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654 lines
22 KiB
654 lines
22 KiB
//////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 1998 Microsoft Corporation. All Rights Reserved.
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//
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// File: d3dxmath.h
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// Content: D3DX math types and functions
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//
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//////////////////////////////////////////////////////////////////////////////
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#ifndef __D3DXMATHVB_H__
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#define __D3DXMATHVB_H__
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//#include <d3d.h>
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#include <math.h>
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#include <limits.h>
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//#include "d3dxerr.h"
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#ifndef D3DXINLINE
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#ifdef __cplusplus
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#define D3DXINLINE inline
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#else
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#define D3DXINLINE _inline
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#endif
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#endif
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#pragma warning(disable:4201) // anonymous unions warning
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//===========================================================================
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//
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// General purpose utilities
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//
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//===========================================================================
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//#define D3DX_PI ((float) 3.141592654f)
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//#define D3DX_1BYPI ((float) 0.318309886f)
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#define D3DXToRadian( degree ) ((degree) * (D3DX_PI / 180.0f))
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#define D3DXToDegree( radian ) ((radian) * (180.0f / D3DX_PI))
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//===========================================================================
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//
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// D3DX math functions:
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//
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// NOTE:
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// * All these functions can take the same object as in and out parameters.
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//
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// * Out parameters are typically also returned as return values, so that
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// the output of one function may be used as a parameter to another.
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//
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//===========================================================================
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//--------------------------
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// 2D Vector
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//--------------------------
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// inline
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float D3DVBCALL VB_D3DXVec2Length
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( const D3DXVECTOR2 *pV );
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float D3DVBCALL VB_D3DXVec2LengthSq
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( const D3DXVECTOR2 *pV );
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float D3DVBCALL VB_D3DXVec2Dot
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( const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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// Z component of ((x1,y1,0) cross (x2,y2,0))
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float D3DVBCALL VB_D3DXVec2CCW
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( const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Add
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Subtract
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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// Minimize each component. x = min(x1, x2), y = min(y1, y2)
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Minimize
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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// Maximize each component. x = max(x1, x2), y = max(y1, y2)
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Maximize
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2 );
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Scale
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV, float s );
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// Linear interpolation. V1 + s(V2-V1)
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D3DXVECTOR2* D3DVBCALL VB_D3DXVec2Lerp
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2,
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float s );
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// non-inline
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#ifdef __cplusplus
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extern "C" {
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#endif
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D3DXVECTOR2* WINAPI VB_D3DXVec2Normalize
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV );
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// Hermite interpolation between position V1, tangent T1 (when s == 0)
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// and position V2, tangent T2 (when s == 1).
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D3DXVECTOR2* WINAPI VB_D3DXVec2Hermite
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pT1,
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const D3DXVECTOR2 *pV2, const D3DXVECTOR2 *pT2, float s );
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// CatmullRom interpolation between V1 (when s == 0) and V2 (when s == 1)
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D3DXVECTOR2* WINAPI VB_D3DXVec2CatmullRom
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV0, const D3DXVECTOR2 *pV1,
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const D3DXVECTOR2 *pV2, const D3DXVECTOR2 *pV3, float s );
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// Barycentric coordinates. V1 + f(V2-V1) + g(V3-V1)
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D3DXVECTOR2* WINAPI VB_D3DXVec2BaryCentric
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV1, const D3DXVECTOR2 *pV2,
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D3DXVECTOR2 *pV3, float f, float g);
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// Transform (x, y, 0, 1) by matrix.
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D3DXVECTOR4* WINAPI VB_D3DXVec2Transform
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( D3DXVECTOR4 *pOut, const D3DXVECTOR2 *pV, const D3DXMATRIX *pM );
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// Transform (x, y, 0, 1) by matrix, project result back into w=1.
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D3DXVECTOR2* WINAPI VB_D3DXVec2TransformCoord
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV, const D3DXMATRIX *pM );
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// Transform (x, y, 0, 0) by matrix.
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D3DXVECTOR2* WINAPI VB_D3DXVec2TransformNormal
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( D3DXVECTOR2 *pOut, const D3DXVECTOR2 *pV, const D3DXMATRIX *pM );
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#ifdef __cplusplus
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}
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#endif
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//--------------------------
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// 3D Vector
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//--------------------------
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// inline
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float D3DVBCALL VB_D3DXVec3Length
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( const D3DXVECTOR3 *pV );
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float D3DVBCALL VB_D3DXVec3LengthSq
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( const D3DXVECTOR3 *pV );
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float D3DVBCALL VB_D3DXVec3Dot
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( const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Cross
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Add
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Subtract
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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// Minimize each component. x = min(x1, x2), y = min(y1, y2), ...
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Minimize
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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// Maximize each component. x = max(x1, x2), y = max(y1, y2), ...
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Maximize
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2 );
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Scale
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV, float s);
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// Linear interpolation. V1 + s(V2-V1)
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D3DXVECTOR3* D3DVBCALL VB_D3DXVec3Lerp
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2,
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float s );
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// non-inline
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#ifdef __cplusplus
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extern "C" {
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#endif
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D3DXVECTOR3* WINAPI VB_D3DXVec3Normalize
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV );
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// Hermite interpolation between position V1, tangent T1 (when s == 0)
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// and position V2, tangent T2 (when s == 1).
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D3DXVECTOR3* WINAPI VB_D3DXVec3Hermite
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pT1,
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const D3DXVECTOR3 *pV2, const D3DXVECTOR3 *pT2, float s );
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// CatmullRom interpolation between V1 (when s == 0) and V2 (when s == 1)
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D3DXVECTOR3* WINAPI VB_D3DXVec3CatmullRom
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV0, const D3DXVECTOR3 *pV1,
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const D3DXVECTOR3 *pV2, const D3DXVECTOR3 *pV3, float s );
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// Barycentric coordinates. V1 + f(V2-V1) + g(V3-V1)
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D3DXVECTOR3* WINAPI VB_D3DXVec3BaryCentric
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2,
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const D3DXVECTOR3 *pV3, float f, float g);
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// Transform (x, y, z, 1) by matrix.
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D3DXVECTOR4* WINAPI VB_D3DXVec3Transform
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( D3DXVECTOR4 *pOut, const D3DXVECTOR3 *pV, const D3DXMATRIX *pM );
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// Transform (x, y, z, 1) by matrix, project result back into w=1.
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D3DXVECTOR3* WINAPI VB_D3DXVec3TransformCoord
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV, const D3DXMATRIX *pM );
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// Transform (x, y, z, 0) by matrix.
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D3DXVECTOR3* WINAPI VB_D3DXVec3TransformNormal
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV, const D3DXMATRIX *pM );
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// Project vector from object space into screen space
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D3DXVECTOR3* WINAPI VB_D3DXVec3Project
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV, const D3DVIEWPORT8 *pViewport,
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const D3DXMATRIX *pProjection, const D3DXMATRIX *pView, const D3DXMATRIX *pWorld);
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// Project vector from screen space into object space
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D3DXVECTOR3* WINAPI VB_D3DXVec3Unproject
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( D3DXVECTOR3 *pOut, const D3DXVECTOR3 *pV, const D3DVIEWPORT8 *pViewport,
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const D3DXMATRIX *pProjection, const D3DXMATRIX *pView, const D3DXMATRIX *pWorld);
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#ifdef __cplusplus
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}
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#endif
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//--------------------------
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// 4D Vector
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//--------------------------
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// inline
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float D3DVBCALL VB_D3DXVec4Length
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( const D3DXVECTOR4 *pV );
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float D3DVBCALL VB_D3DXVec4LengthSq
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( const D3DXVECTOR4 *pV );
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float D3DVBCALL VB_D3DXVec4Dot
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( const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2 );
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Add
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2);
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Subtract
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2);
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// Minimize each component. x = min(x1, x2), y = min(y1, y2), ...
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Minimize
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2);
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// Maximize each component. x = max(x1, x2), y = max(y1, y2), ...
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Maximize
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2);
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Scale
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV, float s);
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// Linear interpolation. V1 + s(V2-V1)
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D3DXVECTOR4* D3DVBCALL VB_D3DXVec4Lerp
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2,
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float s );
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// non-inline
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#ifdef __cplusplus
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extern "C" {
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#endif
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// Cross-product in 4 dimensions.
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D3DXVECTOR4* WINAPI VB_D3DXVec4Cross
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2,
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const D3DXVECTOR4 *pV3);
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D3DXVECTOR4* WINAPI VB_D3DXVec4Normalize
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV );
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// Hermite interpolation between position V1, tangent T1 (when s == 0)
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// and position V2, tangent T2 (when s == 1).
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D3DXVECTOR4* WINAPI VB_D3DXVec4Hermite
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pT1,
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const D3DXVECTOR4 *pV2, const D3DXVECTOR4 *pT2, float s );
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// CatmullRom interpolation between V1 (when s == 0) and V2 (when s == 1)
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D3DXVECTOR4* WINAPI VB_D3DXVec4CatmullRom
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV0, const D3DXVECTOR4 *pV1,
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const D3DXVECTOR4 *pV2, const D3DXVECTOR4 *pV3, float s );
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// Barycentric coordinates. V1 + f(V2-V1) + g(V3-V1)
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D3DXVECTOR4* WINAPI VB_D3DXVec4BaryCentric
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV1, const D3DXVECTOR4 *pV2,
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const D3DXVECTOR4 *pV3, float f, float g);
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// Transform vector by matrix.
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D3DXVECTOR4* WINAPI VB_D3DXVec4Transform
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( D3DXVECTOR4 *pOut, const D3DXVECTOR4 *pV, const D3DXMATRIX *pM );
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#ifdef __cplusplus
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}
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#endif
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//--------------------------
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// 4D Matrix
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//--------------------------
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// inline
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D3DXMATRIX* D3DVBCALL VB_D3DXMatrixIdentity
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( D3DXMATRIX *pOut );
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BOOL D3DVBCALL VB_D3DXMatrixIsIdentity
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( const D3DXMATRIX *pM );
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// non-inline
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#ifdef __cplusplus
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extern "C" {
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#endif
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float WINAPI D3DXMatrixfDeterminant
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( const D3DXMATRIX *pM );
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// Matrix multiplication. The result represents the transformation M2
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// followed by the transformation M1. (Out = M1 * M2)
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D3DXMATRIX* WINAPI VB_D3DXMatrixMultiply
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( D3DXMATRIX *pOut, const D3DXMATRIX *pM1, const D3DXMATRIX *pM2 );
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D3DXMATRIX* WINAPI VB_D3DXMatrixTranspose
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( D3DXMATRIX *pOut, const D3DXMATRIX *pM );
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// Calculate inverse of matrix. Inversion my fail, in which case NULL will
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// be returned. The determinant of pM is also returned it pfDeterminant
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// is non-NULL.
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D3DXMATRIX* WINAPI VB_D3DXMatrixInverse
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( D3DXMATRIX *pOut, float *pfDeterminant, const D3DXMATRIX *pM );
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// Build a matrix which scales by (sx, sy, sz)
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D3DXMATRIX* WINAPI VB_D3DXMatrixScaling
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( D3DXMATRIX *pOut, float sx, float sy, float sz );
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// Build a matrix which translates by (x, y, z)
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D3DXMATRIX* WINAPI VB_D3DXMatrixTranslation
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( D3DXMATRIX *pOut, float x, float y, float z );
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// Build a matrix which rotates around the X axis
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationX
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( D3DXMATRIX *pOut, float angle );
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// Build a matrix which rotates around the Y axis
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationY
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( D3DXMATRIX *pOut, float angle );
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// Build a matrix which rotates around the Z axis
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationZ
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( D3DXMATRIX *pOut, float angle );
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// Build a matrix which rotates around an arbitrary axis
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationAxis
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( D3DXMATRIX *pOut, const D3DXVECTOR3 *pV, float angle );
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// Build a matrix from a quaternion
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationQuaternion
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( D3DXMATRIX *pOut, const D3DXQUATERNION *pQ);
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// Yaw around the Y axis, a pitch around the X axis,
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// and a roll around the Z axis.
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D3DXMATRIX* WINAPI VB_D3DXMatrixRotationYawPitchRoll
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( D3DXMATRIX *pOut, float yaw, float pitch, float roll );
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// Build transformation matrix. NULL arguments are treated as identity.
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// Mout = Msc-1 * Msr-1 * Ms * Msr * Msc * Mrc-1 * Mr * Mrc * Mt
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D3DXMATRIX* WINAPI VB_D3DXMatrixTransformation
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( D3DXMATRIX *pOut, const D3DXVECTOR3 *pScalingCenter,
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const D3DXQUATERNION *pScalingRotation, const D3DXVECTOR3 *pScaling,
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const D3DXVECTOR3 *pRotationCenter, const D3DXQUATERNION *pRotation,
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const D3DXVECTOR3 *pTranslation);
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// Build affine transformation matrix. NULL arguments are treated as identity.
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// Mout = Ms * Mrc-1 * Mr * Mrc * Mt
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D3DXMATRIX* WINAPI VB_D3DXMatrixAffineTransformation
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( D3DXMATRIX *pOut, float Scaling, const D3DXVECTOR3 *pRotationCenter,
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const D3DXQUATERNION *pRotation, const D3DXVECTOR3 *pTranslation);
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// Build a lookat matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixLookAtRH
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( D3DXMATRIX *pOut, const D3DXVECTOR3 *pEye, const D3DXVECTOR3 *pAt,
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const D3DXVECTOR3 *pUp );
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// Build a lookat matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixLookAtLH
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( D3DXMATRIX *pOut, const D3DXVECTOR3 *pEye, const D3DXVECTOR3 *pAt,
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const D3DXVECTOR3 *pUp );
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// Build a perspective projection matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveRH
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( D3DXMATRIX *pOut, float w, float h, float zn, float zf );
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// Build a perspective projection matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveLH
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( D3DXMATRIX *pOut, float w, float h, float zn, float zf );
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// Build a perspective projection matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveFovRH
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( D3DXMATRIX *pOut, float fovy, float aspect, float zn, float zf );
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// Build a perspective projection matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveFovLH
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( D3DXMATRIX *pOut, float fovy, float aspect, float zn, float zf );
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// Build a perspective projection matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveOffCenterRH
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( D3DXMATRIX *pOut, float l, float r, float b, float t, float zn,
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float zf );
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// Build a perspective projection matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixPerspectiveOffCenterLH
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( D3DXMATRIX *pOut, float l, float r, float b, float t, float zn,
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float zf );
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// Build an ortho projection matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixOrthoRH
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( D3DXMATRIX *pOut, float w, float h, float zn, float zf );
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// Build an ortho projection matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixOrthoLH
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( D3DXMATRIX *pOut, float w, float h, float zn, float zf );
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// Build an ortho projection matrix. (right-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixOrthoOffCenterRH
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( D3DXMATRIX *pOut, float l, float r, float b, float t, float zn,
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float zf );
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// Build an ortho projection matrix. (left-handed)
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D3DXMATRIX* WINAPI VB_D3DXMatrixOrthoOffCenterLH
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( D3DXMATRIX *pOut, float l, float r, float b, float t, float zn,
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float zf );
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// Build a matrix which flattens geometry into a plane, as if casting
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// a shadow from a light.
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D3DXMATRIX* WINAPI VB_D3DXMatrixShadow
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( D3DXMATRIX *pOut, const D3DXVECTOR4 *pLight,
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const D3DXPLANE *pPlane );
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// Build a matrix which reflects the coordinate system about a plane
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D3DXMATRIX* WINAPI VB_D3DXMatrixReflect
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( D3DXMATRIX *pOut, const D3DXPLANE *pPlane );
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#ifdef __cplusplus
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}
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#endif
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//--------------------------
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// Quaternion
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//--------------------------
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// inline
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float D3DVBCALL VB_D3DXQuaternionLength
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( const D3DXQUATERNION *pQ );
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// Length squared, or "norm"
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float D3DVBCALL VB_D3DXQuaternionLengthSq
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( const D3DXQUATERNION *pQ );
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float D3DVBCALL VB_D3DXQuaternionDot
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( const D3DXQUATERNION *pQ1, const D3DXQUATERNION *pQ2 );
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// (0, 0, 0, 1)
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D3DXQUATERNION* D3DVBCALL VB_D3DXQuaternionIdentity
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( D3DXQUATERNION *pOut );
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BOOL D3DVBCALL VB_D3DXQuaternionIsIdentity
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( const D3DXQUATERNION *pQ );
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// (-x, -y, -z, w)
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D3DXQUATERNION* D3DVBCALL VB_D3DXQuaternionConjugate
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( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ );
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// non-inline
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#ifdef __cplusplus
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extern "C" {
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#endif
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// Compute a quaternin's axis and angle of rotation. Expects unit quaternions.
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void WINAPI VB_D3DXQuaternionToAxisAngle
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( const D3DXQUATERNION *pQ, D3DXVECTOR3 *pAxis, float *pAngle );
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// Build a quaternion from a rotation matrix.
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionRotationMatrix
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( D3DXQUATERNION *pOut, const D3DXMATRIX *pM);
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// Rotation about arbitrary axis.
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionRotationAxis
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( D3DXQUATERNION *pOut, const D3DXVECTOR3 *pV, float angle );
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// Yaw around the Y axis, a pitch around the X axis,
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// and a roll around the Z axis.
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionRotationYawPitchRoll
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( D3DXQUATERNION *pOut, float yaw, float pitch, float roll );
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// Quaternion multiplication. The result represents the rotation Q2
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|
// followed by the rotation Q1. (Out = Q2 * Q1)
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionMultiply
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( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ1,
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const D3DXQUATERNION *pQ2 );
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionNormalize
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ );
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|
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// Conjugate and re-norm
|
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D3DXQUATERNION* WINAPI VB_D3DXQuaternionInverse
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ );
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|
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// Expects unit quaternions.
|
|
// if q = (cos(theta), sin(theta) * v); ln(q) = (0, theta * v)
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|
D3DXQUATERNION* WINAPI VB_D3DXQuaternionLn
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ );
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|
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// Expects pure quaternions. (w == 0) w is ignored in calculation.
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|
// if q = (0, theta * v); exp(q) = (cos(theta), sin(theta) * v)
|
|
D3DXQUATERNION* WINAPI VB_D3DXQuaternionExp
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ );
|
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|
|
// Spherical linear interpolation between Q1 (s == 0) and Q2 (s == 1).
|
|
// Expects unit quaternions.
|
|
D3DXQUATERNION* WINAPI VB_D3DXQuaternionSlerp
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ1,
|
|
const D3DXQUATERNION *pQ2, float t );
|
|
|
|
// Spherical quadrangle interpolation.
|
|
// Slerp(Slerp(Q1, Q4, t), Slerp(Q2, Q3, t), 2t(1-t))
|
|
D3DXQUATERNION* WINAPI VB_D3DXQuaternionSquad
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ1,
|
|
const D3DXQUATERNION *pQ2, const D3DXQUATERNION *pQ3,
|
|
const D3DXQUATERNION *pQ4, float t );
|
|
|
|
// Slerp(Slerp(Q1, Q2, f+g), Slerp(Q1, Q3, f+g), g/(f+g))
|
|
D3DXQUATERNION* WINAPI VB_D3DXQuaternionBaryCentric
|
|
( D3DXQUATERNION *pOut, const D3DXQUATERNION *pQ1,
|
|
const D3DXQUATERNION *pQ2, const D3DXQUATERNION *pQ3,
|
|
float f, float g );
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
|
|
//--------------------------
|
|
// Plane
|
|
//--------------------------
|
|
|
|
// inline
|
|
|
|
// ax + by + cz + dw
|
|
float D3DVBCALL VB_D3DXPlaneDot
|
|
( const D3DXPLANE *pP, const D3DXVECTOR4 *pV);
|
|
|
|
// ax + by + cz + d
|
|
float D3DVBCALL VB_D3DXPlaneDotCoord
|
|
( const D3DXPLANE *pP, const D3DXVECTOR3 *pV);
|
|
|
|
// ax + by + cz
|
|
float D3DVBCALL VB_D3DXPlaneDotNormal
|
|
( const D3DXPLANE *pP, const D3DXVECTOR3 *pV);
|
|
|
|
// non-inline
|
|
#ifdef __cplusplus
|
|
extern "C" {
|
|
#endif
|
|
|
|
// Normalize plane (so that |a,b,c| == 1)
|
|
D3DXPLANE* WINAPI VB_D3DXPlaneNormalize
|
|
( D3DXPLANE *pOut, const D3DXPLANE *pP);
|
|
|
|
// Find the intersection between a plane and a line. If the line is
|
|
// parallel to the plane, NULL is returned.
|
|
D3DXVECTOR3* WINAPI VB_D3DXPlaneIntersectLine
|
|
( D3DXVECTOR3 *pOut, const D3DXPLANE *pP, const D3DXVECTOR3 *pV1,
|
|
const D3DXVECTOR3 *pV2);
|
|
|
|
// Construct a plane from a point and a normal
|
|
D3DXPLANE* WINAPI VB_D3DXPlaneFromPointNormal
|
|
( D3DXPLANE *pOut, const D3DXVECTOR3 *pPoint, const D3DXVECTOR3 *pNormal);
|
|
|
|
// Construct a plane from 3 points
|
|
D3DXPLANE* WINAPI VB_D3DXPlaneFromPoints
|
|
( D3DXPLANE *pOut, const D3DXVECTOR3 *pV1, const D3DXVECTOR3 *pV2,
|
|
const D3DXVECTOR3 *pV3);
|
|
|
|
// Transform a plane by a matrix. The vector (a,b,c) must be normal.
|
|
// M must be an affine transform.
|
|
D3DXPLANE* WINAPI VB_D3DXPlaneTransform
|
|
( D3DXPLANE *pOut, const D3DXPLANE *pP, const D3DXMATRIX *pM );
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
|
|
//--------------------------
|
|
// Color
|
|
//--------------------------
|
|
|
|
// inline
|
|
|
|
// (1-r, 1-g, 1-b, a)
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorNegative
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC);
|
|
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorAdd
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC1, const D3DXCOLOR *pC2);
|
|
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorSubtract
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC1, const D3DXCOLOR *pC2);
|
|
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorScale
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC, float s);
|
|
|
|
// (r1*r2, g1*g2, b1*b2, a1*a2)
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorModulate
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC1, const D3DXCOLOR *pC2);
|
|
|
|
// Linear interpolation of r,g,b, and a. C1 + s(C2-C1)
|
|
D3DXCOLOR* D3DVBCALL VB_D3DXColorLerp
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC1, const D3DXCOLOR *pC2, float s);
|
|
|
|
// non-inline
|
|
#ifdef __cplusplus
|
|
extern "C" {
|
|
#endif
|
|
|
|
// Interpolate r,g,b between desaturated color and color.
|
|
// DesaturatedColor + s(Color - DesaturatedColor)
|
|
D3DXCOLOR* WINAPI VB_D3DXColorAdjustSaturation
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC, float s);
|
|
|
|
// Interpolate r,g,b between 50% grey and color. Grey + s(Color - Grey)
|
|
D3DXCOLOR* WINAPI VB_D3DXColorAdjustContrast
|
|
(D3DXCOLOR *pOut, const D3DXCOLOR *pC, float c);
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
|
|
|
|
#pragma warning(default:4201)
|
|
|
|
#endif // __D3DXMATHVB_H__
|