third_party/PowerVR_SDK/Tools/PVRTFixedPoint.cpp - SwiftShader - Git at Google

 /******************************************************************************

  @File         PVRTFixedPoint.cpp

  @Title        PVRTFixedPoint

  @Version

  @Copyright    Copyright (c) Imagination Technologies Limited.

  @Platform     Independant

  @Description  Converts MAX exported meshes to fixed point objects for use with
                opengles lite.

 ******************************************************************************/
 #include <math.h>
 #include <string.h>
 #include "PVRTContext.h"
 #include "PVRTFixedPoint.h"

 /********************************************************
 ** Most of the code only applies to CommonLite profile **
 ********************************************************/
 #ifdef PVRT_FIXED_POINT_ENABLE

 /*!***************************************************************************
  @Function		CreateFixedObjectMesh
  @Input			mesh	The mesh to create the fixed point version from
  @Returns		A fixed point version of mesh
  @Description	Converts model floating point data to fixed point
 *****************************************************************************/
 HeaderStruct_Fixed_Mesh *CreateFixedObjectMesh(HeaderStruct_Mesh *mesh)
 {
 	HeaderStruct_Fixed_Mesh *new_mesh = new HeaderStruct_Fixed_Mesh;

 	new_mesh->fCenter[0] = PVRTF2X(mesh->fCenter[0]);
 	new_mesh->fCenter[1] = PVRTF2X(mesh->fCenter[1]);
 	new_mesh->fCenter[2] = PVRTF2X(mesh->fCenter[2]);


 	new_mesh->nNumVertex = mesh->nNumVertex;
 	new_mesh->nNumFaces = mesh->nNumFaces;
 	new_mesh->nNumStrips = mesh->nNumStrips;
 	new_mesh->nMaterial = mesh->nMaterial;

 	if(mesh->nNumVertex)
 	{
 		new_mesh->pVertex = new VERTTYPE[mesh->nNumVertex*3];
 		for(unsigned int i = 0; i < mesh->nNumVertex*3; i++)		// each vertex is 3 floats
 			new_mesh->pVertex[i] = PVRTF2X(mesh->pVertex[i]);
 	}
 	else
 	{
 		new_mesh->pVertex = 0;
 		new_mesh->nNumVertex = 0;
 	}

 	if(mesh->pUV)
 	{
 		new_mesh->pUV = new VERTTYPE[mesh->nNumVertex*2];
 		for(unsigned int i = 0; i < mesh->nNumVertex*2; i++)		// UVs come in pairs of floats
 			new_mesh->pUV[i] = PVRTF2X(mesh->pUV[i]);
 	}
 	else
 		new_mesh->pUV = 0;

 	if(mesh->pNormals)
 	{
 		new_mesh->pNormals = new VERTTYPE[mesh->nNumVertex*3];
 		for(unsigned int i = 0; i < mesh->nNumVertex*3; i++)		// each normal is 3 floats
 			new_mesh->pNormals[i] = PVRTF2X(mesh->pNormals[i]);
 	}
 	else
 	{
 		new_mesh->pNormals = 0;
 	}

 	/*
 	 * Format of packedVerts is
 	 *		Position
 	 *		Normal / Colour
 	 *		UVs
 	 */

 #define MF_NORMALS 1
 #define MF_VERTEXCOLOR 2
 #define MF_UV 3

 	if(mesh->pPackedVertex)
 	{
 		unsigned int nPackedVertSize = mesh->nNumVertex * 3 +
 					(mesh->nFlags & MF_NORMALS		? mesh->nNumVertex * 3 : 0) +
 					(mesh->nFlags & MF_VERTEXCOLOR	? mesh->nNumVertex * 3 : 0) +
 					(mesh->nFlags & MF_UV			? mesh->nNumVertex * 2 : 0);

 		new_mesh->pPackedVertex = new VERTTYPE[nPackedVertSize];
 		for(unsigned int i = 0; i < nPackedVertSize; i++)
 			new_mesh->pPackedVertex[i] = PVRTF2X(mesh->pPackedVertex[i]);
 	}
 	else
 		new_mesh->pPackedVertex = 0;

 	// simply copy reference to all properties which do not need conversion (indicies)

 	new_mesh->pVertexColor				= mesh->pVertexColor;
 	new_mesh->pVertexMaterial			= mesh->pVertexMaterial;
 	new_mesh->pFaces					= mesh->pFaces;
 	new_mesh->pStrips					= mesh->pStrips;
 	new_mesh->pStripLength				= mesh->pStripLength;

 	// we're leaving the patch stuff alone

 	new_mesh->Patch.nType				= mesh->Patch.nType;
 	new_mesh->Patch.nNumPatches			= mesh->Patch.nNumPatches;
 	new_mesh->Patch.nNumVertices		= mesh->Patch.nNumVertices;
 	new_mesh->Patch.nNumSubdivisions	= mesh->Patch.nNumSubdivisions;
 	new_mesh->Patch.pControlPoints		= mesh->Patch.pControlPoints;
 	new_mesh->Patch.pUVs				= mesh->Patch.pUVs;

 	return new_mesh;
 }

 /*!***************************************************************************
  @Function		FreeFixedObjectMesh
  @Input			mesh	The mesh to delete
  @Description	Release memory allocated in CreateFixedObjectMesh()
 *****************************************************************************/
 void FreeFixedObjectMesh(HeaderStruct_Fixed_Mesh* mesh)
 {

 	delete[] mesh->pVertex;
 	delete[] mesh->pUV;
 	delete[] mesh->pNormals;
 	delete[] mesh->pPackedVertex;

 	delete mesh;
 }

 #endif

 /*!***************************************************************************
  @Function		PVRTLoadHeaderObject
  @Input			headerObj			Pointer to object structure in the header file
  @Return		directly usable geometry in fixed or float format as appropriate
  @Description	Converts the data exported by MAX to fixed point when used in OpenGL
 				ES common-lite profile.
 *****************************************************************************/
 HeaderStruct_Mesh_Type *PVRTLoadHeaderObject(const void *headerObj)
 {
 #ifdef PVRT_FIXED_POINT_ENABLE
 	return (HeaderStruct_Mesh_Type*) CreateFixedObjectMesh((HeaderStruct_Mesh *) headerObj);
 #else
 	HeaderStruct_Mesh_Type *new_mesh = new HeaderStruct_Mesh_Type;
 	memcpy (new_mesh,headerObj,sizeof(HeaderStruct_Mesh_Type));
 	return (HeaderStruct_Mesh_Type*) new_mesh;
 #endif
 }

 /*!***************************************************************************
  @Function		PVRTUnloadHeaderObject
  @Input			headerObj			Pointer returned by LoadHeaderObject
  @Description	Releases memory allocated by LoadHeaderObject when geometry no longer
 				needed.
 *****************************************************************************/
 void PVRTUnloadHeaderObject(HeaderStruct_Mesh_Type* headerObj)
 {
 #ifdef PVRT_FIXED_POINT_ENABLE
 	FreeFixedObjectMesh(headerObj);
 #else
 	delete headerObj;
 #endif
 }

 /*****************************************************************************
  End of file (PVRTFixedPoint.cpp)
 *****************************************************************************/
	/******************************************************************************

	@File PVRTFixedPoint.cpp

	@Title PVRTFixedPoint

	@Version

	@Copyright Copyright (c) Imagination Technologies Limited.

	@Platform Independant

	@Description Converts MAX exported meshes to fixed point objects for use with
	opengles lite.

	******************************************************************************/
	#include <math.h>
	#include <string.h>
	#include "PVRTContext.h"
	#include "PVRTFixedPoint.h"

	/********************************************************
	Most of the code only applies to CommonLite profile
	********************************************************/
	#ifdef PVRT_FIXED_POINT_ENABLE

	/!**************************************************************************
	@Function CreateFixedObjectMesh
	@Input mesh The mesh to create the fixed point version from
	@Returns A fixed point version of mesh
	@Description Converts model floating point data to fixed point
	*****************************************************************************/
	HeaderStruct_Fixed_Mesh CreateFixedObjectMesh(HeaderStruct_Mesh mesh)
	{
	HeaderStruct_Fixed_Mesh *new_mesh = new HeaderStruct_Fixed_Mesh;

	new_mesh->fCenter[0] = PVRTF2X(mesh->fCenter[0]);
	new_mesh->fCenter[1] = PVRTF2X(mesh->fCenter[1]);
	new_mesh->fCenter[2] = PVRTF2X(mesh->fCenter[2]);


	new_mesh->nNumVertex = mesh->nNumVertex;
	new_mesh->nNumFaces = mesh->nNumFaces;
	new_mesh->nNumStrips = mesh->nNumStrips;
	new_mesh->nMaterial = mesh->nMaterial;

	if(mesh->nNumVertex)
	{
	new_mesh->pVertex = new VERTTYPE[mesh->nNumVertex*3];
	for(unsigned int i = 0; i < mesh->nNumVertex*3; i++) // each vertex is 3 floats
	new_mesh->pVertex[i] = PVRTF2X(mesh->pVertex[i]);
	}
	else
	{
	new_mesh->pVertex = 0;
	new_mesh->nNumVertex = 0;
	}

	if(mesh->pUV)
	{
	new_mesh->pUV = new VERTTYPE[mesh->nNumVertex*2];
	for(unsigned int i = 0; i < mesh->nNumVertex*2; i++) // UVs come in pairs of floats
	new_mesh->pUV[i] = PVRTF2X(mesh->pUV[i]);
	}
	else
	new_mesh->pUV = 0;

	if(mesh->pNormals)
	{
	new_mesh->pNormals = new VERTTYPE[mesh->nNumVertex*3];
	for(unsigned int i = 0; i < mesh->nNumVertex*3; i++) // each normal is 3 floats
	new_mesh->pNormals[i] = PVRTF2X(mesh->pNormals[i]);
	}
	else
	{
	new_mesh->pNormals = 0;
	}

	/*
	* Format of packedVerts is
	* Position
	* Normal / Colour
	* UVs
	*/

	#define MF_NORMALS 1
	#define MF_VERTEXCOLOR 2
	#define MF_UV 3

	if(mesh->pPackedVertex)
	{
	unsigned int nPackedVertSize = mesh->nNumVertex * 3 +
	(mesh->nFlags & MF_NORMALS ? mesh->nNumVertex * 3 : 0) +
	(mesh->nFlags & MF_VERTEXCOLOR ? mesh->nNumVertex * 3 : 0) +
	(mesh->nFlags & MF_UV ? mesh->nNumVertex * 2 : 0);

	new_mesh->pPackedVertex = new VERTTYPE[nPackedVertSize];
	for(unsigned int i = 0; i < nPackedVertSize; i++)
	new_mesh->pPackedVertex[i] = PVRTF2X(mesh->pPackedVertex[i]);
	}
	else
	new_mesh->pPackedVertex = 0;

	// simply copy reference to all properties which do not need conversion (indicies)

	new_mesh->pVertexColor = mesh->pVertexColor;
	new_mesh->pVertexMaterial = mesh->pVertexMaterial;
	new_mesh->pFaces = mesh->pFaces;
	new_mesh->pStrips = mesh->pStrips;
	new_mesh->pStripLength = mesh->pStripLength;

	// we're leaving the patch stuff alone

	new_mesh->Patch.nType = mesh->Patch.nType;
	new_mesh->Patch.nNumPatches = mesh->Patch.nNumPatches;
	new_mesh->Patch.nNumVertices = mesh->Patch.nNumVertices;
	new_mesh->Patch.nNumSubdivisions = mesh->Patch.nNumSubdivisions;
	new_mesh->Patch.pControlPoints = mesh->Patch.pControlPoints;
	new_mesh->Patch.pUVs = mesh->Patch.pUVs;

	return new_mesh;
	}

	/!**************************************************************************
	@Function FreeFixedObjectMesh
	@Input mesh The mesh to delete
	@Description Release memory allocated in CreateFixedObjectMesh()
	*****************************************************************************/
	void FreeFixedObjectMesh(HeaderStruct_Fixed_Mesh* mesh)
	{

	delete[] mesh->pVertex;
	delete[] mesh->pUV;
	delete[] mesh->pNormals;
	delete[] mesh->pPackedVertex;

	delete mesh;
	}

	#endif

	/!**************************************************************************
	@Function PVRTLoadHeaderObject
	@Input headerObj Pointer to object structure in the header file
	@Return directly usable geometry in fixed or float format as appropriate
	@Description Converts the data exported by MAX to fixed point when used in OpenGL
	ES common-lite profile.
	*****************************************************************************/
	HeaderStruct_Mesh_Type PVRTLoadHeaderObject(const void headerObj)
	{
	#ifdef PVRT_FIXED_POINT_ENABLE
	return (HeaderStruct_Mesh_Type) CreateFixedObjectMesh((HeaderStruct_Mesh ) headerObj);
	#else
	HeaderStruct_Mesh_Type *new_mesh = new HeaderStruct_Mesh_Type;
	memcpy (new_mesh,headerObj,sizeof(HeaderStruct_Mesh_Type));
	return (HeaderStruct_Mesh_Type*) new_mesh;
	#endif
	}

	/!**************************************************************************
	@Function PVRTUnloadHeaderObject
	@Input headerObj Pointer returned by LoadHeaderObject
	@Description Releases memory allocated by LoadHeaderObject when geometry no longer
	needed.
	*****************************************************************************/
	void PVRTUnloadHeaderObject(HeaderStruct_Mesh_Type* headerObj)
	{
	#ifdef PVRT_FIXED_POINT_ENABLE
	FreeFixedObjectMesh(headerObj);
	#else
	delete headerObj;
	#endif
	}

	/*****************************************************************************
	End of file (PVRTFixedPoint.cpp)
	*****************************************************************************/