Unstable RenderTexture

This commit is contained in:
lanariel 2013-11-27 15:26:29 +01:00
commit 8f6ca79e6b
46 changed files with 1834 additions and 53 deletions

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Bin/DLL/TextureDebug.cso Normal file

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@ -150,12 +150,17 @@
<ClCompile Include="Resource\Loaders\CustomLoader.cpp" />
<ClCompile Include="Resource\OResourceHandler.cpp" />
<ClCompile Include="Resource\OResource.cpp" />
<ClCompile Include="Thread\OysterMutex.cpp" />
<ClCompile Include="Thread\OysterThread_Impl.cpp" />
<ClCompile Include="Utilities.cpp" />
<ClCompile Include="WinTimer.cpp" />
</ItemGroup>
<ItemGroup>
<ClInclude Include="Resource\OysterResource.h" />
<ClInclude Include="Resource\OResource.h" />
<ClInclude Include="Thread\IThreadObject.h" />
<ClInclude Include="Thread\OysterMutex.h" />
<ClInclude Include="Thread\OysterThread.h" />
<ClInclude Include="Utilities-InlineImpl.h" />
<ClInclude Include="Utilities.h" />
<ClInclude Include="WinTimer.h" />

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@ -0,0 +1,72 @@
<?xml version="1.0" encoding="utf-8"?>
<Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
<ItemGroup>
<Filter Include="Source Files">
<UniqueIdentifier>{4FC737F1-C7A5-4376-A066-2A32D752A2FF}</UniqueIdentifier>
<Extensions>cpp;c;cc;cxx;def;odl;idl;hpj;bat;asm;asmx</Extensions>
</Filter>
<Filter Include="Header Files">
<UniqueIdentifier>{93995380-89BD-4b04-88EB-625FBE52EBFB}</UniqueIdentifier>
<Extensions>h;hpp;hxx;hm;inl;inc;xsd</Extensions>
</Filter>
<Filter Include="Resource Files">
<UniqueIdentifier>{67DA6AB6-F800-4c08-8B7A-83BB121AAD01}</UniqueIdentifier>
<Extensions>rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav;mfcribbon-ms</Extensions>
</Filter>
</ItemGroup>
<ItemGroup>
<ClCompile Include="Utilities.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="WinTimer.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="Resource\OResource.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="Resource\OResourceHandler.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="Resource\Loaders\ByteLoader.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="Resource\Loaders\CustomLoader.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<<<<<<< HEAD
=======
<ClCompile Include="Thread\OysterMutex.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="Thread\OysterThread_Impl.cpp">
<Filter>Source Files</Filter>
</ClCompile>
>>>>>>> 48c812b0338b859aa6c00c8504dd2f16a4bb44f9
</ItemGroup>
<ItemGroup>
<ClInclude Include="Utilities.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="WinTimer.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Utilities-InlineImpl.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Resource\OysterResource.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Resource\OResource.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Thread\IThreadObject.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Thread\OysterMutex.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="Thread\OysterThread.h">
<Filter>Header Files</Filter>
</ClInclude>
</ItemGroup>
</Project>

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@ -1,3 +1,6 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#include "..\OResource.h"
#include "..\..\Utilities.h"

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@ -1,3 +1,6 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#include "..\OResource.h"
#include "..\..\Utilities.h"
@ -9,7 +12,7 @@ using namespace Oyster::Resource;
OResource* OResource::CustomLoader(const wchar_t filename[], CustomLoadFunction fnc)
{
const CustomData &data = fnc();
const CustomData &data = fnc(filename);
if(!data.loadedData) return 0;
if(!data.resourceUnloadFnc) return 0;
@ -31,7 +34,7 @@ OResource* OResource::CustomReloader()
{
CustomUnloader();
const CustomData &data = this->customData->loadingFunction();
const CustomData &data = this->customData->loadingFunction(this->resourceFilename.c_str());
this->resourceData = (OHRESOURCE)data.loadedData;
if(data.resourceUnloadFnc)

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@ -1,3 +1,7 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#include "OResource.h"
using namespace Oyster::Resource;

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@ -47,7 +47,7 @@ namespace Oyster
static OResource* Reload (OResource* resource);
static bool Release (OResource* resource);
Utility::DynamicMemory::RefCount resourceRef;
Utility::DynamicMemory::ReferenceCount resourceRef;
private:
static OResource* ByteLoader (const wchar_t filename[], ResourceType type, OResource* old = 0);

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@ -60,7 +60,8 @@ OHRESOURCE OysterResource::LoadResource(const wchar_t filename[], CustomLoadFunc
if(!resourceData) return 0;
if(resourceData) resourceData->SetResourceID(CustomId);
resourceData->SetResourceID(CustomId);
resourcePrivate.SaveResource(resourceData);
return (OHRESOURCE)resourceData->GetResourceHandle();

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@ -13,8 +13,10 @@ namespace Oyster
struct CustomData;
/** A Resource handle representing various resources */
typedef unsigned long OHRESOURCE;
typedef void(*CustomUnloadFunction)(void*);
typedef const CustomData&(*CustomLoadFunction)();
/** Typedef on a fuction required for custom unloading */
typedef void(*CustomUnloadFunction)(void* loadedData);
/** Typedef on a fuction required for custom loading */
typedef const CustomData&(*CustomLoadFunction)(const wchar_t filename[]);
/** An enum class representing all avalible resources that is supported. */
enum ResourceType
@ -26,7 +28,7 @@ namespace Oyster
ResourceType_Byte_UNICODE, /**< Handle can be interpeted as char[] or char* */
ResourceType_Byte_UTF16LE, /**< Handle can be interpeted as char[] or char* */
ResourceType_COUNT, /**< Handle can be interpeted as ? */
ResourceType_COUNT, /**< Not used. */
ResourceType_UNKNOWN = -1, /**< Handle can be interpeted as void* */
};

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@ -0,0 +1,37 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#ifndef MISC_I_THREAD_OBJECT_H
#define MISC_I_THREAD_OBJECT_H
namespace Oyster
{
namespace Thread
{
/**
* Inherit this class to get threading compatibility.
*/
class IThreadObject
{
public:
/**
* Override this to get notified when the thread is started.
*/
virtual void ThreadEntry() { }
/**
* Override this to get notified when the thread is about to exit.
*/
virtual void ThreadExit() { }
/**
* This function is required to get threading working.
*/
virtual bool DoWork ( ) = 0;
};
}
}
#endif // !MISC_I_THREAD_OBJECT_H

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@ -0,0 +1,71 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#include "OysterMutex.h"
#include <chrono>
#include <thread>
#include <future>
OysterMutex::OysterMutex()
{}
OysterMutex::OysterMutex(bool initialOwnership)
{
if(initialOwnership)
{
this->mutex.lock();
this->id = std::this_thread::get_id();
}
}
OysterMutex::~OysterMutex()
{
}
void OysterMutex::LockMutex()
{
if(std::this_thread::get_id() == this->id) return;
this->mutex.lock();
this->id = std::this_thread::get_id();
}
void OysterMutex::LockMutex(unsigned int msec)
{
if(std::this_thread::get_id() == this->id) return;
auto start = std::chrono::high_resolution_clock::now();
auto end = start + std::chrono::milliseconds(msec);
do
{
if(this->mutex.try_lock())
{
this->mutex.lock();
this->id = std::this_thread::get_id();
return;
}
} while (std::chrono::high_resolution_clock::now() < end);
this->mutex.lock();
}
void OysterMutex::UnlockMutex()
{
//Let the owner unlock
if(std::this_thread::get_id() != this->id) return;
this->mutex.unlock();
this->id = std::thread::id();
}
bool OysterMutex::IsTaken()
{
return !this->mutex.try_lock();
}
void OysterMutex::Reset()
{
if(!this->mutex.try_lock())
this->mutex.unlock();
}

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@ -0,0 +1,33 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#ifndef MISC_OYSTER_MUTEX_H
#define MISC_OYSTER_MUTEX_H
#include <mutex>
#include <thread>
#include <atomic>
class OysterMutex
{
public:
OysterMutex();
OysterMutex(bool initialOwnership);
virtual~OysterMutex();
void LockMutex();
void LockMutex(unsigned int timeSpan);
void UnlockMutex();
/** Returns true if mutex is taken */
bool IsTaken();
/** This function resets resource locking */
void Reset();
private:
std::mutex mutex;
std::thread::id id;
OysterMutex(const OysterMutex&);
};
#endif // !MISC_OYSTER_MUTEX_H

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@ -0,0 +1,49 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#ifndef MISC_OYSTER_THREAD_H
#define MISC_OYSTER_THREAD_H
#include "IThreadObject.h"
namespace Oyster
{
namespace Thread
{
enum OYSTER_THREAD_ERROR
{
OYSTER_THREAD_ERROR_FAILED,
OYSTER_THREAD_ERROR_SUCCESS,
};
class OysterThread
{
private:
struct PrivateData;
PrivateData *privateData;
OysterThread(const OysterThread& original);
const OysterThread& operator=(const OysterThread& original);
public:
OysterThread();
virtual~OysterThread();
OYSTER_THREAD_ERROR Create(IThreadObject* worker, bool start);
OYSTER_THREAD_ERROR Start();
void Stop();
void Pause();
void Pause(int mSec);
void Resume();
OYSTER_THREAD_ERROR Reset(IThreadObject* worker = 0);
void Terminate();
void Wait();
void Wait(int mSec);
OYSTER_THREAD_ERROR Swap(const OysterThread* other);
bool IsActive();
};
}
}
#endif // !MISC_OYSTER_THREAD_H

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@ -0,0 +1,253 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#include "OysterThread.h"
#include "OysterMutex.h"
#include "..\Utilities.h"
#include <thread>
#include <assert.h>
using namespace Oyster::Thread;
using namespace Utility::DynamicMemory::SmartPointer;
#pragma region Declerations
struct ThreadData;
/** A typical Oyster thread function */
typedef void (*ThreadFunction)(StdSmartPointer<ThreadData>&);
enum OYSTER_THREAD_STATE
{
OYSTER_THREAD_STATE_RESET,
OYSTER_THREAD_STATE_RUNNING,
OYSTER_THREAD_STATE_PAUSED,
OYSTER_THREAD_STATE_STOPED,
OYSTER_THREAD_STATE_TERMINATED,
OYSTER_THREAD_STATE_DEAD,
};
//TODO: Add a threadStartPackage struct that contains all the necasary data to fire of a thread
struct ThreadData
{
OYSTER_THREAD_STATE state; //<! The current thread state.
StdSmartPointer<std::thread> workerThread; //<! The worker thread.
std::thread::id callingThread; //<! The owner thread.
IThreadObject *owner; //<! The owner of the thread as IThread.
int msec; //<! A timer in miliseconds.
OysterMutex mutexLock; //<! The lock, locking the member variabls.
ThreadData() {}
private:
ThreadData(const ThreadData&){};
};
struct OysterThread::PrivateData
{
StdSmartPointer<ThreadData> threadData;
PrivateData()
:threadData(new ThreadData())
{
threadData->owner = 0;
threadData->workerThread = 0;
threadData->callingThread;
threadData->state = OYSTER_THREAD_STATE_STOPED;
}
~PrivateData()
{
//@todo TODO: Make detatch avalible.
//this->threadData->workerThread->detach();
this->threadData->owner = 0;
this->threadData->state = OYSTER_THREAD_STATE_DEAD;
}
};
#pragma endregion
static void ThreadingFunction(StdSmartPointer<ThreadData> &origin)
{
bool shouldContinue;
StdSmartPointer<ThreadData> w = origin;
theBegining:
while(w->state == OYSTER_THREAD_STATE_STOPED);
w->mutexLock.LockMutex();
w->owner->ThreadEntry();
w->mutexLock.UnlockMutex();
while (w->state != OYSTER_THREAD_STATE_STOPED && w->state != OYSTER_THREAD_STATE_DEAD)
{
w->mutexLock.LockMutex();
{
shouldContinue = w->owner->DoWork();
}
w->mutexLock.UnlockMutex();
if(!shouldContinue)
{
goto theEnd;
}
if(w->state == OYSTER_THREAD_STATE_TERMINATED)
{
return;
}
else if(w->state == OYSTER_THREAD_STATE_RESET)
{
goto theBegining;
}
else if(w->msec > 0)
{
std::this_thread::sleep_for(std::chrono::milliseconds(w->msec));
}
while (w->state == OYSTER_THREAD_STATE_PAUSED);
}
if(w->state == OYSTER_THREAD_STATE_DEAD)
{
return;
}
theEnd:
w->mutexLock.LockMutex();
w->owner->ThreadExit();
w->mutexLock.UnlockMutex();
w->state = OYSTER_THREAD_STATE_DEAD;
}
OysterThread::OysterThread()
{
this->privateData = new PrivateData();
}
OysterThread::~OysterThread()
{
delete this->privateData;
this->privateData = 0;
}
OYSTER_THREAD_ERROR OysterThread::Create(IThreadObject* worker, bool start)
{
if(!this->privateData) return OYSTER_THREAD_ERROR_FAILED;
if(this->privateData->threadData->workerThread) return OYSTER_THREAD_ERROR_FAILED;
this->privateData->threadData->owner = worker;
ThreadFunction fnc = ThreadingFunction;
//Maby move this thread creation to a seperate Start() function because std::thread fires the thread when it is created. :(
this->privateData->threadData->workerThread = new std::thread(fnc, this->privateData->threadData);
if(!this->privateData->threadData->workerThread)
return OYSTER_THREAD_ERROR_FAILED;
if(start)
{
//@todo TODO: No need to lock since the other thread end is only reading this value. Worst case scenario is n lost cycles.
this->privateData->threadData->state = OYSTER_THREAD_STATE_RUNNING;
}
return OYSTER_THREAD_ERROR_SUCCESS;
}
OYSTER_THREAD_ERROR OysterThread::Start()
{
if(!this->privateData->threadData->workerThread)
return OYSTER_THREAD_ERROR_FAILED;
this->privateData->threadData->state = OYSTER_THREAD_STATE_RUNNING;
return OYSTER_THREAD_ERROR_SUCCESS;
}
void OysterThread::Stop()
{
this->privateData->threadData->mutexLock.LockMutex();
this->privateData->threadData->state = OYSTER_THREAD_STATE_STOPED;
this->privateData->threadData->mutexLock.UnlockMutex();
}
void OysterThread::Pause()
{
this->privateData->threadData->mutexLock.LockMutex();
this->privateData->threadData->state = OYSTER_THREAD_STATE_PAUSED;
this->privateData->threadData->mutexLock.UnlockMutex();
}
void OysterThread::Pause(int msec)
{
if(std::this_thread::get_id() == this->privateData->threadData->workerThread->get_id())
{
this->privateData->threadData->msec = msec;
}
else
{
this->privateData->threadData->mutexLock.LockMutex();
this->privateData->threadData->state = OYSTER_THREAD_STATE_PAUSED;
this->privateData->threadData->msec = msec;
this->privateData->threadData->mutexLock.UnlockMutex();
}
}
void OysterThread::Resume()
{
this->privateData->threadData->mutexLock.LockMutex();
this->privateData->threadData->state = OYSTER_THREAD_STATE_RUNNING;
this->privateData->threadData->mutexLock.UnlockMutex();
}
OYSTER_THREAD_ERROR OysterThread::Reset(IThreadObject* worker)
{
this->privateData->threadData->mutexLock.LockMutex();
if(worker)
{
this->privateData->threadData->owner = worker;
}
this->privateData->threadData->callingThread = std::this_thread::get_id();
this->privateData->threadData->msec = 0;
this->privateData->threadData->mutexLock.UnlockMutex();
return OYSTER_THREAD_ERROR_SUCCESS;
}
void OysterThread::Terminate()
{
delete this->privateData->threadData->workerThread;
this->privateData->threadData->mutexLock.Reset();
this->privateData->threadData->workerThread = 0;
this->privateData->threadData->callingThread = std::thread::id();
this->privateData->threadData->msec = 0;
this->privateData->threadData->state = OYSTER_THREAD_STATE_STOPED;
}
void OysterThread::Wait()
{
if(this->privateData->threadData->state == OYSTER_THREAD_STATE_DEAD)
{
return;
}
if(this->privateData->threadData->workerThread->get_id() == std::this_thread::get_id()) return;
this->privateData->threadData->workerThread->join();
}
void OysterThread::Wait(int msec)
{
if(this->privateData->threadData->workerThread->get_id() == std::this_thread::get_id()) return;
std::this_thread::sleep_for(std::chrono::milliseconds(msec));
}
OYSTER_THREAD_ERROR OysterThread::Swap(const OysterThread* other)
{
this->privateData->threadData->workerThread->swap(*other->privateData->threadData->workerThread);
return OYSTER_THREAD_ERROR_SUCCESS;
}
bool OysterThread::IsActive()
{
if (this->privateData->threadData->state == OYSTER_THREAD_STATE_RUNNING)
return true;
return false;
}

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@ -2,6 +2,7 @@
// Inline and template implementations for
// the Utility Collection of Miscellanious Handy Functions
// © Dan Andersson 2013
// © Dennis Andersen 2013 TODO: Is this correct?
/////////////////////////////////////////////////////////////////////
#ifndef UTILITIES_INLINE_IMPL_H
@ -149,8 +150,7 @@ namespace Utility
return this->ownedArray != NULL;
}
template<typename Type>
Type* UniqueArray<Type>::Release()
template<typename Type>Type* UniqueArray<Type>::Release()
{
Type *copy = this->ownedArray;
this->ownedArray = NULL;
@ -162,6 +162,113 @@ namespace Utility
{
return this->operator bool();
}
namespace SmartPointer
{
template<typename T>
void StdSmartPointer<T>::Destroy()
{
delete this->_rc;
this->_rc = NULL;
delete this->_ptr;
this->_ptr = NULL;
}
template<typename T> StdSmartPointer<T>::StdSmartPointer()
:_rc(0), _ptr(0)
{ }
template<typename T> StdSmartPointer<T>::StdSmartPointer(T* p)
:_ptr(p)
{
this->_rc = new ReferenceCount();
this->_rc->Incref();
}
template<typename T> StdSmartPointer<T>::StdSmartPointer(const StdSmartPointer& d)
:_ptr(d._ptr), _rc(d._rc)
{
if(this->_rc)
this->_rc->Incref();
}
template<typename T> StdSmartPointer<T>::~StdSmartPointer()
{
if (this->_rc && this->_rc->Decref() == 0)
{
Destroy();
}
}
template<typename T> StdSmartPointer<T>& StdSmartPointer<T>::operator= (const StdSmartPointer<T>& p)
{
if (this != &p)
{
//Last to go?
if(this->_rc && this->_rc->Release() == 0)
{
//Call child specific
Destroy();
}
this->_ptr = p._ptr;
this->_rc = p._rc;
this->_rc->Add();
}
return *this;
}
template<typename T> StdSmartPointer<T>& StdSmartPointer<T>::operator= (T* p)
{
if (this->_ptr != p)
{
//Last to go?
if(this->_rc)
{
if(this->_rc->Decref() == 0)
{
//Call child specific
Destroy();
this->_rc = new ReferenceCount();
}
}
else
this->_rc = new ReferenceCount();
this->_ptr = p;
this->_rc->Incref();
}
return *this;
}
template<typename T> inline bool StdSmartPointer<T>::operator== (const StdSmartPointer<T>& d)
{
return d._ptr == this->_ptr;
}
template<typename T> inline bool StdSmartPointer<T>::operator== (const T& p)
{
return &p == this->_ptr;
}
template<typename T> inline T& StdSmartPointer<T>::operator* ()
{
return *this->_ptr;
}
template<typename T> inline T* StdSmartPointer<T>::operator-> ()
{
return this->_ptr;
}
template<typename T> inline StdSmartPointer<T>::operator T* ()
{
return this->_ptr;
}
/**
* Returns the connected pointer */
template<typename T> inline T* StdSmartPointer<T>::Get()
{
return this->_ptr;
}
/** Checks if the pointer is valid (not NULL)
Returns true for valid, else false. */
template<typename T> inline bool StdSmartPointer<T>::IsValid()
{
return (this->_ptr != NULL) ? true : false;
}
}
}
}

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@ -1,7 +1,8 @@
//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!
// Utility Collection of Miscellanious Handy Functions
// © Dan Andersson 2013
//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!
// © Dennis Andersen 2013
#ifndef UTILITIES_H
#define UTILITIES_H
@ -106,20 +107,62 @@ namespace Utility
mutable Type *ownedArray;
};
struct RefCount
struct ReferenceCount
{
private:
int count;
public:
RefCount() :count(0) { }
RefCount(const RefCount& o) { count = o.count; }
const RefCount& operator=(const RefCount& o) { count = o.count; return *this;}
void Incref() { this->count++; }
void Incref(int c) { this->count += c; }
int Decref() { return --this->count;}
void Reset() { this->count = 0; }
ReferenceCount() :count(0) { }
ReferenceCount(const ReferenceCount& o) { count = o.count; }
inline const ReferenceCount& operator=(const ReferenceCount& o) { count = o.count; return *this;}
inline void Incref() { this->count++; }
inline void Incref(int c) { this->count += c; }
inline int Decref() { return --this->count;}
inline void Reset() { this->count = 0; }
};
namespace SmartPointer
{
//! Smart pointer for a regular object.
/**
* Regular objects, objects that is deleted normaly (ie not COM objects, or array pointers)
* can use this class to easy the use of dynamic memory
*/
template<typename T>
struct StdSmartPointer
{
private:
ReferenceCount *_rc;
T *_ptr;
/** Destroys the pointer and returns the memory allocated. */
void Destroy();
public:
StdSmartPointer();
StdSmartPointer(T* p);
StdSmartPointer(const StdSmartPointer& d);
virtual~StdSmartPointer();
StdSmartPointer<T>& operator= (const StdSmartPointer<T>& p);
StdSmartPointer<T>& operator= (T* p);
bool operator== (const StdSmartPointer<T>& d);
bool operator== (const T& p);
T& operator* ();
T* operator-> ();
operator T* ();
/**
* Returns the connected pointer */
T* Get();
/** Checks if the pointer is valid (not NULL)
Returns true for valid, else false. */
bool IsValid();
};
}
}
namespace String

319
Code/Misc/Utilities.h.orig Normal file
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@ -0,0 +1,319 @@
//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!
// Utility Collection of Miscellanious Handy Functions
// © Dan Andersson 2013
<<<<<<< HEAD
//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!//!
=======
// © Dennis Andersen 2013
/////////////////////////////////////////////////////////////////////
>>>>>>> 48c812b0338b859aa6c00c8504dd2f16a4bb44f9
#ifndef UTILITIES_H
#define UTILITIES_H
#include <string>
#include <istream>
#include <vector>
#include <locale>
#include <limits>
namespace Utility
{
namespace DynamicMemory
{
//! If dynamicInstance is not NULL, then delete
template<typename Type> void SafeDeleteInstance( Type *dynamicInstance );
//! If dynamicArray is not NULL, then delete []
template<typename Type> void SafeDeleteArray( Type dynamicArray[] );
//! Wrapper to safely transfer dynamic ownership/responsibility
template<typename Type> struct UniquePointer
{
public:
//! Assigns assignedInstance ownership to this UniquePonter, old owned instance will be deleted.
//! If NULL is assigned is equavalent with clearing all responsibilities from this UniquePointer.
UniquePointer( Type *assignedInstance = NULL );
//! Will auto delete assigned dynamic instance.
~UniquePointer();
//! Assigns assignedInstance ownership to this UniquePonter, old owned instance will be deleted.
//! If NULL is assigned is equavalent with clearing all responsibilities from this UniquePointer.
UniquePointer<Type> & operator = ( Type *assignedInstance );
//! Transfers assignedInstance ownership from donor to this UniquePonter, old owned instance will be deleted.
//! If donor had nothing, is equavalent with clearing all responsibilities from this UniquePointer.
UniquePointer<Type> & operator = ( const UniquePointer<Type> &donor );
//! Access the assigned dynamic instance. Will crash if nothing there
operator Type* ();
//! Access the assigned dynamic instance. Will crash if nothing there
operator const Type* () const;
//! Access members of the assigned dynamic instance. Will crash if nothing there
Type * operator -> ();
//! Access members of the assigned dynamic instance. Will crash if nothing there
const Type * operator -> () const;
//! If true, this UniquePointer have a current ownership/responsibility of a dynamic instance.
operator bool () const;
//! This UniquePointer drops all claims of ownership/responsibility and returns the dynamic instance. Now it is your responsibility to delete.
Type* Release();
//! (inline) If true, this UniquePointer have a current ownership/responsibility of a dynamic instance.
bool HaveOwnership() const;
private:
mutable Type *ownedInstance;
};
template<typename Type>
struct UniqueArray
{ //! Wrapper to safely transfer dynamic ownership/responsibility
public:
//! Assigns assignedInstance ownership to this UniquePonter, old owned array will be deleted.
//! If NULL is assigned is equavalent with clearing all responsibilities from this UniqueArray.
UniqueArray( Type assignedArray[] = NULL );
//! Will auto delete assigned dynamic array.
~UniqueArray();
//! Assigns assignedInstance ownership to this UniquePonter, old owned array will be deleted.
//! If NULL is assigned is equavalent with clearing all responsibilities from this UniqueArray.
UniqueArray<Type> & operator = ( Type assignedArray[] );
//! Transfers assignedInstance ownership from donor to this UniquePonter, old owned array will be deleted.
//! If donor had nothing, is equavalent with clearing all responsibilities from this UniqueArray.
UniqueArray<Type> & operator = ( const UniqueArray<Type> &donor );
//! Accesses the instance at index i of this UniqeArray's owned dynamic array.
//! Will crash if out-of-bound or there is no assigned array.
template<typename Index> Type & operator [] ( Index i );
//! Accesses the instance at index i of this UniqeArray's owned dynamic array.
//! Will crash if out-of-bound or there is no assigned array.
template<typename Index> const Type & operator [] ( Index i ) const;
//! If true, this UniqueArray have a current ownership/responsibility of a dynamic instance.
operator bool () const;
//! This UniqueArray drops all claims of ownership/responsibility and returns the dynamic array. Now it is your responsibility to delete.
Type* Release();
//! (inline) If true, this UniqueArray have a current ownership/responsibility of a dynamic array.
bool HaveOwnership() const;
private:
mutable Type *ownedArray;
};
struct ReferenceCount
{
private:
int count;
public:
ReferenceCount() :count(0) { }
ReferenceCount(const ReferenceCount& o) { count = o.count; }
inline const ReferenceCount& operator=(const ReferenceCount& o) { count = o.count; return *this;}
inline void Incref() { this->count++; }
inline void Incref(int c) { this->count += c; }
inline int Decref() { return --this->count;}
inline void Reset() { this->count = 0; }
};
namespace SmartPointer
{
//! Smart pointer for a regular object.
/**
* Regular objects, objects that is deleted normaly (ie not COM objects, or array pointers)
* can use this class to easy the use of dynamic memory
*/
template<typename T>
struct StdSmartPointer
{
private:
ReferenceCount *_rc;
T *_ptr;
/** Destroys the pointer and returns the memory allocated. */
void Destroy();
public:
StdSmartPointer();
StdSmartPointer(T* p);
StdSmartPointer(const StdSmartPointer& d);
virtual~StdSmartPointer();
StdSmartPointer<T>& operator= (const StdSmartPointer<T>& p);
StdSmartPointer<T>& operator= (T* p);
bool operator== (const StdSmartPointer<T>& d);
bool operator== (const T& p);
T& operator* ();
T* operator-> ();
operator T* ();
/**
* Returns the connected pointer */
T* Get();
/** Checks if the pointer is valid (not NULL)
Returns true for valid, else false. */
bool IsValid();
};
}
}
namespace String
{
// string
::std::vector<::std::string> & Split( ::std::vector<::std::string> &output, const ::std::string &str, char delim, ::std::string::size_type offset = 0 );
::std::vector<::std::string> & Split( ::std::vector<::std::string> &output, const ::std::string &str, const ::std::string &delim, ::std::string::size_type offset = 0 );
::std::vector<::std::string> & Split( ::std::vector<::std::string> &output, const ::std::string &str, const ::std::vector<::std::string> &delim, ::std::string::size_type offset = 0 );
::std::string Trim( const ::std::string &str );
::std::string & ToLowerCase( ::std::string &output, const ::std::string &str );
::std::string & ToLowerCase( ::std::string &str );
::std::string & ToUpperCase( ::std::string &output, const ::std::string &str );
::std::string & ToUpperCase( ::std::string &str );
::std::string & ExtractDirPath( ::std::string &output, const ::std::string &file, char dirDelimeter );
::std::string & ExtractDirPath( ::std::string &output, const ::std::string &file, const ::std::string &dirDelimeter );
::std::string & ReplaceCharacters( ::std::string &str, char characterToReplace, char newCharacter, const ::std::string::size_type &offset = 0, const ::std::string::size_type &end = ::std::string::npos );
// wstring
::std::vector<::std::wstring> & Split( ::std::vector<::std::wstring> &output, const ::std::wstring &str, char delim, ::std::wstring::size_type offset = 0 );
::std::vector<::std::wstring> & Split( ::std::vector<::std::wstring> &output, const ::std::wstring &str, const ::std::wstring &delim, ::std::wstring::size_type offset = 0 );
::std::vector<::std::wstring> & Split( ::std::vector<::std::wstring> &output, const ::std::wstring &str, const ::std::vector<::std::wstring> &delim, ::std::wstring::size_type offset = 0 );
::std::wstring & wToLowerCase( ::std::wstring &output, const ::std::wstring &str );
::std::wstring & wToLowerCase( ::std::wstring &str );
//To wstring
::std::wstring & StringToWstring( const ::std::string &str, ::std::wstring &wstr );
::std::string & WStringToString( const ::std::wstring &wstr, ::std::string &str );
}
namespace Stream
{
float* ReadFloats( float *output, ::std::istream &input, unsigned int numFloats );
}
namespace StaticArray
{
template<typename ScalarType, unsigned int num>
inline unsigned int NumElementsOf( const ScalarType(&)[num] )
{ return num; }
template<typename ScalarType, unsigned int num>
inline ScalarType & FirstElementOf( ScalarType (&arr)[num] )
{ return arr[0]; }
template<typename ScalarType, unsigned int num>
inline ScalarType & LastElementOf( ScalarType (&arr)[num] )
{ return arr[num-1]; }
}
namespace Element
{
template<typename ScalarType>
inline void Swap( ScalarType &elementA, ScalarType &elementB, ScalarType &swapSpace )
{ swapSpace = elementA; elementA = elementB; elementB = swapSpace; }
template<typename ScalarType>
inline void Swap( ScalarType &elementA, ScalarType &elementB )
{ ScalarType swapSpace; Swap( elementA, elementB, swapSpace ); }
}
namespace Value
{
using ::std::numeric_limits;
template<typename ValueType>
inline ValueType Abs( const ValueType &value )
{ return value < 0 ? value * -1 : value; }
template<typename ValueType>
inline ValueType Max( const ValueType &valueA, const ValueType &valueB )
{ return valueA > valueB ? valueA : valueB; }
template<typename ValueType>
inline ValueType Min( const ValueType &valueA, const ValueType &valueB )
{ return valueA < valueB ? valueA : valueB; }
template<typename ValueType>
inline ValueType Average( const ValueType &valueA, const ValueType &valueB )
{ return (valueA + valueB) * 0.5f; }
template<typename ValueType>
inline ValueType AverageWithDelta( const ValueType &origin, const ValueType &delta )
{ return origin + (delta * 0.5f); }
template<typename ValueType>
inline ValueType Radian( const ValueType &degree )
{ return degree * (3.1415926535897932384626433832795f / 180.0f); }
template<typename ValueType>
inline ValueType Degree( const ValueType &radian )
{ return radian * (180.0f / 3.1415926535897932384626433832795f); }
// SPECIALIZATIONS //!//!//!//!//!//!//!//!//!//!//!//!//!//!
template<> inline char Average<char>( const char &valueA, const char &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline unsigned char Average<unsigned char>( const unsigned char &valueA, const unsigned char &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline int Average<int>( const int &valueA, const int &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline unsigned int Average<unsigned int>( const unsigned int &valueA, const unsigned int &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline long Average<long>( const long &valueA, const long &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline unsigned long Average<unsigned long>( const unsigned long &valueA, const unsigned long &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline long long Average<long long>( const long long &valueA, const long long &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline unsigned long long Average<unsigned long long>( const unsigned long long &valueA, const unsigned long long &valueB )
{ return (valueA + valueB) >> 1; }
template<> inline char AverageWithDelta<char>( const char &origin, const char &delta )
{ return origin + (delta >> 1); }
template<> inline unsigned char AverageWithDelta<unsigned char>( const unsigned char &origin, const unsigned char &delta )
{ return origin + (delta >> 1); }
template<> inline int AverageWithDelta<int>( const int &origin, const int &delta )
{ return origin + (delta >> 1); }
template<> inline unsigned int AverageWithDelta<unsigned int>( const unsigned int &origin, const unsigned int &delta )
{ return origin + (delta >> 1); }
template<> inline long AverageWithDelta<long>( const long &origin, const long &delta )
{ return origin + (delta >> 1); }
template<> inline unsigned long AverageWithDelta<unsigned long>( const unsigned long &origin, const unsigned long &delta )
{ return origin + (delta >> 1); }
template<> inline long long AverageWithDelta<long long>( const long long &origin, const long long &delta )
{ return origin + (delta >> 1); }
template<> inline unsigned long long AverageWithDelta<unsigned long long>( const unsigned long long &origin, const unsigned long long &delta )
{ return origin + (delta >> 1); }
}
}
#include "Utilities-InlineImpl.h"
#endif

View File

@ -159,7 +159,7 @@ namespace Oyster
Compute
};
static void SetShaderEffect(ShaderEffect);
static void SetShaderEffect(ShaderEffect&);
static void CreateInputLayout(const D3D11_INPUT_ELEMENT_DESC *desc, int ElementCount,int VertexIndex,ID3D11InputLayout *&Layout);

View File

@ -328,7 +328,7 @@ namespace Oyster
/// \todo smart Set ie. not resetting the shader
/// \todo research states
/// \todo smart buffer set
void Core::ShaderManager::SetShaderEffect(ShaderEffect se)
void Core::ShaderManager::SetShaderEffect(ShaderEffect& se)
{
Set::Pixel(se.Shaders.Pixel);
Set::Vertex(se.Shaders.Vertex);

View File

@ -117,9 +117,11 @@ Oyster::Graphics::Model::ModelInfo* OBJReader::toModel()
modelInfo->Indexed = false;
modelInfo->VertexCount = (int)desc.NumElements;
modelInfo->Vertices = b;
Oyster::Resource::OHRESOURCE diffuse = Oyster::Resource::OysterResource::LoadResource(L"bth.png",Oyster::Graphics::Loading::LoadTexture);
//Oyster::Resource::OysterResource::LoadResource(L"Normal.png",(Oyster::Resource::CustomLoadFunction)Oyster::Graphics::Loading::LoadTexture);
modelInfo->Material.push_back((ID3D11ShaderResourceView*)diffuse);
return modelInfo;
}

View File

@ -1,7 +1,729 @@
#include "TextureLoader.h"
#include "..\Core\Dx11Includes.h"
#include "..\Core\Core.h"
Oyster::Resource::CustomData* Oyster::Graphics::Loading::LoadTexture()
HRESULT CreateWICTextureFromFileEx( ID3D11Device* d3dDevice,
ID3D11DeviceContext* d3dContext,
const wchar_t* fileName,
size_t maxsize,
D3D11_USAGE usage,
unsigned int bindFlags,
unsigned int cpuAccessFlags,
unsigned int miscFlags,
bool forceSRGB,
ID3D11Resource** texture,
ID3D11ShaderResourceView** textureView );
const Oyster::Resource::CustomData& Oyster::Graphics::Loading::LoadTexture(const wchar_t filename[])
{
return NULL;
ID3D11ShaderResourceView* srv;
Oyster::Resource::CustomData Ret;
HRESULT hr = CreateWICTextureFromFileEx(Core::device,Core::deviceContext,filename,0,D3D11_USAGE_DEFAULT,D3D11_BIND_SHADER_RESOURCE,0,0,false,NULL,&srv);
if(hr!=S_OK)
{
memset(&Ret,0,sizeof(Ret));
}
else
{
Ret.loadedData = srv;
Ret.resourceUnloadFnc = Loading::UnloadTexture;
}
return Ret;
}
void Oyster::Graphics::Loading::UnloadTexture(void* data)
{
ID3D11ShaderResourceView* srv = (ID3D11ShaderResourceView*)data;
SAFE_RELEASE(srv);
}
#include <wrl.h>
#include <memory>
#include <cassert>
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
#include <d2d1.h>
#endif
#pragma warning(push)
#pragma warning(disable : 4005)
#include <wincodec.h>
#pragma warning(pop)
template<class T> class ScopedObject : public Microsoft::WRL::ComPtr<T> {};
//-------------------------------------------------------------------------------------
// WIC Pixel Format Translation Data
//-------------------------------------------------------------------------------------
struct WICTranslate
{
GUID wic;
DXGI_FORMAT format;
};
static WICTranslate g_WICFormats[] =
{
{ GUID_WICPixelFormat128bppRGBAFloat, DXGI_FORMAT_R32G32B32A32_FLOAT },
{ GUID_WICPixelFormat64bppRGBAHalf, DXGI_FORMAT_R16G16B16A16_FLOAT },
{ GUID_WICPixelFormat64bppRGBA, DXGI_FORMAT_R16G16B16A16_UNORM },
{ GUID_WICPixelFormat32bppRGBA, DXGI_FORMAT_R8G8B8A8_UNORM },
{ GUID_WICPixelFormat32bppBGRA, DXGI_FORMAT_B8G8R8A8_UNORM }, // DXGI 1.1
{ GUID_WICPixelFormat32bppBGR, DXGI_FORMAT_B8G8R8X8_UNORM }, // DXGI 1.1
{ GUID_WICPixelFormat32bppRGBA1010102XR, DXGI_FORMAT_R10G10B10_XR_BIAS_A2_UNORM }, // DXGI 1.1
{ GUID_WICPixelFormat32bppRGBA1010102, DXGI_FORMAT_R10G10B10A2_UNORM },
#ifdef DXGI_1_2_FORMATS
{ GUID_WICPixelFormat16bppBGRA5551, DXGI_FORMAT_B5G5R5A1_UNORM },
{ GUID_WICPixelFormat16bppBGR565, DXGI_FORMAT_B5G6R5_UNORM },
#endif // DXGI_1_2_FORMATS
{ GUID_WICPixelFormat32bppGrayFloat, DXGI_FORMAT_R32_FLOAT },
{ GUID_WICPixelFormat16bppGrayHalf, DXGI_FORMAT_R16_FLOAT },
{ GUID_WICPixelFormat16bppGray, DXGI_FORMAT_R16_UNORM },
{ GUID_WICPixelFormat8bppGray, DXGI_FORMAT_R8_UNORM },
{ GUID_WICPixelFormat8bppAlpha, DXGI_FORMAT_A8_UNORM },
};
//-------------------------------------------------------------------------------------
// WIC Pixel Format nearest conversion table
//-------------------------------------------------------------------------------------
struct WICConvert
{
GUID source;
GUID target;
};
static WICConvert g_WICConvert[] =
{
// Note target GUID in this conversion table must be one of those directly supported formats (above).
{ GUID_WICPixelFormatBlackWhite, GUID_WICPixelFormat8bppGray }, // DXGI_FORMAT_R8_UNORM
{ GUID_WICPixelFormat1bppIndexed, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat2bppIndexed, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat4bppIndexed, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat8bppIndexed, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat2bppGray, GUID_WICPixelFormat8bppGray }, // DXGI_FORMAT_R8_UNORM
{ GUID_WICPixelFormat4bppGray, GUID_WICPixelFormat8bppGray }, // DXGI_FORMAT_R8_UNORM
{ GUID_WICPixelFormat16bppGrayFixedPoint, GUID_WICPixelFormat16bppGrayHalf }, // DXGI_FORMAT_R16_FLOAT
{ GUID_WICPixelFormat32bppGrayFixedPoint, GUID_WICPixelFormat32bppGrayFloat }, // DXGI_FORMAT_R32_FLOAT
#ifdef DXGI_1_2_FORMATS
{ GUID_WICPixelFormat16bppBGR555, GUID_WICPixelFormat16bppBGRA5551 }, // DXGI_FORMAT_B5G5R5A1_UNORM
#else
{ GUID_WICPixelFormat16bppBGR555, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat16bppBGRA5551, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat16bppBGR565, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
#endif // DXGI_1_2_FORMATS
{ GUID_WICPixelFormat32bppBGR101010, GUID_WICPixelFormat32bppRGBA1010102 }, // DXGI_FORMAT_R10G10B10A2_UNORM
{ GUID_WICPixelFormat24bppBGR, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat24bppRGB, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat32bppPBGRA, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat32bppPRGBA, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat48bppRGB, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat48bppBGR, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat64bppBGRA, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat64bppPRGBA, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat64bppPBGRA, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat48bppRGBFixedPoint, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat48bppBGRFixedPoint, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat64bppRGBAFixedPoint, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat64bppBGRAFixedPoint, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat64bppRGBFixedPoint, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat64bppRGBHalf, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat48bppRGBHalf, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
{ GUID_WICPixelFormat128bppPRGBAFloat, GUID_WICPixelFormat128bppRGBAFloat }, // DXGI_FORMAT_R32G32B32A32_FLOAT
{ GUID_WICPixelFormat128bppRGBFloat, GUID_WICPixelFormat128bppRGBAFloat }, // DXGI_FORMAT_R32G32B32A32_FLOAT
{ GUID_WICPixelFormat128bppRGBAFixedPoint, GUID_WICPixelFormat128bppRGBAFloat }, // DXGI_FORMAT_R32G32B32A32_FLOAT
{ GUID_WICPixelFormat128bppRGBFixedPoint, GUID_WICPixelFormat128bppRGBAFloat }, // DXGI_FORMAT_R32G32B32A32_FLOAT
{ GUID_WICPixelFormat32bppRGBE, GUID_WICPixelFormat128bppRGBAFloat }, // DXGI_FORMAT_R32G32B32A32_FLOAT
{ GUID_WICPixelFormat32bppCMYK, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat64bppCMYK, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat40bppCMYKAlpha, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat80bppCMYKAlpha, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
{ GUID_WICPixelFormat32bppRGB, GUID_WICPixelFormat32bppRGBA }, // DXGI_FORMAT_R8G8B8A8_UNORM
{ GUID_WICPixelFormat64bppRGB, GUID_WICPixelFormat64bppRGBA }, // DXGI_FORMAT_R16G16B16A16_UNORM
{ GUID_WICPixelFormat64bppPRGBAHalf, GUID_WICPixelFormat64bppRGBAHalf }, // DXGI_FORMAT_R16G16B16A16_FLOAT
#endif
// We don't support n-channel formats
};
static bool g_WIC2 = false;
//--------------------------------------------------------------------------------------
bool _IsWIC2()
{
return g_WIC2;
}
IWICImagingFactory* _GetWIC()
{
static IWICImagingFactory* s_Factory = nullptr;
if ( s_Factory )
return s_Factory;
#if(_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
HRESULT hr = CoCreateInstance(
CLSID_WICImagingFactory2,
nullptr,
CLSCTX_INPROC_SERVER,
__uuidof(IWICImagingFactory2),
(LPVOID*)&s_Factory
);
if ( SUCCEEDED(hr) )
{
// WIC2 is available on Windows 8 and Windows 7 SP1 with KB 2670838 installed
g_WIC2 = true;
}
else
{
hr = CoCreateInstance(
CLSID_WICImagingFactory1,
nullptr,
CLSCTX_INPROC_SERVER,
__uuidof(IWICImagingFactory),
(LPVOID*)&s_Factory
);
if ( FAILED(hr) )
{
s_Factory = nullptr;
return nullptr;
}
}
#else
HRESULT hr = CoCreateInstance(
CLSID_WICImagingFactory,
nullptr,
CLSCTX_INPROC_SERVER,
__uuidof(IWICImagingFactory),
(LPVOID*)&s_Factory
);
if ( FAILED(hr) )
{
s_Factory = nullptr;
return nullptr;
}
#endif
return s_Factory;
}
//---------------------------------------------------------------------------------
static DXGI_FORMAT _WICToDXGI( const GUID& guid )
{
for( size_t i=0; i < _countof(g_WICFormats); ++i )
{
if ( memcmp( &g_WICFormats[i].wic, &guid, sizeof(GUID) ) == 0 )
return g_WICFormats[i].format;
}
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
if ( g_WIC2 )
{
if ( memcmp( &GUID_WICPixelFormat96bppRGBFloat, &guid, sizeof(GUID) ) == 0 )
return DXGI_FORMAT_R32G32B32_FLOAT;
}
#endif
return DXGI_FORMAT_UNKNOWN;
}
//---------------------------------------------------------------------------------
static size_t _WICBitsPerPixel( REFGUID targetGuid )
{
IWICImagingFactory* pWIC = _GetWIC();
if ( !pWIC )
return 0;
ScopedObject<IWICComponentInfo> cinfo;
if ( FAILED( pWIC->CreateComponentInfo( targetGuid, &cinfo ) ) )
return 0;
WICComponentType type;
if ( FAILED( cinfo->GetComponentType( &type ) ) )
return 0;
if ( type != WICPixelFormat )
return 0;
Microsoft::WRL::ComPtr<IWICPixelFormatInfo> pfinfo;
if ( FAILED( cinfo.As( &pfinfo ) ) )
return 0;
UINT bpp;
if ( FAILED( pfinfo->GetBitsPerPixel( &bpp ) ) )
return 0;
return bpp;
}
//--------------------------------------------------------------------------------------
static DXGI_FORMAT MakeSRGB( _In_ DXGI_FORMAT format )
{
switch( format )
{
case DXGI_FORMAT_R8G8B8A8_UNORM:
return DXGI_FORMAT_R8G8B8A8_UNORM_SRGB;
case DXGI_FORMAT_BC1_UNORM:
return DXGI_FORMAT_BC1_UNORM_SRGB;
case DXGI_FORMAT_BC2_UNORM:
return DXGI_FORMAT_BC2_UNORM_SRGB;
case DXGI_FORMAT_BC3_UNORM:
return DXGI_FORMAT_BC3_UNORM_SRGB;
case DXGI_FORMAT_B8G8R8A8_UNORM:
return DXGI_FORMAT_B8G8R8A8_UNORM_SRGB;
case DXGI_FORMAT_B8G8R8X8_UNORM:
return DXGI_FORMAT_B8G8R8X8_UNORM_SRGB;
case DXGI_FORMAT_BC7_UNORM:
return DXGI_FORMAT_BC7_UNORM_SRGB;
default:
return format;
}
}
static HRESULT CreateTextureFromWIC( _In_ ID3D11Device* d3dDevice,
_In_opt_ ID3D11DeviceContext* d3dContext,
_In_ IWICBitmapFrameDecode *frame,
_In_ size_t maxsize,
_In_ D3D11_USAGE usage,
_In_ unsigned int bindFlags,
_In_ unsigned int cpuAccessFlags,
_In_ unsigned int miscFlags,
_In_ bool forceSRGB,
_Out_opt_ ID3D11Resource** texture,
_Out_opt_ ID3D11ShaderResourceView** textureView )
{
UINT width, height;
HRESULT hr = frame->GetSize( &width, &height );
if ( FAILED(hr) )
return hr;
assert( width > 0 && height > 0 );
if ( !maxsize )
{
// This is a bit conservative because the hardware could support larger textures than
// the Feature Level defined minimums, but doing it this way is much easier and more
// performant for WIC than the 'fail and retry' model used by DDSTextureLoader
switch( d3dDevice->GetFeatureLevel() )
{
case D3D_FEATURE_LEVEL_9_1:
case D3D_FEATURE_LEVEL_9_2:
maxsize = 2048 /*D3D_FL9_1_REQ_TEXTURE2D_U_OR_V_DIMENSION*/;
break;
case D3D_FEATURE_LEVEL_9_3:
maxsize = 4096 /*D3D_FL9_3_REQ_TEXTURE2D_U_OR_V_DIMENSION*/;
break;
case D3D_FEATURE_LEVEL_10_0:
case D3D_FEATURE_LEVEL_10_1:
maxsize = 8192 /*D3D10_REQ_TEXTURE2D_U_OR_V_DIMENSION*/;
break;
default:
maxsize = D3D11_REQ_TEXTURE2D_U_OR_V_DIMENSION;
break;
}
}
assert( maxsize > 0 );
UINT twidth, theight;
if ( width > maxsize || height > maxsize )
{
float ar = static_cast<float>(height) / static_cast<float>(width);
if ( width > height )
{
twidth = static_cast<UINT>( maxsize );
theight = static_cast<UINT>( static_cast<float>(maxsize) * ar );
}
else
{
theight = static_cast<UINT>( maxsize );
twidth = static_cast<UINT>( static_cast<float>(maxsize) / ar );
}
assert( twidth <= maxsize && theight <= maxsize );
}
else
{
twidth = width;
theight = height;
}
// Determine format
WICPixelFormatGUID pixelFormat;
hr = frame->GetPixelFormat( &pixelFormat );
if ( FAILED(hr) )
return hr;
WICPixelFormatGUID convertGUID;
memcpy( &convertGUID, &pixelFormat, sizeof(WICPixelFormatGUID) );
size_t bpp = 0;
DXGI_FORMAT format = _WICToDXGI( pixelFormat );
if ( format == DXGI_FORMAT_UNKNOWN )
{
if ( memcmp( &GUID_WICPixelFormat96bppRGBFixedPoint, &pixelFormat, sizeof(WICPixelFormatGUID) ) == 0 )
{
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
if ( g_WIC2 )
{
memcpy( &convertGUID, &GUID_WICPixelFormat96bppRGBFloat, sizeof(WICPixelFormatGUID) );
format = DXGI_FORMAT_R32G32B32_FLOAT;
}
else
#endif
{
memcpy( &convertGUID, &GUID_WICPixelFormat128bppRGBAFloat, sizeof(WICPixelFormatGUID) );
format = DXGI_FORMAT_R32G32B32A32_FLOAT;
}
}
else
{
for( size_t i=0; i < _countof(g_WICConvert); ++i )
{
if ( memcmp( &g_WICConvert[i].source, &pixelFormat, sizeof(WICPixelFormatGUID) ) == 0 )
{
memcpy( &convertGUID, &g_WICConvert[i].target, sizeof(WICPixelFormatGUID) );
format = _WICToDXGI( g_WICConvert[i].target );
assert( format != DXGI_FORMAT_UNKNOWN );
bpp = _WICBitsPerPixel( convertGUID );
break;
}
}
}
if ( format == DXGI_FORMAT_UNKNOWN )
return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED );
}
else
{
bpp = _WICBitsPerPixel( pixelFormat );
}
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8) || defined(_WIN7_PLATFORM_UPDATE)
if ( (format == DXGI_FORMAT_R32G32B32_FLOAT) && d3dContext != 0 && textureView != 0 )
{
// Special case test for optional device support for autogen mipchains for R32G32B32_FLOAT
UINT fmtSupport = 0;
hr = d3dDevice->CheckFormatSupport( DXGI_FORMAT_R32G32B32_FLOAT, &fmtSupport );
if ( FAILED(hr) || !( fmtSupport & D3D11_FORMAT_SUPPORT_MIP_AUTOGEN ) )
{
// Use R32G32B32A32_FLOAT instead which is required for Feature Level 10.0 and up
memcpy( &convertGUID, &GUID_WICPixelFormat128bppRGBAFloat, sizeof(WICPixelFormatGUID) );
format = DXGI_FORMAT_R32G32B32A32_FLOAT;
bpp = 128;
}
}
#endif
if ( !bpp )
return E_FAIL;
// Handle sRGB formats
if ( forceSRGB )
{
format = MakeSRGB( format );
}
else
{
ScopedObject<IWICMetadataQueryReader> metareader;
if ( SUCCEEDED( frame->GetMetadataQueryReader( &metareader ) ) )
{
GUID containerFormat;
if ( SUCCEEDED( metareader->GetContainerFormat( &containerFormat ) ) )
{
// Check for sRGB colorspace metadata
bool sRGB = false;
PROPVARIANT value;
PropVariantInit( &value );
if ( memcmp( &containerFormat, &GUID_ContainerFormatPng, sizeof(GUID) ) == 0 )
{
// Check for sRGB chunk
if ( SUCCEEDED( metareader->GetMetadataByName( L"/sRGB/RenderingIntent", &value ) ) && value.vt == VT_UI1 )
{
sRGB = true;
}
}
else if ( SUCCEEDED( metareader->GetMetadataByName( L"System.Image.ColorSpace", &value ) ) && value.vt == VT_UI2 && value.uiVal == 1 )
{
sRGB = true;
}
PropVariantClear( &value );
if ( sRGB )
format = MakeSRGB( format );
}
}
}
// Verify our target format is supported by the current device
// (handles WDDM 1.0 or WDDM 1.1 device driver cases as well as DirectX 11.0 Runtime without 16bpp format support)
UINT support = 0;
hr = d3dDevice->CheckFormatSupport( format, &support );
if ( FAILED(hr) || !(support & D3D11_FORMAT_SUPPORT_TEXTURE2D) )
{
// Fallback to RGBA 32-bit format which is supported by all devices
memcpy( &convertGUID, &GUID_WICPixelFormat32bppRGBA, sizeof(WICPixelFormatGUID) );
format = DXGI_FORMAT_R8G8B8A8_UNORM;
bpp = 32;
}
// Allocate temporary memory for image
size_t rowPitch = ( twidth * bpp + 7 ) / 8;
size_t imageSize = rowPitch * theight;
std::unique_ptr<uint8_t[]> temp( new (std::nothrow) uint8_t[ imageSize ] );
if (!temp)
return E_OUTOFMEMORY;
// Load image data
if ( memcmp( &convertGUID, &pixelFormat, sizeof(GUID) ) == 0
&& twidth == width
&& theight == height )
{
// No format conversion or resize needed
hr = frame->CopyPixels( 0, static_cast<UINT>( rowPitch ), static_cast<UINT>( imageSize ), temp.get() );
if ( FAILED(hr) )
return hr;
}
else if ( twidth != width || theight != height )
{
// Resize
IWICImagingFactory* pWIC = _GetWIC();
if ( !pWIC )
return E_NOINTERFACE;
ScopedObject<IWICBitmapScaler> scaler;
hr = pWIC->CreateBitmapScaler( &scaler );
if ( FAILED(hr) )
return hr;
hr = scaler->Initialize( frame, twidth, theight, WICBitmapInterpolationModeFant );
if ( FAILED(hr) )
return hr;
WICPixelFormatGUID pfScaler;
hr = scaler->GetPixelFormat( &pfScaler );
if ( FAILED(hr) )
return hr;
if ( memcmp( &convertGUID, &pfScaler, sizeof(GUID) ) == 0 )
{
// No format conversion needed
hr = scaler->CopyPixels( 0, static_cast<UINT>( rowPitch ), static_cast<UINT>( imageSize ), temp.get() );
if ( FAILED(hr) )
return hr;
}
else
{
ScopedObject<IWICFormatConverter> FC;
hr = pWIC->CreateFormatConverter( &FC );
if ( FAILED(hr) )
return hr;
hr = FC->Initialize( scaler.Get(), convertGUID, WICBitmapDitherTypeErrorDiffusion, 0, 0, WICBitmapPaletteTypeCustom );
if ( FAILED(hr) )
return hr;
hr = FC->CopyPixels( 0, static_cast<UINT>( rowPitch ), static_cast<UINT>( imageSize ), temp.get() );
if ( FAILED(hr) )
return hr;
}
}
else
{
// Format conversion but no resize
IWICImagingFactory* pWIC = _GetWIC();
if ( !pWIC )
return E_NOINTERFACE;
ScopedObject<IWICFormatConverter> FC;
hr = pWIC->CreateFormatConverter( &FC );
if ( FAILED(hr) )
return hr;
hr = FC->Initialize( frame, convertGUID, WICBitmapDitherTypeErrorDiffusion, 0, 0, WICBitmapPaletteTypeCustom );
if ( FAILED(hr) )
return hr;
hr = FC->CopyPixels( 0, static_cast<UINT>( rowPitch ), static_cast<UINT>( imageSize ), temp.get() );
if ( FAILED(hr) )
return hr;
}
// See if format is supported for auto-gen mipmaps (varies by feature level)
bool autogen = false;
if ( d3dContext != 0 && textureView != 0 ) // Must have context and shader-view to auto generate mipmaps
{
UINT fmtSupport = 0;
hr = d3dDevice->CheckFormatSupport( format, &fmtSupport );
if ( SUCCEEDED(hr) && ( fmtSupport & D3D11_FORMAT_SUPPORT_MIP_AUTOGEN ) )
{
autogen = true;
}
}
// Create texture
D3D11_TEXTURE2D_DESC desc;
desc.Width = twidth;
desc.Height = theight;
desc.MipLevels = (autogen) ? 0 : 1;
desc.ArraySize = 1;
desc.Format = format;
desc.SampleDesc.Count = 1;
desc.SampleDesc.Quality = 0;
desc.Usage = usage;
desc.CPUAccessFlags = cpuAccessFlags;
if ( autogen )
{
desc.BindFlags = bindFlags | D3D11_BIND_RENDER_TARGET;
desc.MiscFlags = miscFlags | D3D11_RESOURCE_MISC_GENERATE_MIPS;
}
else
{
desc.BindFlags = bindFlags;
desc.MiscFlags = miscFlags;
}
D3D11_SUBRESOURCE_DATA initData;
initData.pSysMem = temp.get();
initData.SysMemPitch = static_cast<UINT>( rowPitch );
initData.SysMemSlicePitch = static_cast<UINT>( imageSize );
ID3D11Texture2D* tex = nullptr;
//Error with miscFlags Generate Mips
hr = d3dDevice->CreateTexture2D( &desc, (autogen) ? nullptr : &initData, &tex );
/// Replace To get Texture Data
if ( SUCCEEDED(hr) && tex != 0 )
{
if (textureView != 0)
{
D3D11_SHADER_RESOURCE_VIEW_DESC SRVDesc;
memset( &SRVDesc, 0, sizeof( SRVDesc ) );
SRVDesc.Format = desc.Format;
SRVDesc.ViewDimension = D3D11_SRV_DIMENSION_TEXTURE2D;
SRVDesc.Texture2D.MipLevels = (autogen) ? -1 : 1;
hr = d3dDevice->CreateShaderResourceView( tex, &SRVDesc, textureView );
if ( FAILED(hr) )
{
tex->Release();
return hr;
}
if ( autogen )
{
assert( d3dContext != 0 );
d3dContext->UpdateSubresource( tex, 0, nullptr, temp.get(), static_cast<UINT>(rowPitch), static_cast<UINT>(imageSize) );
d3dContext->GenerateMips( *textureView );
}
}
if (texture != 0)
{
*texture = tex;
}
else
{
//SetDebugObjectName(tex, "WICTextureLoader");
tex->Release();
}
}
return hr;
}
HRESULT CreateWICTextureFromFileEx( ID3D11Device* d3dDevice,
ID3D11DeviceContext* d3dContext,
const wchar_t* fileName,
size_t maxsize,
D3D11_USAGE usage,
unsigned int bindFlags,
unsigned int cpuAccessFlags,
unsigned int miscFlags,
bool forceSRGB,
ID3D11Resource** texture,
ID3D11ShaderResourceView** textureView )
{
if ( texture )
{
*texture = nullptr;
}
if ( textureView )
{
*textureView = nullptr;
}
if (!d3dDevice || !fileName || (!texture && !textureView))
return E_INVALIDARG;
IWICImagingFactory* pWIC = _GetWIC();
if ( !pWIC )
return E_NOINTERFACE;
// Initialize WIC
ScopedObject<IWICBitmapDecoder> decoder;
HRESULT hr = pWIC->CreateDecoderFromFilename( fileName, 0, GENERIC_READ, WICDecodeMetadataCacheOnDemand, &decoder );
if ( FAILED(hr) )
return hr;
ScopedObject<IWICBitmapFrameDecode> frame;
hr = decoder->GetFrame( 0, &frame );
if ( FAILED(hr) )
return hr;
hr = CreateTextureFromWIC( d3dDevice, d3dContext, frame.Get(), maxsize,
usage, bindFlags, cpuAccessFlags, miscFlags, forceSRGB,
texture, textureView );
return hr;
}

View File

@ -6,8 +6,8 @@ namespace Oyster
{
namespace Loading
{
void UnloadTexture();
Oyster::Resource::CustomData* LoadTexture();
void UnloadTexture(void* loadedData);
const Oyster::Resource::CustomData& LoadTexture(const wchar_t filename[]);
}
}
}

View File

@ -223,9 +223,16 @@
<AssemblerOutput Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
</AssemblerOutput>
</FxCompile>
<FxCompile Include="Shader\HLSL\SimpleDebug\TextureDebug.hlsl">
<ShaderType Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">Pixel</ShaderType>
<ShaderType Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">Pixel</ShaderType>
<ShaderType Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">Pixel</ShaderType>
<ShaderType Condition="'$(Configuration)|$(Platform)'=='Release|x64'">Pixel</ShaderType>
</FxCompile>
</ItemGroup>
<ItemGroup>
<None Include="Shader\HLSL\Deffered Shaders\GatherGBuffer\GBufferHeader.hlsli" />
<None Include="Shader\HLSL\SimpleDebug\Debug.hlsli" />
</ItemGroup>
<Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
<ImportGroup Label="ExtensionTargets">

View File

@ -87,8 +87,10 @@
<FxCompile Include="Shader\HLSL\SimpleDebug\DebugCameraVertex.hlsl" />
<FxCompile Include="Shader\HLSL\Deffered Shaders\GatherGBuffer\PixelGatherData.hlsl" />
<FxCompile Include="Shader\HLSL\Deffered Shaders\GatherGBuffer\VertexGatherData.hlsl" />
<FxCompile Include="Shader\HLSL\SimpleDebug\TextureDebug.hlsl" />
</ItemGroup>
<ItemGroup>
<None Include="Shader\HLSL\Deffered Shaders\GatherGBuffer\GBufferHeader.hlsli" />
<None Include="Shader\HLSL\SimpleDebug\Debug.hlsli" />
</ItemGroup>
</Project>

View File

@ -7,6 +7,7 @@ const std::wstring PathFromExeToHlsl = L"..\\..\\..\\Code\\OysterGraphics\\Shade
const std::wstring VertexTransformDebug = L"TransformDebugVertex";
const std::wstring VertexDebug = L"DebugVertex";
const std::wstring PixelRed = L"DebugPixel";
const std::wstring PixelTexture = L"Texture";
typedef Oyster::Graphics::Core::ShaderManager::ShaderType ShaderType;
typedef Oyster::Graphics::Core::ShaderManager::Get GetShader;
@ -19,7 +20,7 @@ namespace Oyster
{
namespace Render
{
Shader::ShaderEffect Resources::obj;
Shader::ShaderEffect Resources::obj;// = Shader::ShaderEffect();;
Buffer Resources::ModelData = Buffer();
Buffer Resources::VPData = Buffer();
@ -36,6 +37,8 @@ namespace Oyster
/** Load Pixel Shader for d3dcompile */
Core::ShaderManager::Init(PathFromExeToHlsl + L"SimpleDebug\\" + L"DebugPixel.hlsl", ShaderType::Pixel, PixelRed, false);
Core::ShaderManager::Init(PathFromExeToHlsl + L"SimpleDebug\\" + L"TextureDebug.hlsl", ShaderType::Pixel, PixelTexture, false);
#else
/** Load Vertex Shader with Precompiled */
@ -75,6 +78,23 @@ namespace Oyster
ID3D11RasterizerState* rs = NULL;
Oyster::Graphics::Core::device->CreateRasterizerState(&rdesc,&rs);
D3D11_SAMPLER_DESC sdesc;
sdesc.Filter = D3D11_FILTER_ANISOTROPIC;
/// @todo parata med fredrik om wraping
sdesc.AddressU = D3D11_TEXTURE_ADDRESS_MIRROR_ONCE;
sdesc.AddressV = D3D11_TEXTURE_ADDRESS_WRAP;
sdesc.AddressW = D3D11_TEXTURE_ADDRESS_BORDER;
sdesc.MipLODBias = 0;
sdesc.MaxAnisotropy =4;
sdesc.ComparisonFunc = D3D11_COMPARISON_ALWAYS;
*sdesc.BorderColor = *Oyster::Math::Float4(0,0,0,1).element;
sdesc.MinLOD = 0;
sdesc.MaxLOD = D3D11_FLOAT32_MAX;
ID3D11SamplerState** ss = new ID3D11SamplerState*[1];
Oyster::Graphics::Core::device->CreateSamplerState(&sdesc,ss);
#pragma endregion
#pragma region Setup Views
@ -84,7 +104,7 @@ namespace Oyster
#pragma region Create Shader Effects
/** @todo Create ShaderEffects */
obj.Shaders.Pixel = GetShader::Pixel(PixelRed);
obj.Shaders.Vertex = GetShader::Vertex(VertexTransformDebug);
obj.Shaders.Vertex = GetShader::Vertex(VertexDebug);
D3D11_INPUT_ELEMENT_DESC indesc[] =
{
@ -98,6 +118,8 @@ namespace Oyster
obj.IAStage.Topology = D3D_PRIMITIVE_TOPOLOGY_TRIANGLELIST;
obj.CBuffers.Vertex.push_back(&VPData);
obj.RenderStates.Rasterizer = rs;
obj.RenderStates.SampleCount = 1;
obj.RenderStates.SampleState = ss;
ModelData.Apply(1);
#pragma endregion

View File

@ -28,6 +28,8 @@ struct PixelOut
Texture2D Diffuse : register(t0);
Texture2D Specular : register(t1);
SamplerState Sampler : register(s0);
cbuffer PerFrame : register(b0)
{
matrix View;

View File

@ -3,7 +3,7 @@
PixelOut main(VertexOut input)
{
PixelOut output;
output.DiffuseGlow = float4(1.0f, 0.0f, 0.0f, 1.0f);
output.DiffuseGlow = Diffuse.Sample(Sampler, input.UV);
output.NormalSpec = float4(input.normal, 1.0f);
return output;
}

View File

@ -0,0 +1,25 @@
cbuffer PerFrame : register(b0)
{
matrix View;
float4x4 Projection;
}
cbuffer PerModel : register(b1)
{
matrix World;
}
struct VertexIn
{
float3 pos : POSITION;
float2 UV : TEXCOORD;
float3 normal : NORMAL;
};
struct VertexOut
{
float4 Pos : SV_POSITION;
float2 UV : TEXCOORD;
float3 Normal : NORMAL;
float4 Wpos : POSITION;
};

View File

@ -1,28 +1,13 @@
cbuffer PerFrame : register(b0)
{
matrix View;
float4x4 Projection;
}
#include "Debug.hlsli"
cbuffer PerModel : register(b1)
{
matrix World;
}
struct VertexIn
VertexOut main( VertexIn input )
{
float3 pos : POSITION;
float2 UV : TEXCOORD;
float3 normal : NORMAL;
};
float4 main( VertexIn input ) : SV_POSITION
{
float4 postTransform = mul( World, float4(input.pos,1) );
//float4 postTransform = float4(input.pos,1);
//return postTransform;
//return mul(View, float4(input.pos,1));
VertexOut outp;
outp.Wpos = mul( World, float4(input.pos,1) );
matrix VP = mul(Projection, View);
//matrix WVP = mul(World, VP);
return mul(VP, postTransform );
outp.Pos = mul(VP, outp.Wpos );
outp.UV = input.UV;
outp.Normal = input.normal;
return outp;
}

View File

@ -1,4 +1,6 @@
float4 main() : SV_TARGET0
#include "Debug.hlsli"
float4 main() : SV_TARGET
{
return float4(1.0f, 0.0f, 0.0f, 1.0f);
}

View File

@ -1,4 +1,4 @@
float4 main( float4 pos : POSITION ) : SV_POSITION
{
return pos;
return pos*0.1f;
}

View File

@ -0,0 +1,9 @@
#include "Debug.hlsli"
Texture2D tex : register(t0);
SamplerState S1 : register(s0);
float4 main(VertexOut inp) : SV_TARGET0
{
return tex.Sample(S1,inp.UV);
}

View File

@ -201,6 +201,7 @@ HRESULT InitDirect3D()
HRESULT Update(float deltaTime)
{
m->WorldMatrix.m14 += 0.0001f;
return S_OK;
}