Exemple #1
0
//--------------------------------------------------------------------------------------------------
/// Draw the legend using immediate mode OpenGL
//--------------------------------------------------------------------------------------------------
void OverlayColorLegend::renderLegendImmediateMode(OpenGLContext* oglContext, OverlayColorLegendLayoutInfo* layout)
{
#ifdef CVF_OPENGL_ES
    CVF_UNUSED(layout);
    CVF_FAIL_MSG("Not supported on OpenGL ES");
#else
    CVF_TIGHT_ASSERT(layout);
    CVF_TIGHT_ASSERT(layout->size.x() > 0);
    CVF_TIGHT_ASSERT(layout->size.y() > 0);

    Depth depth(false);
    depth.applyOpenGL(oglContext);

    Lighting_FF lighting(false);
    lighting.applyOpenGL(oglContext);

    // All vertices. Initialized here to set Z to zero once and for all.
    static float vertexArray[] = 
    {
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
    };

    // Per vector convenience pointers
    float* v0 = &vertexArray[0];    
    float* v1 = &vertexArray[3];    
    float* v2 = &vertexArray[6];    
    float* v3 = &vertexArray[9];    
    float* v4 = &vertexArray[12];   

    // Constant coordinates
    v0[0] = v3[0] = layout->x0;
    v1[0] = v4[0] = layout->x1;

    // Render color bar as one colored quad per pixel

    int legendHeightPixelCount = static_cast<int>(layout->tickPixelPos->get(m_tickValues.size() - 1) - layout->tickPixelPos->get(0) + 0.01);
    if (m_scalarMapper.notNull())
    {
        int iPx;
        for (iPx = 0; iPx < legendHeightPixelCount; iPx++)
        {
            const Color3ub& clr = m_scalarMapper->mapToColor(m_scalarMapper->domainValue((iPx+0.5)/legendHeightPixelCount));
            float y0 = static_cast<float>(layout->legendRect.min().y() + iPx);
            float y1 = static_cast<float>(layout->legendRect.min().y() + iPx + 1);

            // Dynamic coordinates for rectangle
            v0[1] = v1[1] = y0;
            v3[1] = v4[1] = y1;

            // Draw filled rectangle elements
            glColor3ubv(clr.ptr());
            glBegin(GL_TRIANGLE_FAN);
            glVertex3fv(v0);
            glVertex3fv(v1);
            glVertex3fv(v4);
            glVertex3fv(v3);
            glEnd();
        }
    }

    // Render frame

    // Dynamic coordinates for  tickmarks-lines
    bool isRenderingFrame = true;
    if (isRenderingFrame)
    {
        v0[0] = v2[0] = layout->legendRect.min().x()-0.5f;
        v1[0] = v3[0] = layout->legendRect.max().x()-0.5f;
        v0[1] = v1[1] = layout->legendRect.min().y()-0.5f;
        v2[1] = v3[1] = layout->legendRect.max().y()-0.5f;

        glColor3fv(m_color.ptr());
        glBegin(GL_LINES);
        glVertex3fv(v0);
        glVertex3fv(v1);
        glVertex3fv(v1);
        glVertex3fv(v3);
        glVertex3fv(v3);
        glVertex3fv(v2);
        glVertex3fv(v2);
        glVertex3fv(v0);
        glEnd();

    }

    // Render tickmarks
    bool isRenderingTicks = true;

    if (isRenderingTicks)
    {
        // Constant coordinates
        v0[0] = layout->x0;
        v1[0] = layout->x1 - 0.5f*(layout->tickX - layout->x1) - 0.5f;
        v2[0] = layout->x1;
        v3[0] = layout->tickX - 0.5f*(layout->tickX - layout->x1) - 0.5f;
        v4[0] = layout->tickX;

        size_t ic;
        for (ic = 0; ic < m_tickValues.size(); ic++)
        {
            float y0 = static_cast<float>(layout->legendRect.min().y() + layout->tickPixelPos->get(ic) - 0.5f);

            // Dynamic coordinates for  tickmarks-lines
            v0[1] = v1[1] = v2[1] = v3[1] = v4[1] = y0;

            glColor3fv(m_color.ptr());
            glBegin(GL_LINES);
            if ( m_visibleTickLabels[ic])
            {
                glVertex3fv(v0);
                glVertex3fv(v4); 
            }
            else
            {
                glVertex3fv(v2);
                glVertex3fv(v3);
            }
            glEnd();
        }
    }

    // Reset render states
    Lighting_FF resetLighting;
    resetLighting.applyOpenGL(oglContext);
    Depth resetDepth;
    resetDepth.applyOpenGL(oglContext);

    CVF_CHECK_OGL(oglContext);
#endif // CVF_OPENGL_ES
}
Exemple #2
0
//--------------------------------------------------------------------------------------------------
/// Draw the legend using shader programs
//--------------------------------------------------------------------------------------------------
void OverlayColorLegend::renderLegend(OpenGLContext* oglContext, OverlayColorLegendLayoutInfo* layout, const MatrixState& matrixState)
{
    CVF_CALLSITE_OPENGL(oglContext);

    CVF_TIGHT_ASSERT(layout);
    CVF_TIGHT_ASSERT(layout->size.x() > 0);
    CVF_TIGHT_ASSERT(layout->size.y() > 0);

    Depth depth(false);
    depth.applyOpenGL(oglContext);

    // All vertices. Initialized here to set Z to zero once and for all.
    static float vertexArray[] = 
    {
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f,
        0.0f, 0.0f, 0.0f
    };

    // Per vector convenience pointers
    float* v0 = &vertexArray[0]; 
    float* v1 = &vertexArray[3]; 
    float* v2 = &vertexArray[6]; 
    float* v3 = &vertexArray[9]; 
    float* v4 = &vertexArray[12];

    // Constant coordinates
    v0[0] = v3[0] = layout->x0;
    v1[0] = v4[0] = layout->x1;

    // Connects
    static const ushort trianglesConnects[] = { 0, 1, 4, 0, 4, 3 };

    ref<ShaderProgram> shaderProgram = oglContext->resourceManager()->getLinkedUnlitColorShaderProgram(oglContext);
    CVF_TIGHT_ASSERT(shaderProgram.notNull());

    if (shaderProgram->useProgram(oglContext))
    {
        shaderProgram->clearUniformApplyTracking();
        shaderProgram->applyFixedUniforms(oglContext, matrixState);
    }

    glBindBuffer(GL_ARRAY_BUFFER, 0);
    glEnableVertexAttribArray(ShaderProgram::VERTEX);
    glVertexAttribPointer(ShaderProgram::VERTEX, 3, GL_FLOAT, GL_FALSE, 0, vertexArray);

    // Render color bar as one colored quad per pixel

    int legendHeightPixelCount = static_cast<int>(layout->tickPixelPos->get(m_tickValues.size()-1) - layout->tickPixelPos->get(0) + 0.01);
    if (m_scalarMapper.notNull())
    {
        int iPx;
        for (iPx = 0; iPx < legendHeightPixelCount; iPx++)
        {
            const Color3ub& clr = m_scalarMapper->mapToColor(m_scalarMapper->domainValue((iPx+0.5)/legendHeightPixelCount));
            float y0 = static_cast<float>(layout->legendRect.min().y() + iPx);
            float y1 = static_cast<float>(layout->legendRect.min().y() + iPx + 1);

            // Dynamic coordinates for rectangle
            v0[1] = v1[1] = y0;
            v3[1] = v4[1] = y1;

            // Draw filled rectangle elements
            {
                UniformFloat uniformColor("u_color", Color4f(Color3f(clr)));
                shaderProgram->applyUniform(oglContext, uniformColor);

#ifdef CVF_OPENGL_ES
                glDrawElements(GL_TRIANGLES, 6, GL_UNSIGNED_SHORT, trianglesConnects);
#else
                glDrawRangeElements(GL_TRIANGLES, 0, 4, 6, GL_UNSIGNED_SHORT, trianglesConnects);
#endif
            }
        }
    }

    // Render frame

    // Dynamic coordinates for  tickmarks-lines
    bool isRenderingFrame = true;
    if (isRenderingFrame)
    {
        v0[0] = v2[0] = layout->legendRect.min().x()-0.5f;
        v1[0] = v3[0] = layout->legendRect.max().x()-0.5f;
        v0[1] = v1[1] = layout->legendRect.min().y()-0.5f;
        v2[1] = v3[1] = layout->legendRect.max().y()-0.5f;
        static const ushort frameConnects[] = { 0, 1, 1, 3, 3, 2, 2, 0};

        UniformFloat uniformColor("u_color", Color4f(m_color));
        shaderProgram->applyUniform(oglContext, uniformColor);

#ifdef CVF_OPENGL_ES
        glDrawElements(GL_LINES, 8, GL_UNSIGNED_SHORT, frameConnects);
#else
        glDrawRangeElements(GL_LINES, 0, 3, 8, GL_UNSIGNED_SHORT, frameConnects);
#endif
    }

    // Render tickmarks
    bool isRenderingTicks = true;

    if (isRenderingTicks)
    {
        // Constant coordinates
        v0[0] = layout->x0;
        v1[0] = layout->x1 - 0.5f*(layout->tickX - layout->x1) - 0.5f;
        v2[0] = layout->x1;
        v3[0] = layout->tickX - 0.5f*(layout->tickX - layout->x1) - 0.5f;
        v4[0] = layout->tickX;

        static const ushort tickLinesWithLabel[] = { 0, 4 };
        static const ushort tickLinesWoLabel[] = { 2, 3 };

        size_t ic;
        for (ic = 0; ic < m_tickValues.size(); ic++)
        {
                float y0 = static_cast<float>(layout->legendRect.min().y() + layout->tickPixelPos->get(ic) - 0.5f);

                // Dynamic coordinates for  tickmarks-lines
                v0[1] = v1[1] = v2[1] = v3[1] = v4[1] = y0;

                UniformFloat uniformColor("u_color", Color4f(m_color));
                shaderProgram->applyUniform(oglContext, uniformColor);
                const ushort * linesConnects;

                if ( m_visibleTickLabels[ic])
                {
                    linesConnects = tickLinesWithLabel;
                }
                else
                {
                    linesConnects = tickLinesWoLabel;
                }

#ifdef CVF_OPENGL_ES
                glDrawElements(GL_LINES, 2, GL_UNSIGNED_SHORT, linesConnects);
#else
                glDrawRangeElements(GL_LINES, 0, 4, 2, GL_UNSIGNED_SHORT, linesConnects);
#endif
        }
    }

    glDisableVertexAttribArray(ShaderProgram::VERTEX);

    CVF_TIGHT_ASSERT(shaderProgram.notNull());
    shaderProgram->useNoProgram(oglContext);

    // Reset render states
    Depth resetDepth;
    resetDepth.applyOpenGL(oglContext);

    CVF_CHECK_OGL(oglContext);
}