mirror of https://github.com/KLayout/klayout.git
644 lines
25 KiB
Plaintext
644 lines
25 KiB
Plaintext
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# Set to false for a short run
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big_tests = false
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verbose(true)
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source(File.dirname(__FILE__) + "/drctest.gds", "TOPTOP")
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0.1.um.to_s == "0.1" || raise("unexpected value")
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0.1.micron.to_s == "0.1" || raise("unexpected value")
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0.1.um2.to_s == "0.1" || raise("unexpected value")
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0.1.mm2.to_s == "100000.0" || raise("unexpected value")
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120.dbu.to_s == "0.12" || raise("unexpected value")
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(0.1.um + 120.dbu).to_s == "0.22" || raise("unexpected value")
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0.1.mm.to_s == "100.0" || raise("unexpected value")
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1e-6.m.to_s == "1.0" || raise("unexpected value")
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1.um.to_s == "1.0" || raise("unexpected value")
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1.micron.to_s == "1.0" || raise("unexpected value")
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1.um2.to_s == "1.0" || raise("unexpected value")
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1.mm2.to_s == "1000000.0" || raise("unexpected value")
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(1.um + 120.dbu).to_s == "1.12" || raise("unexpected value")
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1.mm.to_s == "1000.0" || raise("unexpected value")
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def run_testsuite(dm, ic, tiled = false)
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lb = 100
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a = input(RBA::LayerInfo::new(1, 0))
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b = input(2)
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c = input(3)
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x = input(10)
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y = input(11)
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h = {}
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layers.each { |l| h[l] = true }
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h[RBA::LayerInfo::new(1, 0)] || raise("missing layer 1/0 in layers list")
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c.is_merged? == false || raise("unexpected value")
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puts "--- general #{lb}"
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l1 = a&b
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l1.output(lb, dm)
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l1.is_empty? && raise("must not be empty")
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a.and(b).xor(l1).is_empty? || raise("xor not empty")
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tiled || (a.and(b).is_merged? == true || raise("unexpected value"))
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a.xor(b).output(RBA::LayerInfo::new(lb + 1, dm))
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a.xor(b).xor(a ^ b).is_empty? || raise("xor not empty")
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a.not(b).output(lb + 2, dm)
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a.not(b).xor(a - b).is_empty? || raise("xor not empty")
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a.or(b).output(lb + 3, dm)
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a.or(b).xor(a | b).is_empty? || raise("xor not empty")
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a.join(b).output(lb + 4, dm)
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a.join(b).xor(a + b).is_empty? || raise("xor not empty")
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if !tiled
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a.join(b).data.count == 16 * ic || raise("unexpected shape count")
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end
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c.raw.is_clean? == false || raise("unexpected value")
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# c.raw switched the semantics
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c.is_clean? == false || raise("unexpected value")
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(c.area / ic).to_s == "10.0" || raise("unexpected value")
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(c.edges.length / ic).to_s == "18.0" || raise("unexpected value")
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(c.perimeter / ic).to_s == "18.0" || raise("unexpected value")
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c.clean
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c.is_clean? == true || raise("unexpected value")
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(c.area / ic).to_s == "9.0" || raise("unexpected value")
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(c.edges.length / ic).to_s == "14.0" || raise("unexpected value")
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(c.perimeter / ic).to_s == "14.0" || raise("unexpected value")
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(c.dup.area / ic).to_s == "9.0" || raise("unexpected value")
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(c.raw.clean.area / ic).to_s == "9.0" || raise("unexpected value")
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(c.area / ic).to_s == "9.0" || raise("unexpected value")
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(c.raw.area / ic).to_s == "10.0" || raise("unexpected value")
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c.clean
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if ic == 1
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c.bbox.to_s == "(-4,-5;0,-2)" || raise("unexpected value")
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end
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lb += 10
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puts "--- centers, start_segments, end_segments #{lb}"
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a.edges.centers(0.1).extended_out(0.01).output(lb, dm)
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a.edges.centers(0, 0.5).extended_out(0.01).output(lb + 1, dm)
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a.edges.centers(0.5, 0.5).extended_out(0.01).output(lb + 2, dm)
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a.edges.start_segments(0.1).extended_out(0.01).output(lb + 3, dm)
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a.edges.start_segments(0, 0.5).extended_out(0.01).output(lb + 4, dm)
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a.edges.start_segments(0.5, 0.5).extended_out(0.01).output(lb + 5, dm)
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a.edges.end_segments(0.1).extended_out(0.01).output(lb + 6, dm)
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a.edges.end_segments(0, 0.5).extended_out(0.01).output(lb + 7, dm)
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a.edges.end_segments(0.5, 0.5).extended_out(0.01).output(lb + 8, dm)
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a.polygons? == true || raise("unexpected value")
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a.edges? == false || raise("unexpected value")
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a.edge_pairs? == false || raise("unexpected value")
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a.edges.edge_pairs? == false || raise("unexpected value")
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a.edges.polygons? == false || raise("unexpected value")
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a.edges.edges? == true || raise("unexpected value")
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a.space(0.5).edge_pairs? == true || raise("unexpected value")
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a.space(0.5).polygons? == false || raise("unexpected value")
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a.space(0.5).edges? == false || raise("unexpected value")
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lb += 10
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puts "--- extended #{lb}"
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a.edges.with_length(0.6).extended(begin: 0.1, end: 0.15, out: 0.1, in: -0.05).output(lb, dm)
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a.edges.with_length(0.6).extended(out: 0.1, in: -0.05).output(lb + 1, dm)
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a.edges.with_length(0..0.7).extended(out: 0.1, in: -0.05).output(lb + 2, dm)
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a.edges.with_length(0..0.7).extended(out: 0.1, in: -0.05, joined: true).output(lb + 3, dm)
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a.edges.with_length(0..0.7).extended(begin: 0.1, end: 0.15, out: 0.1, in: 0.05, joined: true).output(lb + 4, dm)
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a.edges.with_length(0..0.7).extended(0.1, 0.15, 0.1, 0.05).output(lb + 5, dm)
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a.edges.with_length(0..0.7).extended(0.1, 0.15, 0.1, 0.05, true).output(lb + 6, dm)
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a.edges.with_length(0..0.7).extended_out(0.1).output(lb + 7, dm)
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a.edges.with_length(0..0.7).extended_in(0.1).output(lb + 8, dm)
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lb += 10
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puts "--- extents #{lb}"
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b.extents.output(lb, dm)
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lb += 10
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puts "--- first_edges, second_edges, edges #{lb}"
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a.enclosing(b, 0.5, whole_edges).first_edges.extended_out(0.01).output(lb, dm)
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a.enclosing(b, 0.5, whole_edges).second_edges.extended_out(0.01).output(lb + 1, dm)
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a.enclosing(b, 0.5, whole_edges).edges.extended_out(0.01).output(lb + 2, dm)
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lb += 10
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puts "--- hulls, holes #{lb}"
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c.xor(b).holes.output(lb, dm)
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c.xor(b).hulls.output(lb + 1, dm)
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c.xor(b).xor(c.xor(b).hulls - c.xor(b).holes).is_empty? || raise("xor not empty")
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lb += 10
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puts "--- interacting, in, not_in #{lb}"
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b.interacting(a).output(lb, dm)
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b.interacting(a).in(b).output(lb + 1, dm)
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(b|a).not_in(b).output(lb + 2, dm)
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x.in(b).output(lb + 3, dm)
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b.sized(0.1).in(b).is_empty? == true || raise("unexpected value")
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lb += 10
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puts "--- inside, outside, overlapping, interacting #{lb}"
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b.inside(c).output(lb, dm)
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b.outside(c).output(lb + 1, dm)
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b.overlapping(c).output(lb + 2, dm)
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b.interacting(c).output(lb + 3, dm)
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bdup = b.dup
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bdup.select_inside(c)
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bdup.xor(b.inside(c)).output(lb + 4, dm)
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bdup = b.dup
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bdup.select_outside(c)
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bdup.xor(b.outside(c)).output(lb + 5, dm)
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bdup = b.dup
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bdup.select_overlapping(c)
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bdup.xor(b.overlapping(c)).output(lb + 6, dm)
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bdup = b.dup
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bdup.select_interacting(c)
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bdup.xor(b.interacting(c)).output(lb + 7, dm)
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lb += 10
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puts "--- merge #{lb}"
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c.raw
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if !tiled
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c.merged.is_merged? == true || raise("unexpected value")
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end
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c.merged.output(lb, dm)
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c.merged(2).output(lb + 1, dm)
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c.merged(3).output(lb + 2, dm)
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c.clean
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cdup = c.dup
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cdup.merge.xor(c.merged).output(lb + 3, dm)
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cdup.xor(c.merged).output(lb + 4, dm)
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cdup = c.dup
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cdup.merge(2).xor(c.merged(2)).output(lb + 5, dm)
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cdup.xor(c.merged(2)).output(lb + 6, dm)
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lb += 10
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puts "--- move, transform, rotate, scale #{lb}"
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c.moved(0.2, -0.1).output(lb, dm)
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cdup = c.dup
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cdup.move(0.2, -0.1)
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cdup.xor(c.moved(0.2, -0.1)).is_empty? == true || raise("xor not empty")
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t = RBA::DCplxTrans::new(0.5)
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c.transformed(t).output(lb + 1, dm)
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cdup = c.dup
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cdup.transform(t)
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cdup.xor(c.transformed(t)).is_empty? == true || raise("xor not empty")
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c.scaled(0.5).output(lb + 2, dm)
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cdup = c.dup
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cdup.scale(0.5)
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cdup.xor(c.scaled(0.5)).is_empty? == true || raise("xor not empty")
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c.rotated(45).output(lb + 3, dm)
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cdup = c.dup
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cdup.rotate(45)
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cdup.xor(c.rotated(45)).is_empty? == true || raise("xor not empty")
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lb += 10
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puts "--- rectangles, rectilinear #{lb}"
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a.rectangles.output(lb, dm)
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a.non_rectangles.output(lb + 1, dm)
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a.rectilinear.output(lb + 2, dm)
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a.non_rectilinear.output(lb + 3, dm)
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c.raw
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c.non_rectangles.output(lb + 4, dm)
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c.clean
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c.rectangles.output(lb + 5, dm)
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lb += 10
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puts "--- enclosing #{lb}"
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a.enclosing(b, 0.5).polygons.output(lb, dm)
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a.enclosing(b, 0.5).polygons.xor(a.enc(b, 0.5).polygons).is_empty? == true || raise("xor not empty")
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a.enclosing(b, 0.5, euclidian).polygons.output(lb + 1, dm)
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a.enclosing(b, 0.5, square).polygons.output(lb + 2, dm)
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a.enclosing(b, 0.5, projection).polygons.output(lb + 3, dm)
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a.enclosing(b, 0.5, euclidian, whole_edges).polygons.output(lb + 4, dm)
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a.enclosing(b, 0.5, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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a.enclosing(b, 0.5, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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a.enclosing(b, 0.5, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- enclosing (edges) #{lb}"
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ae = a.edges
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be = b.edges
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ae.enclosing(be, 0.5).polygons.output(lb, dm)
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ae.enclosing(be, 0.5).polygons.xor(ae.enc(be, 0.5).polygons).is_empty? == true || raise("xor not empty")
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ae.enclosing(be, 0.5, euclidian).polygons.output(lb + 1, dm)
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ae.enclosing(be, 0.5, square).polygons.output(lb + 2, dm)
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ae.enclosing(be, 0.5, projection).polygons.output(lb + 3, dm)
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ae.enclosing(be, 0.5, euclidian, whole_edges).polygons.output(lb + 4, dm)
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ae.enclosing(be, 0.5, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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ae.enclosing(be, 0.5, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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ae.enclosing(be, 0.5, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- isolated #{lb}"
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b.isolated(0.4).polygons.output(lb, dm)
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b.isolated(0.4).polygons.xor(b.iso(0.4).polygons).is_empty? == true || raise("xor not empty")
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b.isolated(0.4, euclidian).polygons.output(lb + 1, dm)
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b.isolated(0.4, square).polygons.output(lb + 2, dm)
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b.isolated(0.4, projection).polygons.output(lb + 3, dm)
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b.isolated(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
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b.isolated(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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b.isolated(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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b.isolated(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- notch #{lb}"
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b.notch(0.4).polygons.output(lb, dm)
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b.notch(0.4, euclidian).polygons.output(lb + 1, dm)
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b.notch(0.4, square).polygons.output(lb + 2, dm)
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b.notch(0.4, projection).polygons.output(lb + 3, dm)
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b.notch(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
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b.notch(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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b.notch(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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b.notch(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- overlap #{lb}"
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a.overlap(b, 0.5).polygons.output(lb, dm)
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a.overlap(b, 0.5, euclidian).polygons.output(lb + 1, dm)
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a.overlap(b, 0.5, square).polygons.output(lb + 2, dm)
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a.overlap(b, 0.5, projection).polygons.output(lb + 3, dm)
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a.overlap(b, 0.5, euclidian, whole_edges).polygons.output(lb + 4, dm)
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a.overlap(b, 0.5, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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a.overlap(b, 0.5, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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a.overlap(b, 0.5, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- overlap (edges) #{lb}"
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ae = a.edges
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be = b.edges
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ae.overlap(be, 0.5).polygons.output(lb, dm)
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ae.overlap(be, 0.5, euclidian).polygons.output(lb + 1, dm)
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ae.overlap(be, 0.5, square).polygons.output(lb + 2, dm)
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ae.overlap(be, 0.5, projection).polygons.output(lb + 3, dm)
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ae.overlap(be, 0.5, euclidian, whole_edges).polygons.output(lb + 4, dm)
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ae.overlap(be, 0.5, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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ae.overlap(be, 0.5, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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ae.overlap(be, 0.5, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- separation #{lb}"
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a.separation(b, 0.4).polygons.output(lb, dm)
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a.separation(b, 0.4).polygons.xor(a.sep(b, 0.4).polygons).is_empty? == true || raise("xor not empty")
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a.separation(b, 0.4, euclidian).polygons.output(lb + 1, dm)
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a.separation(b, 0.4, square).polygons.output(lb + 2, dm)
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a.separation(b, 0.4, projection).polygons.output(lb + 3, dm)
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a.separation(b, 0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
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a.separation(b, 0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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a.separation(b, 0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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a.separation(b, 0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- sized #{lb}"
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x.sized(0.1).output(lb, dm)
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x.sized(0.1, 0).output(lb + 1, dm)
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x.sized(0.1, diamond_limit).output(lb + 2, dm)
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x.sized(0.1, octagon_limit).output(lb + 3, dm)
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x.sized(0.1, square_limit).output(lb + 4, dm)
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x.sized(0.1, acute_limit).output(lb + 5, dm)
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x.sized(0.1, no_limit).output(lb + 6, dm)
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xdup = x.dup
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xdup.size(0.1, 0)
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xdup.xor(x.sized(0.1, 0)).is_empty? == true || raise("xor not empty")
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a.sized(4.0, no_limit).output(lb + 7, dm)
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lb += 10
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puts "--- space #{lb}"
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b.space(0.4).polygons.output(lb, dm)
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b.space(0.4, euclidian).polygons.output(lb + 1, dm)
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b.space(0.4, square).polygons.output(lb + 2, dm)
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b.space(0.4, projection).polygons.output(lb + 3, dm)
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b.space(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
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b.space(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
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b.space(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
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b.space(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
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lb += 10
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puts "--- space (edges) #{lb}"
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be = b.edges
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be.space(0.4).polygons.output(lb, dm)
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be.space(0.4, euclidian).polygons.output(lb + 1, dm)
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be.space(0.4, square).polygons.output(lb + 2, dm)
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be.space(0.4, projection).polygons.output(lb + 3, dm)
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be.space(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
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be.space(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
|
|
be.space(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
|
|
be.space(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
|
|
|
|
lb += 10
|
|
puts "--- width #{lb}"
|
|
|
|
b.width(0.4).polygons.output(lb, dm)
|
|
b.width(0.4, euclidian).polygons.output(lb + 1, dm)
|
|
b.width(0.4, square).polygons.output(lb + 2, dm)
|
|
b.width(0.4, projection).polygons.output(lb + 3, dm)
|
|
b.width(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
|
|
b.width(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
|
|
b.width(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
|
|
b.width(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
|
|
|
|
lb += 10
|
|
puts "--- width (edges) #{lb}"
|
|
|
|
be = b.edges
|
|
be.width(0.4).polygons.output(lb, dm)
|
|
be.width(0.4, euclidian).polygons.output(lb + 1, dm)
|
|
be.width(0.4, square).polygons.output(lb + 2, dm)
|
|
be.width(0.4, projection).polygons.output(lb + 3, dm)
|
|
be.width(0.4, euclidian, whole_edges).polygons.output(lb + 4, dm)
|
|
be.width(0.4, euclidian, projection_limits(0.4, nil)).polygons.output(lb + 5, dm)
|
|
be.width(0.4, euclidian, projection_limits(nil, 0.4)).polygons.output(lb + 6, dm)
|
|
be.width(0.4, euclidian, projection_limits(0..0.4)).polygons.output(lb + 7, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_angle #{lb}"
|
|
|
|
a.edges.with_angle(90.degree).extended_out(0.01).output(lb, dm)
|
|
a.edges.with_angle(45 .. 90.1).extended_out(0.01).output(lb + 1, dm)
|
|
a.edges.with_angle(0, 45.1).extended_out(0.01).output(lb + 2, dm)
|
|
a.edges.without_angle(90.degree).extended_out(0.01).output(lb + 3, dm)
|
|
a.edges.without_angle(45 .. 90.1).extended_out(0.01).output(lb + 4, dm)
|
|
a.edges.without_angle(0, 45.1).extended_out(0.01).output(lb + 5, dm)
|
|
a.with_angle(135).polygons.output(lb + 6, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_area #{lb}"
|
|
|
|
b.with_area(0.49.um2).output(lb, dm)
|
|
b.with_area(0 .. 0.5).output(lb + 1, dm)
|
|
b.with_area(0.5, nil).output(lb + 2, dm)
|
|
b.without_area(0.49.um2).output(lb + 3, dm)
|
|
b.without_area(nil, 0.5).output(lb + 4, dm)
|
|
b.without_area(0.5, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_perimeter #{lb}"
|
|
|
|
b.with_perimeter(2.8.um).output(lb, dm)
|
|
b.with_perimeter(0 .. 3.um).output(lb + 1, dm)
|
|
b.with_perimeter(3.um, nil).output(lb + 2, dm)
|
|
b.without_perimeter(2.8.um).output(lb + 3, dm)
|
|
b.without_perimeter(nil, 3.um).output(lb + 4, dm)
|
|
b.without_perimeter(3.um, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_bbox_height #{lb}"
|
|
|
|
b.with_bbox_height(0.7.um).output(lb, dm)
|
|
b.with_bbox_height(0 .. 0.7.um+1.dbu).output(lb + 1, dm)
|
|
b.with_bbox_height(0.7.um, nil).output(lb + 2, dm)
|
|
b.without_bbox_height(0.7.um).output(lb + 3, dm)
|
|
b.without_bbox_height(nil, 0.7.um+1.dbu).output(lb + 4, dm)
|
|
b.without_bbox_height(0.7.um, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_bbox_width #{lb}"
|
|
|
|
b.with_bbox_width(0.7.um).output(lb, dm)
|
|
b.with_bbox_width(0 .. 0.7.um+1.dbu).output(lb + 1, dm)
|
|
b.with_bbox_width(0.7.um, nil).output(lb + 2, dm)
|
|
b.without_bbox_width(0.7.um).output(lb + 3, dm)
|
|
b.without_bbox_width(nil, 0.7.um+1.dbu).output(lb + 4, dm)
|
|
b.without_bbox_width(0.7.um, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_bbox_min #{lb}"
|
|
|
|
b.with_bbox_min(0.7.um).output(lb, dm)
|
|
b.with_bbox_min(0 .. 0.7.um+1.dbu).output(lb + 1, dm)
|
|
b.with_bbox_min(0.7.um, nil).output(lb + 2, dm)
|
|
b.without_bbox_min(0.7.um).output(lb + 3, dm)
|
|
b.without_bbox_min(nil, 0.7.um+1.dbu).output(lb + 4, dm)
|
|
b.without_bbox_min(0.7.um, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_bbox_max #{lb}"
|
|
|
|
b.with_bbox_max(0.7.um).output(lb, dm)
|
|
b.with_bbox_max(0 .. 0.7.um+1.dbu).output(lb + 1, dm)
|
|
b.with_bbox_max(0.7.um, nil).output(lb + 2, dm)
|
|
b.without_bbox_max(0.7.um).output(lb + 3, dm)
|
|
b.without_bbox_max(nil, 0.7.um+1.dbu).output(lb + 4, dm)
|
|
b.without_bbox_max(0.7.um, nil).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- with_length #{lb}"
|
|
|
|
a.edges.with_length(0.6.um).extended_out(0.01).output(lb, dm)
|
|
a.edges.with_length(0 .. 0.6.um+1.dbu).extended_out(0.01).output(lb + 1, dm)
|
|
a.edges.with_length(0.6, nil).extended_out(0.01).output(lb + 2, dm)
|
|
a.edges.without_length(0.6.um).extended_out(0.01).output(lb + 3, dm)
|
|
a.edges.without_length(0 .. 0.6.um+1.dbu).extended_out(0.01).output(lb + 4, dm)
|
|
a.edges.without_length(0.6, nil).extended_out(0.01).output(lb + 5, dm)
|
|
|
|
lb += 10
|
|
puts "--- ongrid, snap #{lb}"
|
|
|
|
a.ongrid(0.2).polygons(1.dbu).output(lb, dm)
|
|
a.ongrid(0, 0.1).polygons(1.dbu).output(lb + 1, dm)
|
|
a.snapped(0.2).output(lb + 2, dm)
|
|
a.snapped(0, 0.1).output(lb + 3, dm)
|
|
adup = a.dup
|
|
adup.snap(0.2)
|
|
adup.xor(a.snapped(0.2)).output(lb + 4, dm)
|
|
|
|
lb += 10
|
|
puts "--- odd polygon check #{lb}"
|
|
|
|
y.odd_polygons.output(lb, dm)
|
|
|
|
end
|
|
|
|
cell("TOP")
|
|
|
|
x = polygon_layer
|
|
x.is_empty? == true || raise("unexpected value")
|
|
x.is_box? == false || raise("unexpected value")
|
|
x.insert(box(4.0, 0, 4.7, 0.7))
|
|
x.is_empty? == false || raise("unexpected value")
|
|
x.is_box? == true || raise("unexpected value")
|
|
x.insert(polygon([ p(0, 0), p(2.0, 0), p(1.0, 1.0) ]))
|
|
x.insert(polygon([ p(0, -5.0), p(2.0, -5.0), p(1.0, -6.0) ]))
|
|
x.insert(path([ p(0, -2), p(2.0, -2) ], 0.2))
|
|
x.is_box? == false || raise("unexpected value")
|
|
x.output(10, 0)
|
|
|
|
y = polygon_layer
|
|
y.insert(polygon([ p(0, 0), p(0, 1.0), p(2.0, 1.0), p(2.0, 2.0), p(1.0, 2.0), p(1.0, 0) ]))
|
|
y.output(11, 0)
|
|
|
|
a1 = input(1)
|
|
b1 = input(2)
|
|
c1 = input(3)
|
|
|
|
puts "=== Simple tests ==="
|
|
|
|
cell("TOP")
|
|
|
|
c1.rounded_corners(0.5, 0.5, 16).output(1010, 0)
|
|
c1.smoothed(1.5).output(1011, 0)
|
|
|
|
a1.texts.output(1020, 0)
|
|
a1.texts("A*").output(1021, 0)
|
|
a1.texts(text("A*")).output(1022, 0)
|
|
a1.texts(pattern("A*")).output(1023, 0)
|
|
a1.texts(pattern("A*"), as_dots).extended(0.05, 0.05, 0.05, 0.05).output(1024, 0)
|
|
a1.texts(pattern("A*"), as_boxes).output(1025, 0)
|
|
|
|
a1.middle.sized(0.05).output(1030, 0)
|
|
a1.middle(as_dots).extended(0.05, 0.05, 0.05, 0.05).output(1031, 0)
|
|
a1.middle(as_boxes).sized(0.05).output(1032, 0)
|
|
a1.extent_refs(0.5, 0.5).sized(0.05).output(1040, 0)
|
|
a1.extent_refs(:center).sized(0.05).output(1040, 1)
|
|
a1.extent_refs(:c).sized(0.05).output(1040, 2)
|
|
a1.extent_refs(:bottom).sized(0.05).output(1041, 0)
|
|
a1.extent_refs(:b).sized(0.05).output(1041, 1)
|
|
a1.extent_refs(:b, as_edges).extended(0.05, 0.05, 0.05, 0.05).output(1041, 2)
|
|
a1.extent_refs(:top).sized(0.05).output(1042, 0)
|
|
a1.extent_refs(:t).sized(0.05).output(1042, 1)
|
|
a1.extent_refs(:left).sized(0.05).output(1043, 0)
|
|
a1.extent_refs(:l).sized(0.05).output(1043, 1)
|
|
a1.extent_refs(:right).sized(0.05).output(1044, 0)
|
|
a1.extent_refs(:r).sized(0.05).output(1044, 1)
|
|
a1.extent_refs(:bottom_left).sized(0.05).output(1045, 0)
|
|
a1.extent_refs(:bl).sized(0.05).output(1045, 1)
|
|
a1.extent_refs(:bottom_center).sized(0.05).output(1046, 0)
|
|
a1.extent_refs(:bc).sized(0.05).output(1046, 1)
|
|
a1.extent_refs(:bottom_right).sized(0.05).output(1047, 0)
|
|
a1.extent_refs(:br).sized(0.05).output(1047, 1)
|
|
a1.extent_refs(:top_left).sized(0.05).output(1048, 0)
|
|
a1.extent_refs(:tl).sized(0.05).output(1048, 1)
|
|
a1.extent_refs(:top_center).sized(0.05).output(1049, 0)
|
|
a1.extent_refs(:tc).sized(0.05).output(1049, 1)
|
|
a1.extent_refs(:top_right).sized(0.05).output(1050, 0)
|
|
a1.extent_refs(:tr).sized(0.05).output(1050, 1)
|
|
a1.extent_refs(:left_center).sized(0.05).output(1051, 0)
|
|
a1.extent_refs(:lc).sized(0.05).output(1051, 1)
|
|
a1.extent_refs(:right_center).sized(0.05).output(1052, 0)
|
|
a1.extent_refs(:rc).sized(0.05).output(1052, 1)
|
|
a1.extent_refs(0.25, 0.5, 0.5, 0.75).output(1053, 0)
|
|
|
|
a1.corners.sized(0.05).output(1060, 0)
|
|
a1.corners(-90.0, as_boxes).sized(0.05).output(1061, 0)
|
|
a1.corners(-90.0, as_dots).extended(0.05, 0.05, 0.05, 0.05).output(1062, 0)
|
|
|
|
a1.select { |p| p.bbox.width < 0.8 }.output(1100, 0)
|
|
a1.collect { |p| p.is_box? && p.bbox.enlarged(0.1, 0.1) }.output(1101, 0)
|
|
a1.collect_to_region { |p| p.is_box? && p.bbox.enlarged(0.1, 0.1) }.output(1102, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && p.bbox.enlarged(0.1, 0.1) }.output(1103, 0)
|
|
a1.collect { |p| p.is_box? && p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(120, 120) }.output(1104, 0)
|
|
a1.collect { |p| p.is_box? && [ p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(150, 150), p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(120, 120) ] }.output(1105, 0)
|
|
lx = polygon_layer
|
|
a1.each { |p| p.is_box? && lx.insert(p) }
|
|
lx.output(1106, 0)
|
|
a1.collect { |p| p.is_box? && RBA::Region::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))).sized(120) }.output(1107, 0)
|
|
a1.collect { |p| p.is_box? && RBA::Polygon::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))) }.output(1108, 0)
|
|
a1.collect { |p| p.is_box? && RBA::DPolygon::new(p.bbox) }.output(1109, 0)
|
|
a1.collect { |p| p.is_box? && RBA::SimplePolygon::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))) }.output(1110, 0)
|
|
a1.collect { |p| p.is_box? && RBA::DSimplePolygon::new(p.bbox) }.output(1111, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(120, 120) }.output(1112, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && [ p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(150, 150), p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(120, 120) ] }.output(1113, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && RBA::Region::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))).sized(120) }.output(1114, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && RBA::Polygon::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))) }.output(1115, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && RBA::DPolygon::new(p.bbox) }.output(1116, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && RBA::SimplePolygon::new(p.bbox.transformed(RBA::VCplxTrans::new(1000.0))) }.output(1117, 0)
|
|
a1.collect_to_edges { |p| p.is_box? && RBA::DSimplePolygon::new(p.bbox) }.output(1118, 0)
|
|
|
|
a1.edges.select { |p| p.length < 0.8 }.output(1120, 0)
|
|
a1.edges.collect { |p| p.length < 0.8 && p.transformed(RBA::VCplxTrans::new(1000.0)) }.output(1121, 0)
|
|
a1.edges.collect_to_region { |p| p.length < 0.8 && p.bbox.enlarged(0.1, 0.1) }.output(1122, 0)
|
|
a1.edges.collect_to_region { |p| p.length < 0.8 && p.bbox.transformed(RBA::VCplxTrans::new(1000.0)).enlarged(100, 100) }.output(1123, 0)
|
|
|
|
# edge pair collect
|
|
a1.width(1.5).collect { |p| p.transformed(RBA::VCplxTrans::new(1000.0)) }.output(1120, 0)
|
|
a1.width(1.5).collect_to_edge_pairs { |p| p.transformed(RBA::VCplxTrans::new(1000.0)) }.output(1121, 0)
|
|
|
|
puts "=== Single-cell testsuite ==="
|
|
|
|
run_testsuite(0, 1)
|
|
|
|
output_cell("NEW")
|
|
|
|
puts "=== Foreign-cell test ==="
|
|
|
|
a1.and(b1).output(1000, 0)
|
|
|
|
cell("TOPTOP")
|
|
|
|
a1.and(b1).output(1001, 0)
|
|
|
|
if big_tests
|
|
|
|
puts "=== Multi-cell testsuite ==="
|
|
|
|
run_testsuite(1, 900)
|
|
|
|
puts "=== Multi-cell testsuite (tiled) ==="
|
|
|
|
tiles(4.1, 5.2)
|
|
# must be that big ...
|
|
tile_borders(1.um, 1.um)
|
|
threads(4)
|
|
|
|
run_testsuite(2, 900, true)
|
|
|
|
puts "=== Multi-cell testsuite (pseudo-tiled) ==="
|
|
|
|
tiles(10000.0, 10000.0)
|
|
tile_borders(0, 0)
|
|
threads(4)
|
|
|
|
run_testsuite(3, 900, true)
|
|
|
|
flat
|
|
threads(1)
|
|
|
|
puts "=== XOR ==="
|
|
|
|
(100..900).each do |lo|
|
|
a = input(lo, 0)
|
|
b = input(lo, 1)
|
|
if !a.is_empty? || !b.is_empty?
|
|
a.xor(b).output(lo, 10)
|
|
end
|
|
a = input(lo, 1)
|
|
b = input(lo, 2)
|
|
if !a.is_empty? || !b.is_empty?
|
|
a.xor(b).output(lo, 11)
|
|
end
|
|
a = input(lo, 1)
|
|
b = input(lo, 3)
|
|
if !a.is_empty? || !b.is_empty?
|
|
a.xor(b).output(lo, 12)
|
|
end
|
|
end
|
|
|
|
end
|
|
|
|
source.layout.write("drctest_out.gds")
|
|
|