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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
/*
* Copyright (C) 2006-2010 - Frictional Games
*
* This file is part of HPL1 Engine.
*/
#include "hpl1/engine/graphics/SubMesh.h"
#include "hpl1/engine/graphics/Bone.h"
#include "hpl1/engine/graphics/Material.h"
#include "hpl1/engine/graphics/Mesh.h"
#include "hpl1/engine/graphics/Skeleton.h"
#include "hpl1/engine/graphics/VertexBuffer.h"
#include "hpl1/engine/math/Math.h"
#include "hpl1/engine/resources/MaterialManager.h"
#include "hpl1/engine/system/MemoryManager.h"
namespace hpl {
//////////////////////////////////////////////////////////////////////////
// CONSTRUCTORS
//////////////////////////////////////////////////////////////////////////
//-----------------------------------------------------------------------
cSubMesh::cSubMesh(const tString &asName, cMaterialManager *apMaterialManager) {
mpMaterialManager = apMaterialManager;
msName = asName;
msNodeName = "";
mpMaterial = NULL;
mpVtxBuffer = NULL;
mbDoubleSided = false;
mpVertexWeights = NULL;
mpVertexBones = NULL;
m_mtxLocalTransform = cMatrixf::Identity;
mbIsOneSided = false;
mvOneSidedNormal = 0;
}
//-----------------------------------------------------------------------
cSubMesh::~cSubMesh() {
if (mpMaterial)
mpMaterialManager->Destroy(mpMaterial);
if (mpVtxBuffer)
hplDelete(mpVtxBuffer);
if (mpVertexBones)
hplDeleteArray(mpVertexBones);
if (mpVertexWeights)
hplDeleteArray(mpVertexWeights);
}
//-----------------------------------------------------------------------
//////////////////////////////////////////////////////////////////////////
// PUBLIC METHODS
//////////////////////////////////////////////////////////////////////////
//-----------------------------------------------------------------------
void cSubMesh::SetMaterial(iMaterial *apMaterial) {
if (mpMaterial)
mpMaterialManager->Destroy(mpMaterial);
mpMaterial = apMaterial;
}
//-----------------------------------------------------------------------
void cSubMesh::SetVertexBuffer(iVertexBuffer *apVtxBuffer) {
if (mpVtxBuffer == apVtxBuffer)
return;
mpVtxBuffer = apVtxBuffer;
}
//-----------------------------------------------------------------------
iMaterial *cSubMesh::GetMaterial() {
return mpMaterial;
}
//-----------------------------------------------------------------------
iVertexBuffer *cSubMesh::GetVertexBuffer() {
return mpVtxBuffer;
}
//-----------------------------------------------------------------------
void cSubMesh::ResizeVertexBonePairs(int alSize) {
mvVtxBonePairs.reserve(alSize);
}
int cSubMesh::GetVertexBonePairNum() {
return (int)mvVtxBonePairs.size();
}
cVertexBonePair &cSubMesh::GetVertexBonePair(int alNum) {
return mvVtxBonePairs[alNum];
}
void cSubMesh::AddVertexBonePair(const cVertexBonePair &aPair) {
mvVtxBonePairs.push_back(aPair);
}
void cSubMesh::ClearVertexBonePairs() {
mvVtxBonePairs.clear();
}
//-----------------------------------------------------------------------
/// normalize weights here?
void cSubMesh::CompileBonePairs() {
mpVertexWeights = hplNewArray(float, 4 * mpVtxBuffer->GetVertexNum());
mpVertexBones = hplNewArray(unsigned char, 4 * mpVtxBuffer->GetVertexNum());
memset(mpVertexWeights, 0, 4 * mpVtxBuffer->GetVertexNum() * sizeof(float));
for (int i = 0; i < (int)mvVtxBonePairs.size(); i++) {
cVertexBonePair &Pair = mvVtxBonePairs[i];
float *pWeight = &mpVertexWeights[Pair.vtxIdx * 4];
unsigned char *pBoneIdx = &mpVertexBones[Pair.vtxIdx * 4];
int lPos = -1;
// Find out where to add the next weight.
for (int j = 0; j < 4; j++) {
if (pWeight[j] == 0) {
lPos = j;
break;
}
}
// If no place was found there are too many bones on the vertex.
if (lPos == -1) {
Warning("More than 4 bones on a vertex!\n");
continue;
}
pWeight[lPos] = Pair.weight;
pBoneIdx[lPos] = Pair.boneIdx;
}
bool bUnconnectedVertexes = false;
// Normalize the weights
for (int vtx = 0; vtx < mpVtxBuffer->GetVertexNum(); ++vtx) {
float *pWeight = &mpVertexWeights[vtx * 4];
// check if the vertex is missing bone connection
if (pWeight[0] == 0) {
bUnconnectedVertexes = true;
continue;
}
float fTotal = 0;
int lNum = 0;
while (pWeight[lNum] != 0 && lNum <= 4) {
fTotal += pWeight[lNum];
lNum++;
}
for (int i = 0; i < lNum; ++i) {
pWeight[lNum] = pWeight[lNum] / fTotal;
}
}
if (bUnconnectedVertexes) {
Warning("Some vertices in sub mesh '%s' in mesh '%s' are not connected to a bone!\n", GetName().c_str(), mpParent->GetName().c_str());
}
}
//-----------------------------------------------------------------------
void cSubMesh::Compile() {
CheckOneSided();
}
//-----------------------------------------------------------------------
//////////////////////////////////////////////////////////////////////////
// PRIAVTE METHODS
//////////////////////////////////////////////////////////////////////////
//-----------------------------------------------------------------------
void cSubMesh::CheckOneSided() {
// Log("--- %s\n",GetName().c_str());
if (mpVtxBuffer == NULL)
return;
int lIdxNum = mpVtxBuffer->GetIndexNum();
if (lIdxNum > 400 * 3)
return; // Just skip larger buffers for now, they should never be planes.
unsigned int *pIndices = mpVtxBuffer->GetIndices();
float *pPositions = mpVtxBuffer->GetArray(eVertexFlag_Position);
bool bFirst = true;
cVector3f vNormalSum;
cVector3f vFirstNormal;
int vTri[3];
const int lVtxStride = kvVertexElements[cMath::Log2ToInt(eVertexFlag_Position)];
float fCount = 0;
for (int i = 0; i < lIdxNum; i += 3) {
// Log("%d \n",i);
vTri[0] = pIndices[i + 0];
vTri[1] = pIndices[i + 1];
vTri[2] = pIndices[i + 2];
const float *pVtx0 = &pPositions[vTri[0] * lVtxStride];
const float *pVtx1 = &pPositions[vTri[1] * lVtxStride];
const float *pVtx2 = &pPositions[vTri[2] * lVtxStride];
cVector3f vEdge1(pVtx1[0] - pVtx0[0], pVtx1[1] - pVtx0[1], pVtx1[2] - pVtx0[2]);
cVector3f vEdge2(pVtx2[0] - pVtx0[0], pVtx2[1] - pVtx0[1], pVtx2[2] - pVtx0[2]);
cVector3f vNormal = cMath::Vector3Normalize(cMath::Vector3Cross(vEdge2, vEdge1));
// Log(" normal: %s\n",vNormal.ToString().c_str());
if (bFirst) {
bFirst = false;
vFirstNormal = vNormal;
vNormalSum = vNormal;
} else {
if (cMath::Vector3Dot(vFirstNormal, vNormal) < 0.9f)
return;
vNormalSum += vNormal;
}
fCount += 1;
}
mbIsOneSided = true;
mvOneSidedNormal = cMath::Vector3Normalize(vNormalSum / fCount);
}
//-----------------------------------------------------------------------
} // namespace hpl
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