bool CSkin::Unload()
{
bool bRet = IsLoaded();
if (bRet)
{
CRenderer* pRenderer = CRenderer::GetInstance();
pRenderer->DeleteBuffers(2, m_uVBO);
pRenderer->DeleteBuffers(1, &m_uVAO);
SetLoadedFlag(false);
}
return bRet;
}
bool CSkeleton::Load()
{
bool bRet = true;
// Load From File
CSerializer serializer(_T("..\\Resource\\skeleton\\org.ske"));
size_t uBoneCount = 0;
serializer >> uBoneCount;
for (size_t i = 0; i < uBoneCount; ++i)
{
ESkeletonBoneType boneType = eSBT_Count;
serializer >> boneType;
BEATS_ASSERT(boneType < eSBT_Count, _T("Invalid bone type!"));
ESkeletonBoneType boneParentType = eSBT_Count;
serializer >> boneParentType;
BEATS_ASSERT(boneParentType < eSBT_Count, _T("Invalid bone type!"));
SharePtr<CSkeletonBone> pNullParentBone;
SharePtr<CSkeletonBone> _pSkeletonBone = new CSkeletonBone(pNullParentBone, boneType);
_pSkeletonBone->SetParentType(boneParentType);
kmMat4 _TPosMatrix;
serializer >> _TPosMatrix.mat[0] >> _TPosMatrix.mat[1] >> _TPosMatrix.mat[2] >> _TPosMatrix.mat[3]
>> _TPosMatrix.mat[4] >> _TPosMatrix.mat[5] >> _TPosMatrix.mat[6] >> _TPosMatrix.mat[7]
>> _TPosMatrix.mat[8] >> _TPosMatrix.mat[9] >> _TPosMatrix.mat[10] >> _TPosMatrix.mat[11]
>> _TPosMatrix.mat[12] >> _TPosMatrix.mat[13] >> _TPosMatrix.mat[14] >> _TPosMatrix.mat[15];
_pSkeletonBone->SetTPosMatrix( _TPosMatrix );
m_bonesMap[boneType] = _pSkeletonBone;
}
//Fill the parent
std::map<ESkeletonBoneType, SharePtr<CSkeletonBone>>::iterator iter = m_bonesMap.begin();
for (; iter != m_bonesMap.end(); ++iter)
{
ESkeletonBoneType parentType = iter->second->GetParentType();
if (parentType != eSBT_Null)
{
std::map<ESkeletonBoneType, SharePtr<CSkeletonBone>>::iterator parentIter = m_bonesMap.find(parentType);
BEATS_ASSERT(parentIter != m_bonesMap.end());
iter->second->SetParent(parentIter->second);
}
}
SetLoadedFlag(true);
return bRet;
}
bool CSkin::Load()
{
bool bRet = false;
BEATS_ASSERT(!IsLoaded(), _T("Can't Load a skin which is already loaded!"));
// Load From File
CSerializer serializer(_T("..\\Resource\\skin\\org.skin"));
CSerializer tmpVerticesBufferPos, tmpVerticesBufferUV;
CSerializer indexBuffer;
size_t uVertexCount = 0;
serializer >> uVertexCount;
m_uVertexCount = uVertexCount;
m_vertices = new CVertexPTB[uVertexCount];
float x, y, z;
float u,v;
for (size_t i = 0; i < uVertexCount; ++i)
{
ESkeletonBoneType bone, bone1, bone2, bone3;
float weight, weight1, weight2,weight3;
serializer >> x >> y >> z >> u >> v;
serializer >> bone;
serializer >> weight;
serializer >> bone1;
serializer >> weight1;
serializer >> bone2;
serializer >> weight2;
serializer >> bone3;
serializer >> weight3;
CVertexPTB &vertex = m_vertices[i];
kmVec3Fill(&vertex.position,x,y,z);
vertex.tex = CTex(u,v);
vertex.bones = CIVector4(bone, bone1, bone2, bone3);
kmVec4Fill(&vertex.weights,weight,weight1,weight2,weight3);
#ifdef _DEBUG
float sum = weight + weight1 + weight2+weight3;
BEATS_ASSERT(sum < 1.01F, _T("Weight can't be greater than 1.01F, cur Value : %f!"), sum);
BEATS_WARNING(sum > 0.99F, _T("Weight can't be smaller than 0.99F, cur Value : %f!"), sum);
#endif
}
for (size_t i = 0; i < uVertexCount; ++i)
{
indexBuffer << (short)i;
}
CRenderer* pRenderer = CRenderer::GetInstance();
pRenderer->GenVertexArrays(1, &m_uVAO);
pRenderer->GenBuffers(2, m_uVBO);
#ifndef SW_SKEL_ANIM
buildVBOVertex(m_vertices, m_uVertexCount*sizeof(CVertexPTB));
BEATS_SAFE_DELETE_ARRAY(m_vertices);
#endif
buildVBOIndex(indexBuffer.GetBuffer(), indexBuffer.GetWritePos());
buildVAO();
SetLoadedFlag(true);
return bRet;
}
bool CSpriteAnimation::Unload()
{
SetLoadedFlag(false);
return true;
}
bool CSpriteAnimation::Load()
{
SetLoadedFlag(true);
return true;
}
bool CColorScheme::Load(LPCTSTR pszFileName,bool fLegacy)
{
CSettings Settings;
TCHAR szText[MAX_COLORSCHEME_NAME];
int i;
if (!Settings.Open(pszFileName,TEXT("ColorScheme"),CSettings::OPEN_READ))
return false;
if (Settings.Read(TEXT("Name"),szText,lengthof(szText)))
SetName(szText);
::ZeroMemory(m_LoadedFlags,sizeof(m_LoadedFlags));
for (i=0;i<NUM_COLORS;i++) {
if (Settings.ReadColor((fLegacy?m_ColorInfoLegacyList:m_ColorInfoList)[i].pszText,&m_ColorList[i]))
SetLoadedFlag(i);
}
for (i=0;i<NUM_COLORS;i++) {
if (IsLoaded(i)) {
for (int j=0;j<NUM_GRADIENTS;j++) {
if (m_GradientInfoList[j].Color1==i
|| m_GradientInfoList[j].Color2==i) {
if (m_GradientInfoList[j].Color1==i
&& !IsLoaded(m_GradientInfoList[j].Color2)) {
m_ColorList[m_GradientInfoList[j].Color2]=m_ColorList[i];
SetLoadedFlag(m_GradientInfoList[j].Color2);
}
m_GradientList[j].Type=Theme::GRADIENT_NORMAL;
break;
}
}
} else {
static const struct {
int To,From;
} Map[] = {
// {COLOR_STATUSBORDER, COLOR_STATUSBACK1},
{COLOR_STATUSBOTTOMITEMBACK1, COLOR_STATUSBACK2},
{COLOR_STATUSBOTTOMITEMBACK2, COLOR_STATUSBOTTOMITEMBACK1},
{COLOR_STATUSBOTTOMITEMTEXT, COLOR_STATUSTEXT},
{COLOR_STATUSBOTTOMITEMBORDER, COLOR_STATUSBOTTOMITEMBACK1},
};
static const struct {
int To,From1,From2;
} MixMap[] = {
{COLOR_STATUSBORDER, COLOR_STATUSBACK1, COLOR_STATUSBACK2},
};
bool fFound=false;
for (int j=0;j<lengthof(Map);j++) {
if (Map[j].To==i && IsLoaded(Map[j].From)) {
m_ColorList[i]=m_ColorList[Map[j].From];
SetLoadedFlag(i);
fFound=true;
break;
}
}
if (!fFound) {
for (int j=0;j<lengthof(MixMap);j++) {
if (MixMap[j].To==i && IsLoaded(MixMap[j].From1) && IsLoaded(MixMap[j].From2)) {
m_ColorList[i]=MixColor(m_ColorList[MixMap[j].From1],m_ColorList[MixMap[j].From2]);
SetLoadedFlag(i);
break;
}
}
}
}
}
for (i=0;i<NUM_GRADIENTS;i++) {
if (Settings.Read(m_GradientInfoList[i].pszText,szText,lengthof(szText))) {
if (szText[0]=='\0' || ::lstrcmpi(szText,TEXT("normal"))==0)
m_GradientList[i].Type=Theme::GRADIENT_NORMAL;
else if (::lstrcmpi(szText,TEXT("glossy"))==0)
m_GradientList[i].Type=Theme::GRADIENT_GLOSSY;
else if (::lstrcmpi(szText,TEXT("interlaced"))==0)
m_GradientList[i].Type=Theme::GRADIENT_INTERLACED;
}
TCHAR szName[128];
::wsprintf(szName,TEXT("%sDirection"),m_GradientInfoList[i].pszText);
m_GradientList[i].Direction=m_GradientInfoList[i].Direction;
if (Settings.Read(szName,szText,lengthof(szText))) {
for (int j=0;j<lengthof(GradientDirectionList);j++) {
if (::lstrcmpi(szText,GradientDirectionList[j])==0) {
m_GradientList[i].Direction=(Theme::GradientDirection)j;
break;
}
}
}
}
Settings.Close();
for (i=0;i<NUM_BORDERS;i++)
m_BorderList[i]=m_BorderInfoList[i].DefaultType;
if (Settings.Open(pszFileName,TEXT("Style"),CSettings::OPEN_READ)) {
for (i=0;i<NUM_BORDERS;i++) {
if (Settings.Read(m_BorderInfoList[i].pszText,szText,lengthof(szText))) {
if (::lstrcmpi(szText,TEXT("none"))==0) {
if (!m_BorderInfoList[i].fAlways)
m_BorderList[i]=Theme::BORDER_NONE;
} else if (::lstrcmpi(szText,TEXT("solid"))==0)
m_BorderList[i]=Theme::BORDER_SOLID;
else if (::lstrcmpi(szText,TEXT("sunken"))==0)
m_BorderList[i]=Theme::BORDER_SUNKEN;
else if (::lstrcmpi(szText,TEXT("raised"))==0)
m_BorderList[i]=Theme::BORDER_RAISED;
}
}
Settings.Close();
}
SetFileName(pszFileName);
return true;
}
