本文整理汇总了C++中CCoreDispInfo::GetPowerInfo方法的典型用法代码示例。如果您正苦于以下问题:C++ CCoreDispInfo::GetPowerInfo方法的具体用法?C++ CCoreDispInfo::GetPowerInfo怎么用?C++ CCoreDispInfo::GetPowerInfo使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类CCoreDispInfo的用法示例。
在下文中一共展示了CCoreDispInfo::GetPowerInfo方法的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: Disp_AddCollisionModels
// adds all displacement faces as a series of convex objects
// UNDONE: Only add the displacements for this model?
void Disp_AddCollisionModels( CUtlVector<CPhysCollisionEntry *> &collisionList, dmodel_t *pModel, int contentsMask)
{
int dispIndex;
// Add each displacement to the grid hash
for ( dispIndex = 0; dispIndex < g_CoreDispInfos.Count(); dispIndex++ )
{
CCoreDispInfo *pDispInfo = g_CoreDispInfos[ dispIndex ];
mapdispinfo_t *pMapDisp = &mapdispinfo[ dispIndex ];
// not solid for this pass
if ( !(pMapDisp->contents & contentsMask) )
continue;
int gridIndex = Disp_GridIndex( pDispInfo );
AddToGrid( gridIndex, dispIndex );
}
// now make a polysoup for the terrain in each grid
for ( int grid = 0; grid < gDispGridList.Count(); grid++ )
{
int triCount = 0;
CPhysPolysoup *pTerrainPhysics = physcollision->PolysoupCreate();
// iterate the displacements in this grid
for ( int listIndex = 0; listIndex < gDispGridList[grid].dispList.Count(); listIndex++ )
{
dispIndex = gDispGridList[grid].dispList[listIndex];
CCoreDispInfo *pDispInfo = g_CoreDispInfos[ dispIndex ];
mapdispinfo_t *pMapDisp = &mapdispinfo[ dispIndex ];
// Get the material id.
MaterialSystemMaterial_t matID = GetMatIDFromDisp( pMapDisp );
// Build a triangle list. This shares the tesselation code with the engine.
CUtlVector<unsigned short> indices;
CVBSPTesselateHelper helper;
helper.m_pIndices = &indices;
helper.m_pActiveVerts = pDispInfo->GetAllowedVerts().Base();
helper.m_pPowerInfo = pDispInfo->GetPowerInfo();
::TesselateDisplacement( &helper );
Assert( indices.Count() > 0 );
Assert( indices.Count() % 3 == 0 ); // Make sure indices are a multiple of 3.
int nTriCount = indices.Count() / 3;
triCount += nTriCount;
if ( triCount >= 65536 )
{
// don't put more than 64K tris in any single collision model
CPhysCollide *pCollide = physcollision->ConvertPolysoupToCollide( pTerrainPhysics, false );
if ( pCollide )
{
collisionList.AddToTail( new CPhysCollisionEntryStaticMesh( pCollide, NULL ) );
}
// Throw this polysoup away and start over for the remaining triangles
physcollision->PolysoupDestroy( pTerrainPhysics );
pTerrainPhysics = physcollision->PolysoupCreate();
triCount = nTriCount;
}
Vector tmpVerts[3];
for ( int iTri = 0; iTri < nTriCount; ++iTri )
{
float flAlphaTotal = 0.0f;
for ( int iTriVert = 0; iTriVert < 3; ++iTriVert )
{
pDispInfo->GetVert( indices[iTri*3+iTriVert], tmpVerts[iTriVert] );
flAlphaTotal += pDispInfo->GetAlpha( indices[iTri*3+iTriVert] );
}
int nProp = g_SurfaceProperties[texinfo[pMapDisp->face.texinfo].texdata];
if ( flAlphaTotal > DISP_ALPHA_PROP_DELTA )
{
int nProp2 = GetSurfaceProperties2( matID, "surfaceprop2" );
if ( nProp2 != -1 )
{
nProp = nProp2;
}
}
int nMaterialIndex = RemapWorldMaterial( nProp );
physcollision->PolysoupAddTriangle( pTerrainPhysics, tmpVerts[0], tmpVerts[1], tmpVerts[2], nMaterialIndex );
}
}
// convert the whole grid's polysoup to a collide and store in the collision list
CPhysCollide *pCollide = physcollision->ConvertPolysoupToCollide( pTerrainPhysics, false );
if ( pCollide )
{
collisionList.AddToTail( new CPhysCollisionEntryStaticMesh( pCollide, NULL ) );
}
// now that we have the collide, we're done with the soup
physcollision->PolysoupDestroy( pTerrainPhysics );
}
}示例2: Disp_BuildVirtualMesh
void Disp_BuildVirtualMesh( int contentsMask )
{
CUtlVector<CPhysCollide *> virtualMeshes;
virtualMeshes.EnsureCount( g_CoreDispInfos.Count() );
for ( int i = 0; i < g_CoreDispInfos.Count(); i++ )
{
CCoreDispInfo *pDispInfo = g_CoreDispInfos[ i ];
mapdispinfo_t *pMapDisp = &mapdispinfo[ i ];
virtualMeshes[i] = NULL;
// not solid for this pass
if ( !(pMapDisp->contents & contentsMask) )
continue;
// Build a triangle list. This shares the tesselation code with the engine.
CUtlVector<unsigned short> indices;
CVBSPTesselateHelper helper;
helper.m_pIndices = &indices;
helper.m_pActiveVerts = pDispInfo->GetAllowedVerts().Base();
helper.m_pPowerInfo = pDispInfo->GetPowerInfo();
::TesselateDisplacement( &helper );
// validate the collision data
if ( 1 )
{
int triCount = indices.Count() / 3;
for ( int j = 0; j < triCount; j++ )
{
int index = j * 3;
Vector v0 = pDispInfo->GetVert( indices[index+0] );
Vector v1 = pDispInfo->GetVert( indices[index+1] );
Vector v2 = pDispInfo->GetVert( indices[index+2] );
if ( v0 == v1 || v1 == v2 || v2 == v0 )
{
Warning( "Displacement %d has bad geometry near %.2f %.2f %.2f\n", i, v0.x, v0.y, v0.z );
texinfo_t *pTexInfo = &texinfo[pMapDisp->face.texinfo];
dtexdata_t *pTexData = GetTexData( pTexInfo->texdata );
const char *pMatName = TexDataStringTable_GetString( pTexData->nameStringTableID );
Error( "Can't compile displacement physics, exiting. Texture is %s\n", pMatName );
}
}
}
CDispMeshEvent meshHandler( indices.Base(), indices.Count(), pDispInfo );
virtualmeshparams_t params;
params.buildOuterHull = true;
params.pMeshEventHandler = &meshHandler;
params.userData = &meshHandler;
virtualMeshes[i] = physcollision->CreateVirtualMesh( params );
}
unsigned int totalSize = 0;
CUtlBuffer buf;
dphysdisp_t header;
header.numDisplacements = g_CoreDispInfos.Count();
buf.PutObjects( &header );
CUtlVector<char> dispBuf;
for ( int i = 0; i < header.numDisplacements; i++ )
{
if ( virtualMeshes[i] )
{
unsigned int testSize = physcollision->CollideSize( virtualMeshes[i] );
totalSize += testSize;
buf.PutShort( testSize );
}
else
{
buf.PutShort( -1 );
}
}
for ( int i = 0; i < header.numDisplacements; i++ )
{
if ( virtualMeshes[i] )
{
unsigned int testSize = physcollision->CollideSize( virtualMeshes[i] );
dispBuf.RemoveAll();
dispBuf.EnsureCount(testSize);
unsigned int outSize = physcollision->CollideWrite( dispBuf.Base(), virtualMeshes[i], false );
Assert( outSize == testSize );
buf.Put( dispBuf.Base(), outSize );
}
}
g_PhysDispSize = totalSize + sizeof(dphysdisp_t) + (sizeof(unsigned short) * header.numDisplacements);
Assert( buf.TellMaxPut() == g_PhysDispSize );
g_PhysDispSize = buf.TellMaxPut();
g_pPhysDisp = new byte[g_PhysDispSize];
Q_memcpy( g_pPhysDisp, buf.Base(), g_PhysDispSize );
}