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author | Bjoern Michaelsen <bjoern.michaelsen@canonical.com> | 2013-04-18 18:26:28 +0200 |
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committer | Bjoern Michaelsen <bjoern.michaelsen@canonical.com> | 2013-04-23 22:20:31 +0200 |
commit | b9337e22ce1dbf2eba0e8c8db294ae99f4111f91 (patch) | |
tree | 53ee1bd3dfd213815a21579151983cb997922b05 /include/basebmp/clippedlinerenderer.hxx | |
parent | f4e1642a1761d5eab6ccdd89928869c2b2f1528a (diff) |
execute move of global headers
see https://gerrit.libreoffice.org/#/c/3367/
and Change-Id: I00c96fa77d04b33a6f8c8cd3490dfcd9bdc9e84a for details
Change-Id: I199a75bc4042af20817265d5ef85b1134a96ff5a
Diffstat (limited to 'include/basebmp/clippedlinerenderer.hxx')
-rw-r--r-- | include/basebmp/clippedlinerenderer.hxx | 411 |
1 files changed, 411 insertions, 0 deletions
diff --git a/include/basebmp/clippedlinerenderer.hxx b/include/basebmp/clippedlinerenderer.hxx new file mode 100644 index 000000000000..92ca167730f5 --- /dev/null +++ b/include/basebmp/clippedlinerenderer.hxx @@ -0,0 +1,411 @@ +/* -*- 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/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#ifndef INCLUDED_BASEBMP_CLIPPEDLINERENDERER_HXX +#define INCLUDED_BASEBMP_CLIPPEDLINERENDERER_HXX + +#include <basegfx/tools/rectcliptools.hxx> +#include <basegfx/point/b2ipoint.hxx> +#include <basegfx/range/b2ibox.hxx> + +#include <vigra/diff2d.hxx> +#include <vigra/iteratortraits.hxx> + +namespace basebmp +{ + +// factored-out bresenham setup code, which is used from two different +// places in renderClippedLine() below. Admittedly messy for the long +// parameter list... +inline bool prepareClip( sal_Int32 a1, + sal_Int32 a2, + sal_Int32 b1, + sal_Int32 da, + sal_Int32 db, + sal_Int32& o_as, + sal_Int32& o_bs, + int sa, + int sb, + sal_Int32& io_rem, + int& o_n, + sal_uInt32 clipCode1, + sal_uInt32 clipCount1, + sal_uInt32 clipCode2, + sal_uInt32 clipCount2, + sal_Int32 aMin, + sal_uInt32 aMinFlag, + sal_Int32 aMax, + sal_uInt32 aMaxFlag, + sal_Int32 bMin, + sal_uInt32 bMinFlag, + sal_Int32 bMax, + sal_uInt32 bMaxFlag, + bool bRoundTowardsPt2, + bool& o_bUseAlternateBresenham ) +{ + int ca(0), cb(0); + if( clipCode1 ) + { + if( clipCode1 & aMinFlag ) + { + ca = 2*db*(aMin - a1); + o_as = aMin; + } + else if( clipCode1 & aMaxFlag ) + { + ca = 2*db*(a1 - aMax); + o_as = aMax; + } + + if( clipCode1 & bMinFlag ) + { + cb = 2*da*(bMin - b1); + o_bs = bMin; + } + else if( clipCode1 & bMaxFlag ) + { + cb = 2*da*(b1 - bMax); + o_bs = bMax; + } + + if( clipCount1 == 2 ) + clipCode1 &= (ca + da < cb + !bRoundTowardsPt2) ? ~(aMinFlag|aMaxFlag) : ~(bMinFlag|bMaxFlag); + + if( clipCode1 & (aMinFlag|aMaxFlag) ) + { + cb = (ca + da - !bRoundTowardsPt2) / (2*da); + + if( sb >= 0 ) + { + o_bs = b1 + cb; + if( o_bs > bMax ) + return false; // fully clipped + } + else + { + o_bs = b1 - cb; + if( o_bs < bMin ) + return false; // fully clipped + } + + io_rem += ca - 2*da*cb; + } + else + { + ca = (cb - da + 2*db - bRoundTowardsPt2) / (2*db); + if( sa >= 0 ) + { + o_as = a1 + ca; + if( o_as > aMax ) + return false; // fully clipped + } + else + { + o_as = a1 - ca; + if( o_as < aMin ) + return false; // fully clipped + } + + io_rem += 2*db*ca - cb; + } + } + else + { + o_as = a1; o_bs = b1; + } + + if( clipCode2 ) + { + if( clipCount2 == 2 ) + { + ca = 2*db*((clipCode2 & aMinFlag) ? a1 - aMin : aMax - a1); + cb = 2*da*((clipCode2 & bMinFlag) ? b1 - bMin : bMax - b1); + clipCode2 &= (cb + da < ca + bRoundTowardsPt2) ? ~(aMinFlag|aMaxFlag) : ~(bMinFlag|bMaxFlag); + } + + if( clipCode2 & (aMinFlag|aMaxFlag) ) + o_n = (clipCode2 & aMinFlag) ? o_as - aMin : aMax - o_as; + else + { + o_n = (clipCode2 & bMinFlag) ? o_bs - bMin : bMax - o_bs; + o_bUseAlternateBresenham = true; + } + } + else + o_n = (a2 >= o_as) ? a2 - o_as : o_as - a2; + + return true; // at least one pixel to render +} + + +/** Render line to image iterators, clip against given rectangle + + This method renders a line from aPt1 to aPt2, clipped against + rClipRect (the clipping will take place pixel-perfect, i.e. as if + the original bresenham-rendered line would have been clipped each + pixel individually. No slight shifts compared to unclipped lines). + + @param aPt1 + Start point of the line + + @param aPt2 + End point of the line + + @param rClipRect + Rectangle to clip against + + @param color + Color value to render the line with + + @param begin + left-top image iterator + + @param end + right-bottom image iterator + + @param acc + Image accessor + + @param bRoundTowardsPt2 + Rounding mode to use. Giving false here results in line pixel tend + towards pt1, i.e. when a pixel exactly hits the middle between two + pixel, the pixel closer to pt1 will be chosen. Giving true here + makes renderClippedLine() choose pt2 in those cases. + */ +template< class Iterator, class Accessor > +void renderClippedLine( basegfx::B2IPoint aPt1, + basegfx::B2IPoint aPt2, + const basegfx::B2IBox& rClipRect, + typename Accessor::value_type color, + Iterator begin, + Accessor acc, + bool bRoundTowardsPt2=false ) +{ + // Algorithm according to Steven Eker's 'Pixel-perfect line clipping', + // Graphics Gems V, pp. 314-322 + sal_uInt32 clipCode1 = basegfx::tools::getCohenSutherlandClipFlags(aPt1, + rClipRect); + sal_uInt32 clipCode2 = basegfx::tools::getCohenSutherlandClipFlags(aPt2, + rClipRect); + + if( clipCode1 & clipCode2 ) + return; // line fully clipped away, both endpoints share a half-plane + + sal_uInt32 clipCount1 = basegfx::tools::getNumberOfClipPlanes(clipCode1); + sal_uInt32 clipCount2 = basegfx::tools::getNumberOfClipPlanes(clipCode2); + + if( (clipCode1 != 0 && clipCode2 == 0) + || (clipCount1 == 2 && clipCount2 == 1) ) + { + std::swap(clipCount2,clipCount1); + std::swap(clipCode2,clipCode1); + std::swap(aPt1,aPt2); + bRoundTowardsPt2 = !bRoundTowardsPt2; + } + + const sal_Int32 x1 = aPt1.getX(); + const sal_Int32 x2 = aPt2.getX(); + const sal_Int32 y1 = aPt1.getY(); + const sal_Int32 y2 = aPt2.getY(); + + // TODO(E1): This might overflow + sal_Int32 adx = x2 - x1; + int sx = 1; + if( adx < 0 ) + { + adx *= -1; + sx = -1; + } + + // TODO(E1): This might overflow + sal_Int32 ady = y2 - y1; + int sy = 1; + if( ady < 0 ) + { + ady *= -1; + sy = -1; + } + + int n = 0; + sal_Int32 xs = x1; + sal_Int32 ys = y1; + bool bUseAlternateBresenham=false; + if( adx >= ady ) + { + // semi-horizontal line + sal_Int32 rem = 2*ady - adx - !bRoundTowardsPt2; + + if( !prepareClip(x1, x2, y1, adx, ady, xs, ys, sx, sy, + rem, n, clipCode1, clipCount1, clipCode2, clipCount2, + rClipRect.getMinX(), basegfx::tools::RectClipFlags::LEFT, + rClipRect.getMaxX()-1, basegfx::tools::RectClipFlags::RIGHT, + rClipRect.getMinY(), basegfx::tools::RectClipFlags::TOP, + rClipRect.getMaxY()-1, basegfx::tools::RectClipFlags::BOTTOM, + bRoundTowardsPt2, bUseAlternateBresenham ) ) + return; // line fully clipped away, no active pixel inside rect + + Iterator currIter( begin + vigra::Diff2D(0,ys) ); + typename vigra::IteratorTraits<Iterator>::row_iterator + rowIter( currIter.rowIterator() + xs ); + + adx *= 2; + ady *= 2; + + if( bUseAlternateBresenham ) + { + while(true) + { + acc.set(color, rowIter); + + if( rem >= 0 ) + { + // this is intended - we clip endpoint against y + // plane, so n here denotes y range to render + if( --n < 0 ) + break; + + ys += sy; + xs += sx; + rem -= adx; + + currIter.y += sy; + rowIter = currIter.rowIterator() + xs; + } + else + { + xs += sx; + rowIter += sx; + } + + rem += ady; + } + } + else + { + while(true) + { + acc.set(color, rowIter); + + if( --n < 0 ) + break; + + if( rem >= 0 ) + { + ys += sy; + xs += sx; + rem -= adx; + + currIter.y += sy; + rowIter = currIter.rowIterator() + xs; + } + else + { + xs += sx; + rowIter += sx; + } + + rem += ady; + } + } + } + else + { + // semi-vertical line + sal_Int32 rem = 2*adx - ady - !bRoundTowardsPt2; + + if( !prepareClip(y1, y2, x1, ady, adx, ys, xs, sy, sx, + rem, n, clipCode1, clipCount1, clipCode2, clipCount2, + rClipRect.getMinY(), basegfx::tools::RectClipFlags::TOP, + rClipRect.getMaxY()-1, basegfx::tools::RectClipFlags::BOTTOM, + rClipRect.getMinX(), basegfx::tools::RectClipFlags::LEFT, + rClipRect.getMaxX()-1, basegfx::tools::RectClipFlags::RIGHT, + bRoundTowardsPt2, bUseAlternateBresenham ) ) + return; // line fully clipped away, no active pixel inside rect + + Iterator currIter( begin + vigra::Diff2D(xs,0) ); + typename vigra::IteratorTraits<Iterator>::column_iterator + colIter( currIter.columnIterator() + ys ); + + adx *= 2; + ady *= 2; + + if( bUseAlternateBresenham ) + { + while(true) + { + acc.set(color, colIter); + + if( rem >= 0 ) + { + // this is intended - we clip endpoint against x + // plane, so n here denotes x range to render + if( --n < 0 ) + break; + + xs += sx; + ys += sy; + rem -= ady; + + currIter.x += sx; + colIter = currIter.columnIterator() + ys; + } + else + { + ys += sy; + colIter += sy; + } + + rem += adx; + } + } + else + { + while(true) + { + acc.set(color, colIter); + + if( --n < 0 ) + break; + + if( rem >= 0 ) + { + xs += sx; + ys += sy; + rem -= ady; + + currIter.x += sx; + colIter = currIter.columnIterator() + ys; + } + else + { + ys += sy; + colIter += sy; + } + + rem += adx; + } + } + } +} + +} // namespace basebmp + +#endif /* INCLUDED_BASEBMP_CLIPPEDLINERENDERER_HXX */ + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |