Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================
#ifndef GCRECORD_H
#define GCRECORD_H
#ifdef _WIN32
#pragma once
#endif
#include "schema.h"
#include "tier0/memdbgon.h"
namespace GCSDK
{
#pragma pack( push, 1 )
class CRecordInfo;
//-----------------------------------------------------------------------------
// VarFieldBlockInfo_t
// Tracks a block of memory used to hold all the variable-length
// fields for a record.
//-----------------------------------------------------------------------------
struct VarFieldBlockInfo_t
{
union
{
// Take up 64-bits of space now even though
// pointers are still 32 bits
uint8* m_pubBlock;
uint64 _unused;
};
uint32 m_cubBlock; // how much is in this block?
uint32 m_cubBlockFree; // how much in this block is free?
};
//-----------------------------------------------------------------------------
// VarField_t
// Data format for a variable field entry in a DS record
// For leaf code, is hidden inside a CVarField or CVarCharField
//-----------------------------------------------------------------------------
struct VarField_t
{
uint32 m_cubField; // Size of the field
uint32 m_dubOffset; // Offset of the field within the block
};
//-----------------------------------------------------------------------------
// CVarField
// Defines a class to encompass a variable-length field - opaque
//-----------------------------------------------------------------------------
class CVarField : private VarField_t
{
public:
friend class CRecordVar;
private:
};
//-----------------------------------------------------------------------------
// CVarCharField
// Defines a class to encompass a variable-length string field - opaque
//-----------------------------------------------------------------------------
class CVarCharField : public CVarField
{
public:
friend class CRecordVar;
};
//-----------------------------------------------------------------------------
// CVarCharField
// Defines a class to encompass a variable-length string field - opaque
//-----------------------------------------------------------------------------
class CVarBinaryField : public CVarField
{
public:
friend class CRecordVar;
};
//-----------------------------------------------------------------------------
// CImageField
// Defines a class to encompass a long variable-length binary field - opaque
//-----------------------------------------------------------------------------
class CImageField : public CVarField
{
public:
friend class CRecordVar;
};
#pragma pack( pop )
// fix the size of this just to be safe
#pragma pack( push, 4 )
class CSchema;
//-----------------------------------------------------------------------------
// CRecordBase
// Defines a class which arbitrates access to a fixed-length record
//
// This is used as a base class for the CSchTable wrapper classes emitted
// by the schema compiler when the involved table has no variable length data.
//-----------------------------------------------------------------------------
class CRecordBase
{
public:
// These both allocate new space and COPY the record data into it
CRecordBase( const CRecordBase &that );
CRecordBase &operator=(const CRecordBase &that);
// Init from general memory
int InitFromBytes( uint8 *pubRecord );
virtual ~CRecordBase();
// Use these when sending records over the wire
uint32 CubSerialized();
virtual uint8 *PubRecordFixed();
const uint8 *PubRecordFixed() const;
uint32 CubRecordFixed() const;
virtual uint8 *PubRecordVarBlock();
virtual const uint8 *PubRecordVarBlock() const;
uint32 CubRecordVarBlock() const;
bool BAssureRecordVarStorage( uint32 cVariableBytes );
// generic data accessors
bool BGetField( int iField, uint8 **ppubData, uint32 *pcubField ) const;
virtual bool BSetField( int iField, void * pvData, uint32 cubData );
virtual void WipeField( int iField );
// data accessors
const char * GetStringField( int iField, uint32 *pcubField );
int GetInt( int iField );
uint16 GetUint16( int iField );
uint32 GetUint32( int iField );
uint64 GetUint64( int iField );
// variable length data accessors
// (not implemented by this class)
virtual const char *ReadVarCharField( const CVarCharField &field ) const;
virtual const uint8 *ReadVarDataField( const CVarField &field, uint32 *pcubField ) const;
virtual bool SetVarCharField( CVarCharField &field, const char *pchString, bool bTruncate, int32 iField );
virtual void SetVarDataField( CVarField &field, const void *pvData, uint32 cubData );
virtual const CSchema *GetPSchema() const
{
return const_cast<CRecordBase*>(this)->GetPSchema();
}
virtual CSchema *GetPSchema();
const CRecordInfo *GetPRecordInfo() const;
// implemented by CSch-something derivatives
virtual int GetITable() const = 0;
void RenderField( uint32 unColumn, int cchBuffer, char *pchBuffer ) const;
#ifdef DBGFLAG_VALIDATE
void Validate( CValidator &validator, const char *pchName ); // Validate our internal structures
static void ValidateStatics( CValidator &validator, const char *pchName );
#endif // DBGFLAG_VALIDATE
protected:
// copies the contents of the record. The assignement operator uses this internally
virtual void Copy( const CRecordBase & that );
CSchema *GetPSchemaImpl();
void Cleanup();
bool BSetField( int iField, void *pvData, uint32 cubData, bool *pbRealloced );
// ctor for derived classes, CSch*
CRecordBase( ) { }
};
//-----------------------------------------------------------------------------
// CRecordVar
// Defines a class which arbitrates access to a variable-length record
//
// This is used as a base class for the CSchTable wrapper classes emitted
// by the schema compiler when the involved table *does* have variable-length data
//-----------------------------------------------------------------------------
class CRecordVar : public CRecordBase
{
public:
CRecordVar( )
{
m_pSchema = NULL;
m_nFlags = 0;
}
virtual ~CRecordVar()
{
Cleanup();
}
virtual uint8* PubRecordFixed();
const uint8 *PubRecordFixed() const;
virtual CSchema *GetPSchema()
{
return m_pSchema;
}
virtual const CSchema *GetPSchema() const
{
return m_pSchema;
}
// Init from general memory
int InitFromBytes( uint8 *pubRecord );
// generic data accessors
virtual bool BSetField( int iField, void * pvData, uint32 cubData );
virtual void WipeField( int iField );
// variable-length data accessors
virtual const char *ReadVarCharField( const CVarCharField &field ) const;
virtual const uint8 *ReadVarDataField( const CVarField &field, uint32 *pcubField ) const;
virtual bool SetVarCharField( CVarCharField &field, const char *pchString, bool bTruncate, int32 iField );
virtual void SetVarDataField( CVarField &field, const void *pvData, uint32 cubData );
// allocated fixed means we've got our own memory for the fixed record
// allocated var block means we've allocated a block for the variable part of this record
enum EFlags { k_EAllocatedFixed = 0x1, k_EAllocatedVarBlock = 0x2 };
bool BFlagSet( int eFlag ) const;
#ifdef DBGFLAG_VALIDATE
void Validate( CValidator &validator, const char *pchName ); // Validate our internal structures
#endif // DBGFLAG_VALIDATE
protected:
// copies the contents of the record. The assignement operator uses this internally
virtual void Copy( const CRecordBase & that );
// initialization helper
void DoInit()
{
m_pSchema = CRecordBase::GetPSchema();
}
void SetFlag( int eFlag, bool bSet );
void Cleanup();
CSchema *m_pSchema; // Corresponding Schema
int m_nFlags; // Flags about the record memory allocations / location
};
//-----------------------------------------------------------------------------
// CRecordExternal
// Defines a class which arbitrates access to a variable-length record
//
// This is used as an accessor for a polymorphic record. It can be used to
// read CSchTable records when the type is unknown, manipulate stats records,
// or touch data that isn't preallocated. Its use is relatively rare.
//-----------------------------------------------------------------------------
class CRecordExternal : public CRecordVar
{
public:
CRecordExternal()
{
m_pubRecordFixedExternal = NULL;
m_nFlags = 0;
}
virtual ~CRecordExternal()
{
Cleanup();
}
virtual uint8* PubRecordFixed();
const uint8 *PubRecordFixed() const;
void DeSerialize( uint8 *pubData );
int GetITable() const
{
return -1;
}
void Init( CSchema *pSchema );
int Init( CSchema *pSchema, uint8 *pubRecord, bool bTakeOwnership );
// test helpers
void InitRecordRandom( uint32 unPrimaryIndex );
void SetFieldRandom( int iField );
#ifdef DBGFLAG_VALIDATE
void Validate( CValidator &validator, const char *pchName ); // Validate our internal structures
#endif // DBGFLAG_VALIDATE
protected:
// copies the contents of the record. The assignement operator uses this internally
virtual void Copy( const CRecordBase & that );
void Cleanup();
void DoInit()
{
m_pSchema = CRecordBase::GetPSchema();
}
uint8 *m_pubRecordFixedExternal; // If the fixed record is not a part of this object,
// this points to where it is
CSchema *GetPSchemaImpl();
};
//-----------------------------------------------------------------------------
// Accessors for variable length character data.
// These goofy little macros implement some syntax sugar
//-----------------------------------------------------------------------------
#define READ_VAR_CHAR_FIELD( record, field )\
(record).ReadVarCharField( (record).field )
#define WRITE_VAR_CHAR_FIELD( record, field, text )\
(record).SetVarCharField( (record).m_##field, text, false, (record).k_iField_##field )
#define WRITE_VAR_CHAR_FIELD_TRUNC( record, field, text )\
(record).SetVarCharField( (record).m_##field, text, true, (record).k_iField_##field )
#pragma pack( pop )
//-----------------------------------------------------------------------------
// Template classes that get a LessFunc that sorts CRecordBases by a field
// within them
//-----------------------------------------------------------------------------
template <class T, int I, typename F>
class CDefSchOps
{
public:
static bool LessFunc( const T &lhs, const T &rhs )
{
// Check that the field number is valid
COMPILE_TIME_ASSERT( I >= 0 && I < T::k_iFieldMax );
// Check to make sure this is a fixed field
const Field_t &fieldInfo = lhs.GetPSchema()->GetField( I );
Assert( !fieldInfo.BIsStringType() && !fieldInfo.BIsVariableLength() );
if ( fieldInfo.BIsStringType() || fieldInfo.BIsVariableLength() )
return false;
// Read the data and make sure the sizes are correct for the field type we expect
uint8 *pubLhs;
uint8 *pubRhs;
bool bRet;
uint32 cubRead;
bRet = lhs.BGetField( I, &pubLhs, &cubRead );
Assert( bRet && cubRead == sizeof( F ) );
if ( !bRet || cubRead != sizeof( F ) )
return false;
bRet = rhs.BGetField( I, &pubRhs, &cubRead );
Assert( bRet && cubRead == sizeof( F ) );
if ( !bRet || cubRead != sizeof( F ) )
return false;
// Finally do the comparison
return ( *( (F *)pubLhs ) ) < ( *( (F *)pubRhs ) );
}
static bool LessFuncCtx( const T &lhs, const T &rhs, void *pCtx )
{
return LessFunc( lhs, rhs );
}
};
#define DefSchLessFunc( RecordType, FieldIndex, FieldType ) CDefSchOps<RecordType, FieldIndex, FieldType>::LessFunc
#define DefSchLessFuncCtx( RecordType, FieldIndex, FieldType ) CDefSchOps<RecordType, FieldIndex, FieldType>::LessFuncCtx
//-----------------------------------------------------------------------------
// Specializations for string fields
//-----------------------------------------------------------------------------
template <class T, int I>
class CDefSchOps<T, I, char *>
{
public:
static bool LessFunc( const T &lhs, const T &rhs )
{
// Check that the field number is valid
COMPILE_TIME_ASSERT( I >= 0 && I < T::k_iFieldMax );
// Check to make sure this is indeed a string field
Field_t &fieldInfo = lhs.GetPSchema()->GetField( I );
Assert( fieldInfo.BIsStringType() );
if ( !fieldInfo.BIsStringType() )
return false;
// Read the data
uint32 cubRead;
const char *pchLhs = lhs.GetStringField( I, &cubRead );
const char *pchRhs = rhs.GetStringField( I, &cubRead );
// Finally do the comparison
return CDefOps<const char *>::LessFunc( lhs, rhs );
}
static bool LessFuncCtx( const T &lhs, const T &rhs, void *pCtx )
{
return LessFunc( lhs, rhs );
}
};
template <class T, int I>
class CDefSchOps<T, I, const char *>
{
public:
static bool LessFunc( const T &lhs, const T &rhs )
{
return CDefSchOps<T, I, char *>::LessFunc( lhs, rhs );
}
static bool LessFuncCtx( const T &lhs, const T &rhs, void *pCtx )
{
return LessFunc( lhs, rhs );
}
};
//-----------------------------------------------------------------------------
// Purpose: Provide a convenient object to pass around to represent a type
// of record
//-----------------------------------------------------------------------------
class CRecordType
{
public:
virtual int GetITable() const = 0;
virtual CRecordBase *Create() const = 0;
CSchema *GetSchema() const;
CRecordInfo *GetRecordInfo() const;
protected:
private:
};
template <typename TRecord>
class CRecordTypeConcrete: public CRecordType
{
public:
virtual int GetITable() const { return TRecord::k_iTable; }
virtual CRecordBase *Create() const { return new TRecord(); }
};
#define RTYPE( recordClass ) CRecordTypeConcrete<recordClass>()
} // namespace GCSDK
#include "tier0/memdbgoff.h"
#endif // GCRECORD_H