/*==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
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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.
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along with this program. If not, see .
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,
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containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
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or by snail mail at:
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*==LICENSE==*/
///////////////////////////////////////////////////////////////////////////////
// //
// plDXDeviceRefs.cpp - Functions for the various DX DeviceRef classes //
// Cyan, Inc. //
// //
//// Version History //////////////////////////////////////////////////////////
// //
// 4.25.2001 mcn - Created. //
// //
///////////////////////////////////////////////////////////////////////////////
#include "hsTypes.h"
#include
#include
#include "hsWinRef.h"
#include "plDXPipeline.h"
#include "plDXDeviceRef.h"
#include "plDXBufferRefs.h"
#include "plDXLightRef.h"
#include "plDXTextureRef.h"
#include "plDXRenderTargetRef.h"
#include "plGBufferGroup.h"
#include "plDrawable/plGeometrySpan.h"
#include "plDrawable/plDrawableSpans.h"
#include "plGLight/plLightInfo.h"
#include "plRenderTarget.h"
#include "plCubicRenderTarget.h"
#include "plDynamicEnvMap.h"
#include "plProfile.h"
#include "plStatusLog/plStatusLog.h"
plProfile_CreateMemCounter("Vertices", "Memory", MemVertex);
plProfile_CreateMemCounter("Indices", "Memory", MemIndex);
plProfile_CreateMemCounter("Textures", "Memory", MemTexture);
///////////////////////////////////////////////////////////////////////////////
//// Generic plDXDeviceRef Functions /////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
plDXDeviceRef::plDXDeviceRef()
{
fNext = nil;
fBack = nil;
}
plDXDeviceRef::~plDXDeviceRef()
{
if( fNext != nil || fBack != nil )
Unlink();
}
void plDXDeviceRef::Unlink( void )
{
hsAssert( fBack, "plDXDeviceRef not in list" );
if( fNext )
fNext->fBack = fBack;
*fBack = fNext;
fBack = nil;
fNext = nil;
}
void plDXDeviceRef::Link( plDXDeviceRef **back )
{
hsAssert( fNext == nil && fBack == nil, "Trying to link a plDXDeviceRef that's already linked" );
fNext = *back;
if( *back )
(*back)->fBack = &fNext;
fBack = back;
*back = this;
}
///////////////////////////////////////////////////////////////////////////////
//// plDXVertex/IndexBufferRef Funktions /////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
//// Destructors //////////////////////////////////////////////////////////////
plDXVertexBufferRef::~plDXVertexBufferRef()
{
Release();
}
plDXIndexBufferRef::~plDXIndexBufferRef()
{
Release();
}
//// Releases /////////////////////////////////////////////////////////////////
void plDXVertexBufferRef::Release( void )
{
if( fD3DBuffer != nil )
{
ReleaseObject(fD3DBuffer);
if (!Volatile())
{
plProfile_DelMem(MemVertex, fCount * fVertexSize);
PROFILE_POOL_MEM(D3DPOOL_MANAGED, fCount * fVertexSize, false, "VtxBuff");
plDXPipeline::FreeManagedVertex(fCount * fVertexSize);
}
}
delete [] fData;
fData = nil;
SetDirty( true );
}
void plDXIndexBufferRef::Release( void )
{
if( fD3DBuffer != nil )
{
plProfile_DelMem(MemIndex, fCount * sizeof(uint16_t));
PROFILE_POOL_MEM(fPoolType, fCount * sizeof(uint16_t), false, "IndexBuff");
ReleaseObject( fD3DBuffer );
}
SetDirty( true );
}
///////////////////////////////////////////////////////////////////////////////
//// plDXTextureRef Funktions ////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
//// Set //////////////////////////////////////////////////////////////////////
plDXTextureRef& plDXTextureRef::Set( D3DFORMAT ft, uint32_t ml, uint32_t mw, uint32_t mh, uint32_t np,
uint32_t sz, uint32_t manSize, uint32_t* lSz, void* pd, hsBool ed, hsBool renderTarget )
{
if( fDataSize > 0 )
plProfile_DelMem(MemTexture, fDataSize + sizeof(plDXTextureRef));
if( ( fFormatType != ft || fMMLvs != ml || fMaxWidth != mw || fMaxHeight != mh ) && fD3DTexture != nil )
ReleaseObject( fD3DTexture );
if( !fD3DTexture )
fUseTime = 0;
fFormatType = ft;
fMMLvs = ml;
fMaxWidth = mw;
fMaxHeight = mh;
fNumPix = np;
fDataSize = manSize;
if( fLevelSizes != nil )
delete [] fLevelSizes;
if( lSz )
fLevelSizes = lSz;
else
{
fLevelSizes = TRACKED_NEW uint32_t[1];
fLevelSizes[0] = sz;
}
fData = pd;
fFlags = ( ed ? kExternData : 0 ) | ( renderTarget ? kRenderTarget : 0 );
plProfile_NewMem(MemTexture, fDataSize + sizeof(plDXTextureRef));
return *this;
}
//// Constructor & Destructor /////////////////////////////////////////////////
plDXTextureRef::plDXTextureRef( D3DFORMAT ft, uint32_t ml, uint32_t mw, uint32_t mh, uint32_t np,
uint32_t sz, uint32_t manSize, uint32_t* lSz, void* pd, hsBool ed, hsBool renderTarget )
{
fLevelSizes = nil;
fOwner = nil;
fD3DTexture = nil;
fDataSize = 0;
fFlags = 0;
fFormatType = D3DFMT_UNKNOWN;
fMMLvs = 0;
fMaxWidth = 0;
fMaxHeight = 0;
Set( ft, ml, mw, mh, np, sz, manSize, lSz, pd, ed, renderTarget );
}
plDXTextureRef::~plDXTextureRef()
{
Release();
delete [] fLevelSizes;
}
//// Release //////////////////////////////////////////////////////////////////
void plDXTextureRef::Release( void )
{
plProfile_DelMem(MemTexture, fDataSize + sizeof(plDXTextureRef));
plProfile_Extern(ManagedMem);
PROFILE_POOL_MEM(D3DPOOL_MANAGED, fDataSize, false, (fOwner ? fOwner->GetKey() ? fOwner->GetKey()->GetUoid().GetObjectName() : "(UnknownTexture)" : "(UnknownTexture)"));
plDXPipeline::FreeManagedTexture(fDataSize);
fDataSize = 0;
ReleaseObject( fD3DTexture );
SetDirty( true );
}
///////////////////////////////////////////////////////////////////////////////
//// plDXLightRef Funktions //////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
//// UpdateD3DInfo ////////////////////////////////////////////////////////////
#define SET_D3DCOLORVALUE( v, color ) { v.r = color.r; v.g = color.g; v.b = color.b; v.a = color.a; }
void plDXLightRef::UpdateD3DInfo( IDirect3DDevice9 *dev, plDXLightSettings *settings )
{
plDirectionalLightInfo *dirOwner;
plOmniLightInfo *omniOwner;
plSpotLightInfo *spotOwner;
const float maxRange = 32767.f;
/// Properties that are set for all types
fD3DDevice = dev;
fParentSettings = settings;
memset( &fD3DInfo, 0, sizeof( D3DLIGHT9 ) );
SET_D3DCOLORVALUE( fD3DInfo.Diffuse, fOwner->GetDiffuse() );
SET_D3DCOLORVALUE( fD3DInfo.Ambient, fOwner->GetAmbient() );
SET_D3DCOLORVALUE( fD3DInfo.Specular, fOwner->GetSpecular() );
if( ( omniOwner = plOmniLightInfo::ConvertNoRef( fOwner ) ) != nil )
{
fD3DInfo.Type = D3DLIGHT_POINT;
hsPoint3 position = omniOwner->GetWorldPosition();
fD3DInfo.Position.x = position.fX;
fD3DInfo.Position.y = position.fY;
fD3DInfo.Position.z = position.fZ;
if( omniOwner->GetRadius() == 0 )
fD3DInfo.Range = maxRange;
else
fD3DInfo.Range = omniOwner->GetRadius();
fD3DInfo.Attenuation0 = omniOwner->GetConstantAttenuation();
fD3DInfo.Attenuation1 = omniOwner->GetLinearAttenuation();
fD3DInfo.Attenuation2 = omniOwner->GetQuadraticAttenuation();
// If the light is a spot, but it has a projected texture, then
// the cone attenuation is handled by the texture. We're only using
// the D3D light for distance attenuation and the N*L term. So
// we can just leave the D3D light as the cheaper and more stable
// Omni light. This sort of obviates the change below. - mf
if( !omniOwner->GetProjection()
&& (spotOwner = plSpotLightInfo::ConvertNoRef(fOwner)) )
{
fD3DInfo.Type = D3DLIGHT_SPOT;
hsVector3 direction = spotOwner->GetWorldDirection();
fD3DInfo.Direction.x = direction.fX;
fD3DInfo.Direction.y = direction.fY;
fD3DInfo.Direction.z = direction.fZ;
fD3DInfo.Falloff = spotOwner->GetFalloff();
fD3DInfo.Theta = spotOwner->GetSpotInner() * 2;
// fD3DInfo.Phi = spotOwner->GetProjection() ? M_PI : spotOwner->GetSpotOuter() * 2;
// D3D doesn't seem to like a Phi of PI, even though that's supposed to be the
// largest legal value. Symptom is an erratic, intermitant, unpredictable failure
// of the light to light, with bizarreness like lighting one object but not the object
// next to it, alternating which object it fails on each frame (or less often).
// So, whatever. - mf
fD3DInfo.Phi = spotOwner->GetSpotOuter() * 2;
}
}
else if( ( dirOwner = plDirectionalLightInfo::ConvertNoRef( fOwner ) ) != nil )
{
fD3DInfo.Type = D3DLIGHT_DIRECTIONAL;
hsVector3 direction = dirOwner->GetWorldDirection();
fD3DInfo.Direction.x = direction.fX;
fD3DInfo.Direction.y = direction.fY;
fD3DInfo.Direction.z = direction.fZ;
}
else
{
hsAssert( false, "Unrecognized light type passed to plDXLightRef::UpdateD3DInfo()" );
return;
}
fD3DDevice->SetLight( fD3DIndex, &fD3DInfo );
fScale = 1.f;
}
//// Destructor ///////////////////////////////////////////////////////////////
plDXLightRef::~plDXLightRef()
{
Release();
}
//// Release //////////////////////////////////////////////////////////////////
void plDXLightRef::Release( void )
{
// Ensure that this light is disabled
if( fD3DDevice )
{
fD3DDevice->LightEnable( fD3DIndex, false );
fD3DDevice = nil;
}
if( fParentSettings )
{
fParentSettings->fEnabledFlags.SetBit( fD3DIndex, false );
fParentSettings->ReleaseD3DIndex( fD3DIndex );
fParentSettings = nil;
}
fD3DIndex = 0;
SetDirty( true );
}
///////////////////////////////////////////////////////////////////////////////
//// plDXRenderTargetRef Functions ///////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
//// Constructor //////////////////////////////////////////////////////////////
plDXRenderTargetRef::plDXRenderTargetRef( D3DFORMAT tp, uint32_t ml, plRenderTarget *owner, hsBool releaseDepthOnDelete )
: plDXTextureRef( tp, ml, owner->GetWidth(), owner->GetHeight(),
owner->GetWidth() * owner->GetHeight(),
owner->GetWidth() * owner->GetHeight() * ( owner->GetPixelSize() >> 3 ),
0,
nil,
nil, true, true )
{
fD3DColorSurface = nil;
fD3DDepthSurface = nil;
fReleaseDepth = releaseDepthOnDelete;
fOwner = owner;
if( owner->GetFlags() & plRenderTarget::kIsTexture )
fFlags |= kOffscreenRT;
if( owner->GetFlags() & plRenderTarget::kIsProjected )
{
if( owner->GetFlags() & plRenderTarget::kIsOrtho )
fFlags |= kOrthoProjection;
else
fFlags |= kPerspProjection;
}
if( plCubicRenderTarget::ConvertNoRef( owner ) != nil )
fFlags |= kCubicMap;
}
//// Set //////////////////////////////////////////////////////////////////////
plDXRenderTargetRef& plDXRenderTargetRef::Set( D3DFORMAT tp, uint32_t ml, plRenderTarget *owner )
{
fOwner = owner;
plDXTextureRef::Set( tp, ml, owner->GetWidth(), owner->GetHeight(),
owner->GetWidth() * owner->GetHeight(),
owner->GetWidth() * owner->GetHeight() * ( owner->GetPixelSize() >> 3 ),
0,
nil,
nil, true, true );
if( owner->GetFlags() & plRenderTarget::kIsTexture )
fFlags |= kOffscreenRT;
if( owner->GetFlags() & plRenderTarget::kIsProjected )
{
if( owner->GetFlags() & plRenderTarget::kIsOrtho )
fFlags |= kOrthoProjection;
else
fFlags |= kPerspProjection;
}
if( plCubicRenderTarget::ConvertNoRef( owner ) != nil )
fFlags |= kCubicMap;
return *this;
}
//// SetTexture ///////////////////////////////////////////////////////////////
void plDXRenderTargetRef::SetTexture( IDirect3DSurface9 *surface, IDirect3DSurface9 *depth )
{
fD3DColorSurface = surface;
fD3DTexture = nil;
fD3DDepthSurface = depth;
}
void plDXRenderTargetRef::SetTexture( IDirect3DTexture9 *surface, IDirect3DSurface9 *depth )
{
fD3DTexture = surface;
fD3DColorSurface = nil;
fD3DDepthSurface = depth;
}
void plDXRenderTargetRef::SetTexture( IDirect3DCubeTexture9 *surface, IDirect3DSurface9 *depth )
{
int i;
IDirect3DSurface9 *surf;
plDXRenderTargetRef *ref;
plCubicRenderTarget *cubic;
D3DCUBEMAP_FACES faces[ 6 ] = { D3DCUBEMAP_FACE_NEGATIVE_X, // Left
D3DCUBEMAP_FACE_POSITIVE_X, // Right
D3DCUBEMAP_FACE_POSITIVE_Z, // Front
D3DCUBEMAP_FACE_NEGATIVE_Z, // Back
D3DCUBEMAP_FACE_POSITIVE_Y, // Top
D3DCUBEMAP_FACE_NEGATIVE_Y }; // Bottom
fD3DTexture = surface;
fD3DDepthSurface = depth;
fD3DColorSurface = nil;
/// Get the faces and assign to each of the child targets
cubic = plCubicRenderTarget::ConvertNoRef( fOwner );
for( i = 0; i < 6; i++ )
{
if( surface->GetCubeMapSurface( faces[ i ], 0, &surf ) != D3D_OK )
{
hsAssert( false, "Unable to get cube map surface" );
continue;
}
ref = (plDXRenderTargetRef *)cubic->GetFace( i )->GetDeviceRef();
ref->SetTexture( surf, depth );
}
}
//// Destructor ///////////////////////////////////////////////////////////////
plDXRenderTargetRef::~plDXRenderTargetRef()
{
Release();
}
//// Release //////////////////////////////////////////////////////////////////
void plDXRenderTargetRef::Release( void )
{
int i;
plCubicRenderTarget *cubic;
plDXRenderTargetRef *ref;
/// Get rid of the children's deviceRefs
if( fFlags & kCubicMap )
{
cubic = plCubicRenderTarget::ConvertNoRef( fOwner );
for( i = 0; i < 6; i++ )
{
ref = (plDXRenderTargetRef *)cubic->GetFace( i )->GetDeviceRef();
ref->Release();
ref->SetDirty( true );
}
// No need to call D3DSURF_MEMDEL on our fD3DTexture. It'll get
// accounted for by our children's surfaces.
}
else
{
// We do internal accounting here. Actual release of fD3DTexture
// happens in plDXTextureRef::Release()
D3DSURF_MEMDEL((IDirect3DTexture9*)fD3DTexture);
}
D3DSURF_MEMDEL(fD3DColorSurface);
ReleaseObject( fD3DColorSurface );
if( fReleaseDepth )
{
// TODO:
// We don't know who all is sharing this depth surface, so we can't
// confidently say this memory is free now. We're reffing and releasing
// it properly as far as DirectX is concerned, but our internal memory
// counter is ignoring it.
//D3DSURF_MEMDEL(fD3DDepthSurface);
ReleaseObject( fD3DDepthSurface );
}
plDXTextureRef::Release();
SetDirty( true );
}