Team Fortress 2 Source Code as on 22/4/2020
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

350 lines
11 KiB

//======= Copyright © 1996-2007, Valve Corporation, All rights reserved. ======
//
// Purpose:
//
//=============================================================================
#ifndef VALVEPYTHON_H
#define VALVEPYTHON_H
#if defined( _WIN32 )
#pragma once
#endif
// Python includes
#include <Python.h>
// Valve includes
#include "interface.h"
#include "tier1/utlvector.h"
#include "tier1/utlstring.h"
//-----------------------------------------------------------------------------
// Finds the GetAppFactory function in the specified python module and returns
// the app factory handle or NULL on error
//-----------------------------------------------------------------------------
CreateInterfaceFn ValvePythonAppFactory( const char *pGetAppFactory = "GetAppFactory" );
//=============================================================================
//
// Should be called by each module's init function
//
//=============================================================================
bool ValvePythonInit( CreateInterfaceFn pInFactory = NULL );
//=============================================================================
//
// Python command factory class
//
//=============================================================================
class CValvePythonCommand
{
public:
// Constructor
CValvePythonCommand( const char *pName, PyCFunction pMeth, int nFlags, const char *pDoc )
: m_name( pName )
, m_pMeth( pMeth )
, m_nFlags( nFlags )
, m_doc( pDoc )
{
m_pNextFactory = s_pFirstFactory;
s_pFirstFactory = this;
}
static void Register( char *pModuleName );
protected:
void Register( CUtlVector< PyMethodDef > &pyMethodDefs );
private:
// The next factory
CValvePythonCommand *m_pNextFactory;
static CValvePythonCommand *s_pFirstFactory;
// Has to stay in same place in memory for duration of python
static CUtlVector< PyMethodDef > s_pyMethodDefs;
CUtlString m_name;
PyCFunction m_pMeth;
const int m_nFlags;
CUtlString m_doc;
};
//-----------------------------------------------------------------------------
// Macro to install a valve python command
//
// Use it like this:
//
// PYTHON_COMMAND( foo, METH_VARARGS, "The documentation for foo" )
//-----------------------------------------------------------------------------
#define PYTHON_COMMAND( _name, _flags, _doc ) \
extern "C" static PyObject *_name##_pythonFunc( PyObject *pSelf, PyObject *pArgs ); \
static CValvePythonCommand _name##_command( #_name, _name##_pythonFunc, _flags, _doc ); \
extern "C" static PyObject *_name##_pythonFunc( PyObject *pSelf, PyObject *pArgs )
//-----------------------------------------------------------------------------
// Macro to install a valve python command which uses keywords in the interface
//
// Use it like this:
//
// PYTHON_COMMAND( foo, METH_VARARGS, "The documentation for foo" )
//-----------------------------------------------------------------------------
#define PYTHON_COMMAND_KEYWORDS( _name, _flags, _doc ) \
extern "C" static PyObject *_name##_pythonFunc( PyObject *pSelf, PyObject *pArgs, PyObject *pKeywords ); \
static CValvePythonCommand _name##_command( #_name, reinterpret_cast< PyCFunction >( _name##_pythonFunc ), _flags, _doc ); \
extern "C" static PyObject *_name##_pythonFunc( PyObject *pSelf, PyObject *pArgs, PyObject *pKeywords )
//=============================================================================
//
// Python sub module factory class
//
//=============================================================================
class CValvePythonSubModule
{
public:
typedef void ( *PythonInitFunc_t )( void );
// Constructor
CValvePythonSubModule( const char *pName, PythonInitFunc_t pInitFunc )
: m_name( "_" )
, m_pInitFunc( pInitFunc )
{
m_name += pName;
m_pNextFactory = s_pFirstFactory;
s_pFirstFactory = this;
}
static void Register( PyObject *pPackage );
private:
// The next factory
CValvePythonSubModule *m_pNextFactory;
static CValvePythonSubModule *s_pFirstFactory;
CUtlString m_name;
PythonInitFunc_t m_pInitFunc;
};
//-----------------------------------------------------------------------------
// Macro to install a valve python command
//
// Use it like this:
//
// PYTHON_COMMAND( foo, METH_VARARGS, "The documentation for foo" )
//-----------------------------------------------------------------------------
#define PYTHON_SUBMODULE( _name ) \
extern "C" void init_##_name( void ); \
static CValvePythonSubModule _name##_submodule( #_name, init_##_name );
// Support for implemented extended python commands which can take multiple position arguments and specified keyword arguments
//
typedef enum _pytypes
{
PY_FIELD_VOID = 0, // No type or value
PY_FIELD_BOOLEAN, // boolean, implemented as an int, I may use this as a hint for compression
PY_FIELD_CHARACTER, // a byte
PY_FIELD_UTLSTRING, // CUtlString
PY_FIELD_SHORT, // 2 byte integer
PY_FIELD_INTEGER, // Any integer or enum
PY_FIELD_FLOAT, // Any floating point value
PY_FIELD_VECTOR, // Any vector, QAngle, or AngularImpulse
PY_FIELD_QUATERNION, // A quaternion
PY_FIELD_VMATRIX, // a Vmatrix (output coords are NOT worldspace)
PY_FIELD_MATRIX3X4, // matrix3x4_t
PY_FIELD_TYPECOUNT, // MUST BE LAST
} pytype_t;
#define _PY_PARAMETER(var_name,type,parameter_name,help) { type, #var_name, offsetof(classNameTypedef, var_name), -1, parameter_name, help, NULL, sizeof( ((classNameTypedef *)0)->var_name ) }
#define _PY_ARGUMENT(var_name,type,argument_index,help) { type, #var_name, offsetof(classNameTypedef, var_name), argument_index, "", help, NULL, sizeof( ((classNameTypedef *)0)->var_name ) }
#define DEFINE_PY_PARAMETER(var_name,type,parameter_name,help) _PY_PARAMETER(var_name, type, parameter_name, help )
#define DEFINE_PY_ARGUMENT(var_name,type,argument_index,help) _PY_ARGUMENT(var_name, type, argument_index, help )
struct pydatamap_t;
struct pytypedescription_t;
#define SIZE_OF_ARRAY(p) _ARRAYSIZE(p)
#define DECLARE_PY_PARAMETER_DESC() \
static pydatamap_t m_ParameterMap; \
static pydatamap_t *GetBaseParameterMap(); \
template <typename T> friend void ParameterMapAccess(T *, pydatamap_t **p); \
template <typename T> friend pydatamap_t *ParameterMapInit(T *); \
virtual pydatamap_t *GetParameterMap( void );
#define BEGIN_PY_PARAMETERS( className ) \
pydatamap_t className::m_ParameterMap = { 0, 0, #className, NULL }; \
pydatamap_t *className::GetParameterMap( void ) { return &m_ParameterMap; } \
pydatamap_t *className::GetBaseParameterMap() { pydatamap_t *pResult; ParameterMapAccess((BaseClass *)NULL, &pResult); return pResult; } \
BEGIN_PY_PARAMETERS_GUTS( className )
#define BEGIN_PY_PARAMETERS_NO_BASE( className ) \
pydatamap_t className::m_ParameterMap = { 0, 0, #className, NULL }; \
pydatamap_t *className::GetParameterMap( void ) { return &m_ParameterMap; } \
pydatamap_t *className::GetBaseParameterMap() { return NULL; } \
BEGIN_PY_PARAMETERS_GUTS( className )
#define BEGIN_PY_PARAMETERS_GUTS( className ) \
template <typename T> pydatamap_t *ParameterMapInit(T *); \
template <> pydatamap_t *ParameterMapInit<className>( className * ); \
namespace className##_ParameterMapInit \
{ \
pydatamap_t *g_DataMapHolder = ParameterMapInit( (className *)NULL ); /* This can/will be used for some clean up duties later */ \
} \
\
template <> pydatamap_t *ParameterMapInit<className>( className * ) \
{ \
typedef className classNameTypedef; \
static CParameterGeneratedNameHolder nameHolder(#className); \
className::m_ParameterMap.baseMap = className::GetBaseParameterMap(); \
static pytypedescription_t dataDesc[] = \
{ \
{ PY_FIELD_VOID,0,0,0,0,0,0 }, /* so you can define "empty" tables */
#define END_PY_PARAMETERS() \
}; \
\
if ( sizeof( dataDesc ) > sizeof( dataDesc[0] ) ) \
{ \
classNameTypedef::m_ParameterMap.dataNumFields = SIZE_OF_ARRAY( dataDesc ) - 1; \
classNameTypedef::m_ParameterMap.dataDesc = &dataDesc[1]; \
} \
else \
{ \
classNameTypedef::m_ParameterMap.dataNumFields = 1; \
classNameTypedef::m_ParameterMap.dataDesc = dataDesc; \
} \
return &classNameTypedef::m_ParameterMap; \
}
#define IMPLEMENT_NULL_PY_PARAMETERS( derivedClass ) \
BEGIN_PY_PARAMETERS_GUTS( derivedClass ) \
END_PY_PARAMETERS()
struct pytypedescription_t
{
pytype_t type;
const char *var_name;
int offset;
// index of the argument in the script file function call
int argument_index;
// the name of the parameter in script files
const char *parameter_name;
const char *help;
// For embedding additional datatables inside this one
pydatamap_t *td; // NOT HOOKED UP YET!!!
// Stores the actual member variable size in bytes
int fieldSizeInBytes;
};
struct pydatamap_t
{
pytypedescription_t *dataDesc;
int dataNumFields;
char const *dataClassName;
pydatamap_t *baseMap;
};
template <typename T>
inline void ParameterMapAccess(T *ignored, pydatamap_t **p)
{
*p = &T::m_ParameterMap;
}
//-----------------------------------------------------------------------------
class CParameterGeneratedNameHolder
{
public:
CParameterGeneratedNameHolder( const char *pszBase )
: m_pszBase(pszBase)
{
m_nLenBase = strlen( m_pszBase );
}
~CParameterGeneratedNameHolder()
{
for ( int i = 0; i < m_Names.Count(); i++ )
{
delete m_Names[i];
}
}
const char *GenerateName( const char *pszIdentifier )
{
char *pBuf = new char[m_nLenBase + strlen(pszIdentifier) + 1];
strcpy( pBuf, m_pszBase );
strcat( pBuf, pszIdentifier );
m_Names.AddToTail( pBuf );
return pBuf;
}
private:
const char *m_pszBase;
size_t m_nLenBase;
CUtlVector<char *> m_Names;
};
#define PYTHON_COMMAND_EXTENDED( _className ) \
static _className g_##_className##Instance;\
extern "C" static PyObject *g_##_className##Dispatch( PyObject *pSelf, PyObject *pArgs, PyObject *pKeywords ) \
{ \
return g_##_className##Instance.DispatchRaw( pSelf, pArgs, pKeywords ); \
} \
static CValvePythonCommand _className##_command( g_##_className##Instance.GetName(), reinterpret_cast< PyCFunction >( g_##_className##Dispatch ), g_##_className##Instance.GetFlags(), g_##_className##Instance.GetDoc() ); \
class CBasePythonCommand
{
DECLARE_PY_PARAMETER_DESC();
public:
CBasePythonCommand( const char *pchCommandName, int nFlags, char const *pchHelpText, pydatamap_t *pDataMap );
PyObject *DispatchRaw( PyObject *pSelf, PyObject *pArgs, PyObject *pKeywords );
char const *GetName() const;
char const *GetDoc() const;
int GetFlags() const;
virtual PyObject *Dispatch( CUtlVector< CUtlString > &args, CUtlVector< int > &typedArgs ) = 0;
virtual void SetDefaults() = 0;
private:
void InitParameters();
void ProcessArguments( PyObject *pArgs, PyObject *pKeywords, CUtlVector< CUtlString > &args, CUtlVector< int > &typedArgs );
pytypedescription_t *FindParameter( char const *pchName );
pytypedescription_t *FindArgument( int index );
void ExtractParameter( char const *pchName, pytypedescription_t *pTypeDescription, PyObject *pValue );
template <class T>
inline bool IsParameterTypeValid( pytype_t, T * ) const;
protected:
CUtlString BuildAutoGeneratedField( char const *pchParameterName, char const *pchPrefix, int *pCounter );
template < class T >
inline bool GetParameter( char const *pchParameterName, T *value );
protected:
char const *m_pchCommandName;
int m_nFlags;
char const *m_pchBaseHelpText;
CUtlString m_HelpText;
pydatamap_t *m_pDataMap;
};
#endif // VALVEPYTHON_H