZE( IniSymbolPath ) InitSymInfo( IniSymbolPath )
#define EXTENDEDTRACEUNINITIALIZE() UninitSymInfo()
#define STACKTRACE(file) StackTrace( GetCurrentThread(), "", file)
#define STACKTRACE2(file, eip, esp, ebp) StackTrace(GetCurrentThread(), "", file, eip, esp, ebp)
// class File;
BOOL InitSymInfo( PCSTR );
BOOL UninitSymInfo();
void StackTrace(HANDLE, char const* msg, FILE *file);
void StackTrace(HANDLE, char const* msg, FILE *file, DWORD eip, DWORD esp, DWORD ebp);
// functions by Masken
void etfprintf(FILE *file, const char *format, ...);
void etfprint(FILE *file, const std::string &text);
#define UEFBUFSIZE 2048
extern char g_uefbuf[UEFBUFSIZE];
#else // not WIN32
#define EXTENDEDTRACEINITIALIZE( IniSymbolPath ) ((void)0)
#define EXTENDEDTRACEUNINITIALIZE() ((void)0)
#define STACKTRACE(file) ((void)0)
#define STACKTRACE2(file, eip, esp, ebp) ((void)0)
#endif // WIN32
#endif // _EXTENDEDTRACE_H_INCLUDED_

115
src/common/src/fifo_queue.h Normal file
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#ifndef _FIFO_QUEUE_H_
#define _FIFO_QUEUE_H_
// a simple lockless thread-safe,
// single reader, single writer queue
#include "atomic.h"
namespace Common
{
template <typename T>
class FifoQueue
{
public:
FifoQueue() : m_size(0)
{
m_write_ptr = m_read_ptr = new ElementPtr();
}
~FifoQueue()
{
// this will empty out the whole queue
delete m_read_ptr;
}
u32 Size() const
{
return m_size;
}
bool Empty() const
{
//return (m_read_ptr == m_write_ptr);
return (0 == m_size);
}
T& Front() const
{
return *m_read_ptr->current;
}
template <typename Arg>
void Push(Arg&& t)
{
// create the element, add it to the queue
m_write_ptr->current = new T(std::forward<Arg>(t));
// set the next pointer to a new element ptr
// then advance the write pointer
m_write_ptr = m_write_ptr->next = new ElementPtr();
Common::AtomicIncrement(m_size);
}
void Pop()
{
Common::AtomicDecrement(m_size);
ElementPtr *const tmpptr = m_read_ptr;
// advance the read pointer
m_read_ptr = m_read_ptr->next;
// set the next element to NULL to stop the recursive deletion
tmpptr->next = NULL;
delete tmpptr; // this also deletes the element
}
bool Pop(T& t)
{
if (Empty())
return false;
t = std::move(Front());
Pop();
return true;
}
// not thread-safe
void Clear()
{
m_size = 0;
delete m_read_ptr;
m_write_ptr = m_read_ptr = new ElementPtr();
}
private:
// stores a pointer to element
// and a pointer to the next ElementPtr
class ElementPtr
{
public:
ElementPtr() : current(NULL), next(NULL) {}
~ElementPtr()
{
if (current)
{
delete current;
// recusion ftw
if (next)
delete next;
}
}
T *volatile current;
ElementPtr *volatile next;
};
ElementPtr *volatile m_write_ptr;
ElementPtr *volatile m_read_ptr;
volatile u32 m_size;
};
}
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "common_paths.h"
#ifndef _WIN32
#include <sys/types.h>
#include <dirent.h>
#else
#include <windows.h>
#endif
#include <string>
#include <algorithm>
#include "file_search.h"
#include "string_util.h"
CFileSearch::CFileSearch(const CFileSearch::XStringVector& _rSearchStrings, const CFileSearch::XStringVector& _rDirectories)
{
// Reverse the loop order for speed?
for (size_t j = 0; j < _rSearchStrings.size(); j++)
{
for (size_t i = 0; i < _rDirectories.size(); i++)
{
FindFiles(_rSearchStrings[j], _rDirectories[i]);
}
}
}
void CFileSearch::FindFiles(const std::string& _searchString, const std::string& _strPath)
{
std::string GCMSearchPath;
BuildCompleteFilename(GCMSearchPath, _strPath, _searchString);
#ifdef _WIN32
WIN32_FIND_DATA findData;
HANDLE FindFirst = FindFirstFile(UTF8ToTStr(GCMSearchPath).c_str(), &findData);
if (FindFirst != INVALID_HANDLE_VALUE)
{
bool bkeepLooping = true;
while (bkeepLooping)
{
if (findData.cFileName[0] != '.')
{
std::string strFilename;
BuildCompleteFilename(strFilename, _strPath, TStrToUTF8(findData.cFileName));
m_FileNames.push_back(strFilename);
}
bkeepLooping = FindNextFile(FindFirst, &findData) ? true : false;
}
}
FindClose(FindFirst);
#else
// TODO: super lame/broken
auto end_match(_searchString);
// assuming we have a "*.blah"-like pattern
if (!end_match.empty() && end_match[0] == '*')
end_match.erase(0, 1);
// ugly
if (end_match == ".*")
end_match.clear();
DIR* dir = opendir(_strPath.c_str());
if (!dir)
return;
while (auto const dp = readdir(dir))
{
std::string found(dp->d_name);
if ((found != ".") && (found != "..")
&& (found.size() >= end_match.size())
&& std::equal(end_match.rbegin(), end_match.rend(), found.rbegin()))
{
std::string full_name;
if (_strPath.c_str()[_strPath.size()-1] == DIR_SEP_CHR)
full_name = _strPath + found;
else
full_name = _strPath + DIR_SEP + found;
m_FileNames.push_back(full_name);
}
}
closedir(dir);
#endif
}
const CFileSearch::XStringVector& CFileSearch::GetFileNames() const
{
return m_FileNames;
}

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@ -0,0 +1,28 @@
// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _FILESEARCH_H_
#define _FILESEARCH_H_
#include <string>
#include <vector>
class CFileSearch
{
public:
typedef std::vector<std::string>XStringVector;
CFileSearch(const XStringVector& _rSearchStrings, const XStringVector& _rDirectories);
const XStringVector& GetFileNames() const;
private:
void FindFiles(const std::string& _searchString, const std::string& _strPath);
XStringVector m_FileNames;
};
#endif // _FILESEARCH_H_

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@ -0,0 +1,922 @@
// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "common_paths.h"
#include "file_util.h"
#include "string_util.h"
#ifdef _WIN32
#include <windows.h>
#include <shlobj.h> // for SHGetFolderPath
#include <shellapi.h>
#include <commdlg.h> // for GetSaveFileName
#include <io.h>
#include <direct.h> // getcwd
#else
#include <sys/param.h>
#include <sys/types.h>
#include <dirent.h>
#include <errno.h>
#include <stdlib.h>
#endif
#if defined(__APPLE__)
#include <CoreFoundation/CFString.h>
#include <CoreFoundation/CFURL.h>
#include <CoreFoundation/CFBundle.h>
#endif
#include <algorithm>
#include <sys/stat.h>
#include "string_util.h"
#ifndef S_ISDIR
#define S_ISDIR(m) (((m)&S_IFMT) == S_IFDIR)
#endif
#ifdef BSD4_4
#define stat64 stat
#define fstat64 fstat
#endif
// This namespace has various generic functions related to files and paths.
// The code still needs a ton of cleanup.
// REMEMBER: strdup considered harmful!
namespace File
{
// Remove any ending forward slashes from directory paths
// Modifies argument.
static void StripTailDirSlashes(std::string &fname)
{
if (fname.length() > 1)
{
size_t i = fname.length() - 1;
while (fname[i] == DIR_SEP_CHR)
fname[i--] = '\0';
}
return;
}
// Returns true if file filename exists
bool Exists(const std::string &filename)
{
struct stat64 file_info;
std::string copy(filename);
StripTailDirSlashes(copy);
#ifdef _WIN32
int result = _tstat64(UTF8ToTStr(copy).c_str(), &file_info);
#else
int result = stat64(copy.c_str(), &file_info);
#endif
return (result == 0);
}
// Returns true if filename is a directory
bool IsDirectory(const std::string &filename)
{
struct stat64 file_info;
std::string copy(filename);
StripTailDirSlashes(copy);
#ifdef _WIN32
int result = _tstat64(UTF8ToTStr(copy).c_str(), &file_info);
#else
int result = stat64(copy.c_str(), &file_info);
#endif
if (result < 0) {
WARN_LOG(COMMON, "IsDirectory: stat failed on %s: %s",
filename.c_str(), GetLastErrorMsg());
return false;
}
return S_ISDIR(file_info.st_mode);
}
// Deletes a given filename, return true on success
// Doesn't supports deleting a directory
bool Delete(const std::string &filename)
{
INFO_LOG(COMMON, "Delete: file %s", filename.c_str());
// Return true because we care about the file no
// being there, not the actual delete.
if (!Exists(filename))
{
WARN_LOG(COMMON, "Delete: %s does not exist", filename.c_str());
return true;
}
// We can't delete a directory
if (IsDirectory(filename))
{
WARN_LOG(COMMON, "Delete failed: %s is a directory", filename.c_str());
return false;
}
#ifdef _WIN32
if (!DeleteFile(UTF8ToTStr(filename).c_str()))
{
WARN_LOG(COMMON, "Delete: DeleteFile failed on %s: %s",
filename.c_str(), GetLastErrorMsg());
return false;
}
#else
if (unlink(filename.c_str()) == -1) {
WARN_LOG(COMMON, "Delete: unlink failed on %s: %s",
filename.c_str(), GetLastErrorMsg());
return false;
}
#endif
return true;
}
// Returns true if successful, or path already exists.
bool CreateDir(const std::string &path)
{
INFO_LOG(COMMON, "CreateDir: directory %s", path.c_str());
#ifdef _WIN32
if (::CreateDirectory(UTF8ToTStr(path).c_str(), NULL))
return true;
DWORD error = GetLastError();
if (error == ERROR_ALREADY_EXISTS)
{
WARN_LOG(COMMON, "CreateDir: CreateDirectory failed on %s: already exists", path.c_str());
return true;
}
ERROR_LOG(COMMON, "CreateDir: CreateDirectory failed on %s: %i", path.c_str(), error);
return false;
#else
if (mkdir(path.c_str(), 0755) == 0)
return true;
int err = errno;
if (err == EEXIST)
{
WARN_LOG(COMMON, "CreateDir: mkdir failed on %s: already exists", path.c_str());
return true;
}
ERROR_LOG(COMMON, "CreateDir: mkdir failed on %s: %s", path.c_str(), strerror(err));
return false;
#endif
}
// Creates the full path of fullPath returns true on success
bool CreateFullPath(const std::string &fullPath)
{
int panicCounter = 100;
INFO_LOG(COMMON, "CreateFullPath: path %s", fullPath.c_str());
if (File::Exists(fullPath))
{
INFO_LOG(COMMON, "CreateFullPath: path exists %s", fullPath.c_str());
return true;
}
size_t position = 0;
while (true)
{
// Find next sub path
position = fullPath.find(DIR_SEP_CHR, position);
// we're done, yay!
if (position == fullPath.npos)
return true;
// Include the '/' so the first call is CreateDir("/") rather than CreateDir("")
std::string const subPath(fullPath.substr(0, position + 1));
if (!File::IsDirectory(subPath))
File::CreateDir(subPath);
// A safety check
panicCounter--;
if (panicCounter <= 0)
{
ERROR_LOG(COMMON, "CreateFullPath: directory structure is too deep");
return false;
}
position++;
}
}
// Deletes a directory filename, returns true on success
bool DeleteDir(const std::string &filename)
{
INFO_LOG(COMMON, "DeleteDir: directory %s", filename.c_str());
// check if a directory
if (!File::IsDirectory(filename))
{
ERROR_LOG(COMMON, "DeleteDir: Not a directory %s", filename.c_str());
return false;
}
#ifdef _WIN32
if (::RemoveDirectory(UTF8ToTStr(filename).c_str()))
return true;
#else
if (rmdir(filename.c_str()) == 0)
return true;
#endif
ERROR_LOG(COMMON, "DeleteDir: %s: %s", filename.c_str(), GetLastErrorMsg());
return false;
}
// renames file srcFilename to destFilename, returns true on success
bool Rename(const std::string &srcFilename, const std::string &destFilename)
{
INFO_LOG(COMMON, "Rename: %s --> %s",
srcFilename.c_str(), destFilename.c_str());
if (rename(srcFilename.c_str(), destFilename.c_str()) == 0)
return true;
ERROR_LOG(COMMON, "Rename: failed %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
return false;
}
// copies file srcFilename to destFilename, returns true on success
bool Copy(const std::string &srcFilename, const std::string &destFilename)
{
INFO_LOG(COMMON, "Copy: %s --> %s",
srcFilename.c_str(), destFilename.c_str());
#ifdef _WIN32
if (CopyFile(UTF8ToTStr(srcFilename).c_str(), UTF8ToTStr(destFilename).c_str(), FALSE))
return true;
ERROR_LOG(COMMON, "Copy: failed %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
return false;
#else
// buffer size
#define BSIZE 1024
char buffer[BSIZE];
// Open input file
FILE *input = fopen(srcFilename.c_str(), "rb");
if (!input)
{
ERROR_LOG(COMMON, "Copy: input failed %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
return false;
}
// open output file
FILE *output = fopen(destFilename.c_str(), "wb");
if (!output)
{
fclose(input);
ERROR_LOG(COMMON, "Copy: output failed %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
return false;
}
// copy loop
while (!feof(input))
{
// read input
int rnum = fread(buffer, sizeof(char), BSIZE, input);
if (rnum != BSIZE)
{
if (ferror(input) != 0)
{
ERROR_LOG(COMMON,
"Copy: failed reading from source, %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
goto bail;
}
}
// write output
int wnum = fwrite(buffer, sizeof(char), rnum, output);
if (wnum != rnum)
{
ERROR_LOG(COMMON,
"Copy: failed writing to output, %s --> %s: %s",
srcFilename.c_str(), destFilename.c_str(), GetLastErrorMsg());
goto bail;
}
}
// close files
fclose(input);
fclose(output);
return true;
bail:
if (input)
fclose(input);
if (output)
fclose(output);
return false;
#endif
}
// Returns the size of filename (64bit)
u64 GetSize(const std::string &filename)
{
if (!Exists(filename))
{
WARN_LOG(COMMON, "GetSize: failed %s: No such file", filename.c_str());
return 0;
}
if (IsDirectory(filename))
{
WARN_LOG(COMMON, "GetSize: failed %s: is a directory", filename.c_str());
return 0;
}
struct stat64 buf;
#ifdef _WIN32
if (_tstat64(UTF8ToTStr(filename).c_str(), &buf) == 0)
#else
if (stat64(filename.c_str(), &buf) == 0)
#endif
{
DEBUG_LOG(COMMON, "GetSize: %s: %lld",
filename.c_str(), (long long)buf.st_size);
return buf.st_size;
}
ERROR_LOG(COMMON, "GetSize: Stat failed %s: %s",
filename.c_str(), GetLastErrorMsg());
return 0;
}
// Overloaded GetSize, accepts file descriptor
u64 GetSize(const int fd)
{
struct stat64 buf;
if (fstat64(fd, &buf) != 0) {
ERROR_LOG(COMMON, "GetSize: stat failed %i: %s",
fd, GetLastErrorMsg());
return 0;
}
return buf.st_size;
}
// Overloaded GetSize, accepts FILE*
u64 GetSize(FILE *f)
{
// can't use off_t here because it can be 32-bit
u64 pos = ftello(f);
if (fseeko(f, 0, SEEK_END) != 0) {
ERROR_LOG(COMMON, "GetSize: seek failed %p: %s",
f, GetLastErrorMsg());
return 0;
}
u64 size = ftello(f);
if ((size != pos) && (fseeko(f, pos, SEEK_SET) != 0)) {
ERROR_LOG(COMMON, "GetSize: seek failed %p: %s",
f, GetLastErrorMsg());
return 0;
}
return size;
}
// creates an empty file filename, returns true on success
bool CreateEmptyFile(const std::string &filename)
{
INFO_LOG(COMMON, "CreateEmptyFile: %s", filename.c_str());
if (!File::IOFile(filename, "wb"))
{
ERROR_LOG(COMMON, "CreateEmptyFile: failed %s: %s",
filename.c_str(), GetLastErrorMsg());
return false;
}
return true;
}
// Scans the directory tree gets, starting from _Directory and adds the
// results into parentEntry. Returns the number of files+directories found
u32 ScanDirectoryTree(const std::string &directory, FSTEntry& parentEntry)
{
INFO_LOG(COMMON, "ScanDirectoryTree: directory %s", directory.c_str());
// How many files + directories we found
u32 foundEntries = 0;
#ifdef _WIN32
// Find the first file in the directory.
WIN32_FIND_DATA ffd;
HANDLE hFind = FindFirstFile(UTF8ToTStr(directory + "\\*").c_str(), &ffd);
if (hFind == INVALID_HANDLE_VALUE)
{
FindClose(hFind);
return foundEntries;
}
// windows loop
do
{
FSTEntry entry;
const std::string virtualName(TStrToUTF8(ffd.cFileName));
#else
struct dirent dirent, *result = NULL;
DIR *dirp = opendir(directory.c_str());
if (!dirp)
return 0;
// non windows loop
while (!readdir_r(dirp, &dirent, &result) && result)
{
FSTEntry entry;
const std::string virtualName(result->d_name);
#endif
// check for "." and ".."
if (((virtualName[0] == '.') && (virtualName[1] == '\0')) ||
((virtualName[0] == '.') && (virtualName[1] == '.') &&
(virtualName[2] == '\0')))
continue;
entry.virtualName = virtualName;
entry.physicalName = directory;
entry.physicalName += DIR_SEP + entry.virtualName;
if (IsDirectory(entry.physicalName.c_str()))
{
entry.isDirectory = true;
// is a directory, lets go inside
entry.size = ScanDirectoryTree(entry.physicalName, entry);
foundEntries += (u32)entry.size;
}
else
{ // is a file
entry.isDirectory = false;
entry.size = GetSize(entry.physicalName.c_str());
}
++foundEntries;
// Push into the tree
parentEntry.children.push_back(entry);
#ifdef _WIN32
} while (FindNextFile(hFind, &ffd) != 0);
FindClose(hFind);
#else
}
closedir(dirp);
#endif
// Return number of entries found.
return foundEntries;
}
// Deletes the given directory and anything under it. Returns true on success.
bool DeleteDirRecursively(const std::string &directory)
{
INFO_LOG(COMMON, "DeleteDirRecursively: %s", directory.c_str());
#ifdef _WIN32
// Find the first file in the directory.
WIN32_FIND_DATA ffd;
HANDLE hFind = FindFirstFile(UTF8ToTStr(directory + "\\*").c_str(), &ffd);
if (hFind == INVALID_HANDLE_VALUE)
{
FindClose(hFind);
return false;
}
// windows loop
do
{
const std::string virtualName(TStrToUTF8(ffd.cFileName));
#else
struct dirent dirent, *result = NULL;
DIR *dirp = opendir(directory.c_str());
if (!dirp)
return false;
// non windows loop
while (!readdir_r(dirp, &dirent, &result) && result)
{
const std::string virtualName = result->d_name;
#endif
// check for "." and ".."
if (((virtualName[0] == '.') && (virtualName[1] == '\0')) ||
((virtualName[0] == '.') && (virtualName[1] == '.') &&
(virtualName[2] == '\0')))
continue;
std::string newPath = directory + DIR_SEP_CHR + virtualName;
if (IsDirectory(newPath))
{
if (!DeleteDirRecursively(newPath))
{
#ifndef _WIN32
closedir(dirp);
#endif
return false;
}
}
else
{
if (!File::Delete(newPath))
{
#ifndef _WIN32
closedir(dirp);
#endif
return false;
}
}
#ifdef _WIN32
} while (FindNextFile(hFind, &ffd) != 0);
FindClose(hFind);
#else
}
closedir(dirp);
#endif
File::DeleteDir(directory);
return true;
}
// Create directory and copy contents (does not overwrite existing files)
void CopyDir(const std::string &source_path, const std::string &dest_path)
{
#ifndef _WIN32
if (source_path == dest_path) return;
if (!File::Exists(source_path)) return;
if (!File::Exists(dest_path)) File::CreateFullPath(dest_path);
struct dirent dirent, *result = NULL;
DIR *dirp = opendir(source_path.c_str());
if (!dirp) return;
while (!readdir_r(dirp, &dirent, &result) && result)
{
const std::string virtualName(result->d_name);
// check for "." and ".."
if (((virtualName[0] == '.') && (virtualName[1] == '\0')) ||
((virtualName[0] == '.') && (virtualName[1] == '.') &&
(virtualName[2] == '\0')))
continue;
std::string source, dest;
source = source_path + virtualName;
dest = dest_path + virtualName;
if (IsDirectory(source))
{
source += '/';
dest += '/';
if (!File::Exists(dest)) File::CreateFullPath(dest);
CopyDir(source, dest);
}
else if (!File::Exists(dest)) File::Copy(source, dest);
}
closedir(dirp);
#endif
}
// Returns the current directory
std::string GetCurrentDir()
{
char *dir;
// Get the current working directory (getcwd uses malloc)
if (!(dir = __getcwd(NULL, 0))) {
ERROR_LOG(COMMON, "GetCurrentDirectory failed: %s",
GetLastErrorMsg());
return NULL;
}
std::string strDir = dir;
free(dir);
return strDir;
}
// Sets the current directory to the given directory
bool SetCurrentDir(const std::string &directory)
{
return __chdir(directory.c_str()) == 0;
}
#if defined(__APPLE__)
std::string GetBundleDirectory()
{
CFURLRef BundleRef;
char AppBundlePath[MAXPATHLEN];
// Get the main bundle for the app
BundleRef = CFBundleCopyBundleURL(CFBundleGetMainBundle());
CFStringRef BundlePath = CFURLCopyFileSystemPath(BundleRef, kCFURLPOSIXPathStyle);
CFStringGetFileSystemRepresentation(BundlePath, AppBundlePath, sizeof(AppBundlePath));
CFRelease(BundleRef);
CFRelease(BundlePath);
return AppBundlePath;
}
#endif
#ifdef _WIN32
std::string& GetExeDirectory()
{
static std::string DolphinPath;
if (DolphinPath.empty())
{
TCHAR Dolphin_exe_Path[2048];
GetModuleFileName(NULL, Dolphin_exe_Path, 2048);
DolphinPath = TStrToUTF8(Dolphin_exe_Path);
DolphinPath = DolphinPath.substr(0, DolphinPath.find_last_of('\\'));
}
return DolphinPath;
}
#endif
std::string GetSysDirectory()
{
std::string sysDir;
#if defined (__APPLE__)
sysDir = GetBundleDirectory();
sysDir += DIR_SEP;
sysDir += SYSDATA_DIR;
#else
sysDir = SYSDATA_DIR;
#endif
sysDir += DIR_SEP;
INFO_LOG(COMMON, "GetSysDirectory: Setting to %s:", sysDir.c_str());
return sysDir;
}
// Returns a string with a Dolphin data dir or file in the user's home
// directory. To be used in "multi-user" mode (that is, installed).
//const std::string& GetUserPath(const unsigned int DirIDX, const std::string &newPath)
//{
// static std::string paths[NUM_PATH_INDICES];
//
// // Set up all paths and files on the first run
// if (paths[D_USER_IDX].empty())
// {
//#ifdef _WIN32
// paths[D_USER_IDX] = GetExeDirectory() + DIR_SEP USERDATA_DIR DIR_SEP;
//#else
// if (File::Exists(ROOT_DIR DIR_SEP USERDATA_DIR))
// paths[D_USER_IDX] = ROOT_DIR DIR_SEP USERDATA_DIR DIR_SEP;
// else
// paths[D_USER_IDX] = std::string(getenv("HOME") ?
// getenv("HOME") : getenv("PWD") ?
// getenv("PWD") : "") + DIR_SEP DOLPHIN_DATA_DIR DIR_SEP;
//#endif
//
// paths[D_CONFIG_IDX] = paths[D_USER_IDX] + CONFIG_DIR DIR_SEP;
// paths[D_GAMECONFIG_IDX] = paths[D_USER_IDX] + GAMECONFIG_DIR DIR_SEP;
// paths[D_MAPS_IDX] = paths[D_USER_IDX] + MAPS_DIR DIR_SEP;
// paths[D_CACHE_IDX] = paths[D_USER_IDX] + CACHE_DIR DIR_SEP;
// paths[D_SHADERCACHE_IDX] = paths[D_USER_IDX] + SHADERCACHE_DIR DIR_SEP;
// paths[D_SHADERS_IDX] = paths[D_USER_IDX] + SHADERS_DIR DIR_SEP;
// paths[D_STATESAVES_IDX] = paths[D_USER_IDX] + STATESAVES_DIR DIR_SEP;
// paths[D_SCREENSHOTS_IDX] = paths[D_USER_IDX] + SCREENSHOTS_DIR DIR_SEP;
// paths[D_DUMP_IDX] = paths[D_USER_IDX] + DUMP_DIR DIR_SEP;
// paths[D_DUMPFRAMES_IDX] = paths[D_DUMP_IDX] + DUMP_FRAMES_DIR DIR_SEP;
// paths[D_DUMPAUDIO_IDX] = paths[D_DUMP_IDX] + DUMP_AUDIO_DIR DIR_SEP;
// paths[D_DUMPTEXTURES_IDX] = paths[D_DUMP_IDX] + DUMP_TEXTURES_DIR DIR_SEP;
// paths[D_LOGS_IDX] = paths[D_USER_IDX] + LOGS_DIR DIR_SEP;
// paths[F_DEBUGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + DEBUGGER_CONFIG;
// paths[F_LOGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + LOGGER_CONFIG;
// paths[F_MAINLOG_IDX] = paths[D_LOGS_IDX] + MAIN_LOG;
// }
//
// if (!newPath.empty())
// {
// if (!File::IsDirectory(newPath))
// {
// WARN_LOG(COMMON, "Invalid path specified %s", newPath.c_str());
// return paths[DirIDX];
// }
// else
// {
// paths[DirIDX] = newPath;
// }
//
// switch (DirIDX)
// {
// case D_WIIROOT_IDX:
// paths[D_WIIUSER_IDX] = paths[D_WIIROOT_IDX] + DIR_SEP;
// paths[D_WIISYSCONF_IDX] = paths[D_WIIUSER_IDX] + WII_SYSCONF_DIR + DIR_SEP;
// paths[F_WIISYSCONF_IDX] = paths[D_WIISYSCONF_IDX] + WII_SYSCONF;
// break;
//
// case D_USER_IDX:
// paths[D_GCUSER_IDX] = paths[D_USER_IDX] + GC_USER_DIR DIR_SEP;
// paths[D_WIIROOT_IDX] = paths[D_USER_IDX] + WII_USER_DIR;
// paths[D_WIIUSER_IDX] = paths[D_WIIROOT_IDX] + DIR_SEP;
// paths[D_CONFIG_IDX] = paths[D_USER_IDX] + CONFIG_DIR DIR_SEP;
// paths[D_GAMECONFIG_IDX] = paths[D_USER_IDX] + GAMECONFIG_DIR DIR_SEP;
// paths[D_MAPS_IDX] = paths[D_USER_IDX] + MAPS_DIR DIR_SEP;
// paths[D_CACHE_IDX] = paths[D_USER_IDX] + CACHE_DIR DIR_SEP;
// paths[D_SHADERCACHE_IDX] = paths[D_USER_IDX] + SHADERCACHE_DIR DIR_SEP;
// paths[D_SHADERS_IDX] = paths[D_USER_IDX] + SHADERS_DIR DIR_SEP;
// paths[D_STATESAVES_IDX] = paths[D_USER_IDX] + STATESAVES_DIR DIR_SEP;
// paths[D_SCREENSHOTS_IDX] = paths[D_USER_IDX] + SCREENSHOTS_DIR DIR_SEP;
// paths[D_OPENCL_IDX] = paths[D_USER_IDX] + OPENCL_DIR DIR_SEP;
// paths[D_HIRESTEXTURES_IDX] = paths[D_USER_IDX] + HIRES_TEXTURES_DIR DIR_SEP;
// paths[D_DUMP_IDX] = paths[D_USER_IDX] + DUMP_DIR DIR_SEP;
// paths[D_DUMPFRAMES_IDX] = paths[D_DUMP_IDX] + DUMP_FRAMES_DIR DIR_SEP;
// paths[D_DUMPAUDIO_IDX] = paths[D_DUMP_IDX] + DUMP_AUDIO_DIR DIR_SEP;
// paths[D_DUMPTEXTURES_IDX] = paths[D_DUMP_IDX] + DUMP_TEXTURES_DIR DIR_SEP;
// paths[D_DUMPDSP_IDX] = paths[D_DUMP_IDX] + DUMP_DSP_DIR DIR_SEP;
// paths[D_LOGS_IDX] = paths[D_USER_IDX] + LOGS_DIR DIR_SEP;
// paths[D_MAILLOGS_IDX] = paths[D_LOGS_IDX] + MAIL_LOGS_DIR DIR_SEP;
// paths[D_WIISYSCONF_IDX] = paths[D_WIIUSER_IDX] + WII_SYSCONF_DIR DIR_SEP;
// paths[D_THEMES_IDX] = paths[D_USER_IDX] + THEMES_DIR DIR_SEP;
// paths[F_DOLPHINCONFIG_IDX] = paths[D_CONFIG_IDX] + DOLPHIN_CONFIG;
// paths[F_DEBUGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + DEBUGGER_CONFIG;
// paths[F_LOGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + LOGGER_CONFIG;
// paths[F_MAINLOG_IDX] = paths[D_LOGS_IDX] + MAIN_LOG;
// paths[F_WIISYSCONF_IDX] = paths[D_WIISYSCONF_IDX] + WII_SYSCONF;
// paths[F_RAMDUMP_IDX] = paths[D_DUMP_IDX] + RAM_DUMP;
// paths[F_ARAMDUMP_IDX] = paths[D_DUMP_IDX] + ARAM_DUMP;
// paths[F_FAKEVMEMDUMP_IDX] = paths[D_DUMP_IDX] + FAKEVMEM_DUMP;
// paths[F_GCSRAM_IDX] = paths[D_GCUSER_IDX] + GC_SRAM;
// break;
//
// case D_CONFIG_IDX:
// paths[F_DOLPHINCONFIG_IDX] = paths[D_CONFIG_IDX] + DOLPHIN_CONFIG;
// paths[F_DEBUGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + DEBUGGER_CONFIG;
// paths[F_LOGGERCONFIG_IDX] = paths[D_CONFIG_IDX] + LOGGER_CONFIG;
// break;
//
// case D_DUMP_IDX:
// paths[D_DUMPFRAMES_IDX] = paths[D_DUMP_IDX] + DUMP_FRAMES_DIR DIR_SEP;
// paths[D_DUMPAUDIO_IDX] = paths[D_DUMP_IDX] + DUMP_AUDIO_DIR DIR_SEP;
// paths[D_DUMPTEXTURES_IDX] = paths[D_DUMP_IDX] + DUMP_TEXTURES_DIR DIR_SEP;
// break;
//
// case D_LOGS_IDX:
// paths[F_MAINLOG_IDX] = paths[D_LOGS_IDX] + MAIN_LOG;
// }
// }
//
// return paths[DirIDX];
//}
std::string GetThemeDir(const std::string& theme_name)
{
std::string dir = File::GetUserPath(D_THEMES_IDX) + theme_name + "/";
#if !defined(_WIN32)
// If theme does not exist in user's dir load from shared directory
if (!File::Exists(dir))
dir = SHARED_USER_DIR THEMES_DIR "/" + theme_name + "/";
#endif
return dir;
}
bool WriteStringToFile(bool text_file, const std::string &str, const char *filename)
{
return File::IOFile(filename, text_file ? "w" : "wb").WriteBytes(str.data(), str.size());
}
bool ReadFileToString(bool text_file, const char *filename, std::string &str)
{
File::IOFile file(filename, text_file ? "r" : "rb");
auto const f = file.GetHandle();
if (!f)
return false;
str.resize(GetSize(f));
return file.ReadArray(&str[0], str.size());
}
IOFile::IOFile()
: m_file(NULL), m_good(true)
{}
IOFile::IOFile(std::FILE* file)
: m_file(file), m_good(true)
{}
IOFile::IOFile(const std::string& filename, const char openmode[])
: m_file(NULL), m_good(true)
{
Open(filename, openmode);
}
IOFile::~IOFile()
{
Close();
}
IOFile::IOFile(IOFile&& other)
: m_file(NULL), m_good(true)
{
Swap(other);
}
IOFile& IOFile::operator=(IOFile&& other)
{
Swap(other);
return *this;
}
void IOFile::Swap(IOFile& other)
{
std::swap(m_file, other.m_file);
std::swap(m_good, other.m_good);
}
bool IOFile::Open(const std::string& filename, const char openmode[])
{
Close();
#ifdef _WIN32
_tfopen_s(&m_file, UTF8ToTStr(filename).c_str(), UTF8ToTStr(openmode).c_str());
#else
m_file = fopen(filename.c_str(), openmode);
#endif
m_good = IsOpen();
return m_good;
}
bool IOFile::Close()
{
if (!IsOpen() || 0 != std::fclose(m_file))
m_good = false;
m_file = NULL;
return m_good;
}
std::FILE* IOFile::ReleaseHandle()
{
std::FILE* const ret = m_file;
m_file = NULL;
return ret;
}
void IOFile::SetHandle(std::FILE* file)
{
Close();
Clear();
m_file = file;
}
u64 IOFile::GetSize()
{
if (IsOpen())
return File::GetSize(m_file);
else
return 0;
}
bool IOFile::Seek(s64 off, int origin)
{
if (!IsOpen() || 0 != fseeko(m_file, off, origin))
m_good = false;
return m_good;
}
u64 IOFile::Tell()
{
if (IsOpen())
return ftello(m_file);
else
return -1;
}
bool IOFile::Flush()
{
if (!IsOpen() || 0 != std::fflush(m_file))
m_good = false;
return m_good;
}
bool IOFile::Resize(u64 size)
{
if (!IsOpen() || 0 !=
#ifdef _WIN32
// ector: _chsize sucks, not 64-bit safe
// F|RES: changed to _chsize_s. i think it is 64-bit safe
_chsize_s(_fileno(m_file), size)
#else
// TODO: handle 64bit and growing
ftruncate(fileno(m_file), size)
#endif
)
m_good = false;
return m_good;
}
} // namespace

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _FILEUTIL_H_
#define _FILEUTIL_H_
#include <fstream>
#include <cstdio>
#include <string>
#include <vector>
#include <string.h>
#include "common.h"
#include "string_util.h"
// User directory indices for GetUserPath
enum {
D_USER_IDX,
D_GCUSER_IDX,
D_WIIROOT_IDX,
D_WIIUSER_IDX,
D_CONFIG_IDX,
D_GAMECONFIG_IDX,
D_MAPS_IDX,
D_CACHE_IDX,
D_SHADERCACHE_IDX,
D_SHADERS_IDX,
D_STATESAVES_IDX,
D_SCREENSHOTS_IDX,
D_OPENCL_IDX,
D_HIRESTEXTURES_IDX,
D_DUMP_IDX,
D_DUMPFRAMES_IDX,
D_DUMPAUDIO_IDX,
D_DUMPTEXTURES_IDX,
D_DUMPDSP_IDX,
D_LOGS_IDX,
D_MAILLOGS_IDX,
D_WIISYSCONF_IDX,
D_WIIWC24_IDX,
D_THEMES_IDX,
F_DOLPHINCONFIG_IDX,
F_DEBUGGERCONFIG_IDX,
F_LOGGERCONFIG_IDX,
F_MAINLOG_IDX,
F_WIISYSCONF_IDX,
F_RAMDUMP_IDX,
F_ARAMDUMP_IDX,
F_FAKEVMEMDUMP_IDX,
F_GCSRAM_IDX,
NUM_PATH_INDICES
};
namespace File
{
// FileSystem tree node/
struct FSTEntry
{
bool isDirectory;
u64 size; // file length or number of entries from children
std::string physicalName; // name on disk
std::string virtualName; // name in FST names table
std::vector<FSTEntry> children;
};
// Returns true if file filename exists
bool Exists(const std::string &filename);
// Returns true if filename is a directory
bool IsDirectory(const std::string &filename);
// Returns the size of filename (64bit)
u64 GetSize(const std::string &filename);
// Overloaded GetSize, accepts file descriptor
u64 GetSize(const int fd);
// Overloaded GetSize, accepts FILE*
u64 GetSize(FILE *f);
// Returns true if successful, or path already exists.
bool CreateDir(const std::string &filename);
// Creates the full path of fullPath returns true on success
bool CreateFullPath(const std::string &fullPath);
// Deletes a given filename, return true on success
// Doesn't supports deleting a directory
bool Delete(const std::string &filename);
// Deletes a directory filename, returns true on success
bool DeleteDir(const std::string &filename);
// renames file srcFilename to destFilename, returns true on success
bool Rename(const std::string &srcFilename, const std::string &destFilename);
// copies file srcFilename to destFilename, returns true on success
bool Copy(const std::string &srcFilename, const std::string &destFilename);
// creates an empty file filename, returns true on success
bool CreateEmptyFile(const std::string &filename);
// Scans the directory tree gets, starting from _Directory and adds the
// results into parentEntry. Returns the number of files+directories found
u32 ScanDirectoryTree(const std::string &directory, FSTEntry& parentEntry);
// deletes the given directory and anything under it. Returns true on success.
bool DeleteDirRecursively(const std::string &directory);
// Returns the current directory
std::string GetCurrentDir();
// Create directory and copy contents (does not overwrite existing files)
void CopyDir(const std::string &source_path, const std::string &dest_path);
// Set the current directory to given directory
bool SetCurrentDir(const std::string &directory);
// Returns a pointer to a string with a Dolphin data dir in the user's home
// directory. To be used in "multi-user" mode (that is, installed).
const std::string& GetUserPath(const unsigned int DirIDX, const std::string &newPath="");
// probably doesn't belong here
std::string GetThemeDir(const std::string& theme_name);
// Returns the path to where the sys file are
std::string GetSysDirectory();
#ifdef __APPLE__
std::string GetBundleDirectory();
#endif
#ifdef _WIN32
std::string &GetExeDirectory();
#endif
bool WriteStringToFile(bool text_file, const std::string &str, const char *filename);
bool ReadFileToString(bool text_file, const char *filename, std::string &str);
// simple wrapper for cstdlib file functions to
// hopefully will make error checking easier
// and make forgetting an fclose() harder
class IOFile : public NonCopyable
{
public:
IOFile();
IOFile(std::FILE* file);
IOFile(const std::string& filename, const char openmode[]);
~IOFile();
IOFile(IOFile&& other);
IOFile& operator=(IOFile&& other);
void Swap(IOFile& other);
bool Open(const std::string& filename, const char openmode[]);
bool Close();
template <typename T>
bool ReadArray(T* data, size_t length)
{
if (!IsOpen() || length != std::fread(data, sizeof(T), length, m_file))
m_good = false;
return m_good;
}
template <typename T>
bool WriteArray(const T* data, size_t length)
{
if (!IsOpen() || length != std::fwrite(data, sizeof(T), length, m_file))
m_good = false;
return m_good;
}
bool ReadBytes(void* data, size_t length)
{
return ReadArray(reinterpret_cast<char*>(data), length);
}
bool WriteBytes(const void* data, size_t length)
{
return WriteArray(reinterpret_cast<const char*>(data), length);
}
bool IsOpen() { return NULL != m_file; }
// m_good is set to false when a read, write or other function fails
bool IsGood() { return m_good; }
operator void*() { return m_good ? m_file : NULL; }
std::FILE* ReleaseHandle();
std::FILE* GetHandle() { return m_file; }
void SetHandle(std::FILE* file);
bool Seek(s64 off, int origin);
u64 Tell();
u64 GetSize();
bool Resize(u64 size);
bool Flush();
// clear error state
void Clear() { m_good = true; std::clearerr(m_file); }
std::FILE* m_file;
bool m_good;
private:
IOFile(IOFile&);
IOFile& operator=(IOFile& other);
};
} // namespace
// To deal with Windows being dumb at unicode:
template <typename T>
void OpenFStream(T& fstream, const std::string& filename, std::ios_base::openmode openmode)
{
#ifdef _WIN32
fstream.open(UTF8ToTStr(filename).c_str(), openmode);
#else
fstream.open(filename.c_str(), openmode);
#endif
}
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _FIXED_SIZE_QUEUE_H_
#define _FIXED_SIZE_QUEUE_H_
// STL-look-a-like interface, but name is mixed case to distinguish it clearly from the
// real STL classes.
// Not fully featured, no safety checking yet. Add features as needed.
// TODO: "inline" storage?
template <class T, int N>
class fixed_size_queue.h
{
T *storage;
int head;
int tail;
int count; // sacrifice 4 bytes for a simpler implementation. may optimize away in the future.
// Make copy constructor private for now.
fixed_size_queue.h(fixed_size_queue.h &other) { }
public:
fixed_size_queue.h()
{
storage = new T[N];
clear();
}
~fixed_size_queue.h()
{
delete [] storage;
}
void clear() {
head = 0;
tail = 0;
count = 0;
}
void push(T t) {
storage[tail] = t;
tail++;
if (tail == N)
tail = 0;
count++;
}
void pop() {
head++;
if (head == N)
head = 0;
count--;
}
T pop_front() {
const T &temp = storage[head];
pop();
return temp;
}
T &front() { return storage[head]; }
const T &front() const { return storage[head]; }
size_t size() const {
return count;
}
};
#endif // _FIXED_SIZE_QUEUE_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "hash.h"
#if _M_SSE >= 0x402
#include "cpu_detect.h"
#include <nmmintrin.h>
#endif
static u64 (*ptrHashFunction)(const u8 *src, int len, u32 samples) = &GetMurmurHash3;
// uint32_t
// WARNING - may read one more byte!
// Implementation from Wikipedia.
u32 HashFletcher(const u8* data_u8, size_t length)
{
const u16* data = (const u16*)data_u8; /* Pointer to the data to be summed */
size_t len = (length + 1) / 2; /* Length in 16-bit words */
u32 sum1 = 0xffff, sum2 = 0xffff;
while (len)
{
size_t tlen = len > 360 ? 360 : len;
len -= tlen;
do {
sum1 += *data++;
sum2 += sum1;
}
while (--tlen);
sum1 = (sum1 & 0xffff) + (sum1 >> 16);
sum2 = (sum2 & 0xffff) + (sum2 >> 16);
}
// Second reduction step to reduce sums to 16 bits
sum1 = (sum1 & 0xffff) + (sum1 >> 16);
sum2 = (sum2 & 0xffff) + (sum2 >> 16);
return(sum2 << 16 | sum1);
}
// Implementation from Wikipedia
// Slightly slower than Fletcher above, but slightly more reliable.
#define MOD_ADLER 65521
// data: Pointer to the data to be summed; len is in bytes
u32 HashAdler32(const u8* data, size_t len)
{
u32 a = 1, b = 0;
while (len)
{
size_t tlen = len > 5550 ? 5550 : len;
len -= tlen;
do
{
a += *data++;
b += a;
}
while (--tlen);
a = (a & 0xffff) + (a >> 16) * (65536 - MOD_ADLER);
b = (b & 0xffff) + (b >> 16) * (65536 - MOD_ADLER);
}
// It can be shown that a <= 0x1013a here, so a single subtract will do.
if (a >= MOD_ADLER)
{
a -= MOD_ADLER;
}
// It can be shown that b can reach 0xfff87 here.
b = (b & 0xffff) + (b >> 16) * (65536 - MOD_ADLER);
if (b >= MOD_ADLER)
{
b -= MOD_ADLER;
}
return((b << 16) | a);
}
// Stupid hash - but can't go back now :)
// Don't use for new things. At least it's reasonably fast.
u32 HashEctor(const u8* ptr, int length)
{
u32 crc = 0;
for (int i = 0; i < length; i++)
{
crc ^= ptr[i];
crc = (crc << 3) | (crc >> 29);
}
return(crc);
}
#ifdef _M_X64
//-----------------------------------------------------------------------------
// Block read - if your platform needs to do endian-swapping or can only
// handle aligned reads, do the conversion here
inline u64 getblock(const u64 * p, int i)
{
return p[i];
}
//----------
// Block mix - combine the key bits with the hash bits and scramble everything
inline void bmix64(u64 & h1, u64 & h2, u64 & k1, u64 & k2, u64 & c1, u64 & c2)
{
k1 *= c1;
k1 = _rotl64(k1,23);
k1 *= c2;
h1 ^= k1;
h1 += h2;
h2 = _rotl64(h2,41);
k2 *= c2;
k2 = _rotl64(k2,23);
k2 *= c1;
h2 ^= k2;
h2 += h1;
h1 = h1*3+0x52dce729;
h2 = h2*3+0x38495ab5;
c1 = c1*5+0x7b7d159c;
c2 = c2*5+0x6bce6396;
}
//----------
// Finalization mix - avalanches all bits to within 0.05% bias
inline u64 fmix64(u64 k)
{
k ^= k >> 33;
k *= 0xff51afd7ed558ccd;
k ^= k >> 33;
k *= 0xc4ceb9fe1a85ec53;
k ^= k >> 33;
return k;
}
u64 GetMurmurHash3(const u8 *src, int len, u32 samples)
{
const u8 * data = (const u8*)src;
const int nblocks = len / 16;
u32 Step = (len / 8);
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
u64 h1 = 0x9368e53c2f6af274;
u64 h2 = 0x586dcd208f7cd3fd;
u64 c1 = 0x87c37b91114253d5;
u64 c2 = 0x4cf5ad432745937f;
//----------
// body
const u64 * blocks = (const u64 *)(data);
for(int i = 0; i < nblocks; i+=Step)
{
u64 k1 = getblock(blocks,i*2+0);
u64 k2 = getblock(blocks,i*2+1);
bmix64(h1,h2,k1,k2,c1,c2);
}
//----------
// tail
const u8 * tail = (const u8*)(data + nblocks*16);
u64 k1 = 0;
u64 k2 = 0;
switch(len & 15)
{
case 15: k2 ^= u64(tail[14]) << 48;
case 14: k2 ^= u64(tail[13]) << 40;
case 13: k2 ^= u64(tail[12]) << 32;
case 12: k2 ^= u64(tail[11]) << 24;
case 11: k2 ^= u64(tail[10]) << 16;
case 10: k2 ^= u64(tail[ 9]) << 8;
case 9: k2 ^= u64(tail[ 8]) << 0;
case 8: k1 ^= u64(tail[ 7]) << 56;
case 7: k1 ^= u64(tail[ 6]) << 48;
case 6: k1 ^= u64(tail[ 5]) << 40;
case 5: k1 ^= u64(tail[ 4]) << 32;
case 4: k1 ^= u64(tail[ 3]) << 24;
case 3: k1 ^= u64(tail[ 2]) << 16;
case 2: k1 ^= u64(tail[ 1]) << 8;
case 1: k1 ^= u64(tail[ 0]) << 0;
bmix64(h1,h2,k1,k2,c1,c2);
};
//----------
// finalization
h2 ^= len;
h1 += h2;
h2 += h1;
h1 = fmix64(h1);
h2 = fmix64(h2);
h1 += h2;
return h1;
}
// CRC32 hash using the SSE4.2 instruction
u64 GetCRC32(const u8 *src, int len, u32 samples)
{
#if _M_SSE >= 0x402
u64 h = len;
u32 Step = (len / 8);
const u64 *data = (const u64 *)src;
const u64 *end = data + Step;
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
while(data < end)
{
h = _mm_crc32_u64(h, data[0]);
data += Step;
}
const u8 *data2 = (const u8*)end;
return _mm_crc32_u64(h, u64(data2[0]));
#else
return 0;
#endif
}
/*
* NOTE: This hash function is used for custom texture loading/dumping, so
* it should not be changed, which would require all custom textures to be
* recalculated for their new hash values. If the hashing function is
* changed, make sure this one is still used when the legacy parameter is
* true.
*/
u64 GetHashHiresTexture(const u8 *src, int len, u32 samples)
{
const u64 m = 0xc6a4a7935bd1e995;
u64 h = len * m;
const int r = 47;
u32 Step = (len / 8);
const u64 *data = (const u64 *)src;
const u64 *end = data + Step;
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
while(data < end)
{
u64 k = data[0];
data+=Step;
k *= m;
k ^= k >> r;
k *= m;
h ^= k;
h *= m;
}
const u8 * data2 = (const u8*)end;
switch(len & 7)
{
case 7: h ^= u64(data2[6]) << 48;
case 6: h ^= u64(data2[5]) << 40;
case 5: h ^= u64(data2[4]) << 32;
case 4: h ^= u64(data2[3]) << 24;
case 3: h ^= u64(data2[2]) << 16;
case 2: h ^= u64(data2[1]) << 8;
case 1: h ^= u64(data2[0]);
h *= m;
};
h ^= h >> r;
h *= m;
h ^= h >> r;
return h;
}
#else
// CRC32 hash using the SSE4.2 instruction
u64 GetCRC32(const u8 *src, int len, u32 samples)
{
#if _M_SSE >= 0x402
u32 h = len;
u32 Step = (len/4);
const u32 *data = (const u32 *)src;
const u32 *end = data + Step;
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
while(data < end)
{
h = _mm_crc32_u32(h, data[0]);
data += Step;
}
const u8 *data2 = (const u8*)end;
return (u64)_mm_crc32_u32(h, u32(data2[0]));
#else
return 0;
#endif
}
//-----------------------------------------------------------------------------
// Block read - if your platform needs to do endian-swapping or can only
// handle aligned reads, do the conversion here
inline u32 getblock(const u32 * p, int i)
{
return p[i];
}
//----------
// Finalization mix - force all bits of a hash block to avalanche
// avalanches all bits to within 0.25% bias
inline u32 fmix32(u32 h)
{
h ^= h >> 16;
h *= 0x85ebca6b;
h ^= h >> 13;
h *= 0xc2b2ae35;
h ^= h >> 16;
return h;
}
inline void bmix32(u32 & h1, u32 & h2, u32 & k1, u32 & k2, u32 & c1, u32 & c2)
{
k1 *= c1;
k1 = _rotl(k1,11);
k1 *= c2;
h1 ^= k1;
h1 += h2;
h2 = _rotl(h2,17);
k2 *= c2;
k2 = _rotl(k2,11);
k2 *= c1;
h2 ^= k2;
h2 += h1;
h1 = h1*3+0x52dce729;
h2 = h2*3+0x38495ab5;
c1 = c1*5+0x7b7d159c;
c2 = c2*5+0x6bce6396;
}
//----------
u64 GetMurmurHash3(const u8* src, int len, u32 samples)
{
const u8 * data = (const u8*)src;
u32 out[2];
const int nblocks = len / 8;
u32 Step = (len / 4);
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
u32 h1 = 0x8de1c3ac;
u32 h2 = 0xbab98226;
u32 c1 = 0x95543787;
u32 c2 = 0x2ad7eb25;
//----------
// body
const u32 * blocks = (const u32 *)(data + nblocks*8);
for(int i = -nblocks; i < 0; i+=Step)
{
u32 k1 = getblock(blocks,i*2+0);
u32 k2 = getblock(blocks,i*2+1);
bmix32(h1,h2,k1,k2,c1,c2);
}
//----------
// tail
const u8 * tail = (const u8*)(data + nblocks*8);
u32 k1 = 0;
u32 k2 = 0;
switch(len & 7)
{
case 7: k2 ^= tail[6] << 16;
case 6: k2 ^= tail[5] << 8;
case 5: k2 ^= tail[4] << 0;
case 4: k1 ^= tail[3] << 24;
case 3: k1 ^= tail[2] << 16;
case 2: k1 ^= tail[1] << 8;
case 1: k1 ^= tail[0] << 0;
bmix32(h1,h2,k1,k2,c1,c2);
};
//----------
// finalization
h2 ^= len;
h1 += h2;
h2 += h1;
h1 = fmix32(h1);
h2 = fmix32(h2);
h1 += h2;
h2 += h1;
out[0] = h1;
out[1] = h2;
return *((u64 *)&out);
}
/*
* FIXME: The old 32-bit version of this hash made different hashes than the
* 64-bit version. Until someone can make a new version of the 32-bit one that
* makes identical hashes, this is just a c/p of the 64-bit one.
*/
u64 GetHashHiresTexture(const u8 *src, int len, u32 samples)
{
const u64 m = 0xc6a4a7935bd1e995ULL;
u64 h = len * m;
const int r = 47;
u32 Step = (len / 8);
const u64 *data = (const u64 *)src;
const u64 *end = data + Step;
if(samples == 0) samples = max(Step, 1u);
Step = Step / samples;
if(Step < 1) Step = 1;
while(data < end)
{
u64 k = data[0];
data+=Step;
k *= m;
k ^= k >> r;
k *= m;
h ^= k;
h *= m;
}
const u8 * data2 = (const u8*)end;
switch(len & 7)
{
case 7: h ^= u64(data2[6]) << 48;
case 6: h ^= u64(data2[5]) << 40;
case 5: h ^= u64(data2[4]) << 32;
case 4: h ^= u64(data2[3]) << 24;
case 3: h ^= u64(data2[2]) << 16;
case 2: h ^= u64(data2[1]) << 8;
case 1: h ^= u64(data2[0]);
h *= m;
};
h ^= h >> r;
h *= m;
h ^= h >> r;
return h;
}
#endif
u64 GetHash64(const u8 *src, int len, u32 samples)
{
return ptrHashFunction(src, len, samples);
}
// sets the hash function used for the texture cache
void SetHash64Function(bool useHiresTextures)
{
if (useHiresTextures)
{
ptrHashFunction = &GetHashHiresTexture;
}
#if _M_SSE >= 0x402
else if (cpu_info.bSSE4_2 && !useHiresTextures) // sse crc32 version
{
ptrHashFunction = &GetCRC32;
}
#endif
else
{
ptrHashFunction = &GetMurmurHash3;
}
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _HASH_H_
#define _HASH_H_
#include "common.h"
u32 HashFletcher(const u8* data_u8, size_t length); // FAST. Length & 1 == 0.
u32 HashAdler32(const u8* data, size_t len); // Fairly accurate, slightly slower
u32 HashFNV(const u8* ptr, int length); // Another fast and decent hash
u32 HashEctor(const u8* ptr, int length); // JUNK. DO NOT USE FOR NEW THINGS
u64 GetCRC32(const u8 *src, int len, u32 samples); // SSE4.2 version of CRC32
u64 GetHashHiresTexture(const u8 *src, int len, u32 samples);
u64 GetMurmurHash3(const u8 *src, int len, u32 samples);
u64 GetHash64(const u8 *src, int len, u32 samples);
void SetHash64Function(bool useHiresTextures);
#endif // _HASH_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _LINEAR_DISKCACHE
#define _LINEAR_DISKCACHE
#include "common.h"
#include <fstream>
// defined in Version.cpp
extern const char *scm_rev_git_str;
// On disk format:
//header{
// u32 'DCAC';
// u32 version; // svn_rev
// u16 sizeof(key_type);
// u16 sizeof(value_type);
//}
//key_value_pair{
// u32 value_size;
// key_type key;
// value_type[value_size] value;
//}
template <typename K, typename V>
class LinearDiskCacheReader
{
public:
virtual void Read(const K &key, const V *value, u32 value_size) = 0;
};
// Dead simple unsorted key-value store with append functionality.
// No random read functionality, all reading is done in OpenAndRead.
// Keys and values can contain any characters, including \0.
//
// Suitable for caching generated shader bytecode between executions.
// Not tuned for extreme performance but should be reasonably fast.
// Does not support keys or values larger than 2GB, which should be reasonable.
// Keys must have non-zero length; values can have zero length.
// K and V are some POD type
// K : the key type
// V : value array type
template <typename K, typename V>
class LinearDiskCache
{
public:
// return number of read entries
u32 OpenAndRead(const char *filename, LinearDiskCacheReader<K, V> &reader)
{
using std::ios_base;
// close any currently opened file
Close();
m_num_entries = 0;
// try opening for reading/writing
OpenFStream(m_file, filename, ios_base::in | ios_base::out | ios_base::binary);
m_file.seekg(0, std::ios::end);
std::fstream::pos_type end_pos = m_file.tellg();
m_file.seekg(0, std::ios::beg);
std::fstream::pos_type start_pos = m_file.tellg();
std::streamoff file_size = end_pos - start_pos;
if (m_file.is_open() && ValidateHeader())
{
// good header, read some key/value pairs
K key;
V *value = NULL;
u32 value_size;
u32 entry_number;
std::fstream::pos_type last_pos = m_file.tellg();
while (Read(&value_size))
{
std::streamoff next_extent = (last_pos - start_pos) + sizeof(value_size) + value_size;
if (next_extent > file_size)
break;
delete[] value;
value = new V[value_size];
// read key/value and pass to reader
if (Read(&key) &&
Read(value, value_size) &&
Read(&entry_number) &&
entry_number == m_num_entries+1)
{
reader.Read(key, value, value_size);
}
else
{
break;
}
m_num_entries++;
last_pos = m_file.tellg();
}
m_file.seekp(last_pos);
m_file.clear();
delete[] value;
return m_num_entries;
}
// failed to open file for reading or bad header
// close and recreate file
Close();
m_file.open(filename, ios_base::out | ios_base::trunc | ios_base::binary);
WriteHeader();
return 0;
}
void Sync()
{
m_file.flush();
}
void Close()
{
if (m_file.is_open())
m_file.close();
// clear any error flags
m_file.clear();
}
// Appends a key-value pair to the store.
void Append(const K &key, const V *value, u32 value_size)
{
// TODO: Should do a check that we don't already have "key"? (I think each caller does that already.)
Write(&value_size);
Write(&key);
Write(value, value_size);
m_num_entries++;
Write(&m_num_entries);
}
private:
void WriteHeader()
{
Write(&m_header);
}
bool ValidateHeader()
{
char file_header[sizeof(Header)];
return (Read(file_header, sizeof(Header))
&& !memcmp((const char*)&m_header, file_header, sizeof(Header)));
}
template <typename D>
bool Write(const D *data, u32 count = 1)
{
return m_file.write((const char*)data, count * sizeof(D)).good();
}
template <typename D>
bool Read(const D *data, u32 count = 1)
{
return m_file.read((char*)data, count * sizeof(D)).good();
}
struct Header
{
Header()
: id(*(u32*)"DCAC")
, key_t_size(sizeof(K))
, value_t_size(sizeof(V))
{
memcpy(ver, scm_rev_git_str, 40);
}
const u32 id;
const u16 key_t_size, value_t_size;
char ver[40];
} m_header;
std::fstream m_file;
u32 m_num_entries;
};
#endif // _LINEAR_DISKCACHE

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _LOG_H_
#define _LOG_H_
#define NOTICE_LEVEL 1 // VERY important information that is NOT errors. Like startup and OSReports.
#define ERROR_LEVEL 2 // Critical errors
#define WARNING_LEVEL 3 // Something is suspicious.
#define INFO_LEVEL 4 // General information.
#define DEBUG_LEVEL 5 // Detailed debugging - might make things slow.
namespace LogTypes
{
enum LOG_TYPE {
ACTIONREPLAY,
AUDIO,
AUDIO_INTERFACE,
BOOT,
COMMANDPROCESSOR,
COMMON,
CONSOLE,
DISCIO,
FILEMON,
DSPHLE,
DSPLLE,
DSP_MAIL,
DSPINTERFACE,
DVDINTERFACE,
DYNA_REC,
EXPANSIONINTERFACE,
GDB_STUB,
POWERPC,
GPFIFO,
OSHLE,
MASTER_LOG,
MEMMAP,
MEMCARD_MANAGER,
OSREPORT,
PAD,
PROCESSORINTERFACE,
PIXELENGINE,
SERIALINTERFACE,
SP1,
STREAMINGINTERFACE,
VIDEO,
VIDEOINTERFACE,
WII_IOB,
WII_IPC,
WII_IPC_DVD,
WII_IPC_ES,
WII_IPC_FILEIO,
WII_IPC_HID,
WII_IPC_HLE,
WII_IPC_NET,
WII_IPC_WC24,
WII_IPC_SSL,
WII_IPC_SD,
WII_IPC_STM,
WII_IPC_WIIMOTE,
WIIMOTE,
NETPLAY,
NUMBER_OF_LOGS // Must be last
};
// FIXME: should this be removed?
enum LOG_LEVELS {
LNOTICE = NOTICE_LEVEL,
LERROR = ERROR_LEVEL,
LWARNING = WARNING_LEVEL,
LINFO = INFO_LEVEL,
LDEBUG = DEBUG_LEVEL,
};
#define LOGTYPES_LEVELS LogTypes::LOG_LEVELS
#define LOGTYPES_TYPE LogTypes::LOG_TYPE
} // namespace
void GenericLog(LOGTYPES_LEVELS level, LOGTYPES_TYPE type,
const char *file, int line, const char *fmt, ...)
#ifdef __GNUC__
__attribute__((format(printf, 5, 6)))
#endif
;
#if defined LOGGING || defined _DEBUG || defined DEBUGFAST
#define MAX_LOGLEVEL DEBUG_LEVEL
#else
#ifndef MAX_LOGLEVEL
#define MAX_LOGLEVEL WARNING_LEVEL
#endif // loglevel
#endif // logging
#ifdef GEKKO
#define GENERIC_LOG(t, v, ...)
#else
// Let the compiler optimize this out
#define GENERIC_LOG(t, v, ...) { \
if (v <= MAX_LOGLEVEL) \
GenericLog(v, t, __FILE__, __LINE__, __VA_ARGS__); \
}
#endif
#define ERROR_LOG(t,...) do { GENERIC_LOG(LogTypes::t, LogTypes::LERROR, __VA_ARGS__) } while (0)
#define WARN_LOG(t,...) do { GENERIC_LOG(LogTypes::t, LogTypes::LWARNING, __VA_ARGS__) } while (0)
#define NOTICE_LOG(t,...) do { GENERIC_LOG(LogTypes::t, LogTypes::LNOTICE, __VA_ARGS__) } while (0)
#define INFO_LOG(t,...) do { GENERIC_LOG(LogTypes::t, LogTypes::LINFO, __VA_ARGS__) } while (0)
#define DEBUG_LOG(t,...) do { GENERIC_LOG(LogTypes::t, LogTypes::LDEBUG, __VA_ARGS__) } while (0)
#if MAX_LOGLEVEL >= DEBUG_LEVEL
#define _dbg_assert_(_t_, _a_) \
if (!(_a_)) {\
ERROR_LOG(_t_, "Error...\n\n Line: %d\n File: %s\n Time: %s\n\nIgnore and continue?", \
__LINE__, __FILE__, __TIME__); \
if (!PanicYesNo("*** Assertion (see log)***\n")) {Crash();} \
}
#define _dbg_assert_msg_(_t_, _a_, ...)\
if (!(_a_)) {\
ERROR_LOG(_t_, __VA_ARGS__); \
if (!PanicYesNo(__VA_ARGS__)) {Crash();} \
}
#define _dbg_update_() Host_UpdateLogDisplay();
#else // not debug
#define _dbg_update_() ;
#ifndef _dbg_assert_
#define _dbg_assert_(_t_, _a_) {}
#define _dbg_assert_msg_(_t_, _a_, _desc_, ...) {}
#endif // dbg_assert
#endif // MAX_LOGLEVEL DEBUG
#define _assert_(_a_) _dbg_assert_(MASTER_LOG, _a_)
#ifndef GEKKO
#ifdef _WIN32
#define _assert_msg_(_t_, _a_, _fmt_, ...) \
if (!(_a_)) {\
if (!PanicYesNo(_fmt_, __VA_ARGS__)) {Crash();} \
}
#else // not win32
#define _assert_msg_(_t_, _a_, _fmt_, ...) \
if (!(_a_)) {\
if (!PanicYesNo(_fmt_, ##__VA_ARGS__)) {Crash();} \
}
#endif // WIN32
#else // GEKKO
#define _assert_msg_(_t_, _a_, _fmt_, ...)
#endif
#endif // _LOG_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <algorithm>
#ifdef ANDROID
#include "Host.h"
#endif
#include "log_manager.h"
#include "console_listener.h"
#include "timer.h"
#include "thread.h"
#include "file_util.h"
void GenericLog(LogTypes::LOG_LEVELS level, LogTypes::LOG_TYPE type,
const char *file, int line, const char* fmt, ...)
{
va_list args;
va_start(args, fmt);
if (LogManager::GetInstance())
LogManager::GetInstance()->Log(level, type,
file, line, fmt, args);
va_end(args);
}
LogManager *LogManager::m_logManager = NULL;
LogManager::LogManager()
{
// create log files
m_Log[LogTypes::MASTER_LOG] = new LogContainer("*", "Master Log");
m_Log[LogTypes::BOOT] = new LogContainer("BOOT", "Boot");
m_Log[LogTypes::COMMON] = new LogContainer("COMMON", "Common");
m_Log[LogTypes::DISCIO] = new LogContainer("DIO", "Disc IO");
m_Log[LogTypes::FILEMON] = new LogContainer("FileMon", "File Monitor");
m_Log[LogTypes::PAD] = new LogContainer("PAD", "Pad");
m_Log[LogTypes::PIXELENGINE] = new LogContainer("PE", "PixelEngine");
m_Log[LogTypes::COMMANDPROCESSOR] = new LogContainer("CP", "CommandProc");
m_Log[LogTypes::VIDEOINTERFACE] = new LogContainer("VI", "VideoInt");
m_Log[LogTypes::SERIALINTERFACE] = new LogContainer("SI", "SerialInt");
m_Log[LogTypes::PROCESSORINTERFACE] = new LogContainer("PI", "ProcessorInt");
m_Log[LogTypes::MEMMAP] = new LogContainer("MI", "MI & memmap");
m_Log[LogTypes::SP1] = new LogContainer("SP1", "Serial Port 1");
m_Log[LogTypes::STREAMINGINTERFACE] = new LogContainer("Stream", "StreamingInt");
m_Log[LogTypes::DSPINTERFACE] = new LogContainer("DSP", "DSPInterface");
m_Log[LogTypes::DVDINTERFACE] = new LogContainer("DVD", "DVDInterface");
m_Log[LogTypes::GPFIFO] = new LogContainer("GP", "GPFifo");
m_Log[LogTypes::EXPANSIONINTERFACE] = new LogContainer("EXI", "ExpansionInt");
m_Log[LogTypes::GDB_STUB] = new LogContainer("GDB_STUB", "GDB Stub");
m_Log[LogTypes::AUDIO_INTERFACE] = new LogContainer("AI", "AudioInt");
m_Log[LogTypes::POWERPC] = new LogContainer("PowerPC", "IBM CPU");
m_Log[LogTypes::OSHLE] = new LogContainer("HLE", "HLE");
m_Log[LogTypes::DSPHLE] = new LogContainer("DSPHLE", "DSP HLE");
m_Log[LogTypes::DSPLLE] = new LogContainer("DSPLLE", "DSP LLE");
m_Log[LogTypes::DSP_MAIL] = new LogContainer("DSPMails", "DSP Mails");
m_Log[LogTypes::VIDEO] = new LogContainer("Video", "Video Backend");
m_Log[LogTypes::AUDIO] = new LogContainer("Audio", "Audio Emulator");
m_Log[LogTypes::DYNA_REC] = new LogContainer("JIT", "Dynamic Recompiler");
m_Log[LogTypes::CONSOLE] = new LogContainer("CONSOLE", "Dolphin Console");
m_Log[LogTypes::OSREPORT] = new LogContainer("OSREPORT", "OSReport");
m_Log[LogTypes::WIIMOTE] = new LogContainer("Wiimote", "Wiimote");
m_Log[LogTypes::WII_IOB] = new LogContainer("WII_IOB", "WII IO Bridge");
m_Log[LogTypes::WII_IPC] = new LogContainer("WII_IPC", "WII IPC");
m_Log[LogTypes::WII_IPC_HID] = new LogContainer("WII_IPC_HID", "WII IPC HID");
m_Log[LogTypes::WII_IPC_HLE] = new LogContainer("WII_IPC_HLE", "WII IPC HLE");
m_Log[LogTypes::WII_IPC_DVD] = new LogContainer("WII_IPC_DVD", "WII IPC DVD");
m_Log[LogTypes::WII_IPC_ES] = new LogContainer("WII_IPC_ES", "WII IPC ES");
m_Log[LogTypes::WII_IPC_FILEIO] = new LogContainer("WII_IPC_FILEIO","WII IPC FILEIO");
m_Log[LogTypes::WII_IPC_SD] = new LogContainer("WII_IPC_SD", "WII IPC SD");
m_Log[LogTypes::WII_IPC_STM] = new LogContainer("WII_IPC_STM", "WII IPC STM");
m_Log[LogTypes::WII_IPC_NET] = new LogContainer("WII_IPC_NET", "WII IPC NET");
m_Log[LogTypes::WII_IPC_WC24] = new LogContainer("WII_IPC_WC24", "WII IPC WC24");
m_Log[LogTypes::WII_IPC_SSL] = new LogContainer("WII_IPC_SSL", "WII IPC SSL");
m_Log[LogTypes::WII_IPC_WIIMOTE] = new LogContainer("WII_IPC_WIIMOTE","WII IPC WIIMOTE");
m_Log[LogTypes::ACTIONREPLAY] = new LogContainer("ActionReplay", "ActionReplay");
m_Log[LogTypes::MEMCARD_MANAGER] = new LogContainer("MemCard Manager", "MemCard Manager");
m_Log[LogTypes::NETPLAY] = new LogContainer("NETPLAY", "Netplay");
m_fileLog = new FileLogListener(File::GetUserPath(F_MAINLOG_IDX).c_str());
m_consoleLog = new ConsoleListener();
m_debuggerLog = new DebuggerLogListener();
for (int i = 0; i < LogTypes::NUMBER_OF_LOGS; ++i)
{
m_Log[i]->SetEnable(true);
m_Log[i]->AddListener(m_fileLog);
m_Log[i]->AddListener(m_consoleLog);
#ifdef _MSC_VER
if (IsDebuggerPresent())
m_Log[i]->AddListener(m_debuggerLog);
#endif
}
}
LogManager::~LogManager()
{
for (int i = 0; i < LogTypes::NUMBER_OF_LOGS; ++i)
{
m_logManager->RemoveListener((LogTypes::LOG_TYPE)i, m_fileLog);
m_logManager->RemoveListener((LogTypes::LOG_TYPE)i, m_consoleLog);
m_logManager->RemoveListener((LogTypes::LOG_TYPE)i, m_debuggerLog);
}
for (int i = 0; i < LogTypes::NUMBER_OF_LOGS; ++i)
delete m_Log[i];
delete m_fileLog;
delete m_consoleLog;
delete m_debuggerLog;
}
void LogManager::Log(LogTypes::LOG_LEVELS level, LogTypes::LOG_TYPE type,
const char *file, int line, const char *format, va_list args)
{
char temp[MAX_MSGLEN];
char msg[MAX_MSGLEN * 2];
LogContainer *log = m_Log[type];
if (!log->IsEnabled() || level > log->GetLevel() || ! log->HasListeners())
return;
CharArrayFromFormatV(temp, MAX_MSGLEN, format, args);
static const char level_to_char[7] = "-NEWID";
sprintf(msg, "%s %s:%u %c[%s]: %s\n",
Common::Timer::GetTimeFormatted().c_str(),
file, line, level_to_char[(int)level],
log->GetShortName(), temp);
#ifdef ANDROID
Host_SysMessage(msg);
#endif
log->Trigger(level, msg);
}
void LogManager::Init()
{
m_logManager = new LogManager();
}
void LogManager::Shutdown()
{
delete m_logManager;
m_logManager = NULL;
}
LogContainer::LogContainer(const char* shortName, const char* fullName, bool enable)
: m_enable(enable)
{
strncpy(m_fullName, fullName, 128);
strncpy(m_shortName, shortName, 32);
m_level = LogTypes::LWARNING;
}
// LogContainer
void LogContainer::AddListener(LogListener *listener)
{
std::lock_guard<std::mutex> lk(m_listeners_lock);
m_listeners.insert(listener);
}
void LogContainer::RemoveListener(LogListener *listener)
{
std::lock_guard<std::mutex> lk(m_listeners_lock);
m_listeners.erase(listener);
}
void LogContainer::Trigger(LogTypes::LOG_LEVELS level, const char *msg)
{
std::lock_guard<std::mutex> lk(m_listeners_lock);
std::set<LogListener*>::const_iterator i;
for (i = m_listeners.begin(); i != m_listeners.end(); ++i)
{
(*i)->Log(level, msg);
}
}
FileLogListener::FileLogListener(const char *filename)
{
OpenFStream(m_logfile, filename, std::ios::app);
SetEnable(true);
}
void FileLogListener::Log(LogTypes::LOG_LEVELS, const char *msg)
{
if (!IsEnabled() || !IsValid())
return;
std::lock_guard<std::mutex> lk(m_log_lock);
m_logfile << msg << std::flush;
}
void DebuggerLogListener::Log(LogTypes::LOG_LEVELS, const char *msg)
{
#if _MSC_VER
::OutputDebugStringA(msg);
#endif
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _LOGMANAGER_H_
#define _LOGMANAGER_H_
#include "log.h"
#include "string_util.h"
#include "thread.h"
#include "file_util.h"
#include <set>
#include <string.h>
#define MAX_MESSAGES 8000
#define MAX_MSGLEN 1024
// pure virtual interface
class LogListener
{
public:
virtual ~LogListener() {}
virtual void Log(LogTypes::LOG_LEVELS, const char *msg) = 0;
};
class FileLogListener : public LogListener
{
public:
FileLogListener(const char *filename);
void Log(LogTypes::LOG_LEVELS, const char *msg);
bool IsValid() { return !m_logfile.fail(); }
bool IsEnabled() const { return m_enable; }
void SetEnable(bool enable) { m_enable = enable; }
const char* GetName() const { return "file"; }
private:
std::mutex m_log_lock;
std::ofstream m_logfile;
bool m_enable;
};
class DebuggerLogListener : public LogListener
{
public:
void Log(LogTypes::LOG_LEVELS, const char *msg);
};
class LogContainer
{
public:
LogContainer(const char* shortName, const char* fullName, bool enable = false);
const char* GetShortName() const { return m_shortName; }
const char* GetFullName() const { return m_fullName; }
void AddListener(LogListener* listener);
void RemoveListener(LogListener* listener);
void Trigger(LogTypes::LOG_LEVELS, const char *msg);
bool IsEnabled() const { return m_enable; }
void SetEnable(bool enable) { m_enable = enable; }
LogTypes::LOG_LEVELS GetLevel() const { return m_level; }
void SetLevel(LogTypes::LOG_LEVELS level) { m_level = level; }
bool HasListeners() const { return !m_listeners.empty(); }
private:
char m_fullName[128];
char m_shortName[32];
bool m_enable;
LogTypes::LOG_LEVELS m_level;
std::mutex m_listeners_lock;
std::set<LogListener*> m_listeners;
};
class ConsoleListener;
class LogManager : NonCopyable
{
private:
LogContainer* m_Log[LogTypes::NUMBER_OF_LOGS];
FileLogListener *m_fileLog;
ConsoleListener *m_consoleLog;
DebuggerLogListener *m_debuggerLog;
static LogManager *m_logManager; // Singleton. Ugh.
LogManager();
~LogManager();
public:
static u32 GetMaxLevel() { return MAX_LOGLEVEL; }
void Log(LogTypes::LOG_LEVELS level, LogTypes::LOG_TYPE type,
const char *file, int line, const char *fmt, va_list args);
void SetLogLevel(LogTypes::LOG_TYPE type, LogTypes::LOG_LEVELS level)
{
m_Log[type]->SetLevel(level);
}
void SetEnable(LogTypes::LOG_TYPE type, bool enable)
{
m_Log[type]->SetEnable(enable);
}
bool IsEnabled(LogTypes::LOG_TYPE type) const
{
return m_Log[type]->IsEnabled();
}
const char* GetShortName(LogTypes::LOG_TYPE type) const
{
return m_Log[type]->GetShortName();
}
const char* GetFullName(LogTypes::LOG_TYPE type) const
{
return m_Log[type]->GetFullName();
}
void AddListener(LogTypes::LOG_TYPE type, LogListener *listener)
{
m_Log[type]->AddListener(listener);
}
void RemoveListener(LogTypes::LOG_TYPE type, LogListener *listener)
{
m_Log[type]->RemoveListener(listener);
}
FileLogListener *GetFileListener() const
{
return m_fileLog;
}
ConsoleListener *GetConsoleListener() const
{
return m_consoleLog;
}
DebuggerLogListener *GetDebuggerListener() const
{
return m_debuggerLog;
}
static LogManager* GetInstance()
{
return m_logManager;
}
static void SetInstance(LogManager *logManager)
{
m_logManager = logManager;
}
static void Init();
static void Shutdown();
};
#endif // _LOGMANAGER_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "math_util.h"
#include <cmath>
#include <numeric>
namespace MathUtil
{
u32 ClassifyDouble(double dvalue)
{
// TODO: Optimize the below to be as fast as possible.
IntDouble value;
value.d = dvalue;
u64 sign = value.i & DOUBLE_SIGN;
u64 exp = value.i & DOUBLE_EXP;
if (exp > DOUBLE_ZERO && exp < DOUBLE_EXP)
{
// Nice normalized number.
return sign ? PPC_FPCLASS_NN : PPC_FPCLASS_PN;
}
else
{
u64 mantissa = value.i & DOUBLE_FRAC;
if (mantissa)
{
if (exp)
{
return PPC_FPCLASS_QNAN;
}
else
{
// Denormalized number.
return sign ? PPC_FPCLASS_ND : PPC_FPCLASS_PD;
}
}
else if (exp)
{
//Infinite
return sign ? PPC_FPCLASS_NINF : PPC_FPCLASS_PINF;
}
else
{
//Zero
return sign ? PPC_FPCLASS_NZ : PPC_FPCLASS_PZ;
}
}
}
u32 ClassifyFloat(float fvalue)
{
// TODO: Optimize the below to be as fast as possible.
IntFloat value;
value.f = fvalue;
u32 sign = value.i & FLOAT_SIGN;
u32 exp = value.i & FLOAT_EXP;
if (exp > FLOAT_ZERO && exp < FLOAT_EXP)
{
// Nice normalized number.
return sign ? PPC_FPCLASS_NN : PPC_FPCLASS_PN;
}
else
{
u32 mantissa = value.i & FLOAT_FRAC;
if (mantissa)
{
if (exp)
{
return PPC_FPCLASS_QNAN; // Quiet NAN
}
else
{
// Denormalized number.
return sign ? PPC_FPCLASS_ND : PPC_FPCLASS_PD;
}
}
else if (exp)
{
// Infinite
return sign ? PPC_FPCLASS_NINF : PPC_FPCLASS_PINF;
}
else
{
//Zero
return sign ? PPC_FPCLASS_NZ : PPC_FPCLASS_PZ;
}
}
}
} // namespace
inline void MatrixMul(int n, const float *a, const float *b, float *result)
{
for (int i = 0; i < n; ++i)
{
for (int j = 0; j < n; ++j)
{
float temp = 0;
for (int k = 0; k < n; ++k)
{
temp += a[i * n + k] * b[k * n + j];
}
result[i * n + j] = temp;
}
}
}
// Calculate sum of a float list
float MathFloatVectorSum(const std::vector<float>& Vec)
{
return std::accumulate(Vec.begin(), Vec.end(), 0.0f);
}
void Matrix33::LoadIdentity(Matrix33 &mtx)
{
memset(mtx.data, 0, sizeof(mtx.data));
mtx.data[0] = 1.0f;
mtx.data[4] = 1.0f;
mtx.data[8] = 1.0f;
}
void Matrix33::RotateX(Matrix33 &mtx, float rad)
{
float s = sin(rad);
float c = cos(rad);
memset(mtx.data, 0, sizeof(mtx.data));
mtx.data[0] = 1;
mtx.data[4] = c;
mtx.data[5] = -s;
mtx.data[7] = s;
mtx.data[8] = c;
}
void Matrix33::RotateY(Matrix33 &mtx, float rad)
{
float s = sin(rad);
float c = cos(rad);
memset(mtx.data, 0, sizeof(mtx.data));
mtx.data[0] = c;
mtx.data[2] = s;
mtx.data[4] = 1;
mtx.data[6] = -s;
mtx.data[8] = c;
}
void Matrix33::Multiply(const Matrix33 &a, const Matrix33 &b, Matrix33 &result)
{
MatrixMul(3, a.data, b.data, result.data);
}
void Matrix33::Multiply(const Matrix33 &a, const float vec[3], float result[3])
{
for (int i = 0; i < 3; ++i) {
result[i] = 0;
for (int k = 0; k < 3; ++k) {
result[i] += a.data[i * 3 + k] * vec[k];
}
}
}
void Matrix44::LoadIdentity(Matrix44 &mtx)
{
memset(mtx.data, 0, sizeof(mtx.data));
mtx.data[0] = 1.0f;
mtx.data[5] = 1.0f;
mtx.data[10] = 1.0f;
mtx.data[15] = 1.0f;
}
void Matrix44::LoadMatrix33(Matrix44 &mtx, const Matrix33 &m33)
{
for (int i = 0; i < 3; ++i)
{
for (int j = 0; j < 3; ++j)
{
mtx.data[i * 4 + j] = m33.data[i * 3 + j];
}
}
for (int i = 0; i < 3; ++i)
{
mtx.data[i * 4 + 3] = 0;
mtx.data[i + 12] = 0;
}
mtx.data[15] = 1.0f;
}
void Matrix44::Set(Matrix44 &mtx, const float mtxArray[16])
{
for(int i = 0; i < 16; ++i) {
mtx.data[i] = mtxArray[i];
}
}
void Matrix44::Translate(Matrix44 &mtx, const float vec[3])
{
LoadIdentity(mtx);
mtx.data[3] = vec[0];
mtx.data[7] = vec[1];
mtx.data[11] = vec[2];
}
void Matrix44::Multiply(const Matrix44 &a, const Matrix44 &b, Matrix44 &result)
{
MatrixMul(4, a.data, b.data, result.data);
}

200
src/common/src/math_util.h Normal file
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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _MATH_UTIL_H_
#define _MATH_UTIL_H_
#include "common.h"
#include <vector>
namespace MathUtil
{
static const u64 DOUBLE_SIGN = 0x8000000000000000ULL,
DOUBLE_EXP = 0x7FF0000000000000ULL,
DOUBLE_FRAC = 0x000FFFFFFFFFFFFFULL,
DOUBLE_ZERO = 0x0000000000000000ULL;
static const u32 FLOAT_SIGN = 0x80000000,
FLOAT_EXP = 0x7F800000,
FLOAT_FRAC = 0x007FFFFF,
FLOAT_ZERO = 0x00000000;
union IntDouble {
double d;
u64 i;
};
union IntFloat {
float f;
u32 i;
};
inline bool IsNAN(double d)
{
IntDouble x; x.d = d;
return ( ((x.i & DOUBLE_EXP) == DOUBLE_EXP) &&
((x.i & DOUBLE_FRAC) != DOUBLE_ZERO) );
}
inline bool IsQNAN(double d)
{
IntDouble x; x.d = d;
return ( ((x.i & DOUBLE_EXP) == DOUBLE_EXP) &&
((x.i & 0x0007fffffffffffULL) == 0x000000000000000ULL) &&
((x.i & 0x000800000000000ULL) == 0x000800000000000ULL) );
}
inline bool IsSNAN(double d)
{
IntDouble x; x.d = d;
return( ((x.i & DOUBLE_EXP) == DOUBLE_EXP) &&
((x.i & DOUBLE_FRAC) != DOUBLE_ZERO) &&
((x.i & 0x0008000000000000ULL) == DOUBLE_ZERO) );
}
inline float FlushToZero(float f)
{
IntFloat x; x.f = f;
if ((x.i & FLOAT_EXP) == 0)
x.i &= FLOAT_SIGN; // turn into signed zero
return x.f;
}
inline double FlushToZeroAsFloat(double d)
{
IntDouble x; x.d = d;
if ((x.i & DOUBLE_EXP) < 0x3800000000000000ULL)
x.i &= DOUBLE_SIGN; // turn into signed zero
return x.d;
}
enum PPCFpClass
{
PPC_FPCLASS_QNAN = 0x11,
PPC_FPCLASS_NINF = 0x9,
PPC_FPCLASS_NN = 0x8,
PPC_FPCLASS_ND = 0x18,
PPC_FPCLASS_NZ = 0x12,
PPC_FPCLASS_PZ = 0x2,
PPC_FPCLASS_PD = 0x14,
PPC_FPCLASS_PN = 0x4,
PPC_FPCLASS_PINF = 0x5,
};
// Uses PowerPC conventions for the return value, so it can be easily
// used directly in CPU emulation.
u32 ClassifyDouble(double dvalue);
// More efficient float version.
u32 ClassifyFloat(float fvalue);
template<class T>
struct Rectangle
{
T left;
T top;
T right;
T bottom;
Rectangle()
{ }
Rectangle(T theLeft, T theTop, T theRight, T theBottom)
: left(theLeft), top(theTop), right(theRight), bottom(theBottom)
{ }
bool operator==(const Rectangle& r) { return left==r.left && top==r.top && right==r.right && bottom==r.bottom; }
T GetWidth() const { return abs(right - left); }
T GetHeight() const { return abs(bottom - top); }
// If the rectangle is in a coordinate system with a lower-left origin, use
// this Clamp.
void ClampLL(T x1, T y1, T x2, T y2)
{
if (left < x1) left = x1;
if (right > x2) right = x2;
if (top > y1) top = y1;
if (bottom < y2) bottom = y2;
}
// If the rectangle is in a coordinate system with an upper-left origin,
// use this Clamp.
void ClampUL(T x1, T y1, T x2, T y2)
{
if (left < x1) left = x1;
if (right > x2) right = x2;
if (top < y1) top = y1;
if (bottom > y2) bottom = y2;
}
};
} // namespace MathUtil
inline float pow2f(float x) {return x * x;}
inline double pow2(double x) {return x * x;}
float MathFloatVectorSum(const std::vector<float>&);
#define ROUND_UP(x, a) (((x) + (a) - 1) & ~((a) - 1))
#define ROUND_DOWN(x, a) ((x) & ~((a) - 1))
// Rounds down. 0 -> undefined
inline u64 Log2(u64 val)
{
#if defined(__GNUC__)
return 63 - __builtin_clzll(val);
#elif defined(_MSC_VER) && defined(_M_X64)
unsigned long result = -1;
_BitScanReverse64(&result, val);
return result;
#else
u64 result = -1;
while (val != 0)
{
val >>= 1;
++result;
}
return result;
#endif
}
// Tiny matrix/vector library.
// Used for things like Free-Look in the gfx backend.
class Matrix33
{
public:
static void LoadIdentity(Matrix33 &mtx);
// set mtx to be a rotation matrix around the x axis
static void RotateX(Matrix33 &mtx, float rad);
// set mtx to be a rotation matrix around the y axis
static void RotateY(Matrix33 &mtx, float rad);
// set result = a x b
static void Multiply(const Matrix33 &a, const Matrix33 &b, Matrix33 &result);
static void Multiply(const Matrix33 &a, const float vec[3], float result[3]);
float data[9];
};
class Matrix44
{
public:
static void LoadIdentity(Matrix44 &mtx);
static void LoadMatrix33(Matrix44 &mtx, const Matrix33 &m33);
static void Set(Matrix44 &mtx, const float mtxArray[16]);
static void Translate(Matrix44 &mtx, const float vec[3]);
static void Multiply(const Matrix44 &a, const Matrix44 &b, Matrix44 &result);
float data[16];
};
#endif // _MATH_UTIL_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "memory_util.h"
#include "mem_arena.h"
#ifdef _WIN32
#include <windows.h>
#else
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <cerrno>
#include <cstring>
#ifdef ANDROID
#include <sys/ioctl.h>
#include <linux/ashmem.h>
#endif
#endif
#include <set>
#if defined(__APPLE__)
static const char* ram_temp_file = "/tmp/gc_mem.tmp";
#elif !defined(_WIN32) // non OSX unixes
static const char* ram_temp_file = "/dev/shm/gc_mem.tmp";
#endif
#ifdef ANDROID
#define ASHMEM_DEVICE "/dev/ashmem"
int AshmemCreateFileMapping(const char *name, size_t size)
{
int fd, ret;
fd = open(ASHMEM_DEVICE, O_RDWR);
if (fd < 0)
return fd;
// We don't really care if we can't set the name, it is optional
ret = ioctl(fd, ASHMEM_SET_NAME, name);
ret = ioctl(fd, ASHMEM_SET_SIZE, size);
if (ret < 0)
{
close(fd);
NOTICE_LOG(MEMMAP, "Ashmem returned error: 0x%08x", ret);
return ret;
}
return fd;
}
#endif
void MemArena::GrabLowMemSpace(size_t size)
{
#ifdef _WIN32
hMemoryMapping = CreateFileMapping(INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE, 0, (DWORD)(size), NULL);
#elif defined(ANDROID)
fd = AshmemCreateFileMapping("Dolphin-emu", size);
if (fd < 0)
{
NOTICE_LOG(MEMMAP, "Ashmem allocation failed");
return;
}
#else
mode_t mode = S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH;
fd = open(ram_temp_file, O_RDWR | O_CREAT, mode);
unlink(ram_temp_file);
if (ftruncate(fd, size) < 0)
ERROR_LOG(MEMMAP, "Failed to allocate low memory space");
return;
#endif
}
void MemArena::ReleaseSpace()
{
#ifdef _WIN32
CloseHandle(hMemoryMapping);
hMemoryMapping = 0;
#else
close(fd);
#endif
}
void *MemArena::CreateView(s64 offset, size_t size, void *base)
{
#ifdef _WIN32
return MapViewOfFileEx(hMemoryMapping, FILE_MAP_ALL_ACCESS, 0, (DWORD)((u64)offset), size, base);
#else
void *retval = mmap(
base, size,
PROT_READ | PROT_WRITE,
MAP_SHARED | ((base == nullptr) ? 0 : MAP_FIXED),
fd, offset);
if (retval == MAP_FAILED)
{
NOTICE_LOG(MEMMAP, "mmap on %s failed", ram_temp_file);
return nullptr;
}
else
{
return retval;
}
#endif
}
void MemArena::ReleaseView(void* view, size_t size)
{
#ifdef _WIN32
UnmapViewOfFile(view);
#else
munmap(view, size);
#endif
}
u8* MemArena::Find4GBBase()
{
#ifdef _M_X64
#ifdef _WIN32
// 64 bit
u8* base = (u8*)VirtualAlloc(0, 0xE1000000, MEM_RESERVE, PAGE_READWRITE);
VirtualFree(base, 0, MEM_RELEASE);
return base;
#else
// Very precarious - mmap cannot return an error when trying to map already used pages.
// This makes the Windows approach above unusable on Linux, so we will simply pray...
return reinterpret_cast<u8*>(0x2300000000ULL);
#endif
#else
// 32 bit
#ifdef _WIN32
// The highest thing in any 1GB section of memory space is the locked cache. We only need to fit it.
u8* base = (u8*)VirtualAlloc(0, 0x31000000, MEM_RESERVE, PAGE_READWRITE);
if (base) {
VirtualFree(base, 0, MEM_RELEASE);
}
return base;
#else
#ifdef ANDROID
// Android 4.3 changed how mmap works.
// if we map it private and then munmap it, we can't use the base returned.
// This may be due to changes in them support a full SELinux implementation.
const int flags = MAP_ANON;
#else
const int flags = MAP_ANON | MAP_PRIVATE;
#endif
const u32 MemSize = 0x31000000;
void* base = mmap(0, MemSize, PROT_NONE, flags, -1, 0);
if (base == MAP_FAILED) {
PanicAlert("Failed to map 1 GB of memory space: %s", strerror(errno));
return 0;
}
munmap(base, MemSize);
return static_cast<u8*>(base);
#endif
#endif
}
// yeah, this could also be done in like two bitwise ops...
#define SKIP(a_flags, b_flags) \
if (!(a_flags & MV_WII_ONLY) && (b_flags & MV_WII_ONLY)) \
continue; \
if (!(a_flags & MV_FAKE_VMEM) && (b_flags & MV_FAKE_VMEM)) \
continue; \
static bool Memory_TryBase(u8 *base, const MemoryView *views, int num_views, u32 flags, MemArena *arena) {
// OK, we know where to find free space. Now grab it!
// We just mimic the popular BAT setup.
u32 position = 0;
u32 last_position = 0;
// Zero all the pointers to be sure.
for (int i = 0; i < num_views; i++)
{
if (views[i].out_ptr_low)
*views[i].out_ptr_low = 0;
if (views[i].out_ptr)
*views[i].out_ptr = 0;
}
int i;
for (i = 0; i < num_views; i++)
{
SKIP(flags, views[i].flags);
if (views[i].flags & MV_MIRROR_PREVIOUS) {
position = last_position;
} else {
*(views[i].out_ptr_low) = (u8*)arena->CreateView(position, views[i].size);
if (!*views[i].out_ptr_low)
goto bail;
}
#ifdef _M_X64
*views[i].out_ptr = (u8*)arena->CreateView(
position, views[i].size, base + views[i].virtual_address);
#else
if (views[i].flags & MV_MIRROR_PREVIOUS) {
// No need to create multiple identical views.
*views[i].out_ptr = *views[i - 1].out_ptr;
} else {
*views[i].out_ptr = (u8*)arena->CreateView(
position, views[i].size, base + (views[i].virtual_address & 0x3FFFFFFF));
if (!*views[i].out_ptr)
goto bail;
}
#endif
last_position = position;
position += views[i].size;
}
return true;
bail:
// Argh! ERROR! Free what we grabbed so far so we can try again.
MemoryMap_Shutdown(views, i+1, flags, arena);
return false;
}
u8 *MemoryMap_Setup(const MemoryView *views, int num_views, u32 flags, MemArena *arena)
{
u32 total_mem = 0;
int base_attempts = 0;
for (int i = 0; i < num_views; i++)
{
SKIP(flags, views[i].flags);
if ((views[i].flags & MV_MIRROR_PREVIOUS) == 0)
total_mem += views[i].size;
}
// Grab some pagefile backed memory out of the void ...
arena->GrabLowMemSpace(total_mem);
// Now, create views in high memory where there's plenty of space.
#ifdef _M_X64
u8 *base = MemArena::Find4GBBase();
// This really shouldn't fail - in 64-bit, there will always be enough
// address space.
if (!Memory_TryBase(base, views, num_views, flags, arena))
{
PanicAlert("MemoryMap_Setup: Failed finding a memory base.");
exit(0);
return 0;
}
#else
#ifdef _WIN32
// Try a whole range of possible bases. Return once we got a valid one.
u32 max_base_addr = 0x7FFF0000 - 0x31000000;
u8 *base = NULL;
for (u32 base_addr = 0x40000; base_addr < max_base_addr; base_addr += 0x40000)
{
base_attempts++;
base = (u8 *)base_addr;
if (Memory_TryBase(base, views, num_views, flags, arena))
{
INFO_LOG(MEMMAP, "Found valid memory base at %p after %i tries.", base, base_attempts);
base_attempts = 0;
break;
}
}
#else
// Linux32 is fine with the x64 method, although limited to 32-bit with no automirrors.
u8 *base = MemArena::Find4GBBase();
if (!Memory_TryBase(base, views, num_views, flags, arena))
{
PanicAlert("MemoryMap_Setup: Failed finding a memory base.");
exit(0);
return 0;
}
#endif
#endif
if (base_attempts)
PanicAlert("No possible memory base pointer found!");
return base;
}
void MemoryMap_Shutdown(const MemoryView *views, int num_views, u32 flags, MemArena *arena)
{
std::set<void*> freeset;
for (int i = 0; i < num_views; i++)
{
const MemoryView* view = &views[i];
u8** outptrs[2] = {view->out_ptr_low, view->out_ptr};
for (int j = 0; j < 2; j++)
{
u8** outptr = outptrs[j];
if (outptr && *outptr && !freeset.count(*outptr))
{
arena->ReleaseView(*outptr, view->size);
freeset.insert(*outptr);
*outptr = NULL;
}
}
}
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _MEMARENA_H_
#define _MEMARENA_H_
#ifdef _WIN32
#include <windows.h>
#endif
#include "common.h"
// This class lets you create a block of anonymous RAM, and then arbitrarily map views into it.
// Multiple views can mirror the same section of the block, which makes it very convenient for emulating
// memory mirrors.
class MemArena
{
public:
void GrabLowMemSpace(size_t size);
void ReleaseSpace();
void *CreateView(s64 offset, size_t size, void *base = nullptr);
void ReleaseView(void *view, size_t size);
// This only finds 1 GB in 32-bit
static u8 *Find4GBBase();
private:
#ifdef _WIN32
HANDLE hMemoryMapping;
#else
int fd;
#endif
};
enum {
MV_MIRROR_PREVIOUS = 1,
MV_FAKE_VMEM = 2,
MV_WII_ONLY = 4,
};
struct MemoryView
{
u8 **out_ptr_low;
u8 **out_ptr;
u32 virtual_address;
u32 size;
u32 flags;
};
// Uses a memory arena to set up an emulator-friendly memory map according to
// a passed-in list of MemoryView structures.
u8 *MemoryMap_Setup(const MemoryView *views, int num_views, u32 flags, MemArena *arena);
void MemoryMap_Shutdown(const MemoryView *views, int num_views, u32 flags, MemArena *arena);
#endif // _MEMARENA_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "memory_util.h"
#include "string_util.h"
#ifdef _WIN32
#include <windows.h>
#include <psapi.h>
#else
#include <errno.h>
#include <stdio.h>
#endif
#if !defined(_WIN32) && defined(__x86_64__) && !defined(MAP_32BIT)
#include <unistd.h>
#define PAGE_MASK (getpagesize() - 1)
#define round_page(x) ((((unsigned long)(x)) + PAGE_MASK) & ~(PAGE_MASK))
#endif
// This is purposely not a full wrapper for virtualalloc/mmap, but it
// provides exactly the primitive operations that Dolphin needs.
void* AllocateExecutableMemory(size_t size, bool low)
{
#if defined(_WIN32)
void* ptr = VirtualAlloc(0, size, MEM_COMMIT, PAGE_EXECUTE_READWRITE);
#else
static char *map_hint = 0;
#if defined(__x86_64__) && !defined(MAP_32BIT)
// This OS has no flag to enforce allocation below the 4 GB boundary,
// but if we hint that we want a low address it is very likely we will
// get one.
// An older version of this code used MAP_FIXED, but that has the side
// effect of discarding already mapped pages that happen to be in the
// requested virtual memory range (such as the emulated RAM, sometimes).
if (low && (!map_hint))
map_hint = (char*)round_page(512*1024*1024); /* 0.5 GB rounded up to the next page */
#endif
void* ptr = mmap(map_hint, size, PROT_READ | PROT_WRITE | PROT_EXEC,
MAP_ANON | MAP_PRIVATE
#if defined(__x86_64__) && defined(MAP_32BIT)
| (low ? MAP_32BIT : 0)
#endif
, -1, 0);
#endif /* defined(_WIN32) */
// printf("Mapped executable memory at %p (size %ld)\n", ptr,
// (unsigned long)size);
#if defined(__FreeBSD__)
if (ptr == MAP_FAILED)
{
ptr = NULL;
#else
if (ptr == NULL)
{
#endif
PanicAlert("Failed to allocate executable memory");
}
#if !defined(_WIN32) && defined(__x86_64__) && !defined(MAP_32BIT)
else
{
if (low)
{
map_hint += size;
map_hint = (char*)round_page(map_hint); /* round up to the next page */
// printf("Next map will (hopefully) be at %p\n", map_hint);
}
}
#endif
#if defined(_M_X64)
if ((u64)ptr >= 0x80000000 && low == true)
PanicAlert("Executable memory ended up above 2GB!");
#endif
return ptr;
}
void* AllocateMemoryPages(size_t size)
{
#ifdef _WIN32
void* ptr = VirtualAlloc(0, size, MEM_COMMIT, PAGE_READWRITE);
#else
void* ptr = mmap(0, size, PROT_READ | PROT_WRITE,
MAP_ANON | MAP_PRIVATE, -1, 0);
#endif
// printf("Mapped memory at %p (size %ld)\n", ptr,
// (unsigned long)size);
if (ptr == NULL)
PanicAlert("Failed to allocate raw memory");
return ptr;
}
void* AllocateAlignedMemory(size_t size,size_t alignment)
{
#ifdef _WIN32
void* ptr = _aligned_malloc(size,alignment);
#else
void* ptr = NULL;
#ifdef ANDROID
ptr = memalign(alignment, size);
#else
if (posix_memalign(&ptr, alignment, size) != 0)
ERROR_LOG(MEMMAP, "Failed to allocate aligned memory");
#endif
#endif
// printf("Mapped memory at %p (size %ld)\n", ptr,
// (unsigned long)size);
if (ptr == NULL)
PanicAlert("Failed to allocate aligned memory");
return ptr;
}
void FreeMemoryPages(void* ptr, size_t size)
{
if (ptr)
{
#ifdef _WIN32
if (!VirtualFree(ptr, 0, MEM_RELEASE))
PanicAlert("FreeMemoryPages failed!\n%s", GetLastErrorMsg());
ptr = NULL; // Is this our responsibility?
#else
munmap(ptr, size);
#endif
}
}
void FreeAlignedMemory(void* ptr)
{
if (ptr)
{
#ifdef _WIN32
_aligned_free(ptr);
#else
free(ptr);
#endif
}
}
void WriteProtectMemory(void* ptr, size_t size, bool allowExecute)
{
#ifdef _WIN32
DWORD oldValue;
if (!VirtualProtect(ptr, size, allowExecute ? PAGE_EXECUTE_READ : PAGE_READONLY, &oldValue))
PanicAlert("WriteProtectMemory failed!\n%s", GetLastErrorMsg());
#else
mprotect(ptr, size, allowExecute ? (PROT_READ | PROT_EXEC) : PROT_READ);
#endif
}
void UnWriteProtectMemory(void* ptr, size_t size, bool allowExecute)
{
#ifdef _WIN32
DWORD oldValue;
if (!VirtualProtect(ptr, size, allowExecute ? PAGE_EXECUTE_READWRITE : PAGE_READWRITE, &oldValue))
PanicAlert("UnWriteProtectMemory failed!\n%s", GetLastErrorMsg());
#else
mprotect(ptr, size, allowExecute ? (PROT_READ | PROT_WRITE | PROT_EXEC) : PROT_WRITE | PROT_READ);
#endif
}
std::string MemUsage()
{
#ifdef _WIN32
#pragma comment(lib, "psapi")
DWORD processID = GetCurrentProcessId();
HANDLE hProcess;
PROCESS_MEMORY_COUNTERS pmc;
std::string Ret;
// Print information about the memory usage of the process.
hProcess = OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, processID);
if (NULL == hProcess) return "MemUsage Error";
if (GetProcessMemoryInfo(hProcess, &pmc, sizeof(pmc)))
Ret = StringFromFormat("%s K", ThousandSeparate(pmc.WorkingSetSize / 1024, 7).c_str());
CloseHandle(hProcess);
return Ret;
#else
return "";
#endif
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _MEMORYUTIL_H
#define _MEMORYUTIL_H
#ifndef _WIN32
#include <sys/mman.h>
#endif
#include <string>
void* AllocateExecutableMemory(size_t size, bool low = true);
void* AllocateMemoryPages(size_t size);
void FreeMemoryPages(void* ptr, size_t size);
void* AllocateAlignedMemory(size_t size,size_t alignment);
void FreeAlignedMemory(void* ptr);
void WriteProtectMemory(void* ptr, size_t size, bool executable = false);
void UnWriteProtectMemory(void* ptr, size_t size, bool allowExecute = false);
std::string MemUsage();
inline int GetPageSize() { return 4096; }
#endif

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src/common/src/misc.cpp Normal file
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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
// Neither Android nor OS X support TLS
#if defined(__APPLE__) || (ANDROID && __clang__)
#define __thread
#endif
// Generic function to get last error message.
// Call directly after the command or use the error num.
// This function might change the error code.
//const char* GetLastErrorMsg()
//{
// static const size_t buff_size = 255;
//
//#ifdef _WIN32
// static __declspec(thread) char err_str[buff_size] = {};
//
// FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError(),
// MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
// err_str, buff_size, NULL);
//#else
// static __thread char err_str[buff_size] = {};
//
// // Thread safe (XSI-compliant)
// strerror_r(errno, err_str, buff_size);
//#endif
//
// return err_str;
//}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <stdio.h> // System
#include "common.h" // Local
#include "string_util.h"
bool DefaultMsgHandler(const char* caption, const char* text, bool yes_no, int Style);
static MsgAlertHandler msg_handler = DefaultMsgHandler;
static bool AlertEnabled = true;
std::string DefaultStringTranslator(const char* text);
static StringTranslator str_translator = DefaultStringTranslator;
// Select which of these functions that are used for message boxes. If
// wxWidgets is enabled we will use wxMsgAlert() that is defined in Main.cpp
void RegisterMsgAlertHandler(MsgAlertHandler handler)
{
msg_handler = handler;
}
// Select translation function. For wxWidgets use wxStringTranslator in Main.cpp
void RegisterStringTranslator(StringTranslator translator)
{
str_translator = translator;
}
// enable/disable the alert handler
void SetEnableAlert(bool enable)
{
AlertEnabled = enable;
}
// This is the first stop for gui alerts where the log is updated and the
// correct window is shown
bool MsgAlert(bool yes_no, int Style, const char* format, ...)
{
// Read message and write it to the log
std::string caption;
char buffer[2048];
static std::string info_caption;
static std::string warn_caption;
static std::string ques_caption;
static std::string crit_caption;
if (!info_caption.length())
{
info_caption = str_translator(_trans("Information"));
ques_caption = str_translator(_trans("Question"));
warn_caption = str_translator(_trans("Warning"));
crit_caption = str_translator(_trans("Critical"));
}
switch(Style)
{
case INFORMATION:
caption = info_caption;
break;
case QUESTION:
caption = ques_caption;
break;
case WARNING:
caption = warn_caption;
break;
case CRITICAL:
caption = crit_caption;
break;
}
va_list args;
va_start(args, format);
CharArrayFromFormatV(buffer, sizeof(buffer)-1, str_translator(format).c_str(), args);
va_end(args);
ERROR_LOG(MASTER_LOG, "%s: %s", caption.c_str(), buffer);
// Don't ignore questions, especially AskYesNo, PanicYesNo could be ignored
if (msg_handler && (AlertEnabled || Style == QUESTION || Style == CRITICAL))
return msg_handler(caption.c_str(), buffer, yes_no, Style);
return true;
}
// Default non library dependent panic alert
bool DefaultMsgHandler(const char* caption, const char* text, bool yes_no, int Style)
{
//#ifdef _WIN32
// int STYLE = MB_ICONINFORMATION;
// if (Style == QUESTION) STYLE = MB_ICONQUESTION;
// if (Style == WARNING) STYLE = MB_ICONWARNING;
//
// return IDYES == MessageBox(0, UTF8ToTStr(text).c_str(), UTF8ToTStr(caption).c_str(), STYLE | (yes_no ? MB_YESNO : MB_OK));
//#else
printf("%s\n", text);
return true;
//#endif
}
// Default (non) translator
std::string DefaultStringTranslator(const char* text)
{
return text;
}

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _MSGHANDLER_H_
#define _MSGHANDLER_H_
#include <string>
// Message alerts
enum MSG_TYPE
{
INFORMATION,
QUESTION,
WARNING,
CRITICAL
};
typedef bool (*MsgAlertHandler)(const char* caption, const char* text,
bool yes_no, int Style);
typedef std::string (*StringTranslator)(const char* text);
void RegisterMsgAlertHandler(MsgAlertHandler handler);
void RegisterStringTranslator(StringTranslator translator);
extern bool MsgAlert(bool yes_no, int Style, const char* format, ...)
#ifdef __GNUC__
__attribute__((format(printf, 3, 4)))
#endif
;
void SetEnableAlert(bool enable);
#ifndef GEKKO
#ifdef _WIN32
#define SuccessAlert(format, ...) MsgAlert(false, INFORMATION, format, __VA_ARGS__)
#define PanicAlert(format, ...) MsgAlert(false, WARNING, format, __VA_ARGS__)
#define PanicYesNo(format, ...) MsgAlert(true, WARNING, format, __VA_ARGS__)
#define AskYesNo(format, ...) MsgAlert(true, QUESTION, format, __VA_ARGS__)
#define CriticalAlert(format, ...) MsgAlert(false, CRITICAL, format, __VA_ARGS__)
// Use these macros (that do the same thing) if the message should be translated.
#define SuccessAlertT(format, ...) MsgAlert(false, INFORMATION, format, __VA_ARGS__)
#define PanicAlertT(format, ...) MsgAlert(false, WARNING, format, __VA_ARGS__)
#define PanicYesNoT(format, ...) MsgAlert(true, WARNING, format, __VA_ARGS__)
#define AskYesNoT(format, ...) MsgAlert(true, QUESTION, format, __VA_ARGS__)
#define CriticalAlertT(format, ...) MsgAlert(false, CRITICAL, format, __VA_ARGS__)
#else
#define SuccessAlert(format, ...) MsgAlert(false, INFORMATION, format, ##__VA_ARGS__)
#define PanicAlert(format, ...) MsgAlert(false, WARNING, format, ##__VA_ARGS__)
#define PanicYesNo(format, ...) MsgAlert(true, WARNING, format, ##__VA_ARGS__)
#define AskYesNo(format, ...) MsgAlert(true, QUESTION, format, ##__VA_ARGS__)
#define CriticalAlert(format, ...) MsgAlert(false, CRITICAL, format, ##__VA_ARGS__)
// Use these macros (that do the same thing) if the message should be translated.
#define SuccessAlertT(format, ...) MsgAlert(false, INFORMATION, format, ##__VA_ARGS__)
#define PanicAlertT(format, ...) MsgAlert(false, WARNING, format, ##__VA_ARGS__)
#define PanicYesNoT(format, ...) MsgAlert(true, WARNING, format, ##__VA_ARGS__)
#define AskYesNoT(format, ...) MsgAlert(true, QUESTION, format, ##__VA_ARGS__)
#define CriticalAlertT(format, ...) MsgAlert(false, CRITICAL, format, ##__VA_ARGS__)
#endif
#else
// GEKKO
#define SuccessAlert(format, ...) ;
#define PanicAlert(format, ...) ;
#define PanicYesNo(format, ...) ;
#define AskYesNo(format, ...) ;
#define CriticalAlert(format, ...) ;
#define SuccessAlertT(format, ...) ;
#define PanicAlertT(format, ...) ;
#define PanicYesNoT(format, ...) ;
#define AskYesNoT(format, ...) ;
#define CriticalAlertT(format, ...) ;
#endif
#endif // _MSGHANDLER_H_

4
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#define SCM_REV_STR "7d11f8cedd7c135d96880f19ecbd3ff87a60a11f"
#define SCM_DESC_STR "3.5-254-dirty"
#define SCM_BRANCH_STR "master"
#define SCM_IS_MASTER 1

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#ifndef CONDITION_VARIABLE_H_
#define CONDITION_VARIABLE_H_
#define GCC_VER(x,y,z) ((x) * 10000 + (y) * 100 + (z))
#define GCC_VERSION GCC_VER(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__)
#ifndef __has_include
#define __has_include(s) 0
#endif
#if GCC_VERSION >= GCC_VER(4,4,0) && __GXX_EXPERIMENTAL_CXX0X__
// GCC 4.4 provides <condition_variable>
#include <condition_variable>
#elif __has_include(<condition_variable>) && !ANDROID
// clang and libc++ provide <condition_variable> on OSX. However, the version
// of libc++ bundled with OSX 10.7 and 10.8 is buggy: it uses _ as a variable.
//
// We work around this issue by undefining and redefining _.
#undef _
#include <condition_variable>
#define _(s) wxGetTranslation((s))
#else
// partial std::condition_variable implementation for win32/pthread
#include "std_mutex.h"
#if (_MSC_VER >= 1600) || (GCC_VERSION >= GCC_VER(4,3,0) && __GXX_EXPERIMENTAL_CXX0X__)
#define USE_RVALUE_REFERENCES
#endif
#if defined(_WIN32) && defined(_M_X64)
#define USE_CONDITION_VARIABLES
#elif defined(_WIN32)
#define USE_EVENTS
#endif
namespace std
{
class condition_variable
{
#if defined(_WIN32) && defined(USE_CONDITION_VARIABLES)
typedef CONDITION_VARIABLE native_type;
#elif defined(_WIN32)
typedef HANDLE native_type;
#else
typedef pthread_cond_t native_type;
#endif
public:
#ifdef USE_EVENTS
typedef native_type native_handle_type;
#else
typedef native_type* native_handle_type;
#endif
condition_variable()
{
#if defined(_WIN32) && defined(USE_CONDITION_VARIABLES)
InitializeConditionVariable(&m_handle);
#elif defined(_WIN32)
m_handle = CreateEvent(NULL, false, false, NULL);
#else
pthread_cond_init(&m_handle, NULL);
#endif
}
~condition_variable()
{
#if defined(_WIN32) && !defined(USE_CONDITION_VARIABLES)
CloseHandle(m_handle);
#elif !defined(_WIN32)
pthread_cond_destroy(&m_handle);
#endif
}
condition_variable(const condition_variable&) /*= delete*/;
condition_variable& operator=(const condition_variable&) /*= delete*/;
void notify_one()
{
#if defined(_WIN32) && defined(USE_CONDITION_VARIABLES)
WakeConditionVariable(&m_handle);
#elif defined(_WIN32)
SetEvent(m_handle);
#else
pthread_cond_signal(&m_handle);
#endif
}
void notify_all()
{
#if defined(_WIN32) && defined(USE_CONDITION_VARIABLES)
WakeAllConditionVariable(&m_handle);
#elif defined(_WIN32)
// TODO: broken
SetEvent(m_handle);
#else
pthread_cond_broadcast(&m_handle);
#endif
}
void wait(unique_lock<mutex>& lock)
{
#ifdef _WIN32
#ifdef USE_SRWLOCKS
SleepConditionVariableSRW(&m_handle, lock.mutex()->native_handle(), INFINITE, 0);
#elif defined(USE_CONDITION_VARIABLES)
SleepConditionVariableCS(&m_handle, lock.mutex()->native_handle(), INFINITE);
#else
// TODO: broken, the unlock and wait need to be atomic
lock.unlock();
WaitForSingleObject(m_handle, INFINITE);
lock.lock();
#endif
#else
pthread_cond_wait(&m_handle, lock.mutex()->native_handle());
#endif
}
template <class Predicate>
void wait(unique_lock<mutex>& lock, Predicate pred)
{
while (!pred())
wait(lock);
}
//template <class Clock, class Duration>
//cv_status wait_until(unique_lock<mutex>& lock,
// const chrono::time_point<Clock, Duration>& abs_time);
//template <class Clock, class Duration, class Predicate>
// bool wait_until(unique_lock<mutex>& lock,
// const chrono::time_point<Clock, Duration>& abs_time,
// Predicate pred);
//template <class Rep, class Period>
//cv_status wait_for(unique_lock<mutex>& lock,
// const chrono::duration<Rep, Period>& rel_time);
//template <class Rep, class Period, class Predicate>
// bool wait_for(unique_lock<mutex>& lock,
// const chrono::duration<Rep, Period>& rel_time,
// Predicate pred);
native_handle_type native_handle()
{
#ifdef USE_EVENTS
return m_handle;
#else
return &m_handle;
#endif
}
private:
native_type m_handle;
};
}
#endif
#endif

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#ifndef MUTEX_H_
#define MUTEX_H_
#define GCC_VER(x,y,z) ((x) * 10000 + (y) * 100 + (z))
#define GCC_VERSION GCC_VER(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__)
#ifndef __has_include
#define __has_include(s) 0
#endif
#if GCC_VERSION >= GCC_VER(4,4,0) && __GXX_EXPERIMENTAL_CXX0X__
// GCC 4.4 provides <mutex>
#include <mutex>
#elif __has_include(<mutex>) && !ANDROID
// Clang + libc++
#include <mutex>
#else
// partial <mutex> implementation for win32/pthread
#include <algorithm>
#if defined(_WIN32)
// WIN32
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#else
// POSIX
#include <pthread.h>
#endif
#if (_MSC_VER >= 1600) || (GCC_VERSION >= GCC_VER(4,3,0) && __GXX_EXPERIMENTAL_CXX0X__)
#define USE_RVALUE_REFERENCES
#endif
#if defined(_WIN32) && defined(_M_X64)
#define USE_SRWLOCKS
#endif
namespace std
{
class recursive_mutex
{
#ifdef _WIN32
typedef CRITICAL_SECTION native_type;
#else
typedef pthread_mutex_t native_type;
#endif
public:
typedef native_type* native_handle_type;
recursive_mutex(const recursive_mutex&) /*= delete*/;
recursive_mutex& operator=(const recursive_mutex&) /*= delete*/;
recursive_mutex()
{
#ifdef _WIN32
InitializeCriticalSection(&m_handle);
#else
pthread_mutexattr_t attr;
pthread_mutexattr_init(&attr);
pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE);
pthread_mutex_init(&m_handle, &attr);
#endif
}
~recursive_mutex()
{
#ifdef _WIN32
DeleteCriticalSection(&m_handle);
#else
pthread_mutex_destroy(&m_handle);
#endif
}
void lock()
{
#ifdef _WIN32
EnterCriticalSection(&m_handle);
#else
pthread_mutex_lock(&m_handle);
#endif
}
void unlock()
{
#ifdef _WIN32
LeaveCriticalSection(&m_handle);
#else
pthread_mutex_unlock(&m_handle);
#endif
}
bool try_lock()
{
#ifdef _WIN32
return (0 != TryEnterCriticalSection(&m_handle));
#else
return !pthread_mutex_trylock(&m_handle);
#endif
}
native_handle_type native_handle()
{
return &m_handle;
}
private:
native_type m_handle;
};
#if !defined(_WIN32) || defined(USE_SRWLOCKS)
class mutex
{
#ifdef _WIN32
typedef SRWLOCK native_type;
#else
typedef pthread_mutex_t native_type;
#endif
public:
typedef native_type* native_handle_type;
mutex(const mutex&) /*= delete*/;
mutex& operator=(const mutex&) /*= delete*/;
mutex()
{
#ifdef _WIN32
InitializeSRWLock(&m_handle);
#else
pthread_mutex_init(&m_handle, NULL);
#endif
}
~mutex()
{
#ifdef _WIN32
#else
pthread_mutex_destroy(&m_handle);
#endif
}
void lock()
{
#ifdef _WIN32
AcquireSRWLockExclusive(&m_handle);
#else
pthread_mutex_lock(&m_handle);
#endif
}
void unlock()
{
#ifdef _WIN32
ReleaseSRWLockExclusive(&m_handle);
#else
pthread_mutex_unlock(&m_handle);
#endif
}
bool try_lock()
{
#ifdef _WIN32
// XXX TryAcquireSRWLockExclusive requires Windows 7!
// return (0 != TryAcquireSRWLockExclusive(&m_handle));
return false;
#else
return !pthread_mutex_trylock(&m_handle);
#endif
}
native_handle_type native_handle()
{
return &m_handle;
}
private:
native_type m_handle;
};
#else
typedef recursive_mutex mutex; // just use CriticalSections
#endif
enum defer_lock_t { defer_lock };
enum try_to_lock_t { try_to_lock };
enum adopt_lock_t { adopt_lock };
template <class Mutex>
class lock_guard
{
public:
typedef Mutex mutex_type;
explicit lock_guard(mutex_type& m)
: pm(m)
{
m.lock();
}
lock_guard(mutex_type& m, adopt_lock_t)
: pm(m)
{
}
~lock_guard()
{
pm.unlock();
}
lock_guard(lock_guard const&) /*= delete*/;
lock_guard& operator=(lock_guard const&) /*= delete*/;
private:
mutex_type& pm;
};
template <class Mutex>
class unique_lock
{
public:
typedef Mutex mutex_type;
unique_lock()
: pm(NULL), owns(false)
{}
/*explicit*/ unique_lock(mutex_type& m)
: pm(&m), owns(true)
{
m.lock();
}
unique_lock(mutex_type& m, defer_lock_t)
: pm(&m), owns(false)
{}
unique_lock(mutex_type& m, try_to_lock_t)
: pm(&m), owns(m.try_lock())
{}
unique_lock(mutex_type& m, adopt_lock_t)
: pm(&m), owns(true)
{}
//template <class Clock, class Duration>
//unique_lock(mutex_type& m, const chrono::time_point<Clock, Duration>& abs_time);
//template <class Rep, class Period>
//unique_lock(mutex_type& m, const chrono::duration<Rep, Period>& rel_time);
~unique_lock()
{
if (owns_lock())
mutex()->unlock();
}
#ifdef USE_RVALUE_REFERENCES
unique_lock& operator=(const unique_lock&) /*= delete*/;
unique_lock& operator=(unique_lock&& other)
{
#else
unique_lock& operator=(const unique_lock& u)
{
// ugly const_cast to get around lack of rvalue references
unique_lock& other = const_cast<unique_lock&>(u);
#endif
swap(other);
return *this;
}
#ifdef USE_RVALUE_REFERENCES
unique_lock(const unique_lock&) /*= delete*/;
unique_lock(unique_lock&& other)
: pm(NULL), owns(false)
{
#else
unique_lock(const unique_lock& u)
: pm(NULL), owns(false)
{
// ugly const_cast to get around lack of rvalue references
unique_lock& other = const_cast<unique_lock&>(u);
#endif
swap(other);
}
void lock()
{
mutex()->lock();
owns = true;
}
bool try_lock()
{
owns = mutex()->try_lock();
return owns;
}
//template <class Rep, class Period>
//bool try_lock_for(const chrono::duration<Rep, Period>& rel_time);
//template <class Clock, class Duration>
//bool try_lock_until(const chrono::time_point<Clock, Duration>& abs_time);
void unlock()
{
mutex()->unlock();
owns = false;
}
void swap(unique_lock& u)
{
std::swap(pm, u.pm);
std::swap(owns, u.owns);
}
mutex_type* release()
{
auto const ret = mutex();
pm = NULL;
owns = false;
return ret;
}
bool owns_lock() const
{
return owns;
}
//explicit operator bool () const
//{
// return owns_lock();
//}
mutex_type* mutex() const
{
return pm;
}
private:
mutex_type* pm;
bool owns;
};
template <class Mutex>
void swap(unique_lock<Mutex>& x, unique_lock<Mutex>& y)
{
x.swap(y);
}
}
#endif
#endif

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#ifndef STD_THREAD_H_
#define STD_THREAD_H_
#define GCC_VER(x,y,z) ((x) * 10000 + (y) * 100 + (z))
#define GCC_VERSION GCC_VER(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__)
#ifndef __has_include
#define __has_include(s) 0
#endif
#if GCC_VERSION >= GCC_VER(4,4,0) && __GXX_EXPERIMENTAL_CXX0X__
// GCC 4.4 provides <thread>
#ifndef _GLIBCXX_USE_SCHED_YIELD
#define _GLIBCXX_USE_SCHED_YIELD
#endif
#include <thread>
#elif __has_include(<thread>) && !ANDROID
// Clang + libc++
#include <thread>
#else
// partial std::thread implementation for win32/pthread
#include <algorithm>
#if (_MSC_VER >= 1600) || (GCC_VERSION >= GCC_VER(4,3,0) && __GXX_EXPERIMENTAL_CXX0X__)
#define USE_RVALUE_REFERENCES
#endif
#ifdef __APPLE__
#import <Foundation/NSAutoreleasePool.h>
#endif
#if defined(_WIN32)
// WIN32
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#if defined(_MSC_VER) && defined(_MT)
// When linking with LIBCMT (the multithreaded C library), Microsoft recommends
// using _beginthreadex instead of CreateThread.
#define USE_BEGINTHREADEX
#include <process.h>
#endif
#ifdef USE_BEGINTHREADEX
#define THREAD_ID unsigned
#define THREAD_RETURN unsigned __stdcall
#else
#define THREAD_ID DWORD
#define THREAD_RETURN DWORD WINAPI
#endif
#define THREAD_HANDLE HANDLE
#else
// PTHREAD
#include <unistd.h>
#ifndef _POSIX_THREADS
#error unsupported platform (no pthreads?)
#endif
#include <pthread.h>
#define THREAD_ID pthread_t
#define THREAD_HANDLE pthread_t
#define THREAD_RETURN void*
#endif
namespace std
{
class thread
{
public:
typedef THREAD_HANDLE native_handle_type;
class id
{
friend class thread;
public:
id() : m_thread(0) {}
id(THREAD_ID _id) : m_thread(_id) {}
bool operator==(const id& rhs) const
{
return m_thread == rhs.m_thread;
}
bool operator!=(const id& rhs) const
{
return !(*this == rhs);
}
bool operator<(const id& rhs) const
{
return m_thread < rhs.m_thread;
}
private:
THREAD_ID m_thread;
};
// no variadic template support in msvc
//template <typename C, typename... A>
//thread(C&& func, A&&... args);
template <typename C>
thread(C func)
{
StartThread(new Func<C>(func));
}
template <typename C, typename A>
thread(C func, A arg)
{
StartThread(new FuncArg<C, A>(func, arg));
}
thread() /*= default;*/ {}
#ifdef USE_RVALUE_REFERENCES
thread(const thread&) /*= delete*/;
thread(thread&& other)
{
#else
thread(const thread& t)
{
// ugly const_cast to get around lack of rvalue references
thread& other = const_cast<thread&>(t);
#endif
swap(other);
}
#ifdef USE_RVALUE_REFERENCES
thread& operator=(const thread&) /*= delete*/;
thread& operator=(thread&& other)
{
#else
thread& operator=(const thread& t)
{
// ugly const_cast to get around lack of rvalue references
thread& other = const_cast<thread&>(t);
#endif
if (joinable())
detach();
swap(other);
return *this;
}
~thread()
{
if (joinable())
detach();
}
bool joinable() const
{
return m_id != id();
}
id get_id() const
{
return m_id;
}
native_handle_type native_handle()
{
#ifdef _WIN32
return m_handle;
#else
return m_id.m_thread;
#endif
}
void join()
{
#ifdef _WIN32
WaitForSingleObject(m_handle, INFINITE);
detach();
#else
pthread_join(m_id.m_thread, NULL);
m_id = id();
#endif
}
void detach()
{
#ifdef _WIN32
CloseHandle(m_handle);
#else
pthread_detach(m_id.m_thread);
#endif
m_id = id();
}
void swap(thread& other)
{
std::swap(m_id, other.m_id);
#ifdef _WIN32
std::swap(m_handle, other.m_handle);
#endif
}
static unsigned hardware_concurrency()
{
#ifdef _WIN32
SYSTEM_INFO sysinfo;
GetSystemInfo(&sysinfo);
return static_cast<unsigned>(sysinfo.dwNumberOfProcessors);
#else
return 0;
#endif
}
private:
id m_id;
#ifdef _WIN32
native_handle_type m_handle;
#endif
template <typename F>
void StartThread(F* param)
{
#ifdef USE_BEGINTHREADEX
m_handle = (HANDLE)_beginthreadex(NULL, 0, &RunAndDelete<F>, param, 0, &m_id.m_thread);
#elif defined(_WIN32)
m_handle = CreateThread(NULL, 0, &RunAndDelete<F>, param, 0, &m_id.m_thread);
#else
pthread_attr_t attr;
pthread_attr_init(&attr);
pthread_attr_setstacksize(&attr, 1024 * 1024);
if (pthread_create(&m_id.m_thread, &attr, &RunAndDelete<F>, param))
m_id = id();
#endif
}
template <typename C>
class Func
{
public:
Func(C _func) : func(_func) {}
void Run() { func(); }
private:
C const func;
};
template <typename C, typename A>
class FuncArg
{
public:
FuncArg(C _func, A _arg) : func(_func), arg(_arg) {}
void Run() { func(arg); }
private:
C const func;
A arg;
};
template <typename F>
static THREAD_RETURN RunAndDelete(void* param)
{
#ifdef __APPLE__
NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init];
#endif
static_cast<F*>(param)->Run();
delete static_cast<F*>(param);
#ifdef __APPLE__
[pool release];
#endif
return 0;
}
};
namespace this_thread
{
inline void yield()
{
#ifdef _WIN32
SwitchToThread();
#else
sleep(0);
#endif
}
inline thread::id get_id()
{
#ifdef _WIN32
return GetCurrentThreadId();
#else
return pthread_self();
#endif
}
} // namespace this_thread
} // namespace std
#undef USE_RVALUE_REFERENCES
#undef USE_BEGINTHREADEX
#undef THREAD_ID
#undef THREAD_RETURN
#undef THREAD_HANDLE
#endif
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <stdlib.h>
#include <stdio.h>
#include <algorithm>
#include "common.h"
#include "common_paths.h"
#include "string_util.h"
#ifdef _WIN32
#include <Windows.h>
#else
#include <iconv.h>
#include <errno.h>
#endif
// faster than sscanf
bool AsciiToHex(const char* _szValue, u32& result)
{
char *endptr = NULL;
const u32 value = strtoul(_szValue, &endptr, 16);
if (!endptr || *endptr)
return false;
result = value;
return true;
}
bool CharArrayFromFormatV(char* out, int outsize, const char* format, va_list args)
{
int writtenCount;
#ifdef _WIN32
// You would think *printf are simple, right? Iterate on each character,
// if it's a format specifier handle it properly, etc.
//
// Nooooo. Not according to the C standard.
//
// According to the C99 standard (7.19.6.1 "The fprintf function")
// The format shall be a multibyte character sequence
//
// Because some character encodings might have '%' signs in the middle of
// a multibyte sequence (SJIS for example only specifies that the first
// byte of a 2 byte sequence is "high", the second byte can be anything),
// printf functions have to decode the multibyte sequences and try their
// best to not screw up.
//
// Unfortunately, on Windows, the locale for most languages is not UTF-8
// as we would need. Notably, for zh_TW, Windows chooses EUC-CN as the
// locale, and completely fails when trying to decode UTF-8 as EUC-CN.
//
// On the other hand, the fix is simple: because we use UTF-8, no such
// multibyte handling is required as we can simply assume that no '%' char
// will be present in the middle of a multibyte sequence.
//
// This is why we lookup an ANSI (cp1252) locale here and use _vsnprintf_l.
static locale_t c_locale = NULL;
if (!c_locale)
c_locale = _create_locale(LC_ALL, ".1252");
writtenCount = _vsnprintf_l(out, outsize, format, c_locale, args);
#else
writtenCount = vsnprintf(out, outsize, format, args);
#endif
if (writtenCount > 0 && writtenCount < outsize)
{
out[writtenCount] = '\0';
return true;
}
else
{
out[outsize - 1] = '\0';
return false;
}
}
std::string StringFromFormat(const char* format, ...)
{
va_list args;
char *buf = NULL;
#ifdef _WIN32
int required = 0;
va_start(args, format);
required = _vscprintf(format, args);
buf = new char[required + 1];
CharArrayFromFormatV(buf, required + 1, format, args);
va_end(args);
std::string temp = buf;
delete[] buf;
#else
va_start(args, format);
if (vasprintf(&buf, format, args) < 0)
ERROR_LOG(COMMON, "Unable to allocate memory for string");
va_end(args);
std::string temp = buf;
free(buf);
#endif
return temp;
}
// For Debugging. Read out an u8 array.
std::string ArrayToString(const u8 *data, u32 size, int line_len, bool spaces)
{
std::ostringstream oss;
oss << std::setfill('0') << std::hex;
for (int line = 0; size; ++data, --size)
{
oss << std::setw(2) << (int)*data;
if (line_len == ++line)
{
oss << '\n';
line = 0;
}
else if (spaces)
oss << ' ';
}
return oss.str();
}
// Turns " hej " into "hej". Also handles tabs.
std::string StripSpaces(const std::string &str)
{
const size_t s = str.find_first_not_of(" \t\r\n");
if (str.npos != s)
return str.substr(s, str.find_last_not_of(" \t\r\n") - s + 1);
else
return "";
}
// "\"hello\"" is turned to "hello"
// This one assumes that the string has already been space stripped in both
// ends, as done by StripSpaces above, for example.
std::string StripQuotes(const std::string& s)
{
if (s.size() && '\"' == s[0] && '\"' == *s.rbegin())
return s.substr(1, s.size() - 2);
else
return s;
}
bool TryParse(const std::string &str, u32 *const output)
{
char *endptr = NULL;
// Reset errno to a value other than ERANGE
errno = 0;
unsigned long value = strtoul(str.c_str(), &endptr, 0);
if (!endptr || *endptr)
return false;
if (errno == ERANGE)
return false;
#if ULONG_MAX > UINT_MAX
if (value >= 0x100000000ull
&& value <= 0xFFFFFFFF00000000ull)
return false;
#endif
*output = static_cast<u32>(value);
return true;
}
bool TryParse(const std::string &str, bool *const output)
{
if ("1" == str || !strcasecmp("true", str.c_str()))
*output = true;
else if ("0" == str || !strcasecmp("false", str.c_str()))
*output = false;
else
return false;
return true;
}
std::string StringFromInt(int value)
{
char temp[16];
sprintf(temp, "%i", value);
return temp;
}
std::string StringFromBool(bool value)
{
return value ? "True" : "False";
}
bool SplitPath(const std::string& full_path, std::string* _pPath, std::string* _pFilename, std::string* _pExtension)
{
if (full_path.empty())
return false;
size_t dir_end = full_path.find_last_of("/"
// windows needs the : included for something like just "C:" to be considered a directory
#ifdef _WIN32
":"
#endif
);
if (std::string::npos == dir_end)
dir_end = 0;
else
dir_end += 1;
size_t fname_end = full_path.rfind('.');
if (fname_end < dir_end || std::string::npos == fname_end)
fname_end = full_path.size();
if (_pPath)
*_pPath = full_path.substr(0, dir_end);
if (_pFilename)
*_pFilename = full_path.substr(dir_end, fname_end - dir_end);
if (_pExtension)
*_pExtension = full_path.substr(fname_end);
return true;
}
void BuildCompleteFilename(std::string& _CompleteFilename, const std::string& _Path, const std::string& _Filename)
{
_CompleteFilename = _Path;
// check for seperator
if (DIR_SEP_CHR != *_CompleteFilename.rbegin())
_CompleteFilename += DIR_SEP_CHR;
// add the filename
_CompleteFilename += _Filename;
}
void SplitString(const std::string& str, const char delim, std::vector<std::string>& output)
{
std::istringstream iss(str);
output.resize(1);
while (std::getline(iss, *output.rbegin(), delim))
output.push_back("");
output.pop_back();
}
std::string TabsToSpaces(int tab_size, const std::string &in)
{
const std::string spaces(tab_size, ' ');
std::string out(in);
size_t i = 0;
while (out.npos != (i = out.find('\t')))
out.replace(i, 1, spaces);
return out;
}
std::string ReplaceAll(std::string result, const std::string& src, const std::string& dest)
{
while(1)
{
size_t pos = result.find(src);
if (pos == std::string::npos) break;
result.replace(pos, src.size(), dest);
}
return result;
}
// UriDecode and UriEncode are from http://www.codeguru.com/cpp/cpp/string/conversions/print.php/c12759
// by jinq0123 (November 2, 2006)
// Uri encode and decode.
// RFC1630, RFC1738, RFC2396
//#include <string>
//#include <assert.h>
const char HEX2DEC[256] =
{
/* 0 1 2 3 4 5 6 7 8 9 A B C D E F */
/* 0 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 1 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 2 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 3 */ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,16,16, 16,16,16,16,
/* 4 */ 16,10,11,12, 13,14,15,16, 16,16,16,16, 16,16,16,16,
/* 5 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 6 */ 16,10,11,12, 13,14,15,16, 16,16,16,16, 16,16,16,16,
/* 7 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 8 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* 9 */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* A */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* B */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* C */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* D */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* E */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16,
/* F */ 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16
};
std::string UriDecode(const std::string & sSrc)
{
// Note from RFC1630: "Sequences which start with a percent sign
// but are not followed by two hexadecimal characters (0-9, A-F) are reserved
// for future extension"
const unsigned char * pSrc = (const unsigned char *)sSrc.c_str();
const size_t SRC_LEN = sSrc.length();
const unsigned char * const SRC_END = pSrc + SRC_LEN;
const unsigned char * const SRC_LAST_DEC = SRC_END - 2; // last decodable '%'
char * const pStart = new char[SRC_LEN];
char * pEnd = pStart;
while (pSrc < SRC_LAST_DEC)
{
if (*pSrc == '%')
{
char dec1, dec2;
if (16 != (dec1 = HEX2DEC[*(pSrc + 1)])
&& 16 != (dec2 = HEX2DEC[*(pSrc + 2)]))
{
*pEnd++ = (dec1 << 4) + dec2;
pSrc += 3;
continue;
}
}
*pEnd++ = *pSrc++;
}
// the last 2- chars
while (pSrc < SRC_END)
*pEnd++ = *pSrc++;
std::string sResult(pStart, pEnd);
delete [] pStart;
return sResult;
}
// Only alphanum is safe.
const char SAFE[256] =
{
/* 0 1 2 3 4 5 6 7 8 9 A B C D E F */
/* 0 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* 1 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* 2 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* 3 */ 1,1,1,1, 1,1,1,1, 1,1,0,0, 0,0,0,0,
/* 4 */ 0,1,1,1, 1,1,1,1, 1,1,1,1, 1,1,1,1,
/* 5 */ 1,1,1,1, 1,1,1,1, 1,1,1,0, 0,0,0,0,
/* 6 */ 0,1,1,1, 1,1,1,1, 1,1,1,1, 1,1,1,1,
/* 7 */ 1,1,1,1, 1,1,1,1, 1,1,1,0, 0,0,0,0,
/* 8 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* 9 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* A */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* B */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* C */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* D */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* E */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,
/* F */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0
};
std::string UriEncode(const std::string & sSrc)
{
const char DEC2HEX[16 + 1] = "0123456789ABCDEF";
const unsigned char * pSrc = (const unsigned char *)sSrc.c_str();
const size_t SRC_LEN = sSrc.length();
unsigned char * const pStart = new unsigned char[SRC_LEN * 3];
unsigned char * pEnd = pStart;
const unsigned char * const SRC_END = pSrc + SRC_LEN;
for (; pSrc < SRC_END; ++pSrc)
{
if (SAFE[*pSrc])
*pEnd++ = *pSrc;
else
{
// escape this char
*pEnd++ = '%';
*pEnd++ = DEC2HEX[*pSrc >> 4];
*pEnd++ = DEC2HEX[*pSrc & 0x0F];
}
}
std::string sResult((char *)pStart, (char *)pEnd);
delete [] pStart;
return sResult;
}
#ifdef _WIN32
std::string UTF16ToUTF8(const std::wstring& input)
{
auto const size = WideCharToMultiByte(CP_UTF8, 0, input.data(), input.size(), nullptr, 0, nullptr, nullptr);
std::string output;
output.resize(size);
if (size == 0 || size != WideCharToMultiByte(CP_UTF8, 0, input.data(), input.size(), &output[0], output.size(), nullptr, nullptr))
output.clear();
return output;
}
std::wstring CPToUTF16(u32 code_page, const std::string& input)
{
auto const size = MultiByteToWideChar(code_page, 0, input.data(), input.size(), nullptr, 0);
std::wstring output;
output.resize(size);
if (size == 0 || size != MultiByteToWideChar(code_page, 0, input.data(), input.size(), &output[0], output.size()))
output.clear();
return output;
}
std::wstring UTF8ToUTF16(const std::string& input)
{
return CPToUTF16(CP_UTF8, input);
}
std::string SHIFTJISToUTF8(const std::string& input)
{
return UTF16ToUTF8(CPToUTF16(932, input));
}
std::string CP1252ToUTF8(const std::string& input)
{
return UTF16ToUTF8(CPToUTF16(1252, input));
}
#else
template <typename T>
std::string CodeToUTF8(const char* fromcode, const std::basic_string<T>& input)
{
std::string result;
iconv_t const conv_desc = iconv_open("UTF-8", fromcode);
if ((iconv_t)-1 == conv_desc)
{
ERROR_LOG(COMMON, "Iconv initialization failure [%s]: %s", fromcode, strerror(errno));
}
else
{
size_t const in_bytes = sizeof(T) * input.size();
size_t const out_buffer_size = 4 * in_bytes;
std::string out_buffer;
out_buffer.resize(out_buffer_size);
auto src_buffer = &input[0];
size_t src_bytes = in_bytes;
auto dst_buffer = &out_buffer[0];
size_t dst_bytes = out_buffer.size();
while (src_bytes != 0)
{
size_t const iconv_result = iconv(conv_desc, (char**)(&src_buffer), &src_bytes,
&dst_buffer, &dst_bytes);
if ((size_t)-1 == iconv_result)
{
if (EILSEQ == errno || EINVAL == errno)
{
// Try to skip the bad character
if (src_bytes != 0)
{
--src_bytes;
++src_buffer;
}
}
else
{
ERROR_LOG(COMMON, "iconv failure [%s]: %s", fromcode, strerror(errno));
break;
}
}
}
out_buffer.resize(out_buffer_size - dst_bytes);
out_buffer.swap(result);
iconv_close(conv_desc);
}
return result;
}
std::string CP1252ToUTF8(const std::string& input)
{
//return CodeToUTF8("CP1252//TRANSLIT", input);
//return CodeToUTF8("CP1252//IGNORE", input);
return CodeToUTF8("CP1252", input);
}
std::string SHIFTJISToUTF8(const std::string& input)
{
//return CodeToUTF8("CP932", input);
return CodeToUTF8("SJIS", input);
}
std::string UTF16ToUTF8(const std::wstring& input)
{
std::string result =
// CodeToUTF8("UCS-2", input);
// CodeToUTF8("UCS-2LE", input);
// CodeToUTF8("UTF-16", input);
CodeToUTF8("UTF-16LE", input);
// TODO: why is this needed?
result.erase(std::remove(result.begin(), result.end(), 0x00), result.end());
return result;
}
#endif

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _STRINGUTIL_H_
#define _STRINGUTIL_H_
#include <stdarg.h>
#include <vector>
#include <string>
#include <sstream>
#include <iomanip>
#include "common.h"
std::string StringFromFormat(const char* format, ...);
// Cheap!
bool CharArrayFromFormatV(char* out, int outsize, const char* format, va_list args);
template<size_t Count>
inline void CharArrayFromFormat(char (& out)[Count], const char* format, ...)
{
va_list args;
va_start(args, format);
CharArrayFromFormatV(out, Count, format, args);
va_end(args);
}
// Good
std::string ArrayToString(const u8 *data, u32 size, int line_len = 20, bool spaces = true);
std::string StripSpaces(const std::string &s);
std::string StripQuotes(const std::string &s);
// Thousand separator. Turns 12345678 into 12,345,678
template <typename I>
std::string ThousandSeparate(I value, int spaces = 0)
{
std::ostringstream oss;
// std::locale("") seems to be broken on many platforms
#if defined _WIN32 || (defined __linux__ && !defined __clang__)
oss.imbue(std::locale(""));
#endif
oss << std::setw(spaces) << value;
return oss.str();
}
std::string StringFromInt(int value);
std::string StringFromBool(bool value);
bool TryParse(const std::string &str, bool *output);
bool TryParse(const std::string &str, u32 *output);
template <typename N>
static bool TryParse(const std::string &str, N *const output)
{
std::istringstream iss(str);
N tmp = 0;
if (iss >> tmp)
{
*output = tmp;
return true;
}
else
return false;
}
// TODO: kill this
bool AsciiToHex(const char* _szValue, u32& result);
std::string TabsToSpaces(int tab_size, const std::string &in);
void SplitString(const std::string& str, char delim, std::vector<std::string>& output);
// "C:/Windows/winhelp.exe" to "C:/Windows/", "winhelp", ".exe"
bool SplitPath(const std::string& full_path, std::string* _pPath, std::string* _pFilename, std::string* _pExtension);
void BuildCompleteFilename(std::string& _CompleteFilename, const std::string& _Path, const std::string& _Filename);
std::string ReplaceAll(std::string result, const std::string& src, const std::string& dest);
std::string UriDecode(const std::string & sSrc);
std::string UriEncode(const std::string & sSrc);
std::string CP1252ToUTF8(const std::string& str);
std::string SHIFTJISToUTF8(const std::string& str);
std::string UTF16ToUTF8(const std::wstring& str);
#ifdef _WIN32
std::wstring UTF8ToUTF16(const std::string& str);
#ifdef _UNICODE
inline std::string TStrToUTF8(const std::wstring& str)
{ return UTF16ToUTF8(str); }
inline std::wstring UTF8ToTStr(const std::string& str)
{ return UTF8ToUTF16(str); }
#else
inline std::string TStrToUTF8(const std::string& str)
{ return str; }
inline std::string UTF8ToTStr(const std::string& str)
{ return str; }
#endif
#endif
#endif // _STRINGUTIL_H_

133
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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "thread.h"
#include "common.h"
#ifdef __APPLE__
#include <mach/mach.h>
#elif defined BSD4_4
#include <pthread_np.h>
#endif
#ifdef USE_BEGINTHREADEX
#include <process.h>
#endif
namespace Common
{
int CurrentThreadId()
{
#ifdef _WIN32
return GetCurrentThreadId();
#elif defined __APPLE__
return mach_thread_self();
#else
return 0;
#endif
}
#ifdef _WIN32
void SetThreadAffinity(std::thread::native_handle_type thread, u32 mask)
{
SetThreadAffinityMask(thread, mask);
}
void SetCurrentThreadAffinity(u32 mask)
{
SetThreadAffinityMask(GetCurrentThread(), mask);
}
// Supporting functions
void SleepCurrentThread(int ms)
{
Sleep(ms);
}
void SwitchCurrentThread()
{
SwitchToThread();
}
// Sets the debugger-visible name of the current thread.
// Uses undocumented (actually, it is now documented) trick.
// http://msdn.microsoft.com/library/default.asp?url=/library/en-us/vsdebug/html/vxtsksettingthreadname.asp
// This is implemented much nicer in upcoming msvc++, see:
// http://msdn.microsoft.com/en-us/library/xcb2z8hs(VS.100).aspx
void SetCurrentThreadName(const char* szThreadName)
{
static const DWORD MS_VC_EXCEPTION = 0x406D1388;
#pragma pack(push,8)
struct THREADNAME_INFO
{
DWORD dwType; // must be 0x1000
LPCSTR szName; // pointer to name (in user addr space)
DWORD dwThreadID; // thread ID (-1=caller thread)
DWORD dwFlags; // reserved for future use, must be zero
} info;
#pragma pack(pop)
info.dwType = 0x1000;
info.szName = szThreadName;
info.dwThreadID = -1; //dwThreadID;
info.dwFlags = 0;
__try
{
RaiseException(MS_VC_EXCEPTION, 0, sizeof(info)/sizeof(ULONG_PTR), (ULONG_PTR*)&info);
}
__except(EXCEPTION_CONTINUE_EXECUTION)
{}
}
#else // !WIN32, so must be POSIX threads
void SetThreadAffinity(std::thread::native_handle_type thread, u32 mask)
{
#ifdef __APPLE__
thread_policy_set(pthread_mach_thread_np(thread),
THREAD_AFFINITY_POLICY, (integer_t *)&mask, 1);
#elif (defined __linux__ || defined BSD4_4) && !(defined ANDROID)
cpu_set_t cpu_set;
CPU_ZERO(&cpu_set);
for (int i = 0; i != sizeof(mask) * 8; ++i)
if ((mask >> i) & 1)
CPU_SET(i, &cpu_set);
pthread_setaffinity_np(thread, sizeof(cpu_set), &cpu_set);
#endif
}
void SetCurrentThreadAffinity(u32 mask)
{
SetThreadAffinity(pthread_self(), mask);
}
void SleepCurrentThread(int ms)
{
usleep(1000 * ms);
}
void SwitchCurrentThread()
{
usleep(1000 * 1);
}
void SetCurrentThreadName(const char* szThreadName)
{
#ifdef __APPLE__
pthread_setname_np(szThreadName);
#else
pthread_setname_np(pthread_self(), szThreadName);
#endif
}
#endif
} // namespace Common

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _THREAD_H_
#define _THREAD_H_
#include "std_condition_variable.h"
#include "std_mutex.h"
#include "std_thread.h"
// Don't include common.h here as it will break LogManager
#include "common_types.h"
#include <stdio.h>
#include <string.h>
// This may not be defined outside _WIN32
#ifndef _WIN32
#ifndef INFINITE
#define INFINITE 0xffffffff
#endif
//for gettimeofday and struct time(spec|val)
#include <time.h>
#include <sys/time.h>
#endif
namespace Common
{
int CurrentThreadId();
void SetThreadAffinity(std::thread::native_handle_type thread, u32 mask);
void SetCurrentThreadAffinity(u32 mask);
class Event
{
public:
Event()
: is_set(false)
{};
void Set()
{
std::lock_guard<std::mutex> lk(m_mutex);
if (!is_set)
{
is_set = true;
m_condvar.notify_one();
}
}
void Wait()
{
std::unique_lock<std::mutex> lk(m_mutex);
m_condvar.wait(lk, IsSet(this));
is_set = false;
}
void Reset()
{
std::unique_lock<std::mutex> lk(m_mutex);
// no other action required, since wait loops on the predicate and any lingering signal will get cleared on the first iteration
is_set = false;
}
private:
class IsSet
{
public:
IsSet(const Event* ev)
: m_event(ev)
{}
bool operator()()
{
return m_event->is_set;
}
private:
const Event* const m_event;
};
volatile bool is_set;
std::condition_variable m_condvar;
std::mutex m_mutex;
};
// TODO: doesn't work on windows with (count > 2)
class Barrier
{
public:
Barrier(size_t count)
: m_count(count), m_waiting(0)
{}
// block until "count" threads call Sync()
bool Sync()
{
std::unique_lock<std::mutex> lk(m_mutex);
// TODO: broken when next round of Sync()s
// is entered before all waiting threads return from the notify_all
if (m_count == ++m_waiting)
{
m_waiting = 0;
m_condvar.notify_all();
return true;
}
else
{
m_condvar.wait(lk, IsDoneWating(this));
return false;
}
}
private:
class IsDoneWating
{
public:
IsDoneWating(const Barrier* bar)
: m_bar(bar)
{}
bool operator()()
{
return (0 == m_bar->m_waiting);
}
private:
const Barrier* const m_bar;
};
std::condition_variable m_condvar;
std::mutex m_mutex;
const size_t m_count;
volatile size_t m_waiting;
};
void SleepCurrentThread(int ms);
void SwitchCurrentThread(); // On Linux, this is equal to sleep 1ms
// Use this function during a spin-wait to make the current thread
// relax while another thread is working. This may be more efficient
// than using events because event functions use kernel calls.
inline void YieldCPU()
{
std::this_thread::yield();
}
void SetCurrentThreadName(const char *name);
} // namespace Common
#endif // _THREAD_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _THUNK_H_
#define _THUNK_H_
#include <map>
#include "common.h"
#include "x64Emitter.h"
// This simple class creates a wrapper around a C/C++ function that saves all fp state
// before entering it, and restores it upon exit. This is required to be able to selectively
// call functions from generated code, without inflicting the performance hit and increase
// of complexity that it means to protect the generated code from this problem.
// This process is called thunking.
// There will only ever be one level of thunking on the stack, plus,
// we don't want to pollute the stack, so we store away regs somewhere global.
// NOT THREAD SAFE. This may only be used from the CPU thread.
// Any other thread using this stuff will be FATAL.
class ThunkManager : public Gen::XCodeBlock
{
std::map<void *, const u8 *> thunks;
const u8 *save_regs;
const u8 *load_regs;
public:
ThunkManager() {
Init();
}
~ThunkManager() {
Shutdown();
}
void *ProtectFunction(void *function, int num_params);
private:
void Init();
void Shutdown();
void Reset();
};
#endif // _THUNK_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <time.h>
#ifdef _WIN32
#include <Windows.h>
#include <mmsystem.h>
#include <sys/timeb.h>
#else
#include <sys/time.h>
#endif
#include "common.h"
#include "timer.h"
#include "string_util.h"
namespace Common
{
u32 Timer::GetTimeMs()
{
#ifdef _WIN32
return timeGetTime();
#else
struct timeval t;
(void)gettimeofday(&t, NULL);
return ((u32)(t.tv_sec * 1000 + t.tv_usec / 1000));
#endif
}
// --------------------------------------------
// Initiate, Start, Stop, and Update the time
// --------------------------------------------
// Set initial values for the class
Timer::Timer()
: m_LastTime(0), m_StartTime(0), m_Running(false)
{
Update();
}
// Write the starting time
void Timer::Start()
{
m_StartTime = GetTimeMs();
m_Running = true;
}
// Stop the timer
void Timer::Stop()
{
// Write the final time
m_LastTime = GetTimeMs();
m_Running = false;
}
// Update the last time variable
void Timer::Update()
{
m_LastTime = GetTimeMs();
//TODO(ector) - QPF
}
// -------------------------------------
// Get time difference and elapsed time
// -------------------------------------
// Get the number of milliseconds since the last Update()
u64 Timer::GetTimeDifference()
{
return GetTimeMs() - m_LastTime;
}
// Add the time difference since the last Update() to the starting time.
// This is used to compensate for a paused game.
void Timer::AddTimeDifference()
{
m_StartTime += GetTimeDifference();
}
// Get the time elapsed since the Start()
u64 Timer::GetTimeElapsed()
{
// If we have not started yet, return 1 (because then I don't
// have to change the FPS calculation in CoreRerecording.cpp .
if (m_StartTime == 0) return 1;
// Return the final timer time if the timer is stopped
if (!m_Running) return (m_LastTime - m_StartTime);
return (GetTimeMs() - m_StartTime);
}
// Get the formatted time elapsed since the Start()
std::string Timer::GetTimeElapsedFormatted() const
{
// If we have not started yet, return zero
if (m_StartTime == 0)
return "00:00:00:000";
// The number of milliseconds since the start.
// Use a different value if the timer is stopped.
u64 Milliseconds;
if (m_Running)
Milliseconds = GetTimeMs() - m_StartTime;
else
Milliseconds = m_LastTime - m_StartTime;
// Seconds
u32 Seconds = (u32)(Milliseconds / 1000);
// Minutes
u32 Minutes = Seconds / 60;
// Hours
u32 Hours = Minutes / 60;
std::string TmpStr = StringFromFormat("%02i:%02i:%02i:%03i",
Hours, Minutes % 60, Seconds % 60, Milliseconds % 1000);
return TmpStr;
}
// Get current time
void Timer::IncreaseResolution()
{
#ifdef _WIN32
timeBeginPeriod(1);
#endif
}
void Timer::RestoreResolution()
{
#ifdef _WIN32
timeEndPeriod(1);
#endif
}
// Get the number of seconds since January 1 1970
u64 Timer::GetTimeSinceJan1970()
{
time_t ltime;
time(&ltime);
return((u64)ltime);
}
u64 Timer::GetLocalTimeSinceJan1970()
{
time_t sysTime, tzDiff, tzDST;
struct tm * gmTime;
time(&sysTime);
// Account for DST where needed
gmTime = localtime(&sysTime);
if(gmTime->tm_isdst == 1)
tzDST = 3600;
else
tzDST = 0;
// Lazy way to get local time in sec
gmTime = gmtime(&sysTime);
tzDiff = sysTime - mktime(gmTime);
return (u64)(sysTime + tzDiff + tzDST);
}
// Return the current time formatted as Minutes:Seconds:Milliseconds
// in the form 00:00:000.
std::string Timer::GetTimeFormatted()
{
time_t sysTime;
struct tm * gmTime;
char formattedTime[13];
char tmp[13];
time(&sysTime);
gmTime = localtime(&sysTime);
strftime(tmp, 6, "%M:%S", gmTime);
// Now tack on the milliseconds
#ifdef _WIN32
struct timeb tp;
(void)::ftime(&tp);
sprintf(formattedTime, "%s:%03i", tmp, tp.millitm);
#else
struct timeval t;
(void)gettimeofday(&t, NULL);
sprintf(formattedTime, "%s:%03d", tmp, (int)(t.tv_usec / 1000));
#endif
return std::string(formattedTime);
}
// Returns a timestamp with decimals for precise time comparisons
// ----------------
double Timer::GetDoubleTime()
{
#ifdef _WIN32
struct timeb tp;
(void)::ftime(&tp);
#else
struct timeval t;
(void)gettimeofday(&t, NULL);
#endif
// Get continuous timestamp
u64 TmpSeconds = Common::Timer::GetTimeSinceJan1970();
// Remove a few years. We only really want enough seconds to make
// sure that we are detecting actual actions, perhaps 60 seconds is
// enough really, but I leave a year of seconds anyway, in case the
// user's clock is incorrect or something like that.
TmpSeconds = TmpSeconds - (38 * 365 * 24 * 60 * 60);
// Make a smaller integer that fits in the double
u32 Seconds = (u32)TmpSeconds;
#ifdef _WIN32
double ms = tp.millitm / 1000.0 / 1000.0;
#else
double ms = t.tv_usec / 1000000.0;
#endif
double TmpTime = Seconds + ms;
return TmpTime;
}
} // Namespace Common

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef _TIMER_H_
#define _TIMER_H_
#include "common.h"
#include <string>
namespace Common
{
class Timer
{
public:
Timer();
void Start();
void Stop();
void Update();
// The time difference is always returned in milliseconds, regardless of alternative internal representation
u64 GetTimeDifference();
void AddTimeDifference();
static void IncreaseResolution();
static void RestoreResolution();
static u64 GetTimeSinceJan1970();
static u64 GetLocalTimeSinceJan1970();
static double GetDoubleTime();
static std::string GetTimeFormatted();
std::string GetTimeElapsedFormatted() const;
u64 GetTimeElapsed();
static u32 GetTimeMs();
private:
u64 m_LastTime;
u64 m_StartTime;
bool m_Running;
};
} // Namespace Common
#endif // _TIMER_H_

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "common.h"
#include "scm_rev.h"
#ifdef _DEBUG
#define BUILD_TYPE_STR "Debug "
#elif defined DEBUGFAST
#define BUILD_TYPE_STR "DebugFast "
#else
#define BUILD_TYPE_STR ""
#endif
const char *scm_rev_str = "Dolphin "
#if !SCM_IS_MASTER
"[" SCM_BRANCH_STR "] "
#endif
#ifdef __INTEL_COMPILER
BUILD_TYPE_STR SCM_DESC_STR "-ICC";
#else
BUILD_TYPE_STR SCM_DESC_STR;
#endif
#ifdef _M_X64
#define NP_ARCH "x64"
#else
#ifdef _M_ARM
#define NP_ARCH "ARM"
#else
#define NP_ARCH "x86"
#endif
#endif
#ifdef _WIN32
const char *netplay_dolphin_ver = SCM_DESC_STR " W" NP_ARCH;
#elif __APPLE__
const char *netplay_dolphin_ver = SCM_DESC_STR " M" NP_ARCH;
#else
const char *netplay_dolphin_ver = SCM_DESC_STR " L" NP_ARCH;
#endif
const char *scm_rev_git_str = SCM_REV_STR;