mirror of https://github.com/KLayout/klayout.git
1194 lines
61 KiB
Ruby
1194 lines
61 KiB
Ruby
# encoding: UTF-8
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# KLayout Layout Viewer
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# Copyright (C) 2006-2024 Matthias Koefferlein
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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if !$:.member?(File::dirname($0))
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$:.push(File::dirname($0))
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end
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load("test_prologue.rb")
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# normalizes a specification string for region, edges etc.
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# such that the order of the objects becomes irrelevant
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def csort(s)
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# splits at ");(" without consuming the brackets
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s.split(/(?<=\));(?=\()/).sort.join(";")
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end
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class DBRegion_TestClass < TestBase
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# Basics
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def test_1
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r = RBA::Region::new
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assert_equal(r.to_s, "")
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assert_equal(r.is_empty?, true)
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assert_equal(r.count, 0)
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assert_equal(r.hier_count, 0)
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assert_equal(r.bbox.to_s, "()")
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assert_equal(r.is_merged?, true)
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assert_equal(r.is_box?, false)
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data_id = r.data_id
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r.assign(RBA::Region::new(RBA::Box::new(10, 20, 100, 200)))
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assert_equal(data_id != r.data_id, true)
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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assert_equal(r.is_empty?, false)
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assert_equal(r.count, 1)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(10,20;100,200)")
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assert_equal(r.is_merged?, true)
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assert_equal(r.is_box?, true)
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assert_equal(csort(r.edges.to_s), csort("(10,20;10,200);(10,200;100,200);(100,200;100,20);(100,20;10,20)"))
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assert_equal(r.moved(RBA::Point::new(10, 20)).bbox.to_s, "(20,40;110,220)")
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assert_equal(r.moved(10, 20).bbox.to_s, "(20,40;110,220)")
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rr = r.dup
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assert_equal(rr.data_id != r.data_id, true)
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rr.move(RBA::Point::new(10, 20))
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assert_equal(rr.bbox.to_s, "(20,40;110,220)")
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rr = r.dup
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rr.move(10, 20)
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assert_equal(rr.bbox.to_s, "(20,40;110,220)")
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rr.swap(r)
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assert_equal(r.bbox.to_s, "(20,40;110,220)")
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assert_equal(rr.bbox.to_s, "(10,20;100,200)")
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assert_equal(r.transformed(RBA::Trans::new(1)).bbox.to_s, "(-220,20;-40,110)")
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rr = r.dup
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rr.transform(RBA::Trans::new(1))
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assert_equal(rr.bbox.to_s, "(-220,20;-40,110)")
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assert_equal(r.transformed(RBA::ICplxTrans::R180).bbox.to_s, "(-110,-220;-20,-40)")
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rr = r.dup
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rr.transform(RBA::ICplxTrans::R180)
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assert_equal(rr.bbox.to_s, "(-110,-220;-20,-40)")
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r.clear
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assert_equal(r.to_s, "")
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assert_equal(r.is_empty?, true)
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assert_equal(r.count, 0)
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assert_equal(r.hier_count, 0)
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assert_equal(r.bbox.to_s, "()")
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assert_equal(r.is_merged?, true)
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assert_equal(r.is_box?, false)
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r = RBA::Region::new(RBA::Polygon::new(RBA::Box::new(10, 20, 100, 200)))
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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assert_equal(r.is_empty?, false)
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assert_equal(r.is_box?, true)
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assert_equal(r.count, 1)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(10,20;100,200)")
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assert_equal(r.is_merged?, true)
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r = RBA::Region::new(RBA::SimplePolygon::new(RBA::Box::new(10, 20, 100, 200)))
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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assert_equal(r.is_empty?, false)
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assert_equal(r.is_box?, true)
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assert_equal(r.count, 1)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(10,20;100,200)")
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assert_equal(r.area, 90*180)
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assert_equal(r.perimeter, 2*90+2*180)
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assert_equal(r.perimeter(RBA::Box::new(0, 0, 50, 50)), 30+40)
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assert_equal(r.is_merged?, true)
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r = RBA::Region::new(RBA::Path::new([ RBA::Point::new(0, 0), RBA::Point::new(100, 0) ], 20))
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assert_equal(r.to_s, "(0,-10;0,10;100,10;100,-10)")
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assert_equal(r.is_box?, true)
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assert_equal(r.is_empty?, false)
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assert_equal(r.count, 1)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(0,-10;100,10)")
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assert_equal(r.is_merged?, true)
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r = RBA::Region::new( [
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RBA::Polygon::new(RBA::Box::new(10, 20, 100, 200)),
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RBA::Polygon::new(RBA::Box::new(20, 50, 120, 250))
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] )
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assert_equal(csort(r.to_s), csort("(10,20;10,200;100,200;100,20);(20,50;20,250;120,250;120,50)"))
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s = ""
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r.each do |p|
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s.empty? || s += ";"
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s += p.to_s
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end
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assert_equal(s, "(10,20;10,200;100,200;100,20);(20,50;20,250;120,250;120,50)")
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assert_equal(r.merged.to_s, "(10,20;10,200;20,200;20,250;120,250;120,50;100,50;100,20)")
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assert_equal(r.merged(false, 1).to_s, "(10,20;10,200;20,200;20,250;120,250;120,50;100,50;100,20)")
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assert_equal(r.merged(1).to_s, "(10,20;10,200;20,200;20,250;120,250;120,50;100,50;100,20)")
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assert_equal(r.merged(false, 2).to_s, "(20,50;20,200;100,200;100,50)")
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assert_equal(r.merged(2).to_s, "(20,50;20,200;100,200;100,50)")
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assert_equal(r.merged(false, 3).to_s, "")
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assert_equal(r.merged(3).to_s, "")
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assert_equal(r.is_empty?, false)
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assert_equal(r.is_box?, false)
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assert_equal(r.count, 2)
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assert_equal(r.hier_count, 2)
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assert_equal(r.bbox.to_s, "(10,20;120,250)")
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assert_equal(r.is_merged?, false)
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rr = r.dup
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rr.merge
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assert_equal(rr.to_s, "(10,20;10,200;20,200;20,250;120,250;120,50;100,50;100,20)")
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rr = r.dup
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rr.merge(false, 2)
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assert_equal(rr.to_s, "(20,50;20,200;100,200;100,50)")
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ly = RBA::Layout::new
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l1 = ly.layer("l1")
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l2 = ly.layer("l2")
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c1 = ly.create_cell("C1")
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c2 = ly.create_cell("C2")
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c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 0)))
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c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 100)))
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c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(200, 100)))
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c2.shapes(l1).insert(RBA::Box::new(-10, -20, 10, 20))
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c2.shapes(l2).insert(RBA::Text::new("AA", RBA::Vector::new(-10, -20)))
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c2.shapes(l2).insert(RBA::Text::new("BB", RBA::Vector::new(10, 20)))
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l1))
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assert_equal(csort(r.to_s), csort("(-10,-20;-10,20;10,20;10,-20);(-10,80;-10,120;10,120;10,80);(190,80;190,120;210,120;210,80)"))
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assert_equal(r.is_empty?, false)
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assert_equal(r.count, 3)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(-10,-20;210,120)")
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assert_equal(r.is_merged?, false)
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assert_equal(r.has_valid_polygons?, false)
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r.flatten
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assert_equal(r.has_valid_polygons?, true)
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assert_equal(r[1].to_s, "(-10,80;-10,120;10,120;10,80)")
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assert_equal(r[4].to_s, "")
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assert_equal(r.bbox.to_s, "(-10,-20;210,120)")
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assert_equal(r.is_merged?, false)
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l2), "*")
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assert_equal(csort(r.to_s), csort("(-11,-21;-11,-19;-9,-19;-9,-21);(9,19;9,21;11,21;11,19);(-11,79;-11,81;-9,81;-9,79);(9,119;9,121;11,121;11,119);(189,79;189,81;191,81;191,79);(209,119;209,121;211,121;211,119)"))
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l2), "A*")
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assert_equal(csort(r.to_s), csort("(-11,-21;-11,-19;-9,-19;-9,-21);(-11,79;-11,81;-9,81;-9,79);(189,79;189,81;191,81;191,79)"))
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l2), "A*", false)
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assert_equal(r.to_s, "")
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l2), "AA", false)
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assert_equal(csort(r.to_s), csort("(-11,-21;-11,-19;-9,-19;-9,-21);(-11,79;-11,81;-9,81;-9,79);(189,79;189,81;191,81;191,79)"))
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r = RBA::Region::new(ly.begin_shapes(c1.cell_index, l1), RBA::ICplxTrans::new(10, 20))
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assert_equal(csort(r.to_s), csort("(0,0;0,40;20,40;20,0);(0,100;0,140;20,140;20,100);(200,100;200,140;220,140;220,100)"))
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assert_equal(csort(r.extents.to_s), csort("(0,0;0,40;20,40;20,0);(0,100;0,140;20,140;20,100);(200,100;200,140;220,140;220,100)"))
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assert_equal(csort(r.extents(10).to_s), csort("(-10,-10;-10,50;30,50;30,-10);(-10,90;-10,150;30,150;30,90);(190,90;190,150;230,150;230,90)"))
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assert_equal(csort(r.extents(5, -5).to_s), csort("(-5,5;-5,35;25,35;25,5);(-5,105;-5,135;25,135;25,105);(195,105;195,135;225,135;225,105)"))
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assert_equal(r.is_empty?, false)
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assert_equal(r.is_box?, false)
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assert_equal(r.count, 3)
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assert_equal(r.hier_count, 1)
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assert_equal(r.bbox.to_s, "(0,0;220,140)")
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assert_equal(r.is_merged?, false)
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a = 0
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r.each { |p| a += p.area }
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assert_equal(r.area, a)
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r = RBA::Region::new
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r.insert(RBA::Box::new(10, 20, 100, 200))
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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assert_equal(r.area(RBA::Box::new(0, 0, 50, 50)), 30*40)
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r.clear
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r.insert(RBA::Polygon::new(RBA::Box::new(10, 20, 100, 200)))
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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r.clear
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r.insert(RBA::SimplePolygon::new(RBA::Box::new(10, 20, 100, 200)))
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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r.clear
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r.insert(RBA::Path::new([ RBA::Point::new(0, 0), RBA::Point::new(100, 0) ], 20))
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assert_equal(r.to_s, "(0,-10;0,10;100,10;100,-10)")
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r.clear
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r.insert( [
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RBA::Polygon::new(RBA::Box::new(10, 20, 100, 200)),
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RBA::Polygon::new(RBA::Box::new(20, 50, 120, 250))
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] )
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assert_equal(csort(r.to_s), csort("(10,20;10,200;100,200;100,20);(20,50;20,250;120,250;120,50)"))
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r.clear
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r.insert(ly.begin_shapes(c1.cell_index, l1))
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assert_equal(csort(r.to_s), csort("(-10,-20;-10,20;10,20;10,-20);(-10,80;-10,120;10,120;10,80);(190,80;190,120;210,120;210,80)"))
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r.clear
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r.insert(ly.begin_shapes(c1.cell_index, l1), RBA::ICplxTrans::new(10, 20))
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assert_equal(csort(r.to_s), csort("(0,0;0,40;20,40;20,0);(0,100;0,140;20,140;20,100);(200,100;200,140;220,140;220,100)"))
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r = RBA::Region::new
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rr = RBA::Region::new
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rr.insert(RBA::Box::new(10, 20, 100, 200))
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r.insert(rr)
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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r = RBA::Region::new
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s = RBA::Shapes::new
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s.insert(RBA::Box::new(10, 20, 100, 200))
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r.insert(s)
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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r = RBA::Region::new
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s = RBA::Shapes::new
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s.insert(RBA::Polygon::new(RBA::Box::new(10, 20, 100, 200)))
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r.insert(s)
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assert_equal(r.to_s, "(10,20;10,200;100,200;100,20)")
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r = RBA::Region::new
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s = RBA::Shapes::new
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s.insert(RBA::Edge::new(10, 20, 100, 200))
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r.insert(s)
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assert_equal(r.to_s, "")
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r = RBA::Region::new
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s = RBA::Shapes::new
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s.insert(RBA::Box::new(10, 20, 100, 200))
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r.insert(s, RBA::Trans::new(1, 1))
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assert_equal(r.to_s, "(11,21;11,201;101,201;101,21)")
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r = RBA::Region::new
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s = RBA::Shapes::new
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s.insert(RBA::Box::new(10, 20, 100, 200))
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r.insert(s, RBA::ICplxTrans::new(RBA::Trans::new(1, 1)))
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assert_equal(r.to_s, "(11,21;11,201;101,201;101,21)")
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end
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# Booleans
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def test_2
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r1 = RBA::Region::new(RBA::Box::new(10, 20, 100, 200))
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r2 = RBA::Region::new(RBA::Box::new(-10, -20, 80, 160))
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assert_equal((r1 & r2).to_s, "(10,20;10,160;80,160;80,20)")
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assert_equal((r1.and(r2)).to_s, "(10,20;10,160;80,160;80,20)")
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assert_equal(r1.andnot(r2).count, 2)
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assert_equal(r1.andnot(r2)[0].to_s, "(10,20;10,160;80,160;80,20)")
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rr = r1.dup
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rr &= r2
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assert_equal(rr.to_s, "(10,20;10,160;80,160;80,20)")
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rr = r1.dup
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rr.and_with(r2)
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assert_equal(rr.to_s, "(10,20;10,160;80,160;80,20)")
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assert_equal((r1 - r2).to_s, "(80,20;80,160;10,160;10,200;100,200;100,20)")
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assert_equal((r1.not(r2)).to_s, "(80,20;80,160;10,160;10,200;100,200;100,20)")
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assert_equal(r1.andnot(r2)[1].to_s, "(80,20;80,160;10,160;10,200;100,200;100,20)")
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rr = r1.dup
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rr -= r2
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assert_equal(rr.to_s, "(80,20;80,160;10,160;10,200;100,200;100,20)")
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rr = r1.dup
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rr.not_with(r2)
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assert_equal(rr.to_s, "(80,20;80,160;10,160;10,200;100,200;100,20)")
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assert_equal((r1 ^ r2).to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20/10,20;80,20;80,160;10,160)")
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assert_equal((r1.xor(r2)).to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20/10,20;80,20;80,160;10,160)")
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r1.min_coherence = true
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assert_equal(csort((r1 ^ r2).to_s), csort("(-10,-20;-10,160;10,160;10,20;80,20;80,-20);(80,20;80,160;10,160;10,200;100,200;100,20)"))
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rr = r1.dup
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rr ^= r2
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assert_equal(csort(rr.to_s), csort("(-10,-20;-10,160;10,160;10,20;80,20;80,-20);(80,20;80,160;10,160;10,200;100,200;100,20)"))
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rr = r1.dup
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rr.xor_with(r2)
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assert_equal(csort(rr.to_s), csort("(-10,-20;-10,160;10,160;10,20;80,20;80,-20);(80,20;80,160;10,160;10,200;100,200;100,20)"))
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assert_equal(csort((r1 + r2).to_s), csort("(10,20;10,200;100,200;100,20);(-10,-20;-10,160;80,160;80,-20)"))
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assert_equal(csort((r1.join(r2)).to_s), csort("(10,20;10,200;100,200;100,20);(-10,-20;-10,160;80,160;80,-20)"))
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rr = r1.dup
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rr += r2
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assert_equal(csort(rr.to_s), csort("(10,20;10,200;100,200;100,20);(-10,-20;-10,160;80,160;80,-20)"))
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rr = r1.dup
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rr.join_with(r2)
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assert_equal(csort(rr.to_s), csort("(10,20;10,200;100,200;100,20);(-10,-20;-10,160;80,160;80,-20)"))
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assert_equal((r1 | r2).to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20)")
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assert_equal((r1.or(r2)).to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20)")
|
|
rr = r1.dup
|
|
rr |= r2
|
|
assert_equal(rr.to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20)")
|
|
rr = r1.dup
|
|
rr.or_with(r2)
|
|
assert_equal(rr.to_s, "(-10,-20;-10,160;10,160;10,200;100,200;100,20;80,20;80,-20)")
|
|
|
|
assert_equal((r1 + r2).sized(10).to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10)
|
|
assert_equal(rr.to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
|
|
assert_equal((r1 | r2).sized(10, 2).to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10, 2)
|
|
assert_equal(rr.to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
|
|
assert_equal((r1 | r2).sized(10, 20, 2).to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10, 20, 2)
|
|
assert_equal(rr.to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
|
|
assert_equal((r1 | r2).sized(RBA::Vector::new(10, 20)).to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10, 20, 2)
|
|
assert_equal(rr.to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
|
|
assert_equal((r1 | r2).sized(RBA::Vector::new(10, 20), 2).to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10, 20, 2)
|
|
assert_equal(rr.to_s, "(-20,-40;-20,180;0,180;0,220;110,220;110,0;90,0;90,-40)")
|
|
|
|
r1.merged_semantics = false
|
|
|
|
assert_equal((r1 | r2).sized(10, 2).to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
rr = (r1 | r2).dup
|
|
rr.size(10, 2)
|
|
assert_equal(rr.to_s, "(-20,-30;-20,170;0,170;0,210;110,210;110,10;90,10;90,-30)")
|
|
|
|
assert_equal(csort((r1 + r2).sized(10, 2).to_s), csort("(0,10;0,210;110,210;110,10);(-20,-30;-20,170;90,170;90,-30)"))
|
|
rr = (r1 + r2).dup
|
|
rr.size(10, 2)
|
|
assert_equal(csort(rr.to_s), csort("(0,10;0,210;110,210;110,10);(-20,-30;-20,170;90,170;90,-30)"))
|
|
|
|
assert_equal(csort((r1 + r2).sized(10, 20, 2).to_s), csort("(0,0;0,220;110,220;110,0);(-20,-40;-20,180;90,180;90,-40)"))
|
|
rr = (r1 + r2).dup
|
|
rr.size(10, 20, 2)
|
|
assert_equal(csort(rr.to_s), csort("(0,0;0,220;110,220;110,0);(-20,-40;-20,180;90,180;90,-40)"))
|
|
|
|
end
|
|
|
|
# Special
|
|
def test_3
|
|
|
|
r = RBA::Region::new(RBA::Box::new(0, 0, 100, 200))
|
|
assert_equal(r.minkowsky_sum(RBA::Edge::new(0, 0, 10, 10)).to_s, "(0,0;0,200;10,210;110,210;110,10;100,0)")
|
|
assert_equal(r.minkowsky_sum(RBA::Polygon::new(RBA::Box::new(0, 0, 10, 10))).to_s, "(0,0;0,210;110,210;110,0)")
|
|
assert_equal(r.minkowsky_sum(RBA::Box::new(0, 0, 10, 10)).to_s, "(0,0;0,210;110,210;110,0)")
|
|
assert_equal(r.minkowsky_sum([RBA::Point::new(0, 0), RBA::Point::new(10, 10)]).to_s, "(0,0;0,200;10,210;110,210;110,10;100,0)")
|
|
|
|
rr = r.dup
|
|
rr.round_corners(10, 20, 8)
|
|
assert_equal(rr.to_s, "(12,0;0,12;0,188;12,200;88,200;100,188;100,12;88,0)")
|
|
|
|
rr = r.dup
|
|
rr += RBA::Region::new(RBA::Box::new(10, 192, 20, 202)).rounded_corners(5, 5, 16)
|
|
rr.merge
|
|
assert_equal(rr.to_s, "(0,0;0,200;11,200;12,201;14,202;16,202;18,201;19,200;100,200;100,0)")
|
|
rr.smooth(1)
|
|
assert_equal(rr.to_s, "(0,0;0,200;11,200;14,202;18,201;100,200;100,0)")
|
|
assert_equal(rr.smoothed(5).to_s, "(0,0;0,200;100,200;100,0)")
|
|
rr.smooth(5)
|
|
assert_equal(rr.to_s, "(0,0;0,200;100,200;100,0)")
|
|
|
|
r1 = RBA::Region::new(RBA::Box::new(-10, -20, 100, 200))
|
|
r1.insert(RBA::Box::new(-10, 220, 100, 400))
|
|
r2 = RBA::Region::new(RBA::Box::new(10, 20, 30, 50))
|
|
r2.insert(RBA::Box::new(40, 20, 60, 50))
|
|
|
|
r = r1 ^ r2
|
|
assert_equal(csort(r.holes.to_s), csort("(10,20;10,50;30,50;30,20);(40,20;40,50;60,50;60,20)"))
|
|
assert_equal(csort(r.hulls.to_s), csort("(-10,-20;-10,200;100,200;100,-20);(-10,220;-10,400;100,400;100,220)"))
|
|
|
|
r1 = RBA::Region::new
|
|
r1.insert(RBA::Box::new(0, 0, 1000, 100))
|
|
r1.insert(RBA::Box::new(900, 0, 1000, 1000))
|
|
r1.merge
|
|
r2 = r1.dup
|
|
r2.break(0, 0.0)
|
|
assert_equal(r2.to_s, "(0,0;0,100;900,100;900,1000;1000,1000;1000,0)")
|
|
r2 = r1.dup
|
|
r2.break(0, 3.0)
|
|
assert_equal(csort(r2.to_s), csort("(0,0;0,100;1000,100;1000,0);(900,100;900,1000;1000,1000;1000,100)"))
|
|
r2 = r1.dup
|
|
r2.break(4, 0.0)
|
|
assert_equal(csort(r2.to_s), csort("(0,0;0,100;1000,100;1000,0);(900,100;900,1000;1000,1000;1000,100)"))
|
|
r2 = r1.dup
|
|
r2.break(4, 3.0)
|
|
assert_equal(csort(r2.to_s), csort("(0,0;0,100;1000,100;1000,0);(900,100;900,1000;1000,1000;1000,100)"))
|
|
|
|
end
|
|
|
|
# Selection operators
|
|
def test_4
|
|
|
|
r = RBA::Region::new
|
|
r.insert(RBA::Box::new(0, 0, 100, 200))
|
|
r.insert(RBA::Box::new(0, 0, 400, 100))
|
|
|
|
r.merged_semantics = false
|
|
|
|
assert_equal(r.with_area(20000, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_area(20000, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(csort(r.with_area(10000, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_area(10000, 20000, false).to_s, "")
|
|
assert_equal(r.with_area(nil, 20001, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(csort(r.with_area(10000, 20000, true).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
|
|
assert_equal(r.with_perimeter(600, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_perimeter(600, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(csort(r.with_perimeter(600, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_perimeter(600, 1000, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_perimeter(nil, 1000, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_perimeter(600, 1000, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
|
|
assert_equal(r.with_bbox_height(200, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_bbox_height(200, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(csort(r.with_bbox_height(100, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_height(100, 200, false).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(csort(r.with_bbox_height(nil, 201, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_height(100, 200, true).to_s, "(0,0;0,200;100,200;100,0)")
|
|
|
|
assert_equal(r.with_bbox_width(400, false).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(r.with_bbox_width(400, true).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(csort(r.with_bbox_width(100, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_width(100, 400, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(csort(r.with_bbox_width(nil, 401, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_width(100, 400, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
|
|
assert_equal(csort(r.with_bbox_min(100, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_min(100, true).to_s, "")
|
|
assert_equal(csort(r.with_bbox_min(100, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(csort(r.with_bbox_min(100, 101, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(csort(r.with_bbox_min(nil, 101, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_min(100, 101, true).to_s, "")
|
|
|
|
assert_equal(r.with_bbox_max(200, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_bbox_max(200, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
assert_equal(csort(r.with_bbox_max(200, nil, false).to_s), csort("(0,0;0,200;100,200;100,0);(0,0;0,100;400,100;400,0)"))
|
|
assert_equal(r.with_bbox_max(200, 400, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_bbox_max(nil, 400, false).to_s, "(0,0;0,200;100,200;100,0)")
|
|
assert_equal(r.with_bbox_max(200, 400, true).to_s, "(0,0;0,100;400,100;400,0)")
|
|
|
|
end
|
|
|
|
# DRC
|
|
def test_5
|
|
|
|
r1 = RBA::Region::new
|
|
r1.insert(RBA::Box::new(0, 0, 100, 200))
|
|
r1.insert(RBA::Box::new(50, 200, 100, 220))
|
|
r1.insert(RBA::Box::new(10, 220, 100, 400))
|
|
r2 = RBA::Region::new(RBA::Box::new(120, 20, 130, 380))
|
|
r3 = RBA::Region::new(RBA::Box::new(110, 0, 150, 400))
|
|
r3a = RBA::Region::new(RBA::Box::new(-30, -10, -10, 10))
|
|
r3b = RBA::Region::new(RBA::Box::new(-10, -10, 10, 10))
|
|
|
|
assert_equal(r2.inside_check(r3, 15).to_s, "(120,20;120,380)/(110,9;110,391)")
|
|
# "enclosed" alias
|
|
assert_equal(r2.enclosed_check(r3, 15).to_s, "(120,20;120,380)/(110,9;110,391)")
|
|
assert_equal(r2.inside_check(r3, 15, false, RBA::Region::Projection, nil, nil, nil).to_s, "(120,20;120,380)/(110,20;110,380)")
|
|
assert_equal(r2.inside_check(r3, 15, true, RBA::Region::Projection, nil, nil, nil).to_s, "(120,20;120,380)/(110,0;110,400)")
|
|
assert_equal(r2.inside_check(r3, 15, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal(r2.inside_check(r3, 15, false, RBA::Region::Projection, nil, 0, 500).to_s, "(120,20;120,380)/(110,20;110,380)")
|
|
assert_equal(r2.inside_check(r3, 15, false, RBA::Region::Projection, nil, 380, 500).to_s, "")
|
|
assert_equal(r2.inside_check(r3, 15, false, RBA::Region::Projection, nil, 0, 300).to_s, "")
|
|
|
|
assert_equal(r3.enclosing_check(r2, 15).to_s, "(110,9;110,391)/(120,20;120,380)")
|
|
assert_equal(r3.enclosing_check(r2, 15, false, RBA::Region::Projection, nil, nil, nil).to_s, "(110,20;110,380)/(120,20;120,380)")
|
|
assert_equal(r3.enclosing_check(r2, 15, true, RBA::Region::Projection, nil, nil, nil).to_s, "(110,0;110,400)/(120,20;120,380)")
|
|
assert_equal(r3.enclosing_check(r2, 15, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal(r3.enclosing_check(r2, 15, false, RBA::Region::Projection, nil, 0, 500).to_s, "(110,20;110,380)/(120,20;120,380)")
|
|
assert_equal(r3.enclosing_check(r2, 15, false, RBA::Region::Projection, nil, 380, 500).to_s, "")
|
|
assert_equal(r3.enclosing_check(r2, 15, false, RBA::Region::Projection, nil, 0, 300).to_s, "")
|
|
|
|
assert_equal(r3a.separation_check(r1, 15).to_s, "(-10,10;-10,-10)/(0,0;0,21)")
|
|
assert_equal(r3a.separation_check(r1, 15, false, RBA::Region::Projection, nil, nil, nil).to_s, "(-10,10;-10,0)/(0,0;0,10)")
|
|
assert_equal(r3a.separation_check(r1, 15, true, RBA::Region::Projection, nil, nil, nil).to_s, "(-10,10;-10,-10)/(0,0;0,200)")
|
|
assert_equal(r3a.separation_check(r1, 15, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal(r3a.separation_check(r1, 15, false, RBA::Region::Projection, nil, 0, 500).to_s, "(-10,10;-10,0)/(0,0;0,10)")
|
|
assert_equal(r3a.separation_check(r1, 15, false, RBA::Region::Projection, nil, 380, 500).to_s, "")
|
|
assert_equal(r3a.separation_check(r1, 15, false, RBA::Region::Projection, nil, 0, 300).to_s, "(-10,10;-10,0)/(0,0;0,10)")
|
|
|
|
assert_equal(csort(r3b.overlap_check(r1, 15).to_s), csort("(-10,10;10,10)/(21,0;0,0);(10,10;10,-10)/(0,0;0,21)"))
|
|
assert_equal(csort(r3b.overlap_check(r1, 15, false, RBA::Region::Projection, nil, nil, nil).to_s), csort("(0,10;10,10)/(10,0;0,0);(10,10;10,0)/(0,0;0,10)"))
|
|
assert_equal(csort(r3b.overlap_check(r1, 15, true, RBA::Region::Projection, nil, nil, nil).to_s), csort("(-10,10;10,10)/(100,0;0,0);(10,10;10,-10)/(0,0;0,200)"))
|
|
assert_equal(r3b.overlap_check(r1, 15, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal(csort(r3b.overlap_check(r1, 15, false, RBA::Region::Projection, nil, 0, 500).to_s), csort("(0,10;10,10)/(10,0;0,0);(10,10;10,0)/(0,0;0,10)"))
|
|
assert_equal(r3b.overlap_check(r1, 15, false, RBA::Region::Projection, nil, 380, 500).to_s, "")
|
|
assert_equal(csort(r3b.overlap_check(r1, 15, false, RBA::Region::Projection, nil, 0, 300).to_s), csort("(0,10;10,10)/(10,0;0,0);(10,10;10,0)/(0,0;0,10)"))
|
|
|
|
assert_equal((r1 | r2).merged.isolated_check(25).to_s, "(120,20;120,380)|(100,395;100,5)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Projection, nil, nil, nil).to_s, "(120,20;120,380)|(100,380;100,20)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Square, nil, nil, nil).to_s, "(120,20;120,380)|(100,400;100,0)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Euclidian, nil, nil, nil).to_s, "(120,20;120,380)|(100,395;100,5)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, true, RBA::Region::Euclidian, nil, nil, nil).to_s, "(120,20;120,380)|(100,400;100,0)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Euclidian, 0.0, nil, nil).to_s, "")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Euclidian, nil, 0, 300).to_s, "")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Euclidian, nil, 300, 500).to_s, "(120,20;120,380)|(100,395;100,5)")
|
|
assert_equal((r1 | r2).merged.isolated_check(25, false, RBA::Region::Euclidian, nil, 300, nil).to_s, "(120,20;120,380)|(100,395;100,5)")
|
|
|
|
assert_equal((r1 | r2).merged.notch_check(25).to_s, "(0,200;50,200)|(50,220;10,220)")
|
|
assert_equal((r1 | r2).merged.notch_check(25, false, RBA::Region::Projection, nil, nil, nil).to_s, "(10,200;50,200)|(50,220;10,220)")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, nil, nil, nil).to_s, "(0,200;50,200)|(50,220;10,220)")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, nil, 40, nil).to_s, "(0,200;50,200)|(50,220;10,220)")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, nil, 50, nil).to_s, "")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, nil, 40, 50).to_s, "(0,200;50,200)|(50,220;10,220)")
|
|
assert_equal((r1 | r2).merged.notch_check(25, true, RBA::Region::Projection, nil, nil, 40).to_s, "")
|
|
|
|
assert_equal(csort((r1 | r2).merged.space_check(25).to_s), csort("(120,20;120,380)|(100,395;100,5);(0,200;50,200)|(50,220;10,220)"))
|
|
assert_equal(csort((r1 | r2).merged.space_check(25, false, RBA::Region::Projection, nil, nil, nil).to_s), csort("(120,20;120,380)|(100,380;100,20);(10,200;50,200)|(50,220;10,220)"))
|
|
assert_equal(csort((r1 | r2).merged.space_check(25, true, RBA::Region::Projection, nil, nil, nil).to_s), csort("(120,20;120,380)|(100,400;100,0);(0,200;50,200)|(50,220;10,220)"))
|
|
assert_equal((r1 | r2).merged.space_check(25, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal((r1 | r2).merged.space_check(25, true, RBA::Region::Projection, nil, 50, nil).to_s, "(120,20;120,380)|(100,400;100,0)")
|
|
assert_equal((r1 | r2).merged.space_check(25, true, RBA::Region::Projection, nil, nil, 50).to_s, "(0,200;50,200)|(50,220;10,220)")
|
|
|
|
assert_equal(csort((r1 | r2).merged.width_check(60).to_s), csort("(120,20;120,380)|(130,380;130,20);(50,200;50,220)|(100,253;100,167)"))
|
|
assert_equal(csort((r1 | r2).merged.width_check(60, false, RBA::Region::Projection, nil, nil, nil).to_s), csort("(120,20;120,380)|(130,380;130,20);(50,200;50,220)|(100,220;100,200)"))
|
|
assert_equal(csort((r1 | r2).merged.width_check(60, true, RBA::Region::Projection, nil, nil, nil).to_s), csort("(120,20;120,380)|(130,380;130,20);(50,200;50,220)|(100,400;100,0)"))
|
|
assert_equal((r1 | r2).merged.width_check(60, true, RBA::Region::Projection, 0.0, nil, nil).to_s, "")
|
|
assert_equal((r1 | r2).merged.width_check(60, true, RBA::Region::Projection, nil, 50, nil).to_s, "(120,20;120,380)|(130,380;130,20)")
|
|
assert_equal((r1 | r2).merged.width_check(60, true, RBA::Region::Projection, nil, nil, 50).to_s, "(50,200;50,220)|(100,400;100,0)")
|
|
|
|
end
|
|
|
|
# Others
|
|
def test_6
|
|
|
|
r1 = RBA::Region::new
|
|
r1.insert(RBA::Box::new(10, 20, 100, 200))
|
|
r11 = r1.dup
|
|
r1.insert(RBA::Box::new(50, 70, 150, 270))
|
|
r1.insert(RBA::Box::new(100, 70, 250, 270))
|
|
r2 = RBA::Region::new(RBA::Box::new(-10, -20, 100, 200))
|
|
r3 = RBA::Region::new(RBA::Box::new(150, 270, 160, 280))
|
|
r3 += r2
|
|
r21 = r2.dup
|
|
r21 += RBA::Region::new(RBA::Box::new(110, -20, 200, 200))
|
|
|
|
assert_equal(r1.merged_semantics?, true)
|
|
r1.merged_semantics = false
|
|
assert_equal(r1.merged_semantics?, false)
|
|
|
|
assert_equal(r1.inside(r2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(r1.split_inside(r2)[0].to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.not_inside(r2).to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(csort(r1.split_inside(r2)[1].to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(r21.covering(r11).to_s, "(-10,-20;-10,200;100,200;100,-20)")
|
|
assert_equal(r21.split_covering(r11)[0].to_s, "(-10,-20;-10,200;100,200;100,-20)")
|
|
assert_equal(csort(r21.not_covering(r11).to_s), csort("(110,-20;110,200;200,200;200,-20)"))
|
|
assert_equal(csort(r21.split_covering(r11)[1].to_s), csort("(110,-20;110,200;200,200;200,-20)"))
|
|
assert_equal(csort(r1.interacting(r2).to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(csort(r1.interacting(r3, 1).to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(csort(r1.interacting(r3, 2).to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(csort(r1.split_interacting(r3, 2)[0].to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(r1.interacting(r3, 3).to_s, "")
|
|
assert_equal(r1.interacting(r3, 1, 1).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.interacting(r3, 2, 2).to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(r1.not_interacting(r2).to_s, "")
|
|
assert_equal(r1.not_interacting(r3, 1).to_s, "")
|
|
assert_equal(r1.not_interacting(r3, 2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(r1.split_interacting(r3, 2)[1].to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.not_interacting(r3, 3).to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(csort(r1.not_interacting(r3, 1, 1).to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
assert_equal(r1.not_interacting(r3, 2, 2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.overlapping(r2).to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(csort(r1.split_overlapping(r2)[0].to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(r1.not_overlapping(r2).to_s, "(100,70;100,270;250,270;250,70)")
|
|
assert_equal(r1.split_overlapping(r2)[1].to_s, "(100,70;100,270;250,270;250,70)")
|
|
assert_equal(r1.outside(r2).to_s, "(100,70;100,270;250,270;250,70)")
|
|
assert_equal(r1.split_outside(r2)[0].to_s, "(100,70;100,270;250,270;250,70)")
|
|
assert_equal(csort(r1.not_outside(r2).to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(csort(r1.split_outside(r2)[1].to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
|
|
e2 = RBA::Edges::new(RBA::Edge::new(-10, -20, 100, 200))
|
|
e3 = RBA::Edges::new(RBA::Edge::new(150, 270, 160, 280))
|
|
e3 += e2
|
|
|
|
assert_equal(csort(r1.interacting(e2).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.interacting(e3, 1).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.interacting(e3, 2).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(csort(r1.split_interacting(e3, 2)[0].to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(r1.interacting(e3, 3).to_s, "")
|
|
assert_equal(r1.interacting(e3, 1, 1).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.interacting(e3, 2, 2).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(r1.not_interacting(e2).to_s, "")
|
|
assert_equal(r1.not_interacting(e3, 1).to_s, "")
|
|
assert_equal(r1.not_interacting(e3, 2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(r1.split_interacting(e3, 2)[1].to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(csort(r1.not_interacting(e3, 3).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.not_interacting(e3, 1, 1).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(r1.not_interacting(e3, 2, 2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
|
|
t2 = RBA::Texts::new(RBA::Text::new("a", RBA::Trans::new(50, 100)))
|
|
t3 = RBA::Texts::new(RBA::Text::new("b", RBA::Trans::new(150, 270)))
|
|
t3 += t2
|
|
|
|
assert_equal(csort(r1.interacting(t2).to_s), csort("(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.interacting(t3, 1).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.split_interacting(t3, 1)[0].to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(r1.interacting(t3, 2).to_s, "(50,70;50,270;150,270;150,70)")
|
|
assert_equal(r1.interacting(t3, 3).to_s, "")
|
|
assert_equal(csort(r1.interacting(t3, 1, 1).to_s), csort("(100,70;100,270;250,270;250,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(r1.interacting(t3, 2, 2).to_s, "(50,70;50,270;150,270;150,70)")
|
|
assert_equal(r1.not_interacting(t2).to_s, "(100,70;100,270;250,270;250,70)")
|
|
assert_equal(r1.not_interacting(t3, 1).to_s, "")
|
|
assert_equal(csort(r1.not_interacting(t3, 2).to_s), csort("(100,70;100,270;250,270;250,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.split_interacting(t3, 2)[1].to_s), csort("(100,70;100,270;250,270;250,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(csort(r1.not_interacting(t3, 3).to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70);(10,20;10,200;100,200;100,20)"))
|
|
assert_equal(r1.not_interacting(t3, 1, 1).to_s, "(50,70;50,270;150,270;150,70)")
|
|
assert_equal(csort(r1.not_interacting(t3, 2, 2).to_s), csort("(100,70;100,270;250,270;250,70);(10,20;10,200;100,200;100,20)"))
|
|
|
|
rr = r1.dup
|
|
rr.select_interacting(r2)
|
|
assert_equal(csort(rr.to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
rr = r1.dup
|
|
rr.select_interacting(r3, 2, 2)
|
|
assert_equal(csort(rr.to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
rr = r1.dup
|
|
rr.select_interacting(e3, 2, 2)
|
|
assert_equal(csort(rr.to_s), csort("(100,70;100,270;250,270;250,70);(50,70;50,270;150,270;150,70)"))
|
|
rr = r1.dup
|
|
rr.select_interacting(t3, 2, 2)
|
|
assert_equal(rr.to_s, "(50,70;50,270;150,270;150,70)")
|
|
|
|
rr = r1.dup
|
|
rr.select_not_interacting(r2)
|
|
assert_equal(rr.to_s, "")
|
|
rr = r1.dup
|
|
rr.select_not_interacting(r3, 2, 2)
|
|
assert_equal(rr.to_s, "(10,20;10,200;100,200;100,20)")
|
|
rr = r1.dup
|
|
rr.select_not_interacting(e3, 2, 2)
|
|
assert_equal(rr.to_s, "(10,20;10,200;100,200;100,20)")
|
|
rr = r1.dup
|
|
rr.select_not_interacting(t3, 2, 2)
|
|
assert_equal(csort(rr.to_s), csort("(100,70;100,270;250,270;250,70);(10,20;10,200;100,200;100,20)"))
|
|
|
|
rr = r1.dup
|
|
rr.select_overlapping(r2)
|
|
assert_equal(csort(rr.to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
|
|
rr = r1.dup
|
|
rr.select_not_overlapping(r2)
|
|
assert_equal(rr.to_s, "(100,70;100,270;250,270;250,70)")
|
|
|
|
rr = r1.dup
|
|
rr.select_outside(r2)
|
|
assert_equal(rr.to_s, "(100,70;100,270;250,270;250,70)")
|
|
|
|
rr = r1.dup
|
|
rr.select_not_outside(r2)
|
|
assert_equal(csort(rr.to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
|
|
rr = r1.dup
|
|
rr.select_inside(r2)
|
|
assert_equal(rr.to_s, "(10,20;10,200;100,200;100,20)")
|
|
|
|
rr = r1.dup
|
|
rr.select_not_inside(r2)
|
|
assert_equal(csort(rr.to_s), csort("(50,70;50,270;150,270;150,70);(100,70;100,270;250,270;250,70)"))
|
|
|
|
r1.merged_semantics = true
|
|
|
|
assert_equal(r1.inside(r2).to_s, "")
|
|
assert_equal(r1.interacting(r2).to_s, "(10,20;10,200;50,200;50,270;250,270;250,70;100,70;100,20)")
|
|
assert_equal(r1.overlapping(r2).to_s, "(10,20;10,200;50,200;50,270;250,270;250,70;100,70;100,20)")
|
|
assert_equal(r1.outside(r2).to_s, "")
|
|
|
|
rr = r1.dup
|
|
rr.select_interacting(r2)
|
|
assert_equal(rr.to_s, "(10,20;10,200;50,200;50,270;250,270;250,70;100,70;100,20)")
|
|
|
|
rr = r1.dup
|
|
rr.select_overlapping(r2)
|
|
assert_equal(rr.to_s, "(10,20;10,200;50,200;50,270;250,270;250,70;100,70;100,20)")
|
|
|
|
rr = r1.dup
|
|
rr.select_outside(r2)
|
|
assert_equal(rr.to_s, "")
|
|
|
|
rr = r1.dup
|
|
rr.select_inside(r2)
|
|
assert_equal(rr.to_s, "")
|
|
|
|
end
|
|
|
|
# Selections
|
|
def test_7
|
|
|
|
r1 = RBA::Region::new
|
|
r1.insert(RBA::Box::new(10, 20, 100, 200))
|
|
r1.insert(RBA::Box::new(50, 70, 150, 270))
|
|
r2 = RBA::Region::new
|
|
r2.insert(RBA::Box::new(100, 70, 250, 270))
|
|
r2.insert(RBA::Box::new(10, 20, 100, 200))
|
|
|
|
r1.merged_semantics = false
|
|
r2.merged_semantics = false
|
|
|
|
assert_equal(r1.in(r2).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(r2.in(r1).to_s, "(10,20;10,200;100,200;100,20)")
|
|
assert_equal(r1.not_in(r2).to_s, "(50,70;50,270;150,270;150,70)")
|
|
assert_equal(r2.not_in(r1).to_s, "(100,70;100,270;250,270;250,70)")
|
|
|
|
r1.merged_semantics = true
|
|
r2.merged_semantics = true
|
|
|
|
assert_equal(r1.in(r2).to_s, "")
|
|
assert_equal(r2.in(r1).to_s, "")
|
|
assert_equal(r1.not_in(r2).to_s, "(10,20;10,200;50,200;50,270;150,270;150,70;100,70;100,20)")
|
|
assert_equal(r2.not_in(r1).to_s, "(10,20;10,200;100,200;100,270;250,270;250,70;100,70;100,20)")
|
|
|
|
r1.insert(RBA::Polygon::new([ RBA::Point::new(0, 0), RBA::Point::new(100, 100), RBA::Point::new(100, 0) ]))
|
|
r1.insert(RBA::Polygon::new([ RBA::Point::new(0, 0), RBA::Point::new(0, 100), RBA::Point::new(50, 100), RBA::Point::new(50, 200), RBA::Point::new(100, 200), RBA::Point::new(100, 0) ]))
|
|
|
|
r1.merged_semantics = false
|
|
assert_equal(csort(r1.rectangles.to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70)"))
|
|
assert_equal(csort(r1.non_rectangles.to_s), csort("(0,0;100,100;100,0);(0,0;0,100;50,100;50,200;100,200;100,0)"))
|
|
assert_equal(csort(r1.rectilinear.to_s), csort("(10,20;10,200;100,200;100,20);(50,70;50,270;150,270;150,70);(0,0;0,100;50,100;50,200;100,200;100,0)"))
|
|
assert_equal(r1.non_rectilinear.to_s, "(0,0;100,100;100,0)")
|
|
|
|
r1.merged_semantics = true
|
|
assert_equal(r1.rectangles.to_s, "")
|
|
assert_equal(r1.non_rectangles.to_s, "(0,0;0,100;10,100;10,200;50,200;50,270;150,270;150,70;100,70;100,0)")
|
|
assert_equal(r1.rectilinear.to_s, "(0,0;0,100;10,100;10,200;50,200;50,270;150,270;150,70;100,70;100,0)")
|
|
assert_equal(r1.non_rectilinear.to_s, "")
|
|
|
|
end
|
|
|
|
# strange polygon check
|
|
def test_8
|
|
|
|
r = RBA::Region::new
|
|
assert_equal(r.strange_polygon_check.to_s, "")
|
|
|
|
pts = [
|
|
RBA::Point::new(0, 0),
|
|
RBA::Point::new(0, 1000),
|
|
RBA::Point::new(1000, 1000),
|
|
RBA::Point::new(1000, 500),
|
|
RBA::Point::new(500, 500),
|
|
RBA::Point::new(500, 600),
|
|
RBA::Point::new(600, 600),
|
|
RBA::Point::new(600, 0)
|
|
]
|
|
r.insert(RBA::Polygon::new(pts))
|
|
pts = [
|
|
RBA::Point::new(2000, 0),
|
|
RBA::Point::new(2000, 500),
|
|
RBA::Point::new(3000, 500),
|
|
RBA::Point::new(3000, 1000),
|
|
RBA::Point::new(2500, 1000),
|
|
RBA::Point::new(2500, 0)
|
|
]
|
|
r.insert(RBA::Polygon::new(pts))
|
|
|
|
assert_equal(csort(r.strange_polygon_check.to_s), csort("(500,500;500,600;600,600;600,500);(2500,500;2500,1000;3000,1000;3000,500)"))
|
|
r.merge
|
|
assert_equal(r.strange_polygon_check.to_s, "")
|
|
|
|
end
|
|
|
|
# angle check
|
|
def test_9a
|
|
|
|
r = RBA::Region::new
|
|
assert_equal(r.with_angle(0, 180.0, false).to_s, "")
|
|
assert_equal(r.with_angle(0, 180.0, true).to_s, "")
|
|
|
|
pts = [
|
|
RBA::Point::new(0, 0),
|
|
RBA::Point::new(0, 1000),
|
|
RBA::Point::new(1000, 2000),
|
|
RBA::Point::new(1000, 0)
|
|
]
|
|
|
|
r.insert(RBA::Polygon::new(pts))
|
|
|
|
assert_equal(csort(r.with_angle(0, 180.0, false).to_s), csort("(0,0;0,1000)/(0,1000;1000,2000);(0,1000;1000,2000)/(1000,2000;1000,0);(1000,2000;1000,0)/(1000,0;0,0);(1000,0;0,0)/(0,0;0,1000)"))
|
|
assert_equal(r.with_angle(0, 180.0, true).to_s, "")
|
|
assert_equal(r.with_angle(45.0, 45.1, false).to_s, "(0,1000;1000,2000)/(1000,2000;1000,0)")
|
|
assert_equal(r.with_angle(45.0, false).to_s, "(0,1000;1000,2000)/(1000,2000;1000,0)")
|
|
assert_equal(r.with_angle(0.0, 90.0, false).to_s, "(0,1000;1000,2000)/(1000,2000;1000,0)")
|
|
assert_equal(csort(r.with_angle(0.0, 90.0, true).to_s), csort("(0,0;0,1000)/(0,1000;1000,2000);(1000,2000;1000,0)/(1000,0;0,0);(1000,0;0,0)/(0,0;0,1000)"))
|
|
assert_equal(r.with_angle(90.1, 180.0, false).to_s, "(0,0;0,1000)/(0,1000;1000,2000)")
|
|
assert_equal(csort(r.with_angle(90.1, 180.0, true).to_s), csort("(0,1000;1000,2000)/(1000,2000;1000,0);(1000,2000;1000,0)/(1000,0;0,0);(1000,0;0,0)/(0,0;0,1000)"))
|
|
|
|
end
|
|
|
|
# grid check
|
|
def test_9b
|
|
|
|
r = RBA::Region::new;
|
|
assert_equal(r.grid_check(10, 20).to_s, "")
|
|
|
|
r.insert(RBA::Box::new(0, 0, 1000, 100))
|
|
r.insert(RBA::Box::new(0, 100, 105, 300))
|
|
r.insert(RBA::Box::new(910, 100, 1000, 300))
|
|
r.insert(RBA::Box::new(0, 290, 1000, 500))
|
|
|
|
assert_equal(r.grid_check(0, 0).to_s, "")
|
|
assert_equal(r.grid_check(5, 0).to_s, "")
|
|
assert_equal(r.grid_check(0, 10).to_s, "")
|
|
assert_equal(csort(r.grid_check(10, 10).to_s), csort("(105,100;105,100)/(105,100;105,100);(105,290;105,290)/(105,290;105,290)"))
|
|
assert_equal(csort(r.grid_check(10, 20).to_s), csort("(105,100;105,100)/(105,100;105,100);(910,290;910,290)/(910,290;910,290);(105,290;105,290)/(105,290;105,290)"))
|
|
|
|
end
|
|
|
|
# snap
|
|
def test_10
|
|
|
|
r = RBA::Region::new;
|
|
assert_equal(r.snapped(10, 20).to_s, "")
|
|
|
|
r.insert(RBA::Box::new(0, 0, 1000, 100))
|
|
r.insert(RBA::Box::new(0, 100, 105, 300))
|
|
r.insert(RBA::Box::new(910, 100, 1000, 300))
|
|
r.insert(RBA::Box::new(0, 290, 1000, 500))
|
|
|
|
assert_equal(r.snapped(0, 0).to_s, "(0,0;0,500;1000,500;1000,0/105,100;910,100;910,290;105,290)")
|
|
assert_equal(r.snapped(5, 0).to_s, "(0,0;0,500;1000,500;1000,0/105,100;910,100;910,290;105,290)")
|
|
assert_equal(r.snapped(0, 10).to_s, "(0,0;0,500;1000,500;1000,0/105,100;910,100;910,290;105,290)")
|
|
assert_equal(r.snapped(10, 10).to_s, "(0,0;0,500;1000,500;1000,0/110,100;910,100;910,290;110,290)")
|
|
assert_equal(r.snapped(10, 20).to_s, "(0,0;0,500;1000,500;1000,0/110,100;910,100;910,300;110,300)")
|
|
r.snap(10, 20)
|
|
assert_equal(r.to_s, "(0,0;0,500;1000,500;1000,0/110,100;910,100;910,300;110,300)")
|
|
|
|
end
|
|
|
|
# corner rounding
|
|
def test_11
|
|
|
|
r = RBA::Region::new
|
|
r.insert(RBA::Box::new(0, 0, 500, 1000))
|
|
r.insert(RBA::Box::new(0, -500, 1000, 0))
|
|
|
|
assert_equal(r.rounded_corners(50, 100, 16).to_s, "(80,-500;43,-485;15,-457;0,-420;0,920;15,957;43,985;80,1000;420,1000;457,985;485,957;500,920;500,40;508,22;522,8;540,0;920,0;957,-15;985,-43;1000,-80;1000,-420;985,-457;957,-485;920,-500)")
|
|
rr = r.dup
|
|
rr.round_corners(50, 100, 16)
|
|
assert_equal(rr.to_s, r.rounded_corners(50, 100, 16).to_s)
|
|
|
|
end
|
|
|
|
# strict handling
|
|
def test_12
|
|
|
|
r = RBA::Region::new
|
|
r.insert(RBA::Box::new(0, 0, 500, 1000))
|
|
r.insert(RBA::Box::new(200, 300, 600, 1200))
|
|
|
|
r2 = RBA::Region::new;
|
|
|
|
assert_equal(csort((r - r2).to_s), csort("(0,0;0,1000;500,1000;500,0);(200,300;200,1200;600,1200;600,300)"))
|
|
assert_equal(r.strict_handling?, false)
|
|
|
|
r.strict_handling = true
|
|
assert_equal(r.strict_handling?, true)
|
|
assert_equal((r - r2).to_s, "(0,0;0,1000;200,1000;200,1200;600,1200;600,300;500,300;500,0)")
|
|
|
|
end
|
|
|
|
# region decomposition
|
|
def test_13
|
|
|
|
r = RBA::Region::new
|
|
p = RBA::Polygon::from_s("(0,0;0,40;40,40;40,0/10,10;30,10;30,30;10,30)")
|
|
r.insert(p)
|
|
p = RBA::Polygon::from_s("(0,40;0,50;10,50;10,40;0,40)")
|
|
r.insert(p)
|
|
|
|
assert_equal(csort(RBA::Region::new(r.decompose_convex).to_s), csort("(0,10;0,30;10,30;10,10);(10,30;10,40;40,40;40,30);(0,30;0,50;10,50;10,30);(30,0;30,30;40,30;40,0);(0,0;0,10;30,10;30,0)"))
|
|
assert_equal(csort(r.decompose_convex_to_region.to_s), csort("(0,10;0,30;10,30;10,10);(10,30;10,40;40,40;40,30);(0,30;0,50;10,50;10,30);(30,0;30,30;40,30;40,0);(0,0;0,10;30,10;30,0)"))
|
|
assert_equal(csort(RBA::Region::new(r.decompose_convex(RBA::Polygon::PO_horizontal)).to_s), csort("(0,10;0,30;10,30;10,10);(0,30;0,40;40,40;40,30);(0,40;0,50;10,50;10,40);(30,10;30,30;40,30;40,10);(0,0;0,10;40,10;40,0)"))
|
|
assert_equal(csort(RBA::Region::new(r.decompose_trapezoids).to_s), csort("(0,0;0,10;40,10;40,0);(0,10;0,30;10,30;10,10);(30,10;30,30;40,30;40,10);(0,30;0,40;40,40;40,30);(0,40;0,50;10,50;10,40)"))
|
|
assert_equal(csort(r.decompose_trapezoids_to_region.to_s), csort("(0,0;0,10;40,10;40,0);(0,10;0,30;10,30;10,10);(30,10;30,30;40,30;40,10);(0,30;0,40;40,40;40,30);(0,40;0,50;10,50;10,40)"))
|
|
assert_equal(csort(RBA::Region::new(r.decompose_trapezoids(RBA::Polygon::TD_htrapezoids)).to_s), csort("(0,10;0,30;10,30;10,10);(10,30;10,40;40,40;40,30);(0,30;0,50;10,50;10,30);(30,0;30,30;40,30;40,0);(0,0;0,10;30,10;30,0)"))
|
|
|
|
end
|
|
|
|
# corners functions
|
|
def test_14
|
|
|
|
r = RBA::Region::new
|
|
p = RBA::Polygon::from_s("(0,0;0,80;40,40;40,0/10,10;30,10;30,30;10,30)")
|
|
r.insert(p)
|
|
|
|
assert_equal(csort(r.corners.to_s), csort("(39,-1;39,1;41,1;41,-1);(-1,-1;-1,1;1,1;1,-1);(-1,79;-1,81;1,81;1,79);(39,39;39,41;41,41;41,39);(9,29;9,31;11,31;11,29);(9,9;9,11;11,11;11,9);(29,9;29,11;31,11;31,9);(29,29;29,31;31,31;31,29)"))
|
|
assert_equal(csort(r.corners(-90.0, 90.0).to_s), csort("(39,-1;39,1;41,1;41,-1);(-1,-1;-1,1;1,1;1,-1);(39,39;39,41;41,41;41,39);(9,29;9,31;11,31;11,29);(9,9;9,11;11,11;11,9);(29,9;29,11;31,11;31,9);(29,29;29,31;31,31;31,29)"))
|
|
assert_equal(csort(r.corners(-90.0, -90.0).to_s), csort("(39,-1;39,1;41,1;41,-1);(-1,-1;-1,1;1,1;1,-1)"))
|
|
assert_equal(r.corners(-45.0, -45.0).to_s, "(39,39;39,41;41,41;41,39)")
|
|
assert_equal(csort(r.corners(-90.0, -45.0).to_s), csort("(39,-1;39,1;41,1;41,-1);(-1,-1;-1,1;1,1;1,-1);(39,39;39,41;41,41;41,39)"))
|
|
assert_equal(csort(r.corners(90.0, 90.0).to_s), csort("(9,29;9,31;11,31;11,29);(9,9;9,11;11,11;11,9);(29,9;29,11;31,11;31,9);(29,29;29,31;31,31;31,29)"))
|
|
|
|
end
|
|
|
|
# texts
|
|
def test_15
|
|
|
|
r = RBA::Region::new
|
|
t = r.texts("*", true)
|
|
assert_equal(t.to_s, "")
|
|
|
|
r.insert(RBA::Box::new(1, 2, 3, 4))
|
|
t = r.texts("*", true)
|
|
assert_equal(t.to_s, "")
|
|
|
|
ly = RBA::Layout::new
|
|
top = ly.create_cell("TOP")
|
|
l1 = ly.layer(1, 0)
|
|
top.shapes(l1).insert(RBA::Text::new("ABC", RBA::Trans::new(RBA::Vector::new(100, 200))))
|
|
|
|
r = RBA::Region::new(top.begin_shapes_rec(l1))
|
|
t = r.texts("*", true)
|
|
assert_equal(t.to_s, "(99,199;99,201;101,201;101,199)")
|
|
assert_equal(t.is_deep?, false)
|
|
t = r.texts("*", true, 10)
|
|
assert_equal(t.to_s, "(90,190;90,210;110,210;110,190)")
|
|
t = r.texts("A*", true, 10)
|
|
assert_equal(t.to_s, "(90,190;90,210;110,210;110,190)")
|
|
t = r.texts("A*", false, 10)
|
|
assert_equal(t.to_s, "")
|
|
t = r.texts("ABC", false, 10)
|
|
assert_equal(t.to_s, "(90,190;90,210;110,210;110,190)")
|
|
|
|
dss = RBA::DeepShapeStore::new
|
|
r = RBA::Region::new(top.begin_shapes_rec(l1))
|
|
t = r.texts(dss, "*", true)
|
|
assert_equal(t.to_s, "(99,199;99,201;101,201;101,199)")
|
|
assert_equal(t.is_deep?, true)
|
|
|
|
r = RBA::Region::new(top.begin_shapes_rec(l1))
|
|
t = r.texts_dots("*", true)
|
|
assert_equal(t.to_s, "(100,200;100,200)")
|
|
assert_equal(t.is_deep?, false)
|
|
|
|
dss = RBA::DeepShapeStore::new
|
|
r = RBA::Region::new(top.begin_shapes_rec(l1))
|
|
t = r.texts_dots(dss, "A*", true)
|
|
assert_equal(t.to_s, "(100,200;100,200)")
|
|
assert_equal(t.is_deep?, true)
|
|
|
|
end
|
|
|
|
# deep region tests
|
|
def test_deep1
|
|
|
|
# construction/destruction magic ...
|
|
GC.start
|
|
assert_equal(RBA::DeepShapeStore::instance_count, 0)
|
|
dss = RBA::DeepShapeStore::new
|
|
dss._create
|
|
assert_equal(RBA::DeepShapeStore::instance_count, 1)
|
|
# do a little testing on the DSS:
|
|
dss.max_vertex_count = 8
|
|
assert_equal(dss.max_vertex_count, 8)
|
|
dss.max_area_ratio = 42.0
|
|
assert_equal(dss.max_area_ratio, 42.0)
|
|
dss.threads = 3
|
|
assert_equal(dss.threads, 3)
|
|
dss = nil
|
|
GC.start
|
|
assert_equal(RBA::DeepShapeStore::instance_count, 0)
|
|
|
|
dss = RBA::DeepShapeStore::new
|
|
ly = RBA::Layout::new
|
|
ly.read(File.join($ut_testsrc, "testdata", "algo", "deep_region_l1.gds"))
|
|
l1 = ly.layer(1, 0)
|
|
r = RBA::Region::new(ly.top_cell.begin_shapes_rec(l1), dss)
|
|
rf = RBA::Region::new(ly.top_cell.begin_shapes_rec(l1))
|
|
|
|
assert_equal(r.is_deep?, true)
|
|
assert_equal(r.area, 53120000)
|
|
assert_equal(r.count, 10)
|
|
assert_equal(r.hier_count, 1)
|
|
assert_equal(rf.area, 53120000)
|
|
assert_equal(rf.count, 10)
|
|
assert_equal(rf.hier_count, 1)
|
|
|
|
ly_new = RBA::Layout::new
|
|
tc = ly_new.add_cell("TOP")
|
|
l1 = ly_new.layer(1, 0)
|
|
l2 = ly_new.layer(2, 0)
|
|
ly_new.insert(tc, l1, r)
|
|
ly_new.insert(tc, l2, rf)
|
|
|
|
s1 = { }
|
|
s2 = { }
|
|
ly_new.each_cell do |cell|
|
|
s1[cell.name] = cell.shapes(l1).size
|
|
s2[cell.name] = cell.shapes(l2).size
|
|
end
|
|
assert_equal(s1, {"INV2"=>1, "TOP"=>0, "TRANS"=>0})
|
|
assert_equal(s2, {"INV2"=>0, "TOP"=>10, "TRANS"=>0})
|
|
|
|
target = RBA::Layout::new
|
|
target_top = target.add_cell("TOP")
|
|
target_li = target.layer
|
|
r.insert_into(target, target_top, target_li)
|
|
cells = []
|
|
target.each_cell { |c| cells << c.name }
|
|
assert_equal(cells.join(","), "TOP,INV2,TRANS")
|
|
assert_equal(RBA::Region::new(target.cell("TOP").shapes(target_li)).to_s, "")
|
|
assert_equal(RBA::Region::new(target.cell("INV2").shapes(target_li)).to_s, "(-1400,1800;-1400,3800;1400,3800;1400,1800)")
|
|
assert_equal(RBA::Region::new(target.cell("TRANS").shapes(target_li)).to_s, "")
|
|
|
|
r.flatten
|
|
assert_equal(r.is_deep?, true)
|
|
assert_equal(r.area, 53120000)
|
|
|
|
# force destroy, so the unit tests pass on the next iteration
|
|
dss._destroy
|
|
assert_equal(RBA::DeepShapeStore::instance_count, 0)
|
|
|
|
end
|
|
|
|
# Some filters
|
|
def test_boxfilters1
|
|
|
|
r = RBA::Region::new
|
|
r.insert(RBA::Box::new(0, 0, 1000, 5000))
|
|
r.insert(RBA::Box::new(3000, 0, 7000, 1000))
|
|
r.insert(RBA::Box::new(0, 10000, 2000, 12000))
|
|
|
|
assert_equal(r.with_bbox_width(1000, false).to_s, "(0,0;0,5000;1000,5000;1000,0)")
|
|
assert_equal(csort(r.with_bbox_width(1000, true).to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
|
|
assert_equal(csort(r.with_bbox_width(1000, 2001, false).to_s), csort("(0,0;0,5000;1000,5000;1000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
|
|
assert_equal(r.with_bbox_width(1000, 2000, false).to_s, "(0,0;0,5000;1000,5000;1000,0)")
|
|
assert_equal(r.with_bbox_width(1000, 2001, true).to_s, "(3000,0;3000,1000;7000,1000;7000,0)")
|
|
|
|
assert_equal(r.with_bbox_height(5000, false).to_s, "(0,0;0,5000;1000,5000;1000,0)")
|
|
assert_equal(csort(r.with_bbox_height(5000, true).to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
|
|
assert_equal(csort(r.with_bbox_height(1000, 2001, false).to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
|
|
assert_equal(r.with_bbox_height(1000, 1001, false).to_s, "(3000,0;3000,1000;7000,1000;7000,0)")
|
|
assert_equal(csort(r.with_bbox_height(1000, 1001, true).to_s), csort("(0,0;0,5000;1000,5000;1000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
|
|
|
|
assert_equal(r.with_bbox_aspect_ratio(1.0, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(csort(r.with_bbox_aspect_ratio(1.0, true).to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,0;0,5000;1000,5000;1000,0)"))
|
|
assert_equal(r.with_bbox_aspect_ratio(0.9, 1.0, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(r.with_bbox_aspect_ratio(1.0, 1.1, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(r.with_bbox_aspect_ratio(0.9, 0.95, false).to_s, "")
|
|
assert_equal(r.with_bbox_aspect_ratio(0.9, 1.0, false, true, false).to_s, "")
|
|
assert_equal(r.with_bbox_aspect_ratio(1.0, 1.1, false, false, true).to_s, "")
|
|
|
|
assert_equal(r.with_relative_height(1.0, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(csort(r.with_relative_height(1.0, true).to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,0;0,5000;1000,5000;1000,0)"))
|
|
assert_equal(r.with_relative_height(0.9, 1.0, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(r.with_relative_height(1.0, 1.1, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
|
|
assert_equal(r.with_relative_height(0.9, 0.95, false).to_s, "")
|
|
assert_equal(r.with_relative_height(0.9, 1.0, false, true, false).to_s, "")
|
|
assert_equal(r.with_relative_height(1.0, 1.1, false, false, true).to_s, "")
|
|
|
|
assert_equal(csort(r.rectangles.to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,0;0,5000;1000,5000;1000,0);(0,10000;0,12000;2000,12000;2000,10000)"))
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assert_equal(r.non_rectangles.to_s, "")
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assert_equal(r.squares.to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
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assert_equal(csort(r.non_squares.to_s), csort("(3000,0;3000,1000;7000,1000;7000,0);(0,0;0,5000;1000,5000;1000,0)"))
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|
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r = RBA::Region::new
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r.insert(RBA::Box::new(0, 0, 1000, 2000))
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r.insert(RBA::Box::new(0, 0, 2000, 1000))
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r.insert(RBA::Box::new(0, 10000, 2000, 12000))
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|
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assert_equal(r.with_area_ratio(1.0, false).to_s, "(0,10000;0,12000;2000,12000;2000,10000)")
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assert_equal(r.with_area_ratio(1.0, true).to_s, "(0,0;0,2000;1000,2000;1000,1000;2000,1000;2000,0)")
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assert_equal(r.with_area_ratio(4.0 / 3.0, false).to_s, "(0,0;0,2000;1000,2000;1000,1000;2000,1000;2000,0)")
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assert_equal(r.with_area_ratio(1.3, 1.4, false).to_s, "(0,0;0,2000;1000,2000;1000,1000;2000,1000;2000,0)")
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assert_equal(r.with_area_ratio(1.3, 4.0 / 3.0, false, false, true).to_s, "(0,0;0,2000;1000,2000;1000,1000;2000,1000;2000,0)")
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assert_equal(r.with_area_ratio(1.3, 4.0 / 3.0, false, false, false).to_s, "")
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assert_equal(r.with_area_ratio(4.0 / 3.0, 1.4, false, true, false).to_s, "(0,0;0,2000;1000,2000;1000,1000;2000,1000;2000,0)")
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assert_equal(r.with_area_ratio(4.0 / 3.0, 1.4, false, false, false).to_s, "")
|
|
|
|
end
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|
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# Some filters
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def test_holesfilter
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|
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r = RBA::Region::new
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r.insert(RBA::Box::new(RBA::Point::new(0, 0), RBA::Point::new(100, 200)))
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|
rr = RBA::Region::new
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rr.insert(RBA::Box::new(RBA::Point::new(10, 10), RBA::Point::new(20, 20)))
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rr.insert(RBA::Box::new(RBA::Point::new(30, 30), RBA::Point::new(40, 40)))
|
|
r -= rr
|
|
|
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assert_equal(r.with_holes(0, false).to_s, "")
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|
assert_equal(r.with_holes(0, true).to_s, "(0,0;0,200;100,200;100,0/10,10;20,10;20,20;10,20/30,30;40,30;40,40;30,40)")
|
|
assert_equal(rr.with_holes(0, false).to_s, "(10,10;10,20;20,20;20,10);(30,30;30,40;40,40;40,30)")
|
|
assert_equal(rr.with_holes(0, true).to_s, "")
|
|
assert_equal(rr.with_holes(2, false).to_s, "")
|
|
assert_equal(r.with_holes(1, 3, false).to_s, "(0,0;0,200;100,200;100,0/10,10;20,10;20,20;10,20/30,30;40,30;40,40;30,40)")
|
|
assert_equal(r.with_holes(2, 3, false).to_s, "(0,0;0,200;100,200;100,0/10,10;20,10;20,20;10,20/30,30;40,30;40,40;30,40)")
|
|
assert_equal(r.with_holes(1, 2, false).to_s, "")
|
|
|
|
end
|
|
|
|
# Bool with properties
|
|
def test_bool_with_properties
|
|
|
|
ly = RBA::Layout::new
|
|
tc = ly.create_cell("TOP")
|
|
l1 = ly.layer(1, 0)
|
|
l2 = ly.layer(2, 0)
|
|
|
|
p1 = ly.properties_id([ [ 1, 17 ] ])
|
|
p2 = ly.properties_id([ [ 1, 42 ] ])
|
|
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(0, 0), RBA::Point::new(100, 200)), p1)
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(200, 0), RBA::Point::new(300, 200)), p2)
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(400, 0), RBA::Point::new(500, 200)))
|
|
|
|
tc.shapes(l2).insert(RBA::Box::new(RBA::Point::new(0, 0), RBA::Point::new(500, 50)), p1)
|
|
tc.shapes(l2).insert(RBA::Box::new(RBA::Point::new(0, 50), RBA::Point::new(500, 100)))
|
|
|
|
r = RBA::Region::new(tc.begin_shapes_rec(l1)).enable_properties
|
|
rr = RBA::Region::new(tc.begin_shapes_rec(l2)).enable_properties
|
|
|
|
assert_equal(csort((r & rr).to_s), csort("(0,0;0,100;100,100;100,0);(200,0;200,100;300,100;300,0);(400,0;400,100;500,100;500,0)"))
|
|
assert_equal(csort(r.and(rr).to_s), csort("(0,0;0,100;100,100;100,0);(200,0;200,100;300,100;300,0);(400,0;400,100;500,100;500,0)"))
|
|
assert_equal(csort(r.and(rr, RBA::Region::NoPropertyConstraint).to_s), csort("(0,0;0,100;100,100;100,0);(200,0;200,100;300,100;300,0);(400,0;400,100;500,100;500,0)"))
|
|
assert_equal(csort(r.and(rr, RBA::Region::SamePropertiesConstraint).to_s), csort("(0,0;0,50;100,50;100,0);(400,50;400,100;500,100;500,50)"))
|
|
assert_equal(csort(r.and(rr, RBA::Region::DifferentPropertiesConstraint).to_s), csort("(0,50;0,100;100,100;100,50);(200,0;200,100;300,100;300,0);(400,0;400,50;500,50;500,0)"))
|
|
|
|
assert_equal(csort(r.not(rr).to_s), csort("(0,100;0,200;100,200;100,100);(200,100;200,200;300,200;300,100);(400,100;400,200;500,200;500,100)"))
|
|
assert_equal(csort(r.not(rr, RBA::Region::SamePropertiesConstraint).to_s), csort("(0,50;0,200;100,200;100,50);(400,100;400,200;500,200;500,100);(200,0;200,200;300,200;300,0);(400,0;400,50;500,50;500,0)"))
|
|
|
|
r.remove_properties
|
|
rr.remove_properties
|
|
assert_equal(r.and(rr, RBA::Region::DifferentPropertiesConstraint).to_s, "")
|
|
|
|
end
|
|
|
|
# Check with properties
|
|
def test_check_with_properties
|
|
|
|
ly = RBA::Layout::new
|
|
tc = ly.create_cell("TOP")
|
|
l1 = ly.layer(1, 0)
|
|
l2 = ly.layer(2, 0)
|
|
|
|
p1 = ly.properties_id([ [ 1, 17 ] ])
|
|
p2 = ly.properties_id([ [ 1, 42 ] ])
|
|
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(0, 0), RBA::Point::new(100, 200)), p1)
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(200, 0), RBA::Point::new(300, 200)), p2)
|
|
tc.shapes(l1).insert(RBA::Box::new(RBA::Point::new(400, 0), RBA::Point::new(500, 200)))
|
|
|
|
tc.shapes(l2).insert(RBA::Box::new(RBA::Point::new(0, 250), RBA::Point::new(500, 300)), p1)
|
|
|
|
r = RBA::Region::new(tc.begin_shapes_rec(l1)).enable_properties
|
|
rr = RBA::Region::new(tc.begin_shapes_rec(l2)).enable_properties
|
|
|
|
assert_equal(csort(r.separation_check(rr, 100, false, RBA::Region::Projection, nil, nil, nil, false, RBA::Region::NoOppositeFilter, RBA::Region::NoRectFilter, false).to_s), csort("(400,200;500,200)/(500,250;400,250);(0,200;100,200)/(100,250;0,250);(200,200;300,200)/(300,250;200,250)"))
|
|
assert_equal(csort(r.separation_check(rr, 100, false, RBA::Region::Projection, nil, nil, nil, false, RBA::Region::NoOppositeFilter, RBA::Region::NoRectFilter, false, RBA::Region::NoPropertyConstraint).to_s), csort("(400,200;500,200)/(500,250;400,250);(0,200;100,200)/(100,250;0,250);(200,200;300,200)/(300,250;200,250)"))
|
|
assert_equal(csort(r.separation_check(rr, 100, false, RBA::Region::Projection, nil, nil, nil, false, RBA::Region::NoOppositeFilter, RBA::Region::NoRectFilter, false, RBA::Region::SamePropertiesConstraint).to_s), csort("(0,200;100,200)/(100,250;0,250)"))
|
|
assert_equal(csort(r.separation_check(rr, 100, false, RBA::Region::Projection, nil, nil, nil, false, RBA::Region::NoOppositeFilter, RBA::Region::NoRectFilter, false, RBA::Region::DifferentPropertiesConstraint).to_s), csort("(400,200;500,200)/(500,250;400,250);(200,200;300,200)/(300,250;200,250)"))
|
|
|
|
r.remove_properties
|
|
rr.remove_properties
|
|
assert_equal(csort(r.separation_check(rr, 100, false, RBA::Region::Projection, nil, nil, nil, false, RBA::Region::NoOppositeFilter, RBA::Region::NoRectFilter, false, RBA::Region::SamePropertiesConstraint).to_s), csort("(0,200;100,200)/(100,250;0,250);(200,200;300,200)/(300,250;200,250);(400,200;500,200)/(500,250;400,250)"))
|
|
|
|
end
|
|
|
|
end
|
|
|
|
load("test_epilogue.rb")
|