Exemplo n.º 1
0
//----------------------------------------------------------------------------
void CollisionsMovingSpheres::CreateScene ()
{
    mScene = new0 Node();

    VertexFormat* vformat = VertexFormat::Create(2,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_COLOR, VertexFormat::AT_FLOAT3, 0);

    StandardMesh sm(vformat);

    mSphere0.Radius = 0.1f;
    mSphere1.Radius = 0.2f;
    mVelocity0 = Vector3f(0.0f, -1.0f, 0.0f);
    mVelocity1 = Vector3f(0.0f, 0.0f, 1.0f);
    mMesh0 = sm.Sphere(16, 16, mSphere0.Radius);
    mMesh1 = sm.Sphere(16, 16, mSphere1.Radius);

    VertexBufferAccessor vba0(mMesh0), vba1(mMesh1);
    for (int i = 0; i < vba0.GetNumVertices(); ++i)
    {
        vba0.Color<Float3>(0, i) = Float3(Mathf::UnitRandom(), 0.0f, 0.0f);
        vba1.Color<Float3>(0, i) = Float3(0.0f, 0.0f, Mathf::UnitRandom());
    }

    VertexColor3Effect* effect = new0 VertexColor3Effect();
    mMesh0->SetEffectInstance(effect->CreateInstance());
    mMesh1->SetEffectInstance(effect->CreateInstance());

    mSphere0.Center = Vector3f(0.0f, 0.75f, 0.0f);
    mSphere1.Center = Vector3f(0.0f, -0.75f, 0.0f);
    mMesh0->LocalTransform.SetTranslate(mSphere0.Center);
    mMesh1->LocalTransform.SetTranslate(mSphere1.Center);

    mScene->AttachChild(mMesh0);
    mScene->AttachChild(mMesh1);
}
Exemplo n.º 2
0
//----------------------------------------------------------------------------
void ClodMeshes::CreateScene ()
{
    mScene = new0 Node();
    mTrnNode = new0 Node();
    mScene->AttachChild(mTrnNode);
    mWireState = new0 WireState();
    mRenderer->SetOverrideWireState(mWireState);

    // Load the face model.
#ifdef WM5_LITTLE_ENDIAN
    std::string path = Environment::GetPathR("FacePN.wmof");
#else
    std::string path = Environment::GetPathR("FacePN.be.wmof");
#endif
    InStream inStream;
    inStream.Load(path);
    TriMeshPtr mesh = StaticCast<TriMesh>(inStream.GetObjectAt(0));
    VertexBufferAccessor vba0(mesh);

    // Remove the normals and add texture coordinates.
    VertexFormat* vformat = VertexFormat::Create(2,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 0);
    int vstride = vformat->GetStride();

    VertexBuffer* vbuffer = new0 VertexBuffer(vba0.GetNumVertices(), vstride);
    VertexBufferAccessor vba1(vformat, vbuffer);

    float xmin = Mathf::MAX_REAL, xmax = -Mathf::MAX_REAL;
    float ymin = Mathf::MAX_REAL, ymax = -Mathf::MAX_REAL;
    int i;
    for (i = 0; i < vba0.GetNumVertices(); ++i)
    {
        Float3 position = vba0.Position<Float3>(i);
        vba1.Position<Float3>(i) = position;

        float x = position[0];
        float y = position[2];
        vba1.TCoord<Float2>(0, i) = Float2(x, y);

        if (x < xmin)
        {
            xmin = x;
        }
        if (x > xmax)
        {
            xmax = x;
        }
        if (y < ymin)
        {
            ymin = y;
        }
        if (y > ymax)
        {
            ymax = y;
        }
    }

    float xmult = 1.0f/(xmax - xmin);
    float ymult = 1.0f/(ymax - ymin);
    for (i = 0; i < vba1.GetNumVertices(); ++i)
    {
        Float2 tcoord = vba1.TCoord<Float2>(0, i);
        vba1.TCoord<Float2>(0,i) = Float2(
            (tcoord[0] - xmin)*xmult,
            (tcoord[1] - ymin)*ymult);
    }

    mesh->SetVertexFormat(vformat);
    mesh->SetVertexBuffer(vbuffer);

    // Create a texture for the face.  Use the generated texture coordinates.
    Texture2DEffect* effect = new0 Texture2DEffect(Shader::SF_LINEAR);
    path = Environment::GetPathR("Magician.wmtf");
    Texture2D* texture = Texture2D::LoadWMTF(path);

#ifdef USE_CLOD_MESH
    // Create the collapse records to be shared by two CLOD meshes.
    int numRecords = 0;
    CollapseRecord* records = 0;
    CreateClodMesh ccm(mesh, numRecords, records);
    CollapseRecordArray* recordArray = new0 CollapseRecordArray(numRecords,
        records);

    mClod[0] = new0 ClodMesh(mesh, recordArray);
    mClod[0]->LocalTransform = mesh->LocalTransform;
    mClod[0]->LocalTransform.SetTranslate(mesh->LocalTransform.GetTranslate()
        - 150.0f*AVector::UNIT_X);
    mClod[0]->SetEffectInstance(effect->CreateInstance(texture));
    mTrnNode->AttachChild(mClod[0]);

    mClod[1] = new0 ClodMesh(mesh, recordArray);
    mClod[1]->LocalTransform = mesh->LocalTransform;
    mClod[1]->LocalTransform.SetTranslate(mesh->LocalTransform.GetTranslate()
        + 150.0f*AVector::UNIT_X - 100.0f*AVector::UNIT_Y);
    mClod[1]->SetEffectInstance(effect->CreateInstance(texture));
    mTrnNode->AttachChild(mClod[1]);

    mActive = mClod[0];
#else
    IndexBuffer* ibuffer = mesh->GetIndexBuffer();
    TriMesh* face = new0 TriMesh(vformat, vbuffer,ibuffer);
    face->LocalTransform = mesh->LocalTransform;
    face->LocalTransform.SetTranslate(mesh->LocalTransform.GetTranslate() -
        150.0f*AVector::UNIT_X);
    face->SetEffectInstance(effect->CreateInstance(texture));
    mTrnNode->AttachChild(face);

    face = new0 TriMesh(vformat, vbuffer, ibuffer);
    face->LocalTransform = mesh->LocalTransform;
    face->LocalTransform.SetTranslate(mesh->LocalTransform.GetTranslate() +
        150.0f*AVector::UNIT_X);
    face->SetEffectInstance(effect->CreateInstance(texture));
    mTrnNode->AttachChild(face);
#endif
}
Exemplo n.º 3
0
//----------------------------------------------------------------------------
void RenderToTexture::CreateScene ()
{
	// Create the root of the scene.
	mScene = new0 Node();
	mTrnNode = new0 Node();
	mScene->AttachChild(mTrnNode);
	mWireState = new0 WireState();
	mRenderer->SetOverrideWireState(mWireState);

	// Create a screen-space camera to use with the render target.
	mScreenCamera = ScreenTarget::CreateCamera();

	// Create a screen polygon to use with the render target.
	VertexFormat* vformat = VertexFormat::Create(2,
	                        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
	                        VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 0);

	const int rtWidth = 256, rtHeight = 256;
	mScreenPolygon = ScreenTarget::CreateRectangle(vformat, rtWidth, rtHeight,
	                 0.0f, 0.2f, 0.0f, 0.2f, 0.0f);

	// Create the render target.
	//Texture::Format tformat = Texture::TF_A8B8G8R8;  // DX9 fails
	Texture::Format tformat = Texture::TF_A8R8G8B8;
	//Texture::Format tformat = Texture::TF_A16B16G16R16;
	//Texture::Format tformat = Texture::TF_A16B16G16R16F;
	//Texture::Format tformat = Texture::TF_A32B32G32R32F;
	mRenderTarget = new0 RenderTarget(1, tformat, rtWidth, rtHeight, false,
	                                  false);

	// Attach the render target texture to the screen polygon mesh.
	mScreenPolygon->SetEffectInstance(Texture2DEffect::CreateUniqueInstance(
	                                      mRenderTarget->GetColorTexture(0), Shader::SF_LINEAR,
	                                      Shader::SC_CLAMP_EDGE, Shader::SC_CLAMP_EDGE));

	// Load the face model and use multitexturing.
#ifdef WM5_LITTLE_ENDIAN
	std::string path = Environment::GetPathR("FacePN.wmof");
#else
	std::string path = Environment::GetPathR("FacePN.be.wmof");
#endif
	InStream inStream;
	inStream.Load(path);
	TriMeshPtr mesh = DynamicCast<TriMesh>(inStream.GetObjectAt(0));

	// Create texture coordinates for the face.  Based on knowledge of the
	// mesh, the (x,z) values of the model-space vertices may be mapped to
	// (s,t) in [0,1]^2.
	VertexBufferAccessor vba0(mesh);
	const int numVertices = vba0.GetNumVertices();
	float xmin = Mathf::MAX_REAL, xmax = -Mathf::MAX_REAL;
	float zmin = Mathf::MAX_REAL, zmax = -Mathf::MAX_REAL;
	int i;
	for (i = 1; i < numVertices; ++i)
	{
		Float3 position = vba0.Position<Float3>(i);
		float x = position[0];
		if (x < xmin)
		{
			xmin = x;
		}
		if (x > xmax)
		{
			xmax = x;
		}

		float z = position[2];
		if (z < zmin)
		{
			zmin = z;
		}
		if (z > zmax)
		{
			zmax = z;
		}
	}
	float invXRange = 1.0f/(xmax - xmin);
	float invZRange = 1.0f/(zmax - zmin);

	// Strip out the normal vectors, because there is no lighting in this
	// sample.  Add in two texture coordinate channels for a multiplicative
	// texture effect.
	vformat = VertexFormat::Create(3,
	                               VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
	                               VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 0,
	                               VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 1);
	int vstride = vformat->GetStride();

	VertexBuffer* vbuffer = new0 VertexBuffer(numVertices, vstride);
	VertexBufferAccessor vba1(vformat, vbuffer);
	for (i = 0; i < numVertices; ++i)
	{
		Float3 position = vba0.Position<Float3>(i);
		Float2 tcoord(
		    (position[0] - xmin)*invXRange,
		    (position[2] - zmin)*invZRange);

		vba1.Position<Float3>(i) = position;
		vba1.TCoord<Float2>(0, i) = tcoord;
		vba1.TCoord<Float2>(1, i) = tcoord;
	}
	mesh->SetVertexFormat(vformat);
	mesh->SetVertexBuffer(vbuffer);

	path = Environment::GetPathR("Leaf.wmtf");
	Texture2D* texture0 = Texture2D::LoadWMTF(path);
	path = Environment::GetPathR("Water.wmtf");
	Texture2D* texture1 = Texture2D::LoadWMTF(path);
	VisualEffectInstance* instance = Texture2AddEffect::CreateUniqueInstance(
	                                     texture0, Shader::SF_LINEAR, Shader::SC_CLAMP_EDGE,
	                                     Shader::SC_CLAMP_EDGE, texture1, Shader::SF_LINEAR,
	                                     Shader::SC_CLAMP_EDGE, Shader::SC_CLAMP_EDGE);

	mesh->SetEffectInstance(instance);

	mTrnNode->AttachChild(mesh);
}