csgo-2018-source/dmxloader/dmxelement.cpp

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2021-07-25 12:11:47 +08:00
//====== Copyright 1996-2004, Valve Corporation, All rights reserved. =======
//
// Purpose:
//
//=============================================================================
#include "dmxloader/dmxelement.h"
#include "dmxloader/dmxattribute.h"
#include "tier1/utlbuffer.h"
#include "mathlib/ssemath.h"
#include "tier1/utlbufferutil.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
#ifdef OSX
#pragma GCC diagnostic ignored "-Wtautological-compare"
#endif
//-----------------------------------------------------------------------------
// globals
//-----------------------------------------------------------------------------
CUtlSymbolTableLargeMT CDmxElement::s_TypeSymbols;
//-----------------------------------------------------------------------------
// Creates a dmx element
//-----------------------------------------------------------------------------
CDmxElement* CreateDmxElement( const char *pType )
{
return new CDmxElement( pType );
}
//-----------------------------------------------------------------------------
// Constructor, destructor
//-----------------------------------------------------------------------------
CDmxElement::CDmxElement( const char *pType )
{
m_Type = s_TypeSymbols.AddString( pType );
m_nLockCount = 0;
m_bResortNeeded = false;
m_bIsMarkedForDeletion = false;
CreateUniqueId( &m_Id );
}
CDmxElement::~CDmxElement()
{
CDmxElementModifyScope modify( this );
RemoveAllAttributes();
}
//-----------------------------------------------------------------------------
// Utility method for getting at the type
//-----------------------------------------------------------------------------
CUtlSymbolLarge CDmxElement::GetType() const
{
return m_Type;
}
const char* CDmxElement::GetTypeString() const
{
return m_Type.String();
}
const char* CDmxElement::GetName() const
{
return GetValue< CUtlString >( "name" );
}
const DmObjectId_t &CDmxElement::GetId() const
{
return m_Id;
}
//-----------------------------------------------------------------------------
// Sets the object id, name
//-----------------------------------------------------------------------------
void CDmxElement::SetId( const DmObjectId_t &id )
{
CopyUniqueId( id, &m_Id );
}
void CDmxElement::SetName( const char *pName )
{
SetValue< CUtlString >( "name", pName );
}
//-----------------------------------------------------------------------------
// Sorts the vector when a change has occurred
//-----------------------------------------------------------------------------
void CDmxElement::Resort( ) const
{
if ( m_bResortNeeded )
{
AttributeList_t *pAttributes = const_cast< AttributeList_t *>( &m_Attributes );
pAttributes->RedoSort();
m_bResortNeeded = false;
// NOTE: This checks for duplicate attribute names
int nCount = m_Attributes.Count();
for ( int i = nCount; --i >= 1; )
{
if ( m_Attributes[i] == NULL || m_Attributes[i-1] == NULL )
{
continue;
}
if ( m_Attributes[i]->GetNameSymbol() == m_Attributes[i-1]->GetNameSymbol() )
{
Warning( "Duplicate attribute name %s encountered!\n", m_Attributes[i]->GetName() );
pAttributes->Remove(i);
Assert( 0 );
}
}
}
}
//-----------------------------------------------------------------------------
// Enables modification of the DmxElement
//-----------------------------------------------------------------------------
void CDmxElement::LockForChanges( bool bLock )
{
if ( bLock )
{
++m_nLockCount;
}
else
{
if ( --m_nLockCount == 0 )
{
Resort();
}
Assert( m_nLockCount >= 0 );
}
}
//-----------------------------------------------------------------------------
// Adds, removes attributes
//-----------------------------------------------------------------------------
CDmxAttribute *CDmxElement::AddAttribute( const char *pAttributeName )
{
int nIndex = FindAttribute( pAttributeName );
if ( nIndex >= 0 )
return m_Attributes[nIndex];
CDmxElementModifyScope modify( this );
m_bResortNeeded = true;
CDmxAttribute *pAttribute = new CDmxAttribute( pAttributeName );
m_Attributes.InsertNoSort( pAttribute );
return pAttribute;
}
void CDmxElement::RemoveAttribute( const char *pAttributeName )
{
CDmxElementModifyScope modify( this );
int idx = FindAttribute( pAttributeName );
if ( idx >= 0 )
{
delete m_Attributes[idx];
m_Attributes.Remove( idx );
}
}
void CDmxElement::RemoveAttributeByPtr( CDmxAttribute *pAttribute )
{
CDmxElementModifyScope modify( this );
int nCount = m_Attributes.Count();
for ( int i = 0; i < nCount; ++i )
{
if ( m_Attributes[i] != pAttribute )
continue;
delete pAttribute;
m_Attributes.Remove( i );
break;
}
}
void CDmxElement::RemoveAllAttributes()
{
int nCount = m_Attributes.Count();
for ( int i = 0; i < nCount; ++i )
{
delete m_Attributes[i];
}
m_Attributes.RemoveAll();
m_bResortNeeded = false;
}
//-----------------------------------------------------------------------------
// Rename an attribute
//-----------------------------------------------------------------------------
void CDmxElement::RenameAttribute( const char *pAttributeName, const char *pNewName )
{
CDmxElementModifyScope modify( this );
// No change...
if ( !Q_stricmp( pAttributeName, pNewName ) )
return;
int idx = FindAttribute( pAttributeName );
if ( idx < 0 )
return;
if ( HasAttribute( pNewName ) )
{
Warning( "Tried to rename from \"%s\" to \"%s\", but \"%s\" already exists!\n",
pAttributeName, pNewName, pNewName );
return;
}
m_bResortNeeded = true;
m_Attributes[ idx ]->SetName( pNewName );
}
//-----------------------------------------------------------------------------
// Find an attribute by name-based lookup
//-----------------------------------------------------------------------------
int CDmxElement::FindAttribute( const char *pAttributeName ) const
{
// FIXME: The cost here is O(log M) + O(log N)
// where log N is the binary search for the symbol match
// and log M is the binary search for the attribute name->symbol
// We can eliminate log M by using a hash table in the symbol lookup
Resort();
CDmxAttribute search( pAttributeName );
return m_Attributes.Find( &search );
}
//-----------------------------------------------------------------------------
// Find an attribute by name-based lookup
//-----------------------------------------------------------------------------
int CDmxElement::FindAttribute( CUtlSymbolLarge attributeName ) const
{
Resort();
CDmxAttribute search( attributeName );
return m_Attributes.Find( &search );
}
//-----------------------------------------------------------------------------
// Attribute finding
//-----------------------------------------------------------------------------
bool CDmxElement::HasAttribute( const char *pAttributeName ) const
{
int idx = FindAttribute( pAttributeName );
return ( idx >= 0 );
}
CDmxAttribute *CDmxElement::GetAttribute( const char *pAttributeName )
{
int idx = FindAttribute( pAttributeName );
if ( idx >= 0 )
return m_Attributes[ idx ];
return NULL;
}
const CDmxAttribute *CDmxElement::GetAttribute( const char *pAttributeName ) const
{
int idx = FindAttribute( pAttributeName );
if ( idx >= 0 )
return m_Attributes[ idx ];
return NULL;
}
//-----------------------------------------------------------------------------
// Attribute interation
//-----------------------------------------------------------------------------
int CDmxElement::AttributeCount() const
{
return m_Attributes.Count();
}
CDmxAttribute *CDmxElement::GetAttribute( int nIndex )
{
return m_Attributes[ nIndex ];
}
const CDmxAttribute *CDmxElement::GetAttribute( int nIndex ) const
{
return m_Attributes[ nIndex ];
}
//-----------------------------------------------------------------------------
// Removes all elements recursively
//-----------------------------------------------------------------------------
void CDmxElement::AddElementsToDelete( CUtlVector< CDmxElement * >& elementsToDelete )
{
if ( m_bIsMarkedForDeletion )
return;
m_bIsMarkedForDeletion = true;
elementsToDelete.AddToTail( this );
int nCount = AttributeCount();
for ( int i = 0; i < nCount; ++i )
{
CDmxAttribute *pAttribute = GetAttribute(i);
if ( pAttribute->GetType() == AT_ELEMENT )
{
CDmxElement *pElement = pAttribute->GetValue< CDmxElement* >();
if ( pElement )
{
pElement->AddElementsToDelete( elementsToDelete );
}
continue;
}
if ( pAttribute->GetType() == AT_ELEMENT_ARRAY )
{
const CUtlVector< CDmxElement * > &elements = pAttribute->GetArray< CDmxElement* >();
int nElementCount = elements.Count();
for ( int j = 0; j < nElementCount; ++j )
{
if ( elements[j] )
{
elements[j]->AddElementsToDelete( elementsToDelete );
}
}
continue;
}
}
}
//-----------------------------------------------------------------------------
// Removes all elements recursively
//-----------------------------------------------------------------------------
void CDmxElement::RemoveAllElementsRecursive()
{
CUtlVector< CDmxElement * > elementsToDelete;
AddElementsToDelete( elementsToDelete );
int nCount = elementsToDelete.Count();
for ( int i = 0; i < nCount; ++i )
{
delete elementsToDelete[i];
}
}
//-----------------------------------------------------------------------------
// Template for unpacking a bitfield inside of an unpack structure.
// pUnpack->m_nSize is the number of bits in the bitfield
// pUnpack->m_nBitOffset is the number of bits to offset from pDest
//-----------------------------------------------------------------------------
template <typename T>
void CDmxElement::UnpackBitfield( T *pDest, const DmxElementUnpackStructure_t *pUnpack, const CDmxAttribute *pAttribute ) const
{
// Determine if T is a signed type
const bool bIsSigned = ( 0 > (T)(-1) );
if ( bIsSigned )
{
// signed types need to be larger than 1 in size or else you get sign extension problems
Assert( pUnpack->m_nSize > 1 );
}
// Right now the max size bitfield we handle is 32.
Assert( pUnpack->m_nSize <= 32 );
Assert( pUnpack->m_nSize <= 8*sizeof(T) );
Assert( pUnpack->m_nBitOffset + pUnpack->m_nSize <= 8*sizeof(T) );
// Create a mask that covers the bitfield.
T mask;
T maskBeforeShift;
if ( pUnpack->m_nSize == 8*sizeof(T) )
{
maskBeforeShift = (T)~0;
mask = maskBeforeShift;
}
else
{
maskBeforeShift = ( 1 << pUnpack->m_nSize ) - 1;
mask = maskBeforeShift << pUnpack->m_nBitOffset;
}
mask = ~mask;
T value = ( *(T *)pAttribute->m_pData );
// Determine if value is in the range that this variable can hold.
T signedMaskBeforeShift = bIsSigned ? ( 1 << (pUnpack->m_nSize-1) ) - 1 : maskBeforeShift;
if ( !bIsSigned || ( value >= 0 ) )
{
if ( ( value & ~signedMaskBeforeShift ) != 0 )
{
Warning( "Value %s exeeds size of datatype. \n", pUnpack->m_pAttributeName );
value = 0; // Clear value
}
}
else
{
if ( !bIsSigned || ( ( value & ~signedMaskBeforeShift ) != ~signedMaskBeforeShift ) )
{
Warning( "Value %s exeeds size of datatype. \n", pUnpack->m_pAttributeName );
value = 0; // Clear value
}
}
// Mask value to the correct number of bits (important if value is a neg number!)
value &= maskBeforeShift;
// Pack it together.
// Clear value
*pDest &= mask;
// Install value
*pDest |= ( value << pUnpack->m_nBitOffset );
}
//-----------------------------------------------------------------------------
// Method to unpack data into a structure
//-----------------------------------------------------------------------------
void CDmxElement::UnpackIntoStructure( void *pData, const DmxElementUnpackStructure_t *pUnpack ) const
{
for ( ; pUnpack->m_AttributeType != AT_UNKNOWN; ++pUnpack )
{
char *pDest = (char*)pData + pUnpack->m_nOffset;
// Recurse?
if ( pUnpack->m_pSub )
{
UnpackIntoStructure( (void *)pDest, pUnpack->m_pSub );
continue;
}
if ( IsArrayType( pUnpack->m_AttributeType ) )
{
// NOTE: This does not work with string/bitfield array data at the moment
if ( ( pUnpack->m_AttributeType == AT_STRING_ARRAY ) || ( pUnpack->m_nBitOffset != NO_BIT_OFFSET ) )
{
AssertMsg( 0, ( "CDmxElement::UnpackIntoStructure: String and bitfield array attribute types not currently supported!\n" ) );
continue;
}
}
if ( ( pUnpack->m_AttributeType == AT_VOID ) || ( pUnpack->m_AttributeType == AT_VOID_ARRAY ) )
{
AssertMsg( 0, ( "CDmxElement::UnpackIntoStructure: Binary blob attribute types not currently supported!\n" ) );
continue;
}
CDmxAttribute temp( NULL );
const CDmxAttribute *pAttribute = GetAttribute( pUnpack->m_pAttributeName );
if ( !pAttribute )
{
if ( !pUnpack->m_pDefaultString )
continue;
temp.AllocateDataMemory_AndConstruct( pUnpack->m_AttributeType );
if ( !IsArrayType( pUnpack->m_AttributeType ) )
{
// Convert the default string into the target (array types do this inside GetArrayValue below)
temp.SetValueFromString( pUnpack->m_pDefaultString );
}
pAttribute = &temp;
}
if ( pUnpack->m_AttributeType != pAttribute->GetType() )
{
Warning( "CDmxElement::UnpackIntoStructure: Mismatched attribute type in attribute \"%s\"!\n", pUnpack->m_pAttributeName );
continue;
}
if ( pAttribute->GetType() == AT_STRING )
{
if ( pUnpack->m_nSize == UTL_STRING_SIZE ) // the string is a UtlString.
{
*(CUtlString *)pDest = pAttribute->GetValueString();
}
else // the string is a preallocated char array.
{
// Strings get special treatment: they are stored as in-line arrays of chars
Q_strncpy( pDest, pAttribute->GetValueString(), pUnpack->m_nSize );
}
continue;
}
// Get the basic type, if the attribute is an array:
DmAttributeType_t basicType = CDmxAttribute::ArrayAttributeBasicType( pAttribute->GetType() );
// Special case - if data type is float, but dest size == 16, we are unpacking into simd by replication
if ( ( basicType == AT_FLOAT ) && ( pUnpack->m_nSize == sizeof( fltx4 ) ) )
{
if ( IsArrayType( pUnpack->m_AttributeType ) )
{
// Copy from the attribute into a fixed-size array:
float *pfDest = (float *)pDest;
const CUtlVector< float > &floatVector = pAttribute->GetArray< float >();
for ( int i = 0; i < pUnpack->m_nArrayLength; i++ )
{
for ( int j = 0; j < 4; j++ ) memcpy( pfDest++, &floatVector[ i ], sizeof( float ) );
}
}
else
{
memcpy( pDest + 0 * sizeof( float ), pAttribute->m_pData, sizeof( float ) );
memcpy( pDest + 1 * sizeof( float ), pAttribute->m_pData, sizeof( float ) );
memcpy( pDest + 2 * sizeof( float ), pAttribute->m_pData, sizeof( float ) );
memcpy( pDest + 3 * sizeof( float ), pAttribute->m_pData, sizeof( float ) );
}
}
else
{
int nDataTypeSize = pUnpack->m_nSize;
if ( basicType == AT_INT )
{
if ( pUnpack->m_nBitOffset == NO_BIT_OFFSET ) // This test is not for bitfields
{
AssertMsg( nDataTypeSize <= CDmxAttribute::AttributeDataSize( basicType ),
( "CDmxElement::UnpackIntoStructure: Incorrect size to unpack data into in attribute \"%s\"!\n", pUnpack->m_pAttributeName ) );
}
}
else
{
AssertMsg( nDataTypeSize == CDmxAttribute::AttributeDataSize( basicType ),
( "CDmxElement::UnpackIntoStructure: Incorrect size to unpack data into in attribute \"%s\"!\n", pUnpack->m_pAttributeName ) );
}
if ( IsArrayType( pUnpack->m_AttributeType ) )
{
// Copy from the attribute into a fixed-size array (padding with the default value if need be):
pAttribute->GetArrayValue( pUnpack->m_AttributeType, pDest, nDataTypeSize, pUnpack->m_nArrayLength, pUnpack->m_pDefaultString );
}
else if ( pUnpack->m_nBitOffset == NO_BIT_OFFSET )
{
memcpy( pDest, pAttribute->m_pData, pUnpack->m_nSize );
}
else
{
if ( pAttribute->GetType() == AT_INT )
{
// Int attribute types are used for char/short/int.
switch ( pUnpack->m_BitfieldType )
{
case BITFIELD_TYPE_BOOL:
// Note: unsigned char handles bools as bitfields.
UnpackBitfield( (unsigned char *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_CHAR :
UnpackBitfield( (char *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_UNSIGNED_CHAR :
UnpackBitfield( (unsigned char *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_SHORT :
UnpackBitfield( (short *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_UNSIGNED_SHORT :
UnpackBitfield( (unsigned short *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_INT :
UnpackBitfield( (int *)pDest, pUnpack, pAttribute );
break;
case BITFIELD_TYPE_UNSIGNED_INT :
UnpackBitfield( (unsigned int *)pDest, pUnpack, pAttribute );
break;
default:
Assert(0);
break;
};
}
else
{
UnpackBitfield( (char *)pDest, pUnpack, pAttribute );
}
}
}
}
}
//-----------------------------------------------------------------------------
// Creates attributes based on the unpack structure
//-----------------------------------------------------------------------------
void CDmxElement::AddAttributesFromStructure( const void *pData, const DmxElementUnpackStructure_t *pUnpack )
{
for ( ; pUnpack->m_AttributeType != AT_UNKNOWN; ++pUnpack )
{
const char *pSrc = (const char*)pData + pUnpack->m_nOffset;
if ( pUnpack->m_pSub )
{
CDmxElement *pDest = CreateDmxElement( pUnpack->m_pTypeName );
pDest->AddAttributesFromStructure( pSrc, pUnpack->m_pSub );
SetValue( pUnpack->m_pAttributeName, pDest );
continue;
}
if ( IsArrayType( pUnpack->m_AttributeType ) )
{
// NOTE: This does not work with string/bitfield array data at the moment
if ( ( pUnpack->m_AttributeType == AT_STRING_ARRAY ) || ( pUnpack->m_nBitOffset != NO_BIT_OFFSET ) )
{
AssertMsg( 0, ( "CDmxElement::AddAttributesFromStructure: String and bitfield array attribute types not currently supported!\n" ) );
continue;
}
}
if ( ( pUnpack->m_AttributeType == AT_VOID ) || ( pUnpack->m_AttributeType == AT_VOID_ARRAY ) )
{
AssertMsg( 0, ( "CDmxElement::AddAttributesFromStructure: Binary blob attribute types not currently supported!\n" ) );
continue;
}
if ( HasAttribute( pUnpack->m_pAttributeName ) )
{
AssertMsg( 0, ( "CDmxElement::AddAttributesFromStructure: Attribute %s already exists!\n", pUnpack->m_pAttributeName ) );
continue;
}
{
CDmxElementModifyScope modify( this );
CDmxAttribute *pAttribute = AddAttribute( pUnpack->m_pAttributeName );
if ( pUnpack->m_AttributeType == AT_STRING )
{
if ( pUnpack->m_nSize == UTL_STRING_SIZE ) // it is a UtlString.
{
const char *test = (*(CUtlString *)pSrc).Get();
pAttribute->SetValue( test );
}
else
{
pAttribute->SetValue( pSrc );
}
}
else
{
// Get the basic data type, if the attribute is an array:
DmAttributeType_t basicType = CDmxAttribute::ArrayAttributeBasicType( pUnpack->m_AttributeType );
int nDataTypeSize = pUnpack->m_nSize;
// handle float attrs stored as replicated fltx4's
if ( ( basicType == AT_FLOAT ) && ( nDataTypeSize == sizeof( fltx4 ) ) )
{
nDataTypeSize = sizeof( float );
}
if ( basicType == AT_INT )
{
if ( pUnpack->m_nBitOffset == NO_BIT_OFFSET ) // This test is not for bitfields.
{
AssertMsg( nDataTypeSize <= CDmxAttribute::AttributeDataSize( basicType ),
( "CDmxElement::UnpackIntoStructure: Incorrect size to unpack data into %s attribute \"%s\"!\n", CDmxAttribute::s_pAttributeTypeName[ pUnpack->m_AttributeType ], pUnpack->m_pAttributeName ) );
}
}
else
{
AssertMsg( nDataTypeSize == CDmxAttribute::AttributeDataSize( basicType ),
( "CDmxElement::UnpackIntoStructure: Incorrect size to unpack data into %s attribute \"%s\"!\n", CDmxAttribute::s_pAttributeTypeName[ pUnpack->m_AttributeType ], pUnpack->m_pAttributeName ) );
}
if ( IsArrayType( pUnpack->m_AttributeType ) )
{
// Copy from a fixed-size array into the attribute:
int nArrayStride = pUnpack->m_nSize;
pAttribute->SetArrayValue( pUnpack->m_AttributeType, pSrc, nDataTypeSize, pUnpack->m_nArrayLength, nArrayStride );
}
else if ( pUnpack->m_nBitOffset == NO_BIT_OFFSET )
{
pAttribute->SetValue( pUnpack->m_AttributeType, pSrc, nDataTypeSize );
}
else
{
// Right now the max size bitfield we handle is 32.
Assert( pUnpack->m_nBitOffset + pUnpack->m_nSize <= 32 );
int mask = 0;
if ( pUnpack->m_nSize == 32 )
{
mask = ~0;
}
else
{
mask = ( 1 << pUnpack->m_nSize ) - 1;
mask <<= pUnpack->m_nBitOffset;
}
int value = ( ( *(int *)pSrc ) & mask );
if ( ( pUnpack->m_BitfieldType == BITFIELD_TYPE_CHAR ) ||
( pUnpack->m_BitfieldType == BITFIELD_TYPE_SHORT ) ||
( pUnpack->m_BitfieldType == BITFIELD_TYPE_INT ) )
{
// move it all the way up to make sure we get the correct sign extension.
value <<= ( 32 - ( pUnpack->m_nBitOffset + pUnpack->m_nSize ) );
// move it back down into position.
value >>= ( 32 - ( pUnpack->m_nBitOffset + pUnpack->m_nSize ) );
}
value >>= pUnpack->m_nBitOffset;
pAttribute->SetValue( pUnpack->m_AttributeType, &value, sizeof( int ) );
}
}
}
}
}