2019-05-18 10:39:39 +00:00
/******************************************/
/* */
/* RenderWare(TM) Graphics Library */
/* */
/******************************************/
/*
* This file is a product of Criterion Software Ltd .
*
* This file is provided as is with no warranties of any kind and is
* provided without any obligation on Criterion Software Ltd .
* or Canon Inc . to assist in its use or modification .
*
* Criterion Software Ltd . and Canon Inc . will not , under any
* circumstances , be liable for any lost revenue or other damages
* arising from the use of this file .
*
* Copyright ( c ) 1999. Criterion Software Ltd .
* All Rights Reserved .
*/
/*************************************************************************
*
* Filename : < C : / daily / rwsdk / include / d3d8 / rwplcore . h >
* Automatically Generated on : Wed Jul 10 10 : 45 : 00 2002
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifndef RWPLCORE_H
# define RWPLCORE_H
/*--- System Header Files ---*/
# include <stdarg.h>
# include <stddef.h>
# include <stdio.h>
# include <stdlib.h>
/*--- Automatically derived from: C:/daily/rwsdk/os/win/ostypes.h ---*/
# ifndef WIN_OSTYPES_H
# define WIN_OSTYPES_H
# define rwLITTLEENDIAN /* This is a little endian machine */
typedef long RwFixed ;
typedef int RwInt32 ;
typedef unsigned int RwUInt32 ;
typedef short RwInt16 ;
typedef unsigned short RwUInt16 ;
typedef unsigned char RwUInt8 ;
typedef signed char RwInt8 ;
# ifdef RWUNICODE
typedef wchar_t RwChar ;
# else /* RWUNICODE */
typedef char RwChar ;
# endif /* RWUNICODE */
typedef float RwReal ;
typedef RwInt32 RwBool ;
# ifdef _MSC_VER
typedef __int64 RwInt64 ;
typedef unsigned __int64 RwUInt64 ;
# define RWZERO64 ((RwUInt64)0)
# else /* _MSC_VER */
typedef struct _RwUInt64 RwUInt64 ;
typedef struct _RwInt64 RwInt64 ;
/* We'll do it with structures (can't do maths on these, but OK for allocation): */
# ifdef rwBIGENDIAN
struct _RwUInt64
{
RwUInt32 top ;
RwUInt32 bottom ;
} ;
struct _RwInt64
{
RwInt32 top ;
RwUInt32 bottom ;
} ;
# else /* rwBIGENDIAN */
# ifdef rwLITTLEENDIAN
struct _RwUInt64
{
RwUInt32 bottom ;
RwUInt32 top ;
} ;
struct _RwInt64
{
RwUInt32 bottom ;
RwInt32 top ;
} ;
# else /* rwLITTLEENDIAN */
# error "ENDIAN-ness undefined!"
# endif /* rwLITTLEENDIAN */
# endif /* rwBIGENDIAN */
# define RWZERO64 { (RwUInt32)0, (RwUInt32)0 }
# endif /* _MSC_VER */
typedef struct _RwUInt128 RwUInt128 ;
typedef struct _RwInt128 RwInt128 ;
/* We'll do it with structures
* ( can ' t do maths on these , but OK for allocation ) : */
# ifdef rwBIGENDIAN
struct _RwUInt128
{
RwUInt64 top ;
RwUInt64 bottom ;
} ;
struct _RwInt128
{
RwInt64 top ;
RwUInt64 bottom ;
} ;
# else /* rwBIGENDIAN */
# ifdef rwLITTLEENDIAN
struct _RwUInt128
{
RwUInt64 bottom ;
RwUInt64 top ;
} ;
struct _RwInt128
{
RwUInt64 bottom ;
RwInt64 top ;
} ;
# else /* rwLITTLEENDIAN */
# error "ENDIAN-ness undefined!"
# endif /* rwLITTLEENDIAN */
# endif /* rwBIGENDIAN */
# define RWZERO128 { RWZERO64, RWZERO64 }
/* Limits of types */
# define RwInt32MAXVAL 0x7FFFFFFF
# define RwInt32MINVAL 0x80000000
# define RwUInt32MAXVAL 0xFFFFFFFF
# define RwUInt32MINVAL 0x00000000
# define RwRealMAXVAL (RwReal)(3.40282347e+38)
# define RwRealMINVAL (RwReal)(1.17549435e-38)
# define RwInt16MAXVAL 0x7FFF
# define RwInt16MINVAL 0x8000
# define RwUInt16MAXVAL 0xFFFF
# define RwUInt16MINVAL 0x0000
/* Structure alignment */
# define RWALIGN(type, x) type /* nothing */
# define rwMATRIXALIGNMENT sizeof(RwUInt32)
# define rwFRAMEALIGNMENT sizeof(RwUInt32)
# define rwV4DALIGNMENT sizeof(RwUInt32)
# if (defined(_MSC_VER))
# if (defined(RWVERBOSE))
# include <tchar.h>
# pragma comment (lib , "advapi32.LIB") /* Registry functions */
/*
* registry code
*/
# if (defined(RpWinRegGetDWordValue))
# undef RpWinRegGetDWordValue
# endif /* (defined(RpWinRegGetDWordValue)) */
# define RpWinRegGetDWordValue(_result, _hKey, _name, _val) \
MACRO_START \
{ \
DWORD _size ; \
DWORD _type ; \
LONG _status ; \
\
_status = \
RegQueryValueEx ( ( _hKey ) , ( _name ) , 0 , & _type , NULL , & _size ) ; \
( _result ) = ( ( ERROR_SUCCESS = = _status ) & & ( REG_DWORD = = _type ) ) ; \
\
if ( ( _result ) ) \
{ \
_status = \
RegQueryValueEx ( ( _hKey ) , ( _name ) , 0 , & _type , \
( BYTE * ) ( _val ) , & _size ) ; \
( _result ) = ( ERROR_SUCCESS = = _status ) ; \
} \
} \
MACRO_STOP
# if (defined(RpWinRegGetBinaryValue))
# undef RpWinRegGetBinaryValue
# endif /* (defined(RpWinRegGetBinaryValue)) */
# define RpWinRegGetBinaryValue(_result, _hKey, _name, _val) \
MACRO_START \
{ \
DWORD _size ; \
DWORD _type ; \
LONG _status ; \
\
_status = \
RegQueryValueEx ( ( _hKey ) , ( _name ) , 0 , & _type , NULL , & _size ) ; \
( _result ) = \
( ( ERROR_SUCCESS = = _status ) & & \
( REG_BINARY = = _type ) & & ( 0 < _size ) ) ; \
\
if ( ( _result ) ) \
{ \
* ( _val ) = RwMalloc ( sizeof ( BYTE ) * _size ) ; \
( _result ) = ( NULL ! = * ( _val ) ) ; \
\
if ( ( _result ) ) \
{ \
\
_status = \
RegQueryValueEx ( ( _hKey ) , \
( _name ) , 0 , & _type , \
( BYTE * ) * ( _val ) , & _size ) ; \
( _result = ) ( ERROR_SUCCESS = = _status ) ; \
\
if ( ! ( _result ) ) \
{ \
RwFree ( * ( _val ) ) ; \
* ( _val ) = NULL ; \
} \
\
} \
\
} \
} \
MACRO_STOP
# if (defined(RpWinRegGetStringValue))
# undef RpWinRegGetStringValue
# endif /* (defined(RpWinRegGetStringValue)) */
# define RpWinRegGetStringValue(_result, _hKey, _name, _val) \
MACRO_START \
{ \
DWORD _size ; \
DWORD _type ; \
LONG _status ; \
\
_status = \
RegQueryValueEx ( ( _hKey ) , ( _name ) , 0 , & _type , NULL , & _size ) ; \
( _result ) = \
( ( ERROR_SUCCESS = = _status ) & & \
( REG_SZ = = _type ) & & ( 0 < _size ) ) ; \
\
if ( ( _result ) ) \
{ \
\
* ( _val ) = RwMalloc ( sizeof ( TCHAR ) * _size ) ; \
( _result ) = ( NULL ! = * ( _val ) ) ; \
\
if ( ( _result ) ) \
{ \
_status = \
RegQueryValueEx ( ( _hKey ) , ( _name ) , 0 , & _type , \
( BYTE * ) * ( _val ) , & _size ) ; \
( _result ) = ( ERROR_SUCCESS = = _status ) ; \
\
if ( ! ( _result ) ) \
{ \
RwFree ( * ( _val ) ) ; \
* ( _val ) = NULL ; \
} \
} \
} \
} \
MACRO_STOP
/* ------------------------------------------------------------------- */
# define RpWinRegCloseKey(hKey) \
MACRO_START \
{ \
RegCloseKey ( hKey ) ; \
} \
MACRO_STOP
/* ------------------------------------------------------------------- */
# define RpWinRegOpenMachineKey(result) \
MACRO_START \
{ \
static const TCHAR RenderWareKey [ ] = \
" Software \\ Criterion \\ RenderWare " ; \
DWORD disposition ; \
LONG status = \
RegCreateKeyEx ( HKEY_LOCAL_MACHINE , RenderWareKey , 0 , \
REG_NONE , REG_OPTION_NON_VOLATILE , \
KEY_READ | KEY_WRITE , \
NULL , & result , & disposition ) ; \
\
if ( status ! = ERROR_SUCCESS ) \
{ \
result = NULL ; \
} \
} \
MACRO_STOP
/* ------------------------------------------------------------------- */
# if (defined(RWGETWINREGDWORD))
# undef RWGETWINREGDWORD
# endif /* (defined(RWGETWINREGDWORD)) */
# define RWGETWINREGDWORD(result, match) \
MACRO_START \
{ \
HKEY hKey ; \
\
RpWinRegOpenMachineKey ( hKey ) ; \
if ( hKey ) \
{ \
RwBool success ; \
\
RpWinRegGetDWordValue ( success , hKey , match , \
& result ) ; \
\
RpWinRegCloseKey ( hKey ) ; \
} \
} \
MACRO_STOP
# if (defined(RWGETWINREGBINARY))
# undef RWGETWINREGBINARY
# endif /* (defined(RWGETWINREGBINARY)) */
# define RWGETWINREGBINARY(result, match) \
MACRO_START \
{ \
HKEY hKey ; \
\
result = NULL ; \
RpWinRegOpenMachineKey ( hKey ) ; \
if ( hKey ) \
{ \
RwBool success ; \
\
RpWinRegGetBinaryValue ( success , hKey , match , \
& result , NULL ) ; \
\
if ( ! success ) \
result = NULL ; \
\
RpWinRegCloseKey ( hKey ) ; \
} \
} \
MACRO_STOP
# if (defined(RWGETWINREGSTRING))
# undef RWGETWINREGSTRING
# endif /* (defined(RWGETWINREGSTRING)) */
# define RWGETWINREGSTRING(result, match) \
MACRO_START \
{ \
HKEY hKey ; \
\
result = NULL ; \
RpWinRegOpenMachineKey ( hKey ) ; \
if ( hKey ) \
{ \
RwBool success ; \
\
RpWinRegGetStringValue ( success , hKey , match , \
& result ) ; \
\
if ( ! success ) \
result = NULL ; \
\
RpWinRegCloseKey ( hKey ) ; \
} \
} \
MACRO_STOP
# if (defined(_DEBUG))
# if (defined(RWREGSETBREAKALLOC))
# undef RWREGSETBREAKALLOC
# endif /* (defined(RWREGSETBREAKALLOC)) */
# define RWREGSETBREAKALLOC(_name) \
MACRO_START \
{ \
char _message [ 256 ] ; \
long _lBreakAlloc = - 1 ; \
\
RWGETWINREGDWORD ( _lBreakAlloc , _name ) ; \
\
RWCRTSETBREAKALLOC ( _lBreakAlloc ) ; \
\
_snprintf ( _message , sizeof ( _message ) , \
" %s(%d): RWCRTSETBREAKALLOC(%ld) \n " , \
__FILE__ , __LINE__ , \
_lBreakAlloc ) ; \
OutputDebugString ( _message ) ; \
\
} \
MACRO_STOP
# if (defined(RWREGSETDEBUGTRACE))
# undef RWREGSETDEBUGTRACE
# endif /* (defined(RWREGSETDEBUGTRACE)) */
# define RWREGSETDEBUGTRACE(_name) \
MACRO_START \
{ \
char _message [ 256 ] ; \
long _lDebugtrace = 0 ; \
\
RWGETWINREGDWORD ( _lDebugtrace , _name ) ; \
\
RwDebugSetTraceState ( _lDebugtrace ) ; \
\
_snprintf ( _message , sizeof ( _message ) , \
" %s(%d): RwDebugSetTraceState(%ld) \n " , \
__FILE__ , __LINE__ , \
_lDebugtrace ) ; \
OutputDebugString ( _message ) ; \
\
} \
MACRO_STOP
# if (defined(_CRTDBG_FLAGS))
# undef _CRTDBG_FLAGS
# endif /* (defined(_CRTDBG_FLAGS)) */
# define _CRTDBG_FLAGS \
( _CRTDBG_ALLOC_MEM_DF | | /* Turn on the debug heap allocations \
* and use the memory block identifiers . \
* This is the only flag that ' s on by default . */ \
_CRTDBG_CHECK_ALWAYS_DF | | /* Check and validate all memory \
* on each allocation and deallocation request . \
* Setting this flag on is what catches the \
* under and overwrites \
* so it is very important to \
* get it turned on . */ \
_CRTDBG_CHECK_CRT_DF | | /* Include _CRT_BLOCK memory allocations \
* in all leak detection and state differences . */ \
_CRTDBG_DELAY_FREE_MEM_DF | | /* Instead of truly freeing memory, \
* keep the block allocated and \
* in the internal heap list . \
* The blocks are filled with the value0xDD \
* so you know the memory is freed when \
* looking at it in the debugger . \
* By also not freeing the memory , \
* this can help provide stress \
* conditions for the program . */ \
_CRTDBG_LEAK_CHECK_DF ) /* Do memory leak checking at \
* the end of the program . */
# endif /* (defined(_DEBUG)) */
# endif /* (defined(RWVERBOSE)) */
# include <math.h>
/*
* Keep true calls to these functions since
* some x86 runtime libraries do not support _CIpow ( ) etc
*/
# pragma function( acos, asin, cosh, fmod, pow, sinh , tanh )
# if (!defined(RWINT32FROMFLOAT))
static __inline RwInt32
int32fromreal ( RwReal x )
{
RwInt16 savemode ;
RwInt16 workmode ;
RwInt32 res ;
_asm
{
fnstcw savemode ; get fpu mode
fld dword ptr [ x ] ; load rwreal x
mov ax , savemode ; put fpu mode in register
or ah , 0 ch ; or - in truncate mode
mov workmode , ax ; make ready to set fpu mode
fldcw workmode ; set fpu to truncate mode
fistp dword ptr [ res ] ; store the rwint32eger result
fldcw savemode ; restore fpu mode
}
return res ;
}
# define RwInt32FromRealMacro(x) int32fromreal(x)
# endif /* (!defined(RWINT32FROMFLOAT)) */
# if (!defined(NOASM))
static __inline RwUInt32
RwFastRealToUInt32 ( RwReal x )
{
RwUInt32 res ;
__asm FLD DWord Ptr [ x ] ;
__asm FISTP DWord Ptr [ res ] ;
return ( res ) ;
}
# endif /* (defined(NOASM)) */
# endif /* (defined(_MSC_VER)) */
# endif /* WIN_OSTYPES_H */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bamath.h ---*/
/****************************************************************************
Defines
*/
# if (!defined(RwInt32FromRealMacro))
# define RwInt32FromRealMacro(x) \
( ( RwInt32 ) ( x ) )
# endif /* (!defined(RwInt32FromRealMacro)) */
# if (!defined(RwFastRealToUInt32))
# define RwFastRealToUInt32(_x) \
( ( RwUInt32 ) RwInt32FromRealMacro ( ( ( RwReal ) ( _x ) ) ) )
# endif /* (!defined(RwFastRealToUInt32)) */
/*
* Ensure inclusion of prototypes for single precison maths functions
* e . g . from
* / usr / local / sce / ee / gcc / ee / include / math . h
* / Program Files / Intel / Compiler4 .0 / include / mathf . h
*/
# if (defined(__ICL))
# if (defined(RWVERBOSE))
/*
* See
* http : //www.eskimo.com/~scs/C-faq/q11.17.html
*/
# define _STRINGIFY(X) #X
# define _STRINGIFY_EXP(X) _STRINGIFY(X)
# pragma message ("Intel Compiler Version " _STRINGIFY_EXP(__ICL) ":" __FILE__ "(" _STRINGIFY_EXP(__LINE__) ")\n")
# pragma comment ( user, "comment:" "Intel Compiler Version " _STRINGIFY_EXP(__ICL) ":" __FILE__ "(" _STRINGIFY_EXP(__LINE__) ")\n")
# endif /* (defined(RWVERBOSE)) */
# if (400 <= __ICL)
# if (defined(__cplusplus))
# define _INC_MATH
# endif /* (defined(__cplusplus)) */
# include <mathf.h>
# else /* (400 < __ICL) */
# undef RW_USE_SPF
# endif /* (400 < __ICL) */
# endif /* (defined(__ICL)) */
# include <math.h>
# define _RW_C1 ( (float) 4.1666667908e-02 )
# define _RW_C2 ( (float)-1.3888889225e-03 )
# define _RW_C3 ( (float) 2.4801587642e-05 )
# define _RW_C4 ( (float)-2.7557314297e-07 )
# define _RW_C5 ( (float) 2.0875723372e-09 )
# define _RW_C6 ( (float)-1.1359647598e-11 )
# define _RW_S1 ( (float)-1.6666667163e-01 )
# define _RW_S2 ( (float) 8.3333337680e-03 )
# define _RW_S3 ( (float)-1.9841270114e-04 )
# define _RW_S4 ( (float) 2.7557314297e-06 )
# define _RW_S5 ( (float)-2.5050759689e-08 )
# define _RW_S6 ( (float) 1.5896910177e-10 )
# define _RW_one ( (float) 1.0000000000e+00 )
# define _RW_pS0 ( (float) 1.6666667163e-01 )
# define _RW_pS1 ( (float)-3.2556581497e-01 )
# define _RW_pS2 ( (float) 2.0121252537e-01 )
# define _RW_pS3 ( (float)-4.0055535734e-02 )
# define _RW_pS4 ( (float) 7.9153501429e-04 )
# define _RW_pS5 ( (float) 3.4793309169e-05 )
# define _RW_pi ( (float) 3.1415925026e+00 )
# define _RW_pi_tol ( (float) 0.0312500000e+00 )
# define _RW_pio2_hi ( (float) 1.5707962513e+00 )
# define _RW_pio2_lo ( (float) 7.5497894159e-08 )
# define _RW_qS1 ( (float)-2.4033949375e+00 )
# define _RW_qS2 ( (float) 2.0209457874e+00 )
# define _RW_qS3 ( (float)-6.8828397989e-01 )
# define _RW_qS4 ( (float) 7.7038154006e-02 )
# define RwCosMinusPiToPiMacro(result, x) \
MACRO_START \
{ \
const float z = x * x ; \
const float r = ( z * ( _RW_C1 + \
z * ( _RW_C2 + \
z * ( _RW_C3 + \
z * ( _RW_C4 + \
z * ( _RW_C5 + \
z * _RW_C6 ) ) ) ) ) ) ; \
result = ( _RW_one - ( ( float ) 0.5 * z - ( z * r ) ) ) ; \
} \
MACRO_STOP
# define RwSinMinusPiToPiMacro(result, x) \
do \
{ \
const float z = x * x ; \
const float v = z * x ; \
const float r = ( _RW_S2 + \
z * ( _RW_S3 + \
z * ( _RW_S4 + \
z * ( _RW_S5 + \
z * _RW_S6 ) ) ) ) ; \
result = x + v * ( _RW_S1 + z * r ) ; \
} \
while ( 0 )
typedef union _rwIEEEFloatShapeType _rwIEEEFloatShapeType ;
union _rwIEEEFloatShapeType
{
float value ;
unsigned int word ;
} ;
# define _RW_GET_FLOAT_WORD(i,d) \
do { \
_rwIEEEFloatShapeType gf_u ; \
gf_u . value = ( d ) ; \
( i ) = gf_u . word ; \
} while ( 0 )
/* Set a float from a 32 bit int. */
# define _RW_SET_FLOAT_WORD(d,i) \
do { \
_rwIEEEFloatShapeType sf_u ; \
sf_u . word = ( i ) ; \
( d ) = sf_u . value ; \
} while ( 0 )
# define RwIEEEACosfMacro(result, x) \
do \
{ \
float z , p , q , r , w , s , c , df ; \
int hx , ix ; \
\
_RW_GET_FLOAT_WORD ( hx , x ) ; \
ix = hx & 0x7fffffff ; \
if ( ix > = 0x3f800000 ) \
{ /* |x|>=1 */ \
if ( hx > 0 ) \
{ \
/* acos(1) = 0 */ \
result = ( 0.0 ) ; \
} \
else \
{ \
/* acos(-1)= _RW_pi */ \
result = ( _RW_pi + ( float ) 2.0 * _RW_pio2_lo ) ; \
} \
\
} \
else if ( ix < 0x3f000000 ) \
{ /* |x| < 0.5 */ \
if ( ix < = 0x23000000 ) \
{ \
/*if |x|<2**-57 */ \
result = ( _RW_pio2_hi + _RW_pio2_lo ) ; \
} \
else \
{ \
z = x * x ; \
p = z * ( _RW_pS0 + \
z * ( _RW_pS1 + \
z * ( _RW_pS2 + \
z * ( _RW_pS3 + \
z * ( _RW_pS4 + z * _RW_pS5 ) ) ) ) ) ; \
q = _RW_one + z * ( _RW_qS1 + \
z * ( _RW_qS2 + \
z * ( _RW_qS3 + z * _RW_qS4 ) ) ) ; \
r = p / q ; \
result = ( _RW_pio2_hi - ( x - ( _RW_pio2_lo - x * r ) ) ) ; \
} \
\
} \
else if ( hx < 0 ) \
{ /* x < -0.5 */ \
z = ( _RW_one + x ) * ( float ) 0.5 ; \
p = z * ( _RW_pS0 + \
z * ( _RW_pS1 + \
z * ( _RW_pS2 + \
z * ( _RW_pS3 + \
z * ( _RW_pS4 + z * _RW_pS5 ) ) ) ) ) ; \
q = _RW_one + z * ( _RW_qS1 + \
z * ( _RW_qS2 + z * ( _RW_qS3 + z * _RW_qS4 ) ) ) ; \
rwSqrtMacro ( & s , z ) ; \
r = p / q ; \
w = r * s - _RW_pio2_lo ; \
result = ( _RW_pi - ( float ) 2.0 * ( s + w ) ) ; \
} \
else \
{ /* x > 0.5 */ \
int idf ; \
\
z = ( _RW_one - x ) * ( float ) 0.5 ; \
rwSqrtMacro ( & s , z ) ; \
df = s ; \
_RW_GET_FLOAT_WORD ( idf , df ) ; \
_RW_SET_FLOAT_WORD ( df , idf & 0xfffff000 ) ; \
c = ( z - df * df ) / ( s + df ) ; \
p = z * ( _RW_pS0 + \
z * ( _RW_pS1 + \
z * ( _RW_pS2 + \
z * ( _RW_pS3 + \
z * ( _RW_pS4 + z * _RW_pS5 ) ) ) ) ) ; \
q = _RW_one + z * ( _RW_qS1 + \
z * ( _RW_qS2 + z * ( _RW_qS3 + z * _RW_qS4 ) ) ) ; \
r = p / q ; \
w = r * s + c ; \
result = ( ( float ) 2.0 * ( df + w ) ) ; \
} \
} \
while ( 0 )
# if (defined(RW_USE_SPF))
# define RwACos(_x) acosf(_x)
# define RwACosh(_x) acoshf(_x)
# define RwASin(_x) asinf(_x)
# define RwASinh(_x) asinhf(_x)
# if (!defined(__ICL))
/*
* No SPF version in
* Program Files / Intel / compilerXXX / include / mathf . h
* of atan2 ( )
*/
# define RwATan2(_x, _y) atan2f(_x, _y)
# endif /* (!defined(__ICL)) */
# define RwATan(_x) atanf(_x)
# define RwATanh(_x) atanhf(_x)
# define RwCabs() cabsf()
# define RwCbrt(_x) cbrtf(_x)
# define RwCeil(_x) ceilf(_x)
# define RwCopysign(_x, _y) copysignf(_x, _y)
# define RwCos(_x) cosf(_x)
# define RwCosh(_x) coshf(_x)
# define RwDrem(_x, _y) dremf(_x, _y)
# define RwErfc(_x) erfcf(_x)
# define RwErf(_x) erff(_x)
# define RwExp(_x) expf(_x)
# define RwExpm1(_x) expm1f(_x)
# define RwFinite(_x) finitef(_x)
# define RwIlogb(_x) ilogbf(_x)
# define RwIsinf(_x) isinff(_x)
# define RwIsnan(_x) isnanf(_x)
# define RwFabs(_x) fabsf(_x)
# define RwFloor(_x) floorf(_x)
# define RwFmod(_x, _y) fmodf(_x, _y)
# define RwFrexp(_x, _iptr) frexpf(_x, _iptr)
# define RwGamma(_x) gammaf(_x)
# define RwGammaf_(_x, _iptr) gammaf_r(_x, _iptr)
# define RwHypot(_x, _y) hypotf(_x, _y)
# define RwInfinity() infinityf()
# define RwJ0(_x) j0f(_x)
# define RwJ1(_x) j1f(_x)
# define RwJn(_i, _x) jnf(_i, _x)
# define RwLdexp(_x, _i) ldexpf(_x, _i)
# define RwLgamma(_x) lgammaf(_x)
# define RwLgammaf_(_x, _iptr) lgammaf_r(_x, _iptr)
# define RwLog10(_x) log10f(_x)
# define RwLog1p(_x) log1pf(_x)
# define RwLog(_x) logf(_x)
# define RwModf(_x, _y) modff(_x, _y)
# define RwNan() nanf()
# define RwNextafter(_x, _y) nextafterf(_x, _y)
# define RwPow(_x, _y) powf(_x, _y)
# define RwRemainder(_x, _y) remainderf(_x, _y)
# define RwRint(_x) rintf(_x)
# define RwScalbn(_x, _i) scalbnf(_x, _i)
# define RwSin(_x) sinf(_x)
# define RwSinh(_x) sinhf(_x)
/* rwSqrtMacro/rwInvSqrtMacro are overloaded in drvmodel.h
* ( if they are at all ) and wrapped as func / macro below */
# define RwTan(_x) tanf(_x)
# define RwTanh(_x) tanhf(_x)
# define RwY0(_x) y0f(_x)
# define RwY1(_x) y1f(_x)
# define RwYn(_i, _x) ynf(_i, _x)
# endif /* (defined(RW_USE_SPF)) */
# if (!defined(RwACos))
# define RwACos(_x) acos(_x)
# endif /* (!defined(RwACos)) */
# if (!defined(RwACosh))
# define RwACosh(_x) acosh(_x)
# endif /* (!defined(RwACosh)) */
# if (!defined(RwASin))
# define RwASin(_x) asin(_x)
# endif /* (!defined(RwASin)) */
# if (!defined(RwASinh))
# define RwASinh(_x) asinh(_x)
# endif /* (!defined(RwASinh)) */
# if (!defined(RwATan2))
# define RwATan2(_x, _y) atan2(_x, _y)
# endif /* (!defined(RwATan2)) */
# if (!defined(RwATan))
# define RwATan(_x) atan(_x)
# endif /* (!defined(RwATan)) */
# if (!defined(RwATanh))
# define RwATanh(_x) atanh(_x)
# endif /* (!defined(RwATanh)) */
# if (!defined(RwCabs))
# define RwCabs() cabs()
# endif /* (!defined(RwCabs)) */
# if (!defined(RwCbrt))
# define RwCbrt(_x) cbrt(_x)
# endif /* (!defined(RwCbrt)) */
# if (!defined(RwCeil))
# define RwCeil(_x) ceil(_x)
# endif /* (!defined(RwCeil)) */
# if (!defined(RwCopysign))
# define RwCopysign(_x, _y) copysign(_x, _y)
# endif /* (!defined(RwCopysign)) */
# if (!defined(RwCos))
# define RwCos(_x) cos(_x)
# endif /* (!defined(RwCos)) */
# if (!defined(RwCosh))
# define RwCosh(_x) cosh(_x)
# endif /* (!defined(RwCosh)) */
# if (!defined(RwDrem))
# define RwDrem(_x, _y) drem(_x, _y)
# endif /* (!defined(RwDrem)) */
# if (!defined(RwErfc))
# define RwErfc(_x) erfc(_x)
# endif /* (!defined(RwErfc)) */
# if (!defined(RwEr))
# define RwEr(_x) erf(_x)
# endif /* (!defined(RwEr)) */
# if (!defined(RwExp))
# define RwExp(_x) exp(_x)
# endif /* (!defined(RwExp)) */
# if (!defined(RwExpm1))
# define RwExpm1(_x) expm1(_x)
# endif /* (!defined(RwExpm1)) */
# if (!defined(RwFinite))
# define RwFinite(_x) finite(_x)
# endif /* (!defined(RwFinite)) */
# if (!defined(RwIlogb))
# define RwIlogb(_x) ilogb(_x)
# endif /* (!defined(RwIlogb)) */
# if (!defined(RwIsin))
# define RwIsin(_x) isinf(_x)
# endif /* (!defined(RwIsin)) */
# if (!defined(RwIsnan))
# define RwIsnan(_x) isnan(_x)
# endif /* (!defined(RwIsnan)) */
# if (!defined(RwFabs))
# define RwFabs(_x) fabs(_x)
# endif /* (!defined(RwFabs)) */
# if (!defined(RwFloor))
# define RwFloor(_x) floor(_x)
# endif /* (!defined(RwFloor)) */
# if (!defined(RwFmod))
# define RwFmod(_x, _y) fmod(_x, _y)
# endif /* (!defined(RwFmod)) */
# if (!defined(RwFrexp))
# define RwFrexp(_x, _iptr) frexp(_x, _iptr)
# endif /* (!defined(RwFrexp)) */
# if (!defined(RwGamma))
# define RwGamma(_x) gamma(_x)
# endif /* (!defined(RwGamma)) */
# if (!defined(RwGammaf_))
# define RwGammaf_(_x, _iptr) gammaf_r(_x, _iptr)
# endif /* (!defined(RwGammaf_)) */
# if (!defined(RwHypot))
# define RwHypot(_x, _y) hypot(_x, _y)
# endif /* (!defined(RwHypot)) */
# if (!defined(RwInfinity))
# define RwInfinity() infinity()
# endif /* (!defined(RwInfinity)) */
# if (!defined(RwJ0))
# define RwJ0(_x) j0(_x)
# endif /* (!defined(RwJ0)) */
# if (!defined(RwJ1))
# define RwJ1(_x) j1(_x)
# endif /* (!defined(RwJ1)) */
# if (!defined(RwJn))
# define RwJn(_i, _x) jn(_i, _x)
# endif /* (!defined(RwJn)) */
# if (!defined(RwLdexp))
# define RwLdexp(_x, _i) ldexp(_x, _i)
# endif /* (!defined(RwLdexp)) */
# if (!defined(RwLgamma))
# define RwLgamma(_x) lgamma(_x)
# endif /* (!defined(RwLgamma)) */
# if (!defined(RwLgammaf_))
# define RwLgammaf_(_x, _iptr) lgammaf_r(_x, _iptr)
# endif /* (!defined(RwLgammaf_)) */
# if (!defined(RwLog10))
# define RwLog10(_x) log10(_x)
# endif /* (!defined(RwLog10)) */
# if (!defined(RwLog1p))
# define RwLog1p(_x) log1p(_x)
# endif /* (!defined(RwLog1p)) */
# if (!defined(RwLog))
# define RwLog(_x) log(_x)
# endif /* (!defined(RwLog)) */
# if (!defined(RwMod))
# define RwMod(_x, _y) mod(_x, _y )
# endif /* (!defined(RwMod)) */
# if (!defined(RwNan))
# define RwNan() nan()
# endif /* (!defined(RwNan)) */
# if (!defined(RwNextafter))
# define RwNextafter(_x, _y) nextafter(_x, _y)
# endif /* (!defined(RwNextafter)) */
# if (!defined(RwPow))
# define RwPow(_x, _y) pow(_x, _y)
# endif /* (!defined(RwPow)) */
# if (!defined(RwRemainder))
# define RwRemainder(_x, _y) remainder(_x, _y)
# endif /* (!defined(RwRemainder)) */
# if (!defined(RwRint))
# define RwRint(_x) rint(_x)
# endif /* (!defined(RwRint)) */
# if (!defined(RwScalbn))
# define RwScalbn(_x, _i) scalbn(_x, _i)
# endif /* (!defined(RwScalbn)) */
# if (!defined(RwSin))
# define RwSin(_x) sin(_x)
# endif /* (!defined(RwSin)) */
# if (!defined(RwSinh))
# define RwSinh(_x) sinh(_x)
# endif /* (!defined(RwSinh)) */
# if (!defined(rwSqrt))
/* NOTE: this is overloaded in drvmodel.h for some targets (SKY2 and XBOX atm)
* [ we do in fact do overload w / sqrtf there , if RW_USE_SPF ,
* for D3D7 , D3D8 , OpenGL and SoftRas ] */
# define rwSqrt(_result, _x) rwSqrtMacro(_result, _x)
# endif /* (!defined(rwSqrt)) */
# if (!defined(rwInvSqrt))
/* NOTE: this is overloaded in drvmodel.h for some targets (SKY2 and XBOX atm)
* [ we do in fact do overload w / ( 1 / sqrtf ) there , if RW_USE_SPF ,
* for D3D7 , D3D8 , OpenGL and SoftRas ] */
# define rwInvSqrt(_recip, _x) rwInvSqrtMacro(_recip, _x)
# endif /* (!defined(rwInvSqrt)) */
# if (!defined(RwTan))
# define RwTan(_x) tan(_x)
# endif /* (!defined(RwTan)) */
# if (!defined(RwTanh))
# define RwTanh(_x) tanh(_x)
# endif /* (!defined(RwTanh)) */
# if (!defined(RwY0))
# define RwY0(_x) y0(_x)
# endif /* (!defined(RwY0)) */
# if (!defined(RwY1))
# define RwY1(_x) y1(_x)
# endif /* (!defined(RwY1)) */
# if (!defined(RwYn))
# define RwYn(_i, _x) yn(_i, _x)
# endif /* (!defined(RwYn)) */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/batypes.h ---*/
# define rwLIBRARYBASEVERSION 0x31000
# define rwLIBRARYCURRENTVERSION 0x33002
/*
* RWBUILDNUMBER
* This 16 - bit int will be externally defined in an official build , and
* is used to construct chunk header library ID when streaming out . All
* unofficial builds will be stamped with the following : -
*/
# if !defined(RWBUILDNUMBER)
# define RWBUILDNUMBER 0xffff
# endif
/* IMPORTANT:
* The following Doxygen comment MUST be copied into RwCore . h ,
* so don ' t move it from here . */
/**
* \ ingroup rwcore
* \ page rwcoreoverview Core Library Overview
*
* LIBRARY : rwcore . lib
* HEADER : rwcore . h
*
* This library provides the fundamental RenderWare features .
*
* When creating a RenderWare application , this library must always be
* linked .
*
* Functionality includes :
* \ li Immediate Modes ( 2 D \ ref rwim2d and 3 D \ ref rwim3d )
* \ li Plugin Management
* \ li Base Datatypes
* \ li Cameras \ ref rwcamera
* \ li Frames \ ref rwframe
* \ li the RenderWare Engine \ ref rwengine
*
* RenderWare uses an object - oriented design philosophy , so this
* documentation is split across a number of objects .
*
* These objects are implemented in C , so C terminology is generally
* used , rather than C + + - - hence ' functions ' instead of ' methods ' and
* ' elements ' instead of ' members ' .
*
* If you are new to RenderWare programming , please read through the
* supplied User Guide . The RenderWare Engine \ ref rwengine API is
* usually the starting point for new developers .
*/
# if (!defined(RWFORCEENUMSIZEINT))
# define RWFORCEENUMSIZEINT ((RwInt32)((~((RwUInt32)0))>>1))
# endif /* (!defined(RWFORCEENUMSIZEINT)) */
/*
* See
* http : //www.eskimo.com/~scs/C-faq/q11.17.html
*/
# define RW_STRINGIFY(X) #X
# define RW_STRINGIFY_EXPANDED(X) RW_STRINGIFY(X)
/****************************************************************************
Attributes
*/
# if (defined(__GNUC__))
/* See http://www.gnu.org/software/gcc/onlinedocs/gcc_4.html#SEC91 */
# if (!(defined(__cplusplus) || defined(__MWERKS__) || defined(__RWUNUSED__)))
# define __RWUNUSED__ __attribute__ ((unused))
# endif /* (!(defined(__cplusplus) || defined(__MWERKS__) || defined(__RWUNUSED__))) */
# if (!(defined(__RWUNUSEDRELEASE__) || defined(RWVALIDATEPARAM)))
# if (!( defined(__cplusplus) || defined(__MWERKS__) || defined(RWDEBUG)))
# define __RWUNUSEDRELEASE__ __attribute__ ((unused))
# endif /* (!(defined(__cplusplus) || defined(__MWERKS__) || defined(RWDEBUG))) */
# endif /* (!(defined(__RWUNUSEDRELEASE__) || defined(RWVALIDATEPARAM))) */
# if (!defined(__RWFORMAT__))
# define __RWFORMAT__(_archetype, _string_index, _first_to_check) \
__attribute__ ( ( format ( _archetype , _string_index , _first_to_check ) ) )
# endif /* (!defined(__RWFORMAT__)) */
# endif /* (defined(__GNUC__)) */
# if (!defined(__RWUNUSED__))
# define __RWUNUSED__ /* No op */
# endif /* (!defined(__RWUNUSED__)) */
# if (!defined(__RWUNUSEDRELEASE__))
# define __RWUNUSEDRELEASE__ /* No op */
# endif /* (!defined(__RWUNUSEDRELEASE__)) */
# if (!defined(__RWFORMAT__))
# define __RWFORMAT__(_archetype, _string_index, _first_to_check) /* No op */
# endif /* (!defined(__RWFORMAT__)) */
/****************************************************************************
Calling conventions
*/
# if (defined(WIN32))
# define RWASMCALL __cdecl
# define RWASMAPI(TYPE) TYPE RWASMCALL
# endif /* (defined(WIN32)) */
# if (!defined(RWASMCALL))
# define RWASMCALL /* No op */
# endif /* (!defined(RWASMCALL)) */
# if (!defined(RWASMAPI))
# define RWASMAPI(TYPE) TYPE
# endif /* (!defined(RWASMAPI)) */
/* Maximum number of nested contexts */
# define rwMAXPIPECONTEXT 10
/****************************************************************************
Macro wrappers . These are needed everywhere .
*/
# ifndef MACRO_START
# define MACRO_START do
# endif /* MACRO_START */
# ifndef MACRO_STOP
# define MACRO_STOP while(0)
# endif /* MACRO_STOP */
/****************************************************************************
Types needed everywhere
*/
# ifdef FALSE
# undef FALSE
# endif
# define FALSE 0
# ifdef TRUE
# undef TRUE
# endif
# define TRUE !FALSE
/****************************************************************************
MS VC / C + + Specific
*/
# if (defined(_MSC_VER))
# if (_MSC_VER>=1000)
/*
* Check for correct compiler version
*/
# define RW_MSC_VER 1200
# if (0 && !defined(RW_NO_COMPILER_CHECK))
# if (_MSC_VER != RW_MSC_VER )
# pragma message (__FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) "):" "\n This compiler is a different version (" RW_STRINGIFY_EXPANDED(_MSC_VER) ")\n to the compiler used to build the RenderWare product libraries (" RW_STRINGIFY_EXPANDED(RW_MSC_VER) ") \n To turn off this warning please define RW_NO_COMPILER_CHECK " )
# pragma comment ( user, "comment:" __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) "):" "\n This compiler is a different version (" RW_STRINGIFY_EXPANDED(_MSC_VER) ")\n to the compiler used to build the RenderWare product libraries (" RW_STRINGIFY_EXPANDED(RW_MSC_VER) ") \n To turn off this warning please define RW_NO_COMPILER_CHECK " )
# endif /* (_MSC_VER != RW_MSC_VER ) */
# endif /* (0 && !defined(RW_NO_COMPILER_CHECK)) */
/*
* Output some compiler messages and object file comments
*/
# pragma comment ( compiler )
# pragma comment ( user, "comment:" __DATE__" " __TIME__ " - " __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ")")
# pragma comment ( user, "comment:" " _MSC_VER==" RW_STRINGIFY_EXPANDED(_MSC_VER) "; _M_IX86==" RW_STRINGIFY_EXPANDED(_M_IX86))
# if (defined(rwLIBRARYCURRENTVERSION))
# pragma comment ( user, "comment:" "rwLIBRARYCURRENTVERSION:" RW_STRINGIFY_EXPANDED(rwLIBRARYCURRENTVERSION) )
# endif /* (defined(rwLIBRARYCURRENTVERSION)) */
# if (defined(RWDEBUG) && defined(RWVERBOSE))
/* #include <windows.h> */
# if (defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC))
# define _CRTDBG_MAP_ALLOC
# endif /* defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC)) */
# include <crtdbg.h>
# pragma message (__DATE__" " __TIME__ " - " __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ")" )
# pragma message ("_MSC_VER==" RW_STRINGIFY_EXPANDED(_MSC_VER) "; _M_IX86==" RW_STRINGIFY_EXPANDED(_M_IX86))
# if (defined(rwLIBRARYCURRENTVERSION))
# pragma message ( "rwLIBRARYCURRENTVERSION:" RW_STRINGIFY_EXPANDED(rwLIBRARYCURRENTVERSION) )
# endif /* (defined(rwLIBRARYCURRENTVERSION)) */
# endif /* (defined(RWDEBUG) && defined(RWVERBOSE) ) */
# endif /* (_MSC_VER>=1000) */
# endif /* (defined(_MSC_VER)) */
/*******************/
/* Primitive types */
/*******************/
/* String construction stuff (gets us UNICODE support) */
# ifdef RWUNICODE
# define _RWSTRING(x) L ## x
# else /* RWUNICODE */
# define _RWSTRING(x) x
# endif /* RWUNICODE */
# define RWSTRING(x) _RWSTRING(x)
/* NB volatile keyword required for VC5.0 to ensure a reload - AMB */
typedef union RwSplitBits RwSplitBits ;
union RwSplitBits
{
RwReal nReal ;
volatile RwInt32 nInt ;
volatile RwUInt32 nUInt ;
} ;
typedef struct RwSplitFixed RwSplitFixed ;
# ifdef rwBIGENDIAN
struct RwSplitFixed
{
RwInt16 integral ;
RwUInt16 fractional ;
} ;
# else /* rwBIGENDIAN */
# ifdef rwLITTLEENDIAN
struct RwSplitFixed
{
RwUInt16 fractional ;
RwInt16 integral ;
} ;
# else /* rwLITTLEENDIAN */
# error "ENDIAN-ness undefined!"
# endif /* rwLITTLEENDIAN */
# endif /* rwBIGENDIAN */
typedef union RwUnionReal RwUnionReal ;
union RwUnionReal /* MSB is sign bit in any circumstance */
{
RwReal real ; /* 4 bytes interpreted as RwReal */
float floating ; /* 4 bytes interpreted as float */
RwFixed fixed ; /* 4 bytes interpreted as 16:16 fixed */
RwSplitFixed splitfixed ; /* 4 bytes interpreted as 16:16 fixed */
} ;
/*****************/
/* Complex types */
/*****************/
/**
* \ ingroup datatypes
* \ typedef RwV2d
* typedef for struct RwV2d
*/
typedef struct RwV2d RwV2d ;
/**
* \ ingroup datatypes
* \ struct RwV2d
* This type represents points in a 2 D space , such as device
* space , specified by the ( x , y ) coordinates of the point .
*/
struct RwV2d
{
RwReal x ; /**< X value*/
RwReal y ; /**< Y vlaue */
} ;
/**
* \ ingroup datatypes
* \ typedef RwV3d
* typedef for struct RwV3d
*/
typedef struct RwV3d RwV3d ;
/**
* \ ingroup datatypes
* \ struct RwV3d
* This type represents 3 D points and vectors specified by
* the ( x , y , z ) coordinates of a 3 D point or the ( x , y , z ) components of a
* 3 D vector .
*/
struct RwV3d
{
RwReal x ; /**< X value */
RwReal y ; /**< Y value */
RwReal z ; /**< Z value */
} ;
# define RWV4DALIGNMENT(_v4d) \
( ! ( ( ( rwV4DALIGNMENT ) - 1 ) & ( ( RwUInt32 ) ( _v4d ) ) ) )
/**
* \ ingroup datatypes
* \ struct RwV4d
* This type represents 4 D points and vectors specified by
* the ( x , y , z , w ) coordinates of a 4 D point or the ( x , y , z , w ) components of a
* 4 D vector .
*/
struct RwV4d
{
RwReal x ; /**< X value */
RwReal y ; /**< Y value */
RwReal z ; /**< Z value */
RwReal w ; /**< W value */
} ;
/**
* \ ingroup datatypes
* \ typedef RwV4d
* typedef for struct RwV4d
*/
typedef struct RwV4d RWALIGN ( RwV4d , rwV4DALIGNMENT ) ;
/**
* \ ingroup datatypes
* \ typedef RwRect
* typedef for struct RwRect
*/
typedef struct RwRect RwRect ;
/**
* \ ingroup datatypes
* \ struct RwRect
* This type represents a 2 D device space rectangle specified
* by the position of the top - left corner ( the offset x , y ) and its width ( w )
* and height ( h ) .
*/
struct RwRect
{
RwInt32 x ; /**< X value of the top-left corner */
RwInt32 y ; /**< Y value of the top-left corner */
RwInt32 w ; /**< Width of the rectangle */
RwInt32 h ; /**< Height of the rectangle */
} ;
/**
* \ ingroup datatypes
* \ typedef RwSphere
* typedef for struct RwSphere
*/
typedef struct RwSphere RwSphere ;
/**
* \ ingroup datatypes
* \ struct RwSphere
* This type represents a sphere specified by the position
* of its center and its radius
*/
struct RwSphere
{
RwV3d center ; /**< Sphere center */
RwReal radius ; /**< Sphere radius */
} ;
# if (!defined(RwSphereAssign))
# define RwSphereAssign(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwSphereAssign)) */
/**
* \ ingroup datatypes
* \ typedef RwLine
* typedef for struct RwLine
*/
typedef struct RwLine RwLine ;
/**
* \ ingroup datatypes
* \ struct RwLine
* This type represents a 3 D line specified by the position
* of its start and end points .
*/
struct RwLine
{
RwV3d start ; /**< Line start */
RwV3d end ; /**< Line end */
} ;
# if (!defined(RwLineAssign))
# define RwLineAssign(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwLineAssign)) */
/* The maximum number of texture coordinates */
# define rwMAXTEXTURECOORDS 8
/**
* \ ingroup datatypes
* RwTextureCoordinateIndex
* This type represents the index for texture coordinates .
*/
enum RwTextureCoordinateIndex
{
rwNARWTEXTURECOORDINATEINDEX = 0 ,
rwTEXTURECOORDINATEINDEX0 ,
rwTEXTURECOORDINATEINDEX1 ,
rwTEXTURECOORDINATEINDEX2 ,
rwTEXTURECOORDINATEINDEX3 ,
rwTEXTURECOORDINATEINDEX4 ,
rwTEXTURECOORDINATEINDEX5 ,
rwTEXTURECOORDINATEINDEX6 ,
rwTEXTURECOORDINATEINDEX7 ,
rwTEXTURECOORDINATEINDEXFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwTextureCoordinateIndex RwTextureCoordinateIndex ;
/**
* \ ingroup datatypes
* \ typedef RwTexCoords
* typedef for struct RwTexCoords
*/
typedef struct RwTexCoords RwTexCoords ;
/**
* \ ingroup datatypes
* \ struct RwTexCoords
* This type represents the the u and v texture
* coordinates of a particular vertex .
*/
struct RwTexCoords
{
RwReal u ; /**< U value */
RwReal v ; /**< V value */
} ;
/* Singley linked list macros. End marked as NULL */
typedef struct RwSLLink RwSLLink ; /*** RwSLLink ***/
struct RwSLLink
{
RwSLLink * next ;
} ;
# define rwSLLinkGetData(link,type,entry) \
( ( type * ) ( ( ( RwUInt8 * ) ( link ) ) - offsetof ( type , entry ) ) )
# define rwSLLinkGetConstData(link,type,entry) \
( ( const type * ) ( ( ( const RwUInt8 * ) ( link ) ) - offsetof ( type , entry ) ) )
# define rwSLLinkInitialize(linkvar) \
( linkvar ) - > next = NULL ;
# define rwSLLinkGetNext(linkvar) \
( ( linkvar ) - > next )
typedef struct RwSingleList RwSingleList ;
struct RwSingleList
{
RwSLLink link ;
} ;
# define rwSingleListInitialize(list) \
( list ) - > link . next = NULL ;
# define rwSingleListEmpty(list) \
( ( ( list ) - > link . next ) = = NULL )
# define rwSingleListAddSLLink(list,linkvar) \
( ( linkvar ) - > next = ( list ) - > link . next , \
( list ) - > link . next = ( linkvar ) )
# define rwSingleListGetFirstSLLink(list) \
( ( list ) - > link . next )
# define rwSingleListGetTerminator(list) (NULL)
/* Doubly linked list. End marked as start (its a ring) */
typedef struct RwLLLink RwLLLink ; /*** RwLLLink ***/
struct RwLLLink
{
RwLLLink * next ;
RwLLLink * prev ;
} ;
# define rwLLLinkGetData(linkvar,type,entry) \
( ( type * ) ( ( ( RwUInt8 * ) ( linkvar ) ) - offsetof ( type , entry ) ) )
# define rwLLLinkGetConstData(linkvar,type,entry) \
( ( const type * ) ( ( ( const RwUInt8 * ) ( linkvar ) ) - offsetof ( type , entry ) ) )
# define rwLLLinkGetNext(linkvar) \
( ( linkvar ) - > next )
# define rwLLLinkGetPrevious(linkvar) \
( ( linkvar ) - > prev )
# define rwLLLinkInitialize(linkvar) \
( ( linkvar ) - > prev = ( RwLLLink * ) NULL , \
( linkvar ) - > next = ( RwLLLink * ) NULL )
# define rwLLLinkAttached(linkvar) \
( ( linkvar ) - > next )
typedef struct RwLinkList RwLinkList ;
struct RwLinkList
{
RwLLLink link ;
} ;
# define rwLinkListInitialize(list) \
( ( list ) - > link . next = ( ( RwLLLink * ) ( list ) ) , \
( list ) - > link . prev = ( ( RwLLLink * ) ( list ) ) )
# define rwLinkListEmpty(list) \
( ( ( list ) - > link . next ) = = ( & ( list ) - > link ) )
# define rwLinkListAddLLLink(list, linkvar) \
( ( linkvar ) - > next = ( list ) - > link . next , \
( linkvar ) - > prev = ( & ( list ) - > link ) , \
( ( list ) - > link . next ) - > prev = ( linkvar ) , \
( list ) - > link . next = ( linkvar ) )
# define rwLinkListRemoveLLLink(linkvar) \
( ( ( linkvar ) - > prev ) - > next = ( linkvar ) - > next , \
( ( linkvar ) - > next ) - > prev = ( linkvar ) - > prev )
# define rwLinkListGetFirstLLLink(list) \
( ( list ) - > link . next )
# define rwLinkListGetLastLLLink(list) \
( ( list ) - > link . prev )
# define rwLinkListGetTerminator(list) \
( & ( ( list ) - > link ) )
/**
* \ ingroup datatypes
* \ typedef RwSurfaceProperties
* typedef for struct RwSurfaceProperties
*/
typedef struct RwSurfaceProperties RwSurfaceProperties ;
/**
* \ ingroup datatypes
* \ struct RwSurfaceProperties
* This type represents the ambient , diffuse and
* specular reflection coefficients of a particular geometry . Each coefficient
* is specified in the range 0.0 ( no reflection ) to 1.0 ( maximum reflection ) .
*/
struct RwSurfaceProperties
{
RwReal ambient ; /**< ambient reflection coefficient */
RwReal specular ; /**< specular reflection coefficient */
RwReal diffuse ; /**< reflection coefficient */
} ;
# if (!defined(RwSurfacePropertiesAssign))
# define RwSurfacePropertiesAssign(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwSurfacePropertiesAssign)) */
/**********
* Macros *
* * * * * * * * * */
/* ANSI C defines the offsetof(type,member) macro; should be in <stddef.h> */
/* If not, fall back to this: */
# ifndef offsetof
# define offsetof(type, member) \
( ( size_t ) ( ( RwUInt8 * ) & ( ( type * ) 0 ) - > member - ( RwUInt8 * ) ( ( type * ) 0 ) ) )
# endif /* offsetof */
/*
*
* Numeric Macros to handle Fixed / Floating point versions of RenderWare
*
*/
# define RWFIX_MIN (1)
# define RWFIX_MAX (0x7fffffff)
# define RwFixedCast(A) (RwInt32FromRealMacro((A) * 65536.0f))
# define RwFixedToInt(A) ((A) >> 16)
# define RwFixedToFloat(A) ((float)(((float)(A)) * (1.0f / 65536.0f)))
# define RwFixedToReal(a) ((RwReal)(((RwReal)(a)) * (1.0f / 65536.0f)))
# define RwRealToFixed(a) (RwInt32FromRealMacro((a) * 65536.0f))
# define RwRealAbs(a) ((RwReal)((a) >= (RwReal)(0.0) ? (a) : (-(a))))
# define RwRealMin2(a,b) ((RwReal)( ((a) <= (b)) ? (a) : (b)))
# define RwRealMax2(a,b) ((RwReal)( ((a) >= (b)) ? (a) : (b)))
# define RwRealMin3(a,b,c) RwRealMin2(a,RwRealMin2(b,c))
# define RwRealMax3(a,b,c) RwRealMax2(a,RwRealMax2(b,c))
# ifndef NORWREALSHORTCUT
# define RToFixed RwRealToFixed
# define RAbs RwRealAbs
# define FxCast RwFixedCast
# define FxToInt RwFixedToInt
# define FxToFloat RwFixedToFloat
# define FxToReal RwFixedToFloat
# endif
# ifndef rwPI
# define rwPI ((RwReal)(3.1415926535f))
# define rwPIOVER2 (rwPI / (RwReal)(2.0f))
# endif
# define RWRGBALONG(r,g,b,a) \
( ( RwUInt32 ) ( ( ( a ) < < 24 ) | ( ( r ) < < 16 ) | ( ( g ) < < 8 ) | ( b ) ) )
/* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
RwPlane
! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! */
/*
* typedef for struct RwPlane
*/
typedef struct RwPlane RwPlane ;
/*
* This type represents a plane
*/
struct RwPlane
{
RwV3d normal ; /**< Normal to the plane */
RwReal distance ; /**< Distance to plane from origin in normal direction*/
} ;
/****************************************************************************
Defines
*/
enum RwPlaneType
{
rwXPLANE = 0 , /* These are deliberately multiples of sizeof(RwReal) */
rwYPLANE = 4 ,
rwZPLANE = 8 ,
rwPLANETYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwPlaneType RwPlaneType ;
# define rwSECTORATOMIC -1
# define rwSECTORBUILD -2 /* Only used when building a world */
/* vect is a RwV3d, y is the component */
# define GETCOORD(vect,y) \
( * ( RwReal * ) ( ( ( RwUInt8 * ) ( & ( ( vect ) . x ) ) ) + ( RwInt32 ) ( y ) ) )
# define GETCONSTCOORD(vect,y) \
( * ( const RwReal * ) ( ( ( const RwUInt8 * ) ( & ( ( vect ) . x ) ) ) + ( RwInt32 ) ( y ) ) )
# define SETCOORD(vect,y,value) \
( ( ( * ( RwReal * ) ( ( ( RwUInt8 * ) ( & ( ( vect ) . x ) ) ) + ( RwInt32 ) ( y ) ) ) ) = ( value ) )
# define SETCONTCOORD(vect,y,value) \
( ( ( * ( const RwReal * ) \
( ( ( const RwUInt8 * ) \
( & ( ( vect ) . x ) ) ) + ( RwInt32 ) ( y ) ) ) ) = ( value ) )
# define GETCOORDINT(vect,y) \
( * ( RwInt32 * ) ( ( ( RwUInt8 * ) ( & ( ( vect ) . x ) ) ) + ( y ) ) )
# define GETCONSTCOORDINT(vect,y) \
( * ( const RwInt32 * ) ( ( ( const RwUInt8 * ) ( & ( ( vect ) . x ) ) ) + ( y ) ) )
/**
* \ ingroup rwcore
* \ page inttypes Integer Types
*
* RenderWare supports a number of integer types :
*
* RwInt8 8 - bit signed integer .
* \ li RwUInt8 8 - bit unsigned integer .
* \ li RwChar Character type .
* \ li RwInt16 16 - bit signed integer .
* \ li RwUInt16 16 - bit unsigned integer .
* \ li RwInt32 32 - bit signed integer .
* \ li RwUInt32 32 - bit unsigned integer .
* \ li RwInt64 64 - bit signed integer .
* \ li RwUInt64 64 - bit unsigned integer .
* \ li RwInt128 128 - bit signed integer .
* \ li RwUInt128 128 - bit unsigned integer .
* \ li RwBool Boolean type ( in 32 bits ) .
*
* These types should be used in applications in preference to the underlying
* native types .
*
* The following constants indicate the maximum and minimum values possible
* for the various RenderWare integer types :
*
* \ li RwInt32MAXVAL Maximum RwInt32 value .
* \ li RwInt32MINVAL Minimum RwInt32 value .
* \ li RwUInt32MAXVAL Maximum RwUInt32 value .
* \ li RwUInt32MINVAL Minimum RwUInt32 value .
* \ li RwInt16MAXVAL Maximum RwInt16 value .
* \ li RwInt16MINVAL Minimum RwInt16 value .
* \ li RwUInt16MAXVAL Maximum RwUInt16 value .
* \ li RwUInt16MINVAL Minimum RwUInt16 value .
*
* \ see RwReal
*/
/**
* \ ingroup datatypes
* \ typedef RwReal
*
* RenderWare supports a single RwReal floating - point type to aid portability
* across platforms . This type should be used in applications in preference to
* the underlying native type .
*
* The constants RwRealMAXVAL and RwRealMINVAL are provided for determining
* the maximum and minimum values possible using the RwReal type .
*
* In addition , the following macros are available for operations on RwReal
* types :
* \ li RwRealMin2 ( a , b ) Find the minimum of two RwReal values .
* \ li RwRealMax2 ( a , b ) Find the maximum of two RwReal values .
* \ li RwRealMin3 ( a , b , c ) Find the minimum of three RwReal values .
* \ li RwRealMax3 ( a , b , c ) Find the maximum of three RwReal values .
* \ li RwRealAbs ( x ) Find the absolute value of a RwReal value .
*
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwFixed
*
* RenderWare supports a single RwFixed fixed - point type .
*
* Although popular in the days when integer mathematics was much faster than
* floating point mathematics , fixed - point math is now rarely used . It is
* provided because it is still useful for some processes .
*
* The maximum and minimum size of an RwFixed value are defined by the constants
* RWFIX_MAX and RWFIX_MIN respectively .
*
* The following macros are provided to help you work with RwFixed datatypes :
* \ li RwFixedCast ( x ) Cast the integer portion of an RwFixed to another type .
* \ li RwFixedToInt ( x ) Convert an RwFixed to an integer . ( The fractional portion is lost . )
* \ li RwFixedToFloat ( x ) Convert an RwFixed to a float .
* \ li RwFixedToReal ( x ) Convert an RwFixed to an RwReal .
* \ li RwRealToFixed ( x ) Convert an RwReal to an RwFixed . ( Some precision may be lost . )
*/
/**
* \ ingroup datatypes
* \ typedef RwInt8
*
* Signed 8 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwUInt8
*
* Unsigned 8 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwChar
*
* Character type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwInt16
*
* Signed 16 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwUInt16
*
* Unsigned 16 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwInt32
*
* Signed 32 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwUInt32
*
* Unsigned 32 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwInt64
*
* Signed 64 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwUInt64
*
* Unsigned 64 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwInt128
*
* Signed 128 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwUInt128
*
* Unsigned 128 bit integer type .
* \ see \ ref inttypes
*/
/**
* \ ingroup datatypes
* \ typedef RwBool
*
* Boolean type .
* \ see \ ref inttypes
*/
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/batype.h ---*/
/****************************************************************************
Defines
*/
/*
* Object Types - these are used in the binary object
* representations and in the debug library . They must
* be unique . They are the old system .
*/
# define rwID_DATABASE 0x64617462 /* datb */
# define MAKECHUNKID(vendorID, chunkID) (((vendorID & 0xFFFFFF) << 8) | (chunkID & 0xFF))
# define GETOBJECTID(chunkID) (chunkID & 0xFF)
# define GETVENDORID(chunkID) ((chunkID >> 8) & 0xFFFFFF)
/***
* * * These are the vendor IDs . A customer must reserve a vendor ID in order
* * * to be able to write toolkits ( this prevents clashes between toolkits ) .
* * * We reserve some for our own use as shown below . These are all 24 bit .
* * *
* * * IMPORTANT NOTE : DO NOT UNDER ANY CIRCUMSTANCES CHANGE THESE VALUES . IF
* * * YOU ARE ADDING A NEW ONE , APPEND IT !
* * *
* * * They must all be unique .
* * */
enum RwPluginVendor
{
rwVENDORID_CORE = 0x000000L ,
rwVENDORID_CRITERIONTK = 0x000001L ,
rwVENDORID_REDLINERACER = 0x000002L ,
rwVENDORID_CSLRD = 0x000003L ,
rwVENDORID_CRITERIONINT = 0x000004L ,
rwVENDORID_CRITERIONWORLD = 0x000005L ,
rwVENDORID_BETA = 0x000006L ,
rwVENDORID_CRITERIONRM = 0x000007L ,
rwVENDORID_CRITERIONRWA = 0x000008L , /* RenderWare Audio */
rwPLUGINVENDORFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwPluginVendor RwPluginVendor ;
/***
* * * These are the core objects ( 8 bit IDs ) . They must all be unique .
* * * We can get away without using the MAKECHUNKID macro because the
* * * vendor ID in all cases will be zero ( rwVENDORID_CORE ) .
* * *
* * * IMPORTANT NOTE : DO NOT UNDER ANY CIRCUMSTANCES CHANGE THESE VALUES . IF
* * * YOU ARE ADDING A NEW ONE , APPEND IT !
* * */
/* These are the internal ones. Because the core ID is 0, we can get away without
* using the MAKECHUNKID macro for the CORE chunks .
*/
enum RwCorePluginID
{
rwID_NAOBJECT = 0x00 ,
rwID_STRUCT = 0x01 ,
rwID_STRING = 0x02 ,
rwID_EXTENSION = 0x03 ,
rwID_CAMERA = 0x05 ,
rwID_TEXTURE = 0x06 ,
rwID_MATERIAL = 0x07 ,
rwID_MATLIST = 0x08 ,
rwID_ATOMICSECT = 0x09 ,
rwID_PLANESECT = 0x0A ,
rwID_WORLD = 0x0B ,
rwID_SPLINE = 0x0C ,
rwID_MATRIX = 0x0D ,
rwID_FRAMELIST = 0x0E ,
rwID_GEOMETRY = 0x0F ,
rwID_CLUMP = 0x10 ,
rwID_LIGHT = 0x12 ,
rwID_UNICODESTRING = 0x13 ,
rwID_ATOMIC = 0x14 ,
rwID_TEXTURENATIVE = 0x15 ,
rwID_TEXDICTIONARY = 0x16 ,
rwID_ANIMDATABASE = 0x17 ,
rwID_IMAGE = 0x18 ,
rwID_SKINANIMATION = 0x19 ,
rwID_GEOMETRYLIST = 0x1A ,
rwID_HANIMANIMATION = 0x1B ,
rwID_TEAM = 0x1C ,
rwID_CROWD = 0x1D ,
rwID_DMORPHANIMATION = 0x1E ,
rwID_RIGHTTORENDER = 0x1f ,
rwID_MTEFFECTNATIVE = 0x20 ,
rwID_MTEFFECTDICT = 0x21 ,
rwID_TEAMDICTIONARY = 0x22 ,
rwID_PITEXDICTIONARY = 0x23 ,
rwID_TOC = 0x24 ,
rwID_PRTSTDGLOBALDATA = 0x25 ,
/* Insert before MAX and increment MAX */
rwID_COREPLUGINIDMAX = 0x26 ,
rwCOREPLUGINIDFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwCorePluginID RwCorePluginID ;
/***
* * * These are the Criterion internal plugin extensions . Use with rwVENDORID_CRITERIONINT .
* * *
* * * IMPORTANT NOTE : DO NOT UNDER ANY CIRCUMSTANCES CHANGE THESE VALUES . IF
* * * YOU ARE ADDING A NEW ONE , APPEND IT !
* * */
enum RwCriterionPluginID
{
rwID_COREPLUGIN = 0x01 ,
rwID_WORLDPLUGIN = 0x02 ,
rwID_TOOLPLUGIN = 0x03 ,
rwID_TOOL2PLUGIN = 0x04 ,
rwCRITERIONPLUGINIDFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwCriterionPluginID RwCriterionPluginID ;
/***
* * * These are the Criterion internal platform identifies .
* * *
* * * IMPORTANT NOTE : DO NOT UNDER ANY CIRCUMSTANCES CHANGE THESE VALUES . IF
* * * YOU ARE ADDING A NEW ONE , APPEND IT !
* * */
enum RwPlatformID
{
rwID_PCD3D7 = 1 ,
rwID_PCOGL ,
rwID_MAC ,
rwID_PS2 ,
rwID_XBOX ,
rwID_GAMECUBE ,
rwID_SOFTRAS ,
rwID_PCD3D8 ,
rwPLATFROMIDFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwPlatformID RwPlatformID ;
/****************************************************************************
Global Types
*/
typedef struct RwObject RwObject ;
/**
* \ ingroup datatypes
* \ struct RwObject
* This should be considered an opaque type . Use
* the RwObject API functions to access .
*/
struct RwObject
{
RwUInt8 type ; /**< Internal Use */
RwUInt8 subType ; /**< Internal Use */
RwUInt8 flags ; /**< Internal Use */
RwUInt8 privateFlags ; /**< Internal Use */
void * parent ; /**< Internal Use */
/* Often a Frame */
} ;
/**
* \ ingroup datatypes
* \ typedef RwObjectCallBack
* callback function supplied for object callback functions .
*
* \ return Pointer to the current object
*
* \ param object Pointer to the current object , supplied by
* iterator .
* \ param data Pointer to developer - defined data structure .
*
* \ see RwFrameForAllObjects
*
*/
typedef RwObject * ( * RwObjectCallBack ) ( RwObject * object , void * data ) ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* TYPE METHODS */
/* Creation/cloning */
# define rwObjectCopy(d,s) \
MACRO_START \
{ \
( ( RwObject * ) ( d ) ) - > type = \
( ( const RwObject * ) ( s ) ) - > type ; \
( ( RwObject * ) ( d ) ) - > subType = \
( ( const RwObject * ) ( s ) ) - > subType ; \
( ( RwObject * ) ( d ) ) - > flags = \
( ( const RwObject * ) ( s ) ) - > flags ; \
( ( RwObject * ) ( d ) ) - > privateFlags = \
( ( const RwObject * ) ( s ) ) - > privateFlags ; \
( ( RwObject * ) ( d ) ) - > parent = \
NULL ; \
} \
MACRO_STOP
# define rwObjectInitialize(o, t, s) \
MACRO_START \
{ \
( ( RwObject * ) ( o ) ) - > type = ( RwUInt8 ) ( t ) ; \
( ( RwObject * ) ( o ) ) - > subType = ( RwUInt8 ) ( s ) ; \
( ( RwObject * ) ( o ) ) - > flags = 0 ; \
( ( RwObject * ) ( o ) ) - > privateFlags = 0 ; \
( ( RwObject * ) ( o ) ) - > parent = NULL ; \
} \
MACRO_STOP
/* Debug */
# define RwObjectGetType(o) (((const RwObject *)(o))->type)
# define rwObjectSetType(o, t) (((RwObject *)(o))->type) = (RwUInt8)(t)
/* Sub type */
# define rwObjectGetSubType(o) (((const RwObject *)(o))->subType)
# define rwObjectSetSubType(o, t) (((RwObject *)(o))->subType) = (RwUInt8)(t)
/* Flags */
# define rwObjectGetFlags(o) (((const RwObject *)(o))->flags)
# define rwObjectSetFlags(o, f) (((RwObject *)(o))->flags) = (RwUInt8)(f)
# define rwObjectTestFlags(o, f) ((((const RwObject *)(o))->flags) & (RwUInt8)(f))
/* Private flags */
# define rwObjectGetPrivateFlags(c) (((const RwObject *)(c))->privateFlags)
# define rwObjectSetPrivateFlags(c,f) (((RwObject *)(c))->privateFlags) = (RwUInt8)(f)
# define rwObjectTestPrivateFlags(c,flag) ((((const RwObject *)(c))->privateFlags) & (RwUInt8)(flag))
/* Hierarchy */
# define rwObjectGetParent(object) (((const RwObject *)(object))->parent)
# define rwObjectSetParent(c,p) (((RwObject *)(c))->parent) = (void *)(p)
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/os/win/osintf.h ---*/
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/rwstring.h ---*/
/****************************************************************************
Defines
*/
# define rwsprintf RWSRCGLOBAL(stringFuncs).vecSprintf
# define rwvsprintf RWSRCGLOBAL(stringFuncs).vecVsprintf
# define rwstrcpy RWSRCGLOBAL(stringFuncs).vecStrcpy
# define rwstrncpy RWSRCGLOBAL(stringFuncs).vecStrncpy
# define rwstrcat RWSRCGLOBAL(stringFuncs).vecStrcat
# define rwstrncat RWSRCGLOBAL(stringFuncs).vecStrncat
# define rwstrrchr RWSRCGLOBAL(stringFuncs).vecStrrchr
# define rwstrchr RWSRCGLOBAL(stringFuncs).vecStrchr
# define rwstrstr RWSRCGLOBAL(stringFuncs).vecStrstr
# define rwstrcmp RWSRCGLOBAL(stringFuncs).vecStrcmp
# define rwstricmp RWSRCGLOBAL(stringFuncs).vecStricmp
# define rwstrlen RWSRCGLOBAL(stringFuncs).vecStrlen
# define rwstrupr RWSRCGLOBAL(stringFuncs).vecStrupr
# define rwstrlwr RWSRCGLOBAL(stringFuncs).vecStrlwr
# define rwstrtok RWSRCGLOBAL(stringFuncs).vecStrtok
# define rwsscanf RWSRCGLOBAL(stringFuncs).vecSscanf
# define rwstrdup(_result, _string) \
do \
{ \
_result = ( ( RwChar * ) NULL ) ; \
\
if ( ( ( RwChar * ) NULL ) ! = ( _string ) ) \
{ \
_result = ( RwChar * ) \
RwMalloc ( ( rwstrlen ( _string ) + 1 ) * \
sizeof ( RwChar ) ) ; \
\
if ( ( ( RwChar * ) NULL ) ! = ( _result ) ) \
{ \
rwstrcpy ( _result , _string ) ; \
} \
} \
} \
while ( 0 )
/****************************************************************************
Global Types
*/
typedef int ( * vecSprintfFunc ) ( RwChar * buffer ,
const RwChar * format ,
. . . ) /* __RWFORMAT__(printf, 2, 3) */ ;
typedef int ( * vecVsprintfFunc ) ( RwChar * buffer ,
const RwChar * format ,
va_list argptr ) ;
typedef RwChar * ( * vecStrcpyFunc ) ( RwChar * dest ,
const RwChar * srce ) ;
typedef RwChar * ( * vecStrncpyFunc ) ( RwChar * dest ,
const RwChar * srce ,
size_t size ) ;
typedef RwChar * ( * vecStrcatFunc ) ( RwChar * dest ,
const RwChar * srce ) ;
typedef RwChar * ( * vecStrncatFunc ) ( RwChar * dest ,
const RwChar * srce ,
size_t size ) ;
typedef RwChar * ( * vecStrrchrFunc ) ( const RwChar * string ,
int findThis ) ;
typedef RwChar * ( * vecStrchrFunc ) ( const RwChar * string ,
int findThis ) ;
typedef RwChar * ( * vecStrstrFunc ) ( const RwChar * string ,
const RwChar * findThis ) ;
typedef int ( * vecStrcmpFunc ) ( const RwChar * string1 ,
const RwChar * string2 ) ;
typedef int ( * vecStricmpFunc ) ( const RwChar * string1 ,
const RwChar * string2 ) ;
typedef size_t ( * vecStrlenFunc ) ( const RwChar * string ) ;
typedef RwChar * ( * vecStruprFunc ) ( RwChar * string ) ;
typedef RwChar * ( * vecStrlwrFunc ) ( RwChar * string ) ;
typedef RwChar * ( * vecStrtokFunc ) ( RwChar * string , const RwChar * delimit ) ;
typedef int ( * vecSscanfFunc ) ( const RwChar * buffer ,
const RwChar * format ,
. . . ) /* __RWFORMAT__(scanf, 2, 3) */ ;
typedef struct RwStringFunctions RwStringFunctions ;
struct RwStringFunctions
{
vecSprintfFunc vecSprintf ;
vecVsprintfFunc vecVsprintf ;
vecStrcpyFunc vecStrcpy ;
vecStrncpyFunc vecStrncpy ;
vecStrcatFunc vecStrcat ;
vecStrncatFunc vecStrncat ;
vecStrrchrFunc vecStrrchr ;
vecStrchrFunc vecStrchr ;
vecStrstrFunc vecStrstr ;
vecStrcmpFunc vecStrcmp ;
vecStricmpFunc vecStricmp ;
vecStrlenFunc vecStrlen ;
vecStruprFunc vecStrupr ;
vecStrlwrFunc vecStrlwr ;
vecStrtokFunc vecStrtok ;
vecSscanfFunc vecSscanf ;
} ;
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/rwdbgerr.h ---*/
# define RWECODE(a,b) a,
/* Construct an enum type with all the plugin error codes (for the app to use) */
enum RwErrorCodePlugin_errcore
{
# include "errcore.def"
rwLASTERROR_errcore = RWFORCEENUMSIZEINT
} ;
typedef enum RwErrorCodePlugin_errcore RwErrorCodePlugin_errcore ;
# undef RWECODE
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/resmem.h ---*/
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bamemory.h ---*/
# if (defined(RWMEMDEBUG))
# ifdef _XBOX
/* Need OutputDebugString macros */
# include <xtl.h>
# endif
# endif
/****************************************************************************
Defines
*/
/*
* Debug fill bytes for compatibility with MSVC / C + + debug heap
* See
* \ Program Files \ Microsoft Visual Studio \ VC98 \ CRT \ SRC \ DBGHEAP . C :
* static unsigned char _bNoMansLandFill = 0xFD ;
* // fill no-man's land with this
* static unsigned char _bDeadLandFill = 0xDD ;
* // fill free objects with this
* static unsigned char _bCleanLandFill = 0xCD ;
* // fill new objects with this
*/
# if (!defined(rwFREELISTNOMANSLANDFILL))
# define rwFREELISTNOMANSLANDFILL 0xFD
# endif /* (!defined(rwFREELISTNOMANSLANDFILL)) */
# if (!defined(rwFREELISTDEADLANDFILL))
# define rwFREELISTDEADLANDFILL 0xDD
# endif /* (!defined(rwFREELISTDEADLANDFILL)) */
# if (!defined(rwFREELISTCLEANLANDFILL))
# define rwFREELISTCLEANLANDFILL 0xCD
# endif /* (!defined(rwFREELISTCLEANLANDFILL)) */
# define RWFREELISTALIGNED(_pData, _freelist) \
( ! ( ( ( RwUInt32 ) ( _pData ) ) & ( ( _freelist ) - > alignmentMinusOne ) ) )
/*****************************
* REGULAR MEMORY ALLOCATION *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/**
* \ ingroup rwmem
* \ def RwMalloc
* RwMalloc ( _s ) is a macro for malloc ( _s ) .
*/
/**
* \ ingroup rwmem
* \ def RwFree
* RwFree ( _p ) is a macro for free ( _p ) .
*/
/**
* \ ingroup rwmem
* \ def RwCalloc
* RwCalloc ( _n , _s ) is a macro for calloc ( _n , _s ) .
*/
/**
* \ ingroup rwmem
* \ def RwRealloc
* RwRealloc ( _p , _s ) is a macro for realloc ( _p , _s ) .
*/
# if ( (defined(RWMEMDEBUG)) && defined(RWDEBUG) )
# if (!defined(RWNOFREELISTS))
# define RWNOFREELISTS
# endif /* (!defined(RWNOFREELISTS)) */
# if (defined(rwPLUGIN_ID))
# define _CLIENT_TAG \
( 0xFFFF & ( rwPLUGIN_ID ) )
# endif /* (defined(rwPLUGIN_ID)) */
# if (!defined(_CLIENT_TAG))
# define _CLIENT_TAG \
( 0xFFFF & ( MAKECHUNKID ( rwVENDORID_CRITERIONTK , 0x00 ) ) )
# endif /* (!defined(_CLIENT_TAG)) */
# if (defined(_MSC_VER))
# if ((_MSC_VER>=1000) && defined(_DEBUG))
/* Pick up _ASSERTE() macro */
/* #include <windows.h> */
# if (defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC))
# define _CRTDBG_MAP_ALLOC
# endif /* defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC)) */
# include <crtdbg.h>
# define RwMalloc(_s) \
_malloc_dbg ( ( _s ) , \
_CLIENT_BLOCK | ( ( _CLIENT_TAG ) < < 16 ) , \
__FILE__ , \
__LINE__ )
# define RwFree(_p) \
_free_dbg ( ( _p ) , \
_CLIENT_BLOCK | ( ( _CLIENT_TAG ) < < 16 ) )
# define RwCalloc(_n, _s) \
_calloc_dbg ( ( _n ) , ( _s ) , \
_CLIENT_BLOCK | ( ( _CLIENT_TAG ) < < 16 ) , \
__FILE__ , \
__LINE__ )
# define RwRealloc(_p, _s) \
_realloc_dbg ( ( _p ) , \
( _s ) , \
_CLIENT_BLOCK | ( ( _CLIENT_TAG ) < < 16 ) , \
__FILE__ , \
__LINE__ )
# define RWCRTORDBGFLAG(_flag) \
do \
{ \
int _DbgFlag ; \
\
_DbgFlag = _CrtSetDbgFlag ( _CRTDBG_REPORT_FLAG ) ; \
_DbgFlag | = ( _flag ) ; \
_CrtSetDbgFlag ( _DbgFlag ) ; \
} while ( 0 )
# define VALID_HEAP_STR \
__FILE__ # # " ( " # # RW_STRINGIFY_EXPANDED ( __LINE__ ) # # " ): valid heap \n "
# define RWCRTCHECKMEMORY() \
do \
{ \
int valid_heap ; \
\
valid_heap = _CrtCheckMemory ( ) ; \
_ASSERTE ( valid_heap ) ; \
} while ( 0 )
/*
* if ( valid_heap ) \
* OutputDebugString ( VALID_HEAP_STR ) ; \
*/
# define NO_LEAKS_FOUND_STR \
__FILE__ # # " ( " # # RW_STRINGIFY_EXPANDED ( __LINE__ ) # # " ): no heap leaks found \n "
# define RWCRTDUMPMEMORYLEAKS() \
do \
{ \
int leaks_found ; \
\
leaks_found = _CrtDumpMemoryLeaks ( ) ; \
_ASSERTE ( ! leaks_found ) ; \
if ( ! leaks_found ) \
OutputDebugString ( NO_LEAKS_FOUND_STR ) ; \
} while ( 0 )
# define HEAP_DIFFERENCES_FOUND_STR \
__FILE__ # # " ( " # # RW_STRINGIFY_EXPANDED ( __LINE__ ) # # " ): heap differences found \n "
# define NO_DIFFERENCES_FOUND_STR \
__FILE__ # # " ( " # # RW_STRINGIFY_EXPANDED ( __LINE__ ) # # " ): no heap differences found \n "
# define RWCRTHEAPDIFFERENCESINCE(_Then) \
do \
{ \
/* only dump differences when \
* there are in fact differences */ \
_CrtMemState _Now ; \
_CrtMemState _Delta ; \
const int _DbgFlag = _CrtSetDbgFlag ( _CRTDBG_REPORT_FLAG ) ; \
int Differences ; \
\
_CrtMemCheckpoint ( & _Now ) ; \
_CrtMemDifference ( & _Delta , _Then , & _Now ) ; \
\
( Differences ) = ( ( 0 ! = _Delta . lCounts [ _CLIENT_BLOCK ] ) | | \
( 0 ! = _Delta . lCounts [ _NORMAL_BLOCK ] ) | | \
( ( _DbgFlag & _CRTDBG_CHECK_CRT_DF ) & & \
( 0 ! = _Delta . lCounts [ _CRT_BLOCK ] ) ) ) ; \
\
if ( ( Differences ) ) \
{ \
/* difference detected: dump objects since _Then. */ \
OutputDebugString ( HEAP_DIFFERENCES_FOUND_STR ) ; \
_CrtMemDumpAllObjectsSince ( _Then ) ; \
_CrtMemDumpStatistics ( & _Delta ) ; \
} \
else \
{ \
OutputDebugString ( NO_DIFFERENCES_FOUND_STR ) ; \
} \
} while ( 0 )
# define RWCRTDBGBREAK() \
_CrtDbgBreak ( )
# define RWCRTDOFORALLCLIENTOBJECTS(_f, _c) \
_CrtDoForAllClientObjects ( _f , _c )
# define RWCRTISMEMORYBLOCK(_p, _t, _r, _f, _l) \
_CrtIsMemoryBlock ( _p , _t , _r , _f , _l )
# define RWCRTISVALIDHEAPPOINTER(_p) \
_CrtIsValidHeapPointer ( _p )
# define RWCRTISVALIDPOINTER(_p, _n, _r) \
_CrtIsValidPointer ( _p , _n , _r )
# define RWCRTMEMCHECKPOINT(_s) \
_CrtMemCheckpoint ( _s )
# define RWCRTMEMDIFFERENCE(_s1, _s2, _s3) \
_CrtMemDifference ( _s1 , _s2 , _s3 )
# define RWCRTMEMDUMPALLOBJECTSSINCE(_s) \
_CrtMemDumpAllObjectsSince ( _s )
# define RWCRTMEMDUMPSTATISTICS(_s) \
_CrtMemDumpStatistics ( _s )
# define RWCRTSETALLOCHOOK(_f) \
_CrtSetAllocHook ( _f )
# define RWCRTSETBREAKALLOC(_a) \
_CrtSetBreakAlloc ( _a )
# define RWCRTSETDBGFLAG(_f) \
_CrtSetDbgFlag ( _f )
# define RWCRTSETDUMPCLIENT(_f) \
_CrtSetDumpClient ( _f )
# define RWCRTSETREPORTFILE(_t, _f) \
_CrtSetReportFile ( _t , _f )
# define RWCRTSETREPORTHOOK(_f) \
_CrtSetReportHook ( _f )
# define RWCRTSETREPORTMODE(_t, _f) \
_CrtSetReportMode ( _t , _f )
# if (!defined(_CRTDBG_FLAGS))
# define _CRTDBG_FLAGS \
( ( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_DELAY_FREE_MEM_DF | \
_CRTDBG_CHECK_CRT_DF | _CRTDBG_LEAK_CHECK_DF ) & \
~ ( _CRTDBG_CHECK_ALWAYS_DF | _CRTDBG_RESERVED_DF ) )
# endif /* (!defined(_CRTDBG_FLAGS)) */
# endif /* ((_MSC_VER>=1000) && defined(_DEBUG)) */
# endif /* (defined(_MSC_VER)) */
# if (!defined(rwDEADPTRFILL))
# define rwDEADPTRFILL ((void *)0xDDDDDDDD)
# endif /* (!defined(rwDEADPTRFILL)) */
# endif /* (defined(RWDEBUG) && (defined(RWMEMDEBUG))) */
# if (!defined(rwDEADPTRFILL))
# define rwDEADPTRFILL (NULL)
# endif /* (!defined(rwDEADPTRFILL)) */
# if (!defined(RwMalloc))
# define RwMalloc(_s) ((RWSRCGLOBAL(memoryFuncs).rwmalloc)((_s)))
# endif /* (!defined(RwMalloc)) */
# if (!defined(RwFree))
# define RwFree(_p) ((RWSRCGLOBAL(memoryFuncs).rwfree)((_p)))
# endif /* (!defined(RwFree)) */
# if (!defined(RwCalloc))
# define RwCalloc(_n, _s) ((RWSRCGLOBAL(memoryFuncs).rwcalloc)((_n), (_s)))
# endif /* (!defined(RwCalloc)) */
# if (!defined(RwRealloc))
# define RwRealloc(_p, _s) ((RWSRCGLOBAL(memoryFuncs).rwrealloc)((_p),(_s)))
# endif /* (!defined(RwRealloc)) */
# if (!defined(RWCRTORDBGFLAG))
# define RWCRTORDBGFLAG(_flag) /* No op */
# endif /* (!defined(RWCRTORDBGFLAG)) */
# if (!defined(RWCRTCHECKMEMORY))
# define RWCRTCHECKMEMORY() /* No Op */
# endif /* (!defined(RWCRTCHECKMEMORY)) */
# if (!defined(RWCRTDBGBREAK))
# define RWCRTDBGBREAK() /* No Op */
# endif /* (!defined(RWCRTDBGBREAK)) */
# if (!defined(RWCRTDOFORALLCLIENTOBJECTS))
# define RWCRTDOFORALLCLIENTOBJECTS(_f, _c) /* No Op */
# endif /* (!defined(RWCRTDOFORALLCLIENTOBJECTS)) */
# if (!defined(RWCRTDUMPMEMORYLEAKS))
# define RWCRTDUMPMEMORYLEAKS() /* No Op */
# endif /* (!defined(RWCRTDUMPMEMORYLEAKS)) */
# if (!defined(RWCRTHEAPDIFFERENCESINCE))
# define RWCRTHEAPDIFFERENCESINCE(_Then) /* No Op */
# endif /* (!defined(RWCRTHEAPDIFFERENCESINCE)) */
# if (!defined(RWCRTISMEMORYBLOCK))
# define RWCRTISMEMORYBLOCK(_p, _t, _r, _f, _l) (NULL != (_p))
# endif /* (!defined(RWCRTISMEMORYBLOCK)) */
# if (!defined(RWCRTISVALIDHEAPPOINTER))
# define RWCRTISVALIDHEAPPOINTER(_p) (NULL != (_p))
# endif /* (!defined(RWCRTISVALIDHEAPPOINTER)) */
# if (!defined(RWCRTISVALIDPOINTER))
# define RWCRTISVALIDPOINTER(_p, _n, _r) (NULL != (_p))
# endif /* (!defined(RWCRTISVALIDPOINTER)) */
# if (!defined(RWCRTMEMCHECKPOINT))
# define RWCRTMEMCHECKPOINT(_s) /* No Op */
# endif /* (!defined(RWCRTMEMCHECKPOINT)) */
# if (!defined(RWCRTMEMDIFFERENCE))
# define RWCRTMEMDIFFERENCE(_s1, _s2, _s3) /* No Op */
# endif /* (!defined(RWCRTMEMDIFFERENCE)) */
# if (!defined(RWCRTMEMDUMPALLOBJECTSSINCE))
# define RWCRTMEMDUMPALLOBJECTSSINCE(_s) /* No Op */
# endif /* (!defined(RWCRTMEMDUMPALLOBJECTSSINCE)) */
# if (!defined(RWCRTMEMDUMPSTATISTICS))
# define RWCRTMEMDUMPSTATISTICS(_s) (NULL)
# endif /* (!defined(RWCRTMEMDUMPSTATISTICS)) */
# if (!defined(RWCRTSETALLOCHOOK))
# define RWCRTSETALLOCHOOK(_f) (NULL)
# endif /* (!defined(RWCRTSETALLOCHOOK)) */
# if (!defined(RWCRTSETBREAKALLOC))
# define RWCRTSETBREAKALLOC(_a) (0)
# endif /* (!defined(RWCRTSETBREAKALLOC)) */
# if (!defined(RWCRTSETDBGFLAG))
# define RWCRTSETDBGFLAG(_f) (0)
# endif /* (!defined(RWCRTSETDBGFLAG)) */
# if (!defined(RWCRTSETDUMPCLIENT))
# define RWCRTSETDUMPCLIENT(_f) (NULL)
# endif /* (!defined(RWCRTSETDUMPCLIENT)) */
# if (!defined(RWCRTSETREPORTFILE))
# define RWCRTSETREPORTFILE(_t, _f) (NULL)
# endif /* (!defined(RWCRTSETREPORTFILE)) */
# if (!defined(RWCRTSETREPORTHOOK))
# define RWCRTSETREPORTHOOK(_f) (NULL)
# endif /* (!defined(RWCRTSETREPORTHOOK)) */
# if (!defined(RWCRTSETREPORTMODE))
# define RWCRTSETREPORTMODE(_t, _f) (0)
# endif /* (!defined(RWCRTSETREPORTMODE)) */
# if (!defined(RWREGSETBREAKALLOC))
# define RWREGSETBREAKALLOC(_name) /* No op */
# endif /* (!defined(RWREGSETBREAKALLOC)) */
# if (!defined(RWREGSETASSERTPRINT))
# define RWREGSETASSERTPRINT(_name) /* No op */
# endif /* (!defined(RWREGSETASSERTPRINT)) */
# if (!defined(RWGETWINREGDWORD))
# define RWGETWINREGDWORD(_env_var, _match) /* No op */
# endif /* (!defined(RWGETWINREGDWORD)) */
# if (!defined(RWGETWINREGBINARY))
# define RWGETWINREGBINARY(_env_var, _match) /* No op */
# endif /* (!defined(RWGETWINREGBINARY)) */
# if (!defined(RWGETWINREGSTRING))
# define RWGETWINREGSTRING(_env_var, _match) /* No op */
# endif /* (!defined(RWGETWINREGSTRING)) */
# if (!defined(_CRTDBG_FLAGS))
# define _CRTDBG_FLAGS 0x33
# endif /* (!defined(_CRTDBG_FLAGS)) */
/****************************************************************************
Global Types
*/
typedef struct RwMemoryFunctions RwMemoryFunctions ;
/**
* \ ingroup datatypes
* \ struct RwMemoryFunctions
* This type represents the memory functions used
* by RenderWare . By default , the standard ANSI functions are used . The
* application may install an alternative interface providing that it is ANSI
* compliant ( see API function \ ref RwEngineInit ) :
*/
struct RwMemoryFunctions
{
/* c.f.
* Program Files / Microsoft Visual Studio / VC98 / Include / MALLOC . H
*/
void * ( * rwmalloc ) ( size_t size ) ; /**< rwmalloc malloc */
void ( * rwfree ) ( void * mem ) ; /**< rwfree free */
void * ( * rwrealloc ) ( void * mem , size_t newSize ) ; /**< rwrealloc realloc */
void * ( * rwcalloc ) ( size_t numObj , size_t sizeObj ) ; /**< calloc calloc */
} ;
typedef struct RwFreeBlock RwFreeBlock ;
/*
* Freelists - - from Page 131
* Advanced Animation and Rendering Techniques
* Alan Watt and Mark Watt
* Addison - Wesley 1993 ,
* ISBN 0 - 201 - 54412 - 1 :
*
* " Lastly, on a more general note concerning speedups for renderers, the
* implementor should be aware that a lot of suggestions for improving
* efficiency fall into the category of ingenious , but complex ,
* algorithms for very specific contexts that may save a few microseconds
* but which make your code unreadable . A more general computer science
* perspective that takes a ` global view ' of the renderer can be more
* fruitful . For example , the renderer devotes a lot of time to
* allocating and deallocating chunks of memory for storing data . A lot
* of these chunks are always the same size - such as those that are
* continually required to store the data structure for fragment lists .
* Using memory management techniques that recognize this fact can yield
* considerable dividends . One such scheme would be to hold a series of
* empty lists in memory for all the commonly used data structures . An
* empty list for fragments , say , would contain a list of previously
* allocated , but no longer needed , fragment structures . When the
* renderer needs memory for a new fragment , it looks first at this empty
* list . If there is nothing there it allocates space directly ,
* otherwise it takes a fragments off the end of the list and uses that .
* Conversely , when the renderer no longer needs a fragment , instead of
* freeing it , it goes onto the end of the empty list . In the authors '
* experience , replacing the naive allocate / deallocate scheme with this
* way of managing memory can result in 100 % speedup . "
*/
struct RwFreeBlock
{
RwFreeBlock * nextBlock ;
} ;
typedef struct RwFreeList RwFreeList ;
struct RwFreeList
{
void * * freeListStack ; /* Stack of unused entries */
void * * freeListStackTop ; /* Pointer to the top of the stack */
RwFreeBlock * firstBlock ; /* Data start */
RwInt32 blockSize ; /* Size of block in bytes */
RwInt32 entrySize ; /* Entry size */
RwInt32 alignmentMinusOne ; /* Entry alignment minus 1 */
RwInt32 entriesPerBlock ; /* Amount of space in a block */
RwInt32 entriesAllocated ; /* Total slots allocated
* ( but not necessarily being used */
/* All freelists */
RwLLLink lFreeList ;
# if (defined(RWDEBUG) && !defined(DOXYGEN))
const RwChar * fileCreate ;
RwUInt32 lineCreate ;
# endif /* (defined(RWDEBUG) && !defined(DOXYGEN)) */
} ;
/**
* \ ingroup datatypes
* \ ref RwFreeListCallBack represents
* the function called from \ ref RwFreeListForAllUsed for all used entries in a
* given free list .
*
* \ param pMem Pointer to the start of the current entries .
*
* \ param pData User - defined data pointer .
*
* \ see RwFreeListForAllUsed
*
*/
typedef void ( * RwFreeListCallBack ) ( void * pMem , void * pData ) ;
typedef void * ( * RwMemoryAllocFn ) ( RwFreeList * fl ) ;
typedef RwFreeList * ( * RwMemoryFreeFn ) ( RwFreeList * fl , void * pData ) ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
extern RwMemoryFunctions * RwOsGetMemoryInterface ( void ) ;
/*************
* FREELISTS *
* * * * * * * * * * * * */
/* Allocation and freeing */
# if (defined(RWDEBUG) && !defined(DOXYGEN))
extern RwFreeList * _rwFreeListCreate ( RwInt32 entrySize ,
RwInt32 entriesPerBlock ,
RwInt32 alignment ,
const RwChar * fileCreate ,
RwUInt32 lineCreate ) ;
# define RwFreeListCreate(entrySize, entriesPerBlock, alignment) \
_rwFreeListCreate ( entrySize , \
entriesPerBlock , \
alignment , \
__FILE__ , \
__LINE__ )
# else /* (defined(RWDEBUG) && !defined(DOXYGEN)) */
extern RwFreeList * RwFreeListCreate ( RwInt32 entrySize ,
RwInt32 entriesPerBlock ,
RwInt32 alignment ) ;
# endif /* (defined(RWDEBUG) && !defined(DOXYGEN)) */
extern RwBool RwFreeListDestroy ( RwFreeList * freelist ) ;
/* Garbage collection/enumeration */
extern RwInt32 RwFreeListPurge ( RwFreeList * freelist ) ;
extern RwFreeList * RwFreeListForAllUsed ( RwFreeList * freelist ,
RwFreeListCallBack
fpCallBack , void * pData ) ;
extern RwInt32 RwFreeListPurgeAllFreeLists ( void ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
# if (defined(RWDEBUG) && defined(RWNOFREELISTS) && !defined(RWKEEPFREELISTS))
# if ((defined(__MWERKS__) || defined(__GNUC__)) && defined(__R5900__))
/*
* for more on memalign , see
* http : //www.gnu.org/manual/glibc-2.0.6/html_chapter/libc_3.html#SEC28
*/
# include <rtdbmalloc.h>
# define RwFreeListAlloc(_f) \
memalign ( ( 1 + ( _f ) - > alignmentMinusOne ) , ( _f ) - > entrySize )
# else /* ((defined(__MWERKS__) || defined(__GNUC__)) && defined(__R5900__)) */
# define RwFreeListAlloc(_f) \
RwMalloc ( ( _f ) - > entrySize )
# endif /* ((defined(__MWERKS__) || defined(__GNUC__)) && defined(__R5900__)) */
# define RwFreeListFree(_f, _p) \
RwFree ( ( _p ) )
# endif /* (defined(RWDEBUG) && defined(RWNOFREELISTS) && !defined(RWKEEPFREELISTS)) */
# if (!defined(RwFreeListAlloc))
# define RwFreeListAlloc(_f) \
RWSRCGLOBAL ( memoryAlloc ) ( _f )
# endif /* (!defined(RwFreeListAlloc)) */
# if (!defined(RwFreeListFree))
# define RwFreeListFree(_f, _p) \
RWSRCGLOBAL ( memoryFree ) ( _f , _p )
# endif /* (!defined(RwFreeListFree)) */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bastream.h ---*/
/****************************************************************************
Defines
*/
# define rwSTREAMSTACKSIZE 512
/****************************************************************************
Global Types
*/
/**
* \ ingroup datatypes
* \ ref RwStreamType
* This type represents the different types of stream that
* can be used .
* See API section \ ref rwstream
*/
enum RwStreamType
{
rwNASTREAM = 0 , /**<Invalid stream type */
rwSTREAMFILE , /**<File */
rwSTREAMFILENAME , /**<File name */
rwSTREAMMEMORY , /**<Memory*/
rwSTREAMCUSTOM , /**<Custom */
rwSTREAMTYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwStreamType RwStreamType ;
/**
* \ ingroup datatypes
* \ ref RwStreamAccessType
* This type represents the options available for
* accessing a stream when it is opened .
* See API section \ ref rwstream */
enum RwStreamAccessType
{
rwNASTREAMACCESS = 0 , /**<Invalid stream access */
rwSTREAMREAD , /**<Read */
rwSTREAMWRITE , /**<Write */
rwSTREAMAPPEND , /**<Append */
rwSTREAMACCESSTYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwStreamAccessType RwStreamAccessType ;
/* Memory stream */
/**
* \ ingroup datatypes
* \ typedef RwStreamMemory
* This should be considered an opaque type .
* Use the RwStream API functions to access .
*/
typedef struct RwStreamMemory RwStreamMemory ;
# if (!defined(DOXYGEN))
struct RwStreamMemory
{
RwUInt32 position ; /* Current 'memory' position 0 is first byte */
RwUInt32 nSize ; /* Space allocated currently */
RwUInt8 * memBlock ; /* Current memory block pointer */
} ;
# endif /* (!defined(DOXYGEN)) */
typedef union RwStreamFile RwStreamFile ;
/**
* \ ingroup datatypes
* \ union RwStreamFile
* This type is used to represent a file pointer for
* accessing data on disk through the stream mechanism .
* See API section \ ref rwstream . */
union RwStreamFile
{
void * fpFile ; /**< file pointer */
const void * constfpFile ; /**< const file pointer */
} ;
/* Custom stream function pointer types */
typedef RwBool ( * rwCustomStreamFnClose ) ( void * data ) ;
typedef RwUInt32 ( * rwCustomStreamFnRead ) ( void * data , void * buffer ,
RwUInt32 length ) ;
typedef RwBool ( * rwCustomStreamFnWrite ) ( void * data ,
const void * buffer ,
RwUInt32 length ) ;
typedef RwBool ( * rwCustomStreamFnSkip ) ( void * data ,
RwUInt32 offset ) ;
/* Custom stream */
/**
* \ ingroup datatypes
* \ typedef RwStreamCustom
* This should be considered an opaque type .
* Use the RwStream API functions to access .
*/
typedef struct RwStreamCustom RwStreamCustom ;
# if (!defined(DOXYGEN))
struct RwStreamCustom
{
rwCustomStreamFnClose sfnclose ;
rwCustomStreamFnRead sfnread ;
rwCustomStreamFnWrite sfnwrite ;
rwCustomStreamFnSkip sfnskip ;
void * data ;
} ;
# endif /* (!defined(DOXYGEN)) */
/* Stream */
typedef union RwStreamUnion RwStreamUnion ;
/**
* \ ingroup datatypes
* \ union RwStreamUnion
* The union of all supported stream types
*/
union RwStreamUnion
{
RwStreamMemory memory ; /**< memory */
RwStreamFile file ; /**< file */
RwStreamCustom custom ; /**< custom */
} ;
/**
* \ ingroup datatypes
* \ typedef RwStream
* Binary stream for reading or writing object data .
* This should be considered an opaque type .
* Use the RwStream API functions to access .
*/
typedef struct RwStream RwStream ;
# if (!defined(DOXYGEN))
struct RwStream
{
RwStreamType type ;
RwStreamAccessType accessType ;
RwInt32 position ;
RwStreamUnion Type ;
RwBool rwOwned ;
} ;
# endif /* (!defined(DOXYGEN)) */
typedef struct RwMemory RwMemory ;
/**
* \ ingroup datatypes
* \ struct RwMemory
* This type represents a block of allocated memory .
* It is used to specify an area of memory connected to a stream of type
* rwSTREAMMEMORY .
* See \ ref rwstream */
struct RwMemory
{
RwUInt8 * start ; /**< starting address */
RwUInt32 length ; /**< length in bytes*/
} ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Open/Close streams */
extern RwStream *
_rwStreamInitialize ( RwStream * stream ,
RwBool rwOwned ,
RwStreamType type ,
RwStreamAccessType accessType ,
const void * pData ) ;
extern RwStream *
RwStreamOpen ( RwStreamType type ,
RwStreamAccessType accessType ,
const void * pData ) ;
extern RwBool
RwStreamClose ( RwStream * stream ,
void * pData ) ;
/* Stream read/write */
extern RwUInt32
RwStreamRead ( RwStream * stream ,
void * buffer ,
RwUInt32 length ) ;
extern RwStream *
RwStreamWrite ( RwStream * stream ,
const void * buffer ,
RwUInt32 length ) ;
/* Stream skipping */
extern RwStream *
RwStreamSkip ( RwStream * stream ,
RwUInt32 offset ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/batkreg.h ---*/
/****************************************************************************
Global Types
*/
/**
* \ ingroup datatypes
* \ ref RwPluginDataChunkWriteCallBack represents the function
* registered by \ ref RwCameraRegisterPluginStream , etc . as the function that
* writes extension data to a binary stream .
*
* \ param stream Pointer to the binary stream
*
* \ param binaryLength A RwInt32 value equal to the binary
* size ( in bytes ) of the extension data that will be written to the binary
* stream .
*
* \ param object Pointer to the object containing the extension
* data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return Pointer to the stream
*/
typedef RwStream * ( * RwPluginDataChunkWriteCallBack ) ( RwStream * stream , RwInt32 binaryLength , const void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginDataChunkReadCallBack represents the function
* registered by \ ref RwCameraRegisterPluginStream , etc . as the function that
* reads extension data from a binary stream .
*
* \ param stream Pointer to the binary stream
*
* \ param binaryLength A RwInt32 value equal to the binary
* size ( in bytes ) of the extension data that will be read from a binary
* stream .
*
* \ param object Pointer to the object containing the extension
* data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return Pointer to the stream
*/
typedef RwStream * ( * RwPluginDataChunkReadCallBack ) ( RwStream * stream , RwInt32 binaryLength , void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginDataChunkGetSizeCallBack represents the callback
* registered by \ ref RwCameraRegisterPluginStream , etc . as the function that
* determines the binary size of the extension data .
*
* \ param object Pointer to the object containing the extension data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return A RwInt32 value equal to the size in bytes of the plugin extension data .
*/
typedef RwInt32 ( * RwPluginDataChunkGetSizeCallBack ) ( const void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginDataChunkAlwaysCallBack represents the callback
* registered by \ ref RwCameraSetStreamAlwaysCallBack , etc . as the
* function that is called after the reading of plugin stream data is
* finished ( useful to set up plugin data for plugins that found no
* data in the stream , but that cannot set up the data during the
* \ ref RwPluginObjectConstructor callback ) .
*
* \ param object Pointer to the object containing the extension data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*/
typedef RwBool ( * RwPluginDataChunkAlwaysCallBack ) ( void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginDataChunkRightsCallBack represents the callback
* registered by RwCameraSetStreamRightsCallBack , etc . as the
* function that is called after the reading of plugin stream data is
* finished , and the object finalised , if and only if the object ' s rights
* id was equal to that of the plugin registering the call .
* For convience the extension data is passed to the callback .
*
* \ param object Pointer to the object containing the extension data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ param extraData An RwUInt32 writen with the plugin id .
*/
typedef RwBool ( * RwPluginDataChunkRightsCallBack ) ( void * object , RwInt32 offsetInObject , RwInt32 sizeInObject , RwUInt32 extraData ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginObjectConstructor represents the callback
* registered by \ ref RwEngineRegisterPlugin , \ ref RwCameraRegisterPlugin , etc .
* as the function that initializes either the global extension data ( in the
* case of \ ref RwEngineRegisterPlugin ) or the object extension data ( in all
* other cases ) . Registered by \ ref RwCameraSetStreamAlwaysCallBack , etc .
*
* \ param object Pointer to the object ( global or otherwise )
* that contains the extension data .
*
* \ param offsetInObject A RwInt32 value equal to the
* byte offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return Pointer to the object
*/
typedef void * ( * RwPluginObjectConstructor ) ( void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginObjectCopy represents the callback registered by
* \ ref RwCameraRegisterPlugin , etc . as the function that copies the object
* extension data when an object is duplicated .
*
* \ param dstObject Pointer to the destination object that will
* receive the extension data .
*
* \ param srcObject Pointer to the source object containing
* extension data .
*
* \ param offsetInObject A RwInt32 value equal to the byte offset
* of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return Pointer to the object
*/
typedef void * ( * RwPluginObjectCopy ) ( void * dstObject , const void * srcObject , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
/**
* \ ingroup datatypes
* \ ref RwPluginObjectDestructor represents the callback registered
* by \ ref RwEngineRegisterPlugin , \ ref RwCameraRegisterPlugin , etc . as the
* function that destroys either the global extension data ( in the case of
* \ ref RwEngineRegisterPlugin ) or the object extension data ( in all other
* cases ) .
*
* \ param object Pointer to the object ( global or otherwise )
* containing the extension data .
*
* \ param offsetInObject A RwInt32 value equal to the byte
* offset of the extension data in the object .
*
* \ param sizeInObject A RwInt32 value equal to the size
* ( in bytes ) of the extension data .
*
* \ return Pointer to the object .
*/
typedef void * ( * RwPluginObjectDestructor ) ( void * object , RwInt32 offsetInObject , RwInt32 sizeInObject ) ;
typedef void * ( * RwPluginErrorStrCallBack ) ( void * ) ;
typedef struct RwPluginRegistry RwPluginRegistry ;
typedef struct RwPluginRegEntry RwPluginRegEntry ;
struct RwPluginRegistry
{
RwInt32 sizeOfStruct ;
RwInt32 origSizeOfStruct ;
RwInt32 maxSizeOfStruct ;
RwInt32 staticAlloc ;
RwPluginRegEntry * firstRegEntry ;
RwPluginRegEntry * lastRegEntry ;
} ;
struct RwPluginRegEntry
{
RwInt32 offset ;
RwInt32 size ;
RwUInt32 pluginID ;
RwPluginDataChunkReadCallBack readCB ;
RwPluginDataChunkWriteCallBack writeCB ;
RwPluginDataChunkGetSizeCallBack getSizeCB ;
RwPluginDataChunkAlwaysCallBack alwaysCB ;
RwPluginDataChunkRightsCallBack rightsCB ;
RwPluginObjectConstructor constructCB ;
RwPluginObjectDestructor destructCB ;
RwPluginObjectCopy copyCB ;
RwPluginErrorStrCallBack errStrCB ;
RwPluginRegEntry * nextRegEntry ;
RwPluginRegEntry * prevRegEntry ;
RwPluginRegistry * parentRegistry ;
} ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Registering toolkits and allocating memory */
extern RwBool
_rwPluginRegistrySetStaticPluginsSize ( RwPluginRegistry * reg ,
RwInt32 size ) ;
extern RwInt32
_rwPluginRegistryAddPlugin ( RwPluginRegistry * reg ,
RwInt32 size ,
RwUInt32 pluginID ,
RwPluginObjectConstructor constructCB ,
RwPluginObjectDestructor destructCB ,
RwPluginObjectCopy copyCB ) ;
extern RwInt32
_rwPluginRegistryGetPluginOffset ( const RwPluginRegistry * reg ,
RwUInt32 pluginID ) ;
/* Initializing/De-initializing instances */
extern const
RwPluginRegistry * _rwPluginRegistryInitObject ( const RwPluginRegistry * reg ,
void * object ) ;
extern const
RwPluginRegistry * _rwPluginRegistryDeInitObject ( const RwPluginRegistry * reg ,
void * object ) ;
extern const
RwPluginRegistry * _rwPluginRegistryCopyObject ( const RwPluginRegistry * reg ,
void * dstObject ,
const void * srcObject ) ;
# ifdef RWDEBUG
extern RwBool
_rwPluginRegistryValidateObject ( const RwPluginRegistry * reg ,
const void * object ) ;
# endif /* RWDEBUG */
# ifdef __cplusplus
}
# endif /* __cplusplus */
/* Compatibility macros */
# define rwPluginRegistryOpen() \
_rwPluginRegistryOpen ( )
# define rwPluginRegistryClose() \
_rwPluginRegistryClose ( )
# define rwPluginRegistrySetStaticPluginsSize(reg, size) \
_rwPluginRegistrySetStaticPluginsSize ( reg , size )
# define rwPluginRegistryAddPlugin(reg, size, pluginID, constructCB, destructCB, copyCB) \
_rwPluginRegistryAddPlugin ( reg , size , pluginID , constructCB , destructCB , copyCB )
# define rwPluginRegistryGetPluginOffset(reg, pluginID) \
_rwPluginRegistryGetPluginOffset ( reg , pluginID )
# define rwPluginRegistryInitObject(reg, object) \
_rwPluginRegistryInitObject ( reg , object )
# define rwPluginRegistryDeInitObject(reg, object) \
_rwPluginRegistryDeInitObject ( reg , object )
# define rwPluginRegistryCopyObject(reg, dstObject, srcObject) \
_rwPluginRegistryCopyObject ( reg , dstObject , srcObject )
# define rwPluginRegistryValidateObject(reg, object) \
_rwPluginRegistryValidateObject ( reg , object )
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/batkbin.h ---*/
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Plugin binary stream stuff */
extern RwInt32 _rwPluginRegistryAddPluginStream (
RwPluginRegistry * reg ,
RwUInt32 pluginID ,
RwPluginDataChunkReadCallBack readCB ,
RwPluginDataChunkWriteCallBack writeCB ,
RwPluginDataChunkGetSizeCallBack getSizeCB ) ;
extern RwInt32 _rwPluginRegistryAddPlgnStrmlwysCB (
RwPluginRegistry * reg ,
RwUInt32 pluginID ,
RwPluginDataChunkAlwaysCallBack alwaysCB ) ;
extern RwInt32 _rwPluginRegistryAddPlgnStrmRightsCB (
RwPluginRegistry * reg ,
RwUInt32 pluginID ,
RwPluginDataChunkRightsCallBack rightsCB ) ;
extern const RwPluginRegistry * _rwPluginRegistryReadDataChunks ( const RwPluginRegistry * reg ,
RwStream * stream ,
void * object ) ;
extern const RwPluginRegistry * _rwPluginRegistryWriteDataChunks ( const RwPluginRegistry * reg ,
RwStream * stream ,
const void * object ) ;
extern const RwPluginRegistry * _rwPluginRegistrySkipDataChunks ( const RwPluginRegistry * reg ,
RwStream * stream ) ;
extern RwInt32 _rwPluginRegistryGetSize ( const RwPluginRegistry * reg , const void * object ) ;
extern const RwPluginRegistry * _rwPluginRegistryInvokeRights ( const RwPluginRegistry * reg ,
RwUInt32 id ,
void * obj ,
RwUInt32 extraData ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/* Compatibility macros */
# define rwPluginRegistryAddPluginStream(reg, pluginID, readCB, writeCB, getSizeCB) \
_rwPluginRegistryAddPluginStream ( reg , pluginID , readCB , writeCB , getSizeCB )
# define rwPluginRegistryAddPluginStreamAlwaysCB(reg, pluginID, alwaysCB) \
_rwPluginRegistryAddPlgnStrmlwysCB ( reg , pluginID , alwaysCB )
# define rwPluginRegistryReadDataChunks(reg, stream, object) \
_rwPluginRegistryReadDataChunks ( reg , stream , object )
# define rwPluginRegistryWriteDataChunks(reg, stream, object) \
_rwPluginRegistryWriteDataChunks ( reg , stream , object )
# define rwPluginRegistrySkipDataChunks(reg, stream) \
_rwPluginRegistrySkipDataChunks ( reg , stream )
# define rwPluginRegistryGetSize(reg, object) \
_rwPluginRegistryGetSize ( reg , object )
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bamatrix.h ---*/
/****************************************************************************
Defines
*/
# define RWMATRIXALIGNMENT(_mat) \
( ! ( ( ( rwMATRIXALIGNMENT ) - 1 ) & ( ( RwUInt32 ) ( _mat ) ) ) )
# if (defined(RWMATRIXMONITOR))
# if (defined(_MSC_VER))
# if ((_MSC_VER>=1000) && defined(_DEBUG))
typedef char MatrixString [ 1024 ] ;
# define RWMATRIXPRINT(_matrix) \
MACRO_START \
{ \
MatrixString message ; \
MatrixString output ; \
\
if ( NULL ! = ( _matrix ) ) \
{ \
const RwV3d * const _x = & ( _matrix ) - > right ; \
const RwV3d * const _y = & ( _matrix ) - > up ; \
const RwV3d * const _z = & ( _matrix ) - > at ; \
const RwV3d * const _w = & ( _matrix ) - > pos ; \
\
_snprintf ( message , sizeof ( MatrixString ) , \
" [ [ %8.4f, %8.4f, %8.4f, %8.4f ] \n " \
" [ %8.4f, %8.4f, %8.4f, %8.4f ] \n " \
" [ %8.4f, %8.4f, %8.4f, %8.4f ] \n " \
" [ %8.4f, %8.4f, %8.4f, %8.4f ] ] \n " \
" %08x == flags \n " , \
_x - > x , _x - > y , _x - > z , ( RwReal ) 0 , \
_y - > x , _y - > y , _y - > z , ( RwReal ) 0 , \
_z - > x , _z - > y , _z - > z , ( RwReal ) 0 , \
_w - > x , _w - > y , _w - > z , ( RwReal ) 1 , \
( _matrix ) - > flags ) ; \
} \
else \
{ \
_snprintf ( message , sizeof ( MatrixString ) , \
" NULL " ) ; \
} \
\
_snprintf ( output , sizeof ( MatrixString ) , \
" %s(%d): %s [%p] == \n %s \n " , \
__FILE__ , __LINE__ , \
# _matrix, _matrix, message); \
\
OutputDebugString ( RWSTRING ( output ) ) ; \
} \
MACRO_STOP
# endif /* ((_MSC_VER>=1000) && defined(_DEBUG)) */
# endif /* (defined(_MSC_VER)) */
# endif /* (defined(RWMATRIXMONITOR)) */
# if (!(defined(RWMATRIXPRINT)))
# define RWMATRIXPRINT(_matrix) /* No op */
# endif /* (!(defined(RWMATRIXPRINT))) */
/**
* \ ingroup datatypes
* enum RwOpCombineType
* This type represents a combination operator which
* can be applied to frames and matrices .
* The operator determines the order
* in which one object is combined with another
*/
enum RwOpCombineType
{
rwCOMBINEREPLACE = 0 , /**<Replace -
all previous transformations are lost */
rwCOMBINEPRECONCAT , /**<Pre-concatenation -
the given transformation is applied
before all others */
rwCOMBINEPOSTCONCAT , /**<Post-concatenation -
the given transformation is applied
after all others */
rwOPCOMBINETYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
/**
* \ ingroup datatypes
* \ typedef RwOpCombineType typedef for enum RwOpCombineType
*/
typedef enum RwOpCombineType RwOpCombineType ;
/* External flags (bits 0-15) */
/* Internal flags (bits 16-31) */
enum RwMatrixType
{
rwMATRIXTYPENORMAL = 0x00000001 ,
rwMATRIXTYPEORTHOGANAL = 0x00000002 ,
rwMATRIXTYPEORTHONORMAL = 0x00000003 ,
rwMATRIXTYPEMASK = 0x00000003 ,
rwMATRIXTYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwMatrixType RwMatrixType ;
enum RwMatrixFlag
{
rwMATRIXINTERNALIDENTITY = 0x00020000 ,
rwMATRIXFLAGFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwMatrixFlag RwMatrixFlag ;
/* Flags describing what will optimize for */
enum RwMatrixOptimizations
{
rwMATRIXOPTIMIZE_IDENTITY = 0x00020000 ,
rwMATRIXOPTIMIZATIONSFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwMatrixOptimizations RwMatrixOptimizations ;
/****************************************************************************
Global Types
*/
# if (!defined(DOXYGEN))
struct RwMatrixTag
{
/* These are padded to be 16 byte quantities per line */
RwV3d right ;
RwUInt32 flags ;
RwV3d up ;
RwUInt32 pad1 ;
RwV3d at ;
RwUInt32 pad2 ;
RwV3d pos ;
RwUInt32 pad3 ;
} ;
/*
* RwMatrix & RwMatrixTag must be different otherwise the alignment
* directive is ignored when compiling under C + + on Visual C
*/
typedef struct RwMatrixTag RWALIGN ( RwMatrix , rwMATRIXALIGNMENT ) ;
# else
/*
* RwMatrix must appear as the struct name & the typedef ,
* otherwise Doxygen puts RwMatrixTag in the API ref instead of RwMatrix !
*/
/**
* \ ingroup datatypes
* \ typedef RwMatrix
* Matrix to define transformations .
* This should be considered an opaque type .
* Use the RwMatrix API functions to access .
*/
typedef struct RwMatrix RWALIGN ( RwMatrix , rwMATRIXALIGNMENT ) ;
# endif /* (!defined(DOXYGEN)) */
# if (!defined(RwMatrixCopyMacro))
# define RwMatrixCopyMacro(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwMatrixCopyMacro)) */
# if (!defined(RwMatrixSetIdentityMacro))
# define RwMatrixSetIdentityMacro(m) \
MACRO_START \
{ \
( m ) - > right . x = ( m ) - > up . y = ( m ) - > at . z = ( RwReal ) ( ( 1.0 ) ) ; \
( m ) - > right . y = ( m ) - > right . z = ( m ) - > up . x = ( RwReal ) ( ( 0.0 ) ) ; \
( m ) - > up . z = ( m ) - > at . x = ( m ) - > at . y = ( RwReal ) ( ( 0.0 ) ) ; \
( m ) - > pos . x = ( m ) - > pos . y = ( m ) - > pos . z = ( RwReal ) ( ( 0.0 ) ) ; \
rwMatrixSetFlags ( ( m ) , \
rwMatrixGetFlags ( m ) | \
( rwMATRIXINTERNALIDENTITY | \
rwMATRIXTYPEORTHONORMAL ) ) ; \
} \
MACRO_STOP
# endif /* (!defined(RwMatrixSetIdentityMacro)) */
typedef void ( RWASMCALL * rwMatrixMultFn ) ( RwMatrix * dstMat ,
const RwMatrix * matA ,
const RwMatrix * matB ) ;
/*
* \ ingroup datatypes
* \ typedef RwMatrixTolerance
* Typedef for RwMatrixTolerance structure
*/
typedef struct RwMatrixTolerance RwMatrixTolerance ;
/*
* \ ingroup datatypes
* \ struct RwMatrixTolerance
* Holds tolerances for matrix optimizations with \ ref RwMatrixOptimize
*/
struct RwMatrixTolerance
{
RwReal Normal ;
/**< Tolerance within which matrix is deemed to be normal */
RwReal Orthogonal ;
/**< Tolerance within which matrix is deemed to be orthogonal */
RwReal Identity ;
/**< Tolerance within which matrix is deemed to be identity */
} ;
/****************************************************************************
Function prototypes
*/
/* Matrix operations */
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
extern RwBool
RwEngineGetMatrixTolerances ( RwMatrixTolerance * const tolerance ) ;
extern RwBool
RwEngineSetMatrixTolerances ( const RwMatrixTolerance * const tolerance ) ;
/* Update */
# define rwMatrixSetFlags(m, flagsbit) ((m)->flags = (flagsbit))
# define rwMatrixGetFlags(m) ((m)->flags)
# define rwMatrixTestFlags(m, flagsbit) ((m)->flags & (RwInt32)(flagsbit))
/* Creation/destruction */
extern RwBool
RwMatrixDestroy ( RwMatrix * mpMat ) ;
extern RwMatrix *
RwMatrixCreate ( void ) ;
# ifdef RWDEBUG
/* Functions for debug */
extern void
RwMatrixCopy ( RwMatrix * dstMatrix , const RwMatrix * srcMatrix ) ;
extern void
RwMatrixSetIdentity ( RwMatrix * matrix ) ;
# else /* RWDEBUG */
# define RwMatrixCopy(dst, src) RwMatrixCopyMacro(dst, src)
# define RwMatrixSetIdentity(m) RwMatrixSetIdentityMacro(m)
# endif /* RWDEBUG */
/* Matrix multiply */
extern RwMatrix *
RwMatrixMultiply ( RwMatrix * matrixOut ,
const RwMatrix * MatrixIn1 ,
const RwMatrix * matrixIn2 ) ;
extern RwMatrix *
RwMatrixTransform ( RwMatrix * matrix ,
const RwMatrix * transform ,
RwOpCombineType combineOp ) ;
/* Normalise */
extern RwMatrix *
RwMatrixOrthoNormalize ( RwMatrix * matrixOut ,
const RwMatrix * matrixIn ) ;
/* Inversion */
extern RwMatrix *
RwMatrixInvert ( RwMatrix * matrixOut ,
const RwMatrix * matrixIn ) ;
/* Unary matrix operations */
extern RwMatrix *
RwMatrixScale ( RwMatrix * matrix ,
const RwV3d * scale ,
RwOpCombineType combineOp ) ;
extern RwMatrix *
RwMatrixTranslate ( RwMatrix * matrix ,
const RwV3d * translation ,
RwOpCombineType combineOp ) ;
extern RwMatrix *
RwMatrixRotate ( RwMatrix * matrix ,
const RwV3d * axis ,
RwReal angle ,
RwOpCombineType combineOp ) ;
extern RwMatrix *
RwMatrixRotateOneMinusCosineSine ( RwMatrix * matrix ,
const RwV3d * unitAxis ,
RwReal oneMinusCosine ,
RwReal sine ,
RwOpCombineType combineOp ) ;
/* Query what the matrix is */
extern const RwMatrix * RwMatrixQueryRotate ( const RwMatrix * matrix ,
RwV3d * unitAxis ,
RwReal * angle ,
RwV3d * center ) ;
/* Get components */
# ifndef RWDEBUG
# define RwMatrixGetRight(m) (&(m)->right)
# define RwMatrixGetUp(m) (&(m)->up)
# define RwMatrixGetAt(m) (&(m)->at)
# define RwMatrixGetPos(m) (&(m)->pos)
# else /* RWDEBUG */
extern RwV3d *
RwMatrixGetRight ( RwMatrix * matrix ) ;
extern RwV3d *
RwMatrixGetUp ( RwMatrix * matrix ) ;
extern RwV3d *
RwMatrixGetAt ( RwMatrix * matrix ) ;
extern RwV3d *
RwMatrixGetPos ( RwMatrix * matrix ) ;
# endif /* RWDEBUG */
/* Update the internal matrix state wrt its elements */
extern RwMatrix *
RwMatrixUpdate ( RwMatrix * matrix ) ;
/* Update the internal matrix flags wrt its elements */
extern RwMatrix *
RwMatrixOptimize ( RwMatrix * matrix ,
const RwMatrixTolerance *
tolerance ) ;
extern RwReal
_rwMatrixDeterminant ( const RwMatrix * matrix ) ;
extern RwReal
_rwMatrixNormalError ( const RwMatrix * matrix ) ;
extern RwReal
_rwMatrixOrthogonalError ( const RwMatrix * matrix ) ;
extern RwReal
_rwMatrixIdentityError ( const RwMatrix * matrix ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/* Compatibility macros */
# define rwMatrixSetOptimizations(optimizeFlags) \
_rwMatrixSetOptimizations ( optimizeFlags )
# define rwMatrixSetMultFn(multMat) \
_rwMatrixSetMultFn ( multMat )
# define rwMatrixOpen(instance, offset, size) \
_rwMatrixOpen ( instance , offset , size )
# define rwMatrixClose(instance, offset, size) \
_rwMatrixClose ( instance , offset , size )
/* Initialisation/deinitialisation */
# define rwMatrixInitialize(m, t) \
MACRO_START \
{ \
rwMatrixSetFlags ( ( m ) , ( t ) ) ; \
} \
MACRO_STOP
# define rwMatrixIsNormal(_matrix, _epsilon) \
( ( _epsilon ) > = _rwMatrixNormalError ( _matrix ) )
# define rwMatrixIsOrthogonal(_matrix, _epsilon) \
( ( _epsilon ) > = _rwMatrixOrthogonalError ( _matrix ) )
# define rwMatrixIsOrthonormal(_matrix, _epsilon) \
( rwMatrixIsNormal ( _matrix , _epsilon ) & & \
rwMatrixIsOrthogonal ( _matrix , _epsilon ) )
# define rwMatrixIsOrthonormalPositive(_matrix, _epsilon) \
( rwMatrixIsOrthonormal ( _matrix , _epsilon ) & & \
( ( ( ( RwReal ) 1 ) - ( _epsilon ) ) < = _rwMatrixDeterminant ( _matrix ) ) )
# define rwMatrixIsIdentity(_matrix, _epsilon) \
( ( _epsilon ) > = _rwMatrixIdentityError ( _matrix ) )
# define rwMatrixValidFlags(_matrix, _epsilon) \
( ( _matrix ) & & /* valid pointer */ \
( ( ! ( rwMatrixGetFlags ( _matrix ) & /* not flagged as identity */ \
rwMATRIXINTERNALIDENTITY ) ) | | /* .. or actually is */ \
rwMatrixIsIdentity ( _matrix , _epsilon ) ) & & \
( ( ! ( rwMatrixGetFlags ( _matrix ) & /* not flagged as normal */ \
rwMATRIXTYPENORMAL ) ) | | /* ... or actually is */ \
rwMatrixIsNormal ( _matrix , _epsilon ) ) & & \
( ( ! ( rwMatrixGetFlags ( _matrix ) & /* not flagged as orthogonal */ \
rwMATRIXTYPEORTHOGANAL ) ) | | /* ... or actually is */ \
rwMatrixIsOrthogonal ( _matrix , _epsilon ) ) )
# define rwMat01Det(_mAA) \
( ( _mAA ) )
# define rwMat02Det(_mAA, _mAB, \
_mBA , _mBB ) \
( ( _mAA ) * rwMat01Det ( _mBB ) \
- ( _mAB ) * rwMat01Det ( _mBA ) \
)
# define rwMat03Det(_mAA, _mAB, _mAC, \
_mBA , _mBB , _mBC , \
_mCA , _mCB , _mCC ) \
( ( _mAA ) * rwMat02Det ( _mBB , _mBC , \
_mCB , _mCC ) \
- ( _mAB ) * rwMat02Det ( _mBA , _mBC , \
_mCA , _mCC ) \
+ ( _mAC ) * rwMat02Det ( _mBA , _mBB , \
_mCA , _mCB ) \
)
# define rwMat04Det(_mAA, _mAB, _mAC, _mAD, \
_mBA , _mBB , _mBC , _mBD , \
_mCA , _mCB , _mCC , _mCD , \
_mDA , _mDB , _mDC , _mDD ) \
( ( _mAA ) * rwMat03Det ( _mBB , _mBC , _mBD , \
_mCB , _mCC , _mCD , \
_mDB , _mDC , _mDD ) \
- ( _mAB ) * rwMat03Det ( _mBA , _mBC , _mBD , \
_mCA , _mCC , _mCD , \
_mDA , _mDC , _mDD ) \
+ ( _mAC ) * rwMat03Det ( _mBA , _mBB , _mBD , \
_mCA , _mCB , _mCD , \
_mDA , _mDB , _mDD ) \
- ( _mAD ) * rwMat03Det ( _mBA , _mBB , _mBC , \
_mCA , _mCB , _mCC , \
_mDA , _mDB , _mDC ) \
)
# define rwMat02Inv(_rAA, _rAB, \
_rBA , _rBB ) \
_mAA , _mAB , \
_mBA , _mBB ) \
MACRO_START \
{ \
RwSplitBits determinant ; \
\
( _rAA ) = rwMat01Det ( _mBB ) ; \
( _rAB ) = - rwMat01Det ( _mAB ) ; \
\
determinant . nReal = ( ( _rAA ) * ( _mAA ) + \
( _rAB ) * ( _mBA ) ) ; \
\
\
{ \
const RwReal normalize = ( ( determinant . nInt ! = 0 ) ? \
( ( ( RwReal ) 1 ) / determinant . nReal ) : \
( ( RwReal ) 1 ) ) ; \
\
( _rAA ) * = normalize ; \
( _rAB ) * = normalize ; \
\
( _rBA ) = - rwMat01Det ( _mBA ) * normalize ; \
( _rBB ) = rwMat01Det ( _mAA ) * normalize ; \
} \
} \
MACRO_STOP
# define rwMat03Inv(_rAA, _rAB, _rAC, \
_rBA , _rBB , _rBC , \
_rCA , _rCB , _rCC , \
_mAA , _mAB , _mAC , \
_mBA , _mBB , _mBC , \
_mCA , _mCB , _mCC ) \
MACRO_START \
{ \
RwSplitBits determinant ; \
\
( _rAA ) = rwMat02Det ( _mBB , _mBC , \
_mCB , _mCC ) ; \
( _rAB ) = - rwMat02Det ( _mAB , _mAC , \
_mCB , _mCC ) ; \
( _rAC ) = rwMat02Det ( _mAB , _mAC , \
_mBB , _mBC ) ; \
\
determinant . nReal = ( ( _rAA ) * ( _mAA ) + \
( _rAB ) * ( _mBA ) + \
( _rAC ) * ( _mCA ) ) ; \
\
{ \
const RwReal normalize = ( ( determinant . nInt ! = 0 ) ? \
( ( ( RwReal ) 1 ) / determinant . nReal ) : \
( ( RwReal ) 1 ) ) ; \
( _rAA ) * = normalize ; \
( _rAB ) * = normalize ; \
( _rAC ) * = normalize ; \
\
( _rBA ) = - rwMat02Det ( _mBA , _mBC , \
_mCA , _mCC ) * normalize ; \
( _rBB ) = rwMat02Det ( _mAA , _mAC , \
_mCA , _mCC ) * normalize ; \
( _rBC ) = - rwMat02Det ( _mAA , _mAC , \
_mBA , _mBC ) * normalize ; \
\
( _rCA ) = rwMat02Det ( _mBA , _mBB , \
_mCA , _mCB ) * normalize ; \
( _rCB ) = - rwMat02Det ( _mAA , _mAB , \
_mCA , _mCB ) * normalize ; \
( _rCC ) = rwMat02Det ( _mAA , _mAB , \
_mBA , _mBB ) * normalize ; \
} \
\
} \
MACRO_STOP
# define rwMat04Inv(_rAA, _rAB, _rAC, _rAD, \
_rBA , _rBB , _rBC , _rBD , \
_rCA , _rCB , _rCC , _rCD , \
_rDA , _rDB , _rDC , _rDD , \
_mAA , _mAB , _mAC , _mAD , \
_mBA , _mBB , _mBC , _mBD , \
_mCA , _mCB , _mCC , _mCD , \
_mDA , _mDB , _mDC , _mDD ) \
MACRO_START \
{ \
RwSplitBits determinant ; \
\
( _rAA ) = rwMat03Det ( _mBB , _mBC , _mBD , \
_mCB , _mCC , _mCD , \
_mDB , _mDC , _mDD ) ; \
( _rAB ) = - rwMat03Det ( _mAB , _mAC , _mAD , \
_mCB , _mCC , _mCD , \
_mDB , _mDC , _mDD ) ; \
( _rAC ) = rwMat03Det ( _mAB , _mAC , _mAD , \
_mBB , _mBC , _mBD , \
_mDB , _mDC , _mDD ) ; \
( _rAD ) = - rwMat03Det ( _mAB , _mAC , _mAD , \
_mBB , _mBC , _mBD , \
_mCB , _mCC , _mCD ) ; \
\
determinant . nReal = ( ( _rAA ) * ( _mAA ) + \
( _rAB ) * ( _mBA ) + \
( _rAC ) * ( _mCA ) + \
( _rAD ) * ( _mDA ) ) ; \
\
{ \
const RwReal normalize = ( ( determinant . nInt ! = 0 ) ? \
( ( ( RwReal ) 1 ) / determinant . nReal ) : \
( ( RwReal ) 1 ) ) ; \
\
( _rAA ) * = normalize ; \
( _rAB ) * = normalize ; \
( _rAC ) * = normalize ; \
( _rAD ) * = normalize ; \
\
( _rBA ) = - rwMat03Det ( _mBA , _mBC , _mBD , \
_mCA , _mCC , _mCD , \
_mDA , _mDC , _mDD ) * normalize ; \
( _rBB ) = rwMat03Det ( _mAA , _mAC , _mAD , \
_mCA , _mCC , _mCD , \
_mDA , _mDC , _mDD ) * normalize ; \
( _rBC ) = - rwMat03Det ( _mAA , _mAC , _mAD , \
_mBA , _mBC , _mBD , \
_mDA , _mDC , _mDD ) * normalize ; \
( _rBD ) = rwMat03Det ( _mAA , _mAC , _mAD , \
_mBA , _mBC , _mBD , \
_mCA , _mCC , _mCD ) * normalize ; \
\
( _rCA ) = rwMat03Det ( _mBA , _mBB , _mBD , \
_mCA , _mCB , _mCD , \
_mDA , _mDB , _mDD ) * normalize ; \
( _rCB ) = - rwMat03Det ( _mAA , _mAB , _mAD , \
_mCA , _mCB , _mCD , \
_mDA , _mDB , _mDD ) * normalize ; \
( _rCC ) = rwMat03Det ( _mAA , _mAB , _mAD , \
_mBA , _mBB , _mBD , \
_mDA , _mDB , _mDD ) * normalize ; \
( _rCD ) = - rwMat03Det ( _mAA , _mAB , _mAD , \
_mBA , _mBB , _mBD , \
_mCA , _mCB , _mCD ) * normalize ; \
\
( _rDA ) = - rwMat03Det ( _mBA , _mBB , _mBC , \
_mCA , _mCB , _mCC , \
_mDA , _mDB , _mDC ) * normalize ; \
( _rDB ) = rwMat03Det ( _mAA , _mAB , _mAC , \
_mCA , _mCB , _mCC , \
_mDA , _mDB , _mDC ) * normalize ; \
( _rDC ) = - rwMat03Det ( _mAA , _mAB , _mAC , \
_mBA , _mBB , _mBC , \
_mDA , _mDB , _mDC ) * normalize ; \
( _rDD ) = rwMat03Det ( _mAA , _mAB , _mAC , \
_mBA , _mBB , _mBC , \
_mCA , _mCB , _mCC ) * normalize ; \
} \
} \
MACRO_STOP
/*--- Automatically derived from: C:/daily/rwsdk/driver/d3d8/drvmodel.h ---*/
# ifndef D3D8_DRVMODEL_H
# define D3D8_DRVMODEL_H
# if (defined(__ICL))
/* Avoid voluminous
* ' warning # 344 : typedef name has already been declared ( with same type ) '
* warnings from MS include files
*/
# pragma warning( disable : 344 )
# endif /* (defined(__ICL)) */
2020-03-27 19:53:47 +00:00
//nobody needed that - AAP
//#include <windows.h>
2019-05-18 10:39:39 +00:00
# if (defined(RWDEBUG))
# if (defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC))
# define _CRTDBG_MAP_ALLOC
# endif /* defined(RWMEMDEBUG) && !defined(_CRTDBG_MAP_ALLOC)) */
# include <crtdbg.h>
# define ERR_WRAP(A) (_rwRePrintErrorDDD3D((A), __FILE__, __LINE__))
# endif /* (defined(RWDEBUG)) */
# if (!defined(ERR_WRAP))
# define ERR_WRAP(A) (A)
# endif /* (!defined(ERR_WRAP)) */
/****************************************************************************
Defines
*/
/* Set true depth information (for fogging, eg) */
# define RwIm2DVertexSetCameraX(vert, camx) /* Nothing */
# define RwIm2DVertexSetCameraY(vert, camy) /* Nothing */
# define RwIm2DVertexSetCameraZ(vert, camz) /* Nothing */
# define RwIm2DVertexSetRecipCameraZ(vert, recipz) ((vert)->rhw = recipz)
# define RwIm2DVertexGetCameraX(vert) (cause an error)
# define RwIm2DVertexGetCameraY(vert) (cause an error)
# define RwIm2DVertexGetCameraZ(vert) (cause an error)
# define RwIm2DVertexGetRecipCameraZ(vert) ((vert)->rhw)
/* Set screen space coordinates in a device vertex */
# define RwIm2DVertexSetScreenX(vert, scrnx) ((vert)->x = (scrnx))
# define RwIm2DVertexSetScreenY(vert, scrny) ((vert)->y = (scrny))
# define RwIm2DVertexSetScreenZ(vert, scrnz) ((vert)->z = (scrnz))
# define RwIm2DVertexGetScreenX(vert) ((vert)->x)
# define RwIm2DVertexGetScreenY(vert) ((vert)->y)
# define RwIm2DVertexGetScreenZ(vert) ((vert)->z)
/* Set texture coordinates in a device vertex */
# define RwIm2DVertexSetU(vert, texU, recipz) ((vert)->u = (texU))
# define RwIm2DVertexSetV(vert, texV, recipz) ((vert)->v = (texV))
# define RwIm2DVertexGetU(vert) ((vert)->u)
# define RwIm2DVertexGetV(vert) ((vert)->v)
/* Modify the luminance stuff */
# define RwIm2DVertexSetRealRGBA(vert, red, green, blue, alpha) \
( ( vert ) - > emissiveColor = \
( ( ( RwFastRealToUInt32 ( alpha ) ) < < 24 ) | \
( ( RwFastRealToUInt32 ( red ) ) < < 16 ) | \
( ( RwFastRealToUInt32 ( green ) ) < < 8 ) | \
( ( RwFastRealToUInt32 ( blue ) ) ) ) )
# define RwIm2DVertexSetIntRGBA(vert, red, green, blue, alpha) \
( ( vert ) - > emissiveColor = \
( ( ( ( RwUInt32 ) ( alpha ) ) < < 24 ) | \
( ( ( RwUInt32 ) ( red ) ) < < 16 ) | \
( ( ( RwUInt32 ) ( green ) ) < < 8 ) | \
( ( ( RwUInt32 ) ( blue ) ) ) ) )
# define RwIm2DVertexGetRed(vert) \
( ( ( vert ) - > emissiveColor > > 16 ) & 0xFF )
# define RwIm2DVertexGetGreen(vert) \
( ( ( vert ) - > emissiveColor > > 8 ) & 0xFF )
# define RwIm2DVertexGetBlue(vert) \
( ( vert ) - > emissiveColor & 0xFF )
# define RwIm2DVertexGetAlpha(vert) \
( ( ( vert ) - > emissiveColor > > 24 ) & 0xFF )
# define RwIm2DVertexCopyRGBA(dst, src) \
( ( dst ) - > emissiveColor = ( src ) - > emissiveColor )
/* Clipper stuff */
# define RwIm2DVertexClipRGBA(o, i, n, f) \
MACRO_START \
{ \
const RwInt32 _factor = \
( RwFastRealToUInt32 ( i * ( RwReal ) ( 255 ) ) ) & 255 ; \
\
( o ) - > emissiveColor = \
( ( ( ( ( RwIm2DVertexGetAlpha ( f ) - RwIm2DVertexGetAlpha ( n ) ) * \
_factor ) > > 8 ) + RwIm2DVertexGetAlpha ( n ) ) < < 24 ) | \
( ( ( ( ( RwIm2DVertexGetRed ( f ) - RwIm2DVertexGetRed ( n ) ) * \
_factor ) > > 8 ) + RwIm2DVertexGetRed ( n ) ) < < 16 ) | \
( ( ( ( ( RwIm2DVertexGetGreen ( f ) - RwIm2DVertexGetGreen ( n ) ) * \
_factor ) > > 8 ) + RwIm2DVertexGetGreen ( n ) ) < < 8 ) | \
( ( ( ( ( RwIm2DVertexGetBlue ( f ) - RwIm2DVertexGetBlue ( n ) ) * \
_factor ) > > 8 ) + RwIm2DVertexGetBlue ( n ) ) ) ; \
} \
MACRO_STOP
/* LEGACY-SUPPORT macros */
# define RWIM2DVERTEXSetCameraX(vert, camx) RwIm2DVertexSetCameraX(vert, camx)
# define RWIM2DVERTEXSetCameraY(vert, camy) RwIm2DVertexSetCameraY(vert, camy)
# define RWIM2DVERTEXSetCameraZ(vert, camz) RwIm2DVertexSetCameraZ(vert, camz)
# define RWIM2DVERTEXSetRecipCameraZ(vert, recipz) \
RwIm2DVertexSetRecipCameraZ ( vert , recipz )
# define RWIM2DVERTEXGetCameraX(vert) RwIm2DVertexGetCameraX(vert)
# define RWIM2DVERTEXGetCameraY(vert) RwIm2DVertexGetCameraY(vert)
# define RWIM2DVERTEXGetCameraZ(vert) RwIm2DVertexGetCameraZ(vert)
# define RWIM2DVERTEXGetRecipCameraZ(vert) RwIm2DVertexGetRecipCameraZ(vert)
# define RWIM2DVERTEXSetScreenX(vert, scrnx) RwIm2DVertexSetScreenX(vert, scrnx)
# define RWIM2DVERTEXSetScreenY(vert, scrny) RwIm2DVertexSetScreenY(vert, scrny)
# define RWIM2DVERTEXSetScreenZ(vert, scrnz) RwIm2DVertexSetScreenZ(vert, scrnz)
# define RWIM2DVERTEXGetScreenX(vert) RwIm2DVertexGetScreenX(vert)
# define RWIM2DVERTEXGetScreenY(vert) RwIm2DVertexGetScreenY(vert)
# define RWIM2DVERTEXGetScreenZ(vert) RwIm2DVertexGetScreenZ(vert)
# define RWIM2DVERTEXSetU(vert, u, recipz) RwIm2DVertexSetU(vert, u, recipz)
# define RWIM2DVERTEXSetV(vert, v, recipz) RwIm2DVertexSetV(vert, v, recipz)
# define RWIM2DVERTEXGetU(vert) RwIm2DVertexGetU(vert)
# define RWIM2DVERTEXGetV(vert) RwIm2DVertexGetV(vert)
# define RWIM2DVERTEXSetRealRGBA(vert, red, green, blue, alpha) \
RwIm2DVertexSetRealRGBA ( vert , red , green , blue , alpha )
# define RWIM2DVERTEXSetIntRGBA(vert, red, green, blue, alpha) \
RwIm2DVertexSetIntRGBA ( vert , red , green , blue , alpha )
# define RWIM2DVERTEXGetRed(vert) RwIm2DVertexGetRed(vert)
# define RWIM2DVERTEXGetGreen(vert) RwIm2DVertexGetGreen(vert)
# define RWIM2DVERTEXGetBlue(vert) RwIm2DVertexGetBlue(vert)
# define RWIM2DVERTEXGetAlpha(vert) RwIm2DVertexGetAlpha(vert)
# define RWIM2DVERTEXCopyRGBA(dst, src) RwIm2DVertexCopyRGBA(dst, src)
# define RWIM2DVERTEXClipRGBA(o, i, n, f) RwIm2DVertexClipRGBA(o, i, n, f)
/****************************************************************************
Global Types
*/
/* We use RwD3D8Vertex to drive the hardware in 2D mode */
/**
* \ ingroup rwcoredriverd3d8
* \ typedef RwD3D8Vertex
* D3D8 vertex structure definition for 2 D geometry
*/
typedef struct RwD3D8Vertex RwD3D8Vertex ;
/**
* \ ingroup rwcoredriverd3d8
* \ struct RwD3D8Vertex
* D3D8 vertex structure definition for 2 D geometry
*/
struct RwD3D8Vertex
{
RwReal x ; /**< Screen X */
RwReal y ; /**< Screen Y */
RwReal z ; /**< Screen Z */
RwReal rhw ; /**< Reciprocal of homogeneous W */
RwUInt32 emissiveColor ; /**< Vertex color */
RwReal u ; /**< Texture coordinate U */
RwReal v ; /**< Texture coordinate V */
} ;
/* Define types used */
/**
* \ ingroup rwcoredriverd3d8
* \ typedef RwIm2DVertex
* Typedef for a RenderWare Graphics Immediate Mode 2 D Vertex
*/
typedef RwD3D8Vertex RwIm2DVertex ;
/* LEGACY-SUPPORT macro */
/**
* \ ingroup rwcoredriverd3d8
* \ def RWIM2DVERTEX
* RWIM2DVERTEX is a legacy macro for RwIm2DVertex
*/
# define RWIM2DVERTEX RwIm2DVertex
/**
* \ ingroup rwcoredriverd3d8
* \ typedef RxVertexIndex
*
* Typedef for a RenderWare Graphics PowerPipe Immediate
* Mode Vertex
*/
typedef RwUInt16 RxVertexIndex ;
/**
* \ ingroup rwcoredriverd3d8
* \ typedef RwImVertexIndex
* Typedef for a RenderWare Graphics Immediate Mode Vertex .
*/
typedef RxVertexIndex RwImVertexIndex ;
/* LEGACY-SUPPORT macro */
/**
* \ ingroup rwcoredriverd3d8
* \ def RWIMVERTEXINDEX
* RWIMVERTEXINDEX is a legacy macro for RwImVertexIndex
*/
# define RWIMVERTEXINDEX RwImVertexIndex
/**
* \ ingroup rwcoredriverd3d8
* \ struct RwD3D8Metrics
* Structure containing metrics counters
*/
typedef struct
{
RwUInt32 numRenderStateChanges ; /**< Number of Render States changed */
RwUInt32 numTextureStageStateChanges ; /**< Number of Texture Stage States changed */
RwUInt32 numMaterialChanges ; /**< Number of Material changes */
RwUInt32 numLightsChanged ; /**< Number of Lights changed */
}
RwD3D8Metrics ;
# endif /* D3D8_DRVMODEL_H */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bavector.h ---*/
/*
* Typedef for pointer to Vector multiplication by Matrix function
*/
typedef RwV3d * ( * rwVectorMultFn ) ( RwV3d * pointsOut ,
const RwV3d * pointsIn ,
RwInt32 numPoints ,
const RwMatrix * matrix ) ;
/* If sqrt is overloaded for this platform, we will remove
* all the sqrt table stuff from the build entirely
* currently applies to SKY2 and XBOX - IDBS [ 2 / 11 / 2001 ]
* [ and , if using the intel compiler version 400 or above ,
* we will use the single - precision float " sqrtf " under
* D3D7 , D3D8 , OpenGL or SoftRas ] */
# if (defined(rwSqrtMacro))
# define RWNOSQRTTABLE
# endif /* (defined(rwSqrtMacro)) */
# if (defined(rwInvSqrtMacro))
# define RWNOINVSQRTTABLE
# endif /* (defined(rwSqrtMacro)) */
# if (!defined(rwSqrtMacro))
# define rwSqrtMacro(_root, _input) \
( * ( _root ) = _rwSqrt ( _input ) )
# endif /* (!defined(rwSqrtMacro)) */
# if (!defined(rwInvSqrtMacro))
# define rwInvSqrtMacro(_recip, _input) \
( * ( _recip ) = _rwInvSqrt ( _input ) )
# endif /* (!defined(rwInvSqrtMacro)) */
# if (!defined(rwSqrtInvSqrtMacro))
# define rwSqrtInvSqrtMacro(_root, _recip, _input) \
MACRO_START \
{ \
RwReal _tmp = _input ; \
rwSqrt ( ( _root ) , _tmp ) ; \
rwInvSqrt ( ( _recip ) , _tmp ) ; \
} \
MACRO_STOP
# endif /* (!defined(rwSqrtInvSqrtMacro)) */
/* Vector operations Macros */
# if (!defined(RwV2dAssignMacro))
# define RwV2dAssignMacro(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwV2dAssignMacro)) */
# define RwV2dAddMacro(o, a, b) \
MACRO_START \
{ \
( o ) - > x = ( ( ( a ) - > x ) + ( ( b ) - > x ) ) ; \
( o ) - > y = ( ( ( a ) - > y ) + ( ( b ) - > y ) ) ; \
} \
MACRO_STOP
# define RwV2dSubMacro(o, a, b) \
MACRO_START \
{ \
( o ) - > x = ( ( ( a ) - > x ) - ( ( b ) - > x ) ) ; \
( o ) - > y = ( ( ( a ) - > y ) - ( ( b ) - > y ) ) ; \
} \
MACRO_STOP
# define RwV2dScaleMacro(o, i, s) \
MACRO_START \
{ \
( o ) - > x = ( ( ( i ) - > x ) * ( ( s ) ) ) ; \
( o ) - > y = ( ( ( i ) - > y ) * ( ( s ) ) ) ; \
} \
MACRO_STOP
# define RwV2dDotProductMacro(a,b) \
( ( ( ( ( ( a ) - > x ) * ( ( b ) - > x ) ) ) + \
( ( ( ( a ) - > y ) * ( ( b ) - > y ) ) ) ) ) \
# define _rwV2dNormalizeMacro(_result, _out, _in) \
MACRO_START \
{ \
RwReal length2 = RwV2dDotProductMacro ( ( _in ) , ( _in ) ) ; \
rwInvSqrtMacro ( & ( _result ) , length2 ) ; \
RwV2dScaleMacro ( ( _out ) , ( _in ) , ( _result ) ) ; \
} \
MACRO_STOP
# define RwV2dNormalizeMacro(_result, _out, _in) \
MACRO_START \
{ \
RwReal length2 = RwV2dDotProductMacro ( ( _in ) , ( _in ) ) ; \
RwReal recip ; \
\
rwSqrtInvSqrtMacro ( & ( _result ) , & recip , length2 ) ; \
RwV2dScaleMacro ( ( _out ) , ( _in ) , recip ) ; \
} \
MACRO_STOP
# define RwV2dLengthMacro(_result, _in) \
MACRO_START \
{ \
( _result ) = RwV2dDotProductMacro ( _in , _in ) ; \
rwSqrtMacro ( & ( _result ) , ( _result ) ) ; \
} \
MACRO_STOP
# define RwV2dLineNormalMacro(_o, _a, _b) \
MACRO_START \
{ \
RwReal recip ; \
\
( _o ) - > y = ( ( ( _b ) - > x ) - ( ( _a ) - > x ) ) ; \
( _o ) - > x = ( ( ( _a ) - > y ) - ( ( _b ) - > y ) ) ; \
_rwV2dNormalizeMacro ( recip , _o , _o ) ; \
} \
MACRO_STOP
# define RwV2dPerpMacro(o, a) \
MACRO_START \
{ \
( o ) - > x = - ( a ) - > y ; \
( o ) - > y = ( a ) - > x ; \
} \
MACRO_STOP
/* RwV3d */
# if (!defined(RwV3dAssignMacro))
# define RwV3dAssignMacro(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwV3dAssignMacro)) */
# define RwV3dAddMacro(o, a, b) \
MACRO_START \
{ \
( o ) - > x = ( ( ( a ) - > x ) + ( ( b ) - > x ) ) ; \
( o ) - > y = ( ( ( a ) - > y ) + ( ( b ) - > y ) ) ; \
( o ) - > z = ( ( ( a ) - > z ) + ( ( b ) - > z ) ) ; \
} \
MACRO_STOP
# define RwV3dSubMacro(o, a, b) \
MACRO_START \
{ \
( o ) - > x = ( ( ( a ) - > x ) - ( ( b ) - > x ) ) ; \
( o ) - > y = ( ( ( a ) - > y ) - ( ( b ) - > y ) ) ; \
( o ) - > z = ( ( ( a ) - > z ) - ( ( b ) - > z ) ) ; \
} \
MACRO_STOP
# define RwV3dScaleMacro(o, a, s) \
MACRO_START \
{ \
( o ) - > x = ( ( ( a ) - > x ) * ( ( s ) ) ) ; \
( o ) - > y = ( ( ( a ) - > y ) * ( ( s ) ) ) ; \
( o ) - > z = ( ( ( a ) - > z ) * ( ( s ) ) ) ; \
} \
MACRO_STOP
# define RwV3dIncrementScaledMacro(o, a, s) \
MACRO_START \
{ \
( o ) - > x + = ( ( ( a ) - > x ) * ( ( s ) ) ) ; \
( o ) - > y + = ( ( ( a ) - > y ) * ( ( s ) ) ) ; \
( o ) - > z + = ( ( ( a ) - > z ) * ( ( s ) ) ) ; \
} \
MACRO_STOP
# define RwV3dNegateMacro(o, a) \
MACRO_START \
{ \
( o ) - > x = - ( a ) - > x ; \
( o ) - > y = - ( a ) - > y ; \
( o ) - > z = - ( a ) - > z ; \
} \
MACRO_STOP
# define RwV3dDotProductMacro(a, b) \
( ( ( ( ( ( ( ( a ) - > x ) * ( ( b ) - > x ) ) ) + \
( ( ( ( a ) - > y ) * ( ( b ) - > y ) ) ) ) ) + \
( ( ( ( a ) - > z ) * ( ( b ) - > z ) ) ) ) ) \
# define RwV3dCrossProductMacro(o, a, b) \
MACRO_START \
{ \
( o ) - > x = \
( ( ( ( ( a ) - > y ) * ( ( b ) - > z ) ) ) - \
( ( ( ( a ) - > z ) * ( ( b ) - > y ) ) ) ) ; \
( o ) - > y = \
( ( ( ( ( a ) - > z ) * ( ( b ) - > x ) ) ) - \
( ( ( ( a ) - > x ) * ( ( b ) - > z ) ) ) ) ; \
( o ) - > z = \
( ( ( ( ( a ) - > x ) * ( ( b ) - > y ) ) ) - \
( ( ( ( a ) - > y ) * ( ( b ) - > x ) ) ) ) ; \
} \
MACRO_STOP
# define _rwV3dNormalizeMacro(_result, _out, _in) \
MACRO_START \
{ \
RwReal length2 = RwV3dDotProductMacro ( _in , _in ) ; \
rwInvSqrtMacro ( & ( _result ) , length2 ) ; \
RwV3dScaleMacro ( _out , _in , _result ) ; \
} \
MACRO_STOP
# define RwV3dNormalizeMacro(_result, _out, _in) \
MACRO_START \
{ \
RwReal length2 = RwV3dDotProductMacro ( ( _in ) , ( _in ) ) ; \
RwReal recip ; \
\
rwSqrtInvSqrtMacro ( & ( _result ) , & recip , length2 ) ; \
RwV3dScaleMacro ( ( _out ) , ( _in ) , recip ) ; \
} \
MACRO_STOP
# define RwV3dLengthMacro(_result, _in) \
MACRO_START \
{ \
( _result ) = RwV3dDotProductMacro ( _in , _in ) ; \
rwSqrtMacro ( & ( _result ) , _result ) ; \
} \
MACRO_STOP
# if (! ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) ))
# define RwV2dAssign(o, a) RwV2dAssignMacro(o, a)
# define RwV2dAdd(o, a, b) RwV2dAddMacro(o, a, b)
# define RwV2dSub(o, a, b) RwV2dSubMacro(o, a, b)
# define RwV2dLineNormal(_o, _a, _b) RwV2dLineNormalMacro(_o, _a, _b)
# define RwV2dScale(o, i, s) RwV2dScaleMacro(o, i, s)
# define RwV2dDotProduct(a,b) RwV2dDotProductMacro(a,b)
# define RwV2dPerp(o, a) RwV2dPerpMacro(o, a)
# define RwV3dAssign(o, a) RwV3dAssignMacro(o, a)
# define RwV3dAdd(o, a, b) RwV3dAddMacro(o, a, b)
# define RwV3dSub(o, a, b) RwV3dSubMacro(o, a, b)
# define RwV3dScale(o, a, s) RwV3dScaleMacro(o, a, s)
# define RwV3dIncrementScaled(o, a, s) RwV3dIncrementScaledMacro(o, a, s)
# define RwV3dNegate(o, a) RwV3dNegateMacro(o, a)
# define RwV3dDotProduct(a, b) RwV3dDotProductMacro(a, b)
# define RwV3dCrossProduct(o, a, b) RwV3dCrossProductMacro(o, a, b)
# endif /* (! ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) )) */
# define RWRAD2DEG(_x) ((_x) * (((RwReal)180) / (rwPI)))
# if (!defined(rw4OVERPISQ))
# define rw4OVERPISQ ( ((RwReal)4) / ( rwPI * rwPI ))
# endif /* (!defined(rw4OVERPISQ)) */
# if (!defined(rwPI3))
# define rwPI3 (rwPI * (RwReal)3)
# endif /* (!defined(rwPI3)) */
# if (!defined(rwPI3OVER2))
# define rwPI3OVER2 ( rwPI3 / (RwReal)2 )
# endif /* (!defined(rwPI3OVER2)) */
# if (!defined(rwPI3OVER8))
# define rwPI3OVER8 (rwPI3 / (RwReal)8 )
# endif /* (!defined(rwPI3OVER8)) */
# define RwQuadSin(_x) \
( rw4OVERPISQ * \
( ( ( _x ) < 0 ) ? \
( ( rwPI + ( _x ) ) * ( _x ) ) : \
( ( rwPI - ( _x ) ) * ( _x ) ) ) )
# define RwQuadASin(_result, _s) \
( rwPIOVER2 * ( ( ( _s ) < 0 ) ? \
( rwSqrtMacro ( ( _result ) , 1.0f + ( _s ) ) - 1 ) : \
( 1 - rwSqrtMacro ( ( _result ) , 1.0f - ( _s ) ) ) ) )
# define RwQuadCos(_x) \
( rw4OVERPISQ * \
( ( ( _x ) < - rwPIOVER2 ) ? \
( ( - rwPI3OVER2 - ( _x ) ) * ( - rwPIOVER2 - ( _x ) ) ) : \
( ( ( _x ) < rwPIOVER2 ) ? \
( ( rwPIOVER2 + ( _x ) ) * ( rwPIOVER2 - ( _x ) ) ) : \
( ( rwPIOVER2 - ( _x ) ) * ( rwPI3OVER2 - ( _x ) ) ) ) ) )
# define RwQuadACos(_result, _c) \
( rwPIOVER2 * ( ( ( _c ) < 0 ) ? \
( 2.0f - rwSqrtMacro ( ( _result ) , 1.0f + ( _c ) ) ) : \
rwSqrtMacro ( ( _result ) , 1.0f - ( _c ) ) ) )
# define RwQuadTan(_x) \
( rwPI3 * ( _x ) / ( rwPI * rwPI - ( _x ) * ( _x ) * 4.0f ) )
# define RwQuadATan(_result, _t) \
( ( rwSqrtMacro ( ( _result ) , ( rwPI3OVER8 * rwPI3OVER8 ) + \
( _t ) * ( _t ) * ( rwPIOVER2 * rwPIOVER2 ) ) - rwPI3OVER8 ) \
/ ( _t ) )
# define RwQuadATan2(_result, _s, _c) \
( ( rwSqrtMacro ( ( _result ) , ( _c ) * ( _c ) * ( rwPI3OVER8 * rwPI3OVER8 ) + \
( _s ) * ( _s ) * ( rwPIOVER2 * rwPIOVER2 ) ) \
- ( _c ) * rwPI3OVER8 ) / ( _s ) )
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Other useful stuff */
extern RwReal RwV3dNormalize ( RwV3d * out , const RwV3d * in ) ;
extern RwReal RwV3dLength ( const RwV3d * in ) ;
extern RwReal RwV2dLength ( const RwV2d * in ) ;
extern RwReal RwV2dNormalize ( RwV2d * out , const RwV2d * in ) ;
# if ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) )
extern void RwV2dAssign ( RwV2d * out ,
const RwV2d * ina ) ;
extern void RwV2dAdd ( RwV2d * out ,
const RwV2d * ina , const RwV2d * inb ) ;
extern void RwV2dLineNormal ( RwV2d * out ,
const RwV2d * ina , const RwV2d * inb ) ;
extern void RwV2dSub ( RwV2d * out ,
const RwV2d * ina , const RwV2d * inb ) ;
extern void RwV2dPerp ( RwV2d * out , const RwV2d * in ) ;
extern void RwV2dScale ( RwV2d * out ,
const RwV2d * in , RwReal scalar ) ;
extern RwReal RwV2dDotProduct ( const RwV2d * ina , const RwV2d * inb ) ;
extern void RwV3dAssign ( RwV3d * out ,
const RwV3d * ina ) ;
extern void RwV3dAdd ( RwV3d * out ,
const RwV3d * ina , const RwV3d * inb ) ;
extern void RwV3dSub ( RwV3d * out ,
const RwV3d * ina , const RwV3d * inb ) ;
extern void RwV3dScale ( RwV3d * out ,
const RwV3d * in , RwReal scalar ) ;
extern void RwV3dIncrementScaled ( RwV3d * out ,
const RwV3d * in , RwReal scalar ) ;
extern void RwV3dNegate ( RwV3d * out , const RwV3d * in ) ;
extern RwReal RwV3dDotProduct ( const RwV3d * ina , const RwV3d * inb ) ;
extern void RwV3dCrossProduct ( RwV3d * out ,
const RwV3d * ina , const RwV3d * inb ) ;
# endif /* ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) ) */
/* Transform points/vectors */
extern RwV3d * RwV3dTransformPoints ( RwV3d * pointsOut ,
const RwV3d * pointsIn ,
RwInt32 numPoints ,
const RwMatrix * matrix ) ;
extern RwV3d * RwV3dTransformVectors ( RwV3d * vectorsOut ,
const RwV3d * vectorsIn ,
RwInt32 numPoints ,
const RwMatrix * matrix ) ;
/* SPI */
# if (!defined(RWNOSQRTTABLE))
extern RwReal _rwSqrt ( const RwReal num ) ;
# endif /* (!defined(RWNOSQRTTABLE)) */
# if (!defined(RWNOINVSQRTTABLE))
extern RwReal _rwInvSqrt ( const RwReal num ) ;
# endif /* (!defined(RWNOINVSQRTTABLE)) */
extern RwReal _rwV3dNormalize ( RwV3d * out , const RwV3d * in ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
# define rwVectorOpen(instance, offset, size) \
_rwVectorOpen ( instance , offset , size )
# define rwVectorClose(instance, offset, size) \
_rwVectorClose ( instance , offset , size )
# define rwVectorSetMultFn(multPoint,multVector) \
_rwVectorSetMultFn ( multPoint , multVector )
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/balist.h ---*/
/****************************************************************************
Global Types
*/
typedef struct RwSList RwSList ;
struct RwSList
{
RwUInt8 * listElements ;
RwInt32 numElementsFilled ;
RwInt32 numElementsAlloced ;
RwInt32 entrySize ;
} ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* SList functions */
extern RwSList * _rwSListCreate ( RwInt32 size ) ;
extern RwBool _rwSListDestroy ( RwSList * sList ) ;
extern RwBool _rwSListDestroyArray ( RwUInt8 * array ) ;
extern void _rwSListDestroyEndEntries ( RwSList * sList , RwInt32 amount ) ;
extern RwBool _rwSListDestroyEntry ( RwSList * sList , RwInt32 entry ) ;
extern void _rwSListEmpty ( RwSList * sList ) ;
extern void * _rwSListGetArray ( RwSList * sList ) ;
extern void * _rwSListGetEntry ( RwSList * sList , RwInt32 entry ) ;
extern void * _rwSListGetNewEntry ( RwSList * sList ) ;
extern void * _rwSListGetNewEntries ( RwSList * sList , RwInt32 entry ) ;
extern RwInt32 _rwSListGetNumEntries ( const RwSList * sList ) ;
extern RwBool _rwSListReleaseArray ( RwSList * sList ) ;
extern void * _rwSListToArray ( RwSList * sList ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/* Comparibility macros */
# define rwSListCreate(size) \
_rwSListCreate ( size )
# define rwSListDestroy(sList) \
_rwSListDestroy ( sList )
# define rwSListDestroyArray(array) \
_rwSListDestroyArray ( array )
# define rwSListDestroyEndEntries(sList, amount) \
_rwSListDestroyEndEntries ( sList , amount )
# define rwSListDestroyEntry(sList, entry) \
_rwSListDestroyEntry ( sList , entry )
# define rwSListEmpty(sList) \
_rwSListEmpty ( sList )
# define rwSListGetArray(sList) \
_rwSListGetArray ( sList )
# define rwSListGetEntry(sList, entry) \
_rwSListGetEntry ( sList , entry )
# define rwSListGetNewEntry(sList) \
_rwSListGetNewEntry ( sList )
# define rwSListGetNewEntries(sList, entry) \
_rwSListGetNewEntries ( sList , entry )
# define rwSListGetNumEntries(sList) \
_rwSListGetNumEntries ( sList )
# define rwSListReleaseArray(sList) \
_rwSListReleaseArray ( sList )
# define rwSListToArray(sList) \
_rwSListToArray ( sList )
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/baimmedi.h ---*/
/****************************************************************************
Defines
*/
/* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
Immediate mode interface V2 .0
! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! ! */
/**
* \ ingroup datatypes
* RwRenderState
* This type represents the various render states that
* can be set using the API function \ ref RwRenderStateSet . This function also
* takes a render state value or pointer to an object depending on the type .
* For render states that are toggles , the value should be TRUE to switch the
* state on and FALSE to turn it off .
*
* Note that many of these render states may not be supported on certain
* platforms . The \ ref RwRenderStateSet functions will return FALSE in such cases .
*/
enum RwRenderState
{
rwRENDERSTATENARENDERSTATE = 0 ,
rwRENDERSTATETEXTURERASTER , /**<Raster to texture with. \ref RwRenderStateSet
* takes a pointer to an \ ref RwRaster */
rwRENDERSTATETEXTUREADDRESS , /**<\ref RwTextureAddressMode: wrap, clamp, mirror or border */
rwRENDERSTATETEXTUREADDRESSU , /**<\ref RwTextureAddressMode in u only */
rwRENDERSTATETEXTUREADDRESSV , /**<\ref RwTextureAddressMode in v only */
rwRENDERSTATETEXTUREPERSPECTIVE , /**<Perspective correction on/off */
rwRENDERSTATEZTESTENABLE , /**<Z-buffer test on/off */
rwRENDERSTATESHADEMODE , /**<\ref RwShadeMode: flat or gouraud shading */
rwRENDERSTATEZWRITEENABLE , /**<Z-buffer write on/off */
rwRENDERSTATETEXTUREFILTER , /**<\ref RwTextureFilterMode: point sample, bilinear, trilinear, etc */
rwRENDERSTATESRCBLEND , /**<Source alpha \ref RwBlendFunction: src alpha, 1-src alpha, etc */
rwRENDERSTATEDESTBLEND , /**<Destination alpha \ref RwBlendFunction */
rwRENDERSTATEVERTEXALPHAENABLE , /**<Vertex alpha transparency on/off */
rwRENDERSTATEBORDERCOLOR , /**<Border color for \ref RwTextureAddressMode rwTEXTUREADDRESSBORDER.
* The value should be a packed RwUInt32 in ARGB form . The macro
* RWRGBALONG ( r , g , b , a ) may be used to construct this using 8 - bit
* color components . */
rwRENDERSTATEFOGENABLE , /**<Fogging on/off (all polygons will be fogged) */
rwRENDERSTATEFOGCOLOR , /**<Color used for fogging. The value should be a packed RwUInt32
* in ARGB form . The macro RWRGBALONG ( r , g , b , a ) may be used to
* construct this using 8 - bit color components */
rwRENDERSTATEFOGTYPE , /**<Sets \ref RwFogType, the type of fogging to use */
rwRENDERSTATEFOGDENSITY , /**<Select the fog density for \ref RwFogType of rwFOGTYPEEXPONENTIAL
* or rwFOGTYPEEXPONENTIAL2 . The value should be a pointer to
* an RwReal in the range 0 to 1. */
rwRENDERSTATEFOGTABLE , /**<Install a 256 entry fog table placed between fog distance and far
* clip - plane */
rwRENDERSTATEALPHAPRIMITIVEBUFFER , /**<Render transparent alpha polygons last - on/off. \e Not \e supported
* \ e on \ e any \ e platform . */
rwRENDERSTATECULLMODE , /**<Sets \ref RwCullMode, for selecting face culling. */
rwRENDERSTATESTENCILENABLE , /**< TRUE to enable stenciling, or FALSE to disable stenciling.
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only . */
rwRENDERSTATESTENCILFAIL , /**< Stencil test operator for the fail case.
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILZFAIL , /**< Stencil operation to perform if the stencil test passes
* and the depth test ( z - test ) fails .
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILPASS , /**< Stencil operation to perform if both the stencil and the
* depth ( z ) tests pass .
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILFUNCTION , /**< Comparison function for the stencil test.
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILFUNCTIONREF , /**< Integer reference value for the stencil test.
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILFUNCTIONMASK , /**< Mask applied to the reference value and each stencil buffer
* entry to determine the significant bits for the stencil test .
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATESTENCILFUNCTIONWRITEMASK , /**< Write mask applied to values written into the stencil buffer.
* \ e Supported \ e on \ e Xbox , \ e D3D8 , \ e and \ e OpenGL \ e only */
rwRENDERSTATEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwRenderState RwRenderState ;
/**
* \ ingroup datatypes
* RwShadeMode
* This type represents the options available for setting the
* rwRENDERSTATESHADEMODE render state */
enum RwShadeMode
{
rwSHADEMODENASHADEMODE = 0 , /**<Invalid shading mode */
rwSHADEMODEFLAT , /**<Flat shading */
rwSHADEMODEGOURAUD , /**<Gouraud shading */
rwSHADEMODEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwShadeMode RwShadeMode ;
/**
* \ ingroup datatypes
* RwTextureFilterMode
* This type represents the options available for texture
* filtering ( see API functions \ ref RwTextureSetFilterMode and \ ref RwRenderStateSet ) */
enum RwTextureFilterMode
{
rwFILTERNAFILTERMODE = 0 , /**<Invalid filter mode */
rwFILTERNEAREST , /**<Point sampled */
rwFILTERLINEAR , /**<Bilinear */
rwFILTERMIPNEAREST , /**<Point sampled per pixel mip map */
rwFILTERMIPLINEAR , /**<Bilinear per pixel mipmap */
rwFILTERLINEARMIPNEAREST , /**<MipMap interp point sampled */
rwFILTERLINEARMIPLINEAR , /**<Trilinear */
rwTEXTUREFILTERMODEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwTextureFilterMode RwTextureFilterMode ;
/**
* \ ingroup datatypes
* RwFogType
* This type represents the options available to the
* rwRENDERSTATEFOGTYPE render state ( see \ ref RwRenderState ) ; */
enum RwFogType
{
rwFOGTYPENAFOGTYPE = 0 , /**<Invalid fog type */
rwFOGTYPELINEAR , /**<Linear fog */
rwFOGTYPEEXPONENTIAL , /**<Exponential fog */
rwFOGTYPEEXPONENTIAL2 , /**<Exponential^2 fog */
rwFOGTYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwFogType RwFogType ;
/**
* \ ingroup datatypes
* RwBlendFunction
* This type represents the options available
* to the rwRENDERSTATESRCBLEND and rwRENDERSTATEDESTBLEND render states
* ( see \ ref RwRenderState ) . In the following description ,
* a subscript s refers to a source value while subscript d refers to a
* destination value . */
enum RwBlendFunction
{
rwBLENDNABLEND = 0 , /**<Invalid blend mode */
rwBLENDZERO , /**<(0, 0, 0, 0 ) */
rwBLENDONE , /**<(1, 1, 1, 1 ) */
rwBLENDSRCCOLOR , /**<(Rs, Gs, Bs, As ) */
rwBLENDINVSRCCOLOR , /**<(1-Rs, 1-Gs, 1-Bs, 1-As) */
rwBLENDSRCALPHA , /**<(As, As, As, As ) */
rwBLENDINVSRCALPHA , /**<(1-As, 1-As, 1-As, 1-As) */
rwBLENDDESTALPHA , /**<(Ad, Ad, Ad, Ad ) */
rwBLENDINVDESTALPHA , /**<(1-Ad, 1-Ad, 1-Ad, 1-Ad) */
rwBLENDDESTCOLOR , /**<(Rd, Gd, Bd, Ad ) */
rwBLENDINVDESTCOLOR , /**<(1-Rd, 1-Gd, 1-Bd, 1-Ad) */
rwBLENDSRCALPHASAT , /**<(f, f, f, 1 ) f = min (As, 1-Ad) */
rwBLENDFUNCTIONFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwBlendFunction RwBlendFunction ;
/**
* \ ingroup datatypes
* RwTextureAddressMode
* This type represents the options available for
* applying textures to polygons ( see API functions \ ref RwTextureSetAddressing
* and \ ref RwRenderStateSet , and the \ ref RwRenderState type ) */
enum RwTextureAddressMode
{
rwTEXTUREADDRESSNATEXTUREADDRESS = 0 , /**<Invalid addressing mode */
rwTEXTUREADDRESSWRAP , /**<UV wraps (tiles) */
rwTEXTUREADDRESSMIRROR , /**<Alternate UV is flipped */
rwTEXTUREADDRESSCLAMP , /**<UV is clamped to 0-1 */
rwTEXTUREADDRESSBORDER , /**<Border colour takes effect outside of 0-1 */
rwTEXTUREADDRESSMODEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwTextureAddressMode RwTextureAddressMode ;
/**
* \ ingroup datatypes
* RwStencilOperation
* This type represents the stencil operations to perform
* based on the results of the
* \ ref rwRENDERSTATESTENCILFAIL , \ ref rwRENDERSTATESTENCILZFAIL
* and \ ref rwRENDERSTATESTENCILPASS tests .
*/
enum RwStencilOperation
{
rwSTENCILOPERATIONNASTENCILOPERATION = 0 ,
rwSTENCILOPERATIONKEEP , /* Do not update the entry in the stencil buffer */
rwSTENCILOPERATIONZERO , /* Set the stencil-buffer entry to 0 */
rwSTENCILOPERATIONREPLACE , /* Replace the stencil-buffer entry with reference value */
rwSTENCILOPERATIONINCRSAT , /* Increment the stencil-buffer entry, clamping to the maximum value */
rwSTENCILOPERATIONDECRSAT , /* Decrement the stencil-buffer entry, clamping to zero */
rwSTENCILOPERATIONINVERT , /* Invert the bits in the stencil-buffer entry */
rwSTENCILOPERATIONINCR , /* Increment the stencil-buffer entry, wrapping to zero if the new value exceeds the maximum value */
rwSTENCILOPERATIONDECR , /* Decrement the stencil-buffer entry, wrapping to the maximum value if the new value is less than zero */
rwSTENCILOPERATIONFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwStencilOperation RwStencilOperation ;
/**
* \ ingroup datatypes
* RwStencilFunction
* This type represents the options available for
* the comparison function for the stencil test \ ref rwRENDERSTATESTENCILFUNCTION .
*/
enum RwStencilFunction
{
rwSTENCILFUNCTIONNASTENCILFUNCTION = 0 ,
rwSTENCILFUNCTIONNEVER , /* Always fail the test */
rwSTENCILFUNCTIONLESS , /* Accept the new pixel if its value is less than the value of the current pixel */
rwSTENCILFUNCTIONEQUAL , /* Accept the new pixel if its value equals the value of the current pixel */
rwSTENCILFUNCTIONLESSEQUAL , /* Accept the new pixel if its value is less than or equal to the value of the current pixel */
rwSTENCILFUNCTIONGREATER , /* Accept the new pixel if its value is greater than the value of the current pixel */
rwSTENCILFUNCTIONNOTEQUAL , /* Accept the new pixel if its value does not equal the value of the current pixel */
rwSTENCILFUNCTIONGREATEREQUAL , /* Accept the new pixel if its value is greater than or equal to the value of the current pixel */
rwSTENCILFUNCTIONALWAYS , /* Always pass the test */
rwSTENCILFUNCTIONFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwStencilFunction RwStencilFunction ;
/**
* \ ingroup datatypes
* RwCullMode
* This type represents the options available for culling polygons during rendering .
* and \ ref RwRenderStateSet , and the \ ref RwRenderState type ) */
enum RwCullMode
{
rwCULLMODENACULLMODE = 0 ,
rwCULLMODECULLNONE , /**< Both front and back-facing triangles are drawn. */
rwCULLMODECULLBACK , /**< Just front-facing triangles are drawn */
rwCULLMODECULLFRONT , /**< Just rear-facing triangles are drawn */
rwCULLMODEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwCullMode RwCullMode ;
/**
* \ ingroup datatypes
* RwPrimitiveType
* This type represents the different types of indexed
* line and indexed triangle primitives that are available when rendering 2 D
* and 3 D immediate mode objects ( see API functions \ ref RwIm2DRenderIndexedPrimitive ,
* \ ref RwIm2DRenderPrimitive , \ ref RwIm3DRenderIndexedPrimitive and \ ref RwIm3DRenderPrimitive ) .
* Indices are into a vertex list and must be defined in a counter - clockwise order
* ( as seen from the camera ) to be visible . */
enum RwPrimitiveType
{
rwPRIMTYPENAPRIMTYPE = 0 , /**<Invalid primative type */
rwPRIMTYPELINELIST = 1 , /**<Unconnected line segments, each line is specified by
* both its start and end index , independently of other lines
* ( for example , 3 segments specified as 0 - 1 , 2 - 3 , 4 - 5 ) */
rwPRIMTYPEPOLYLINE = 2 , /**<Connected line segments, each line's start index
* ( except the first ) is specified by the index of the end of
* the previous segment ( for example , 3 segments specified as
* 0 - 1 , 1 - 2 , 2 - 3 ) */
rwPRIMTYPETRILIST = 3 , /**<Unconnected triangles: each triangle is specified by
* three indices , independently of other triangles ( for example ,
* 3 triangles specified as 0 - 1 - 2 , 3 - 4 - 5 , 6 - 7 - 8 ) */
rwPRIMTYPETRISTRIP = 4 , /**<Connected triangles sharing an edge with, at most, one
* other forming a series ( for example , 3 triangles specified
* as 0 - 2 - 1 , 1 - 2 - 3 - , 2 - 4 - 3 ) */
rwPRIMTYPETRIFAN = 5 , /**<Connected triangles sharing an edge with, at most,
* two others forming a fan ( for example , 3 triangles specified
* as 0 - 2 - 1 , 0 - 3 - 2 , 0 - 4 - 3 ) */
rwPRIMTYPEPOINTLIST = 6 , /**<Points 1, 2, 3, etc. This is not
* supported by the default RenderWare
* immediate or retained - mode pipelines
* ( except on PlayStation 2 ) , it is intended
* for use by user - created pipelines */
rwPRIMITIVETYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwPrimitiveType RwPrimitiveType ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Expose Z buffer range */
extern RwReal RwIm2DGetNearScreenZ ( void ) ;
extern RwReal RwIm2DGetFarScreenZ ( void ) ;
extern RwBool RwRenderStateGet ( RwRenderState state , void * value ) ;
extern RwBool RwRenderStateSet ( RwRenderState state , void * value ) ;
extern RwBool RwIm2DRenderLine ( RwIm2DVertex * vertices , RwInt32 numVertices , RwInt32 vert1 , RwInt32 vert2 ) ;
extern RwBool RwIm2DRenderTriangle ( RwIm2DVertex * vertices , RwInt32 numVertices ,
RwInt32 vert1 , RwInt32 vert2 , RwInt32 vert3 ) ;
extern RwBool RwIm2DRenderPrimitive ( RwPrimitiveType primType , RwIm2DVertex * vertices , RwInt32 numVertices ) ;
extern RwBool RwIm2DRenderIndexedPrimitive ( RwPrimitiveType primType , RwIm2DVertex * vertices , RwInt32 numVertices ,
RwImVertexIndex * indices , RwInt32 numIndices ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/badevice.h ---*/
/***************************************************************************/
/************************* System Requests *********************************/
/***************************************************************************/
/* Device controls:
*
* rwDEVICESYSTEMOPEN ( NULL , RwEngineOpenParams * openParams , 0 )
* rwDEVICESYSTEMCLOSE ( NULL , NULL , 0 )
* rwDEVICESYSTEMSTART ( NULL , NULL , 0 )
* rwDEVICESYSTEMSTOP ( NULL , NULL , 0 )
* rwDEVICESYSTEMREGISTER ( RwDevice * coreDeviceBlock , RwMemoryFunctions * memFuncs , 0 )
* rwDEVICESYSTEMGETNUMMODES ( RwInt32 * numModes , NULL , 0 )
* rwDEVICESYSTEMGETMODEINFO ( RwVideoMode * modeinfo , NULL , RwInt32 modeNum )
* rwDEVICESYSTEMUSEMODE ( NULL , NULL , RwInt32 modeNum )
* rwDEVICESYSTEMFOCUS ( NULL , NULL , RwBool gainFocus )
* rwDEVICESYSTEMINITPIPELINE ( NULL , NULL , 0 )
* rwDEVICESYSTEMGETMODE ( RwInt32 * curMode , NULL , 0 )
* rwDEVICESYSTEMSTANDARDS ( RwStandardFunc * fnPtrArray , NULL , RwInt32 arraySize )
* rwDEVICESYSTEMGETTEXMEMSIZE ( RwInt32 * texMemSizeOut , NULL , 0 )
* rwDEVICESYSTEMGETNUMSUBSYSTEMS ( RwInt32 * numSubSystemsOut , NULL , 0 )
* rwDEVICESYSTEMGETSUBSYSTEMINFO ( RwSubSystemInfo * subSystemInfo , NULL , RwInt32 subSystemNum )
* rwDEVICESYSTEMGETCURRENTSUBSYSTEM ( RwInt32 * curSubSystem , NULL , 0 )
* rwDEVICESYSTEMSETSUBSYSTEM ( NULL , NULL , RwInt32 subSystemNum )
* rwDEVICESYSTEMFINALIZESTART ( NULL , NULL , 0 )
* rwDEVICESYSTEMINITIATESTOP ( NULL , NULL , 0 )
* rwDEVICESYSTEMRXPIPELINEREQUESTPIPE ( RxPipeline * * pipelineRef , NULL , RwInt32 pipeType )
* rwDEVICESYSTEMDD - start of device specific controls
*/
# define rwPIPETYPEMATERIAL 0
# define rwPIPETYPEWORLDSECTORINSTANCE 1
# define rwPIPETYPEATOMICINSTANCE 2
enum RwCoreDeviceSystemFn
{
rwDEVICESYSTEMOPEN = 0x00 ,
rwDEVICESYSTEMCLOSE ,
rwDEVICESYSTEMSTART ,
rwDEVICESYSTEMSTOP ,
rwDEVICESYSTEMREGISTER ,
rwDEVICESYSTEMGETNUMMODES ,
rwDEVICESYSTEMGETMODEINFO ,
rwDEVICESYSTEMUSEMODE ,
rwDEVICESYSTEMFOCUS ,
rwDEVICESYSTEMINITPIPELINE ,
rwDEVICESYSTEMGETMODE ,
rwDEVICESYSTEMSTANDARDS ,
rwDEVICESYSTEMGETTEXMEMSIZE ,
rwDEVICESYSTEMGETNUMSUBSYSTEMS ,
rwDEVICESYSTEMGETSUBSYSTEMINFO ,
rwDEVICESYSTEMGETCURRENTSUBSYSTEM ,
rwDEVICESYSTEMSETSUBSYSTEM ,
rwDEVICESYSTEMFINALIZESTART ,
rwDEVICESYSTEMINITIATESTOP ,
rwDEVICESYSTEMGETMAXTEXTURESIZE ,
rwDEVICESYSTEMRXPIPELINEREQUESTPIPE ,
rwDEVICESYSTEMGETMETRICBLOCK ,
rwDEVICESYSTEMDD = 0x1000 ,
rwCOREDEVICESYSTEMFNFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwCoreDeviceSystemFn RwCoreDeviceSystemFn ;
/******************************************************************************/
/********************* Standard functions *************************************/
/******************************************************************************/
# define rwSTANDARDNASTANDARD 0
# define rwSTANDARDCAMERABEGINUPDATE 1 /* Start 3d camera update */
# define rwSTANDARDRGBTOPIXEL 2 /* For an RGB value return a pixel value */
# define rwSTANDARDPIXELTORGB 3 /* For a pixel value returns a RGB value */
# define rwSTANDARDRASTERCREATE 4 /* Create an raster */
# define rwSTANDARDRASTERDESTROY 5 /* Raster destroy */
# define rwSTANDARDIMAGEGETRASTER 6 /* Get image from a raster */
# define rwSTANDARDRASTERSETIMAGE 7 /* Set raster from an image */
# define rwSTANDARDTEXTURESETRASTER 8 /* Set texture's raster */
# define rwSTANDARDIMAGEFINDRASTERFORMAT 9 /* Find a suitable raster format for an image */
# define rwSTANDARDCAMERAENDUPDATE 10 /* End 3d camera update */
# define rwSTANDARDSETRASTERCONTEXT 11 /* Start destination of 2d operations */
# define rwSTANDARDRASTERSUBRASTER 12 /* Make a raster inside another raster */
# define rwSTANDARDRASTERCLEARRECT 13 /* Clear a rectangle of the current dest raster */
# define rwSTANDARDRASTERCLEAR 14 /* Clear the current dest raster */
# define rwSTANDARDRASTERLOCK 15 /* Lock a raster to get it's pixels */
# define rwSTANDARDRASTERUNLOCK 16 /* Unlock a raster to return it's pixels */
# define rwSTANDARDRASTERRENDER 17 /* Render a raster (not scaled, but masked) */
# define rwSTANDARDRASTERRENDERSCALED 18 /* Render a raster (scaled and masked) */
# define rwSTANDARDRASTERRENDERFAST 19 /* Render a raster (not scaled or masked) */
# define rwSTANDARDRASTERSHOWRASTER 20 /* Show a camera raster */
# define rwSTANDARDCAMERACLEAR 21 /* Clear a camera's raster and/or Z raster */
# define rwSTANDARDHINTRENDERF2B 22 /* Set hint for rendering direction in the world */
# define rwSTANDARDRASTERLOCKPALETTE 23 /* Lock a raster to get it's palette */
# define rwSTANDARDRASTERUNLOCKPALETTE 24 /* Unlock a raster to return it's palette */
# define rwSTANDARDNATIVETEXTUREGETSIZE 25 /* Get size of native texture when written to a stream */
# define rwSTANDARDNATIVETEXTUREREAD 26 /* Read native texture from the stream */
# define rwSTANDARDNATIVETEXTUREWRITE 27 /* Write native texture to the stream */
# define rwSTANDARDRASTERGETMIPLEVELS 28 /* Get the number of mip levels in a raster */
# define rwSTANDARDNUMOFSTANDARD 29
/****************************************************************************
Global Types
*/
/* Standard functions */
typedef RwBool ( * RwStandardFunc ) ( void * pOut , void * pInOut , RwInt32 nI ) ;
typedef struct RwEngineOpenParams RwEngineOpenParams ;
/**
* \ ingroup datatypes
* \ struct RwEngineOpenParams
* This type is used to specify device dependent parameters
* for use by the API function \ ref RwEngineOpen .
* For a Windows application the displayID field
* should be set to the window ' s handle ( of type HWND ) .
* For NULL and sky libraries displayID = 0 :
*/
struct RwEngineOpenParams
{
void * displayID ; /**< Display Identifier */
} ;
/* nOption is one of a list of possible System defines (see above) */
typedef RwBool
( * RwSystemFunc ) ( RwInt32 nOption ,
void * pOut ,
void * pInOut ,
RwInt32 nIn ) ;
/* Device block */
typedef RwBool
( * RwRenderStateSetFunction ) ( RwRenderState nState , void * pParam ) ;
typedef RwBool
( * RwRenderStateGetFunction ) ( RwRenderState nState , void * pParam ) ;
typedef RwBool
( * RwIm2DRenderLineFunction ) ( RwIm2DVertex * vertices ,
RwInt32 numVertices ,
RwInt32 vert1 ,
RwInt32 vert2 ) ;
typedef RwBool
( * RwIm2DRenderTriangleFunction ) ( RwIm2DVertex * vertices ,
RwInt32 numVertices ,
RwInt32 vert1 ,
RwInt32 vert2 ,
RwInt32 vert3 ) ;
typedef RwBool
( * RwIm2DRenderPrimitiveFunction ) ( RwPrimitiveType primType ,
RwIm2DVertex * vertices ,
RwInt32 numVertices ) ;
typedef RwBool
( * RwIm2DRenderIndexedPrimitiveFunction ) ( RwPrimitiveType primType ,
RwIm2DVertex * vertices ,
RwInt32 numVertices ,
RwImVertexIndex * indices ,
RwInt32 numIndices ) ;
typedef RwBool
( * RwIm3DRenderLineFunction ) ( RwInt32 vert1 ,
RwInt32 vert2 ) ;
typedef RwBool
( * RwIm3DRenderTriangleFunction ) ( RwInt32 vert1 ,
RwInt32 vert2 ,
RwInt32 vert3 ) ;
typedef RwBool
( * RwIm3DRenderPrimitiveFunction ) ( RwPrimitiveType primType ) ;
typedef RwBool
( * RwIm3DRenderIndexedPrimitiveFunction ) ( RwPrimitiveType primtype ,
RwImVertexIndex * indices ,
RwInt32 numIndices ) ;
typedef struct RwDevice RwDevice ;
/**
* \ ingroup datatypes
* \ struct RwDevice
* Structure describing a display device
*/
struct RwDevice
{
RwReal gammaCorrection ; /**<Gamma correction */
RwSystemFunc fpSystem ; /**< System handler */
RwReal zBufferNear ; /**< Near Z buffer value */
RwReal zBufferFar ; /**< Far Z buffer value */
/* Immediate mode functions */
RwRenderStateSetFunction fpRenderStateSet ; /**< Internal Use */
RwRenderStateGetFunction fpRenderStateGet ; /**< Internal Use */
/* Render functions */
RwIm2DRenderLineFunction fpIm2DRenderLine ; /**< Internal Use */
RwIm2DRenderTriangleFunction fpIm2DRenderTriangle ; /**< Internal Use */
RwIm2DRenderPrimitiveFunction fpIm2DRenderPrimitive ; /**< Internal Use */
RwIm2DRenderIndexedPrimitiveFunction fpIm2DRenderIndexedPrimitive ; /**< Internal Use */
RwIm3DRenderLineFunction fpIm3DRenderLine ; /**< Internal Use */
RwIm3DRenderTriangleFunction fpIm3DRenderTriangle ; /**< Internal Use */
RwIm3DRenderPrimitiveFunction fpIm3DRenderPrimitive ; /**< Internal Use */
RwIm3DRenderIndexedPrimitiveFunction fpIm3DRenderIndexedPrimitive ; /**< Internal Use */
} ;
typedef struct RwMetrics RwMetrics ;
/**
* \ ingroup datatypes
* \ struct RwMetrics
* This structure provides information about the performance
* of the application . The metrics are recorded only in the metrics
* libraries . To use metrics you should compile with the RWMETRICS
* preprocessor symbol defines , and link with the metrics libraries
* that ship with the SDK . The metrics are recorded on a per - frame
* basis . Each platform may provide additional information that
* is specific to that platform . Note that either the
* \ ref numTextureUploads or \ ref numResourceAllocs being non - zero can
* be considered as bad news and will indicate a significantly
* reduced rendering performance .
*/
struct RwMetrics
{
RwUInt32 numTriangles ; /**< Number of triangles processed */
RwUInt32 numProcTriangles ; /**< Number of mesh triangles processed */
RwUInt32 numVertices ; /**< Number of vertices processed */
RwUInt32 numTextureUploads ; /**< Number of textures swapped */
RwUInt32 sizeTextureUploads ; /**< Size of textures swapped */
RwUInt32 numResourceAllocs ; /**< Number of resource blocks swapped */
void * devSpecificMetrics ; /**< Device specific metrics */
} ;
# define SUBSYSTEMNAME_MAXLEN 80
typedef struct RwSubSystemInfo RwSubSystemInfo ;
/**
* \ ingroup datatypes
* \ struct RwSubSystemInfo
* This type is used to represent information about a device .
* The only available field specifies a character string
* which identifies the subsystem
* ( see API function \ ref RwEngineGetSubSystemInfo ) . */
struct RwSubSystemInfo
{
RwChar name [ SUBSYSTEMNAME_MAXLEN ] ; /**< Sub system string */
} ;
/* Video modes */
/* These are flag bits which may be ORd */
/**
* \ ingroup datatypes
* RwVideoModeFlag
* These flags specify the type of display that RenderWare
* will use . The flags may be OR ' d together to build composite modes .
* Note that not all modes are supported on all platforms .
*/
enum RwVideoModeFlag
{
rwVIDEOMODEEXCLUSIVE = 0x1 , /**<Exclusive (i.e. full-screen) */
rwVIDEOMODEINTERLACE = 0x2 , /**<Interlaced */
rwVIDEOMODEFFINTERLACE = 0x4 , /**<Flicker Free Interlaced */
rwVIDEOMODEFSAA0 = 0x8 , /**< \if sky2
* Full - screen antialiasing mode 0
* \ endif */
rwVIDEOMODEFSAA1 = 0x10 , /**< \if sky2
* Full - screen antialiasing mode 1
* \ endif */
rwVIDEOMODEFLAGFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwVideoModeFlag RwVideoModeFlag ;
typedef struct RwVideoMode RwVideoMode ;
/**
* \ ingroup datatypes
* \ struct RwVideoMode
* This type represents a video mode available on a device specified
* by the frame buffer resolution ( width and height ) and depth ,
* and a flag indicating whether the device has exclusive use of
* the mode ( see API function \ ref RwEngineGetVideoModeInfo ) : */
struct RwVideoMode
{
RwInt32 width ; /**< Width */
RwInt32 height ; /**< Height */
RwInt32 depth ; /**< Depth */
RwVideoModeFlag flags ; /**< Flags */
} ;
/**
* \ ingroup datatypes
* RwEngineInitFlag
* Engine initialization flags . An application can use
* these to control the memory manager that RenderWare uses for dynamic
* memory management . By default RenderWare uses FreeLists . This is the
* preferred way of using RenderWare . If the application does not want
* RenderWare to use the memory manager , then the application can pass
* rwENGINEINITNOFREELISTS as the argument to \ ref RwEngineInit and
* RenderWare will replace freelist calls to corresponding calls to
* RwMalloc and RwFree . This will result in more memory management
* related calls .
*/
enum RwEngineInitFlag
{
rwENGINEINITFREELISTS = 0 , /**<Use Freelists */
rwENGINEINITNOFREELISTS = 0x1 , /**<Don't use Freelists */
rwENGINEINITFLAGFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwEngineInitFlag RwEngineInitFlag ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Get the library binary version */
extern RwInt32 RwEngineGetVersion ( void ) ;
/* Sequence of events to get RenderWare up and running */
extern RwBool RwEngineInit ( RwMemoryFunctions * memFuncs , RwUInt32 initFlags , RwUInt32 resArenaSize ) ;
extern RwInt32 RwEngineRegisterPlugin ( RwInt32 size , RwUInt32 pluginID ,
RwPluginObjectConstructor initCB ,
RwPluginObjectDestructor termCB ) ;
extern RwInt32 RwEngineGetPluginOffset ( RwUInt32 pluginID ) ;
extern RwBool RwEngineOpen ( RwEngineOpenParams * initParams ) ;
extern RwBool RwEngineStart ( void ) ;
extern RwBool RwEngineStop ( void ) ;
extern RwBool RwEngineClose ( void ) ;
extern RwBool RwEngineTerm ( void ) ;
/* Finding out about the rendering sub systems available */
extern RwInt32 RwEngineGetNumSubSystems ( void ) ;
extern RwSubSystemInfo * RwEngineGetSubSystemInfo ( RwSubSystemInfo * subSystemInfo , RwInt32 subSystemIndex ) ;
extern RwInt32 RwEngineGetCurrentSubSystem ( void ) ;
extern RwBool RwEngineSetSubSystem ( RwInt32 subSystemIndex ) ;
/* Finding out about the modes available */
extern RwInt32 RwEngineGetNumVideoModes ( void ) ;
extern RwVideoMode * RwEngineGetVideoModeInfo ( RwVideoMode * modeinfo , RwInt32 modeIndex ) ;
extern RwInt32 RwEngineGetCurrentVideoMode ( void ) ;
extern RwBool RwEngineSetVideoMode ( RwInt32 modeIndex ) ;
/* Finding out how much texture memory is available */
extern RwInt32 RwEngineGetTextureMemorySize ( void ) ;
extern RwInt32 RwEngineGetMaxTextureSize ( void ) ;
/* Getting/Releasing the focus */
extern RwBool RwEngineSetFocus ( RwBool enable ) ;
/* Getting metrics */
extern RwMetrics * RwEngineGetMetrics ( void ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bafsys.h ---*/
/****************************************************************************
Global Types
*/
/*
* \ typedef rwFnFexist
* Returns TRUE if file with given name exists , FALSE if it doesn ' t .
*/
typedef RwBool ( * rwFnFexist ) ( const RwChar * name ) ;
/*
* \ typedef rwFnFopen
* Mimics ANSI C Standard Library fopen .
*/
typedef void * ( * rwFnFopen ) ( const RwChar * name , const RwChar * mode ) ;
/*
* \ typedef rwFnFclose
* Mimics ANSI C Standard Library fclose .
*/
typedef int ( * rwFnFclose ) ( void * fptr ) ;
/*
* \ typedef rwFnFread
* Mimics ANSI C Standard Library fread .
*/
typedef size_t ( * rwFnFread ) ( void * addr , size_t size , size_t count , void * fptr ) ;
/*
* \ typedef rwFnFwrite
* Mimics ANSI C Standard Library fwrite .
*/
typedef size_t ( * rwFnFwrite ) ( const void * addr , size_t size , size_t count , void * fptr ) ;
/*
* \ typedef rwFnFgets
* Mimics ANSI C Standard Library fgets .
*/
typedef RwChar * ( * rwFnFgets ) ( RwChar * buffer , int maxLen , void * fptr ) ;
/*
* \ typedef rwFnFputs
* Mimics ANSI C Standard Library fputs .
*/
typedef int ( * rwFnFputs ) ( const RwChar * buffer , void * fptr ) ;
/*
* \ typedef rwFnFeof
* Mimics ANSI C Standard Library feof .
*/
typedef int ( * rwFnFeof ) ( void * fptr ) ;
/*
* \ typedef rwFnFseek
* Mimics ANSI C Standard Library fseek .
*/
typedef int ( * rwFnFseek ) ( void * fptr , long offset , int origin ) ;
/*
* \ typedef rwFnFflush
* Mimics ANSI C Standard Library fflush .
*/
typedef int ( * rwFnFflush ) ( void * fptr ) ;
/*
* \ typedef rwFnFtell
* Mimics ANSI C Standard Library ftell .
*/
typedef int ( * rwFnFtell ) ( void * fptr ) ;
/**
* \ ingroup datatypes
* \ typedef RwFileFunctions
* typedef for struct RwFileFunctions
*/
typedef struct RwFileFunctions RwFileFunctions ;
/**
* \ ingroup datatypes
* \ struct RwFileFunctions
* This type is used to specify the file access
* functions used by RenderWare . The default file system uses the standard
* ANSI functions . The application may install an alternative file system
* providing it complies with the ANSI interface - - see API
* function \ ref RwOsGetFileInterface .
*
* The function types associated with this type are defined as follows
*
* \ verbatim
RwBool ( * rwFnFexist ) ( const RwChar * name )
void * ( * rwFnFopen ) ( const RwChar * name , const RwChar * access )
int ( * rwFnFclose ) ( void * fptr )
size_t ( * rwFnFread ) ( void * addr , size_t size , size_t count , void * fptr )
size_t ( * rwFnFwrite ) ( const void * addr , size_t size , size_t count ,
void * fptr )
RwChar * ( * rwFnFgets ) ( RwChar * buffer , int maxLen , void * fptr )
int ( * rwFnFputs ) ( const RwChar * buffer , void * fptr )
int ( * rwFnFeof ) ( void * fptr )
int ( * rwFnFseek ) ( void * fptr , long offset , int origin )
int ( * rwFnFflush ) ( void * fptr )
int ( * rwFnFtell ) ( void * fptr )
\ endverbatim
* Note the function argument lists are consistent with the ANSI
* standard file access interface :
*/
struct RwFileFunctions
{
rwFnFexist rwfexist ; /**< Pointer to fexist function */
rwFnFopen rwfopen ; /**< Pointer to fopen function */
rwFnFclose rwfclose ; /**< Pointer to fclose function */
rwFnFread rwfread ; /**< Pointer to fread function */
rwFnFwrite rwfwrite ; /**< Pointer to fwrite function */
rwFnFgets rwfgets ; /**< Pointer to fgets function */
rwFnFputs rwfputs ; /**< Pointer to puts function */
rwFnFeof rwfeof ; /**< Pointer to feof function */
rwFnFseek rwfseek ; /**< Pointer to fseek function */
rwFnFflush rwfflush ; /**< Pointer to fflush function */
rwFnFtell rwftell ; /**< Pointer to ftell function */
} ;
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
extern RwFileFunctions * RwOsGetFileInterface ( void ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/baerr.h ---*/
/****************************************************************************
Global Types
*/
typedef struct RwError RwError ;
/**
* \ ingroup datatypes
* \ struct RwError
* This type represents a RenderWare error specified by the
* ID of the plugin that the error was issued from ( pluginID ) and the error
* code itself ( errorCode ) ( see API function \ ref RwErrorGet ) .
* \ param pluginID The ID of the plugin that issued the error .
* \ param errorCode A value representing the error code .
*/
struct RwError
{
RwInt32 pluginID ; /**< Internal Use */
RwInt32 errorCode ; /**< Internal Use */
} ;
# define RWECODE(a,b) a,
/* common errors have the MSB set */
enum RwErrorCodeCommon
{
E_RW_NOERROR = ( int ) 0x80000000L ,
# include "errcom.def"
E_RW_LASTERROR = RWFORCEENUMSIZEINT
} ;
typedef enum RwErrorCodeCommon RwErrorCodeCommon ;
# undef RWECODE
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
extern RwError * RwErrorGet ( RwError * code ) ;
extern RwError * RwErrorSet ( RwError * code ) ;
extern RwInt32 _rwerror ( RwInt32 code , . . . ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/badebug.h ---*/
/****************************************************************************
Global Types
*/
/**
* \ ingroup datatypes
* RwDebugType
* This type represents the different types of debug and
* trace messages that can be sent to the currently installed debug handler
* ( see API function \ ref RwDebugSendMessage ) */
enum RwDebugType
{
rwNADEBUGTYPE = 0 , /**<Invalid */
rwDEBUGASSERT , /**<Send an assert message */
rwDEBUGERROR , /**<Send an error message */
rwDEBUGMESSAGE , /**<Send an informational message */
rwDEBUGTRACE , /**<Send a trace message */
rwDEBUGTYPEFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwDebugType RwDebugType ;
/**
* \ ingroup datatypes
* \ ref RwDebugHandler
* This type represents the
* function called from \ ref RwDebugSendMessage for sending a message to the
* RenderWare debug stream .
*
* \ param type Type of debug message ( assert , error , etc . ) .
*
* \ param string Pointer to a string containing the error
* message .
*
* \ see RwDebugSetHandler
*/
typedef void ( * RwDebugHandler ) ( RwDebugType type ,
const RwChar * string ) ;
# ifdef RWDEBUG
# define RwDebugSendMessage(type, funcName, message) \
_rwDebugSendMessage ( type , \
RWSTRING ( __FILE__ ) , \
__LINE__ , \
funcName , \
message )
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Setting the debug message handler */
extern RwDebugHandler RwDebugSetHandler ( RwDebugHandler handler ) ;
extern void RwDebugSetTraceState ( RwBool state ) ;
extern void _rwDebugSendMessage ( RwDebugType type ,
const RwChar * file ,
const RwInt32 line ,
const RwChar * funcName ,
const RwChar * message ) ;
/* Sending a message */
extern RwChar * _rwdberrcommon ( RwInt32 code , . . . ) ;
extern RwChar * _rwdbsprintf ( const RwChar * format ,
. . . ) __RWFORMAT__ ( printf , 1 , 2 ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
# else /* RWDEBUG */
# define RwDebugSetHandler(handler)
# define RwDebugSetTraceState(state)
# define RwDebugSendMessage(type, funcName, message)
# if (!defined(RWREGSETDEBUGTRACE))
# define RWREGSETDEBUGTRACE(_name) /* No op */
# endif /* (!defined(RWREGSETDEBUGTRACE)) */
# endif /* RWDEBUG */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/balibtyp.h ---*/
/* Finding MSBs */
# define RWBYTEFINDMSB(a) \
( _rwMsbBit [ ( a ) ] - 1 )
# define RWWORDFINDMSB(a) \
( ( ( a ) & 0xff00 ) ? RWBYTEFINDMSB ( ( a ) > > 8 ) + 8 : RWBYTEFINDMSB ( a ) )
# define RWLONGFINDMSB(a) \
( ( ( a ) & 0xffff0000UL ) ? RWWORDFINDMSB ( ( a ) > > 16 ) + 16 : RWWORDFINDMSB ( a ) )
/****************************************************************************
Defines
*/
/* macros used to access plugin data in objects */
# define RWPLUGINOFFSET(_type, _base, _offset) \
( ( _type * ) ( ( RwUInt8 * ) ( _base ) + ( _offset ) ) )
# define RWPLUGINOFFSETCONST(_type, _base, _offset) \
( ( const _type * ) ( ( const RwUInt8 * ) ( _base ) + ( _offset ) ) )
/* macro used to access global data structure (the root type is RwGlobals) */
# define RWSRCGLOBAL(variable) \
( ( ( RwGlobals * ) RwEngineInstance ) - > variable )
# define RWASSERTISTYPE(_f, _t) \
RWASSERT ( ( ( ( const RwObject * ) ( _f ) ) - > type ) = = ( _t ) )
/****************************************************************************
Global Types
*/
enum RwEngineStatus
{
rwENGINESTATUSIDLE = 0 , /* This needs to be zero */
rwENGINESTATUSINITED = 1 ,
rwENGINESTATUSOPENED = 2 ,
rwENGINESTATUSSTARTED = 3 ,
rwENGINESTATUSFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
} ;
typedef enum RwEngineStatus RwEngineStatus ;
typedef struct RwGlobals RwGlobals ;
struct RwGlobals
{
# ifdef RWDEBUG
RwDebugHandler debugFunction ; /* debug string handler */
void * debugFile ; /* debug output file */
RwInt32 debugStackDepth ; /* current depth of function stack */
RwBool debugTrace ; /* is function tracing enabled */
# endif
/* Current entities */
void * curCamera ; /* Current camera */
void * curWorld ; /* Current World */
/* Checking counters */
RwUInt16 renderFrame ; /* Camera display count */
RwUInt16 lightFrame ; /* Used to ensure each light is applied only once. */
RwUInt16 pad [ 2 ] ; /* Longword align it again */
/* For the currently accessed device */
RwDevice dOpenDevice ;
/* Standard renderers and functions */
RwStandardFunc stdFunc [ rwSTANDARDNUMOFSTANDARD ] ;
/* All of the frames which have been updated */
RwLinkList dirtyFrameList ;
/* The file functions */
RwFileFunctions fileFuncs ;
/* The string functions */
RwStringFunctions stringFuncs ;
/* The memory allocation functions */
RwMemoryFunctions memoryFuncs ;
# ifdef RWDEBUG
RwBool freeListExtraDebug ;
# endif /* RWDEBUG */
/* virtual memory alloc/free functions */
RwMemoryAllocFn memoryAlloc ;
RwMemoryFreeFn memoryFree ;
RwMetrics * metrics ;
/* Current engine status */
RwEngineStatus engineStatus ;
/* Resource arena init size. */
RwUInt32 resArenaInitSize ;
} ;
typedef struct RwModuleInfo RwModuleInfo ;
struct RwModuleInfo
{
RwInt32 globalsOffset ;
RwInt32 numInstances ;
} ;
/****************************************************************************
Program wide globals
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
# ifdef RWGLOBALSIZE
extern RwUInt32 ourGlobals [ RWGLOBALSIZE / sizeof ( RwUInt32 ) ] ;
# define RwEngineInstance ourGlobals
# else /* RWGLOBALSIZE */
extern void * RwEngineInstance ;
# endif /* RWGLOBALSIZE */
extern RwInt8 _rwMsbBit [ ] ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/baresour.h ---*/
# define RWRESOURCESGLOBAL(var) (RWPLUGINOFFSET(rwResourcesGlobals, \
RwEngineInstance , resourcesModule . globalsOffset ) - > var )
/**
* \ ingroup datatypes
* \ typedef RwResEntry
* RwResEntry object . Instanced data block in resources arena .
* This should be considered an opaque
* type . Use the RwResEntry API functions to access .
*/
typedef struct RwResEntry RwResEntry ;
/**
* \ ingroup datatypes
* \ typedef RwResEntryDestroyNotify
* This type represents the function
* called from \ ref RwResourcesFreeResEntry ( and indirectly from
* \ ref RwResourcesEmptyArena ) immediately before the memory used by the
* specified resources entry is released .
*
* \ param resEntry Pointer to the instanced data .
*/
typedef void ( * RwResEntryDestroyNotify ) ( RwResEntry * resEntry ) ;
# if (!defined(DOXYGEN))
struct RwResEntry
{
RwLLLink link ; /**< Node in the list of resource elements */
RwInt32 size ; /**< Size of this node */
void * owner ; /**< Owner of this node */
RwResEntry * * ownerRef ; /**< Pointer to pointer to this (enables de-alloc) */
RwResEntryDestroyNotify destroyNotify ; /**< This is called right before destruction */
} ;
# endif /* (!defined(DOXYGEN)) */
typedef struct rwResources rwResources ;
struct rwResources
{
RwInt32 maxSize ;
RwInt32 currentSize ;
RwInt32 reusageSize ;
void * memHeap ;
RwLinkList entriesA ;
RwLinkList entriesB ;
RwLinkList * freeEntries ;
RwLinkList * usedEntries ;
} ;
typedef struct rwResourcesGlobals rwResourcesGlobals ;
struct rwResourcesGlobals
{
rwResources res ;
} ;
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Setting the resources arena size */
extern RwBool RwResourcesSetArenaSize ( RwUInt32 size ) ;
extern RwInt32 RwResourcesGetArenaSize ( void ) ;
extern RwInt32 RwResourcesGetArenaUsage ( void ) ;
extern RwBool RwResourcesEmptyArena ( void ) ;
/* Allocate */
extern RwResEntry * RwResourcesAllocateResEntry ( void * owner ,
RwResEntry * * ownerRef ,
RwInt32 size ,
RwResEntryDestroyNotify
destroyNotify ) ;
/* Deallocate */
extern RwBool RwResourcesFreeResEntry ( RwResEntry * entry ) ;
/* Mark all as unused */
extern void _rwResourcesPurge ( void ) ;
# if ((defined(RWDEBUG)) || (defined(RWSUPPRESSINLINE)))
/* Mark as used */
extern RwResEntry * RwResourcesUseResEntry ( RwResEntry * entry ) ;
# endif /* ((defined(RWDEBUG)) || (defined(RWSUPPRESSINLINE))) */
extern RwModuleInfo resourcesModule ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
# if ((!defined(RWDEBUG)) && (!defined(RWSUPPRESSINLINE)))
# define RwResourcesUseResEntry(_ntry) \
( ( ( ( _ntry ) - > link . next ) ? \
( rwLinkListRemoveLLLink ( & ( ( _ntry ) - > link ) ) , \
rwLinkListAddLLLink ( RWRESOURCESGLOBAL ( res . usedEntries ) , \
& ( ( _ntry ) - > link ) ) ) : \
NULL ) , \
( _ntry ) )
# endif /* ((!defined(RWDEBUG)) && (!defined(RWSUPPRESSINLINE))) */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/bacolor.h ---*/
/****************************************************************************
Global Types
*/
typedef struct RwRGBAReal RwRGBAReal ;
/**
* \ ingroup datatypes
* \ struct RwRGBAReal
* This structure represents a RGBA color which has
* components specified as real values .
*
* A color component of an RwRGBA with the value 255 generally corresponds
* to the associated component in an RwRGBAReal with the value 1.0f .
* However , any values can be substituted to denormalize / normalize
* RwRGBAReal and create different effects . For example , while light colors
* are expressed as normalized RGBA , interesting effects can be gained using
* larger values .
*
* It should also be noted that a color component of an RwRGBA with the
* value 0 generally corresponds to the associcated component in an
* RwRGBAReal with the value 0.0 .
*/
struct RwRGBAReal
{
RwReal red ; /**< red component */
RwReal green ; /**< green component */
RwReal blue ; /**< blue component */
RwReal alpha ; /**< alpha component */
} ;
# if (!defined(RwRGBARealAssign))
# define RwRGBARealAssign(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwRGBARealAssign)) */
typedef struct RwRGBA RwRGBA ;
/**
* \ ingroup datatypes
* \ struct RwRGBA
* This structure represents a RGBA color
* which has integer components specified in the range 0 to 255. */
struct RwRGBA
{
RwUInt8 red ; /**< red component */
RwUInt8 green ; /**< green component */
RwUInt8 blue ; /**< blue component */
RwUInt8 alpha ; /**< alpha component */
} ;
# if (!defined(RwRGBAAssign))
# define RwRGBAAssign(_target, _source) \
( * ( _target ) = * ( _source ) )
# endif /* (!defined(RwRGBAAssign)) */
# define RwRGBARealAddMacro(o,a,b) \
MACRO_START \
{ \
( o ) - > red = ( ( ( a ) - > red ) + ( ( b ) - > red ) ) ; \
( o ) - > green = ( ( ( a ) - > green ) + ( ( b ) - > green ) ) ; \
( o ) - > blue = ( ( ( a ) - > blue ) + ( ( b ) - > blue ) ) ; \
( o ) - > alpha = ( ( ( a ) - > alpha ) + ( ( b ) - > alpha ) ) ; \
} \
MACRO_STOP
# define RwRGBARealSubMacro(o,a,b) \
MACRO_START \
{ \
( o ) - > red = ( ( ( a ) - > red ) - ( ( b ) - > red ) ) ; \
( o ) - > green = ( ( ( a ) - > green ) - ( ( b ) - > green ) ) ; \
( o ) - > blue = ( ( ( a ) - > blue ) - ( ( b ) - > blue ) ) ; \
( o ) - > alpha = ( ( ( a ) - > alpha ) - ( ( b ) - > alpha ) ) ; \
} \
MACRO_STOP
# define RwRGBARealScaleMacro(o,a,scale) \
MACRO_START \
{ \
( o ) - > red = ( ( ( a ) - > red ) * ( scale ) ) ; \
( o ) - > green = ( ( ( a ) - > green ) * ( scale ) ) ; \
( o ) - > blue = ( ( ( a ) - > blue ) * ( scale ) ) ; \
( o ) - > alpha = ( ( ( a ) - > alpha ) * ( scale ) ) ; \
} \
MACRO_STOP
/* Conversion macros */
# define RwRGBAFromRwRGBARealMacro(o, i) \
MACRO_START \
{ \
RwInt32 quantize ; \
\
quantize = RwInt32FromRealMacro ( ( ( i ) - > red * ( RwReal ) 255.0 ) \
+ ( RwReal ) 0.5 ) ; \
( o ) - > red = ( RwUInt8 ) quantize ; \
quantize = RwInt32FromRealMacro ( ( ( i ) - > green * ( RwReal ) 255.0 ) \
+ ( RwReal ) 0.5 ) ; \
( o ) - > green = ( RwUInt8 ) quantize ; \
quantize = RwInt32FromRealMacro ( ( ( i ) - > blue * ( RwReal ) 255.0 ) \
+ ( RwReal ) 0.5 ) ; \
( o ) - > blue = ( RwUInt8 ) quantize ; \
quantize = RwInt32FromRealMacro ( ( ( i ) - > alpha * ( RwReal ) 255.0 ) \
+ ( RwReal ) 0.5 ) ; \
( o ) - > alpha = ( RwUInt8 ) quantize ; \
\
} \
MACRO_STOP
# define RwRGBARealFromRwRGBAMacro(o, i) \
MACRO_START \
{ \
( o ) - > red = \
( ( ( RwReal ) ( ( ( i ) - > red ) ) ) * ( ( RwReal ) ( ( 1.0 / 255.0 ) ) ) ) ; \
( o ) - > green = \
( ( ( RwReal ) ( ( ( i ) - > green ) ) ) * ( ( RwReal ) ( ( 1.0 / 255.0 ) ) ) ) ; \
( o ) - > blue = \
( ( ( RwReal ) ( ( ( i ) - > blue ) ) ) * ( ( RwReal ) ( ( 1.0 / 255.0 ) ) ) ) ; \
( o ) - > alpha = \
( ( ( RwReal ) ( ( ( i ) - > alpha ) ) ) * ( ( RwReal ) ( ( 1.0 / 255.0 ) ) ) ) ; \
} \
MACRO_STOP
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
# if (! ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) ))
# define RwRGBARealAdd(o,a,b) \
RwRGBARealAddMacro ( o , a , b )
# define RwRGBARealSub(o,a,b) \
RwRGBARealSubMacro ( o , a , b )
# define RwRGBARealScale(o,a,scale) \
RwRGBARealScaleMacro ( o , a , scale )
# define RwRGBAFromRwRGBAReal(o, i) \
RwRGBAFromRwRGBARealMacro ( o , i )
# define RwRGBARealFromRwRGBA(o, i) \
RwRGBARealFromRwRGBAMacro ( o , i )
# else /* (! ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) )) */
/* Function versions for debug */
extern void RwRGBARealAdd ( RwRGBAReal * result ,
const RwRGBAReal * source1 ,
const RwRGBAReal * source2 ) ;
extern void RwRGBARealSub ( RwRGBAReal * result ,
const RwRGBAReal * source1 ,
const RwRGBAReal * source2 ) ;
extern void RwRGBARealScale ( RwRGBAReal * result ,
const RwRGBAReal * source ,
RwReal scalar ) ;
extern void RwRGBAFromRwRGBAReal ( RwRGBA * result ,
const RwRGBAReal * source ) ;
extern void RwRGBARealFromRwRGBA ( RwRGBAReal * result ,
RwRGBA * source ) ;
# endif /* (! ( defined(RWDEBUG) || defined(RWSUPPRESSINLINE) )) */
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/babinmtx.h ---*/
/****************************************************************************
Global types
*/
/* Matrix stream format */
typedef struct rwStreamMatrix RwMatrixChunkInfo ;
typedef struct rwStreamMatrix rwStreamMatrix ;
struct rwStreamMatrix
{
RwV3d right ;
RwV3d up ;
RwV3d at ;
RwV3d pos ;
RwInt32 type ;
} ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Matrix binary format */
extern RwUInt32 RwMatrixStreamGetSize ( const RwMatrix * matrix ) ;
extern RwMatrix * RwMatrixStreamRead ( RwStream * stream ,
RwMatrix * matrix ) ;
extern const RwMatrix * RwMatrixStreamWrite ( const RwMatrix * matrix ,
RwStream * stream ) ;
extern RwMatrixChunkInfo * RwMatrixChunkInfoRead ( RwStream * stream ,
RwMatrixChunkInfo *
matrixChunkInfo ,
RwInt32 * bytesRead ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
/*--- Automatically derived from: C:/daily/rwsdk/src/plcore/babinary.h ---*/
/****************************************************************************
Defines
*/
# ifndef rwCHUNKHEADERSIZE
# define rwCHUNKHEADERSIZE (sizeof(RwUInt32)*3)
# endif /* rwCHUNKHEADERSIZE */
/* Compatibility macro */
# define RwStreamWriteInt(_stream, _ints, _numBytes) \
RwStreamWriteInt32 ( _stream , _ints , _numBytes )
# define RwStreamReadInt(_stream, _ints, _numBytes) \
RwStreamReadInt32 ( _stream , _ints , _numBytes )
# define RwMemLittleEndian(_mem, _size) \
RwMemLittleEndian32 ( _mem , _size )
# define RwMemNative(_mem, _size) \
RwMemNative32 ( _mem , _size )
/****************************************************************************
Global Types
*/
typedef struct RwChunkHeaderInfo RwChunkHeaderInfo ;
/**
* \ ingroup datatypes
* \ struct RwChunkHeaderInfo
* Holds data for a chunk header read from a
* stream with \ ref RwStreamReadChunkHeaderInfo . */
struct RwChunkHeaderInfo
{
RwUInt32 type ; /**< chunk ID - see \ref RwStreamFindChunk */
RwUInt32 length ; /**< length of the chunk data in bytes */
RwUInt32 version ; /**< version of the chunk data.
* See \ ref RwEngineGetVersion . */
RwUInt32 buildNum ; /**< build number of the RenderWare libraries
* previously used to stream out the data */
RwBool isComplex ; /**< Internal Use */
} ;
/****************************************************************************
Function prototypes
*/
# ifdef __cplusplus
extern " C "
{
# endif /* __cplusplus */
/* Chunk header stuff */
extern RwBool RwStreamFindChunk ( RwStream * stream , RwUInt32 type ,
RwUInt32 * lengthOut , RwUInt32 * versionOut ) ;
# define RwStreamWriteChunkHeader(stream, type, size) \
_rwStreamWriteVersionedChunkHeader ( \
stream , type , size , rwLIBRARYCURRENTVERSION , RWBUILDNUMBER )
extern RwStream * _rwStreamWriteVersionedChunkHeader ( RwStream * stream ,
RwInt32 type ,
RwInt32 size ,
RwUInt32 version ,
RwUInt32 buildNum ) ;
extern RwStream * RwStreamWriteReal ( RwStream * stream , const RwReal * reals ,
RwUInt32 numBytes ) ;
extern RwStream * RwStreamWriteInt32 ( RwStream * stream , const RwInt32 * ints ,
RwUInt32 numBytes ) ;
extern RwStream * RwStreamWriteInt16 ( RwStream * stream , const RwInt16 * ints ,
RwUInt32 numBytes ) ;
extern RwStream * RwStreamReadReal ( RwStream * stream , RwReal * reals ,
RwUInt32 numBytes ) ;
extern RwStream * RwStreamReadInt32 ( RwStream * stream , RwInt32 * ints ,
RwUInt32 numBytes ) ;
extern RwStream * RwStreamReadInt16 ( RwStream * stream , RwInt16 * ints ,
RwUInt32 numBytes ) ;
/* Binary Portability Functions */
extern void * RwMemLittleEndian16 ( void * mem , RwUInt32 size ) ;
extern void * RwMemLittleEndian32 ( void * mem , RwUInt32 size ) ;
extern void * RwMemNative16 ( void * mem , RwUInt32 size ) ;
extern void * RwMemNative32 ( void * mem , RwUInt32 size ) ;
extern void * RwMemRealToFloat32 ( void * mem , RwUInt32 size ) ;
extern void * RwMemFloat32ToReal ( void * mem , RwUInt32 size ) ;
extern RwStream *
RwStreamReadChunkHeaderInfo ( RwStream * stream , RwChunkHeaderInfo * chunkHeaderInfo ) ;
# ifdef __cplusplus
}
# endif /* __cplusplus */
# endif /* RWPLCORE_H */