/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_basegfx.hxx" #include #include #include namespace basegfx { namespace { /** Generic implementation of the difference set computation @tpl RangeType Type to operate on. Must provide ValueType and TraitsType nested types. */ template< class RangeType > void doComputeSetDifference( ::std::vector< RangeType >& o_rRanges, const RangeType& a, const RangeType& b ) { o_rRanges.clear(); // special-casing the empty rect case (this will fail most // of the times below, because of the DBL_MIN/MAX special // values denoting emptyness in the rectangle. if( a.isEmpty() ) { o_rRanges.push_back( b ); return; } if( b.isEmpty() ) { o_rRanges.push_back( a ); return; } const typename RangeType::ValueType ax(a.getMinX()); const typename RangeType::ValueType ay(a.getMinY()); const typename RangeType::TraitsType::DifferenceType aw(a.getWidth()); const typename RangeType::TraitsType::DifferenceType ah(a.getHeight()); const typename RangeType::ValueType bx(b.getMinX()); const typename RangeType::ValueType by(b.getMinY()); const typename RangeType::TraitsType::DifferenceType bw(b.getWidth()); const typename RangeType::TraitsType::DifferenceType bh(b.getHeight()); const typename RangeType::TraitsType::DifferenceType h0( (by > ay) ? by - ay : 0 ); const typename RangeType::TraitsType::DifferenceType h3( (by + bh < ay + ah) ? ay + ah - by - bh : 0 ); const typename RangeType::TraitsType::DifferenceType w1( (bx > ax) ? bx - ax : 0 ); const typename RangeType::TraitsType::DifferenceType w2( (ax + aw > bx + bw) ? ax + aw - bx - bw : 0 ); const typename RangeType::TraitsType::DifferenceType h12( (h0 + h3 < ah) ? ah - h0 - h3 : 0 ); // TODO(E2): Use numeric_cast instead of static_cast here, // need range checks! if (h0 > 0) o_rRanges.push_back( RangeType(ax,ay, static_cast(ax+aw), static_cast(ay+h0)) ); if (w1 > 0 && h12 > 0) o_rRanges.push_back( RangeType(ax, static_cast(ay+h0), static_cast(ax+w1), static_cast(ay+h0+h12)) ); if (w2 > 0 && h12 > 0) o_rRanges.push_back( RangeType(static_cast(bx+bw), static_cast(ay+h0), static_cast(bx+bw+w2), static_cast(ay+h0+h12)) ); if (h3 > 0) o_rRanges.push_back( RangeType(ax, static_cast(ay+h0+h12), static_cast(ax+aw), static_cast(ay+h0+h12+h3)) ); } } ::std::vector< B2IRange >& computeSetDifference( ::std::vector< B2IRange >& o_rResult, const B2IRange& rFirst, const B2IRange& rSecond ) { doComputeSetDifference( o_rResult, rFirst, rSecond ); return o_rResult; } ::std::vector< B2DRange >& computeSetDifference( ::std::vector< B2DRange >& o_rResult, const B2DRange& rFirst, const B2DRange& rSecond ) { doComputeSetDifference( o_rResult, rFirst, rSecond ); return o_rResult; } ::std::vector< B2IBox >& computeSetDifference( ::std::vector< B2IBox >& o_rResult, const B2IBox& rFirst, const B2IBox& rSecond ) { doComputeSetDifference( o_rResult, rFirst, rSecond ); return o_rResult; } } // end of namespace basegfx // eof