Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
// TOGL CODE LICENSE
//
// Copyright 2011-2014 Valve Corporation
// All Rights Reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//
// cglmprogram.h
// GLMgr buffers (index / vertex)
// ... maybe add PBO later as well
//===============================================================================
#ifndef CGLMBUFFER_H
#define CGLMBUFFER_H
#pragma once
//===============================================================================
extern bool g_bUsePseudoBufs;
// forward declarations
class GLMContext;
enum EGLMBufferType
{
kGLMVertexBuffer,
kGLMIndexBuffer,
kGLMUniformBuffer, // for bindable uniform
kGLMPixelBuffer, // for PBO
kGLMNumBufferTypes
};
// pass this in "options" to constructor to make a dynamic buffer
#define GLMBufferOptionDynamic 0x00000001
struct GLMBuffLockParams
{
uint m_nOffset;
uint m_nSize;
bool m_bNoOverwrite;
bool m_bDiscard;
};
#define GL_STATIC_BUFFER_SIZE ( 2048 * 1024 )
#define GL_MAX_STATIC_BUFFERS 2
extern void glBufferSubDataMaxSize( GLenum target, GLintptr offset, GLsizeiptr size, const GLvoid *data, uint nMaxSizePerCall = 128 * 1024 );
//===========================================================================//
// Creates an immutable storage for a buffer object
// https://www.opengl.org/registry/specs/ARB/buffer_storage.txt
class CPersistentBuffer
{
public:
CPersistentBuffer();
~CPersistentBuffer();
void Init( EGLMBufferType type,uint nSize );
void Deinit();
void InsertFence();
void BlockUntilNotBusy();
void Append( uint nSize );
inline uint GetBytesRemaining() const { return m_nSize - m_nOffset; }
inline uint GetOffset() const { return m_nOffset; }
inline void *GetPtr() const { return m_pImmutablePersistentBuf; }
inline GLuint GetHandle() const { return m_nHandle; }
private:
CPersistentBuffer( const CPersistentBuffer & );
CPersistentBuffer & operator= (const CPersistentBuffer &);
uint m_nSize;
EGLMBufferType m_type;
GLenum m_buffGLTarget; // GL_ARRAY_BUFFER_ARB / GL_ELEMENT_BUFFER_ARB
GLuint m_nHandle; // handle of this program in the GL context
// Holds a pointer to the persistently mapped buffer
void* m_pImmutablePersistentBuf;
uint m_nOffset;
#ifdef HAVE_GL_ARB_SYNC
GLsync m_nSyncObj;
#endif
};
//===============================================================================
#if GL_ENABLE_INDEX_VERIFICATION
struct GLDynamicBuf_t
{
GLenum m_nGLType;
uint m_nHandle;
uint m_nActualBufSize;
uint m_nSize;
uint m_nLockOffset;
uint m_nLockSize;
};
class CGLMBufferSpanManager
{
CGLMBufferSpanManager( const CGLMBufferSpanManager& );
CGLMBufferSpanManager& operator= ( const CGLMBufferSpanManager& );
public:
CGLMBufferSpanManager();
~CGLMBufferSpanManager();
void Init( GLMContext *pContext, EGLMBufferType nBufType, uint nInitialCapacity, uint nBufSize, bool bDynamic );
void Deinit();
inline GLMContext *GetContext() const { return m_pCtx; }
inline GLenum GetGLBufType() const { return ( m_nBufType == kGLMVertexBuffer ) ? GL_ARRAY_BUFFER_ARB : GL_ELEMENT_ARRAY_BUFFER_ARB; }
struct ActiveSpan_t
{
uint m_nStart;
uint m_nEnd;
GLDynamicBuf_t m_buf;
bool m_bOriginalAlloc;
inline ActiveSpan_t() { }
inline ActiveSpan_t( uint nStart, uint nEnd, GLDynamicBuf_t &buf, bool bOriginalAlloc ) : m_nStart( nStart ), m_nEnd( nEnd ), m_buf( buf ), m_bOriginalAlloc( bOriginalAlloc ) { Assert( nStart <= nEnd ); }
};
ActiveSpan_t *AddSpan( uint nOffset, uint nMaxSize, uint nActualSize, bool bDiscard, bool bNoOverwrite );
void DiscardAllSpans();
bool IsValid( uint nOffset, uint nSize ) const;
private:
bool AllocDynamicBuf( uint nSize, GLDynamicBuf_t &buf );
void ReleaseDynamicBuf( GLDynamicBuf_t &buf );
GLMContext *m_pCtx;
EGLMBufferType m_nBufType;
uint m_nBufSize;
bool m_bDynamic;
CUtlVector<ActiveSpan_t> m_ActiveSpans;
CUtlVector<ActiveSpan_t> m_DeletedSpans;
int m_nSpanEndMax;
int m_nNumAllocatedBufs;
int m_nTotalBytesAllocated;
};
#endif // GL_ENABLE_INDEX_VERIFICATION
class CGLMBuffer
{
public:
void Lock( GLMBuffLockParams *pParams, char **pAddressOut );
void Unlock( int nActualSize = -1, const void *pActualData = NULL );
GLuint GetHandle() const;
friend class GLMContext; // only GLMContext can make CGLMBuffer objects
friend class GLMTester;
friend struct IDirect3D9;
friend struct IDirect3DDevice9;
CGLMBuffer( GLMContext *pCtx, EGLMBufferType type, uint size, uint options );
~CGLMBuffer();
void SetModes( bool bAsyncMap, bool bExplicitFlush, bool bForce = false );
void FlushRange( uint offset, uint size );
#if GL_ENABLE_INDEX_VERIFICATION
bool IsSpanValid( uint nOffset, uint nSize ) const;
#endif
GLMContext *m_pCtx; // link back to parent context
EGLMBufferType m_type;
uint m_nSize;
uint m_nActualSize;
bool m_bDynamic;
GLenum m_buffGLTarget; // GL_ARRAY_BUFFER_ARB / GL_ELEMENT_BUFFER_ARB
GLuint m_nHandle; // name of this program in the context
uint m_nRevision; // bump anytime the size changes or buffer is orphaned
bool m_bEnableAsyncMap; // mirror of the buffer state
bool m_bEnableExplicitFlush; // mirror of the buffer state
bool m_bMapped; // is it currently mapped
uint m_dirtyMinOffset; // when equal, range is empty
uint m_dirtyMaxOffset;
float *m_pLastMappedAddress;
int m_nPinnedMemoryOfs;
uint m_nPersistentBufferStartOffset;
bool m_bUsingPersistentBuffer;
bool m_bPseudo; // true if the m_name is 0, and the backing is plain RAM
// in pseudo mode, there is just one RAM buffer that acts as the backing.
// expectation is that this mode would only be used for dynamic indices.
// since indices have to be consumed (copied to command stream) prior to return from a drawing call,
// there's no need to do any fencing or multibuffering. orphaning in particular becomes a no-op.
char *m_pActualPseudoBuf; // storage for pseudo buffer
char *m_pPseudoBuf; // storage for pseudo buffer
char *m_pStaticBuffer;
GLMBuffLockParams m_LockParams;
static char ALIGN16 m_StaticBuffers[ GL_MAX_STATIC_BUFFERS ][ GL_STATIC_BUFFER_SIZE ] ALIGN16_POST;
static bool m_bStaticBufferUsed[ GL_MAX_STATIC_BUFFERS ];
#if GL_ENABLE_INDEX_VERIFICATION
CGLMBufferSpanManager m_BufferSpanManager;
#endif
#if GL_ENABLE_UNLOCK_BUFFER_OVERWRITE_DETECTION
uint m_nDirtyRangeStart;
uint m_nDirtyRangeEnd;
#endif
};
#endif // CGLMBUFFER_H