Ejemplo n.º 1
0
//----------------------------------------------------------------------------
void Fluids3D::CreateScene ()
{
    // Get fluid solver parameters.
    const int bound0M1 = mSmoke->GetIMax();
    const int bound1M1 = mSmoke->GetJMax();
    const int bound2M1 = mSmoke->GetKMax();
    const int bound0 = bound0M1 + 1;
    const int bound1 = bound1M1 + 1;
    const int bound2 = bound2M1 + 1;
    const int quantity = bound0*bound1*bound2;
    const float* x = mSmoke->GetX();
    const float* y = mSmoke->GetY();
    const float* z = mSmoke->GetZ();

#ifdef USE_PARTICLES
    // Create the vertex format.
    VertexFormat* vformat = VertexFormat::Create(3,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 0,
        VertexFormat::AU_COLOR, VertexFormat::AT_FLOAT4, 0);
#else
    VertexFormat* vformat = VertexFormat::Create(2,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_COLOR, VertexFormat::AT_FLOAT4, 0);
#endif

    // Create the vertex buffer for the cube.
#ifdef USE_PARTICLES
    const int numVertices = 4*quantity;
#else
    const int numVertices = quantity;
#endif

    int vstride = vformat->GetStride();
    VertexBuffer* vbuffer = new0 VertexBuffer(numVertices, vstride);

    int i0, i1, i2, index;

#ifdef USE_PARTICLES
    const float delta = mSmoke->GetDx();
    Float4* posSize = new1<Float4>(quantity);
    for (i2 = 0, index = 0; i2 < bound2; ++i2)
    {
        for (i1 = 0; i1 < bound1; ++i1)
        {
            for (i0 = 0; i0 < bound0; ++i0, ++index)
            {
                posSize[index] = Float4(x[i0], y[i1], z[i2], delta);
            }
        }
    }

    mCube = new0 Particles(vformat, vbuffer, 4, posSize, 1.0f);
    UpdateVertexBuffer();

    IndexBuffer* ibuffer = mCube->GetIndexBuffer();
#else
    VertexBufferAccessor vba(vformat, vbuffer);
    for (i2 = 0, index = 0; i2 < bound2; ++i2)
    {
        for (i1 = 0; i1 < bound1; ++i1)
        {
            for (i0 = 0; i0 < bound0; ++i0, ++index)
            {
                vba.Position<Float3>(index) = Float3(x[i0], y[i1], z[i2]);
            }
        }
    }

    // Create the index buffer for the cube.
    const int numIndices =
        6*bound0M1*bound1M1*bound2 +
        6*bound0M1*bound1*bound2M1 +
        6*bound0*bound1M1*bound2M1;

    IndexBuffer* ibuffer = new0 IndexBuffer(numIndices, sizeof(int));
    int* indices = (int*)ibuffer->GetData();

    const int bound01 = bound0*bound1;
    int j0, j1, j2, j3;
    for (i2 = 0; i2 < bound2; ++i2)
    {
        for (i1 = 0; i1 < bound1M1; ++i1)
        {
            for (i0 = 0; i0 < bound0M1; ++i0)
            {
                j0 = i0 + bound0*(i1 + bound1*i2);
                j1 = j0 + 1;
                j2 = j1 + bound0;
                j3 = j2 - 1;
                *indices++ = j0;
                *indices++ = j1;
                *indices++ = j2;
                *indices++ = j0;
                *indices++ = j2;
                *indices++ = j3;
            }
        }
    }

    for (i1 = 0; i1 < bound1; ++i1)
    {
        for (i2 = 0; i2 < bound2M1; ++i2)
        {
            for (i0 = 0; i0 < bound0M1; ++i0)
            {
                j0 = i0 + bound0*(i1 + bound1*i2);
                j1 = j0 + 1;
                j2 = j1 + bound01;
                j3 = j2 - 1;
                *indices++ = j0;
                *indices++ = j1;
                *indices++ = j2;
                *indices++ = j0;
                *indices++ = j2;
                *indices++ = j3;
            }
        }
    }

    for (i0 = 0; i0 < bound0; ++i0)
    {
        for (i1 = 0; i1 < bound1M1; ++i1)
        {
            for (i2 = 0; i2 < bound2M1; ++i2)
            {
                j0 = i0 + bound0*(i1 + bound1*i2);
                j1 = j0 + bound0;
                j2 = j1 + bound01;
                j3 = j2 - bound0;
                *indices++ = j0;
                *indices++ = j1;
                *indices++ = j2;
                *indices++ = j0;
                *indices++ = j2;
                *indices++ = j3;
            }
        }
    }

    mCube = new0 TriMesh(vformat, vbuffer, ibuffer);
    UpdateVertexBuffer();
#endif

    mNumIndices = ibuffer->GetNumElements();
    mIndices = new1<int>(mNumIndices);
    memcpy(mIndices, ibuffer->GetData(), mNumIndices*sizeof(int));

    // Create the cube effect.
#ifdef USE_PARTICLES
    std::string path = Environment::GetPathR("Disk.wmtf");
    Texture2D* texture = Texture2D::LoadWMTF(path);
    VisualEffectInstance* instance =
        VertexColor4TextureEffect::CreateUniqueInstance(texture,
        Shader::SF_NEAREST, Shader::SC_CLAMP_EDGE, Shader::SC_CLAMP_EDGE);
#else
    VertexColor4Effect* effect = new0 VertexColor4Effect();
    VisualEffectInstance* instance = effect->CreateInstance();
#endif

    const VisualPass* pass = instance->GetPass(0);
    AlphaState* astate = pass->GetAlphaState();
    astate->BlendEnabled = true;

    CullState* cstate = pass->GetCullState();
    cstate->Enabled = false;

    DepthState* dstate = pass->GetDepthState();
    dstate->Enabled = false;
    dstate->Writable = false;

    mCube->SetEffectInstance(instance);

    mScene = new0 Node();
    mScene->AttachChild(mCube);
}
Ejemplo n.º 2
0
//----------------------------------------------------------------------------
void BillboardNodes::CreateScene ()
{
    mScene = new0 Node();
    mCullState = new0 CullState();
    mRenderer->SetOverrideCullState(mCullState);
    mWireState = new0 WireState();
    mRenderer->SetOverrideWireState(mWireState);

    // All triangle meshes have this common vertex format.  Use StandardMesh
    // to create these meshes.
    VertexFormat* vformat = VertexFormat::Create(2,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_TEXCOORD, VertexFormat::AT_FLOAT2, 0);

    StandardMesh stdMesh(vformat);

    // Create the ground.  It covers a square with vertices (1,1,0), (1,-1,0),
    // (-1,1,0), and (-1,-1,0).  Multiply the texture coordinates by a factor
    // to enhance the wrap-around.
    mGround = stdMesh.Rectangle(2, 2, 16.0f, 16.0f);
    VertexBufferAccessor vba(mGround);
    int i;
    for (i = 0; i < vba.GetNumVertices(); ++i)
    {
        Float2& tcoord = vba.TCoord<Float2>(0, i);
        tcoord[0] *= 128.0f;
        tcoord[1] *= 128.0f;
    }

    // Create a texture effect for the ground.
    std::string path = Environment::GetPathR("Horizontal.wmtf");
    Texture2D* texture = Texture2D::LoadWMTF(path);
    VisualEffectInstance* instance = Texture2DEffect::CreateUniqueInstance(
        texture, Shader::SF_LINEAR_LINEAR, Shader::SC_REPEAT,
        Shader::SC_REPEAT);
    mGround->SetEffectInstance(instance);
    mScene->AttachChild(mGround);

    // Create a rectangle mesh.  The mesh is in the xy-plane.  Do not apply
    // local transformations to the mesh.  Use the billboard node transforms
    // to control the mesh location and orientation.
    mRectangle = stdMesh.Rectangle(2, 2, 0.125f, 0.25f);

    // Create a texture effect for the rectangle and for the torus.
    Texture2DEffect* geomEffect = new0 Texture2DEffect(Shader::SF_LINEAR);
    path = Environment::GetPathR("RedSky.wmtf");
    texture = Texture2D::LoadWMTF(path);
    mRectangle->SetEffectInstance(geomEffect->CreateInstance(texture));

    // Create a billboard node that causes a rectangle to always be facing
    // the camera.  This is the type of billboard for an avatar.
    mBillboard0 = new0 BillboardNode(mCamera);
    mBillboard0->AttachChild(mRectangle);
    mScene->AttachChild(mBillboard0);

    // The billboard rotation is about its model-space up-vector (0,1,0).  In
    // this application, world-space up is (0,0,1).  Locally rotate the
    // billboard so it's up-vector matches the world's.
    mBillboard0->LocalTransform.SetTranslate(APoint(-0.25f, 0.0f, 0.25f));
    mBillboard0->LocalTransform.SetRotate(HMatrix(AVector::UNIT_X,
        Mathf::HALF_PI));

    // Create a torus mesh.  Do not apply local transformations to the mesh.
    // Use the billboard node transforms to control the mesh location and
    // orientation.
    mTorus = StandardMesh(vformat, false).Torus(16, 16, 1.0f, 0.25f);
    mTorus->LocalTransform.SetUniformScale(0.1f);

    // Create a texture effect for the torus.  It uses the RedSky image that
    // the rectangle uses.
    mTorus->SetEffectInstance(geomEffect->CreateInstance(texture));

    // Create a billboard node that causes an object to always be oriented
    // the same way relative to the camera.
    mBillboard1 = new0 BillboardNode(mCamera);
    mBillboard1->AttachChild(mTorus);
    mScene->AttachChild(mBillboard1);

    // The billboard rotation is about its model-space up-vector (0,1,0).  In
    // this application, world-space up is (0,0,1).  Locally rotate the
    // billboard so it's up-vector matches the world's.
    mBillboard1->LocalTransform.SetTranslate(APoint(0.25f, 0.0f, 0.25f));
    mBillboard1->LocalTransform.SetRotate(HMatrix(AVector::UNIT_X,
        Mathf::HALF_PI));

#ifdef DEMONSTRATE_VIEWPORT_BOUNDING_RECTANGLE
    // The screen camera is designed to map (x,y,z) in [0,1]^3 to (x',y,'z')
    // in [-1,1]^2 x [0,1].
    mSSCamera = new0 Camera(false);
    mSSCamera->SetFrustum(0.0f, 1.0f, 0.0f, 1.0f, 0.0f, 1.0f);
    mSSCamera->SetFrame(APoint::ORIGIN, AVector::UNIT_Z, AVector::UNIT_Y,
        AVector::UNIT_X);

    // Create a semitransparent screen rectangle.
    VertexFormat* ssVFormat = VertexFormat::Create(2,
        VertexFormat::AU_POSITION, VertexFormat::AT_FLOAT3, 0,
        VertexFormat::AU_COLOR, VertexFormat::AT_FLOAT4, 0);
    int ssVStride = ssVFormat->GetStride();

    VertexBuffer* ssVBuffer = new0 VertexBuffer(4, ssVStride);
    VertexBufferAccessor ssVba(ssVFormat, ssVBuffer);
    Float4 ssColor(0.0f, 0.0f, 1.0f, 0.25f);
    ssVba.Position<Float3>(0) = Float3(0.0f, 0.0f, 0.0f);
    ssVba.Position<Float3>(1) = Float3(1.0f, 0.0f, 0.0f);
    ssVba.Position<Float3>(2) = Float3(1.0f, 1.0f, 0.0f);
    ssVba.Position<Float3>(3) = Float3(0.0f, 1.0f, 0.0f);
    ssVba.Color<Float4>(0, 0) = ssColor;
    ssVba.Color<Float4>(0, 1) = ssColor;
    ssVba.Color<Float4>(0, 2) = ssColor;
    ssVba.Color<Float4>(0, 3) = ssColor;

    IndexBuffer* ssIBuffer = new0 IndexBuffer(6, sizeof(int));
    int* indices = (int*)ssIBuffer->GetData();
    indices[0] = 0;  indices[1] = 1;  indices[2] = 2;
    indices[3] = 0;  indices[4] = 2;  indices[5] = 3;

    mSSRectangle = new0 TriMesh(ssVFormat, ssVBuffer, ssIBuffer);
    mSSRectangle->Update();

    // Create a vertex color effect for the screen rectangle.
    VertexColor4Effect* ssEffect = new0 VertexColor4Effect();
    mSSRectangle->SetEffectInstance(ssEffect->CreateInstance());

    // Alpha blending must be enabled to obtain the semitransparency.
    ssEffect->GetAlphaState(0, 0)->BlendEnabled = true;
#endif
}