Exemple #1
0
        void computeProjectedSynthNeighborhoods(List <PCA /*_Synth*/> pcaSynth)
        {
            bool clean_neigh = false;

            // if synth neighborhoods not available, compute them
            if (m_SynthNeighborhoods == null)
            {
                computeSynthNeighborhoods();
                clean_neigh = true;
            }

            {
                ScopeTimer tm = new ScopeTimer("[computeProjectedSynthNeighborhoods]");

                m_ProjectedSynthNeighborhoods = new NeighborhoodSynth[mNumLevels][];
                // foreach level
                for (int l = 0; l < mNumLevels; l++)
                {
                    m_ProjectedSynthNeighborhoods[l] = new NeighborhoodSynth[mOwner.recoloredStack(l).getWidth() * mOwner.recoloredStack(l).getHeight()];
                    for (int j = 0; j < mOwner.recoloredStack(l).getHeight(); j++)
                    {
                        for (int i = 0; i < mOwner.recoloredStack(l).getWidth(); i++)
                        {
                            m_ProjectedSynthNeighborhoods[l][i + j * mOwner.recoloredStack(l).getWidth()] = new NeighborhoodSynth();
                            NeighborhoodSynth neigh = m_SynthNeighborhoods[l][i + j * mOwner.recoloredStack(l).getWidth()];
                            NeighborhoodSynth proj  = m_ProjectedSynthNeighborhoods[l][i + j * mOwner.recoloredStack(l).getWidth()];
                            pcaSynth[l].project(neigh, Globals.NUM_RUNTIME_PCA_COMPONENTS, ref proj);
                            proj.setIJ(i, j);
                        }
                    }
                }
                tm.destroy();
                tm = null;
            }


            // clean RT neighborhoods
            if (clean_neigh)
            {
                m_SynthNeighborhoods = null;
            }
        }
Exemple #2
0
        public Quantizer(MultiDimFloatTexture tex, int qbits, float percent)
        {
            Globals.Assert(percent > 0.0f && percent <= 100.0f);
            ScopeTimer tm = new ScopeTimer("[Quantizer]");

            m_Texture   = tex;
            m_Quantized = new MultiDimIntTexture(tex.width(), tex.height(), tex.numComp());

            m_iQBits = qbits;

            m_Mean   = new float[tex.numComp()];
            m_StdDev = new float[tex.numComp()];
            m_Center = new float[tex.numComp()];
            m_Radius = new float[tex.numComp()];

            // . compute std dev and mean of every components

            float [] sum   = new float[tex.numComp()];
            float [] sumsq = new float[tex.numComp()];

            for (int j = 0; j < tex.height(); j++)
            {
                for (int i = 0; i < tex.width(); i++)
                {
                    for (int c = 0; c < tex.numComp(); c++)
                    {
                        float f = tex.get(i, j, c);
                        sum[c]   += f;
                        sumsq[c] += f * f;
                    }
                }
            }

            float num = (float)(tex.width() * tex.height());

            for (int c = 0; c < tex.numComp(); c++)
            {
                m_Mean[c] = sum[c] / num;
                float sqstddev = (sumsq[c] - sum[c] * sum[c] / num) / (num - 1.0f);
                if (sqstddev > BMathLib.cFloatCompareEpsilon)
                {
                    m_StdDev[c] = (float)Math.Sqrt(sqstddev);
                }
                else
                {
                    m_StdDev[c] = 0.0f;
                }
            }

            // . for every component
            //      compute center and radius so that 'percent' samples are within quantization space
            for (int c = 0; c < tex.numComp(); c++)
            {
                float [] samples = new float[tex.width() * tex.height()];
                // add samples to array
                for (int j = 0; j < tex.height(); j++)
                {
                    for (int i = 0; i < tex.width(); i++)
                    {
                        samples[i + j * tex.width()] = tex.get(i, j, c);
                    }
                }

                // sort array
                Sort.RadixSort rs = new Sort.RadixSort();
                rs.Sort(samples);//sort(samples.begin(),samples.end());

                // find left and right elements so that 'percent' elements are inside
                float pout  = ((100.0f - percent) / 2) / 100.0f;
                int   left  = (int)((samples.Length - 1) * pout);
                int   right = (int)((samples.Length - 1) * (1.0f - pout));
                m_Center[c] = (samples[right] + samples[left]) / 2.0f;
                m_Radius[c] = samples[right] - samples[left];
            }

            // . quantize
            int num_outside = 0;

            for (int j = 0; j < tex.height(); j++)
            {
                for (int i = 0; i < tex.width(); i++)
                {
                    if (!quantizePixel(tex.numComp(), tex, tex.getpixIndex(i, j), m_Quantized.getpixIndex(i, j)))
                    {
                        num_outside++;
                    }
                }
            }

            float percent_out = num_outside * 100.0f / (tex.width() * tex.height());


            if (Globals.PRINT_DEBUG_MSG)
            {
                Debug.Print("-----------.>> Quantizer: num outside = " + percent_out + "%");
            }
            tm.destroy();
            tm = null;
        }
Exemple #3
0
        // -----------------------------------------------------

        MultiDimFloatTexture enlargeTexture(MultiDimFloatTexture ex, int type)
        {
            ScopeTimer tm = new ScopeTimer("[Exemplar::enlargeTexture]");

            int w = ex.getWidth();
            int h = ex.getHeight();
            MultiDimFloatTexture large = new MultiDimFloatTexture(w * 2, h * 2, ex.numComp());

            for (int j = 0; j < h * 2; j++)
            {
                for (int i = 0; i < w * 2; i++)
                {
                    int ri, rj;

                    // where to read ?
                    if (type == 0)
                    {
                        // Toroidal
                        // ri
                        if (i < w / 2)
                        {
                            ri = (i + w / 2) % w;
                        }
                        else if (i < w + w / 2)
                        {
                            ri = i - w / 2;
                        }
                        else
                        {
                            ri = ((i - w / 2) % w);
                        }
                        // rj
                        if (j < h / 2)
                        {
                            rj = (j + h / 2) % h;
                        }
                        else if (j < h + h / 2)
                        {
                            rj = j - h / 2;
                        }
                        else
                        {
                            rj = ((j - h / 2) % h);
                        }
                    }
                    else
                    {
                        // Mirror
                        // ri
                        if (i < w / 2)
                        {
                            ri = (w / 2 - i);
                        }
                        else if (i < w + w / 2)
                        {
                            ri = i - w / 2;
                        }
                        else
                        {
                            ri = (w - 1 - (i - (w / 2 + w)));
                        }
                        // rj
                        if (j < h / 2)
                        {
                            rj = (h / 2 - j);
                        }
                        else if (j < h + h / 2)
                        {
                            rj = j - h / 2;
                        }
                        else
                        {
                            rj = (h - 1 - (j - (h / 2 + h)));
                        }
                    }

                    for (int c = 0; c < ex.numComp(); c++)
                    {
                        large.set(ex.get(ri, rj, c), i, j, c);
                    }
                }
            }
            tm.destroy();
            tm = null;
            return(large);
        }
Exemple #4
0
        void computeSynthNeighborhoods()
        {
            ScopeTimer tm = new ScopeTimer("[computeSynthNeighborhoods]");

            m_SynthNeighborhoods = new NeighborhoodSynth[mNumLevels][];

            // foreach level
            for (int level = 0; level < mNumLevels; level++)
            {
                MultiDimFloatTexture recolored_level = null;

                if (Globals.isDefined("4D"))
                {
                    // . keep only 4 dimension from recolored exemplar
                    MultiDimFloatTexture level_4D = new MultiDimFloatTexture(mOwner.recoloredStack(level).width(), mOwner.recoloredStack(level).height(), mOwner.recoloredStack(level).numComp());
                    int w = level_4D.getWidth();
                    int h = level_4D.getHeight();
                    Globals.Assert(w == mOwner.stack(level).getWidth() && h == mOwner.stack(level).height());
                    Globals.Assert(level_4D.numComp() == Globals.NUM_RECOLORED_PCA_COMPONENTS);
                    for (int i = 0; i < w; i++)
                    {
                        for (int j = 0; j < h; j++)
                        {
                            // . copy first four channels
                            for (int c = 0; c < 4; c++)
                            {
                                level_4D.set(mOwner.recoloredStack(level).get(i, j, c), i, j, c);
                            }
                            // . zero out all channels above 4
                            for (int c = 4; c < level_4D.numComp(); c++)
                            {
                                level_4D.set(0, i, j, c);
                            }
                        }
                    }
                    recolored_level = level_4D;
                }
                else
                {
                    // . keep all dimensions
                    recolored_level = mOwner.recoloredStack(level);
                }

                m_SynthNeighborhoods[level] = new NeighborhoodSynth[recolored_level.width() * recolored_level.height()];

                stack_accessor_v2 access = new stack_accessor_v2(level);


                for (int j = 0; j < recolored_level.height(); j++)
                {
                    for (int i = 0; i < recolored_level.width(); i++)
                    {
                        int index = i + j * recolored_level.width();
                        m_SynthNeighborhoods[level][index] = new NeighborhoodSynth();
                        m_SynthNeighborhoods[level][index].construct(
                            recolored_level,
                            access,
                            (!mOwner.isToroidal()) && level < (mNumLevels - Globals.NUM_LEVELS_WITHOUT_BORDER),
                            //(!m_bToroidal) && l < FIRST_LEVEL_WITH_BORDER,
                            level, i, j);
                    }
                }
            }

            tm.destroy();
            tm = null;
        }