Exemplo n.º 1
0
void DAVA::ShadowVolumeNode::DrawShadow()
{
	Matrix4 prevMatrix = RenderManager::Instance()->GetMatrix(RenderManager::MATRIX_MODELVIEW); 
	Matrix4 meshFinalMatrix = GetWorldTransform() * prevMatrix;
	RenderManager::Instance()->SetMatrix(RenderManager::MATRIX_MODELVIEW, meshFinalMatrix);

	Matrix4 projMatrix = RenderManager::Instance()->GetMatrix(RenderManager::MATRIX_PROJECTION);

	RenderManager::Instance()->SetShader(shader);
	RenderManager::Instance()->SetRenderData(shadowPolygonGroup->renderDataObject);
	RenderManager::Instance()->FlushState();
	RenderManager::Instance()->AttachRenderData();

	Vector3 position = Vector3() * GetWorldTransform();
	Light * light = scene->GetNearestDynamicLight(Light::TYPE_COUNT, position);
	if (light && uniformLightPosition0 != -1)
	{
		Vector3 lightPosition0 = light->GetPosition();
		const Matrix4 & matrix = scene->GetCurrentCamera()->GetMatrix();
		lightPosition0 = lightPosition0 * matrix;

		shader->SetUniformValueByIndex(uniformLightPosition0, lightPosition0);
	}

	if (shadowPolygonGroup->renderDataObject->GetIndexBufferID() != 0)
	{
		RenderManager::Instance()->HWDrawElements(PRIMITIVETYPE_TRIANGLELIST, shadowPolygonGroup->indexCount, EIF_16, 0);
	}
	else
	{
		RenderManager::Instance()->HWDrawElements(PRIMITIVETYPE_TRIANGLELIST, shadowPolygonGroup->indexCount, EIF_16, shadowPolygonGroup->indexArray);
	}

	RenderManager::Instance()->SetMatrix(RenderManager::MATRIX_MODELVIEW, prevMatrix);
}
Exemplo n.º 2
0
void CannonTower::Fire(){
	//Get closest enemy
	Enemy * enemy = mGame.GetWorld().GetClosestEnemy(GetWorldTransform().GetTranslation());
	if (enemy == nullptr)
		return;

	//Turn to enemy direction
	SetRotation(0);
	Vector3 enemyDir = enemy->GetPosition() - GetWorldTransform().GetTranslation();
	enemyDir.Normalize();
	Vector3 towerPos = GetWorldTransform().GetTranslation();
	float angle = Math::Acos(Dot(enemyDir, Vector3::UnitX));
	float crossZ = Cross(Vector3::UnitX, enemyDir).z;
	if (crossZ < 0.0f){
		angle *= -1.0f;
	}
	SetRotation(angle);

	//Fire the ball
	auto ball = CannonBall::Spawn(mGame);
	ball->SetPosition(GetWorldTransform().GetTranslation());
	ball->SetRotation(angle);

	//Trigger the sound
	mAudio->PlaySound(mShottingSound);
}
Exemplo n.º 3
0
void KTraceEMF::CompareDC(HDC hDC)
{
	Compare(m_value[0],  GetMapMode(hDC),						"MapMode      : %d\r\n");
	Compare(m_value[1],  GetGraphicsMode(hDC),					"GraphicsMode : %d\r\n");
	
	XFORM xm;
	GetWorldTransform(hDC, & xm);
	Compare(m_float[0],  xm.eM11,								"WT.eM11      : %8.5f\r\n");
	Compare(m_float[1],  xm.eM12,								"WT.eM12      : %8.5f\r\n");
	Compare(m_float[2],  xm.eM21,								"WT.eM21      : %8.5f\r\n");
	Compare(m_float[3],  xm.eM22,								"WT.eM22      : %8.5f\r\n");
	Compare(m_float[4],  xm.eDx,								"WT.eDx       : %8.5f\r\n");
	Compare(m_float[5],  xm.eDy,								"WT.eDy       : %8.5f\r\n");

	Compare(m_value[2],  GetBkMode(hDC),						"BkMode       : %d\r\n");
	Compare(m_value[3],  GetROP2(hDC),							"ROP2         : %d\r\n");
	Compare(m_value[4],  ((int)GetTextAlign(hDC)),				"TextAlign    : 0x%x\r\n");

	Compare(m_object[0], GetCurrentObject(hDC, OBJ_PEN),		"Pen          : 0x%08x\r\n");
	Compare(m_object[1], GetCurrentObject(hDC, OBJ_BRUSH),		"Brush        : 0x%08x\r\n");
	Compare(m_object[2], GetCurrentObject(hDC, OBJ_FONT),		"Font         : 0x%08x\r\n");
	Compare(m_object[3], GetCurrentObject(hDC, OBJ_PAL),		"Palette      : 0x%08x\r\n");
	Compare(m_object[4], GetCurrentObject(hDC, OBJ_COLORSPACE),	"ColorSpace   : 0x%08x\r\n");
	Compare(m_object[5], GetCurrentObject(hDC, OBJ_BITMAP),		"Bitmap       : 0x%08x\r\n");
}
void LindenmayerTreeNode::Render(OGLRenderer& r, bool render_children) {
	if (r.GetCurrentShader() != shader) r.SetCurrentShader(shader);
	r.UpdateShaderMatrices();
	Matrix4 transform = GetWorldTransform() * Matrix4::Scale(GetModelScale());
	glUniformMatrix4fv(glGetUniformLocation(GetShader()->GetProgram(), "modelMatrix"), 1, false, (float*)&transform);
	glUniformMatrix4fv(glGetUniformLocation(GetShader()->GetProgram(), "textureMatrix"), 1, false, (float*)&GetTextureMatrix());
	glUniform4fv(glGetUniformLocation(GetShader()->GetProgram(), "nodeColour"), 1, (float*)&GetColour());

	/*Draw the branches first to reduce expensive BindTexture calls*/
	glActiveTexture(GL_TEXTURE0);
	glBindTexture(GL_TEXTURE_2D, textures[0].id);
	for (auto it = children.begin(); it != children.end(); ++it) {
		mem_usage += sizeof(LBranchNode);
		(*it)->Render(r, false);
	}
	/*Then draw the "leaves", turning off alpha blending to do so*/
	glBindTexture(GL_TEXTURE_2D, textures[1].id);
	glDisable(GL_BLEND);
	for (auto it = children.begin(); it != children.end(); ++it) {
		for (auto it2 = (*it)->GetChildIteratorStart(); it2 != (*it)->GetChildIteratorEnd(); ++it2) {
			mem_usage += sizeof(LLeafNode) + sizeof(ParticleEmitter);
			(*it2)->Render(r, false);
		}
	}
	glEnable(GL_BLEND);
}
Exemplo n.º 5
0
void MacPrinterCanvas::start(float scale) {
	static char szMsg[] = "NEURON";
	scale_ = scale;
	if (!get()) {
		return;
	}
	//if (!Escape(hdc, STARTDOC, sizeof szMsg-1, szMsg, NULL)) {
		//DebugMessage("STARTDOC failed\n");
	//	abort();
	//}
	DOCINFO di;
  di.cbSize      = sizeof(DOCINFO);
  di.lpszDocName = "NEURON";
  di.lpszOutput  = NULL;
	
	StartDoc(hdc, &di);
	StartPage(hdc);
//	SetMapMode(hdc, MM_TWIPS);
	int a = GetMapMode(hdc);
	SIZE b; GetViewportExtEx(hdc, &b);
	POINT c; GetViewportOrgEx(hdc, &c);
	XFORM d; GetWorldTransform(hdc, &d);
	if (a < -10) { return; }
	damage_all();
	RECT r;
	//SetRectRgn(&r, 0, 0, hres_/2, vres_/2);
	r.left = 0; r.top=0; r.right = hres_; r.bottom=vres_;
	beginPaint(hdc, r);
	//SelectClipRgn(hdc, NULL);

	//d.eM11 = d.eM22 *= 2.;	
	//SetWorldTransform(hdc, &d);
}
Exemplo n.º 6
0
bool SG_Spatial::inside(const MT_Point3 &point) const
{
	MT_Scalar radius = m_worldScaling[m_worldScaling.closestAxis()]*m_radius;
	return (m_worldPosition.distance2(point) <= radius*radius) ?
		m_bbox.transform(GetWorldTransform()).inside(point) :
		false;
}
Exemplo n.º 7
0
void DIBPixelData::setRGBABitmapAlpha(HDC hdc, const IntRect& dstRect, unsigned char level)
{
    HBITMAP bitmap = static_cast<HBITMAP>(GetCurrentObject(hdc, OBJ_BITMAP));
    DIBPixelData pixelData(bitmap);
    ASSERT(pixelData.bitsPerPixel() == 32);

    IntRect drawRect(dstRect);
    XFORM trans;
    GetWorldTransform(hdc, &trans);
    IntSize transformedPosition(trans.eDx, trans.eDy);
    drawRect.move(transformedPosition);

    int pixelDataWidth = pixelData.size().width();
    int pixelDataHeight = pixelData.size().height();
    IntRect bitmapRect(0, 0, pixelDataWidth, pixelDataHeight);
    drawRect.intersect(bitmapRect);
    if (drawRect.isEmpty())
        return;

    RGBQUAD* bytes = reinterpret_cast<RGBQUAD*>(pixelData.buffer());
    bytes += drawRect.y() * pixelDataWidth;

    size_t width = drawRect.width();
    size_t height = drawRect.height();
    int x = drawRect.x();
    for (size_t i = 0; i < height; i++) {
        RGBQUAD* p = bytes + x;
        for (size_t j = 0; j < width; j++) {
            p->rgbReserved = level;
            p++;
        }
        bytes += pixelDataWidth;
    }
}
void
_cairo_win32_display_surface_unset_clip (cairo_win32_display_surface_t *surface)
{
    XFORM saved_xform;
    int gm = GetGraphicsMode (surface->win32.dc);
    if (gm == GM_ADVANCED) {
	GetWorldTransform (surface->win32.dc, &saved_xform);
	ModifyWorldTransform (surface->win32.dc, NULL, MWT_IDENTITY);
    }

    /* initial_clip_rgn will either be a real region or NULL (which means reset to no clip region) */
    SelectClipRgn (surface->win32.dc, surface->initial_clip_rgn);

    if (surface->had_simple_clip) {
	/* then if we had a simple clip, intersect */
	IntersectClipRect (surface->win32.dc,
			   surface->win32.extents.x,
			   surface->win32.extents.y,
			   surface->win32.extents.x + surface->win32.extents.width,
			   surface->win32.extents.y + surface->win32.extents.height);
    }

    if (gm == GM_ADVANCED)
	SetWorldTransform (surface->win32.dc, &saved_xform);
}
Exemplo n.º 9
0
	void	cScreenCapture::Render(Vector3 e_vPos,int e_iWidth,int e_iHeight)
	{
		if( m_uiWidth == -1 )
			return;
		glBindTexture( GL_TEXTURE_2D, m_uiTextureID);
		e_iWidth /= 2;
		e_iHeight /= 2;

		float	l_fTexPointer[] = {  0,1,
									 1,1,
									 0,0,
									 1,0};
		
		float	l_Vertices[] = { (float)-e_iWidth,(float)-e_iHeight,0,
								 (float)e_iWidth, (float)-e_iHeight,0,
								 (float)-e_iWidth, (float)e_iHeight,0,
								 (float)e_iWidth,(float)e_iHeight,0};

		cMatrix44	l_mat = cMatrix44::TranslationMatrix(Vector3((float)(e_vPos.x+e_iWidth),(float)(e_vPos.y+e_iHeight), e_vPos.z));
		SetupShaderWorldMatrix(l_mat*GetWorldTransform());
		myGlVertexPointer(3,l_Vertices);
		myGlUVPointer(2,l_fTexPointer);
		ASSIGN_2D_COLOR(Vector4::One);
		MY_GLDRAW_ARRAYS(GL_TRIANGLE_STRIP, 0, 4);

	}
Exemplo n.º 10
0
void StencilEffects::RenderPlayfieldEffect()
{
    if (!GAMECONTEXT)
        return;

    auto playfield = PLAYFIELD.Get();
    if (!playfield)
        return;

    if (!m_bPlayfieldEffectVisible)
        return;

    GraphicsDriver::Instance()->SetTransform(GraphicsDriver::TS_World, playfield->GetWorldTransform());
    if (m_TilesVB.IsValid())
    {
        // Fill stencil with 1s
        GraphicsDriver::Instance()->SetStencilFunc(GraphicsDriver::CF_Always, 1, 0xff);
        GraphicsDriver::Instance()->SetStencilOps(GraphicsDriver::SO_Keep, GraphicsDriver::SO_Keep, GraphicsDriver::SO_Replace);

        m_TilesMaterial->Begin();
        m_TilesMaterial->GetShader()->GetConstant("uAmbientColor")->Set(&Color::White, 1);
        m_TilesMaterial->GetShader()->Begin();
        m_TilesVB->Begin(m_TilesMaterial->GetShader());
        m_TilesVB->Draw();
    }

    GraphicsDriver::Instance()->SetRenderState(GraphicsDriver::RS_StencilWriting, 0); // no more writing into the stencil buffer
    GraphicsDriver::Instance()->SetStencilFunc(GraphicsDriver::CF_NotEqual, 1, 0xff); // Render only where stencil is not 1

    m_DefaultMaterial->Begin();
    m_DefaultMaterial->GetShader()->GetConstant("uAmbientColor")->Set(&m_PlayfieldHighlight, 1);
    m_DefaultMaterial->GetShader()->Begin();
    m_PlayfieldVB->Begin(m_DefaultMaterial->GetShader());
    m_PlayfieldVB->Draw();
}
Exemplo n.º 11
0
void DynamicEntityNode::DynamicMove(sf::Vector2f Disp, bool SweepBothDirections)
{
	unsigned int CollisionMask = eCollisionGroup::Monster | eCollisionGroup::Static | eCollisionGroup::Player | eCollisionGroup::Pickup;
	float SweepTmax = 1.5f;

	if (SweepBothDirections)
	{
		if (Disp.x != 0.0f)
		{
			HitInfo Hit;
			GetWorld()->GetQuadTree()->SweepShapeClosest(*GetCollisionShape(), GetWorldTransform(), sf::Vector2f(Disp.x, 0.0f), SweepTmax, CollisionMask, this, Hit);

			if (Hit.m_pObject)
			{
				Disp.x = 0.0f;
				OnTouch(Hit.m_pObject);
			}
		}

		if (Disp.y != 0.0f)
		{
			HitInfo Hit;
			GetWorld()->GetQuadTree()->SweepShapeClosest(*GetCollisionShape(), GetWorldTransform(), sf::Vector2f(0.0f, Disp.y), SweepTmax, CollisionMask, this, Hit);

			if (Hit.m_pObject)
			{
				Disp.y = 0.0f;
				OnTouch(Hit.m_pObject);
			}
		}
	}
	else
	{
		HitInfo Hit;
		GetWorld()->GetQuadTree()->SweepShapeClosest(*GetCollisionShape(), GetWorldTransform(), Disp, SweepTmax, CollisionMask, this, Hit);

		if (Hit.m_pObject)
		{
			Disp.x = 0.0f;
			Disp.y = 0.0f;
			OnTouch(Hit.m_pObject);
		}
	}

	Move(Disp);
}
Exemplo n.º 12
0
void FrostTower::FrostEnemies(){
	//Get the near enemies vector
	std::vector<Enemy *> enemies = mGame.GetWorld().GetEnemiesInRange(GetWorldTransform().GetTranslation(), 100.0f);

	for (Enemy * enemy : enemies){
		enemy->Slow();
	}
}
static cairo_int_status_t
_cairo_win32_save_initial_clip (HDC hdc, cairo_win32_display_surface_t *surface)
{
    RECT rect;
    int clipBoxType;
    int gm;
    XFORM saved_xform;

    /* GetClipBox/GetClipRgn and friends interact badly with a world transform
     * set.  GetClipBox returns values in logical (transformed) coordinates;
     * it's unclear what GetClipRgn returns, because the region is empty in the
     * case of a SIMPLEREGION clip, but I assume device (untransformed) coordinates.
     * Similarly, IntersectClipRect works in logical units, whereas SelectClipRgn
     * works in device units.
     *
     * So, avoid the whole mess and get rid of the world transform
     * while we store our initial data and when we restore initial coordinates.
     *
     * XXX we may need to modify x/y by the ViewportOrg or WindowOrg
     * here in GM_COMPATIBLE; unclear.
     */
    gm = GetGraphicsMode (hdc);
    if (gm == GM_ADVANCED) {
	GetWorldTransform (hdc, &saved_xform);
	ModifyWorldTransform (hdc, NULL, MWT_IDENTITY);
    }

    clipBoxType = GetClipBox (hdc, &rect);
    if (clipBoxType == ERROR) {
	_cairo_win32_print_gdi_error (__FUNCTION__);
	SetGraphicsMode (hdc, gm);
	/* XXX: Can we make a more reasonable guess at the error cause here? */
	return _cairo_error (CAIRO_STATUS_DEVICE_ERROR);
    }

    surface->win32.extents.x = rect.left;
    surface->win32.extents.y = rect.top;
    surface->win32.extents.width = rect.right - rect.left;
    surface->win32.extents.height = rect.bottom - rect.top;

    surface->initial_clip_rgn = NULL;
    surface->had_simple_clip = FALSE;

    if (clipBoxType == COMPLEXREGION) {
	surface->initial_clip_rgn = CreateRectRgn (0, 0, 0, 0);
	if (GetClipRgn (hdc, surface->initial_clip_rgn) <= 0) {
	    DeleteObject(surface->initial_clip_rgn);
	    surface->initial_clip_rgn = NULL;
	}
    } else if (clipBoxType == SIMPLEREGION) {
	surface->had_simple_clip = TRUE;
    }

    if (gm == GM_ADVANCED)
	SetWorldTransform (hdc, &saved_xform);

    return CAIRO_STATUS_SUCCESS;
}
Exemplo n.º 14
0
//------------------------------------------------------------------------
// Update the vegetation object.
//------------------------------------------------------------------------
void etVegetationObject::UpdateObject(void)
{
    if( m_Type == VGT_MESH && 
        m_nDirtyState != m_pMesh->GetDirtyState() )
        Reinitialize();

    m_WorldBBox = m_Bounds;
    m_WorldBBox.TransformBox( GetWorldTransform() );
}
Exemplo n.º 15
0
        KFbxXMatrix FilmboxNode::GetLocalTransform( int frame ) const
        {
            KFbxXMatrix world_transform  = GetWorldTransform( frame );
            KFbxXMatrix parent_transform = GetParentWorldTransform( frame );
            KFbxXMatrix world_to_local   = parent_transform.Inverse();
            KFbxXMatrix local_transform  = world_to_local * world_transform;

            return local_transform;
        }
Exemplo n.º 16
0
        //----------------------------------------------------------------
		/// Get World Orientation
		///
		/// @return Orientation quaternion relative to parent
		//----------------------------------------------------------------
		const Quaternion& Transform::GetWorldOrientation() const
		{
            if(mpParentTransform)
            {
                mqWorldOrientation = Core::Quaternion(GetWorldTransform());
                return mqWorldOrientation;
            }
            
            return mqOrientation;
		}
Exemplo n.º 17
0
        //----------------------------------------------------------------
		/// Get World Position
		///
		/// @return The relative position of the object 
		//----------------------------------------------------------------
		const Vector3& Transform::GetWorldPosition() const
		{
            if(mpParentTransform)
            {
                mvWorldPosition = GetWorldTransform().GetTranslation();
                return mvWorldPosition;
            }
            
			return mvPosition;
		}
Exemplo n.º 18
0
//------------------------------------------------------------------------
// Update the terrain tile for the terrain level.
//------------------------------------------------------------------------
void etTile::UpdateObject(void)
{
    m_WorldBBox = m_Bounds;
    m_WorldBBox.TransformBox( GetWorldTransform() );

    if( m_bModified )
    {
        UpdateHeightData();
        m_pSelected->BuildGeometry();
        m_bModified = false;
    }
}
Exemplo n.º 19
0
void PolyDataObject::ObjectAddedToScene()
{
    connect( GetManager(), SIGNAL(ReferenceObjectChanged()), this, SLOT(OnReferenceChanged()) );
    connect( GetManager(), SIGNAL(ReferenceTransformChanged()), this, SLOT(OnReferenceChanged()) );
    connect( GetManager(), SIGNAL(CursorPositionChanged()), this, SLOT(OnCursorPositionChanged()) );
    connect( GetManager(), SIGNAL(StartCursorInteraction()), this, SLOT(OnStartCursorInteraction()) );
    connect( GetManager(), SIGNAL(EndCursorInteraction()), this, SLOT(OnEndCursorInteraction()) );
    m_referenceToPolyTransform->Identity();
    m_referenceToPolyTransform->Concatenate( GetWorldTransform() );
    m_referenceToPolyTransform->Concatenate( GetManager()->GetInverseReferenceTransform() );
    UpdateCuttingPlane();
    UpdateClippingPlanes();
}
Exemplo n.º 20
0
void Node::SetParent(Node* parent)
{
    if (parent)
    {
        Vector3 worldPosition;
        Quaternion worldRotation;
        Vector3 worldScale;
        GetWorldTransform().Decompose(worldPosition, worldRotation, worldScale);
        
        parent->AddChild(this);
        SetWorldTransform(worldPosition, worldRotation, worldScale);
    }
}
Exemplo n.º 21
0
bool HesperisIO::CreateCurveGroup(MDagPathArray & paths, CurveGroup * dst)
{
    MStatus stat;
	const unsigned n = paths.length();
	unsigned i, j;
	int numCvs = 0;
	unsigned numNodes = 0;
    
    for(i=0; i< n; i++) {
		if(!IsCurveValid(paths[i])) continue;
		MFnNurbsCurve fcurve(paths[i].node());
		numCvs += fcurve.numCVs();
		numNodes++;
	}
    
    if(numCvs < 4) {
		MGlobal::displayInfo(" too fews cvs!");
		return false;
	}
    
    dst->create(numNodes, numCvs);
    Vector3F * pnts = dst->points();
	unsigned * counts = dst->counts();
    
    unsigned inode = 0;
	unsigned icv = 0;
	unsigned nj;
	MPoint wp;
	MMatrix worldTm;
	for(i=0; i< n; i++) {
		if(!IsCurveValid(paths[i])) continue;
		
		worldTm = GetWorldTransform(paths[i]);
		
		MFnNurbsCurve fcurve(paths[i].node());
		nj = fcurve.numCVs();
		MPointArray ps;
		fcurve.getCVs(ps, MSpace::kWorld);
		
		counts[inode] = nj;
		inode++;
		
		for(j=0; j<nj; j++) {
			wp = ps[j] * worldTm;
			pnts[icv].set((float)wp.x, (float)wp.y, (float)wp.z);
			icv++;
		}
	}
    return true;
}
Exemplo n.º 22
0
bool HesperisPolygonalMeshIO::CreateMeshData(APolygonalMesh * data, const MDagPath & path)
{
    MGlobal::displayInfo(MString("todo poly mesh write ")+path.fullPathName());
    MStatus stat;
    MFnMesh fmesh(path.node(), &stat);
    if(!stat) {
        MGlobal::displayInfo(MString(" not a mesh ") + path.fullPathName());
        return false;
    }
    
    unsigned np = fmesh.numVertices();
    unsigned nf = fmesh.numPolygons();
    unsigned ni = fmesh.numFaceVertices();
    
    data->create(np, ni, nf);
    Vector3F * pnts = data->points();
	unsigned * inds = data->indices();
    unsigned * cnts = data->faceCounts();
    
    MPointArray ps;
    MPoint wp;
	MMatrix worldTm;
    
    worldTm = GetWorldTransform(path);
    fmesh.getPoints(ps, MSpace::kObject);
	
    unsigned i = 0;
    for(;i<np;i++) {
        wp  = ps[i] * worldTm;
        pnts[i].set((float)wp.x, (float)wp.y, (float)wp.z);
    }
    
    unsigned j;
    unsigned acc = 0;
    MIntArray vertices;
    MItMeshPolygon faceIt(path);
    for(i=0; !faceIt.isDone(); faceIt.next(), i++) {
        cnts[i] = faceIt.polygonVertexCount();
        faceIt.getVertices(vertices);
        for(j = 0; j < vertices.length(); j++) {
            inds[acc] = vertices[j];
            acc++;
        }
    }
    
    data->computeFaceDrift();
    return true;
}
Exemplo n.º 23
0
void CPlayer::Render( CRenderEngine &rndr )
{
	/* Debug: draw a small white sphere at the player's position */
	Sphere_PosRad s;
	s.radius = 0.15f;
	s.pos = m_transform.GetTranslation();
	s.pos.y += 0.5f * s.radius;
	Color_4 c;
	c.a = 1.0f;
	c.r = 0.3f;
	c.g = 0.3f;
	c.b = 1.0f;
	rndr.DrawDebugSphere(s, c);

	/* Draw Player Model */
	m_pModel->SetRenderFunc(m_pModel->RenderFuncs.lightAndTexture);
	m_pModel->Render( rndr, GetWorldTransform(), rndr.GetShaderManager() );
}
Exemplo n.º 24
0
void DebugNode::Draw()
{
	Entity::Draw();
	if (!isDraw)
		return;
	if (verts.size() == 0)
		return;
	
	Matrix4 prevMatrix = RenderManager::Instance()->GetMatrix(RenderManager::MATRIX_MODELVIEW); 
	Matrix4 meshFinalMatrix = GetWorldTransform() * prevMatrix;
    
    RenderManager::Instance()->SetMatrix(RenderManager::MATRIX_MODELVIEW, meshFinalMatrix);	
    RenderManager::Instance()->SetRenderEffect(RenderManager::FLAT_COLOR);

    RenderManager::Instance()->SetRenderData(renderData);
	RenderManager::Instance()->DrawArrays(PRIMITIVETYPE_LINELIST, 0, verts.size()/3);
    
    RenderManager::Instance()->SetMatrix(RenderManager::MATRIX_MODELVIEW, prevMatrix);    
}
Exemplo n.º 25
0
    void SceneManager::UpdateRenderData(std::map<unsigned int, SceneNode *> nodes) const
    {
        // for each node
        for (auto iter : nodes)
        {
            // check this node
            auto node = iter.second;

            // prep the world transform for this node
            Matrix world_transform = node->GetWorldTransform();

            Light * pLight = node->GetLight();

            // make render data for this node
            if (RenderSet * rs = node->GetRenderSet())
            {
                rs->worldTransform = world_transform;

                // if this renderable has a light attached
                // then it emits light and should use a different
                // shader
                rs->emitsLight = node->EmitsLight();

                // set the render sets material
                rs->material = node->GetMaterial();
            }

            // see if it is a light
            if (pLight != nullptr)
            {
                pLight->worldTransform = world_transform;
            }

            // recurse each child node
            this->UpdateRenderData(node->GetChildren());
        }
    }
Exemplo n.º 26
0
	void BMaxObject::LoadPhysics()
	{
		if (m_dwPhysicsMethod > 0 && IsPhysicsEnabled() && (GetStaticActorCount() == 0))
		{
			if (m_pAnimatedMesh && m_pAnimatedMesh->IsLoaded())
			{
				CParaXModel* ppMesh = m_pAnimatedMesh->GetModel();
				if (ppMesh == 0 || ppMesh->GetHeader().maxExtent.x <= 0.f)
				{
					EnablePhysics(false); // disable physics forever, if failed loading physics data
					return;
				}
				// get world transform matrix
				Matrix4 mxWorld;
				GetWorldTransform(mxWorld);
				IParaPhysicsActor* pActor = CGlobals::GetPhysicsWorld()->CreateStaticMesh(m_pAnimatedMesh.get(), mxWorld, m_nPhysicsGroup, &m_staticActors, this);
				if (m_staticActors.empty())
				{
					// disable physics forever, if no physics actors are loaded. 
					EnablePhysics(false);
				}
			}
		}
	}
Exemplo n.º 27
0
void LodNode::RecheckLod()
{
//#define LOD_DEBUG
    if (!currentLod)return;

    if (INVALID_LOD_LAYER != forceLodLayer) 
    {
        for (List<LodData>::iterator it = lodLayers.begin(); it != lodLayers.end(); it++)
        {
            if (it->layer >= forceLodLayer)
            {
                currentLod = &(*it);
                return;
            }
        }
            return;
    }
    
#ifdef LOD_DEBUG
    int32 cl = currentLod->layer;
#endif
    {
        float32 dst = 0.f;
        if(INVALID_DISTANCE == forceDistance)
        {
            if(scene->GetCurrentCamera())
            {
                dst = (scene->GetCurrentCamera()->GetPosition() - GetWorldTransform().GetTranslationVector()).SquareLength();
                dst *= scene->GetCurrentCamera()->GetZoomFactor() * scene->GetCurrentCamera()->GetZoomFactor();
            }
        }
        else 
        {
            dst = forceDistanceSq;
        }
        
        if (dst > GetLodLayerFarSquare(currentLod->layer) || dst < GetLodLayerNearSquare(currentLod->layer))
        {
            for (List<LodData>::iterator it = lodLayers.begin(); it != lodLayers.end(); it++)
            {
                if (dst >= GetLodLayerNearSquare(it->layer))
                {
                    currentLod = &(*it);
                }
                else 
                {
#ifdef LOD_DEBUG
                    if (cl != currentLod->layer) 
                    {
                        Logger::Info("Switch lod to %d", currentLod->layer);
                    }
#endif
                    return;
                }
            }
        }
    }
#ifdef LOD_DEBUG
    if (cl != currentLod->layer) 
    {
        Logger::Info("Switch lod to %d", currentLod->layer);
    }
#endif
}
Exemplo n.º 28
0
void SG_Spatial::getAABBox(MT_Point3 *box) const
{
	m_bbox.getaa(box, GetWorldTransform());
}
HDC
gfxWindowsNativeDrawing::BeginNativeDrawing()
{
    if (mRenderState == RENDER_STATE_INIT) {
        nsRefPtr<gfxASurface> surf;
        
        if (mContext->GetCairo()) {
          surf = mContext->CurrentSurface(&mDeviceOffset.x, &mDeviceOffset.y);
        }

        if (surf && surf->CairoStatus())
            return nsnull;

        gfxMatrix m = mContext->CurrentMatrix();
        if (!m.HasNonTranslation())
            mTransformType = TRANSLATION_ONLY;
        else if (m.HasNonAxisAlignedTransform())
            mTransformType = COMPLEX;
        else
            mTransformType = AXIS_ALIGNED_SCALE;

        // if this is a native win32 surface, we don't have to
        // redirect rendering to our own HDC; in some cases,
        // we may be able to use the HDC from the surface directly.
        if (surf &&
            ((surf->GetType() == gfxASurface::SurfaceTypeWin32 ||
              surf->GetType() == gfxASurface::SurfaceTypeWin32Printing) &&
              (surf->GetContentType() == gfxASurface::CONTENT_COLOR ||
               (surf->GetContentType() == gfxASurface::CONTENT_COLOR_ALPHA &&
               (mNativeDrawFlags & CAN_DRAW_TO_COLOR_ALPHA)))))
        {
            // grab the DC. This can fail if there is a complex clipping path,
            // in which case we'll have to fall back.
            mWinSurface = static_cast<gfxWindowsSurface*>(static_cast<gfxASurface*>(surf.get()));
            mDC = mWinSurface->GetDCWithClip(mContext);

            if (mDC) {
                if (mTransformType == TRANSLATION_ONLY) {
                    mRenderState = RENDER_STATE_NATIVE_DRAWING;

                    mTranslation = m.GetTranslation();
                } else if (((mTransformType == AXIS_ALIGNED_SCALE)
                            && (mNativeDrawFlags & CAN_AXIS_ALIGNED_SCALE)) ||
                           (mNativeDrawFlags & CAN_COMPLEX_TRANSFORM))
                {
                    mWorldTransform.eM11 = (FLOAT) m.xx;
                    mWorldTransform.eM12 = (FLOAT) m.yx;
                    mWorldTransform.eM21 = (FLOAT) m.xy;
                    mWorldTransform.eM22 = (FLOAT) m.yy;
                    mWorldTransform.eDx  = (FLOAT) m.x0;
                    mWorldTransform.eDy  = (FLOAT) m.y0;

                    mRenderState = RENDER_STATE_NATIVE_DRAWING;
                }
            }
        }

        // If we couldn't do native drawing, then we have to do two-buffer drawing
        // and do alpha recovery
        if (mRenderState == RENDER_STATE_INIT) {
            mRenderState = RENDER_STATE_ALPHA_RECOVERY_BLACK;

            // We round out our native rect here, that way the snapping will
            // happen correctly.
            mNativeRect.RoundOut();

            // we only do the scale bit if we can do an axis aligned
            // scale; otherwise we scale (if necessary) after
            // rendering with cairo.  Note that if we're doing alpha recovery,
            // we cannot do a full complex transform with win32 (I mean, we could, but
            // it would require more code that's not here.)
            if (mTransformType == TRANSLATION_ONLY || !(mNativeDrawFlags & CAN_AXIS_ALIGNED_SCALE)) {
                mScale = gfxSize(1.0, 1.0);

                // Add 1 to the surface size; it's guaranteed to not be incorrect,
                // and it fixes bug 382458
                // There's probably a better fix, but I haven't figured out
                // the root cause of the problem.
                mTempSurfaceSize =
                    gfxIntSize((PRInt32) ceil(mNativeRect.Width() + 1),
                               (PRInt32) ceil(mNativeRect.Height() + 1));
            } else {
                // figure out the scale factors
                mScale = m.ScaleFactors(true);

                mWorldTransform.eM11 = (FLOAT) mScale.width;
                mWorldTransform.eM12 = 0.0f;
                mWorldTransform.eM21 = 0.0f;
                mWorldTransform.eM22 = (FLOAT) mScale.height;
                mWorldTransform.eDx  = 0.0f;
                mWorldTransform.eDy  = 0.0f;

                // See comment above about "+1"
                mTempSurfaceSize =
                    gfxIntSize((PRInt32) ceil(mNativeRect.Width() * mScale.width + 1),
                               (PRInt32) ceil(mNativeRect.Height() * mScale.height + 1));
            }
        }
    }

    if (mRenderState == RENDER_STATE_NATIVE_DRAWING) {
        // we can just do native drawing directly to the context's surface

        // do we need to use SetWorldTransform?
        if (mTransformType != TRANSLATION_ONLY) {
            SetGraphicsMode(mDC, GM_ADVANCED);
            GetWorldTransform(mDC, &mOldWorldTransform);
            SetWorldTransform(mDC, &mWorldTransform);
        }
        GetViewportOrgEx(mDC, &mOrigViewportOrigin);
        SetViewportOrgEx(mDC,
                         mOrigViewportOrigin.x + (int)mDeviceOffset.x,
                         mOrigViewportOrigin.y + (int)mDeviceOffset.y,
                         NULL);

        return mDC;
    } else if (mRenderState == RENDER_STATE_ALPHA_RECOVERY_BLACK ||
               mRenderState == RENDER_STATE_ALPHA_RECOVERY_WHITE)
    {
        // we're going to use mWinSurface to create our temporary surface here

        // get us a RGB24 DIB; DIB is important, because
        // we can later call GetImageSurface on it.
        mWinSurface = new gfxWindowsSurface(mTempSurfaceSize);
        mDC = mWinSurface->GetDC();

        RECT r = { 0, 0, mTempSurfaceSize.width, mTempSurfaceSize.height };
        if (mRenderState == RENDER_STATE_ALPHA_RECOVERY_BLACK)
            FillRect(mDC, &r, (HBRUSH)GetStockObject(BLACK_BRUSH));
        else
            FillRect(mDC, &r, (HBRUSH)GetStockObject(WHITE_BRUSH));

        if ((mTransformType != TRANSLATION_ONLY) &&
            (mNativeDrawFlags & CAN_AXIS_ALIGNED_SCALE))
        {
            SetGraphicsMode(mDC, GM_ADVANCED);
            SetWorldTransform(mDC, &mWorldTransform);
        }

        return mDC;
    } else {
        NS_ERROR("Bogus render state!");
        return nsnull;
    }
}
Exemplo n.º 30
0
static void drawGDIGlyphs(GraphicsContext* graphicsContext, const SimpleFontData* font, const GlyphBuffer& glyphBuffer,
                          int from, int numGlyphs, const FloatPoint& point)
{
    Color fillColor = graphicsContext->fillColor();

    bool drawIntoBitmap = false;
    TextDrawingModeFlags drawingMode = graphicsContext->textDrawingMode();
    if (drawingMode == TextModeFill) {
        if (!fillColor.alpha())
            return;

        drawIntoBitmap = fillColor.alpha() != 255 || graphicsContext->inTransparencyLayer();
        if (!drawIntoBitmap) {
            FloatSize offset;
            float blur;
            Color color;
            ColorSpace shadowColorSpace;

            graphicsContext->getShadow(offset, blur, color, shadowColorSpace);
            drawIntoBitmap = offset.width() || offset.height() || blur;
        }
    }

    // We have to convert CG's two-dimensional floating point advances to just horizontal integer advances.
    Vector<int, 2048> gdiAdvances;
    int totalWidth = 0;
    for (int i = 0; i < numGlyphs; i++) {
        gdiAdvances.append(lroundf(glyphBuffer.advanceAt(from + i)));
        totalWidth += gdiAdvances[i];
    }

    HDC hdc = 0;
    OwnPtr<GraphicsContext::WindowsBitmap> bitmap;
    IntRect textRect;
    if (!drawIntoBitmap)
        hdc = graphicsContext->getWindowsContext(textRect, true, false);
    if (!hdc) {
        drawIntoBitmap = true;
        // We put slop into this rect, since glyphs can overflow the ascent/descent bounds and the left/right edges.
        // FIXME: Can get glyphs' optical bounds (even from CG) to get this right.
        const FontMetrics& fontMetrics = font->fontMetrics();
        int lineGap = fontMetrics.lineGap();
        textRect = IntRect(point.x() - (fontMetrics.ascent() + fontMetrics.descent()) / 2,
                           point.y() - fontMetrics.ascent() - lineGap,
                           totalWidth + fontMetrics.ascent() + fontMetrics.descent(),
                           fontMetrics.lineSpacing());
        bitmap = graphicsContext->createWindowsBitmap(textRect.size());
        memset(bitmap->buffer(), 255, bitmap->bufferLength());
        hdc = bitmap->hdc();

        XFORM xform;
        xform.eM11 = 1.0f;
        xform.eM12 = 0.0f;
        xform.eM21 = 0.0f;
        xform.eM22 = 1.0f;
        xform.eDx = -textRect.x();
        xform.eDy = -textRect.y();
        SetWorldTransform(hdc, &xform);
    }

    SelectObject(hdc, font->platformData().hfont());

    // Set the correct color.
    if (drawIntoBitmap)
        SetTextColor(hdc, RGB(0, 0, 0));
    else
        SetTextColor(hdc, RGB(fillColor.red(), fillColor.green(), fillColor.blue()));

    SetBkMode(hdc, TRANSPARENT);
    SetTextAlign(hdc, TA_LEFT | TA_BASELINE);

    // Uniscribe gives us offsets to help refine the positioning of combining glyphs.
    FloatSize translation = glyphBuffer.offsetAt(from);
    if (translation.width() || translation.height()) {
        XFORM xform;
        xform.eM11 = 1.0;
        xform.eM12 = 0;
        xform.eM21 = 0;
        xform.eM22 = 1.0;
        xform.eDx = translation.width();
        xform.eDy = translation.height();
        ModifyWorldTransform(hdc, &xform, MWT_LEFTMULTIPLY);
    }

    if (drawingMode == TextModeFill) {
        XFORM xform;
        xform.eM11 = 1.0;
        xform.eM12 = 0;
        xform.eM21 = font->platformData().syntheticOblique() ? -tanf(syntheticObliqueAngle * piFloat / 180.0f) : 0;
        xform.eM22 = 1.0;
        xform.eDx = point.x();
        xform.eDy = point.y();
        ModifyWorldTransform(hdc, &xform, MWT_LEFTMULTIPLY);
        ExtTextOut(hdc, 0, 0, ETO_GLYPH_INDEX, 0, reinterpret_cast<const WCHAR*>(glyphBuffer.glyphs(from)), numGlyphs, gdiAdvances.data());
        if (font->syntheticBoldOffset()) {
            xform.eM21 = 0;
            xform.eDx = font->syntheticBoldOffset();
            xform.eDy = 0;
            ModifyWorldTransform(hdc, &xform, MWT_LEFTMULTIPLY);
            ExtTextOut(hdc, 0, 0, ETO_GLYPH_INDEX, 0, reinterpret_cast<const WCHAR*>(glyphBuffer.glyphs(from)), numGlyphs, gdiAdvances.data());
        }
    } else {
        XFORM xform;
        GetWorldTransform(hdc, &xform);
        AffineTransform hdcTransform(xform.eM11, xform.eM21, xform.eM12, xform.eM22, xform.eDx, xform.eDy);
        CGAffineTransform initialGlyphTransform = hdcTransform.isInvertible() ? hdcTransform.inverse() : CGAffineTransformIdentity;
        if (font->platformData().syntheticOblique())
            initialGlyphTransform = CGAffineTransformConcat(initialGlyphTransform, CGAffineTransformMake(1, 0, tanf(syntheticObliqueAngle * piFloat / 180.0f), 1, 0, 0));
        initialGlyphTransform.tx = 0;
        initialGlyphTransform.ty = 0;
        CGContextRef cgContext = graphicsContext->platformContext();

        CGContextSaveGState(cgContext);

        BOOL fontSmoothingEnabled = false;
        SystemParametersInfo(SPI_GETFONTSMOOTHING, 0, &fontSmoothingEnabled, 0);
        CGContextSetShouldAntialias(cgContext, fontSmoothingEnabled);

        CGContextScaleCTM(cgContext, 1.0, -1.0);
        CGContextTranslateCTM(cgContext, point.x() + glyphBuffer.offsetAt(from).width(), -(point.y() + glyphBuffer.offsetAt(from).height()));

        for (unsigned i = 0; i < numGlyphs; ++i) {
            RetainPtr<CGPathRef> glyphPath(AdoptCF, createPathForGlyph(hdc, glyphBuffer.glyphAt(from + i)));
            CGContextSaveGState(cgContext);
            CGContextConcatCTM(cgContext, initialGlyphTransform);

            if (drawingMode & TextModeFill) {
                CGContextAddPath(cgContext, glyphPath.get());
                CGContextFillPath(cgContext);
                if (font->syntheticBoldOffset()) {
                    CGContextTranslateCTM(cgContext, font->syntheticBoldOffset(), 0);
                    CGContextAddPath(cgContext, glyphPath.get());
                    CGContextFillPath(cgContext);
                    CGContextTranslateCTM(cgContext, -font->syntheticBoldOffset(), 0);
                }
            }
            if (drawingMode & TextModeStroke) {
                CGContextAddPath(cgContext, glyphPath.get());
                CGContextStrokePath(cgContext);
                if (font->syntheticBoldOffset()) {
                    CGContextTranslateCTM(cgContext, font->syntheticBoldOffset(), 0);
                    CGContextAddPath(cgContext, glyphPath.get());
                    CGContextStrokePath(cgContext);
                    CGContextTranslateCTM(cgContext, -font->syntheticBoldOffset(), 0);
                }
            }

            CGContextRestoreGState(cgContext);
            CGContextTranslateCTM(cgContext, gdiAdvances[i], 0);
        }

        CGContextRestoreGState(cgContext);
    }

    if (drawIntoBitmap) {
        UInt8* buffer = bitmap->buffer();
        unsigned bufferLength = bitmap->bufferLength();
        for (unsigned i = 0; i < bufferLength; i += 4) {
            // Use green, which is always in the middle.
            UInt8 alpha = (255 - buffer[i + 1]) * fillColor.alpha() / 255;
            buffer[i] = fillColor.blue();
            buffer[i + 1] = fillColor.green();
            buffer[i + 2] = fillColor.red();
            buffer[i + 3] = alpha;
        }
        graphicsContext->drawWindowsBitmap(bitmap.get(), textRect.location());
    } else
        graphicsContext->releaseWindowsContext(hdc, textRect, true, false);
}