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568 lines
14 KiB
C++
568 lines
14 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=============================================================================//
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#include <stdarg.h>
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#include "dt_send.h"
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#include "dt.h"
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#include "dt_recv.h"
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#include "dt_encode.h"
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#include "convar.h"
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#include "commonmacros.h"
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#include "tier1/strtools.h"
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#include "tier0/dbg.h"
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#include "dt_stack.h"
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// memdbgon must be the last include file in a .cpp file!!!
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#include "tier0/memdbgon.h"
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#define PROPINDEX_NUMBITS 12
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#define MAX_TOTAL_SENDTABLE_PROPS (1 << PROPINDEX_NUMBITS)
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ConVar g_CV_DTWatchEnt( "dtwatchent", "-1", 0, "Watch this entities data table encoding." );
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ConVar g_CV_DTWatchVar( "dtwatchvar", "", 0, "Watch the named variable." );
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ConVar g_CV_DTWarning( "dtwarning", "0", 0, "Print data table warnings?" );
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ConVar g_CV_DTWatchClass( "dtwatchclass", "", 0, "Watch all fields encoded with this table." );
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// ----------------------------------------------------------------------------- //
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//
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// CBuildHierarchyStruct
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//
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// Used while building a CSendNode hierarchy.
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//
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// ----------------------------------------------------------------------------- //
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class CBuildHierarchyStruct
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{
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public:
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const ExcludeProp *m_pExcludeProps;
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int m_nExcludeProps;
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const SendProp *m_pDatatableProps[MAX_TOTAL_SENDTABLE_PROPS];
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int m_nDatatableProps;
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const SendProp *m_pProps[MAX_TOTAL_SENDTABLE_PROPS];
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unsigned char m_PropProxyIndices[MAX_TOTAL_SENDTABLE_PROPS];
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int m_nProps;
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unsigned char m_nPropProxies;
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};
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// ----------------------------------------------------------------------------- //
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// CSendNode.
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// ----------------------------------------------------------------------------- //
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CSendNode::CSendNode()
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{
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m_iDatatableProp = -1;
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m_pTable = NULL;
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m_iFirstRecursiveProp = m_nRecursiveProps = 0;
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m_DataTableProxyIndex = DATATABLE_PROXY_INDEX_INVALID; // set it to a questionable value.
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}
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CSendNode::~CSendNode()
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{
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int c = GetNumChildren();
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for ( int i = c - 1 ; i >= 0 ; i-- )
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{
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delete GetChild( i );
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}
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m_Children.Purge();
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}
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// ----------------------------------------------------------------------------- //
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// CSendTablePrecalc
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// ----------------------------------------------------------------------------- //
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bool PropOffsetLT( const unsigned short &a, const unsigned short &b )
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{
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return a < b;
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}
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CSendTablePrecalc::CSendTablePrecalc() :
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m_PropOffsetToIndexMap( 0, 0, PropOffsetLT )
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{
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m_pDTITable = NULL;
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m_pSendTable = 0;
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m_nDataTableProxies = 0;
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}
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CSendTablePrecalc::~CSendTablePrecalc()
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{
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if ( m_pSendTable )
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m_pSendTable->m_pPrecalc = 0;
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}
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const ExcludeProp* FindExcludeProp(
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char const *pTableName,
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char const *pPropName,
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const ExcludeProp *pExcludeProps,
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int nExcludeProps)
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{
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for ( int i=0; i < nExcludeProps; i++ )
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{
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if ( stricmp(pExcludeProps[i].m_pTableName, pTableName) == 0 && stricmp(pExcludeProps[i].m_pPropName, pPropName ) == 0 )
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return &pExcludeProps[i];
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}
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return NULL;
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}
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// Fill in a list of all the excluded props.
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static bool SendTable_GetPropsExcluded( const SendTable *pTable, ExcludeProp *pExcludeProps, int &nExcludeProps, int nMaxExcludeProps )
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{
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for(int i=0; i < pTable->m_nProps; i++)
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{
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SendProp *pProp = &pTable->m_pProps[i];
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if ( pProp->IsExcludeProp() )
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{
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char const *pName = pProp->GetExcludeDTName();
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ErrorIfNot( pName,
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("Found an exclude prop missing a name.")
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);
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ErrorIfNot( nExcludeProps < nMaxExcludeProps,
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("SendTable_GetPropsExcluded: Overflowed max exclude props with %s.", pName)
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);
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pExcludeProps[nExcludeProps].m_pTableName = pName;
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pExcludeProps[nExcludeProps].m_pPropName = pProp->GetName();
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nExcludeProps++;
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}
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else if ( pProp->GetDataTable() )
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{
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if( !SendTable_GetPropsExcluded( pProp->GetDataTable(), pExcludeProps, nExcludeProps, nMaxExcludeProps ) )
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return false;
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}
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}
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return true;
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}
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// Set the datatable proxy indices in all datatable SendProps.
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static void SetDataTableProxyIndices_R(
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CSendTablePrecalc *pMainTable,
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CSendNode *pCurTable,
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CBuildHierarchyStruct *bhs )
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{
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for ( int i=0; i < pCurTable->GetNumChildren(); i++ )
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{
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CSendNode *pNode = pCurTable->GetChild( i );
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const SendProp *pProp = bhs->m_pDatatableProps[pNode->m_iDatatableProp];
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if ( pProp->GetFlags() & SPROP_PROXY_ALWAYS_YES )
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{
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pNode->SetDataTableProxyIndex( DATATABLE_PROXY_INDEX_NOPROXY );
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}
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else
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{
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pNode->SetDataTableProxyIndex( pMainTable->GetNumDataTableProxies() );
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pMainTable->SetNumDataTableProxies( pMainTable->GetNumDataTableProxies() + 1 );
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}
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SetDataTableProxyIndices_R( pMainTable, pNode, bhs );
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}
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}
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// Set the datatable proxy indices in all datatable SendProps.
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static void SetRecursiveProxyIndices_R(
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SendTable *pBaseTable,
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CSendNode *pCurTable,
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int &iCurProxyIndex )
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{
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if ( iCurProxyIndex >= CDatatableStack::MAX_PROXY_RESULTS )
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Error( "Too many proxies for datatable %s.", pBaseTable->GetName() );
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pCurTable->SetRecursiveProxyIndex( iCurProxyIndex );
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iCurProxyIndex++;
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for ( int i=0; i < pCurTable->GetNumChildren(); i++ )
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{
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CSendNode *pNode = pCurTable->GetChild( i );
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SetRecursiveProxyIndices_R( pBaseTable, pNode, iCurProxyIndex );
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}
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}
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void SendTable_BuildHierarchy(
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CSendNode *pNode,
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const SendTable *pTable,
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CBuildHierarchyStruct *bhs
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);
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void SendTable_BuildHierarchy_IterateProps(
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CSendNode *pNode,
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const SendTable *pTable,
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CBuildHierarchyStruct *bhs,
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const SendProp *pNonDatatableProps[MAX_TOTAL_SENDTABLE_PROPS],
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int &nNonDatatableProps )
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{
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int i;
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for ( i=0; i < pTable->m_nProps; i++ )
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{
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const SendProp *pProp = &pTable->m_pProps[i];
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if ( pProp->IsExcludeProp() ||
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pProp->IsInsideArray() ||
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FindExcludeProp( pTable->GetName(), pProp->GetName(), bhs->m_pExcludeProps, bhs->m_nExcludeProps ) )
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{
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continue;
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}
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if ( pProp->GetType() == DPT_DataTable )
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{
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if ( pProp->GetFlags() & SPROP_COLLAPSIBLE )
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{
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// This is a base class.. no need to make a new CSendNode (and trigger a bunch of
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// unnecessary send proxy calls in the datatable stacks).
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SendTable_BuildHierarchy_IterateProps(
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pNode,
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pProp->GetDataTable(),
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bhs,
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pNonDatatableProps,
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nNonDatatableProps );
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}
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else
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{
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// Setup a child datatable reference.
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CSendNode *pChild = new CSendNode;
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// Setup a datatable prop for this node to reference (so the recursion
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// routines can get at the proxy).
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if ( bhs->m_nDatatableProps >= ARRAYSIZE( bhs->m_pDatatableProps ) )
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Error( "Overflowed datatable prop list in SendTable '%s'.", pTable->GetName() );
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bhs->m_pDatatableProps[bhs->m_nDatatableProps] = pProp;
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pChild->m_iDatatableProp = bhs->m_nDatatableProps;
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++bhs->m_nDatatableProps;
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pNode->m_Children.AddToTail( pChild );
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// Recurse into the new child datatable.
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SendTable_BuildHierarchy( pChild, pProp->GetDataTable(), bhs );
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}
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}
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else
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{
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if ( nNonDatatableProps >= MAX_TOTAL_SENDTABLE_PROPS )
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Error( "SendTable_BuildHierarchy: overflowed non-datatable props with '%s'.", pProp->GetName() );
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pNonDatatableProps[nNonDatatableProps] = pProp;
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++nNonDatatableProps;
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}
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}
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}
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void SendTable_BuildHierarchy(
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CSendNode *pNode,
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const SendTable *pTable,
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CBuildHierarchyStruct *bhs
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)
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{
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pNode->m_pTable = pTable;
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pNode->m_iFirstRecursiveProp = bhs->m_nProps;
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Assert( bhs->m_nPropProxies < 255 );
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unsigned char curPropProxy = bhs->m_nPropProxies;
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++bhs->m_nPropProxies;
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const SendProp *pNonDatatableProps[MAX_TOTAL_SENDTABLE_PROPS];
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int nNonDatatableProps = 0;
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// First add all the child datatables.
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SendTable_BuildHierarchy_IterateProps(
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pNode,
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pTable,
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bhs,
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pNonDatatableProps,
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nNonDatatableProps );
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// Now add the properties.
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// Make sure there's room, then just copy the pointers from the loop above.
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ErrorIfNot( bhs->m_nProps + nNonDatatableProps < ARRAYSIZE( bhs->m_pProps ),
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("SendTable_BuildHierarchy: overflowed prop buffer.")
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);
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for ( int i=0; i < nNonDatatableProps; i++ )
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{
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bhs->m_pProps[bhs->m_nProps] = pNonDatatableProps[i];
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bhs->m_PropProxyIndices[bhs->m_nProps] = curPropProxy;
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++bhs->m_nProps;
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}
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pNode->m_nRecursiveProps = bhs->m_nProps - pNode->m_iFirstRecursiveProp;
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}
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void SendTable_SortByPriority(CBuildHierarchyStruct *bhs)
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{
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int i, start = 0;
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while( true )
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{
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for ( i = start; i < bhs->m_nProps; i++ )
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{
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const SendProp *p = bhs->m_pProps[i];
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unsigned char c = bhs->m_PropProxyIndices[i];
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if ( p->GetFlags() & SPROP_CHANGES_OFTEN )
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{
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bhs->m_pProps[i] = bhs->m_pProps[start];
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bhs->m_PropProxyIndices[i] = bhs->m_PropProxyIndices[start];
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bhs->m_pProps[start] = p;
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bhs->m_PropProxyIndices[start] = c;
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start++;
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break;
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}
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}
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if ( i == bhs->m_nProps )
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return;
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}
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}
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void CalcPathLengths_R( CSendNode *pNode, CUtlVector<int> &pathLengths, int curPathLength, int &totalPathLengths )
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{
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pathLengths[pNode->GetRecursiveProxyIndex()] = curPathLength;
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totalPathLengths += curPathLength;
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for ( int i=0; i < pNode->GetNumChildren(); i++ )
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{
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CalcPathLengths_R( pNode->GetChild( i ), pathLengths, curPathLength+1, totalPathLengths );
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}
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}
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void FillPathEntries_R( CSendTablePrecalc *pPrecalc, CSendNode *pNode, CSendNode *pParent, int &iCurEntry )
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{
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// Fill in this node's path.
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CSendTablePrecalc::CProxyPath &outProxyPath = pPrecalc->m_ProxyPaths[ pNode->GetRecursiveProxyIndex() ];
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outProxyPath.m_iFirstEntry = (unsigned short)iCurEntry;
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// Copy all the proxies leading to the parent.
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if ( pParent )
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{
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CSendTablePrecalc::CProxyPath &parentProxyPath = pPrecalc->m_ProxyPaths[pParent->GetRecursiveProxyIndex()];
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outProxyPath.m_nEntries = parentProxyPath.m_nEntries + 1;
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for ( int i=0; i < parentProxyPath.m_nEntries; i++ )
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pPrecalc->m_ProxyPathEntries[iCurEntry++] = pPrecalc->m_ProxyPathEntries[parentProxyPath.m_iFirstEntry+i];
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// Now add this node's own proxy.
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pPrecalc->m_ProxyPathEntries[iCurEntry].m_iProxy = pNode->GetRecursiveProxyIndex();
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pPrecalc->m_ProxyPathEntries[iCurEntry].m_iDatatableProp = pNode->m_iDatatableProp;
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++iCurEntry;
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}
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else
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{
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outProxyPath.m_nEntries = 0;
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}
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for ( int i=0; i < pNode->GetNumChildren(); i++ )
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{
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FillPathEntries_R( pPrecalc, pNode->GetChild( i ), pNode, iCurEntry );
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}
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}
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void SendTable_GenerateProxyPaths( CSendTablePrecalc *pPrecalc, int nProxyIndices )
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{
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// Initialize the array.
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pPrecalc->m_ProxyPaths.SetSize( nProxyIndices );
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for ( int i=0; i < nProxyIndices; i++ )
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pPrecalc->m_ProxyPaths[i].m_iFirstEntry = pPrecalc->m_ProxyPaths[i].m_nEntries = 0xFFFF;
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// Figure out how long the path down the tree is to each node.
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int totalPathLengths = 0;
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CUtlVector<int> pathLengths;
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pathLengths.SetSize( nProxyIndices );
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memset( pathLengths.Base(), 0, sizeof( pathLengths[0] ) * nProxyIndices );
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CalcPathLengths_R( pPrecalc->GetRootNode(), pathLengths, 0, totalPathLengths );
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//
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int iCurEntry = 0;
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pPrecalc->m_ProxyPathEntries.SetSize( totalPathLengths );
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FillPathEntries_R( pPrecalc, pPrecalc->GetRootNode(), NULL, iCurEntry );
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}
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bool CSendTablePrecalc::SetupFlatPropertyArray()
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{
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SendTable *pTable = GetSendTable();
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// First go through and set SPROP_INSIDEARRAY when appropriate, and set array prop pointers.
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SetupArrayProps_R<SendTable, SendTable::PropType>( pTable );
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// Make a list of which properties are excluded.
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ExcludeProp excludeProps[MAX_EXCLUDE_PROPS];
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int nExcludeProps = 0;
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if( !SendTable_GetPropsExcluded( pTable, excludeProps, nExcludeProps, MAX_EXCLUDE_PROPS ) )
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return false;
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// Now build the hierarchy.
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CBuildHierarchyStruct bhs;
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bhs.m_pExcludeProps = excludeProps;
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bhs.m_nExcludeProps = nExcludeProps;
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bhs.m_nProps = bhs.m_nDatatableProps = 0;
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bhs.m_nPropProxies = 0;
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SendTable_BuildHierarchy( GetRootNode(), pTable, &bhs );
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SendTable_SortByPriority( &bhs );
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// Copy the SendProp pointers into the precalc.
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MEM_ALLOC_CREDIT();
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m_Props.CopyArray( bhs.m_pProps, bhs.m_nProps );
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m_DatatableProps.CopyArray( bhs.m_pDatatableProps, bhs.m_nDatatableProps );
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m_PropProxyIndices.CopyArray( bhs.m_PropProxyIndices, bhs.m_nProps );
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// Assign the datatable proxy indices.
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SetNumDataTableProxies( 0 );
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SetDataTableProxyIndices_R( this, GetRootNode(), &bhs );
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int nProxyIndices = 0;
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SetRecursiveProxyIndices_R( pTable, GetRootNode(), nProxyIndices );
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SendTable_GenerateProxyPaths( this, nProxyIndices );
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return true;
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}
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// ---------------------------------------------------------------------------------------- //
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// Helpers.
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// ---------------------------------------------------------------------------------------- //
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// Compares two arrays of bits.
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// Returns true if they are equal.
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bool AreBitArraysEqual(
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void const *pvBits1,
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void const *pvBits2,
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int nBits )
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{
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unsigned int const *pBits1 = (unsigned int const *)pvBits1;
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unsigned int const *pBits2 = (unsigned int const *)pvBits2;
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// Compare words.
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int nWords = nBits >> 5;
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for ( int i = 0 ; i < nWords; ++i )
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{
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if ( pBits1[i] != pBits2[i] )
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return false;
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}
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if ( nBits & 31 )
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{
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// Compare remaining bits.
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unsigned int mask = (1 << (nBits & 31)) - 1;
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return ((pBits1[nWords] ^ pBits2[nWords]) & mask) == 0;
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}
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return true;
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}
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// Does a fast memcmp-based test to determine if the two bit arrays are different.
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// Returns true if they are equal.
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bool CompareBitArrays(
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void const *pPacked1,
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void const *pPacked2,
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int nBits1,
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int nBits2
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)
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{
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if( nBits1 >= 0 && nBits1 == nBits2 )
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{
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if ( pPacked1 == pPacked2 )
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{
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return true;
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}
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else
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{
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return AreBitArraysEqual( pPacked1, pPacked2, nBits1 );
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}
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}
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else
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return false;
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}
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// Looks at the DTWatchEnt and DTWatchProp console variables and returns true
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// if the user wants to watch this property.
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bool ShouldWatchThisProp( const SendTable *pTable, int objectID, const char *pPropName )
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{
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if(g_CV_DTWatchEnt.GetInt() != -1 &&
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g_CV_DTWatchEnt.GetInt() == objectID)
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{
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const char *pStr = g_CV_DTWatchVar.GetString();
|
|
if ( pStr && pStr[0] != 0 )
|
|
{
|
|
return stricmp( pStr, pPropName ) == 0;
|
|
}
|
|
else
|
|
{
|
|
return true;
|
|
}
|
|
}
|
|
|
|
if ( g_CV_DTWatchClass.GetString()[ 0 ] && Q_stristr( pTable->GetName(), g_CV_DTWatchClass.GetString() ) )
|
|
return true;
|
|
|
|
return false;
|
|
}
|
|
|
|
bool Sendprop_UsingDebugWatch()
|
|
{
|
|
if ( g_CV_DTWatchEnt.GetInt() != -1 )
|
|
return true;
|
|
|
|
if ( g_CV_DTWatchClass.GetString()[ 0 ] )
|
|
return true;
|
|
|
|
return false;
|
|
}
|
|
|
|
|
|
// Prints a datatable warning into the console.
|
|
void DataTable_Warning( const char *pInMessage, ... )
|
|
{
|
|
char msg[4096];
|
|
va_list marker;
|
|
|
|
#if 0
|
|
#if !defined(_DEBUG)
|
|
if(!g_CV_DTWarning.GetInt())
|
|
return;
|
|
#endif
|
|
#endif
|
|
|
|
va_start(marker, pInMessage);
|
|
Q_vsnprintf( msg, sizeof( msg ), pInMessage, marker);
|
|
va_end(marker);
|
|
|
|
Warning( "DataTable warning: %s", msg );
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|