示例#1
0
void xObjBound::Render(Event * sender)
{
	if (Editor::Instance()->GetSelectedShapeSize() == 0)
		return ;

	if (Editor::Instance()->GetSelectedShapeSize() == 1 &&
		Editor::Instance()->GetSelectedShape(0)->GetColMesh() != NULL &&
		Editor::Instance()->GetSelectedShape(0)->GetColMesh()->GetPositions().Size() > 0 &&
		Editor::Instance()->GetSelectedShape(0)->GetColMesh()->GetIndices().Size() > 0)
	{
		RenderColMesh();
		return ;
	}

	Aabb box = Aabb::Invalid;

	for (int i = 0; i < Editor::Instance()->GetSelectedShapeSize(); ++i)
	{
		Shape * obj = Editor::Instance()->GetSelectedShape(i);
		box = box.Merge(obj->GetBound());
	}

	Vec3 pos = box.GetCenter();
	Vec3 scale = box.GetSize();

	RenderSystem * render = RenderSystem::Instance();

	ShaderParam * uColor = mTech->GetPixelShaderParamTable()->GetParam("gColor");

	uColor->SetUnifom(1, 1, 0, 1);

	mRenderAABB->xform.MakeTransform(pos, Quat::Identity, scale);

	render->Render(mTech, mRenderAABB);
}
示例#2
0
    void Moon::Render()
    {
        RenderSystem * render = RenderSystem::Instance();
        Camera * cam = World::Instance()->MainCamera();

        Vec3 moonPos = Environment::Instance()->GetEvParam()->MoonPos;
        Vec3 moonDir = Environment::Instance()->GetEvParam()->MoonDir;
        float moonLum = Environment::Instance()->GetEvParam()->MoonLum;
        float moonSize = Environment::Instance()->GetEvParam()->MoonSize;
        float moonPhase = Environment::Instance()->GetEvParam()->MoonPase;
        const char * moonTex = Environment::Instance()->GetGlobalParam()->MoonTexture.c_str();

        _setTexture(moonTex);

        ShaderParam * uTransform = mTech->GetVertexShaderParamTable()->GetParam("gTransform");
        ShaderParam * uMoonParam = mTech->GetPixelShaderParamTable()->GetParam("gMoonParam");

        uTransform->SetUnifom(moonPos.x, moonPos.y, moonPos.z, moonSize);
        uMoonParam->SetUnifom(moonPhase, moonLum, 0, 0);

        SamplerState s0;
        Texture * t0 = mTexture.c_ptr();
        
        render->SetTexture(0, s0, t0);
        render->Render(mTech, &mRender);
    }
示例#3
0
	void Shadow::_renderDepth(int layer)
	{
		RenderSystem * render = RenderSystem::Instance();

		render->SetRenderTarget(0, mRT_Depth.c_ptr());
		render->SetDepthStencil(mDepthStencil.c_ptr());

		render->ClearBuffer(NULL, true, true, false, Color::White);

		const Array<Renderer *> & objs = mRenderQueue.GetSolidRender();

		ShaderParam * uMatWVP = mTech_ShadowDepth->GetVertexShaderParamTable()->GetParam("matWVP");
		ShaderParam * uMatWVPSkin = mTech_ShadowDepthSkin->GetVertexShaderParamTable()->GetParam("matWVP");

		for (int j = 0; j < objs.Size(); ++j)
		{
			Renderer * rd = objs[j];

			if (!IsVisible(rd->GetWorldAabb(), mCascadedMatrix[layer].mViewProj))
				continue;

			bool skined = (rd->GetBlendMatrix(NULL) > 0);

			Mat4 form;

			rd->GetWorldTransform(&form);

			form *= mCascadedMatrix[layer].mViewProj;

			uMatWVP->SetMatrix(form);
			uMatWVPSkin->SetMatrix(form);

			if (!skined)
				render->Render(mTech_ShadowDepth, rd);
			else
				render->Render(mTech_ShadowDepthSkin, rd);
		}

		OnRenderDepth(this, &layer);
	}
示例#4
0
	void MirrorRenderLoop::DoRender(Camera * cam)
	{
		RenderSystem * render = RenderSystem::Instance();
		RenderQueue * rq = mScheme->GetMirrorRenderQueue();

		 // --->render terrain
        if (Environment::Instance()->GetTerrain())
            Environment::Instance()->GetTerrain()->RenderInMirror();

        // ---> render sky
        if (Environment::Instance()->GetSky2())
            Environment::Instance()->GetSky2()->RenderReflection(cam->GetMirrorPlane());

        // ---> render sun
        /*if (Environment::Instance()->GetSun())
            Environment::Instance()->GetSun()->Render();*/

        // ---> render moons
        if (Environment::Instance()->GetMoon())
            Environment::Instance()->GetMoon()->Render();

        // ---> render cloud
        //if (Environment::Instance()->GetCloud())
            //Environment::Instance()->GetCloud()->Render(false);

		// render solider
		{
			RenderSystem * render = RenderSystem::Instance();

			const Array<Renderer *> & objs = rq->GetSolidRender();

			for (int i = 0; i < objs.Size(); ++i)
			{
				Renderer * rd = objs[i];

				bool skined = (rd->GetBlendMatrix(NULL) > 0);
				Technique * tech = rd->GetTechnique(eRenderTechType::RTT_Mirror);

				if (!tech)
					tech = mScheme->GetMainShaderProvider()->GetTechnique(eRenderTechType::RTT_Mirror, skined);

				render->Render(tech, rd);
			}
		}

		RenderEvent::OnMirrorRenderSolid1(cam);
		RenderEvent::OnMirrorRenderSolid2(cam);
		RenderEvent::OnMirrorRenderSolid3(cam);
	}
示例#5
0
    void UnderWaterBubble::Render()
    {
        _update();
        _emit();
        _geom();

        Camera * cam = World::Instance()->MainCamera();
        RenderSystem * render = RenderSystem::Instance();

        SamplerState state;

        render->SetTexture(0, state, mTex_Bubble0.c_ptr());

        render->Render(mTech, &mRender);
    }
示例#6
0
    void UnderWaterGodRay::_renderRay()
    {
        Camera * cam = World::Instance()->MainCamera();
        RenderSystem * render = RenderSystem::Instance();
        render->SetRenderTarget(0, mRenderTarget.c_ptr());

        render->ClearBuffer(NULL, true, false, false);

        ShaderParam * uWorldMatrix = mTech_Ray->GetVertexShaderParamTable()->GetParam("matWorld");

        uWorldMatrix->SetMatrix(mProjMatrix);

        render->Render(mTech_Ray, &mRender);

        mRenderTarget->Stretch(mTexture.c_ptr());
    }
示例#7
0
void SkinRenderer::Render(Event * _sender)
{
	if (!mEnable)
		return ;

	RenderSystem * render = RenderSystem::Instance();

	ShaderParam * gScale = mTech->GetVertexShaderParamTable()->GetParam("gScale");
	ShaderParam * gBackUVScale = mTech->GetVertexShaderParamTable()->GetParam("gBackUVScale");

	int viewW, viewH;
	App::Instance()->GetViewSize(viewW, viewH);

	int texW = 512, texH = 256;

	if (mSkinTexture != NULL)
	{
		texW = mSkinTexture->GetWidth();
		texH = mSkinTexture->GetHeight();
	}

	float xScale = texW / (float)viewW;
	float yScale = texH / (float)viewH;

	gScale->SetUnifom(xScale, yScale, 0, 0);

	int backW = mBackTexture->GetWidth();
	int backH = mBackTexture->GetHeight();

	xScale = backW / (float)texW;
	yScale = backH / (float)texH;

	gBackUVScale->SetUnifom(1 / xScale, 1 / yScale, 0, 0);

	SamplerState state;
	render->SetTexture(0, state, mBackTexture.c_ptr());
	render->SetTexture(1, state, mSkinTexture.c_ptr());

	render->Render(mTech, mRenderOp);
}
示例#8
0
 void Render() {
     renderer->Render();
 }
示例#9
0
	void Water::_renderUpWater(WaterBlock * block, Texture * depthTex, Texture * colorTex)
	{
		RenderSystem * render = RenderSystem::Instance();
		Camera * cam = World::Instance()->MainCamera();
		float time = Engine::Instance()->GetTime();

		const Vec3 * worldCorner = cam->GetWorldCorner();
		const Vec3 & camPos = cam->GetPosition();

		Vec3 worldCornerLeftTop = worldCorner[4] - camPos;
		Vec3 worldCornerRightDir = worldCorner[5] - worldCorner[4];
		Vec3 worldCornerDownDir = worldCorner[6] - worldCorner[4];

		const Vec3 * viewCorner = cam->GetCorner();

		Vec3 viewCornerLeftTop = viewCorner[4];
		Vec3 viewCornerRightDir = viewCorner[5] - viewCorner[4];
		Vec3 viewCornerDownDir = viewCorner[6] - viewCorner[4];

		ShaderParam * uFresnelParam = mTech->GetPixelShaderParamTable()->GetParam("gFresnelParam");
		ShaderParam * uCamPos = mTech->GetPixelShaderParamTable()->GetParam("gCameraPos");
		ShaderParam * uWorldCornerLeftTop = mTech->GetPixelShaderParamTable()->GetParam("gWorldCornerLeftTop");
		ShaderParam * uWorldCornerRightDir = mTech->GetPixelShaderParamTable()->GetParam("gWorldCornerRightDir");
		ShaderParam * uWorldCornerDownDir = mTech->GetPixelShaderParamTable()->GetParam("gWorldCornerDownDir");
		ShaderParam * uViewCornerLeftTop = mTech->GetPixelShaderParamTable()->GetParam("gViewCornerLeftTop");
		ShaderParam * uViewCornerRightDir = mTech->GetPixelShaderParamTable()->GetParam("gViewCornerRightDir");
		ShaderParam * uViewCornerDownDir = mTech->GetPixelShaderParamTable()->GetParam("gViewCornerDownDir");
		ShaderParam * uDeepColor = mTech->GetPixelShaderParamTable()->GetParam("gDeepColor");
		ShaderParam * uRefractionDist = mTech->GetPixelShaderParamTable()->GetParam("gRefractionDist");

		ShaderParam * uSunDir = mTech->GetPixelShaderParamTable()->GetParam("gSunDir");
		ShaderParam * uSunColor = mTech->GetPixelShaderParamTable()->GetParam("gSunColor");
		ShaderParam * uSunLightParam = mTech->GetPixelShaderParamTable()->GetParam("gSunLightParam");

		ShaderParam * uNoiseScale = mTech->GetPixelShaderParamTable()->GetParam("gNoiseScale");
		ShaderParam * uNoiseUVParam = mTech->GetPixelShaderParamTable()->GetParam("gNoiseUVParam");

		ShaderParam * uNormalUVParam = mTech->GetPixelShaderParamTable()->GetParam("gNormalUVParam");
		ShaderParam * uNormalWeight = mTech->GetPixelShaderParamTable()->GetParam("gNormalWeight");

		ShaderParam * uInvScreenSize = mTech->GetPixelShaderParamTable()->GetParam("gInvScreenSize");
		ShaderParam * uFarClip = mTech->GetPixelShaderParamTable()->GetParam("gFarClip");

		Vec3 sunDir = Environment::Instance()->GetEvParam()->SunDir;
		Color4 sunColor = Environment::Instance()->GetEvParam()->SunColor;
		Color4 deepColor = Environment::Instance()->GetEvParam()->WaterParam.deepColor;

		uCamPos->SetUnifom(camPos.x, camPos.y, camPos.z, 0);

		uWorldCornerLeftTop->SetUnifom(worldCornerLeftTop.x, worldCornerLeftTop.y, worldCornerLeftTop.z, 0);
		uWorldCornerRightDir->SetUnifom(worldCornerRightDir.x, worldCornerRightDir.y, worldCornerRightDir.z, 0);
		uWorldCornerDownDir->SetUnifom(worldCornerDownDir.x, worldCornerDownDir.y, worldCornerDownDir.z, 0);

		uViewCornerLeftTop->SetUnifom(viewCornerLeftTop.x, viewCornerLeftTop.y, viewCornerLeftTop.z, 0);
		uViewCornerRightDir->SetUnifom(viewCornerRightDir.x, viewCornerRightDir.y, viewCornerRightDir.z, 0);
		uViewCornerDownDir->SetUnifom(viewCornerDownDir.x, viewCornerDownDir.y, viewCornerDownDir.z, 0);

		uDeepColor->SetUnifom(deepColor.r, deepColor.g, deepColor.b, 1);
		uRefractionDist->SetUnifom(40, 0, 0, 0);

		uSunColor->SetUnifom(sunColor.r, sunColor.g, sunColor.b, 0);
		uSunDir->SetUnifom(-sunDir.x, -sunDir.y, -sunDir.z, 0);
		uSunLightParam->SetUnifom(0.8f, 200, 0, 0);

		float uvNoiseScroll = time * 0.02f;

		uNoiseUVParam->SetUnifom(0.01f, 0.01f, uvNoiseScroll, uvNoiseScroll);
		uNoiseScale->SetUnifom(0.03f, 0, 0 , 0);

		Vec4 uvNormalParam[4] = {
			Vec4 (0.02f, 0.02f, time * 0.03f, time * 0.03f),
			Vec4 (0.01f, 0.01f, time * 0.03f, time * 0.03f),
			Vec4 (0.015f, 0.015f, time * 0.03f, time * 0.03f),
			Vec4 (0.005f, 0.005f, time * 0.03f, time * 0.03f)
		};

		uNormalUVParam->SetVector(uvNormalParam, 4);
		uNormalWeight->SetUnifom(0.08f, 0.1f, 0.06f, 0.1f);

		float screenW = (float)Engine::Instance()->GetDeviceProperty()->Width;
		float screenH = (float)Engine::Instance()->GetDeviceProperty()->Height;

		uInvScreenSize->SetUnifom(1 / screenW, 1 / screenW, 0, 0);
		uFarClip->SetUnifom(cam->GetFarClip(), 0, 0, 0);

		SamplerState state;
		render->SetTexture(0, state, mTex_Wave.c_ptr());
		state.Address = TEXA_CLAMP;
		state.Filter = TEXF_POINT;
		render->SetTexture(1, state, depthTex);
		render->SetTexture(2, state, colorTex);
		render->SetTexture(3, state, mTex_Refl.c_ptr());
		state.Filter = TEXF_LINEAR;
		render->SetTexture(4, state, mTex_Fresnel.c_ptr());

		SamplerState state1;
		render->SetTexture(5, state1, mTex_Wave.c_ptr());
		render->SetTexture(6, state1, mTex_Wave.c_ptr());

		render->Render(mTech, block->mRenderOp);
	}