Ejemplo n.º 1
0
DrawBloomPass::DrawBloomPass(IRenderer* renderer, ConfigFile* config)
	: m_Renderer(renderer)
	, m_Config(config)
{
	InitializeTextures();

	ChangeQuality(m_Config->Get<int>("GLOW.Quality", 2));
}
Ejemplo n.º 2
0
PickingPass::PickingPass(IRenderer* renderer, EventBroker* eb)
{
    m_Renderer = renderer;
    m_EventBroker = eb;

    InitializeTextures();
    InitializeFrameBuffers();
    InitializeShaderPrograms();
}
Ejemplo n.º 3
0
// ============================================================================================
// ================================ Texture helpers ===========================================
// ============================================================================================
bool Renderer::LoadAssets()
{
	if ( !LoadFontAndText() )
		return false;

	LoadColors();

	if( !InitializeTextures() )
		return false;

	return true;
}
Ejemplo n.º 4
0
void DrawBloomPass::ChangeQuality(int quality)
{
	if (m_Quality == quality) {
		return;
	}
	m_Quality = quality;

	m_ScreenQuad = ResourceManager::Load<Model>("Models/Core/ScreenQuad.mesh");

	if (m_Quality == 0) {
		CommonFunctions::DeleteTexture(&m_GaussianTexture_horiz);
        CommonFunctions::DeleteTexture(&m_GaussianTexture_vert);
        CommonFunctions::DeleteTexture(&m_FinalGaussianTexture);
		return;
	}
	InitializeTextures();

	InitializeBuffers();
	InitializeShaderPrograms();
	std::string qStr = std::to_string(m_Quality);
	m_Iterations = m_Config->Get<float>("GLOW" + qStr + ".NumIterations", 0);
}
Ejemplo n.º 5
0
void KPboardView::Initialize(const std::string &TextureDirectory,
                             const std::string &TextureName,
                             unsigned int TextureSize /*=1*/,
                             bool Nearest /*=true*/)
{
    InitializeTextures(TextureDirectory, TextureName, TextureSize, Nearest);

    glNewList(DisplayList + BRONZE_MATERIAL, GL_COMPILE);
    {
        GLfloat mat_ambient[]  = {0.50f, 0.50f, 0.50f, 1.0f};
        GLfloat mat_diffuse[]  = {0.60f, 0.60f, 0.60f, 1.0f};
        GLfloat mat_specular[] = {0.15f, 0.15f, 0.15f, 1.0f};
        auto mat_shininess  = 20.0f;

        glDisable(GL_TEXTURE_2D);

        glMaterialfv(GL_FRONT, GL_AMBIENT,   mat_ambient);
        glMaterialfv(GL_FRONT, GL_DIFFUSE,   mat_diffuse);
        glMaterialfv(GL_FRONT, GL_SPECULAR,  mat_specular);
        glMaterialf(GL_FRONT, GL_SHININESS, mat_shininess);

        glEnable(GL_TEXTURE_2D);
    }
    glEndList();

    // define a Display List BOARD containing the Khun Phan board
    glNewList(DisplayList + BOARD, GL_COMPILE);

    // Front end (with gap for Khun Phan to escape :-)
    CreateCuboid(
        DBOXW + DX + DGAP, DBOXW, DBOXH,
        -((HORIZONTAL_MAX * (DX + DGAP) - DGAP) / 2) - DGAP - DBOXW,
        ((VERTICAL_MAX   * (DY + DGAP) - DGAP) / 2) + DGAP, 0);
    CreateCuboid(
        2 * (DX + DGAP) + DGAP, DBOXW, DBOXH - (DZ * 2 / 3) - DGAP,
        -((2 * (DX + DGAP) - DGAP) / 2) - DGAP,
        ((VERTICAL_MAX   * (DY + DGAP) - DGAP) / 2) + DGAP,
        (DZ * 2 / 3) + DGAP);
    CreateCuboid(
        DBOXW + DX + DGAP, DBOXW, DBOXH,
        ((2 * (DX + DGAP) - DGAP) / 2) + DGAP,
        ((VERTICAL_MAX   * (DY + DGAP) - DGAP) / 2) + DGAP, 0);
    // Back end
    CreateCuboid(
        2 * DBOXW + DGAP + (HORIZONTAL_MAX * (DX + DGAP)), DBOXW, DBOXH,
        -((HORIZONTAL_MAX * (DX + DGAP) - DGAP) / 2) - DGAP - DBOXW,
        -((VERTICAL_MAX   * (DY + DGAP) - DGAP) / 2) - DGAP - DBOXW, 0);
    // Left end
    CreateCuboid(
        DBOXW, VERTICAL_MAX * (DY + DGAP) + DGAP, DBOXH,
        -((HORIZONTAL_MAX * (DX + DGAP) - DGAP) / 2) - DGAP - DBOXW,
        -((VERTICAL_MAX   * (DY + DGAP) + DGAP) / 2), 0);
    // Right end
    CreateCuboid(
        DBOXW, VERTICAL_MAX * (DY + DGAP) + DGAP, DBOXH,
        ((HORIZONTAL_MAX  * (DX + DGAP) - DGAP) / 2) + DGAP,
        -((VERTICAL_MAX    * (DY + DGAP) - DGAP) / 2) - DGAP, 0);
    // Bottom end
    CreateCuboid(
        2 * DBOXW + DGAP + (HORIZONTAL_MAX * (DX + DGAP)),
        2 * DBOXW + DGAP + VERTICAL_MAX * (DY + DGAP), DBOXW,
        -(HORIZONTAL_MAX * (DX + DGAP) / 2) - DGAP - DBOXW,
        -(VERTICAL_MAX * (DY + DGAP) / 2) - DGAP - DBOXW, -DBOXW);

    glEndList();

    // define a Display List CUBOID_1X1 containing a cuboid with size 1 x 1

    glNewList(DisplayList + CUBOID_1X1_1, GL_COMPILE);
    CreateCuboid(DX, DY, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X1_2, GL_COMPILE);
    CreateCuboid(DX, DY, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X1_3, GL_COMPILE);
    CreateCuboid(DX, DY, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X1_4, GL_COMPILE);
    CreateCuboid(DX, DY, DZ, 0, 0, 0, true);
    glEndList();

    // define a Display List CUBOID_1X2 containing a cuboid with size 1 x 2

    glNewList(DisplayList + CUBOID_1X2_1, GL_COMPILE);
    CreateCuboid(DX, 2 * DY + DGAP, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X2_2, GL_COMPILE);
    CreateCuboid(DX, 2 * DY + DGAP, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X2_3, GL_COMPILE);
    CreateCuboid(DX, 2 * DY + DGAP, DZ, 0, 0, 0, true);
    glEndList();
    glNewList(DisplayList + CUBOID_1X2_4, GL_COMPILE);
    CreateCuboid(DX, 2 * DY + DGAP, DZ, 0, 0, 0, true);
    glEndList();

    // define a Display List CUBOID_2X1 containing a cuboid with size 2 x 1

    glNewList(DisplayList + CUBOID_2X1, GL_COMPILE);
    CreateCuboid(2 * DX + DGAP, DY, DZ, 0, 0, 0, true);
    glEndList();

    // define a Display List CUBOID_2X2 containing a cuboid with size 2 x 2

    glNewList(DisplayList + CUBOID_2X2, GL_COMPILE);
    CreateCuboid(2 * DX + DGAP, 2 * DY + DGAP, DZ * 2 / 3, 0, 0, 0, true);
    glEndList();
}
Ejemplo n.º 6
0
void PickingPass::OnWindowResize()
{
    InitializeTextures();
    m_PickingBuffer.Generate();
}
Ejemplo n.º 7
0
void CDetailObject::Init( void )
{
#if 0
	GETRENDERERINTERFACEPARAMS renderInterfaceParam;
	static DWORD msgHash_GetRendererInterface = CHashString(_T("GetRendererInterface")).GetUniqueID();
	m_ToolBox->SendMessage(msgHash_GetRendererInterface, sizeof(GETRENDERERINTERFACEPARAMS), &renderInterfaceParam, NULL, NULL );
	static DWORD msgHash_CreateController = CHashString(_T("CreateController")).GetUniqueID();
	m_ToolBox->SendMessage(msgHash_CreateController, sizeof( IController** ), &m_GeometryController );
	static DWORD msgHash_CreateGeometry = CHashString(_T("CreateGeometry")).GetUniqueID();
	m_ToolBox->SendMessage(msgHash_CreateGeometry, sizeof( IGeometry** ), &m_Geometry );

	m_IRenderer = renderInterfaceParam.m_RendererInterface;

	//load the shader
	IEffect * MyEffect = NULL;
	//load the shader
	LOADFILEEXTPARAMS lfep;
	if( m_ShaderFile == "" )
	{ 
		m_ShaderFile = "SHADERS/DEFAULTSHADER.efx"; 
	}
	m_ShaderFile.MakeSafeFileName();
	CHashString filename( m_ShaderFile );
	lfep.fileName = (TCHAR*)m_ShaderFile;
	lfep.bInternalLoad = true;
	static DWORD msgHash_LoadFileByExtension = CHashString(_T("LoadFileByExtension")).GetUniqueID();
	DWORD retval = EngineGetToolBox()->SendMessage(msgHash_LoadFileByExtension, sizeof(LOADFILEEXTPARAMS), &lfep);
	if( retval == MSG_HANDLED )
	{
		CREATEEFFECTINTERFACE cef;
		cef.m_Name = &filename;
		static DWORD msgHash_GetEffectInterface = CHashString(_T("GetEffectInterface")).GetUniqueID();
		EngineGetToolBox()->SendMessage(msgHash_GetEffectInterface, sizeof(CREATEEFFECTINTERFACE ), &cef );
		MyEffect = cef.m_EffectInterface;
		if( !MyEffect )
		{
			EngineGetToolBox()->Log( LOGERROR, _T("Could not load DetailObject's shader" ) );
		}
	}	

	GenerateVertices();

	CREATEMATERIALINTERFACE cmat;
	CREATEOBJECTPARAMS cop;
	TCHAR buf[ 512 ];
	CHashString hszType( _T("CMaterial" ) );
	IHashString * hname = GetName();
	if( m_GeometryController && m_Geometry )
	{
		m_Geometry->SetController( m_GeometryController );
		
		//set shader
		IMaterial * material = NULL;
		_stprintf( buf, "%s_mat", hname->GetString());
		CHashString hszName( buf );

		//Create the material
		cop.parentName = NULL;
		cop.typeName = &hszType;
		cop.name = &hszName;
		static DWORD msgHash_CreateObject = CHashString(_T("CreateObject")).GetUniqueID();
		m_ToolBox->SendMessage(msgHash_CreateObject, sizeof(CREATEOBJECTPARAMS), &cop, NULL, NULL);
		if( material )
		{
			cmat.m_Name = &hszName;
			static DWORD msgHash_GetMaterialInterface = CHashString(_T("GetMaterialInterface")).GetUniqueID();
			m_ToolBox->SendMessage(msgHash_GetMaterialInterface, sizeof(cmat), &cmat, NULL, NULL);
			if( cmat.m_MaterialInterface )
			{
				material = cmat.m_MaterialInterface;
				material->SetEffect( MyEffect );
			}
		}
		m_Geometry->SetMaterial( material );
		
		//do the proper allocation for the geometry
		BUFFERALLOCATIONSTRUCT tempalloc;
		tempalloc.m_Offset = m_VertexBufferAllocation.m_Offset;
		tempalloc.m_Size = m_VertexBufferAllocation.m_Size;
		tempalloc.m_Stride = m_VertexBufferAllocation.m_Stride;
		tempalloc.m_InterfaceHandle = m_VertexBufferAllocation.m_InterfaceHandle;
		tempalloc.m_AllocationHandle = m_VertexBufferAllocation.m_AllocationHandle;
		////vertex size and offset should be current

		m_Geometry->SetVertexBufferAllocation( tempalloc );
		tempalloc.m_Offset = m_IndexBufferAllocation.m_Offset;
		tempalloc.m_Size = m_IndexBufferAllocation.m_Size;
		tempalloc.m_Stride = m_IndexBufferAllocation.m_Stride;
		tempalloc.m_InterfaceHandle = m_IndexBufferAllocation.m_InterfaceHandle;
		tempalloc.m_AllocationHandle = m_IndexBufferAllocation.m_AllocationHandle;
		////vertex size and offset should be current
		m_Geometry->SetIndexBufferAllocation( tempalloc );
	}
	else
	{
	}

	InitializeTextures();

	UpdateBoundingObject();
#endif
}