/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * */ #include #include #include #include #include #include BitmapEx BitmapGaussianSeparableBlurFilter::execute(BitmapEx const& rBitmapEx) const { Bitmap aBitmap(rBitmapEx.GetBitmap()); const long nWidth = aBitmap.GetSizePixel().Width(); const long nHeight = aBitmap.GetSizePixel().Height(); // Prepare Blur Vector int aNumberOfContributions; std::vector aBlurVector(makeBlurKernel(mfRadius, aNumberOfContributions)); std::vector aWeights; std::vector aPixels; std::vector aCounts; // Do horizontal filtering blurContributions(nWidth, aNumberOfContributions, aBlurVector, aWeights, aPixels, aCounts); Bitmap::ScopedReadAccess pReadAcc(aBitmap); // switch coordinates as convolution pass transposes result Bitmap aNewBitmap(Size(nHeight, nWidth), 24); bool bResult = convolutionPass(aBitmap, aNewBitmap, pReadAcc.get(), aNumberOfContributions, aWeights.data(), aPixels.data(), aCounts.data()); // Cleanup pReadAcc.reset(); aWeights.clear(); aPixels.clear(); aCounts.clear(); if (!bResult) { aBlurVector.clear(); } else { // Swap current bitmap with new bitmap aBitmap.ReassignWithSize(aNewBitmap); // Do vertical filtering blurContributions(nHeight, aNumberOfContributions, aBlurVector, aWeights, aPixels, aCounts); pReadAcc = Bitmap::ScopedReadAccess(aBitmap); aNewBitmap = Bitmap(Size(nWidth, nHeight), 24); bResult = convolutionPass(aBitmap, aNewBitmap, pReadAcc.get(), aNumberOfContributions, aWeights.data(), aPixels.data(), aCounts.data()); // Cleanup pReadAcc.reset(); aWeights.clear(); aCounts.clear(); aPixels.clear(); aBlurVector.clear(); if (bResult) aBitmap.ReassignWithSize(aNewBitmap); // swap current bitmap with new bitmap } if (bResult) return BitmapEx(aBitmap); return BitmapEx(); } bool BitmapGaussianSeparableBlurFilter::convolutionPass(Bitmap& rBitmap, Bitmap& aNewBitmap, BitmapReadAccess const* pReadAcc, int aNumberOfContributions, const double* pWeights, int const* pPixels, const int* pCount) { if (!pReadAcc) return false; BitmapScopedWriteAccess pWriteAcc(aNewBitmap); if (!pWriteAcc) return false; const int nHeight = rBitmap.GetSizePixel().Height(); assert(rBitmap.GetSizePixel().Height() == aNewBitmap.GetSizePixel().Width()); const int nWidth = rBitmap.GetSizePixel().Width(); assert(rBitmap.GetSizePixel().Width() == aNewBitmap.GetSizePixel().Height()); BitmapColor aColor; double aValueRed, aValueGreen, aValueBlue; double aSum, aWeight; int aBaseIndex, aIndex; for (int nSourceY = 0; nSourceY < nHeight; ++nSourceY) { for (int nSourceX = 0; nSourceX < nWidth; ++nSourceX) { aBaseIndex = nSourceX * aNumberOfContributions; aSum = aValueRed = aValueGreen = aValueBlue = 0.0; for (int j = 0; j < pCount[nSourceX]; ++j) { aIndex = aBaseIndex + j; aWeight = pWeights[aIndex]; aSum += aWeight; aColor = pReadAcc->GetColor(nSourceY, pPixels[aIndex]); aValueRed += aWeight * aColor.GetRed(); aValueGreen += aWeight * aColor.GetGreen(); aValueBlue += aWeight * aColor.GetBlue(); } BitmapColor aResultColor(static_cast(MinMax(aValueRed / aSum, 0, 255)), static_cast(MinMax(aValueGreen / aSum, 0, 255)), static_cast(MinMax(aValueBlue / aSum, 0, 255))); int nDestX = nSourceY; int nDestY = nSourceX; pWriteAcc->SetPixel(nDestY, nDestX, aResultColor); } } return true; } std::vector BitmapGaussianSeparableBlurFilter::makeBlurKernel(const double radius, int& rows) { int intRadius = static_cast(radius + 1.0); rows = intRadius * 2 + 1; std::vector matrix(rows); double sigma = radius / 3; double radius2 = radius * radius; int index = 0; for (int row = -intRadius; row <= intRadius; row++) { double distance = row * row; if (distance > radius2) { matrix[index] = 0.0; } else { matrix[index] = exp(-distance / (2.0 * sigma * sigma)) / sqrt(2.0 * M_PI * sigma); } index++; } return matrix; } void BitmapGaussianSeparableBlurFilter::blurContributions( const int aSize, const int aNumberOfContributions, const std::vector& rBlurVector, std::vector& rWeights, std::vector& rPixels, std::vector& rCounts) { rWeights.resize(aSize * aNumberOfContributions); rPixels.resize(aSize * aNumberOfContributions); rCounts.resize(aSize); int aLeft, aRight, aCurrentCount, aPixelIndex; double aWeight; for (int i = 0; i < aSize; i++) { aLeft = i - aNumberOfContributions / 2; aRight = i + aNumberOfContributions / 2; aCurrentCount = 0; for (int j = aLeft; j <= aRight; j++) { aWeight = rBlurVector[aCurrentCount]; // Mirror edges if (j < 0) { aPixelIndex = -j; } else if (j >= aSize) { aPixelIndex = (aSize - j) + aSize - 1; } else { aPixelIndex = j; } // Edge case for small bitmaps if (aPixelIndex < 0 || aPixelIndex >= aSize) { aWeight = 0.0; } rWeights[i * aNumberOfContributions + aCurrentCount] = aWeight; rPixels[i * aNumberOfContributions + aCurrentCount] = aPixelIndex; aCurrentCount++; } rCounts[i] = aCurrentCount; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */