Leaked source code of windows server 2003
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///////////////////////////////////////////////////////////////////////////////
// Copyright (C) Microsoft Corporation, 2000.
//
// valbase.cpp
//
// Direct3D Reference Device - PixelShader validation common infrastructure
//
///////////////////////////////////////////////////////////////////////////////
#include "pch.cpp"
#pragma hdrstop
//-----------------------------------------------------------------------------
// DSTPARAM::DSTPARAM
//-----------------------------------------------------------------------------
DSTPARAM::DSTPARAM()
{
m_bParamUsed = FALSE;
m_RegNum = (UINT)-1;
m_WriteMask = 0;
m_DstMod = D3DSPDM_NONE;
m_DstShift = (DSTSHIFT)-1;
m_RegType = (D3DSHADER_PARAM_REGISTER_TYPE)-1;
m_ComponentReadMask = 0;
}
//-----------------------------------------------------------------------------
// SRCPARAM::SRCPARAM
//-----------------------------------------------------------------------------
SRCPARAM::SRCPARAM()
{
m_bParamUsed = FALSE;
m_RegNum = (UINT)-1;
m_SwizzleShift = D3DSP_NOSWIZZLE;
m_AddressMode = D3DVS_ADDRMODE_ABSOLUTE;
m_RelativeAddrComponent = 0;
m_SrcMod = D3DSPSM_NONE;
m_RegType = (D3DSHADER_PARAM_REGISTER_TYPE)-1;
m_ComponentReadMask = D3DSP_WRITEMASK_ALL;
}
//-----------------------------------------------------------------------------
// CBaseInstruction::CBaseInstruction
//-----------------------------------------------------------------------------
CBaseInstruction::CBaseInstruction(CBaseInstruction* pPrevInst)
{
m_Type = D3DSIO_NOP;
m_SrcParamCount = 0;
m_DstParamCount = 0;
m_pPrevInst = pPrevInst;
m_pNextInst = NULL;
m_pSpewLineNumber = NULL;
m_pSpewFileName = NULL;
m_SpewInstructionCount = 0;
if( pPrevInst )
{
pPrevInst->m_pNextInst = this;
}
}
//-----------------------------------------------------------------------------
// CBaseInstruction::SetSpewFileNameAndLineNumber
//-----------------------------------------------------------------------------
void CBaseInstruction::SetSpewFileNameAndLineNumber(const char* pFileName, const DWORD* pLineNumber)
{
m_pSpewFileName = pFileName;
m_pSpewLineNumber = pLineNumber;
}
//-----------------------------------------------------------------------------
// CBaseInstruction::MakeInstructionLocatorString
//
// Don't forget to 'delete' the string returned.
//-----------------------------------------------------------------------------
char* CBaseInstruction::MakeInstructionLocatorString()
{
for(UINT Length = 128; Length < 65536; Length *= 2)
{
int BytesStored;
char *pBuffer = new char[Length];
if( !pBuffer )
{
OutputDebugString("Out of memory.\n");
return NULL;
}
if( m_pSpewFileName )
{
BytesStored = _snprintf( pBuffer, Length, "%s(%d) : ",
m_pSpewFileName, m_pSpewLineNumber ? *m_pSpewLineNumber : 1);
}
else
{
BytesStored = _snprintf( pBuffer, Length, "(Statement %d) ",
m_SpewInstructionCount );
}
if( BytesStored >= 0 )
return pBuffer;
delete [] pBuffer;
}
return NULL;
}
//-----------------------------------------------------------------------------
// CAccessHistoryNode::CAccessHistoryNode
//-----------------------------------------------------------------------------
CAccessHistoryNode::CAccessHistoryNode( CAccessHistoryNode* pPreviousAccess,
CAccessHistoryNode* pPreviousWriter,
CAccessHistoryNode* pPreviousReader,
CBaseInstruction* pInst,
BOOL bWrite )
{
DXGASSERT(pInst);
m_pNextAccess = NULL;
m_pPreviousAccess = pPreviousAccess;
if( m_pPreviousAccess )
m_pPreviousAccess->m_pNextAccess = this;
m_pPreviousWriter = pPreviousWriter;
m_pPreviousReader = pPreviousReader;
m_pInst = pInst;
m_bWrite = bWrite;
m_bRead = !bWrite;
}
//-----------------------------------------------------------------------------
// CAccessHistory::CAccessHistory
//-----------------------------------------------------------------------------
CAccessHistory::CAccessHistory()
{
m_pFirstAccess = NULL;
m_pMostRecentAccess = NULL;
m_pMostRecentWriter = NULL;
m_pMostRecentReader = NULL;
m_bPreShaderInitialized = FALSE;
}
//-----------------------------------------------------------------------------
// CAccessHistory::~CAccessHistory
//-----------------------------------------------------------------------------
CAccessHistory::~CAccessHistory()
{
CAccessHistoryNode* pCurrNode = m_pFirstAccess;
CAccessHistoryNode* pDeleteMe;
while( pCurrNode )
{
pDeleteMe = pCurrNode;
pCurrNode = pCurrNode->m_pNextAccess;
delete pDeleteMe;
}
}
//-----------------------------------------------------------------------------
// CAccessHistory::NewAccess
//-----------------------------------------------------------------------------
BOOL CAccessHistory::NewAccess(CBaseInstruction* pInst, BOOL bWrite )
{
m_pMostRecentAccess = new CAccessHistoryNode( m_pMostRecentAccess,
m_pMostRecentWriter,
m_pMostRecentReader,
pInst,
bWrite );
if( NULL == m_pMostRecentAccess )
{
return FALSE; // out of memory
}
if( m_pFirstAccess == NULL )
{
m_pFirstAccess = m_pMostRecentAccess;
}
if( bWrite )
{
m_pMostRecentWriter = m_pMostRecentAccess;
}
else // it is a read.
{
m_pMostRecentReader = m_pMostRecentAccess;
}
return TRUE;
}
//-----------------------------------------------------------------------------
// CAccessHistory::InsertReadBeforeWrite
//-----------------------------------------------------------------------------
BOOL CAccessHistory::InsertReadBeforeWrite(CAccessHistoryNode* pWriteNode, CBaseInstruction* pInst)
{
DXGASSERT(pWriteNode && pWriteNode->m_bWrite && pInst );
// append new node after node before pWriteNode
CAccessHistoryNode* pReadBeforeWrite
= new CAccessHistoryNode( pWriteNode->m_pPreviousAccess,
pWriteNode->m_pPreviousWriter,
pWriteNode->m_pPreviousReader,
pInst,
FALSE);
if( NULL == pReadBeforeWrite )
{
return FALSE; // out of memory
}
// Patch up all the dangling pointers
// Pointer to first access may change
if( m_pFirstAccess == pWriteNode )
{
m_pFirstAccess = pReadBeforeWrite;
}
// Pointer to most recent reader may change
if( m_pMostRecentReader == pWriteNode->m_pPreviousReader )
{
m_pMostRecentReader = pReadBeforeWrite;
}
// Update all m_pPreviousRead pointers that need to be updated to point to the newly
// inserted read.
CAccessHistoryNode* pCurrAccess = pWriteNode;
while(pCurrAccess &&
!(pCurrAccess->m_bRead && pCurrAccess->m_pPreviousAccess && pCurrAccess->m_pPreviousAccess->m_bRead) )
{
pCurrAccess->m_pPreviousReader = pReadBeforeWrite;
pCurrAccess = pCurrAccess->m_pPreviousAccess;
}
// re-attach pWriteNode and the accesses linked after it back to the original list
pWriteNode->m_pPreviousAccess = pReadBeforeWrite;
pReadBeforeWrite->m_pNextAccess = pWriteNode;
return TRUE;
}
//-----------------------------------------------------------------------------
// CRegisterFile::CRegisterFile
//-----------------------------------------------------------------------------
CRegisterFile::CRegisterFile(UINT NumRegisters,
BOOL bWritable,
UINT NumReadPorts,
BOOL bPreShaderInitialized)
{
m_bInitOk = FALSE;
m_NumRegisters = NumRegisters;
m_bWritable = bWritable;
m_NumReadPorts = NumReadPorts;
for( UINT i = 0; i < NUM_COMPONENTS_IN_REGISTER; i++ )
{
if( m_NumRegisters )
{
m_pAccessHistory[i] = new CAccessHistory[m_NumRegisters];
if( NULL == m_pAccessHistory[i] )
{
OutputDebugString( "Direct3D Shader Validator: Out of memory.\n" );
m_NumRegisters = 0;
return;
}
}
for( UINT j = 0; j < m_NumRegisters; j++ )
{
m_pAccessHistory[i][j].m_bPreShaderInitialized = bPreShaderInitialized;
}
// To get the access history for a component of a register, use:
// m_pAccessHistory[component][register number]
}
}
//-----------------------------------------------------------------------------
// CRegisterFile::~CRegisterFile
//-----------------------------------------------------------------------------
CRegisterFile::~CRegisterFile()
{
for( UINT i = 0; i < NUM_COMPONENTS_IN_REGISTER; i++ )
{
delete [] m_pAccessHistory[i];
}
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::CBaseShaderValidator
//-----------------------------------------------------------------------------
CBaseShaderValidator::CBaseShaderValidator( const DWORD* pCode, const D3DCAPS8* pCaps, DWORD Flags )
{
m_ReturnCode = E_FAIL; // do this first.
m_bBaseInitOk = FALSE;
m_pLog = new CErrorLog(Flags & SHADER_VALIDATOR_LOG_ERRORS);
if( NULL == m_pLog )
{
OutputDebugString("D3D PixelShader Validator: Out of memory.\n");
return;
}
// ----------------------------------------------------
// Member variable initialization
//
m_pCaps = pCaps;
m_ErrorCount = 0;
m_bSeenAllInstructions = FALSE;
m_SpewInstructionCount = 0;
m_pInstructionList = NULL;
m_pCurrInst = NULL;
m_pCurrToken = pCode; // can be null - vertex shader fixed function
if( m_pCurrToken )
m_Version = *(m_pCurrToken++);
else
m_Version = 0;
m_pLatestSpewLineNumber = NULL;
m_pLatestSpewFileName = NULL;
for( UINT i = 0; i < SHADER_INSTRUCTION_MAX_SRCPARAMS; i++ )
{
m_bSrcParamError[i] = FALSE;
}
m_bBaseInitOk = TRUE;
return;
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::~CBaseShaderValidator
//-----------------------------------------------------------------------------
CBaseShaderValidator::~CBaseShaderValidator()
{
while( m_pCurrInst ) // Delete the linked list of instructions
{
CBaseInstruction* pDeleteMe = m_pCurrInst;
m_pCurrInst = m_pCurrInst->m_pPrevInst;
delete pDeleteMe;
}
delete m_pLog;
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::DecodeDstParam
//-----------------------------------------------------------------------------
void CBaseShaderValidator::DecodeDstParam( DSTPARAM* pDstParam, DWORD Token )
{
DXGASSERT(pDstParam);
pDstParam->m_bParamUsed = TRUE;
pDstParam->m_RegNum = Token & D3DSP_REGNUM_MASK;
pDstParam->m_WriteMask = Token & D3DSP_WRITEMASK_ALL;
pDstParam->m_DstMod = (D3DSHADER_PARAM_DSTMOD_TYPE)(Token & D3DSP_DSTMOD_MASK);
pDstParam->m_DstShift = (DSTSHIFT)((Token & D3DSP_DSTSHIFT_MASK) >> D3DSP_DSTSHIFT_SHIFT );
pDstParam->m_RegType = (D3DSHADER_PARAM_REGISTER_TYPE)(Token & D3DSP_REGTYPE_MASK);
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::DecodeSrcParam
//-----------------------------------------------------------------------------
void CBaseShaderValidator::DecodeSrcParam( SRCPARAM* pSrcParam, DWORD Token )
{
DXGASSERT(pSrcParam);
pSrcParam->m_bParamUsed = TRUE;
pSrcParam->m_RegNum = Token & D3DSP_REGNUM_MASK;
pSrcParam->m_SwizzleShift = Token & D3DSP_SWIZZLE_MASK;
pSrcParam->m_AddressMode = (D3DVS_ADDRESSMODE_TYPE)(Token & D3DVS_ADDRESSMODE_MASK);
pSrcParam->m_RelativeAddrComponent = COMPONENT_MASKS[(Token >> 14) & 0x3];
pSrcParam->m_SrcMod = (D3DSHADER_PARAM_SRCMOD_TYPE)(Token & D3DSP_SRCMOD_MASK);
pSrcParam->m_RegType = (D3DSHADER_PARAM_REGISTER_TYPE)(Token & D3DSP_REGTYPE_MASK);
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::ValidateShader
//-----------------------------------------------------------------------------
void CBaseShaderValidator::ValidateShader()
{
m_SpewInstructionCount++; // Consider the version token as the first
// statement (1) for spew counting.
if( !InitValidation() ) // i.e. Set up max register counts
{
// Returns false on:
// 1) Unrecognized version token,
// 2) Vertex shader declaration validation with no shader code (fixed function).
// In this case InitValidation() sets m_ReturnCode as appropriate.
return;
}
// Loop through all the instructions
while( *m_pCurrToken != D3DPS_END() )
{
m_pCurrInst = AllocateNewInstruction(m_pCurrInst); // New instruction in linked list
if( NULL == m_pCurrInst )
{
Spew( SPEW_GLOBAL_ERROR, NULL, "Out of memory." );
return;
}
if( NULL == m_pInstructionList )
m_pInstructionList = m_pCurrInst;
if( !DecodeNextInstruction() )
return;
// Skip comments
if( m_pCurrInst->m_Type == D3DSIO_COMMENT )
{
CBaseInstruction* pDeleteMe = m_pCurrInst;
m_pCurrInst = m_pCurrInst->m_pPrevInst;
if( pDeleteMe == m_pInstructionList )
m_pInstructionList = NULL;
delete pDeleteMe;
continue;
}
for( UINT i = 0; i < SHADER_INSTRUCTION_MAX_SRCPARAMS; i++ )
{
m_bSrcParamError[i] = FALSE;
}
// Apply all the per-instruction rules - order the rule checks sensibly.
// Note: Rules only return FALSE if they find an error that is so severe that it is impossible to
// continue validation.
if( !ApplyPerInstructionRules() )
return;
}
m_bSeenAllInstructions = TRUE;
// Apply any rules that also need to run after all instructions seen.
//
// NOTE: It is possible to get here with m_pCurrInst == NULL, if there were no
// instructions. So any rules you add here must be able to account for that
// possiblity.
//
ApplyPostInstructionsRules();
// If no errors, then success!
if( 0 == m_ErrorCount )
m_ReturnCode = D3D_OK;
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::ParseCommentForAssemblerMessages
//-----------------------------------------------------------------------------
void CBaseShaderValidator::ParseCommentForAssemblerMessages(const DWORD* pComment)
{
if( !pComment )
return;
// There must be at least 2 DWORDS in the comment
if( (((*(pComment++)) & D3DSI_COMMENTSIZE_MASK) >> D3DSI_COMMENTSIZE_SHIFT) < 2 )
return;
switch(*(pComment++))
{
case MAKEFOURCC('F','I','L','E'):
m_pLatestSpewFileName = (const char*)pComment;
break;
case MAKEFOURCC('L','I','N','E'):
m_pLatestSpewLineNumber = pComment;
break;
}
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::Spew
//-----------------------------------------------------------------------------
void CBaseShaderValidator::Spew( SPEW_TYPE SpewType,
CBaseInstruction* pInst /* can be NULL */,
const char* pszFormat, ... )
{
int Length = 128;
char* pBuffer = NULL;
va_list marker;
if( !m_pLog )
return;
while( pBuffer == NULL )
{
int BytesStored = 0;
int BytesLeft = Length;
char *pIndex = NULL;
char* pErrorLocationText = NULL;
pBuffer = new char[Length];
if( !pBuffer )
{
OutputDebugString("Out of memory.\n");
return;
}
pIndex = pBuffer;
// Code location text
switch( SpewType )
{
case SPEW_INSTRUCTION_ERROR:
case SPEW_INSTRUCTION_WARNING:
if( pInst )
pErrorLocationText = pInst->MakeInstructionLocatorString();
break;
}
if( pErrorLocationText )
{
BytesStored = _snprintf( pIndex, BytesLeft - 1, pErrorLocationText );
if( BytesStored < 0 ) goto OverFlow;
BytesLeft -= BytesStored;
pIndex += BytesStored;
}
// Spew text prefix
switch( SpewType )
{
case SPEW_INSTRUCTION_ERROR:
BytesStored = _snprintf( pIndex, BytesLeft - 1, "(Validation Error) " );
break;
case SPEW_GLOBAL_ERROR:
BytesStored = _snprintf( pIndex, BytesLeft - 1, "(Global Validation Error) " );
break;
case SPEW_INSTRUCTION_WARNING:
BytesStored = _snprintf( pIndex, BytesLeft - 1, "(Validation Warning) " );
break;
case SPEW_GLOBAL_WARNING:
BytesStored = _snprintf( pIndex, BytesLeft - 1, "(Global Validation Warning) " );
break;
}
if( BytesStored < 0 ) goto OverFlow;
BytesLeft -= BytesStored;
pIndex += BytesStored;
// Formatted text
va_start( marker, pszFormat );
BytesStored = _vsnprintf( pIndex, BytesLeft - 1, pszFormat, marker );
va_end( marker );
if( BytesStored < 0 ) goto OverFlow;
BytesLeft -= BytesStored;
pIndex += BytesStored;
m_pLog->AppendText(pBuffer);
delete [] pErrorLocationText;
delete [] pBuffer;
break;
OverFlow:
delete [] pErrorLocationText;
delete [] pBuffer;
pBuffer = NULL;
Length = Length * 2;
}
}
//-----------------------------------------------------------------------------
// CBaseShaderValidator::MakeAffectedComponentsText
//
// Note that the string returned is STATIC.
//-----------------------------------------------------------------------------
char* CBaseShaderValidator::MakeAffectedComponentsText( DWORD ComponentMask,
BOOL bColorLabels,
BOOL bPositionLabels)
{
char* ColorLabels[4] = {"r/", "g/", "b/", "a/"};
char* PositionLabels[4] = {"x/", "y/", "z/", "w/"};
char* NumericLabels[4] = {"0 ", "1 ", "2 ", "3"}; // always used
static char s_AffectedComponents[28]; // enough to hold "*r/x/0 *g/y/1 *b/z/2 *a/w/3"
UINT LabelCount = 0;
s_AffectedComponents[0] = '\0';
for( UINT i = 0; i < 4; i++ )
{
if( COMPONENT_MASKS[i] & ComponentMask )
{
strcat( s_AffectedComponents, "*" );
}
if( bColorLabels )
strcat( s_AffectedComponents, ColorLabels[i] );
if( bPositionLabels )
strcat( s_AffectedComponents, PositionLabels[i] );
strcat( s_AffectedComponents, NumericLabels[i] ); // always used
}
return s_AffectedComponents;
}