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CWE-ou-minkata/Sources/Plasma/PubUtilLib/plDrawable/plDrawableSpans.cpp

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Fix line endings and tabs
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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
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/>.
Open source re-licensing
13 years ago
Additional permissions under GNU GPL version 3 section 7
If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.
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You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
//////////////////////////////////////////////////////////////////////////////
// //
// plDrawableSpans Class Functions //
// //
//// Version History /////////////////////////////////////////////////////////
// //
// 4.3.2001 mcn - Created. //
// 5.3.2001 mcn - Completely revamped. Now plDrawableSpans *IS* the group //
// of spans, and each span is either an icicle or patch. //
// This eliminates the need entirely for separate drawables,//
// at the cost of having to do a bit of extra work to //
// maintain different types of spans in the same drawable. //
// //
//////////////////////////////////////////////////////////////////////////////
HeadSpin.h is now the core header. Rearrange some things so such that low-level CoreLib headers aren't quite so crazy. For higher level stuff, you still need to include the appropriate header.
13 years ago
#include "HeadSpin.h"
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#include "plAccessSpan.h"
#include "plAccessTriSpan.h"
#include "plDrawableSpans.h"
#include "hsStream.h"
#include "hsResMgr.h"
#include "plPipeline.h"
#include "plGeometrySpan.h"
#include "plSpaceTree.h"
#include "plParticleFiller.h"
#include "plSpaceTreeMaker.h"
#include "plClusterGroup.h"
#include "plCluster.h"
#include "plSpanTemplate.h"
Move plGBufferGroup and plVertCoder to plDrawable.
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#include "plGBufferGroup.h"
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#include "plMath/hsRadixSort.h"
#include "plSurface/hsGMaterial.h"
#include "plSurface/plLayerInterface.h"
#include "plPipeline/plFogEnvironment.h"
#include "plPipeline/hsGDeviceRef.h"
#include "plPipeline/plPipeDebugFlags.h"
#include "pnMessage/plRefMsg.h"
#include "pnMessage/plNodeRefMsg.h"
#include "pnMessage/plDISpansMsg.h"
#include "plMessage/plDeviceRecreateMsg.h"
#include "plMessage/plRenderMsg.h"
#include "pnSceneObject/plDrawInterface.h"
#include "pnKeyedObject/plKey.h"
#include "plParticleSystem/plParticleEmitter.h"
#include "plParticleSystem/plParticle.h"
#include "plGLight/plLightInfo.h"
#include "plgDispatch.h"
#include "plProfile.h"
#include "plMath/plTriUtils.h"
#include "pnMessage/plPipeResMakeMsg.h"
#include "plScene/plVisMgr.h"
#include "plScene/plVisRegion.h"
fix relative includes in PubUtilLib, move them up to where they belong, remvoe some unused files
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#include "plStatusLog/plStatusLog.h"
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#include <algorithm>
//// Local Konstants /////////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
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const uint32_t plDrawableSpans::kSpanTypeMask = 0xc0000000;
const uint32_t plDrawableSpans::kSpanIDMask = ~kSpanTypeMask;
const uint32_t plDrawableSpans::kSpanTypeIcicle = 0x00000000;
const uint32_t plDrawableSpans::kSpanTypeParticleSpan = 0xc0000000;
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//// Constructor & Destructor ////////////////////////////////////////////////
plDrawableSpans::plDrawableSpans() :
fSceneNode(nil),
fSpaceTree(nil)
{
fReadyToRender = false;
fProps = 0;
fCriteria = 0;
fRegisteredForRecreate = false;
fRegisteredForRender = false;
fNeedCleanup = false;
fOptimized = true;
fSettingMatIdxLock = false;
fSkinTime = 0;
fType = kNormal;
fMaterials.Reset();
fLocalToWorld.Reset();
fWorldToLocal.Reset();
fVisSet.SetBit(0);
}
plDrawableSpans::~plDrawableSpans()
{
int i;
for( i = 0; i < fGroups.GetCount(); i++ )
{
delete fGroups[ i ];
}
fGroups.Reset();
/// Loop and delete both our types of spans
for( i = 0; i < fSpans.GetCount(); i++ )
fSpans[ i ]->Destroy();
fSpans.Reset();
fIcicles.Reset();
fParticleSpans.Reset();
for( i = 0; i < fSourceSpans.GetCount(); i++ )
delete fSourceSpans[ i ];
fSourceSpans.Reset();
/// Loop and unref our materials
if( GetKey() != nil )
{
for( i = 0; i < fMaterials.GetCount(); i++ )
{
if( fMaterials[ i ] != nil && fMaterials[ i ]->GetKey() != nil )
GetKey()->Release( fMaterials[ i ]->GetKey() );
}
}
fMaterials.Reset();
delete fSpaceTree;
for( i = 0; i < fDIIndices.GetCount(); i++ )
delete fDIIndices[ i ];
fDIIndices.Reset();
if( fRegisteredForRecreate )
plgDispatch::Dispatch()->UnRegisterForExactType( plDeviceRecreateMsg::Index(), GetKey() );
if( fRegisteredForRender )
plgDispatch::Dispatch()->UnRegisterForExactType( plRenderMsg::Index(), GetKey() );
}
void plDrawableSpans::SetKey(plKey k)
{
hsKeyedObject::SetKey(k);
if( k )
{
fRegisteredForRecreate = true;
plgDispatch::Dispatch()->RegisterForExactType(plDeviceRecreateMsg::Index(), GetKey());
plgDispatch::Dispatch()->RegisterForExactType(plPipeGeoMakeMsg::Index(), GetKey());
}
}
//// ChangeSceneNode /////////////////////////////////////////////////////////
void plDrawableSpans::SetSceneNode( plKey newNode )
{
plKey curNode=GetSceneNode();
if( curNode == newNode )
return;
if( newNode )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
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plNodeRefMsg* refMsg = new plNodeRefMsg(newNode, plNodeRefMsg::kOnRequest, -1, plNodeRefMsg::kDrawable);
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hsgResMgr::ResMgr()->SendRef(GetKey(), refMsg, plRefFlags::kActiveRef);
}
if( curNode )
{
curNode->Release(GetKey());
}
fSceneNode = newNode;
}
//// PrepForRender ///////////////////////////////////////////////////////////
void plDrawableSpans::PrepForRender( plPipeline *p )
{
/// If we're not registered for this message, register for it so we know when
/// we need to refresh the buffers
if( !fRegisteredForRecreate && GetKey() != nil )
{
fRegisteredForRecreate = true;
plgDispatch::Dispatch()->RegisterForExactType( plDeviceRecreateMsg::Index(), GetKey() );
}
if( !fReadyToRender )
{
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uint32_t i;
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for( i = 0; i < fGroups.GetCount(); i++ )
{
// Each group will decide whether it needs to be prepped
fGroups[ i ]->PrepForRendering( p, false );
}
fReadyToRender = true;
}
if( fParticleSpans.GetCount() )
{
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uint32_t i;
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#if 0
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[ i ]->fTypeMask & plSpan::kParticleSpan )
{
plParticleSpan* span = (plParticleSpan*)fSpans[i];
plParticleFiller::FillParticles(p, this, span);
}
}
#else
for( i = 0; i < fParticleSpans.GetCount(); i++ )
{
plParticleFiller::FillParticles(p, this, &fParticleSpans[i]);
}
#endif
}
}
Obliterate hsBool
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void plDrawableSpans::SetDISpanVisSet(uint32_t diIndex, hsKeyedObject* ref, bool on)
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{
// Could actually do something here to neutralize bones, but we're not.
// Main thing is that if it's Matrix Only, then the indices are into
// the LocalToWorlds, not into fSpans
if( fDIIndices[diIndex]->IsMatrixOnly() )
return;
plVisRegion* reg = plVisRegion::ConvertNoRef(ref);
if( !reg )
return;
Obliterate hsBool
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bool isNot = reg->GetProperty(plVisRegion::kIsNot);
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t visRegIndex = reg->GetIndex();
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if( isNot )
{
fVisNot.SetBit(visRegIndex, on);
int i;
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->SetVisNot(visRegIndex, on);
}
}
else
{
fVisSet.SetBit(visRegIndex, on);
int i;
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->SetVisBit(visRegIndex, on);
// HACKAGE
// We need to be more careful about when we set and clear this bit,
// but not today.
// Okay, today. mf
if( reg->ReplaceNormal() )
fSpans[spanIndex]->SetVisBit(plVisMgr::kNormal, false);
}
}
}
void plDrawableSpans::SetVisSet(plVisMgr* visMgr)
{
plProfile_Extern(VisSelect);
plProfile_BeginTiming(VisSelect);
if( visMgr )
{
const hsBitVector& visSet = visMgr->GetVisSet();
const hsBitVector& visNot = visMgr->GetVisNot();
// Go through some contortions to not be new[]'ing and delete[]'ing.
static hsBitVector myVis;
static hsBitVector myNot;
// myVis = (visSet ^ fLastVisSet) & fVisSet;
myVis = visSet;
myVis ^= fLastVisSet;
myVis &= fVisSet;
// myNot = (visNot ^ fLastVisNot) & fVisNot;
myNot = visNot;
myNot ^= fLastVisNot;
myNot &= fVisNot;
// myVis = myVis | myNot
myVis |= myNot;
GetSpaceTree()->SetCache(&fVisCache);
if( !myVis.Empty() )
{
fVisCache.Clear();
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( !fSpans[i]->GetVisNot().Overlap(visNot) && fSpans[i]->GetVisSet().Overlap(visSet) )
{
GetSpaceTree()->EnableLeaf(i, fVisCache);
}
}
fLastVisSet = visSet;
fLastVisNot = visNot;
}
}
else
{
GetSpaceTree()->SetCache(nil);
}
plProfile_EndTiming(VisSelect);
}
// Here's the problem. When we update one of the matrices in the matrix palette,
// we've invalidated the current bounds of all the spans that use it. The skinning
// matrix may have moved the spans, or may just have stretched them, but either
// way, they aren't right any more. Wait, it gets worse. We're going to have a bunch
// of SetTransform calls come in, and then some time later, without our knowledge,
// our bounds (via the space tree and PageTreeMgr) will be used to evaluate whether
// to bother drawing us. Clearly, if we're going to keep our bounds up to date, we
// want to wait until all the SetTransforms have come in, and then update our bounds
// all at once, but before the visibility determination phase kicks in.
// The alternative is to make the local bounds conservative. We bloat out the local
// bounds on export so that whereever the skinning matrices push us around, we're
// still inside the local bounds. This is certainly cheaper to compute (all computation
// is offline), but gives a less tight bounds. Whether the conservative bounds is
// tight enough will depend on how the skinning is actually being used.
//
// Therefore I'm deferring decision on which way to go, and putting in this temp hack
// which does it the dumbest way possible while still being correct.
//
// So recap:
// If we need tight up-to-date bounds, we'll probably send a system message between
// the update phase (Eval Msg) and the render phase, only marking as dirty the changed
// palette matrices.
// If conservative bounds are good enough, we'll need to compute those from the skinning
// animations offline.
void plDrawableSpans::IUpdateMatrixPaletteBoundsHack()
{
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[i]->fNumMatrices && !(fSpans[i]->fProps & plSpan::kPropNoDraw) )
{
hsBounds3Ext bnd = fSpans[i]->fLocalBounds;
const hsMatrix44& xfm0 = fSpans[i]->fMaxBoneIdx ? fLocalToWorlds[fSpans[i]->fBaseMatrix + fSpans[i]->fMaxBoneIdx] : fSpans[i]->fLocalToWorld;
bnd.Transform(&xfm0);
fSpans[i]->fWorldBounds = bnd;
bnd = fSpans[i]->fLocalBounds;
const hsMatrix44& xfm1 = fSpans[i]->fPenBoneIdx ? fLocalToWorlds[fSpans[i]->fBaseMatrix + fSpans[i]->fPenBoneIdx] : fSpans[i]->fLocalToWorld;
bnd.Transform(&xfm1);
fSpans[i]->fWorldBounds.Union(&bnd);
GetSpaceTree()->MoveLeaf(i, fSpans[i]->fWorldBounds);
}
}
}
Obliterate hsBool
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bool plDrawableSpans::IBoundsInvalid(const hsBounds3Ext& bnd) const
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{
int i;
for( i = 0; i < 3; i++ )
{
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
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const float kLimit(1.e5f);
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if( bnd.GetMaxs()[i] > kLimit )
return true;
if( bnd.GetMins()[i] < -kLimit )
return true;
}
return false;
}
//// SetTransform ////////////////////////////////////////////////////////////
static inline hsMatrix44 IMatrixMul34(const hsMatrix44& lhs, const hsMatrix44& rhs)
{
hsMatrix44 ret;
ret.NotIdentity();
ret.fMap[3][0] = ret.fMap[3][1] = ret.fMap[3][2] = 0;
ret.fMap[3][3] = 1.f;
ret.fMap[0][0] = lhs.fMap[0][0] * rhs.fMap[0][0]
+ lhs.fMap[0][1] * rhs.fMap[1][0]
+ lhs.fMap[0][2] * rhs.fMap[2][0];
ret.fMap[0][1] = lhs.fMap[0][0] * rhs.fMap[0][1]
+ lhs.fMap[0][1] * rhs.fMap[1][1]
+ lhs.fMap[0][2] * rhs.fMap[2][1];
ret.fMap[0][2] = lhs.fMap[0][0] * rhs.fMap[0][2]
+ lhs.fMap[0][1] * rhs.fMap[1][2]
+ lhs.fMap[0][2] * rhs.fMap[2][2];
ret.fMap[0][3] = lhs.fMap[0][0] * rhs.fMap[0][3]
+ lhs.fMap[0][1] * rhs.fMap[1][3]
+ lhs.fMap[0][2] * rhs.fMap[2][3]
+ lhs.fMap[0][3];
ret.fMap[1][0] = lhs.fMap[1][0] * rhs.fMap[0][0]
+ lhs.fMap[1][1] * rhs.fMap[1][0]
+ lhs.fMap[1][2] * rhs.fMap[2][0];
ret.fMap[1][1] = lhs.fMap[1][0] * rhs.fMap[0][1]
+ lhs.fMap[1][1] * rhs.fMap[1][1]
+ lhs.fMap[1][2] * rhs.fMap[2][1];
ret.fMap[1][2] = lhs.fMap[1][0] * rhs.fMap[0][2]
+ lhs.fMap[1][1] * rhs.fMap[1][2]
+ lhs.fMap[1][2] * rhs.fMap[2][2];
ret.fMap[1][3] = lhs.fMap[1][0] * rhs.fMap[0][3]
+ lhs.fMap[1][1] * rhs.fMap[1][3]
+ lhs.fMap[1][2] * rhs.fMap[2][3]
+ lhs.fMap[1][3];
ret.fMap[2][0] = lhs.fMap[2][0] * rhs.fMap[0][0]
+ lhs.fMap[2][1] * rhs.fMap[1][0]
+ lhs.fMap[2][2] * rhs.fMap[2][0];
ret.fMap[2][1] = lhs.fMap[2][0] * rhs.fMap[0][1]
+ lhs.fMap[2][1] * rhs.fMap[1][1]
+ lhs.fMap[2][2] * rhs.fMap[2][1];
ret.fMap[2][2] = lhs.fMap[2][0] * rhs.fMap[0][2]
+ lhs.fMap[2][1] * rhs.fMap[1][2]
+ lhs.fMap[2][2] * rhs.fMap[2][2];
ret.fMap[2][3] = lhs.fMap[2][0] * rhs.fMap[0][3]
+ lhs.fMap[2][1] * rhs.fMap[1][3]
+ lhs.fMap[2][2] * rhs.fMap[2][3]
+ lhs.fMap[2][3];
return ret;
}
#ifdef MF_TEST_UPDATE
plProfile_CreateCounter("DSSetTrans", "Update", DSSetTrans);
plProfile_CreateCounter("DSMatSpans", "Update", DSMatSpans);
plProfile_CreateCounter("DSRegSpans", "Update", DSRegSpans);
plProfile_CreateTimer("DSSetTransT", "Update", DSSetTransT);
plProfile_CreateTimer("DSMatTransT", "Update", DSMatTransT);
plProfile_CreateTimer("DSRegTransT", "Update", DSRegTransT);
plProfile_CreateTimer("DSBndTransT", "Update", DSBndTransT);
#endif // MF_TEST_UPDATE
Convert custom HeadSpin integer types to standard types from stdint.h
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plDrawable& plDrawableSpans::SetTransform( uint32_t index, const hsMatrix44& l2w, const hsMatrix44& w2l )
Fix line endings and tabs
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{
#ifdef MF_TEST_UPDATE
plProfile_IncCount(DSSetTrans, 1);
plProfile_BeginTiming(DSSetTransT);
#endif // MF_TEST_UPDATE
Convert custom HeadSpin integer types to standard types from stdint.h
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if( index == (uint32_t)-1 )
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{
fLocalToWorld = l2w;
fWorldToLocal = w2l;
fWorldBounds = fLocalBounds;
fWorldBounds.Transform( &l2w );
}
else
{
int i;
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t idx;
Fix line endings and tabs
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plDISpanIndex *spans = fDIIndices[ index ];
if( spans->IsMatrixOnly() )
{
#ifdef MF_TEST_UPDATE
plProfile_IncCount(DSMatSpans, spans->GetCount());
plProfile_BeginTiming(DSMatTransT);
#endif // MF_TEST_UPDATE
for( i = 0; i < spans->GetCount(); i++ )
{
fLocalToWorlds[ (*spans)[ i ] ] = IMatrixMul34(l2w, fLocalToBones[ (*spans)[ i ] ]);
fWorldToLocals[ (*spans)[ i ] ] = IMatrixMul34(fBoneToLocals[ (*spans)[ i ] ], w2l);
Remove remaining pre-hsCpuID SSE special-casing.
13 years ago
Fix line endings and tabs
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}
#ifdef MF_TEST_UPDATE
plProfile_EndTiming(DSMatTransT);
#endif // MF_TEST_UPDATE
}
else if( !spans->DontTransform() )
{
#ifdef MF_TEST_UPDATE
plProfile_IncCount(DSRegSpans, spans->GetCount());
#endif // MF_TEST_UPDATE
for( i = 0; i < spans->GetCount(); i++ )
{
#ifdef MF_TEST_UPDATE
plProfile_BeginTiming(DSRegTransT);
#endif // MF_TEST_UPDATE
idx = (*spans)[ i ];
plSpan *mSpan = fSpans[ idx ];
mSpan->fLocalToWorld = l2w;
mSpan->fWorldToLocal = w2l;
mSpan->fWorldBounds = mSpan->fLocalBounds;
mSpan->fWorldBounds.Transform( &l2w );
if( fSourceSpans.GetCount() > idx )
{
/// If we have a geoSpan for this, update its transform as well,
/// just in case we need to use it later (<cough> SceneViewer reshade <cough>)
if( fSourceSpans[ idx ] == nil )
{
plStatusLog::AddLineS( "pipeline.log", 0xffffffff, "Nil source spans found in SetTransform()" );
}
fSourceSpans[ idx ]->fLocalToWorld = l2w;
fSourceSpans[ idx ]->fWorldToLocal = w2l;
}
#ifdef MF_TEST_UPDATE
plProfile_EndTiming(DSRegTransT);
plProfile_BeginTiming(DSBndTransT);
#endif // MF_TEST_UPDATE
if( IBoundsInvalid(mSpan->fWorldBounds) )
{
mSpan->fProps |= kPropNoDraw;
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->SetLeafFlag((int16_t)idx, plSpaceTreeNode::kDisabled, true);
Fix line endings and tabs
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}
else
{
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->MoveLeaf((int16_t)((*spans)[i]), mSpan->fWorldBounds);
Fix line endings and tabs
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}
#ifdef MF_TEST_UPDATE
plProfile_EndTiming(DSBndTransT);
#endif // MF_TEST_UPDATE
}
}
#ifdef MF_TEST_UPDATE
plProfile_BeginTiming(DSBndTransT);
#endif // MF_TEST_UPDATE
fWorldBounds = GetSpaceTree()->GetNode(GetSpaceTree()->GetRoot()).GetWorldBounds();
#ifdef MF_TEST_UPDATE
plProfile_EndTiming(DSBndTransT);
#endif // MF_TEST_UPDATE
}
#ifdef MF_TEST_UPDATE
plProfile_EndTiming(DSSetTransT);
#endif // MF_TEST_UPDATE
// Might want to assert that MaxWorldBounds still contains WorldBounds.
return *this;
}
Convert custom HeadSpin integer types to standard types from stdint.h
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void plDrawableSpans::SetNativeTransform(uint32_t idx, const hsMatrix44& l2w, const hsMatrix44& w2l)
Fix line endings and tabs
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{
Convert custom HeadSpin integer types to standard types from stdint.h
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if( idx == uint32_t(-1) )
Fix line endings and tabs
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{
hsAssert(false, "Invalid index to SetNativeTransform");
}
else
{
plSpan* span = fSpans[idx];
span->fLocalToWorld = l2w;
span->fWorldToLocal = w2l;
span->fWorldBounds = span->fLocalBounds;
span->fWorldBounds.Transform(&l2w);
if( fSourceSpans.GetCount() > idx )
{
fSourceSpans[idx]->fLocalToWorld = l2w;
fSourceSpans[idx]->fWorldToLocal = w2l;
}
if( IBoundsInvalid(span->fWorldBounds) )
{
SetNativeProperty( idx, kPropNoDraw, true);
}
else
{
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->MoveLeaf((int16_t)idx, span->fWorldBounds);
Fix line endings and tabs
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}
}
}
//// GetLocalToWorld & GetWorldToLocal ///////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
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const hsMatrix44& plDrawableSpans::GetLocalToWorld( uint32_t span ) const
Fix line endings and tabs
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{
Convert custom HeadSpin integer types to standard types from stdint.h
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if( span == (uint32_t)-1 )
Fix line endings and tabs
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return fLocalToWorld;
return fSpans[ span ]->fLocalToWorld;
}
Convert custom HeadSpin integer types to standard types from stdint.h
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const hsMatrix44& plDrawableSpans::GetWorldToLocal( uint32_t span ) const
Fix line endings and tabs
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{
Convert custom HeadSpin integer types to standard types from stdint.h
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if( span == (uint32_t)-1 )
Fix line endings and tabs
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return fWorldToLocal;
return fSpans[ span ]->fWorldToLocal;
}
//// Set/GetNativeProperty ///////////////////////////////////////////////////
Obliterate hsBool
12 years ago
plDrawable& plDrawableSpans::SetNativeProperty( uint32_t index, int prop, bool on)
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{
int i;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( index == (uint32_t)-1 )
Fix line endings and tabs
14 years ago
{
hsAssert(false, "Invalid index to SetNativeProperty");
}
else
{
plDISpanIndex *spans = fDIIndices[ index ];
if( !spans->IsMatrixOnly() )
{
if( on )
{
for( i = 0; i < spans->GetCount(); i++ )
fSpans[ (*spans)[ i ] ]->fProps |= prop;
}
else
{
for( i = 0; i < spans->GetCount(); i++ )
fSpans[ (*spans)[ i ] ]->fProps &= ~prop;
}
if( (prop & kPropNoDraw) )
{
for( i = 0; i < spans->GetCount(); i++ )
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
GetSpaceTree()->SetLeafFlag((int16_t)((*spans)[ i ]), plSpaceTreeNode::kDisabled, on);
Fix line endings and tabs
14 years ago
}
}
}
return *this;
}
Obliterate hsBool
12 years ago
bool plDrawableSpans::GetNativeProperty( uint32_t index, int prop ) const
Fix line endings and tabs
14 years ago
{
int i;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t ret = false;
Fix line endings and tabs
14 years ago
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( index == (uint32_t)-1 )
Fix line endings and tabs
14 years ago
{
for( i = 0; i < fSpans.GetCount(); i++ )
ret |= ( fSpans[ i ]->fProps & prop );
}
else
{
plDISpanIndex& spans = *fDIIndices[ index ];
if( !spans.IsMatrixOnly() )
{
for( i = 0; i < spans.GetCount(); i++ )
ret |= ( fSpans[ spans[ i ] ]->fProps & prop );
}
}
return ret != 0;
}
Obliterate hsBool
12 years ago
plDrawable& plDrawableSpans::SetSubType(uint32_t index, plSubDrawableType t, bool on)
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( uint32_t(-1) == index )
Fix line endings and tabs
14 years ago
{
if( on )
{
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
fSpans[i]->fSubType |= t;
}
else
{
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
fSpans[i]->fSubType &= ~t;
}
}
else
{
plDISpanIndex& spans = *fDIIndices[ index ];
if( on )
{
int i;
for( i = 0; i < spans.GetCount(); i++ )
fSpans[ spans[i] ]->fSubType |= t;
}
else
{
int i;
for( i = 0; i < spans.GetCount(); i++ )
fSpans[ spans[i] ]->fSubType &= ~t;
}
}
return *this;
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t plDrawableSpans::GetSubType(uint32_t index) const
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t retVal = 0;
Fix line endings and tabs
14 years ago
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( uint32_t(-1) == index )
Fix line endings and tabs
14 years ago
{
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
retVal |= fSpans[i]->fSubType;
}
else
{
plDISpanIndex& spans = *fDIIndices[ index ];
int i;
for( i = 0; i < spans.GetCount(); i++ )
retVal |= fSpans[ spans[i] ]->fSubType;
}
return retVal;
}
//// IXlateSpanProps /////////////////////////////////////////////////////////
// Never used yet--just here in case we ever need it
Obliterate hsBool
12 years ago
uint32_t plDrawableSpans::IXlateSpanProps( uint32_t props, bool xlateToSpan )
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t retProps = 0;
Fix line endings and tabs
14 years ago
if( xlateToSpan )
{
/// Drawable props to plSpan props
if( props & kPropNoDraw ) retProps |= plSpan::kPropNoDraw;
if( props & kPropSortFaces ) retProps |= plSpan::kPropFacesSortable;
}
else
{
/// plSpan props to Drawable props
if( props & plSpan::kPropNoDraw ) retProps |= kPropNoDraw;
if( props & plSpan::kPropFacesSortable ) retProps |= kPropSortFaces;
}
return retProps;
}
//// Set/GetProperty /////////////////////////////////////////////////////////
// Sets/gets a property just like the normal Set/GetNativeProperty, but the
// flag taken in is from plDrawInterface, not our props flags. So we have to
// translate...
Obliterate hsBool
12 years ago
plDrawable& plDrawableSpans::SetProperty( uint32_t index, int diProp, bool on )
Fix line endings and tabs
14 years ago
{
switch( diProp )
{
case plDrawInterface::kDisable:
return SetNativeProperty( index, kPropNoDraw, on );
default:
hsAssert( false, "Bad property passed to SetProperty" );
}
return *this;
}
Obliterate hsBool
12 years ago
bool plDrawableSpans::GetProperty( uint32_t index, int diProp ) const
Fix line endings and tabs
14 years ago
{
switch( diProp )
{
case plDrawInterface::kDisable:
return GetNativeProperty( index, kPropNoDraw );
default:
hsAssert( false, "Bad property passed to SetProperty" );
}
return false;
}
Obliterate hsBool
12 years ago
plDrawable& plDrawableSpans::SetProperty( int prop, bool on )
Fix line endings and tabs
14 years ago
{
switch( prop )
{
case plDrawInterface::kDisable:
{
int i;
for (i=0; i<fIcicles.Count(); i++)
if (on)
fIcicles[i].fProps |= kPropNoDraw;
else
fIcicles[i].fProps &= ~kPropNoDraw;
IQuickSpaceTree();
}
return SetNativeProperty( kPropNoDraw, on );
default:
hsAssert( false, "Bad property passed to SetProperty" );
}
return *this;
}
Obliterate hsBool
12 years ago
bool plDrawableSpans::GetProperty( int prop ) const
Fix line endings and tabs
14 years ago
{
switch( prop )
{
case plDrawInterface::kDisable:
return GetNativeProperty( kPropNoDraw );
default:
hsAssert( false, "Bad property passed to SetProperty" );
}
return false;
}
//// Get*Bounds //////////////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
const hsBounds3Ext& plDrawableSpans::GetLocalBounds( uint32_t index ) const
Fix line endings and tabs
14 years ago
{
int i;
static hsBounds3Ext bnd;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( index == (uint32_t)-1 )
Fix line endings and tabs
14 years ago
return fLocalBounds;
plDISpanIndex *spans = fDIIndices[ index ];
bnd.MakeEmpty();
if( !spans->IsMatrixOnly() )
{
for( i = 0; i < spans->GetCount(); i++ )
{
bnd.Union( &fSpans[ (*spans)[ i ] ]->fLocalBounds );
}
}
return bnd;
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
const hsBounds3Ext& plDrawableSpans::GetWorldBounds( uint32_t index ) const
Fix line endings and tabs
14 years ago
{
int i;
static hsBounds3Ext bnd;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
if( index == (uint32_t)-1 )
Fix line endings and tabs
14 years ago
return fWorldBounds;
plDISpanIndex *spans = fDIIndices[ index ];
bnd.MakeEmpty();
if( !spans->IsMatrixOnly() )
{
for( i = 0; i < spans->GetCount(); i++ )
{
bnd.Union( &fSpans[ (*spans)[ i ] ]->fWorldBounds );
}
}
return bnd;
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
const hsBounds3Ext& plDrawableSpans::GetMaxWorldBounds( uint32_t index ) const
Fix line endings and tabs
14 years ago
{
return GetWorldBounds( index );
}
//// Read ////////////////////////////////////////////////////////////////////
// We read each in the array of icicles,
// then we read in an array of indices that we translate into
// pointers. Note: since materials and fog environments are shared,
// we read those keys last, so we don't have to have separate messages for
// each.
void plDrawableSpans::Read( hsStream* s, hsResMgr* mgr )
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t i, j, count, count2;
Obliterate hsBool
12 years ago
bool gotSkin = false;
Fix line endings and tabs
14 years ago
plGBufferGroup *group;
plRefMsg *refMsg;
plDrawable::Read(s, mgr);
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
fProps = s->ReadLE32();
fCriteria = s->ReadLE32();
fRenderLevel.fLevel = s->ReadLE32();
Fix line endings and tabs
14 years ago
/// Read in the material keys
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
fMaterials.SetCountAndZero( count );
for( i = 0; i < count; i++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
refMsg = new plGenRefMsg( GetKey(), plRefMsg::kOnCreate, i, kMsgMaterial );
Fix line endings and tabs
14 years ago
mgr->ReadKeyNotifyMe( s, refMsg, plRefFlags::kActiveRef );
}
/// Read the icicles in
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
fIcicles.SetCount( count );
for( i = 0; i < count; i++ )
{
fIcicles[ i ].Read( s );
if( fIcicles[ i ].fNumMatrices )
gotSkin = true;
}
/// Read the patches in
// FIXME MAJOR VERSION
// no more patches, remove this line
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
/// Now read the index array in and use it to create a pointer table
fSpanSourceIndices.Reset();
fSpans.Reset();
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
for( i = 0; i < count; i++ )
{
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
j = s->ReadLE32();
Fix line endings and tabs
14 years ago
switch( j & kSpanTypeMask )
{
case kSpanTypeIcicle: fSpans.Append( (plSpan *)&fIcicles[ j & kSpanIDMask ] ); break;
case kSpanTypeParticleSpan: fSpans.Append( (plSpan *)&fParticleSpans[ j & kSpanIDMask ] ); break;
}
fSpanSourceIndices.Append( j );
if( fSpans[ fSpans.GetCount() - 1 ]->fTypeMask & plSpan::kParticleSpan )
{
plParticleSpan *span = (plParticleSpan *)fSpans[ fSpans.GetCount() - 1 ];
span->fSrcSpanIdx = fSpans.GetCount() - 1;
}
}
// Rebuild bit vectors for various span types
IBuildVectors();
/// Now that we have our pointer array, read in the common keys (fog environs, etc)
for( i = 0; i < count; i++ )
{
// Ref message for the fog environment
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
refMsg = new plGenRefMsg( GetKey(), plRefMsg::kOnCreate, i, kMsgFogEnviron );
Fix line endings and tabs
14 years ago
mgr->ReadKeyNotifyMe( s, refMsg, plRefFlags::kActiveRef );
}
/// Read in bounds and stuff
if( count > 0 )
{
fLocalBounds.Read(s);
fWorldBounds.Read(s);
fMaxWorldBounds.Read(s);
}
else
{
fLocalBounds.MakeEmpty();
fWorldBounds.MakeEmpty();
fMaxWorldBounds.MakeEmpty();
}
for( i = 0; i < count; i++ )
{
if( fSpans[i]->fProps & plSpan::kPropHasPermaLights )
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t lcnt = s->ReadLE32();
Fix line endings and tabs
14 years ago
int j;
for( j = 0; j < lcnt; j++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
mgr->ReadKeyNotifyMe( s, new plGenRefMsg(GetKey(), plRefMsg::kOnCreate, i, kMsgPermaLight), plRefFlags::kPassiveRef);
Fix line endings and tabs
14 years ago
}
}
if( fSpans[i]->fProps & plSpan::kPropHasPermaProjs )
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t lcnt = s->ReadLE32();
Fix line endings and tabs
14 years ago
int j;
for( j = 0; j < lcnt; j++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
mgr->ReadKeyNotifyMe( s, new plGenRefMsg(GetKey(), plRefMsg::kOnCreate, i, kMsgPermaProj), plRefFlags::kPassiveRef);
Fix line endings and tabs
14 years ago
}
}
}
/// Read in the source spans if necessary
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
if( count > 0 )
{
fSourceSpans.SetCount( count );
for( i = 0; i < count; i++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
fSourceSpans[ i ] = new plGeometrySpan;
Fix line endings and tabs
14 years ago
fSourceSpans[ i ]->Read( s );
fSourceSpans[ i ]->fMaterial = GetMaterial( fSpans[ i ]->fMaterialIdx );
fSourceSpans[ i ]->fFogEnviron = fSpans[ i ]->fFogEnvironment;
fSourceSpans[ i ]->fSpanRefIndex = i;
}
}
else
fSourceSpans.Reset();
/// Read in the matrix palette (if any)
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Convert hsMatrix44 hsTArrays to std::vectors
12 years ago
fLocalToWorlds.resize(count);
fWorldToLocals.resize(count);
fLocalToBones.resize(count);
fBoneToLocals.resize(count);
Fix line endings and tabs
14 years ago
for( i = 0; i < count; i++ )
{
fLocalToWorlds[i].Read(s);
fWorldToLocals[i].Read(s);
fLocalToBones[i].Read(s);
fBoneToLocals[i].Read(s);
}
/// Read in the drawInterface index arrays
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
fDIIndices.SetCountAndZero( count );
for( i = 0; i < count; i++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
fDIIndices[ i ] = new plDISpanIndex;
Fix line endings and tabs
14 years ago
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
fDIIndices[ i ]->fFlags = (uint8_t)(s->ReadLE32());
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count2 = s->ReadLE32();
Fix line endings and tabs
14 years ago
fDIIndices[ i ]->SetCountAndZero( count2 );
for( j = 0; j < count2; j++ )
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
(*fDIIndices[ i ])[ j ] = s->ReadLE32();
Fix line endings and tabs
14 years ago
}
/// Read the groups in
Fix Endian functions names in hsTypes and hsStream. Function and macro names for endianness were previously vague, and on big-endian systems entirely misleading. The names are now properly descriptive of what they actually do.
13 years ago
count = s->ReadLE32();
Fix line endings and tabs
14 years ago
while( count-- )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
group = new plGBufferGroup(0, fProps & kPropVolatile, fProps & kPropSortFaces);
Fix line endings and tabs
14 years ago
group->Read( s );
fGroups.Append( group );
}
if( fProps & kPropSortFaces )
{
for( i = 0; i < fSpans.GetCount(); i++ )
IMakeSpanSortable(i);
}
/// Other stuff now
fSpaceTree = plSpaceTree::ConvertNoRef(mgr->ReadCreatable(s));
fSceneNode = mgr->ReadKey(s);
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
plNodeRefMsg* nRefMsg = new plNodeRefMsg(fSceneNode, plRefMsg::kOnCreate, -1, plNodeRefMsg::kDrawable);
Fix line endings and tabs
14 years ago
mgr->AddViaNotify(GetKey(), nRefMsg, plRefFlags::kActiveRef);
if( GetNativeProperty(plDrawable::kPropCharacter) )
{
fVisSet.SetBit(plVisMgr::kCharacter, true);
for( i = 0; i < fSpans.GetCount(); i++ )
fSpans[i]->SetVisBit(plVisMgr::kCharacter, true);
}
// Placeholder hack - see IUpdateMatrixPaletteBoundsHack() for comments
if( gotSkin )
{
fRegisteredForRender = true;
plgDispatch::Dispatch()->RegisterForExactType( plRenderMsg::Index(), GetKey() );
}
fReadyToRender = false;
}
//// ITestMatForSpecularity //////////////////////////////////////////////////
Obliterate hsBool
12 years ago
bool plDrawableSpans::ITestMatForSpecularity( hsGMaterial *mat )
Fix line endings and tabs
14 years ago
{
int i;
for( i = 0; i < mat->GetNumLayers(); i++ )
{
if( mat->GetLayer( i )->GetShadeFlags() && hsGMatState::kShadeSpecular )
return true;
}
return false;
}
#include "plProfile.h"
plProfile_CreateTimer("MatrixPalleteHack", "RenderSetup", PalletteHack);
//// MsgReceive //////////////////////////////////////////////////////////////
Obliterate hsBool
12 years ago
bool plDrawableSpans::MsgReceive( plMessage* msg )
Fix line endings and tabs
14 years ago
{
plGenRefMsg *refMsg = plGenRefMsg::ConvertNoRef( msg );
int i;
Obliterate hsBool
12 years ago
bool hasSpec;
Fix line endings and tabs
14 years ago
if( refMsg )
{
if( refMsg->fType == kMsgMaterial )
{
/// Material add/remove on this drawable
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fMaterials.GetCount(), "Invalid material index" );
fMaterials[ refMsg->fWhich ] = hsGMaterial::ConvertNoRef( refMsg->GetRef() );
if( !fSettingMatIdxLock )
{
// Now find all spans with this material and mark them as using or not using specular
hasSpec = ITestMatForSpecularity( fMaterials[ refMsg->fWhich ] );
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[ i ] != nil && fSpans[ i ]->fMaterialIdx == refMsg->fWhich )
{
if( hasSpec )
fSpans[ i ]->fProps |= plSpan::kPropMatHasSpecular;
else
fSpans[ i ]->fProps &= ~plSpan::kPropMatHasSpecular;
}
}
}
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
hsAssert( refMsg->fWhich < fMaterials.GetCount(), "Invalid material index" );
fMaterials[ refMsg->fWhich ] = nil;
}
return true;
}
else if( refMsg->fType == kMsgFogEnviron )
{
/// Fog environment add/remove on this drawable
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fSpans.GetCount(), "Shesh, send us valid data, will ya??" );
fSpans[ refMsg->fWhich ]->fFogEnvironment = plFogEnvironment::ConvertNoRef( refMsg->GetRef() );
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t i;
Fix line endings and tabs
14 years ago
plFogEnvironment *fog = plFogEnvironment::ConvertNoRef( refMsg->GetRef() );
for( i = 0; i < GetNumSpans(); i++ )
{
if( fSpans[ i ]->fFogEnvironment == fog )
{
fSpans[ i ]->fFogEnvironment = nil;
break;
}
}
}
return true;
}
else if( refMsg->fType == kMsgPermaLight )
{
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fSpans.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
fSpans[refMsg->fWhich]->AddPermaLight(li, false);
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
hsAssert( refMsg->fWhich < fSpans.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = (plLightInfo*)refMsg->GetRef();
fSpans[refMsg->fWhich]->RemovePermaLight(li, false);
}
return true;
}
else if( refMsg->fType == kMsgPermaProj )
{
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fSpans.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
fSpans[refMsg->fWhich]->AddPermaLight(li, true);
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
hsAssert( refMsg->fWhich < fSpans.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = (plLightInfo*)refMsg->GetRef();
fSpans[refMsg->fWhich]->RemovePermaLight(li, true);
}
return true;
}
else if( refMsg->fType == kMsgPermaLightDI )
{
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fDIIndices.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
int diIndex = int(refMsg->fWhich);
if( (diIndex >= 0)
&& !fDIIndices[ diIndex ]->IsMatrixOnly() )
{
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->AddPermaLight(li, false);
}
}
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
hsAssert( refMsg->fWhich < fDIIndices.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
int diIndex = int(refMsg->fWhich);
if( (diIndex >= 0)
&& !fDIIndices[ diIndex ]->IsMatrixOnly() )
{
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->RemovePermaLight(li, false);
}
}
}
return true;
}
else if( refMsg->fType == kMsgPermaProjDI )
{
if( refMsg->GetContext() & (plRefMsg::kOnCreate|plRefMsg::kOnRequest|plRefMsg::kOnReplace) )
{
hsAssert( refMsg->fWhich < fDIIndices.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
int diIndex = int(refMsg->fWhich);
if( (diIndex >= 0)
&& !fDIIndices[ diIndex ]->IsMatrixOnly() )
{
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->AddPermaLight(li, true);
}
}
}
else if( refMsg->GetContext() & (plRefMsg::kOnDestroy|plRefMsg::kOnRemove) )
{
hsAssert( refMsg->fWhich < fDIIndices.GetCount(), "Shesh, send us valid data, will ya??" );
plLightInfo* li = plLightInfo::ConvertNoRef(refMsg->GetRef());
int diIndex = int(refMsg->fWhich);
if( (diIndex >= 0)
&& !fDIIndices[ diIndex ]->IsMatrixOnly() )
{
for( i = 0; i < fDIIndices[ diIndex ]->GetCount(); i++ )
{
int spanIndex = (*fDIIndices[diIndex])[i];
fSpans[spanIndex]->RemovePermaLight(li, true);
}
}
}
return true;
}
}
else if( plDeviceRecreateMsg::ConvertNoRef( msg ) != nil )
{
/// Device recreation message--just reset our flag so we refresh buffer groups
fReadyToRender = false;
return true;
}
else if( plRenderMsg::ConvertNoRef( msg ) )
{
Convert plUoid's object name to a plString
13 years ago
plProfile_BeginLap(PalletteHack, this->GetKey()->GetUoid().GetObjectName().c_str());
Fix line endings and tabs
14 years ago
IUpdateMatrixPaletteBoundsHack();
// Last thing here. We have a bit list of which of our spans are skinned and
// thus need to be re-blended each frame. However, we don't want to blend them
// multiple times per frame if at all possible. Since the pipeline already checks
// our bitfield, what we *really* do is make a copy and give the pipeline our copy.
// The pipeline will then clear out those bits as it blends them, and then we simply
// re-set them here, since plRenderMsg is sent once before all the rendering is done :)
fFakeBlendingSpanVector = fBlendingSpanVector;
Convert plUoid's object name to a plString
13 years ago
plProfile_EndLap(PalletteHack, this->GetKey()->GetUoid().GetObjectName().c_str());
Fix line endings and tabs
14 years ago
return true;
}
plDISpansMsg* diMsg = plDISpansMsg::ConvertNoRef(msg);
if( diMsg )
{
if( diMsg->fType == plDISpansMsg::kRemovingSpan )
{
// If the only set of spans we've got is about to be removed,
// (and we're not flagged to stick around) then just
// kill ourselves entirely.
if( fDIIndices.GetCount() < 2 && !(diMsg->fFlags & plDISpansMsg::kLeaveEmptyDrawable) )
{
hsAssert(diMsg->fIndex + 1 == fDIIndices.GetCount(), "Deleting the an unknown set of indices");
if( GetSceneNode() )
{
GetSceneNode()->Release(GetKey());
}
}
else /// plDrawInterface telling us to remove some spans
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
RemoveDISpans( (int32_t)diMsg->fIndex );
Fix line endings and tabs
14 years ago
}
}
#ifdef HS_DEBUGGING
else if( diMsg->fType == plDISpansMsg::kAddingSpan )
{
/// plDrawInterface telling us which spans it owns
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
int32_t i, spanIndex = (int32_t)diMsg->fIndex;
Fix line endings and tabs
14 years ago
if( spanIndex == -1 )
return true;
for( i = 0; i < fDIIndices[ spanIndex ]->GetCount(); i++ )
{
if( !fDIIndices[ spanIndex ]->IsMatrixOnly() )
fSpans[ (*fDIIndices[ spanIndex])[ i ] ]->fOwnerKey = diMsg->GetSender();
}
}
#endif
return true;
}
plPipeGeoMakeMsg* make = plPipeGeoMakeMsg::ConvertNoRef(msg);
if( make )
{
fReadyToRender = false;
PrepForRender(make->Pipeline());
return true;
}
return plDrawable::MsgReceive(msg);
}
void plDrawableSpans::SetRenderLevel(const plRenderLevel& l)
{
fRenderLevel = l;
}
const plRenderLevel& plDrawableSpans::GetRenderLevel() const
{
return fRenderLevel;
}
//// DoIMatch ////////////////////////////////////////////////////////////////
// Called by the sceneNode to determine if we match the criteria
Obliterate hsBool
12 years ago
bool plDrawableSpans::DoIMatch( const plDrawableCriteria& crit )
Fix line endings and tabs
14 years ago
{
if( crit.fCriteria ^ fCriteria )
return false;
if( crit.fLevel != fRenderLevel )
return false;
if( crit.fType != fType )
return false;
if( crit.fLoadMask != fLoadMask )
return false;
return true;
}
//// SetCriteria /////////////////////////////////////////////////////////////
// Sets the criteria that this ice matches to. Needed since some ice will
// be static per sceneNode while others wont, etc.
void plDrawableSpans::SetCriteria( const plDrawableCriteria& crit )
{
// Very simple right now. May be more complicated later...
fCriteria = crit.fCriteria;
fRenderLevel = crit.fLevel;
fType = crit.fType;
fLoadMask = crit.fLoadMask;
if( fCriteria & kCritSortSpans )
fProps |= kPropSortSpans;
if( fCriteria & kCritSortFaces )
fProps |= kPropSortFaces;
if( fCriteria & kCritCharacter )
fProps |= kPropCharacter;
}
//// IQuickSpaceTree ///////////////////////////////////////////////////
// Creates a fast, space tree for use at run-time (like in the
// SceneViewer). Any time a space tree is requested but there isn't
// one available, this will be supplied. This is a full featured
// hierarchical bounds which is pretty fast to compute. A more highly
// optimized version may be plugged into the Optimize function at a later
// date if this one doesn't perform enough (it does so far).
void plDrawableSpans::IQuickSpaceTree( void ) const
{
int i;
// Make the space tree (hierarchical bounds).
plSpaceTreeMaker maker;
maker.Reset();
for( i = 0; i < fSpans.GetCount(); i++ )
{
maker.AddLeaf( fSpans[ i ]->fWorldBounds, fSpans[ i ]->fProps & plSpan::kPropNoDraw );
}
plSpaceTree* tree = maker.MakeTree();
SetSpaceTree(tree);
}
//// SetSpaceTree ////////////////////////////////////////////////////////////
void plDrawableSpans::SetSpaceTree( plSpaceTree *st ) const
{
delete fSpaceTree;
fSpaceTree = st;
fLastVisSet.Clear();
fLastVisNot.Clear();
}
//// GetDISpans //////////////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
plDISpanIndex& plDrawableSpans::GetDISpans( uint32_t index ) const
Fix line endings and tabs
14 years ago
{
return *fDIIndices[index];
}
//// GetVertex/IndexRef //////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
hsGDeviceRef *plDrawableSpans::GetVertexRef( uint32_t group, uint32_t idx )
Fix line endings and tabs
14 years ago
{
return fGroups[ group ]->GetVertexBufferRef( idx );
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
hsGDeviceRef *plDrawableSpans::GetIndexRef( uint32_t group, uint32_t idx )
Fix line endings and tabs
14 years ago
{
return fGroups[ group ]->GetIndexBufferRef( idx );
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::DirtyVertexBuffer(uint32_t group, uint32_t idx)
Fix line endings and tabs
14 years ago
{
hsAssert(group < fGroups.GetCount(), "Dirtying vtx buffer I don't have");
GetBufferGroup(group)->DirtyVertexBuffer(idx);
SetNotReadyToRender();
}
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::DirtyIndexBuffer(uint32_t group, uint32_t idx)
Fix line endings and tabs
14 years ago
{
hsAssert(group < fGroups.GetCount(), "Dirtying index buffer I don't have");
GetBufferGroup(group)->DirtyIndexBuffer(idx);
SetNotReadyToRender();
}
hsGMaterial* plDrawableSpans::GetSubMaterial(int index) const
{
return GetMaterial(fSpans[index]->fMaterialIdx);
}
// return true if span invisible before minDist and/or after maxDist
Obliterate hsBool
12 years ago
bool plDrawableSpans::GetSubVisDists(int index, float& minDist, float& maxDist) const
Fix line endings and tabs
14 years ago
{
return (minDist = fSpans[index]->GetMinDist()) < (maxDist = fSpans[index]->GetMaxDist());
}
//////////////////////////////////////////////////////////////////////////////
//// Runtime Dynamics ////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//// SortSpan ////////////////////////////////////////////////////////////////
// Given the index of the span to sort, sorts the triangles of that span
// based on the sorting data. Note: the span MUST be of type plIcicle.
plProfile_CreateTimer("Face Sort", "Draw", FaceSort);
plProfile_CreateCounter("Face Sort Calls", "Draw", FaceSortCalls);
plProfile_CreateCounter("Faces Sorted", "Draw", FacesSorted);
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::SortSpan( uint32_t index, plPipeline *pipe )
Fix line endings and tabs
14 years ago
{
plProfile_Inc(FaceSortCalls);
plProfile_BeginLap(FaceSort, "0");
plIcicle *span = (plIcicle *)fSpans[ index ];
plGBufferTriangle *list, temp;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t numTris;
Fix line endings and tabs
14 years ago
int i;
hsMatrix44 w2cMatrix = pipe->GetWorldToCamera() * pipe->GetLocalToWorld();
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float dist;
Fix line endings and tabs
14 years ago
ICheckSpanForSortable(index);
static hsTArray<hsRadixSort::Elem> sortList;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
static hsTArray<uint16_t> tempTriList;
Fix line endings and tabs
14 years ago
hsRadixSort::Elem *elem;
/// Get some stuff
list = span->fSortData;
numTris = span->fILength / 3;
plProfile_IncCount(FacesSorted, numTris);
hsAssert( numTris > 0, "How could we start sorting no triangles??" );
/// Sort the triangles in "list"
sortList.SetCount( numTris );
tempTriList.SetCount( numTris * 3 );
elem = sortList.AcquireArray();
plProfile_EndLap(FaceSort, "0");
plProfile_BeginLap(FaceSort, "1");
hsVector3 vec(w2cMatrix.fMap[2][0], w2cMatrix.fMap[2][1], w2cMatrix.fMap[2][2]);
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float trans = w2cMatrix.fMap[2][3];
Fix line endings and tabs
14 years ago
// Fill out the radix sort elements with our data
for( i = 0; i < numTris; i++ )
{
dist = vec.InnerProduct(list[ i ].fCenter) + trans;
elem[ i ].fKey.fFloat = dist;
elem[ i ].fBody = &list[ i ];
elem[ i ].fNext = elem + i + 1;
}
elem[ i - 1 ].fNext = nil;
plProfile_EndLap(FaceSort, "1");
plProfile_BeginLap(FaceSort, "2");
// Do da sort thingy
hsRadixSort rad;
hsRadixSort::Elem *sortedList = rad.Sort( elem, 0 );
plProfile_EndLap(FaceSort, "2");
plProfile_BeginLap(FaceSort, "3");
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint16_t* indices = tempTriList.AcquireArray();
Fix line endings and tabs
14 years ago
// Stuff into the temp array
for( i = 0, elem = sortedList; i < numTris; i++ )
{
*indices++ = ((plGBufferTriangle *)elem->fBody)->fIndex1;
*indices++ = ((plGBufferTriangle *)elem->fBody)->fIndex2;
*indices++ = ((plGBufferTriangle *)elem->fBody)->fIndex3;
elem = elem->fNext;
}
plProfile_EndLap(FaceSort, "3");
plProfile_BeginLap(FaceSort, "4");
/// Now send them on to the buffer group
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
numTris, tempTriList.AcquireArray() );
/// Optional step in a way: copy back our new, sorted list to our original
/// array. This lets us do less sorting next call, since the order should
/// remain largely unchanged from the last call. If this turns out NOT to
/// be the case, or if the sorting step takes less time than this copy,
/// take this out!
// memcpy( list, tempTriList.AcquireArray(), numTris * sizeof( plGBufferTriangle ) );
/// All done! (force buffer groups to refresh during next render call)
fReadyToRender = false;
plProfile_EndLap(FaceSort, "4");
}
//// SortVisibleSpans ////////////////////////////////////////////////////////
// Sorts the visible spans's triangles in one big lump, for proper back-to-
// front display.
// Updated 5.14.2001 mcn - Fixed so loops don't assume spans are icicles
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::SortVisibleSpans(const hsTArray<int16_t>& visList, plPipeline* pipe)
Fix line endings and tabs
14 years ago
{
#define MF_CHUNKSORT
#ifndef MF_CHUNKSORT
plProfile_Inc(FaceSortCalls);
if( !visList.GetCount() )
return;
static hsLargeArray<hsRadixSort::Elem> sortScratch;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
static hsLargeArray<uint16_t> triList;
static hsTArray<int32_t> counters;
static hsTArray<uint32_t> startIndex;
Fix line endings and tabs
14 years ago
int i;
plProfile_BeginTiming(FaceSort);
if( pipe->IsDebugFlagSet( plPipeDbg::kFlagDontSortFaces ) )
{
/// Don't sort, just send unchanged
int j, idx;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
ICheckSpanForSortable(visList[i]);
/// Build a fake list of indices....
plGBufferTriangle* list = span->fSortData;
triList.SetCount( span->fILength );
for( j = 0, idx = 0; j < span->fILength / 3; j++, idx += 3 )
{
triList[ idx ] = list[ j ].fIndex1;
triList[ idx + 1 ] = list[ j ].fIndex2;
triList[ idx + 2 ] = list[ j ].fIndex3;
}
/// Now send them on to the buffer group
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
span->fILength / 3, triList.AcquireArray() );
}
fReadyToRender = false;
return;
}
plProfile_EndTiming(FaceSort);
plProfile_BeginLap(FaceSort, "0");
startIndex.SetCount(fSpans.GetCount());
// First figure out the total number of tris to deal with.
int totTris = 0;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
startIndex[visList[i]] = totTris * 3;
if( span->fProps & plSpan::kPropReverseSort )
startIndex[visList[i]] += span->fILength - 3;
totTris += span->fILength / 3;
}
if( totTris == 0 )
{
plProfile_EndLap(FaceSort, "0");
return;
}
plProfile_IncCount(FacesSorted, totTris);
sortScratch.SetCount(totTris);
triList.SetCount(3 * totTris);
hsRadixSort::Elem* elem = sortScratch.AcquireArray();
plProfile_EndLap(FaceSort, "0");
plProfile_BeginLap(FaceSort, "1");
// Pack them into the sort structure. We probably want to make the
// plGBufferTriangle look like plTriSortData (just add span index)
// which would get rid of this copy and help the data alignment.
// Oops, I already did.
int cnt = 0;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
int nTris = span->fILength / 3;
hsPoint3 viewPos = span->fWorldToLocal * pipe->GetViewPositionWorld();
plGBufferTriangle* list = span->fSortData;
int j;
for( j = 0; j < nTris; j++ )
{
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float dist = -(viewPos - list[j].fCenter).MagnitudeSquared();
Fix line endings and tabs
14 years ago
elem[cnt].fKey.fFloat = dist;
elem[cnt].fBody = &list[j];
elem[cnt].fNext = elem + cnt + 1;
cnt++;
}
}
elem[cnt-1].fNext = nil;
plProfile_EndLap(FaceSort, "1");
plProfile_BeginLap(FaceSort, "2");
// Actual sort
hsRadixSort rad;
hsRadixSort::Elem* sortedList = rad.Sort( elem, 0 );
plProfile_EndLap(FaceSort, "2");
plProfile_BeginLap(FaceSort, "3");
counters.SetCountAndZero(fSpans.GetCount());
while( sortedList )
{
plGBufferTriangle* data = (plGBufferTriangle*)sortedList->fBody;
plIcicle* span = (plIcicle*)fSpans[data->fSpanIndex];
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint16_t* idx = &triList[startIndex[data->fSpanIndex] + counters[data->fSpanIndex]];
Fix line endings and tabs
14 years ago
*idx++ = data->fIndex1;
*idx++ = data->fIndex2;
*idx++ = data->fIndex3;
if( span->fProps & plSpan::kPropReverseSort )
counters[data->fSpanIndex] -= 3;
else
counters[data->fSpanIndex] += 3;
sortedList = sortedList->fNext;
}
plProfile_EndLap(FaceSort, "3");
plProfile_BeginLap(FaceSort, "4");
const int kMaxBufferGroups = 20;
const int kMaxIndexBuffers = 20;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
static int16_t newStarts[kMaxBufferGroups][kMaxIndexBuffers];
Fix line endings and tabs
14 years ago
// Temp hack stuff so we can switch back and forth (to see if it really does any good).
static int oldWay = false;
static int lastOldWay = oldWay;
if( oldWay != lastOldWay )
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
memset(newStarts, 0, kMaxBufferGroups * kMaxIndexBuffers * sizeof(int16_t));
Fix line endings and tabs
14 years ago
for( i = 0; i < fSpans.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[i];
span->fPackedIdx = span->fIStartIdx = newStarts[span->fGroupIdx][span->fIBufferIdx];
newStarts[span->fGroupIdx][span->fIBufferIdx] += span->fILength;
}
lastOldWay = oldWay;
}
if( oldWay )
{
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
/// Now send them on to the buffer group
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
span->fILength / 3, triList.AcquireArray() + startIndex[visList[i]]);
}
}
else
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
memset(newStarts, 0, kMaxBufferGroups * kMaxIndexBuffers * sizeof(int16_t));
Fix line endings and tabs
14 years ago
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t start = 0;
Fix line endings and tabs
14 years ago
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
/// Now send them on to the buffer group
span->fPackedIdx = span->fIStartIdx = newStarts[span->fGroupIdx][span->fIBufferIdx];
newStarts[span->fGroupIdx][span->fIBufferIdx] += span->fILength;
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
span->fILength / 3, triList.AcquireArray() + startIndex[visList[i]]);
}
}
plProfile_EndLap(FaceSort, "4");
fReadyToRender = false;
return;
#else // MF_CHUNKSORT
plProfile_Inc(FaceSortCalls);
if( !visList.GetCount() )
return;
plProfile_BeginTiming(FaceSort);
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
static std::vector<hsRadixSort::Elem> sortScratch;
static std::vector<uint16_t> triList;
static std::vector<int32_t> counters;
static std::vector<uint32_t> startIndex;
Fix line endings and tabs
14 years ago
int i;
if( pipe->IsDebugFlagSet( plPipeDbg::kFlagDontSortFaces ) )
{
/// Don't sort, just send unchanged
int j, idx;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
ICheckSpanForSortable(visList[i]);
/// Build a fake list of indices....
plGBufferTriangle* list = span->fSortData;
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
triList.resize(span->fILength);
Fix line endings and tabs
14 years ago
for( j = 0, idx = 0; j < span->fILength / 3; j++, idx += 3 )
{
triList[ idx ] = list[ j ].fIndex1;
triList[ idx + 1 ] = list[ j ].fIndex2;
triList[ idx + 2 ] = list[ j ].fIndex3;
}
/// Now send them on to the buffer group
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
span->fILength / 3, triList.data() );
Fix line endings and tabs
14 years ago
}
fReadyToRender = false;
return;
}
plProfile_EndTiming(FaceSort);
plProfile_BeginLap(FaceSort, "0");
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
startIndex.resize(fSpans.GetCount());
Fix line endings and tabs
14 years ago
// First figure out the total number of tris to deal with.
int totTris = 0;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
ICheckSpanForSortable(visList[i]);
startIndex[visList[i]] = totTris * 3;
if( span->fProps & plSpan::kPropReverseSort )
startIndex[visList[i]] += span->fILength - 3;
totTris += span->fILength / 3;
}
if( totTris == 0 )
{
plProfile_EndLap(FaceSort, "0");
return;
}
plProfile_IncCount(FacesSorted, totTris);
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
sortScratch.resize(totTris);
triList.resize(3 * totTris);
Fix line endings and tabs
14 years ago
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
hsRadixSort::Elem* elem = sortScratch.data();
Fix line endings and tabs
14 years ago
plProfile_EndLap(FaceSort, "0");
int iVis = 0;
while( iVis < visList.GetCount() )
{
plProfile_BeginLap(FaceSort, "1");
// Pack them into the sort structure. We probably want to make the
// plGBufferTriangle look like plTriSortData (just add span index)
// which would get rid of this copy and help the data alignment.
// Oops, I already did.
const int kTriCutoff = 4000;
int cnt = 0;
while( (iVis < visList.GetCount()) && (cnt < kTriCutoff) )
{
plIcicle* span = (plIcicle*)fSpans[visList[iVis]];
int nTris = span->fILength / 3;
hsPoint3 viewPos = span->fWorldToLocal * pipe->GetViewPositionWorld();
plGBufferTriangle* list = span->fSortData;
int j;
for( j = 0; j < nTris; j++ )
{
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float dist = -(viewPos - list[j].fCenter).MagnitudeSquared();
Fix line endings and tabs
14 years ago
elem[cnt].fKey.fFloat = dist;
elem[cnt].fBody = &list[j];
elem[cnt].fNext = elem + cnt + 1;
cnt++;
}
iVis++;
}
elem[cnt-1].fNext = nil;
plProfile_EndLap(FaceSort, "1");
plProfile_BeginLap(FaceSort, "2");
// Actual sort
hsRadixSort rad;
hsRadixSort::Elem* sortedList = rad.Sort( elem, 0 );
plProfile_EndLap(FaceSort, "2");
plProfile_BeginLap(FaceSort, "3");
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
counters.assign(fSpans.GetCount(), 0);
Fix line endings and tabs
14 years ago
while( sortedList )
{
plGBufferTriangle* data = (plGBufferTriangle*)sortedList->fBody;
plIcicle* span = (plIcicle*)fSpans[data->fSpanIndex];
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint16_t* idx = &triList[startIndex[data->fSpanIndex] + counters[data->fSpanIndex]];
Fix line endings and tabs
14 years ago
*idx++ = data->fIndex1;
*idx++ = data->fIndex2;
*idx++ = data->fIndex3;
if( span->fProps & plSpan::kPropReverseSort )
counters[data->fSpanIndex] -= 3;
else
counters[data->fSpanIndex] += 3;
sortedList = sortedList->fNext;
}
plProfile_EndLap(FaceSort, "3");
}
plProfile_BeginLap(FaceSort, "4");
const int kMaxBufferGroups = 20;
const int kMaxIndexBuffers = 20;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
static int16_t newStarts[kMaxBufferGroups][kMaxIndexBuffers];
Fix line endings and tabs
14 years ago
hsAssert(kMaxBufferGroups >= GetNumBufferGroups(), "Bigger than we counted on num groups sort.");
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
memset(newStarts, 0, kMaxBufferGroups * kMaxIndexBuffers * sizeof(int16_t));
Fix line endings and tabs
14 years ago
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
hsAssert(kMaxIndexBuffers > span->fIBufferIdx, "Bigger than we counted on num buffers sort.");
if( span->fProps & plSpan::kPropReverseSort )
startIndex[visList[i]] -= span->fILength - 3;
/// Now send them on to the buffer group
span->fIPackedIdx = span->fIStartIdx = newStarts[span->fGroupIdx][span->fIBufferIdx];
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
newStarts[span->fGroupIdx][span->fIBufferIdx] += (int16_t)(span->fILength);
Fix line endings and tabs
14 years ago
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
Replace hsArrays in SortVisibleSpans() with STL vectors This seems to fix occasional crashes encountered on TOC.
10 years ago
span->fILength / 3, triList.data() + startIndex[visList[i]]);
Fix line endings and tabs
14 years ago
}
plProfile_EndLap(FaceSort, "4");
fReadyToRender = false;
#endif // MF_CHUNKSORT
}
struct buffTriCmpBackToFront : public std::binary_function<plGBufferTriangle, plGBufferTriangle, bool>
{
hsPoint3 fViewPos;
buffTriCmpBackToFront(const hsPoint3& p) : fViewPos(p) {}
bool operator()( const plGBufferTriangle& lhs, const plGBufferTriangle& rhs) const
{
return hsVector3(&fViewPos, &lhs.fCenter).MagnitudeSquared() > hsVector3(&fViewPos, &rhs.fCenter).MagnitudeSquared();
}
};
struct buffTriCmpFrontToBack : public std::binary_function<plGBufferTriangle, plGBufferTriangle, bool>
{
hsPoint3 fViewPos;
buffTriCmpFrontToBack(const hsPoint3& p) : fViewPos(p) {}
bool operator()( const plGBufferTriangle& lhs, const plGBufferTriangle& rhs) const
{
return hsVector3(&fViewPos, &lhs.fCenter).MagnitudeSquared() < hsVector3(&fViewPos, &rhs.fCenter).MagnitudeSquared();
}
};
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::SortVisibleSpansPartial(const hsTArray<int16_t>& visList, plPipeline* pipe)
Fix line endings and tabs
14 years ago
{
plProfile_Inc(FaceSortCalls);
plProfile_BeginTiming(FaceSort);
int i;
for( i = 0; i < visList.GetCount(); i++ )
{
hsAssert(fSpans[visList[i]]->fTypeMask & plSpan::kIcicleSpan, "Unknown type for sorting faces");
plIcicle* span = (plIcicle*)fSpans[visList[i]];
if( span->fProps & plSpan::kPartialSort )
{
hsAssert(fGroups[span->fGroupIdx]->AreIdxVolatile(), "Badly setup buffer group - set PartialSort too late?");
ICheckSpanForSortable(visList[i]);
const hsPoint3 viewPos = span->fWorldToLocal * pipe->GetViewPositionWorld();
const int numTris = span->fILength/3;
std::sort(span->fSortData, span->fSortData+numTris, buffTriCmpBackToFront(viewPos));
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint16_t* idx = fGroups[span->fGroupIdx]->GetIndexBufferData(span->fIBufferIdx) + span->fIStartIdx;
Fix line endings and tabs
14 years ago
plGBufferTriangle* iter = span->fSortData;
int j;
for( j = 0; j < numTris; j++ )
{
*idx++ = iter->fIndex1;
*idx++ = iter->fIndex2;
*idx++ = iter->fIndex3;
iter++;
}
fGroups[span->fGroupIdx]->DirtyIndexBuffer(span->fIBufferIdx);
fReadyToRender = false;
}
}
plProfile_EndTiming(FaceSort);
}
#if 0
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::SortVisibleSpansUnit(const hsTArray<int16_t>& visList, plPipeline* pipe)
Fix line endings and tabs
14 years ago
{
plProfile_Inc(FaceSortCalls);
if( !visList.GetCount() )
return;
plProfile_BeginTiming(FaceSort);
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
static hsLargeArray<uint16_t> triList;
Fix line endings and tabs
14 years ago
int i;
if( pipe->IsDebugFlagSet( plPipeDbg::kFlagDontSortFaces ) )
{
/// Don't sort, just send unchanged
int j, idx;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
ICheckSpanForSortable(visList[i]);
/// Build a fake list of indices....
plGBufferTriangle* list = span->fSortData;
triList.SetCount( span->fILength );
for( j = 0, idx = 0; j < span->fILength / 3; j++, idx += 3 )
{
triList[ idx ] = list[ j ].fIndex1;
triList[ idx + 1 ] = list[ j ].fIndex2;
triList[ idx + 2 ] = list[ j ].fIndex3;
}
/// Now send them on to the buffer group
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
span->fILength / 3, triList.AcquireArray() );
}
fReadyToRender = false;
return;
}
plProfile_EndTiming(FaceSort);
plProfile_BeginLap(FaceSort, "0");
struct sortFace
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint16_t fIndex0;
uint16_t fIndex1;
uint16_t fIndex2;
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float fDist;
Fix line endings and tabs
14 years ago
};
static hsLargeArray<sortFace> sortList;
struct SelectCloserFace
{
bool operator()(const sortFace* face0, const sortFace* face1) const
{
return face0->fDist < face1->fDist;
}
};
hsPoint3 viewPos = fSpans[visList[0]]->fWorldToLocal * pipe->GetViewPositionWorld();
Eliminate hsScalar and hsFixed Modern CPUs support floats just fine... hsFixed was crazy.
13 years ago
float dist1 = (fViewPos - face1->fCenter).MagnitudeSquared();
Fix line endings and tabs
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// First figure out the total number of tris to deal with.
sortList.SetCount(0);
int totTris = 0;
for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
int nTris = span->fILength / 3;
sortList.Expand(sortList.GetCount() + nTris);
plGBufferTriangle* sortData = span->fSortData;
for( j = 0; j < nTris; j++ )
{
sortList.Append(*sortData++);
}
totTris += nTris;
}
if( totTris == 0 )
{
plProfile_EndLap(FaceSort, "0");
return;
}
plProfile_IncCount(FacesSorted, totTris);
sortFace* pBegin = sortList.AcquireArray();
sortFace* pEnd = pBegin + totTris;
stl::sort(pBegin, pEnd, SelectCloserFace);
triList.SetCount(sortList.GetCount());
Convert custom HeadSpin integer types to standard types from stdint.h
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uint16_t* pTri = triList.AcquireArray();
Fix line endings and tabs
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while( pBegin < pEnd )
{
*pTri = pBegin->fIndex1;
pTri++;
*pTri = pBegin->fIndex2;
pTri++;
*pTri = pBegin->fIndex3;
pTri++;
}
plProfile_EndLap(FaceSort, "0");
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t start = 0;
Fix line endings and tabs
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for( i = 0; i < visList.GetCount(); i++ )
{
plIcicle* span = (plIcicle*)fSpans[visList[i]];
/// Now send them on to the buffer group
span->fIPackedIdx = span->fIStartIdx = newStarts[span->fGroupIdx][span->fIBufferIdx];
newStarts[span->fGroupIdx][span->fIBufferIdx] += span->fILength;
fGroups[ span->fGroupIdx ]->StuffFromTriList( span->fIBufferIdx, span->fIStartIdx,
span->fILength / 3, triList.AcquireArray() + startIndex[visList[i]]);
}
plProfile_EndLap(FaceSort, "4");
fReadyToRender = false;
}
#endif
void plDrawableSpans::SetInitialBone(int i, const hsMatrix44& l2b, const hsMatrix44& b2l)
{
fLocalToBones[ i ] = l2b;
fBoneToLocals[ i ] = b2l;
}
//// AppendDIMatrixSpans ///////////////////////////////////////////////////////////
// Adds a di span which will only reference into the matrix palette. That is,
// these indices won't index into any drawable data, they will only index into
// the same matrix list that the drawable data itself can index into. When
// an object (through its DrawInterface) sets a transform, it doesn't know
// whether it's setting the transform for some drawable data it owns, or just
// setting one of the matrices which influence the drawable data someone else
// owns.
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t plDrawableSpans::AppendDIMatrixSpans(int n)
Fix line endings and tabs
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{
/// Do garbage cleanup first
if( fNeedCleanup )
IRemoveGarbage();
Convert hsMatrix44 hsTArrays to std::vectors
12 years ago
uint32_t baseIdx = fLocalToWorlds.size();
fLocalToWorlds.resize(baseIdx + n);
fWorldToLocals.resize(baseIdx + n);
Fix line endings and tabs
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Convert hsMatrix44 hsTArrays to std::vectors
12 years ago
fLocalToBones.resize(baseIdx + n);
fBoneToLocals.resize(baseIdx + n);
Fix line endings and tabs
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int i;
for( i = baseIdx; i < baseIdx + n; i++ )
{
fLocalToWorlds[i].Reset();
fWorldToLocals[i].Reset();
fLocalToBones[i].Reset();
fBoneToLocals[i].Reset();
}
return baseIdx;
}
// Look for a compatible set of palette matrices. Compatible means:
// a) Same number bones
// b) Same LocalToBones matrices (which implies same BoneToLocal matrices.
// Note that the LocalToBone transform is dependent on both the bone's transform
// and the transform of the object being skinned. In general, objects can only
// share a palette set if they have been flattened into world space (the object's
// transform is identity). Fortunately, this is a common case.
Obliterate hsBool
12 years ago
uint32_t plDrawableSpans::FindBoneBaseMatrix(const hsTArray<hsMatrix44>& initL2B, bool searchAll) const
Fix line endings and tabs
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{
if (!searchAll)
{
// Just look amongst the added spans for a matching set
int i;
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[i] && (initL2B.GetCount() == fSpans[i]->fNumMatrices) )
{
int j;
for( j = 0; j < initL2B.GetCount(); j++ )
{
if( initL2B[j] != fLocalToBones[j + fSpans[i]->fBaseMatrix] )
break;
}
if( initL2B.GetCount() == j )
return fSpans[i]->fBaseMatrix;
}
}
}
else
{
// Since swappable geometry spans aren't added to the drawable until
// runtime, a sharable bone pallete won't be found by scanning fSpans.
// We have to do a larger search through all bone matrices.
int i;
Convert hsMatrix44 hsTArrays to std::vectors
12 years ago
for( i = 0; i + initL2B.GetCount() < fLocalToBones.size(); i++ )
Fix line endings and tabs
14 years ago
{
int j;
for( j = 0; j < initL2B.GetCount(); j++ )
{
if( initL2B[j] != fLocalToBones[j + i] )
break;
}
if( initL2B.GetCount() == j )
return i;
}
}
Convert custom HeadSpin integer types to standard types from stdint.h
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return uint32_t(-1);
Fix line endings and tabs
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}
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t plDrawableSpans::NewDIMatrixIndex()
Fix line endings and tabs
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{
int index;
/// Do we have a free lookup entry?
for( index = 0; index < fDIIndices.GetCount(); index++ )
{
if( !fDIIndices[ index ]->GetCount() )
break;
}
if( index == fDIIndices.GetCount() )
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
fDIIndices.Append( new plDISpanIndex );
Fix line endings and tabs
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fDIIndices[index]->Reset();
fDIIndices[index]->fFlags = plDISpanIndex::kMatrixOnly;
return index;
}
//// IFindDIIndices //////////////////////////////////////////////////////////
// Finds the given DIIndices array and returns a pointer to it, or creates
// a new one if requested
Convert custom HeadSpin integer types to standard types from stdint.h
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plDISpanIndex *plDrawableSpans::IFindDIIndices( uint32_t &index )
Fix line endings and tabs
14 years ago
{
plDISpanIndex *spanLookup;
/// Do we have a free lookup entry?
Convert custom HeadSpin integer types to standard types from stdint.h
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if( index == (uint32_t)-1 ) // new index
Fix line endings and tabs
14 years ago
{
for( index = 0; index < fDIIndices.GetCount(); index++ )
{
if( fDIIndices[ index ]->GetCount() == 0 )
break;
}
if( index == fDIIndices.GetCount() )
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
fDIIndices.Append( new plDISpanIndex );
Fix line endings and tabs
14 years ago
spanLookup = fDIIndices[ index ];
spanLookup->fFlags = plDISpanIndex::kNone;
}
else
spanLookup = fDIIndices[ index ]; // Just grab the one we requested
return spanLookup;
}
//// AppendDISpans ///////////////////////////////////////////////////////////
// Given a set of DI spans, appends them to the current storage buffers.
// Note: AddDISpans() adds the spans to a list to be sorted, THEN put into
// the buffers; this shoves them right in, bypassing the sorting altogether.
Obliterate hsBool
12 years ago
uint32_t plDrawableSpans::AppendDISpans( hsTArray<plGeometrySpan *> &spans, uint32_t index, bool clearSpansAfterAdd,
bool doNotAddToSource, bool addToFront, int lod)
Fix line endings and tabs
14 years ago
{
hsAssert(spans.GetCount(), "Adding no spans? Blow me.");
int i, j;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t spanIdx;
Fix line endings and tabs
14 years ago
plSpan *span;
hsBounds3Ext bounds;
plDISpanIndex *spanLookup;
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t numAddedIcicle = 0;
Fix line endings and tabs
14 years ago
// hsAssert( fProps & kPropVolatile, "Trying to add spans on a non-volatile drawable" );
/// Do garbage cleanup first
if( fNeedCleanup )
IRemoveGarbage();
spanLookup = IFindDIIndices( index );
if( GetNativeProperty(plDrawable::kPropCharacter) )
fVisSet.SetBit(plVisMgr::kCharacter, true);
int insertionPoint = 0;
if( spans[0]->fProps & plGeometrySpan::kPartialSort )
{
insertionPoint = fSpans.GetCount();
}
else if( !addToFront )
{
int idx;
for( idx = 0; (idx < fSpans.GetCount()) && !(fSpans[idx]->fProps & plSpan::kPartialSort); idx++ )
{
}
insertionPoint = idx;
}
Obliterate hsBool
12 years ago
bool inserted = insertionPoint < fSpans.GetCount();
Fix line endings and tabs
14 years ago
/// Add the geometry spans to our list. Also add our internal span
/// copies
for( i = 0; i < spans.GetCount(); i++ )
{
spanIdx = fIcicles.GetCount();
fIcicles.Append( plIcicle() );
plIcicle *icicle = &fIcicles[ spanIdx ];
IConvertGeoSpanToIcicle( spans[ i ], icicle, lod );
span = (plSpan *)icicle;
numAddedIcicle++;
/// Add to our source indices
spans[ i ]->fSpanRefIndex = insertionPoint+i;
spanLookup->Append( spans[ i ]->fSpanRefIndex );
fSpans.Insert( spans[ i ]->fSpanRefIndex, span );
fSpanSourceIndices.Insert( spans[ i ]->fSpanRefIndex, spanIdx );
if( GetNativeProperty(plDrawable::kPropCharacter) )
span->SetVisBit(plVisMgr::kCharacter, true);
/// Add the material to our list if necessary
IAssignMatIdxToSpan( span, spans[ i ]->fMaterial );
if( clearSpansAfterAdd )
{
delete spans[ i ];
spans[ i ] = nil;
}
else if( !doNotAddToSource )
{
if( fSourceSpans.GetCount() < fSpans.GetCount() )
{
fSourceSpans.Expand( fSpans.GetCount() );
// Since that does not change the use count, we still have to do that ourselves. ARGH!
fSourceSpans.SetCount( fSpans.GetCount() );
}
fSourceSpans[ spans[ i ]->fSpanRefIndex ] = spans[ i ];
}
if( fProps & kPropSortFaces )
{
// Should add sort data too...
IMakeSpanSortable( fSpans.GetCount() - 1 );
}
}
if (inserted)
{
/// Go adjusting indices in the DI index list
for( i = 0; i < fDIIndices.GetCount(); i++ )
{
if( !fDIIndices[ i ]->IsMatrixOnly() )
{
if (fDIIndices[ i ] == spanLookup)
continue;
for( j = 0; j < fDIIndices[ i ]->GetCount(); j++ )
{
if( (*fDIIndices[i])[j] >= insertionPoint )
{
(*fDIIndices[ i ])[ j ] += spans.GetCount();
hsAssert((*fDIIndices[ i ])[ j ] < fSpans.GetCount(), "Span index snafu");
}
}
}
}
}
// Update fLocalBounds, since we were updating the world bounds
fLocalBounds = fWorldBounds;
fLocalBounds.Transform( &fWorldToLocal );
fMaxWorldBounds = fWorldBounds;
/// Rebuild the pointer array
IRebuildSpanArray();
fReadyToRender = false;
return index;
}
//// IAddAMaterial ///////////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t plDrawableSpans::IAddAMaterial( hsGMaterial *material )
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t i;
Fix line endings and tabs
14 years ago
// Scan for if we already have it
for( i = 0; i < fMaterials.GetCount(); i++ )
{
if( fMaterials[ i ] == material )
return i;
}
// Scan again for a blank space to add into, if possible
for( i = 0; i < fMaterials.GetCount(); i++ )
{
if( fMaterials[ i ] == nil )
{
fMaterials[ i ] = material;
IRefMaterial( i );
return i;
}
}
// Add in to the end
i = fMaterials.GetCount();
fMaterials.Append( material );
// Plus ref it
IRefMaterial( i );
return i;
}
//// IRefMaterial ////////////////////////////////////////////////////////////
// Called if we already have a material index that we just want to use
// again...
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t plDrawableSpans::IRefMaterial( uint32_t index )
Fix line endings and tabs
14 years ago
{
hsGMaterial *material = fMaterials[ index ];
if( GetKey() && material != nil && material->GetKey() != nil )
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
hsgResMgr::ResMgr()->AddViaNotify( material->GetKey(), new plGenRefMsg( GetKey(), plRefMsg::kOnCreate, index, 0 ), plRefFlags::kActiveRef );
Fix line endings and tabs
14 years ago
return index;
}
//// ICheckToRemoveMaterial //////////////////////////////////////////////////
// Runs through the span array to see if the given material index is still
// used. If not, Release()s it and nil's it.
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::ICheckToRemoveMaterial( uint32_t materialIdx )
Fix line endings and tabs
14 years ago
{
int j;
hsGMaterial *mat;
for( j = 0; j < fSpans.GetCount(); j++ )
{
if( fSpans[ j ]->fMaterialIdx == materialIdx )
break;
}
if( j == fSpans.GetCount() )
{
/// No longer used--Release() it
mat = fMaterials[ materialIdx ];
if( GetKey() && mat != nil && mat->GetKey() != nil )
GetKey()->Release( mat->GetKey() );
fMaterials[ materialIdx ] = nil;
}
}
//// IConvertGeoSpanToVertexSpan /////////////////////////////////////////////
// Helper function for the two vertex-based convert functions.
Obliterate hsBool
12 years ago
bool plDrawableSpans::IConvertGeoSpanToVertexSpan( plGeometrySpan *geoSpan, plVertexSpan *span, int lod, plVertexSpan *instancedParent)
Fix line endings and tabs
14 years ago
{
hsBounds3Ext bounds;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint8_t groupIdx;
uint32_t vbIndex, cellIdx, cellOffset;
Fix line endings and tabs
14 years ago
span->fLocalToWorld = geoSpan->fLocalToWorld;
span->fWorldToLocal = geoSpan->fWorldToLocal;
span->fProps |= ( geoSpan->fProps & plGeometrySpan::kPropRunTimeLight ) ? plSpan::kPropRunTimeLight : 0;
if( geoSpan->fProps & plGeometrySpan::kPropNoShadowCast )
span->fProps |= plSpan::kPropNoShadowCast;
if( geoSpan->fProps & plGeometrySpan::kPropNoShadow )
span->fProps |= plSpan::kPropNoShadow;
if( geoSpan->fProps & plGeometrySpan::kPropForceShadow )
span->fProps |= plSpan::kPropForceShadow;
if( geoSpan->fProps & plGeometrySpan::kPropReverseSort )
span->fProps |= plSpan::kPropReverseSort;
if( geoSpan->fProps & plGeometrySpan::kPartialSort )
span->fProps |= plSpan::kPartialSort;
switch( geoSpan->fProps & plGeometrySpan::kLiteMask )
{
case plGeometrySpan::kLiteMaterial: span->fProps |= plSpan::kLiteMaterial; break;
case plGeometrySpan::kLiteVtxPreshaded: span->fProps |= plSpan::kLiteVtxPreshaded; break;
case plGeometrySpan::kLiteVtxNonPreshaded: span->fProps |= plSpan::kLiteVtxNonPreshaded; break;
}
if( geoSpan->fProps & plGeometrySpan::kWaterHeight )
{
span->fProps |= plSpan::kWaterHeight;
span->fWaterHeight = geoSpan->fWaterHeight;
}
if( geoSpan->fProps & plGeometrySpan::kVisLOS )
{
span->fProps |= plSpan::kVisLOS;
fProps |= plDrawable::kPropHasVisLOS;
}
span->fNumMatrices = geoSpan->fNumMatrices;
span->fBaseMatrix = geoSpan->fBaseMatrix;
span->fLocalUVWChans = geoSpan->fLocalUVWChans;
span->fMaxBoneIdx = geoSpan->fMaxBoneIdx;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
span->fPenBoneIdx = (uint16_t)(geoSpan->fPenBoneIdx);
Fix line endings and tabs
14 years ago
span->fMinDist = geoSpan->fMinDist;
span->fMaxDist = geoSpan->fMaxDist;
bounds = geoSpan->fLocalBounds;
span->fLocalBounds = bounds;
bounds.Transform( &span->fLocalToWorld );
span->fWorldBounds = bounds;
fWorldBounds.Union( &bounds );
span->fFogEnvironment = geoSpan->fFogEnviron;
Obliterate hsBool
12 years ago
bool vertsVol = false;
Fix line endings and tabs
14 years ago
if( fProps & kPropVolatile )
vertsVol = true;
Obliterate hsBool
12 years ago
bool idxVol = false;
Fix line endings and tabs
14 years ago
if( fProps & kPropSortFaces )
idxVol = true;
if( geoSpan->fProps & plGeometrySpan::kPartialSort )
idxVol = true;
// Are we instanced?
if( instancedParent != nil /*&& !( fProps & kPropVolatile )*/ )
{
/// We can instance w/o vert data IF 1) we're not the first span, 2) we can fit into the same buffer group, and
/// 3) we can fit into the same vertex buffer in the buffer group
if( instancedParent != span && ( geoSpan->fProps & plGeometrySpan::kPropNoPreShade ) )
{
/// WOW! We can actually share the *exact* same data, since we don't do any preshading. Coooooool!
span->fGroupIdx = instancedParent->fGroupIdx;
span->fVBufferIdx = instancedParent->fVBufferIdx;
span->fVStartIdx = instancedParent->fVStartIdx;
cellIdx = instancedParent->fCellIdx;
cellOffset = instancedParent->fCellOffset;
}
else if( instancedParent != span &&
( IFindBufferGroup( geoSpan->fFormat, geoSpan->fNumVerts, lod, vertsVol, idxVol ) == instancedParent->fGroupIdx ) &&
fGroups[ instancedParent->fGroupIdx ]->GetNumVertsLeft( instancedParent->fVBufferIdx ) >= geoSpan->fNumVerts )
{
/// Boooring....
/// Append the colors, but the vertices themselves we don't use, rather we point
/// to our parent's verts (or rather, the cell will take care of that for us)
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
groupIdx = (uint8_t)(instancedParent->fGroupIdx);
Fix line endings and tabs
14 years ago
fGroups[ groupIdx ]->AppendToColorStorage( geoSpan, &vbIndex, &cellIdx, &cellOffset, instancedParent->fCellIdx );
span->fGroupIdx = groupIdx;
span->fVBufferIdx = instancedParent->fVBufferIdx;
// Do a new vStart here, since it's really the colorStart, but oh well
span->fVStartIdx = fGroups[ groupIdx ]->GetVertStartFromCell( vbIndex, cellIdx, cellOffset );
}
else
{
/// WE'RE the parent?? This means we're the first to get converted
groupIdx = IFindBufferGroup( geoSpan->fFormat, geoSpan->fNumVerts, lod, vertsVol, idxVol );
fGroups[ groupIdx ]->AppendToVertAndColorStorage( geoSpan, &vbIndex, &cellIdx, &cellOffset );
span->fGroupIdx = groupIdx;
span->fVBufferIdx = vbIndex;
span->fVStartIdx = fGroups[ groupIdx ]->GetVertStartFromCell( vbIndex, cellIdx, cellOffset );
geoSpan->fProps |= plGeometrySpan::kFirstInstance;
}
}
else
{
// Pack the vertices in
groupIdx = IFindBufferGroup( geoSpan->fFormat, geoSpan->fNumVerts, lod, vertsVol, idxVol );
fGroups[ groupIdx ]->AppendToVertStorage( geoSpan, &vbIndex, &cellIdx, &cellOffset );
span->fGroupIdx = groupIdx;
span->fVBufferIdx = vbIndex;
span->fVStartIdx = fGroups[ groupIdx ]->GetVertStartFromCell( vbIndex, cellIdx, cellOffset );
geoSpan->fProps |= plGeometrySpan::kFirstInstance;
}
span->fCellIdx = cellIdx;
span->fCellOffset = cellOffset;
span->fVLength = geoSpan->fNumVerts;
/// Add the material to our list if necessary
span->fMaterialIdx = IAddAMaterial( geoSpan->fMaterial );
return true;
}
//// IConvertGeoSpanToIcicle /////////////////////////////////////////////////
Obliterate hsBool
12 years ago
bool plDrawableSpans::IConvertGeoSpanToIcicle(plGeometrySpan *geoSpan, plIcicle *icicle, int lod, plIcicle *instancedParent)
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t ibIndex, ibStart;
Fix line endings and tabs
14 years ago
IConvertGeoSpanToVertexSpan(geoSpan, icicle, lod, instancedParent);
/*
Disabling this 8.16.2001. Works great until you have to SORT the faces, then things blow up. We could
do this only when we won't sort faces, but it's easier right now to just never do this ever.
if( instancedParent != nil && instancedParent != icicle && ( icicle->fProps & plSpan::kPropRunTimeLight ) )
{
/// WOW! We can actually share the *exact* same data, since we don't do any preshading. Coooooool!
icicle->fIBufferIdx = instancedParent->fIBufferIdx;
icicle->fIStartIdx = instancedParent->fIStartIdx;
icicle->fILength = instancedParent->fILength;
icicle->fSortData = nil;
}
else
*/
{
// Pack the indices in (automagically offsets by the start we give it)
fGroups[ icicle->fGroupIdx ]->AppendToIndexStorage( geoSpan->fNumIndices, geoSpan->fIndexData,
icicle->fVStartIdx, &ibIndex, &ibStart );
icicle->fIBufferIdx = ibIndex;
icicle->fIPackedIdx = icicle->fIStartIdx = ibStart;
icicle->fILength = geoSpan->fNumIndices;
icicle->fSortData = nil;
}
return true;
}
//// RemoveDIMatrixSpans
// Nuke out a matrix only DI index set someone doesn't need anymore (cuz they're dead).
// Since there's no data associated, there's not much to do, except mark the slot as
// free and that some cleanup is in order some time.
Convert custom HeadSpin integer types to standard types from stdint.h
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void plDrawableSpans::RemoveDIMatrixSpans( uint32_t index )
Fix line endings and tabs
14 years ago
{
plDISpanIndex* spanIndices = fDIIndices[ index ];
if( !spanIndices->IsMatrixOnly() )
return;
/// Flag that we need garbage cleanup now
fNeedCleanup = true;
fReadyToRender = false;
spanIndices->Reset();
}
//// RemoveDISpans ///////////////////////////////////////////////////////////
// Given a drawInterface index (i.e. the index into fDIIndices), deletes
// the spans associated with that entry and clears the entry. Also packs
// the spans, deletes the verts/indices associated with the deleted spans
// and packs the vertex/index buffers as well.
Convert custom HeadSpin integer types to standard types from stdint.h
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void plDrawableSpans::RemoveDISpans( uint32_t index )
Fix line endings and tabs
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{
plDISpanIndex *spanIndices = fDIIndices[ index ];
if( spanIndices->IsMatrixOnly() )
{
RemoveDIMatrixSpans( index );
}
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t i, j, k, idxRemoving, materialIdx;
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14 years ago
// #define MF_RENDDEP
#ifdef MF_RENDDEP
Convert custom HeadSpin integer types to standard types from stdint.h
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hsTArray<uint32_t> spanInverseTable;
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spanInverseTable.SetCount(fSpans.GetCount());
for( i = 0; i < fSpans.GetCount(); i++ )
spanInverseTable[i] = i;
#endif // MF_RENDDEP
// hsAssert( fProps & kPropVolatile, "Trying to remove spans on a non-volatile drawable" );
hsAssert( spanIndices->GetCount() > 0, "If there are no DI spans, why were we called?" );
/// Delete the actual spans themselves
for( i = 0; i < spanIndices->GetCount(); i++ )
{
/// If this is the last use of this material, Release() it
materialIdx = fSpans[ (*spanIndices)[ i ] ]->fMaterialIdx;
/// Remove the source index and the object itself
if( fSourceSpans.GetCount() && !( fSpans[ (*spanIndices)[ i ] ]->fTypeMask & plSpan::kParticleSpan ) )
{
delete fSourceSpans[ (*spanIndices)[i] ];
fSourceSpans.Remove( (*spanIndices)[i] );
for( j = (*spanIndices)[ i ]; j < fSourceSpans.GetCount(); j++ )
fSourceSpans[ j ]->fSpanRefIndex = j;
}
fSpans[ (*spanIndices)[ i ] ]->Destroy();
fSpans.Remove( (*spanIndices)[ i ] );
idxRemoving = fSpanSourceIndices[ (*spanIndices)[ i ] ];
fSpanSourceIndices.Remove( (*spanIndices)[ i ] );
switch( idxRemoving & kSpanTypeMask )
{
case kSpanTypeIcicle: fIcicles.Remove( idxRemoving & kSpanIDMask ); break;
case kSpanTypeParticleSpan: fParticleSpans.Remove( idxRemoving & kSpanIDMask ); break;
}
// Do this AFTER the span array has been updated
ICheckToRemoveMaterial( materialIdx );
/// Go adjusting the source indices
for( j = 0; j < fSpanSourceIndices.GetCount(); j++ )
{
if( ( ( fSpanSourceIndices[ j ] ^ idxRemoving ) & kSpanTypeMask ) == 0 )
{
/// Same type
k = fSpanSourceIndices[ j ] & kSpanIDMask;
if( k > ( idxRemoving & kSpanIDMask ) )
{
k--;
fSpanSourceIndices[ j ] &= kSpanTypeMask;
fSpanSourceIndices[ j ] |= k;
}
}
}
#ifndef MF_RENDDEP
/// Go adjusting indices in the DI index list
for( j = 0; j < fDIIndices.GetCount(); j++ )
{
if( !fDIIndices[ j ]->IsMatrixOnly() )
{
for( k = 0; k < fDIIndices[ j ]->GetCount(); k++ )
{
if( (*fDIIndices[ j ])[ k ] > (*spanIndices)[ i ] )
(*fDIIndices[ j ])[ k ]--;
}
}
}
Syntax fixes for PubUtilLib.
13 years ago
#else // MF_RENDDEP
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spanInverseTable[(*spanIndices)[i]] = -1;
for( j = (*spanIndices)[i]; j < fSpans.GetCount(); j++ )
spanInverseTable[j]--;
#endif // MF_RENDDEP
}
#ifdef MF_RENDDEP
for( j = 0; j < fDIIndices.GetCount(); j++ )
{
if( !fDIIndices[j]->IsMatrixOnly() )
{
for( k = 0; k < fDIIndices[j]->GetCount(); k++ )
{
int idx = (*fDIIndices[j])[k];
hsAssert(idx >= 0, "Just deleted a span another DI was pointing at");
(*fDIIndices[j])[k] = spanInverseTable[idx];
}
}
}
#endif // MF_RENDDEP
/// Rebuild the pointer array, since it's now invalid
IRebuildSpanArray();
/// Flag that we need garbage cleanup now
fNeedCleanup = true;
fReadyToRender = false;
/// Clear this entry. Note: DON'T DELETE IT! Otherwise they'll be hell
/// to pay. Just clear it, so if we go looking for a free index, we just
/// look for one with zero spans.
spanIndices->Reset();
/// All done!
}
//// IRebuildSpanArray ///////////////////////////////////////////////////////
void plDrawableSpans::IRebuildSpanArray( void )
{
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uint32_t j, i;
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plIcicle *icicle = nil;
for( j = 0; j < fSpans.GetCount(); j++ )
{
switch( fSpanSourceIndices[ j ] & kSpanTypeMask )
{
case kSpanTypeIcicle:
icicle = &fIcicles[ fSpanSourceIndices[ j ] & kSpanIDMask ];
fSpans[ j ] = (plSpan *)icicle;
if( icicle->fSortData != nil )
{
// GOTTA RESET THE SPAN INDICES TOO!!!
for( i = 0; i < icicle->fILength / 3; i++ )
Convert custom HeadSpin integer types to standard types from stdint.h
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icicle->fSortData[ i ].fSpanIndex = (uint16_t)j;
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}
break;
case kSpanTypeParticleSpan:
fSpans[ j ] = (plSpan *)&fParticleSpans[ fSpanSourceIndices[ j ] & kSpanIDMask ];
break;
}
}
// Redid the span array, so cause the space tree to rebuild to match
SetSpaceTree( nil );
// Rebuild bit vectors for various span types
IBuildVectors();
}
//// ICleanupMatrices
// Find all the matrix slots in the palette that aren't being used, collapse
// them out and adjust the indices into the matrix palette (the MatrixOnly DIIndices)
void plDrawableSpans::ICleanupMatrices()
{
// We really don't want to do this at runtime. The spans as read in have their bone
// matrices fixed (via plSpan::fBaseMatrix && plSpan::fNumMatrices). We can't just
// change where in our palette (fLocalToWorlds) bones will point, because the skinned spans
// will still be looking in the same place. I'm not sure why we'd want to either.
// Commenting out for the moment (so things will work), will look into why this was
// ever here, and more mysterious, how it ever worked. mf
#if 0
hsBitVector usedMatrices;
int i, j, k;
for( i = 0; i < fDIIndices.GetCount(); i++ )
{
plDISpanIndex& indices = *fDIIndices[i];
if( indices.IsMatrixOnly() )
{
for( j = 0; j < indices.GetCount(); j++ )
usedMatrices.SetBit(indices[j]);
}
}
Convert hsMatrix44 hsTArrays to std::vectors
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for( j = 0; j < fLocalToWorlds.size(); j++ )
Fix line endings and tabs
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{
if( !usedMatrices.IsBitSet(j) )
{
for( i = 0; i < fDIIndices.GetCount(); i++ )
{
plDISpanIndex& indices = *fDIIndices[i];
if( indices.IsMatrixOnly() )
{
for( k = 0; k < indices.GetCount(); k++ )
{
if( indices[k] > j )
indices[k]--;
}
}
}
Convert hsMatrix44 hsTArrays to std::vectors
12 years ago
for( i = j+1; i < fLocalToWorlds.size(); i++ )
Fix line endings and tabs
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{
fLocalToWorlds[i] = fLocalToWorlds[i-1];
fWorldToLocals[i] = fWorldToLocals[i-1];
fLocalToBones[i] = fLocalToBones[i-1];
fBoneToLocals[i] = fBoneToLocals[i-1];
}
}
}
#endif
}
//// IRemoveGarbage //////////////////////////////////////////////////////////
// Cleans out all the unused spans. Oh, joy.
void plDrawableSpans::IRemoveGarbage( void )
{
int groupIdx, ibIdx, i, j, k, count, offset;
hsTArray<hsTArray<bool> *> usedFlags;
hsTArray<hsTArray<hsTArray<bool> *> *> usedIdxFlags;
plGBufferGroup *group;
ICleanupMatrices();
/// Getting rid of verts
usedFlags.SetCount( fGroups.GetCount() );
usedIdxFlags.SetCount( fGroups.GetCount() );
for( i = 0; i < fGroups.GetCount(); i++ )
{
hsAssert( fGroups[ i ]->GetNumVertexBuffers() == 1, "Cannot clean garbage on a non-volatile buffer group!" );
Get rid of NEW(), TRACKED_NEW, and ZERO().
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usedFlags[ i ] = new hsTArray<bool>;
Fix line endings and tabs
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usedFlags[ i ]->SetCountAndZero( fGroups[ i ]->GetVertBufferCount( 0 ) );
Get rid of NEW(), TRACKED_NEW, and ZERO().
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usedIdxFlags[ i ] = new hsTArray<hsTArray<bool> *>;
Fix line endings and tabs
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usedIdxFlags[ i ]->SetCount( fGroups[ i ]->GetNumIndexBuffers() );
for( j = 0; j < fGroups[ i ]->GetNumIndexBuffers(); j++ )
{
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
(*usedIdxFlags[ i ])[ j ] = new hsTArray<bool>;
Fix line endings and tabs
14 years ago
(*usedIdxFlags[ i ])[ j ]->SetCountAndZero( fGroups[ i ]->GetIndexBufferCount( j ) );
}
}
for( i = 0; i < fIcicles.GetCount(); i++ )
{
// Set the flags so we know these verts are used
groupIdx = fIcicles[ i ].fGroupIdx;
for( j = fIcicles[ i ].fCellOffset; j < fIcicles[ i ].fCellOffset + fIcicles[ i ].fVLength; j++ )
(*usedFlags[ groupIdx ])[ j ] = true;
for( j = fIcicles[ i ].fIStartIdx; j < fIcicles[ i ].fIStartIdx + fIcicles[ i ].fILength; j++ )
(*((*usedIdxFlags[ groupIdx ])[ fIcicles[ i ].fIBufferIdx ]))[ j ] = true;
}
for( i = 0; i < fParticleSpans.GetCount(); i++ )
{
// Set the flags so we know these verts are used
groupIdx = fParticleSpans[ i ].fGroupIdx;
for( j = fParticleSpans[ i ].fCellOffset; j < fParticleSpans[ i ].fCellOffset + fParticleSpans[ i ].fVLength; j++ )
(*usedFlags[ groupIdx ])[ j ] = true;
for( j = fParticleSpans[ i ].fIStartIdx; j < fParticleSpans[ i ].fIStartIdx + fParticleSpans[ i ].fILength; j++ )
(*((*usedIdxFlags[ groupIdx ])[ fParticleSpans[ i ].fIBufferIdx ]))[ j ] = true;
}
/// Now loop through and delete any unused
for( groupIdx = 0; groupIdx < fGroups.GetCount(); groupIdx++ )
{
group = fGroups[ groupIdx ];
hsTArray<bool> &uFlags = *usedFlags[ groupIdx ];
// Find groups of verts to delete!
count = uFlags.GetCount();
for( i = 0; i < count; )
{
// Skip through used verts
for( ; i < count && uFlags[ i ] == true; i++ );
// Find span of unused verts
for( j = i; j < count && uFlags[ j ] == false; j++ );
if( j > i )
{
// Delete this span of vertices
group->DeleteVertsFromStorage( 0, i, j - i );
// Adjust indices in this group
for( ibIdx = 0; ibIdx < group->GetNumIndexBuffers(); ibIdx++ )
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
group->AdjustIndicesInStorage( ibIdx, i, -(int16_t)( j - i ) );
Fix line endings and tabs
14 years ago
// Adjust spans that use this vertex buffer
for( k = 0; k < fIcicles.GetCount(); k++ )
{
if( fIcicles[ k ].fGroupIdx == groupIdx && fIcicles[ k ].fVBufferIdx == 0 &&
fIcicles[ k ].fCellOffset >= i )
fIcicles[ k ].fCellOffset -= j - i;
// Adjust sorting data, if necessary
if( fIcicles[ k ].fSortData != nil )
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
IAdjustSortData( fIcicles[ k ].fSortData, fIcicles[ k ].fILength / 3, i, -(int16_t)( j - i ) );
Fix line endings and tabs
14 years ago
}
for( k = 0; k < fParticleSpans.GetCount(); k++ )
{
if( fParticleSpans[ k ].fGroupIdx == groupIdx && fParticleSpans[ k ].fVBufferIdx == 0 &&
fParticleSpans[ k ].fCellOffset >= i )
fParticleSpans[ k ].fCellOffset -= j - i;
// Adjust sorting data, if necessary
if( fParticleSpans[ k ].fSortData != nil )
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
IAdjustSortData( fParticleSpans[ k ].fSortData, fParticleSpans[ k ].fILength / 3, i, -(int16_t)( j - i ) );
Fix line endings and tabs
14 years ago
}
// Move the flags too, lest we start deleting the wrong vertices
count -= j - i;
for( offset = j - i; i < count; i++ )
uFlags[ i ] = uFlags[ i + offset ];
}
// Keep going
i = j;
}
/// Getting rid of indices now
/// IF WE ARE SORTING, then the fIStartIdx positions of the spans are not necessarily
/// valid (since they're refreshed every frame, and not all are guaranteed to be refreshed).
/// However, since we will be refilling the buffer next frame anyway, it doesn't really
/// matter <crosses fingers> WHAT indices we delete, so long as the total length of the
/// buffer is correct.
if( fProps & kPropSortFaces )
{
for( ibIdx = 0; ibIdx < group->GetNumIndexBuffers(); ibIdx++ )
{
// For this index buffer, find the total length we want
i = 0;
for( j = 0; j < fIcicles.GetCount(); j++ )
{
if( fIcicles[ j ].fGroupIdx == groupIdx && fIcicles[ j ].fIBufferIdx == ibIdx )
i += fIcicles[ j ].fILength;
}
for( j = 0; j < fParticleSpans.GetCount(); j++ )
{
if( fParticleSpans[ j ].fGroupIdx == groupIdx && fParticleSpans[ j ].fIBufferIdx == ibIdx )
i += fParticleSpans[ j ].fILength;
}
/// i is the total length
group->DeleteIndicesFromStorage( ibIdx, i, group->GetIndexBufferCount( ibIdx ) - i );
}
}
else
{
/// Non-sorting, we have to figure out exactly which indices we aren't using
for( ibIdx = 0; ibIdx < group->GetNumIndexBuffers(); ibIdx++ )
{
hsTArray<bool> &uiFlags = *((*usedIdxFlags[ groupIdx ])[ ibIdx ]);
// Find groups of indices to delete!
count = uiFlags.GetCount();
for( i = 0; i < count; )
{
// Skip through used verts
for( ; i < count && uiFlags[ i ] == true; i++ );
// Find span of unused verts
for( j = i; j < count && uiFlags[ j ] == false; j++ );
if( j > i )
{
// Delete this span of indices
group->DeleteIndicesFromStorage( ibIdx, i, j - i );
// Adjust spans that use this index buffer (only icicles use them)
for( k = 0; k < fIcicles.GetCount(); k++ )
{
if( fIcicles[ k ].fGroupIdx == groupIdx && fIcicles[ k ].fIBufferIdx == ibIdx &&
fIcicles[ k ].fIStartIdx >= i )
{
fIcicles[k].fIPackedIdx = (fIcicles[ k ].fIStartIdx -= j - i);
}
}
// and particle spans :)
for( k = 0; k < fParticleSpans.GetCount(); k++ )
{
if( fParticleSpans[ k ].fGroupIdx == groupIdx && fParticleSpans[ k ].fIBufferIdx == ibIdx &&
fParticleSpans[ k ].fIStartIdx >= i )
{
fParticleSpans[k].fIPackedIdx = (fParticleSpans[ k ].fIStartIdx -= j - i);
}
}
// Move the flags too, lest we start deleting the wrong vertices
count -= j - i;
for( offset = j - i; i < count; i++ )
uiFlags[ i ] = uiFlags[ i + offset ];
}
// Keep going
i = j;
}
}
}
}
/// Refresh all vStartIdx entries
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[ i ]->fTypeMask & plSpan::kVertexSpan )
{
plVertexSpan *vtx = (plVertexSpan *)fSpans[ i ];
vtx->fVStartIdx = fGroups[ vtx->fGroupIdx ]->GetVertStartFromCell( vtx->fVBufferIdx, vtx->fCellIdx, vtx->fCellOffset );
}
}
/// Destroy!!!
for( i = 0; i < usedFlags.GetCount(); i++ )
delete usedFlags[ i ];
usedFlags.Reset();
for( i = 0; i < usedIdxFlags.GetCount(); i++ )
{
for( j = 0; j < usedIdxFlags[ i ]->GetCount(); j++ )
delete ((*usedIdxFlags[ i ])[ j ]);
delete usedIdxFlags[ i ];
}
usedIdxFlags.Reset();
/// This will let us query the buffer group as to whether its ready to render or not.
/// If not, we'll force it then to reload from its storage
fReadyToRender = false;
// Whew!
fNeedCleanup = false;
}
//// IAdjustSortData /////////////////////////////////////////////////////////
// Adjusts the indices in the given sort data, using the delta and threshhold
// given.
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::IAdjustSortData( plGBufferTriangle *triList, uint32_t count, uint32_t threshhold, int32_t delta )
Fix line endings and tabs
14 years ago
{
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t i;
Fix line endings and tabs
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for( i = 0; i < count; i++ )
{
if( triList[ i ].fIndex1 >= threshhold )
Convert custom HeadSpin integer types to standard types from stdint.h
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triList[ i ].fIndex1 = (uint16_t)( triList[ i ].fIndex1 + delta );
Fix line endings and tabs
14 years ago
if( triList[ i ].fIndex2 >= threshhold )
Convert custom HeadSpin integer types to standard types from stdint.h
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triList[ i ].fIndex2 = (uint16_t)( triList[ i ].fIndex2 + delta );
Fix line endings and tabs
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if( triList[ i ].fIndex3 >= threshhold )
Convert custom HeadSpin integer types to standard types from stdint.h
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triList[ i ].fIndex3 = (uint16_t)( triList[ i ].fIndex3 + delta );
Fix line endings and tabs
14 years ago
}
}
//// IMakeSpanSortable ////////////////////////////////////////////////////////
// Given an index of a span, flags it sortable and creates the sorting data
// for that span.
Convert custom HeadSpin integer types to standard types from stdint.h
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void plDrawableSpans::IMakeSpanSortable( uint32_t index )
Fix line endings and tabs
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{
plIcicle *span = (plIcicle *)fSpans[ index ];
plGBufferTriangle *list;
if( span->fProps & plSpan::kPropFacesSortable )
return;
/// Create data for it
Convert custom HeadSpin integer types to standard types from stdint.h
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list = fGroups[ span->fGroupIdx ]->ConvertToTriList( (int16_t)index, span->fIBufferIdx, span->fVBufferIdx, span->fCellIdx,
Fix line endings and tabs
14 years ago
span->fIStartIdx, span->fILength / 3 );
if( list == nil )
return;
span->fSortData = list;
/// Mark as sortable
span->fProps |= plSpan::kPropFacesSortable;
}
void plDrawableSpans::UnPackCluster(plClusterGroup* cluster)
{
Convert custom HeadSpin integer types to standard types from stdint.h
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const uint32_t vertsPerInst = cluster->GetTemplate()->NumVerts();
const uint32_t idxPerInst = cluster->GetTemplate()->NumIndices();
Fix line endings and tabs
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Convert custom HeadSpin integer types to standard types from stdint.h
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const uint32_t numClust = cluster->GetNumClusters();
Fix line endings and tabs
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fVisSet |= cluster->GetVisSet();
fVisNot |= cluster->GetVisNot();
fIcicles.SetCount(numClust);
fSpans.SetCount(numClust);
int iSpan;
for( iSpan = 0; iSpan < numClust; iSpan++ )
fSpans[iSpan] = &fIcicles[iSpan];
iSpan = 0;
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint32_t vtxFormat =
Fix line endings and tabs
14 years ago
cluster->GetTemplate()->NumUVWs()
| cluster->GetTemplate()->NumWeights() << 4;
if( cluster->GetTemplate()->NumWgtIdx() )
vtxFormat |= plGBufferGroup::kSkinIndices;
const hsTArray<plLightInfo*>& lights = cluster->GetLights();
int iStart;
for( iStart = 0; iStart < cluster->GetNumClusters(); )
{
int numVerts = 0;
int numIdx = 0;
int iEnd;
for( iEnd = iStart; iEnd < cluster->GetNumClusters(); iEnd++ )
{
numVerts += vertsPerInst * cluster->GetCluster(iEnd)->NumInsts();
numIdx += idxPerInst * cluster->GetCluster(iEnd)->NumInsts();
if( (numVerts > plGBufferGroup::kMaxNumVertsPerBuffer)
||(numIdx > plGBufferGroup::kMaxNumIndicesPerBuffer) )
{
// Oops, too much.
numVerts -= vertsPerInst * cluster->GetCluster(iEnd)->NumInsts();
numIdx -= idxPerInst * cluster->GetCluster(iEnd)->NumInsts();
iEnd--;
break;
}
}
// Still in trouble here. We need to fake up that cell crap for each of
// our clusters to make a span for it. Whoo-hoo.
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
uint8_t grpIdx = IFindBufferGroup((uint8_t)vtxFormat, numVerts, 0, false, false);
Fix line endings and tabs
14 years ago
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t vbufferIdx;
uint32_t cellIdx;
uint32_t cellOffset;
Fix line endings and tabs
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fGroups[grpIdx]->ReserveVertStorage(numVerts, &vbufferIdx, &cellIdx, &cellOffset, plGBufferGroup::kReserveInterleaved | plGBufferGroup::kReserveIsolate);
hsAssert(!cellOffset, "This should be our own personal group");
hsAssert(fGroups[grpIdx]->GetVertexSize() == cluster->GetTemplate()->Stride(), "Mismatch on src and dst sizes");
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t ibufferIdx;
uint32_t istartIdx;
Fix line endings and tabs
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fGroups[grpIdx]->ReserveIndexStorage(numIdx, &ibufferIdx, &istartIdx);
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t iOffset = 0;
Fix line endings and tabs
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Convert custom HeadSpin integer types to standard types from stdint.h
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uint8_t* vData = fGroups[grpIdx]->GetVertBufferData(vbufferIdx);
uint16_t* iData = fGroups[grpIdx]->GetIndexBufferData(ibufferIdx);
uint8_t* pvData = vData;
uint16_t* piData = iData;
Fix line endings and tabs
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int i;
for( i = iStart; i < iEnd; i++ )
{
hsBounds3Ext bnd;
cluster->GetCluster(i)->UnPack(pvData, piData, cellOffset, bnd);
fIcicles[iSpan].fLocalBounds = bnd;
fIcicles[iSpan].fWorldBounds = bnd;
fIcicles[iSpan].fTypeMask = plSpan::kSpan | plSpan::kVertexSpan | plSpan::kIcicleSpan;
// STUB - need to set whether strictly runtime lit or preshaded based on cluster.
// fIcicles[iSpan].fProps = plSpan::kLiteMaterial;
fIcicles[iSpan].fProps = plSpan::kLiteVtxNonPreshaded | plSpan::kPropRunTimeLight;
if (fProps & plSpan::kPropNoDraw)
fIcicles[iSpan].fProps |= plSpan::kPropNoDraw;
fIcicles[iSpan].fMaterialIdx = 0;
fIcicles[iSpan].fLocalToWorld.Reset();
fIcicles[iSpan].fWorldToLocal.Reset();
fIcicles[iSpan].fBaseMatrix = 0;
fIcicles[iSpan].fNumMatrices = 0;
fIcicles[iSpan].fLocalUVWChans = 0;
fIcicles[iSpan].fMaxBoneIdx = 0;
fIcicles[iSpan].fPenBoneIdx = 0;
fIcicles[iSpan].fFogEnvironment = nil;
fIcicles[iSpan].fMaxDist = cluster->GetLOD().fMaxDist;
fIcicles[iSpan].fMinDist = cluster->GetLOD().fMinDist;
fIcicles[iSpan].fWaterHeight = 0;
fIcicles[iSpan].fVisSet = cluster->GetVisSet();
fIcicles[iSpan].fVisNot = cluster->GetVisNot();
if( lights.GetCount() )
{
int iLight;
for( iLight = 0; iLight < lights.GetCount(); iLight++ )
fIcicles[iSpan].AddPermaLight(lights[iLight], lights[iLight]->GetProjection() != nil);
}
fIcicles[iSpan].fGroupIdx = grpIdx;
fIcicles[iSpan].fVBufferIdx = vbufferIdx;
fIcicles[iSpan].fCellIdx = cellIdx;
fIcicles[iSpan].fCellOffset = cellOffset;
fIcicles[iSpan].fVStartIdx = cellOffset;
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const uint32_t numVerts = cluster->GetCluster(i)->NumInsts() * vertsPerInst;
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fIcicles[iSpan].fVLength = numVerts;
cellOffset += numVerts;
fIcicles[iSpan].fIBufferIdx = ibufferIdx;
fIcicles[iSpan].fIPackedIdx = fIcicles[iSpan].fIStartIdx = iOffset;
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const uint32_t iLength = cluster->GetCluster(i)->NumInsts() * cluster->GetTemplate()->NumIndices();
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fIcicles[iSpan].fILength = iLength;
iOffset += iLength;
iSpan++;
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const uint32_t vSize = cluster->GetCluster(i)->NumInsts() * cluster->GetTemplate()->VertSize();
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pvData += vSize;
piData += iLength;
}
iStart = iEnd;
}
fMaterials.SetCountAndZero(1);
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plGenRefMsg* refMsg = new plGenRefMsg(GetKey(), plRefMsg::kOnCreate, 0, kMsgMaterial);
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hsgResMgr::ResMgr()->SendRef(cluster->GetMaterial()->GetKey(), refMsg, plRefFlags::kActiveRef);
fRenderLevel = cluster->GetRenderLevel();
GetSpaceTree();
}
//// IFindBufferGroup ////////////////////////////////////////////////////////
Obliterate hsBool
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uint8_t plDrawableSpans::IFindBufferGroup(uint8_t vtxFormat, uint32_t numVertsNeeded, int lod, bool vertVolatile, bool idxVolatile)
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{
int i;
// Scan through the buffer groups, looking for a good format. If there isn't
// one, add it
if( fProps & kPropVolatile )
vertVolatile = true;
if( fProps & kPropSortFaces )
idxVolatile = true;
for( i = 0; i < fGroups.GetCount(); i++ )
{
if( (fGroups[ i ]->GetVertexFormat() == vtxFormat)
&& (!vertVolatile == !fGroups[i]->AreVertsVolatile())
&& (!idxVolatile == !fGroups[i]->AreIdxVolatile())
&& (lod == fGroups[i]->GetLOD()) )
{
if( fGroups[ i ]->GetNumPrimaryVertsLeft() >= numVertsNeeded )
return i;
}
}
// Add a new one of the right format
Get rid of NEW(), TRACKED_NEW, and ZERO().
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fGroups.Append( new plGBufferGroup(vtxFormat, vertVolatile, idxVolatile, lod) );
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return i;
}
//// GetParticleSpanVector ///////////////////////////////////////////////////
// Get a bitVector of the spans that are particle spans
hsBitVector const &plDrawableSpans::GetParticleSpanVector( void ) const
{
return fParticleSpanVector;
}
//// GetBlendingSpanVector ///////////////////////////////////////////////////
// Get a bitVector of the spans that are blending (i.e. numMatrices > 0)
hsBitVector const &plDrawableSpans::GetBlendingSpanVector( void ) const
{
/// See the plRenderMsg handler for why we do this
return fFakeBlendingSpanVector;
}
//// SetBlendingSpanVectorBit ////////////////////////////////////////////////
// Could just make GetBlendingSpanVector() non-const, but this way it's harder
// for the end user, thus I'm hoping to discourage them from doing it too much.
Obliterate hsBool
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void plDrawableSpans::SetBlendingSpanVectorBit( uint32_t bitNumber, bool on )
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{
fFakeBlendingSpanVector.SetBit( bitNumber, on );
}
//// IBuildVectors ///////////////////////////////////////////////////////////
void plDrawableSpans::IBuildVectors( void )
{
int i;
bool needRenderMsg = false;
fParticleSpanVector.Clear();
fBlendingSpanVector.Clear();
for( i = 0; i < fSpans.GetCount(); i++ )
{
if( fSpans[ i ]->fTypeMask & plSpan::kParticleSpan )
fParticleSpanVector.SetBit( i );
// BoneUpdate
if( ( fSpans[ i ]->fTypeMask & plSpan::kVertexSpan ) && (fSpans[ i ]->fNumMatrices > 2) )
// if( ( fSpans[ i ]->fTypeMask & plSpan::kVertexSpan ) && (fSpans[ i ]->fNumMatrices > 1) )
{
fBlendingSpanVector.SetBit( i );
needRenderMsg = true;
}
}
// Reset this sucker too
fFakeBlendingSpanVector = fBlendingSpanVector;
if( needRenderMsg && !fRegisteredForRender )
{
// Placeholder hack - see IUpdateMatrixPaletteBoundsHack() for comments
fRegisteredForRender = true;
plgDispatch::Dispatch()->RegisterForExactType( plRenderMsg::Index(), GetKey() );
}
else if( !needRenderMsg && fRegisteredForRender )
{
plgDispatch::Dispatch()->UnRegisterForExactType( plRenderMsg::Index(), GetKey() );
fRegisteredForRender = false;
}
}
//////////////////////////////////////////////////////////////////////////////
//// Particle Sets ///////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//// CreateParticleSystem ////////////////////////////////////////////////////
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uint32_t plDrawableSpans::CreateParticleSystem( uint32_t maxNumSpans, uint32_t maxNumParticles, hsGMaterial *material )
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{
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uint32_t i, numVerts, numIndices;
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plParticleSet *set;
plDISpanIndex *spanLookup;
// Make a shiny new set
Get rid of NEW(), TRACKED_NEW, and ZERO().
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set = new plParticleSet;
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set->fRefCount = 0;
/// Fill out info
numVerts = maxNumParticles * 4; // 4 verts per particle
numIndices = maxNumParticles * 6; // 6 indices per particle
if( material != nil && material->GetLayer( 0 ) != nil && material->GetLayer( 0 )->GetTexture() != nil )
set->fFormat = plGeometrySpan::UVCountToFormat( 1 );
else
set->fFormat = plGeometrySpan::UVCountToFormat( 0 );
// Reserve space
set->fGroupIdx = IFindBufferGroup( set->fFormat, numVerts, 0, true, false ); // Force them to volatile even if the drawable isn't
fGroups[ set->fGroupIdx ]->ReserveVertStorage( numVerts, &set->fVBufferIdx, &set->fCellIdx, &set->fCellOffset, plGBufferGroup::kReserveInterleaved | plGBufferGroup::kReserveIsolate );
fGroups[ set->fGroupIdx ]->ReserveIndexStorage( numIndices, &set->fIBufferIdx, &set->fIStartIdx );
set->fVStartIdx = fGroups[ set->fGroupIdx ]->GetVertStartFromCell( set->fVBufferIdx, set->fCellIdx, set->fCellOffset );
set->fVLength = numVerts;
set->fILength = numIndices;
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uint32_t vIdx = set->fVStartIdx;
uint16_t* idx = fGroups[set->fGroupIdx]->GetIndexBufferData(set->fIBufferIdx) + set->fIStartIdx;
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for( i = 0; i < maxNumParticles; i++ )
{
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*idx++ = (uint16_t)vIdx;
*idx++ = (uint16_t)(vIdx + 1);
*idx++ = (uint16_t)(vIdx + 2);
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Convert custom HeadSpin integer types to standard types from stdint.h
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*idx++ = (uint16_t)vIdx;
*idx++ = (uint16_t)(vIdx + 2);
*idx++ = (uint16_t)(vIdx + 3);
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vIdx += 4;
}
// Create us some spans
set->fDIEntry = -1;
spanLookup = IFindDIIndices( set->fDIEntry );
spanLookup->fFlags |= plDISpanIndex::kDontTransformSpans;
set->fNumSpans = maxNumSpans;
for( i = 0; i < maxNumSpans; i++ )
ICreateParticleIcicle( material, set );
set->fNextIStartIdx = set->fIStartIdx;
set->fNextVStartIdx = set->fVStartIdx;
set->fNextCellOffset = set->fCellOffset;
/// Rebuild the pointer array
IRebuildSpanArray();
fReadyToRender = false;
return set->fDIEntry;
}
//// IAssignMatIdxToSpan /////////////////////////////////////////////////////
void plDrawableSpans::IAssignMatIdxToSpan( plSpan *span, hsGMaterial *mtl )
{
fSettingMatIdxLock = true;
if( mtl != nil )
span->fMaterialIdx = IAddAMaterial( mtl );
if( fMaterials[ span->fMaterialIdx ] != nil )
{
if( ITestMatForSpecularity( fMaterials[ span->fMaterialIdx ] ) )
span->fProps |= plSpan::kPropMatHasSpecular;
else
span->fProps &= ~plSpan::kPropMatHasSpecular;
}
fSettingMatIdxLock = false;
}
//// ICreateParticleIcicle ///////////////////////////////////////////////////
// Creates a shiny new plIcicle for use with particle sets.
plParticleSpan *plDrawableSpans::ICreateParticleIcicle( hsGMaterial *material, plParticleSet *set )
{
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uint32_t spanIdx;
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hsMatrix44 ident;
plDISpanIndex *spanLookup;
/// Ahh, an icicle span
spanIdx = fParticleSpans.GetCount();
fParticleSpans.Append( plParticleSpan() );
plParticleSpan *icicle = &fParticleSpans[ spanIdx ];
ident.Reset();
IAssignMatIdxToSpan( icicle, material );
icicle->fMaterialIdx = IAddAMaterial( material );
icicle->fLocalToWorld = ident;
icicle->fWorldToLocal = ident;
icicle->fProps |= plSpan::kPropRunTimeLight | plSpan::kPropNoDraw | plSpan::kLiteVtxPreshaded;
if( fProps & kPropSortSpans )
icicle->fProps |= plSpan::kPropFacesSortable;
icicle->fLocalBounds.MakeEmpty();
icicle->fWorldBounds.MakeEmpty();
Fix errors in plDrawable. It builds almost the whole project now... until it hits plVisLOSMgr :(
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hsPoint3 zero(0, 0, 0);
icicle->fLocalBounds.Union( &zero );
icicle->fWorldBounds.Union( &zero );
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icicle->fGroupIdx = set->fGroupIdx;
icicle->fVBufferIdx = set->fVBufferIdx;
icicle->fCellIdx = set->fCellIdx;
icicle->fCellOffset = set->fCellOffset;
icicle->fVStartIdx = set->fVStartIdx;
icicle->fVLength = 0;
icicle->fIBufferIdx = set->fIBufferIdx;
icicle->fIPackedIdx = icicle->fIStartIdx = set->fIStartIdx;
icicle->fILength = 0;
icicle->fFogEnvironment = nil;
icicle->fSortData = nil;
icicle->fSrcSpanIdx = fSpans.GetCount();
spanLookup = IFindDIIndices( set->fDIEntry );
spanLookup->Append( fSpans.GetCount() );
fSpans.Append( (plSpan *)icicle );
fSpanSourceIndices.Append( spanIdx | kSpanTypeParticleSpan );
/// Set our pointer to the set and inc it's refCount
icicle->fParentSet = set;
set->fRefCount++;
/// Flag that we need garbage cleanup now
fNeedCleanup = true;
fReadyToRender = false;
// Cause us to rebuild the space tree when needed
SetSpaceTree( nil );
return icicle;
}
//// ResetParticleSystem /////////////////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
13 years ago
void plDrawableSpans::ResetParticleSystem( uint32_t setIndex )
Fix line endings and tabs
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{
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t i;
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plDISpanIndex *indices = IFindDIIndices( setIndex );
plParticleSet *set;
plParticleSpan *span;
for( i = 0; i < indices->GetCount(); i++ )
{
span = (plParticleSpan *)fSpans[ (*indices)[ i ] ];
span->fVStartIdx = 0;
span->fCellIdx = 0;
span->fCellOffset = 0;
span->fVLength = 0;
span->fIPackedIdx = span->fIStartIdx = 0;
span->fILength = 0;
span->fSource = nil;
span->fProps |= plSpan::kPropNoDraw;
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->SetLeafFlag( (int16_t)(span->fSrcSpanIdx), plSpaceTreeNode::kDisabled );
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set = span->fParentSet; // To use at the end of the loop
}
set->fNextIStartIdx = set->fIStartIdx;
set->fNextVStartIdx = set->fVStartIdx;
set->fNextCellOffset = set->fCellOffset;
fGroups[set->fGroupIdx]->SetVertBufferEnd(set->fVBufferIdx, set->fNextVStartIdx);
if( fProps & kPropSortFaces )
fGroups[set->fGroupIdx]->SetIndexBufferEnd(set->fIBufferIdx, set->fNextIStartIdx);
}
//// AssignEmitterToParticleSystem ///////////////////////////////////////////
Convert custom HeadSpin integer types to standard types from stdint.h
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void plDrawableSpans::AssignEmitterToParticleSystem( uint32_t setIndex, plParticleEmitter *emitter )
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{
plDISpanIndex *indices = IFindDIIndices( setIndex );
plParticleSet *set;
plParticleSpan *icicle;
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t i, index, numParticles = emitter->GetParticleCount();
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plParticleCore *array = emitter->GetParticleArray();
hsMatrix44 ident;
plGBufferTriangle *sortArray;
icicle = (plParticleSpan *)fSpans[ (*indices)[ emitter->GetSpanIndex() ] ];
set = icicle->fParentSet;
icicle->fCellIdx = set->fCellIdx;
icicle->fCellOffset = set->fNextCellOffset;
icicle->fVStartIdx = set->fNextVStartIdx;
icicle->fIPackedIdx = icicle->fIStartIdx = set->fNextIStartIdx;
icicle->fVLength = numParticles * 4;
icicle->fILength = numParticles * 6;
icicle->fSource = emitter;
icicle->fProps &= ~plSpan::kPropNoDraw;
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->ClearLeafFlag( (int16_t)(icicle->fSrcSpanIdx), plSpaceTreeNode::kDisabled );
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icicle->fNumParticles = numParticles;
set->fNextVStartIdx += numParticles * 4;
set->fNextIStartIdx += numParticles * 6;
set->fNextCellOffset += numParticles * 4;
fGroups[set->fGroupIdx]->SetVertBufferEnd(set->fVBufferIdx, set->fNextVStartIdx);
if( fProps & kPropSortFaces )
fGroups[set->fGroupIdx]->SetIndexBufferEnd(set->fIBufferIdx, set->fNextIStartIdx);
hsAssert( set->fNextVStartIdx <= set->fVStartIdx + set->fVLength, "Buffer overflow in AddParticlesToSet()" );
hsAssert( set->fNextIStartIdx <= set->fIStartIdx + set->fILength, "Buffer overflow in AddParticlesToSet()" );
if( fProps & kPropSortFaces )
{
// Prep sorting data
if( icicle->fSortData == nil || icicle->fSortCount < ( numParticles << 1 ) )
{
delete [] icicle->fSortData;
Get rid of NEW(), TRACKED_NEW, and ZERO().
13 years ago
icicle->fSortData = sortArray = new plGBufferTriangle[ numParticles << 1 ];
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icicle->fSortCount = numParticles << 1;
}
else
sortArray = icicle->fSortData;
// Find our bounds and fill out sorting data
for( i = 0, index = icicle->fVStartIdx; i < numParticles; i++ )
{
sortArray->fCenter = array[ i ].fPos;
Convert custom HeadSpin integer types to standard types from stdint.h
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sortArray->fIndex1 = (uint16_t)index;
sortArray->fIndex2 = (uint16_t)(index + 1);
sortArray->fIndex3 = (uint16_t)(index + 2);
sortArray->fSpanIndex = (uint16_t)(icicle->fSrcSpanIdx);
Fix line endings and tabs
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sortArray++;
sortArray->fCenter = array[ i ].fPos;
Convert custom HeadSpin integer types to standard types from stdint.h
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sortArray->fIndex1 = (uint16_t)index;
sortArray->fIndex2 = (uint16_t)(index + 2);
sortArray->fIndex3 = (uint16_t)(index + 3);
sortArray->fSpanIndex = (uint16_t)(icicle->fSrcSpanIdx);
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sortArray++;
index += 4;
}
}
icicle->fLocalBounds = emitter->GetBoundingBox();
icicle->fWorldBounds = icicle->fLocalBounds;
Convert custom HeadSpin integer types to standard types from stdint.h
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GetSpaceTree()->MoveLeaf( (int16_t)(icicle->fSrcSpanIdx), icicle->fWorldBounds );
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// Done for now, we'll fill on the pipeline side
return;
}
//////////////////////////////////////////////////////////////////////////////
//// Dynamic Functions for SceneViewer ///////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//// RefreshDISpans //////////////////////////////////////////////////////////
// Given a set of plGeometrySpans, replaces the data in the given DI span set
// with the vertices in the plGeometrySpans. Does NOT replace the indices,
// and the count must be EXACT, or this function gets pyst.
//MFREPACK
// don't need to pass in spans, they're already in fSourceSpans.
// clearSpansAfterRefresh is ignored anyway, nuke it.
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t plDrawableSpans::RefreshDISpans( uint32_t index )
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{
int i;
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t spanIdx;
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plSpan *span;
hsBounds3Ext bounds;
plDISpanIndex *spanLookup;
// hsAssert( fProps & kPropVolatile, "Trying to add spans on a non-volatile drawable" );
Convert custom HeadSpin integer types to standard types from stdint.h
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hsAssert( index != (uint32_t)-1, "Invalid DI span index" );
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/// Do garbage cleanup first
if( fNeedCleanup )
IRemoveGarbage();
spanLookup = IFindDIIndices( index );
/// Loop through the spans and copy the vertex data over
for( i = 0; i < spanLookup->GetCount(); i++ )
{
// Main info
plGeometrySpan *geoSpan = fSourceSpans[ (*spanLookup)[i] ];
spanIdx = fSpanSourceIndices[ (*spanLookup)[ i ] ];
hsAssert( ( spanIdx & kSpanTypeMask ) == kSpanTypeIcicle, "Mismatch in span formats" );
plIcicle *icicle = &fIcicles[ spanIdx & kSpanIDMask ];
IUpdateIcicleFromGeoSpan( geoSpan, icicle );
span = (plSpan *)icicle;
if( fProps & kPropSortFaces )
{
// Should add sort data too...
IMakeSpanSortable( (*spanLookup)[ i ] );
}
}
// Update fLocalBounds, since we were updating the world bounds
fLocalBounds = fWorldBounds;
fLocalBounds.Transform( &fWorldToLocal );
fMaxWorldBounds = fWorldBounds;
// Cause us to rebuild the space tree when needed
SetSpaceTree( nil );
fReadyToRender = false;
return index;
}
// Same as above, but takes an actual span index (not a DI Index).
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t plDrawableSpans::RefreshSpan( uint32_t index )
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{
Convert custom HeadSpin integer types to standard types from stdint.h
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uint32_t spanIdx;
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plSpan *span;
hsBounds3Ext bounds;
// hsAssert( fProps & kPropVolatile, "Trying to add spans on a non-volatile drawable" );
hsAssert( index < fSourceSpans.GetCount(), "Invalid span index" );
/// Do garbage cleanup first
if( fNeedCleanup )
IRemoveGarbage();
// Main info
plGeometrySpan *geoSpan = fSourceSpans[ index ];
spanIdx = fSpanSourceIndices[ index ];
hsAssert( ( spanIdx & kSpanTypeMask ) == kSpanTypeIcicle, "Mismatch in span formats" );
plIcicle *icicle = &fIcicles[ spanIdx & kSpanIDMask ];
IUpdateIcicleFromGeoSpan( geoSpan, icicle );
span = (plSpan *)icicle;
if( fProps & kPropSortFaces )
{
// Should add sort data too...
IMakeSpanSortable( index );
}
// Update fLocalBounds, since we were updating the world bounds
fLocalBounds = fWorldBounds;
fLocalBounds.Transform( &fWorldToLocal );
fMaxWorldBounds = fWorldBounds;
// Cause us to rebuild the space tree when needed
SetSpaceTree( nil );
fReadyToRender = false;
return index;
}
//// IUpdateVertexSpanFromGeoSpan ////////////////////////////////////////////
// Common function for the two functions that follow.
void plDrawableSpans::IUpdateVertexSpanFromGeoSpan( plGeometrySpan *geoSpan, plVertexSpan *span )
{
hsBounds3Ext bounds;
// This function looks pretty dubious to me. It or's in properties instead of setting them, and
// it doesn't set all the available properties (like the skinning matrix indices). It clearly should
// be doing more or doing less, but it's unclear which. I'm guessing the latter, but until there's
// a reason to dig through this trash, here it stays. mf
hsAssert( geoSpan->fNumVerts == span->fVLength, "Vertex count mismatch in IUpdateVertexSpanFromGeoSpan()" );
span->fLocalToWorld = geoSpan->fLocalToWorld;
span->fWorldToLocal = geoSpan->fWorldToLocal;
span->fProps |= ( geoSpan->fProps & plGeometrySpan::kPropRunTimeLight ) ? plSpan::kPropRunTimeLight : 0;
if( geoSpan->fProps & plGeometrySpan::kPropNoShadowCast )
span->fProps |= plSpan::kPropNoShadowCast;
if( geoSpan->fProps & plGeometrySpan::kPropNoShadow )
span->fProps |= plSpan::kPropNoShadow;
if( geoSpan->fProps & plGeometrySpan::kPropForceShadow )
span->fProps |= plSpan::kPropForceShadow;
if( geoSpan->fProps & plGeometrySpan::kPropReverseSort )
span->fProps |= plSpan::kPropReverseSort;
if( geoSpan->fProps & plGeometrySpan::kPartialSort )
span->fProps |= plSpan::kPartialSort;
switch( geoSpan->fProps & plGeometrySpan::kLiteMask )
{
case plGeometrySpan::kLiteMaterial: span->fProps |= plSpan::kLiteMaterial; break;
case plGeometrySpan::kLiteVtxPreshaded: span->fProps |= plSpan::kLiteVtxPreshaded; break;
case plGeometrySpan::kLiteVtxNonPreshaded: span->fProps |= plSpan::kLiteVtxNonPreshaded; break;
}
if( geoSpan->fProps & plGeometrySpan::kWaterHeight )
{
span->fProps |= plSpan::kWaterHeight;
span->fWaterHeight = geoSpan->fWaterHeight;
}
if( geoSpan->fProps & plGeometrySpan::kVisLOS )
{
span->fProps |= plSpan::kVisLOS;
fProps |= plDrawable::kPropHasVisLOS;
}
bounds = geoSpan->fLocalBounds;
span->fLocalBounds = bounds;
bounds.Transform( &span->fLocalToWorld );
span->fWorldBounds = bounds;
fWorldBounds.Union( &bounds );
// Pack the vertices in
fGroups[ span->fGroupIdx ]->StuffToVertStorage( geoSpan, span->fVBufferIdx, span->fCellIdx, span->fCellOffset,
plGBufferGroup::kReserveInterleaved );
span->fFogEnvironment = geoSpan->fFogEnviron;
/// Add the material to our list if necessary
IAssignMatIdxToSpan( span, geoSpan->fMaterial );
}
//// IUpdateIcicleFromGeoSpan ////////////////////////////////////////////////
void plDrawableSpans::IUpdateIcicleFromGeoSpan( plGeometrySpan *geoSpan, plIcicle *icicle )
{
IUpdateVertexSpanFromGeoSpan( geoSpan, icicle );
}
hsPoint3& plDrawableSpans::GetPosition(int spanIdx, int vtxIdx)
{
hsAssert(fSpans[spanIdx]->fTypeMask & plSpan::kVertexSpan, "Getting vertex info on non-vertex based span");
plVertexSpan* span = (plVertexSpan*)fSpans[spanIdx];
return fGroups[span->fGroupIdx]->Position(span->fVBufferIdx, span->fCellIdx, vtxIdx);
}
hsVector3& plDrawableSpans::GetNormal(int spanIdx, int vtxIdx)
{
hsAssert(fSpans[spanIdx]->fTypeMask & plSpan::kVertexSpan, "Getting vertex info on non-vertex based span");
plVertexSpan* span = (plVertexSpan*)fSpans[spanIdx];
return fGroups[span->fGroupIdx]->Normal(span->fVBufferIdx, span->fCellIdx, vtxIdx);
}
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uint32_t plDrawableSpans::GetNumTris(int spanIdx)
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{
hsAssert(fSpans[spanIdx]->fTypeMask & plSpan::kIcicleSpan, "Asking for index info on non-triangle based span");
plIcicle* span = (plIcicle*)fSpans[spanIdx];
return fGroups[span->fGroupIdx]->GetIndexBufferCount(span->fIBufferIdx) / 3;
}
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uint16_t* plDrawableSpans::GetIndexList(int spanIdx)
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{
hsAssert(fSpans[spanIdx]->fTypeMask & plSpan::kIcicleSpan, "Asking for index info on non-triangle based span");
plIcicle* span = (plIcicle*)fSpans[spanIdx];
return fGroups[span->fGroupIdx]->GetIndexBufferData(span->fIBufferIdx);
}
hsPoint3& plDrawableSpans::CvtGetPosition(int spanIdx, int vtxIdx)
{
return *(hsPoint3*)(fSourceSpans[spanIdx]->fVertexData + vtxIdx * plGeometrySpan::GetVertexSize(fSourceSpans[spanIdx]->fFormat));
}
hsVector3& plDrawableSpans::CvtGetNormal(int spanIdx, int vtxIdx)
{
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// Normal follows the position (+ 12Bytes)
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return *(hsVector3*)(fSourceSpans[spanIdx]->fVertexData + vtxIdx * plGeometrySpan::GetVertexSize(fSourceSpans[spanIdx]->fFormat) + 12);
}
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uint32_t plDrawableSpans::CvtGetNumTris(int spanIdx)
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{
return fSourceSpans[spanIdx]->fNumIndices / 3;
}
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uint16_t* plDrawableSpans::CvtGetIndexList(int spanIdx)
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{
return fSourceSpans[spanIdx]->fIndexData;
}
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uint32_t plDrawableSpans::CvtGetNumVerts(int spanIdx) const
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{
return fSourceSpans[spanIdx]->fNumVerts;
}
plGeometrySpan* plDrawableSpans::GetGeometrySpan(int spanIdx)
{
return fSourceSpans[spanIdx];
}
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void plDrawableSpans::GetOrigGeometrySpans( uint32_t diIndex, hsTArray<plGeometrySpan *> &arrayToFill )
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{
if( diIndex >= fDIIndices.GetCount() )
{
hsAssert( false, "Invalid diIndex to GetOrigGeometrySpans()" );
return;
}
plDISpanIndex *indices = fDIIndices[ diIndex ];
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uint32_t i;
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arrayToFill.Reset();
for( i = 0; i < indices->GetCount(); i++ )
arrayToFill.Append( fSourceSpans[ (*indices)[ i ] ] );
// HA!
return;
}
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void plDrawableSpans::ClearAndSetMaterialCount(uint32_t count)
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{
// Release the old materials
for (int i = 0; i < fMaterials.GetCount(); i++)
{
if ( fMaterials[ i ] != nil && fMaterials[ i ]->GetKey() != nil )
GetKey()->Release( fMaterials[ i ]->GetKey() );
}
fMaterials.SetCountAndZero(count);
}