# encoding: UTF-8 # KLayout Layout Viewer # Copyright (C) 2006-2022 Matthias Koefferlein # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA if !$:.member?(File::dirname($0)) $:.push(File::dirname($0)) end load("test_prologue.rb") # normalizes a specification string for region, edges etc. # such that the order of the objects becomes irrelevant def csort(s) # splits at ");(" without consuming the brackets s.split(/(?<=\));(?=\()/).sort.join(";") end class DBTexts_TestClass < TestBase # Basics def test_1 r = RBA::Texts::new assert_equal(r.to_s, "") assert_equal(r.is_empty?, true) assert_equal(r.count, 0) assert_equal(r.hier_count, 0) assert_equal(r.bbox.to_s, "()") data_id = r.data_id r.insert(RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(100, -200)))) assert_equal(data_id != r.data_id, true) assert_equal(r.to_s, "('abc',r0 100,-200)") r.clear r.insert(RBA::Text::new("uvw", RBA::Trans::new(RBA::Vector::new(110, 210)))) assert_equal(r.to_s, "('uvw',r0 110,210)") assert_equal(r.extents.to_s, "(109,209;109,211;111,211;111,209)") assert_equal(r.extents(10).to_s, "(100,200;100,220;120,220;120,200)") assert_equal(r.extents(5, 10).to_s, "(105,200;105,220;115,220;115,200)") assert_equal(r.edges.to_s, "(110,210;110,210)") assert_equal(r.is_empty?, false) assert_equal(r.count, 1) assert_equal(r.hier_count, 1) assert_equal(r[0].to_s, "('uvw',r0 110,210)") assert_equal(r[1].to_s, "") assert_equal(r.bbox.to_s, "(110,210;110,210)") assert_equal(r.moved(-10, 10).to_s, "('uvw',r0 100,220)") assert_equal(r.moved(RBA::Point::new(-10, 10)).to_s, "('uvw',r0 100,220)") rr = r.dup assert_equal(rr.data_id != r.data_id, true) rr.move(-10, 10) assert_equal(rr.to_s, "('uvw',r0 100,220)") rr = r.dup rr.move(RBA::Point::new(-10, 10)) assert_equal(rr.to_s, "('uvw',r0 100,220)") assert_equal(r.transformed(RBA::Trans::new(1)).to_s, "('uvw',r90 -210,110)") assert_equal(r.transformed(RBA::ICplxTrans::new(2.0)).to_s, "('uvw',r0 220,420)") rr = r.dup rr.transform(RBA::Trans::new(1)) assert_equal(rr.to_s, "('uvw',r90 -210,110)") rr = r.dup rr.transform(RBA::ICplxTrans::new(2.0)) assert_equal(rr.to_s, "('uvw',r0 220,420)") rr = RBA::Texts::new rr.swap(r) assert_equal(rr.to_s, "('uvw',r0 110,210)") assert_equal(r.to_s, "") rr.swap(r) assert_equal(r.to_s, "('uvw',r0 110,210)") r.clear assert_equal(r.to_s, "") assert_equal(r.is_empty?, true) assert_equal(r.count, 0) assert_equal(r.hier_count, 0) assert_equal(r.bbox.to_s, "()") texts = RBA::Texts::new t = RBA::Texts::new t.insert(RBA::Text::new("uvw", RBA::Trans::new(RBA::Vector::new(-110, 210)))) texts.insert(t) assert_equal(texts.to_s, "('uvw',r0 -110,210)") end # Basics def test_2 r1 = RBA::Texts::new r1.insert(RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(100, -200)))) r1.insert(RBA::Text::new("uvm", RBA::Trans::new(RBA::Vector::new(110, 210)))) r2 = RBA::Texts::new r1.insert(RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(101, -201)))) r1.insert(RBA::Text::new("uvm", RBA::Trans::new(RBA::Vector::new(111, 211)))) assert_equal(csort((r1 + r2).to_s), csort("('abc',r0 100,-200);('uvm',r0 110,210);('abc',r0 101,-201);('uvm',r0 111,211)")) r1 += r2 assert_equal(csort(r1.to_s), csort("('abc',r0 100,-200);('uvm',r0 110,210);('abc',r0 101,-201);('uvm',r0 111,211)")) end def test_3 text1 = RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(100, -200))) text2 = RBA::Text::new("uvm", RBA::Trans::new(RBA::Vector::new(110, 210))) text3 = RBA::Text::new("xyz", RBA::Trans::new(RBA::Vector::new(-101, 201))) r1 = RBA::Texts::new([ text1, text2 ]) assert_equal(csort(r1.to_s), csort("('abc',r0 100,-200);('uvm',r0 110,210)")) assert_equal(r1.with_text("abc", false).to_s, "('abc',r0 100,-200)") assert_equal(r1.with_text("abc", true).to_s, "('uvm',r0 110,210)") assert_equal(r1.with_match("*b*", false).to_s, "('abc',r0 100,-200)") assert_equal(r1.with_match("*b*", true).to_s, "('uvm',r0 110,210)") r1 = RBA::Texts::new(text1) assert_equal(r1.to_s, "('abc',r0 100,-200)") s = RBA::Shapes::new s.insert(text1) s.insert(text2) r1 = RBA::Texts::new(s) assert_equal(csort(r1.to_s), csort("('abc',r0 100,-200);('uvm',r0 110,210)")) ly = RBA::Layout::new l1 = ly.layer("l1") l2 = ly.layer("l2") l3 = ly.layer("l3") c1 = ly.create_cell("C1") c2 = ly.create_cell("C2") c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 0))) c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 100))) c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(200, 100))) c2.shapes(l1).insert(text1) c2.shapes(l2).insert(text2) c2.shapes(l3).insert(text3) r = RBA::Texts::new(ly.begin_shapes(c1.cell_index, l1)) assert_equal(r.to_s(30), "('abc',r0 100,-200);('abc',r0 100,-100);('abc',r0 300,-100)") assert_equal(r.to_s(2), "('abc',r0 100,-200);('abc',r0 100,-100)...") assert_equal(r.is_empty?, false) assert_equal(r.count, 3) assert_equal(r.hier_count, 3) assert_equal(r.has_valid_texts?, false) assert_equal(r.bbox.to_s, "(100,-200;300,-100)") assert_equal(r.is_deep?, false) r.flatten assert_equal(r.has_valid_texts?, true) assert_equal(r[1].to_s, "('abc',r0 100,-100)") assert_equal(r[100].inspect, "nil") assert_equal(r.bbox.to_s, "(100,-200;300,-100)") dss = RBA::DeepShapeStore::new r = RBA::Texts::new(ly.begin_shapes(c1.cell_index, l1), dss) assert_equal(r.to_s(30), "('abc',r0 100,-200);('abc',r0 100,-100);('abc',r0 300,-100)") assert_equal(r.to_s(2), "('abc',r0 100,-200);('abc',r0 100,-100)...") assert_equal(r.is_empty?, false) assert_equal(r.count, 3) assert_equal(r.hier_count, 1) assert_equal(r.has_valid_texts?, false) assert_equal(r.bbox.to_s, "(100,-200;300,-100)") assert_equal(r.is_deep?, true) r.flatten assert_equal(r.to_s, "('abc',r0 100,-200);('abc',r0 100,-100);('abc',r0 300,-100)") assert_equal(r.bbox.to_s, "(100,-200;300,-100)") assert_equal(r.is_deep?, true) end def test_4 # insert_into and insert_into_as_polygons text1 = RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(100, -200))) ly = RBA::Layout::new l1 = ly.layer("l1") c1 = ly.create_cell("C1") c2 = ly.create_cell("C2") c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 0))) c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(0, 100))) c1.insert(RBA::CellInstArray::new(c2.cell_index, RBA::Trans::new(200, 100))) c2.shapes(l1).insert(text1) dss = RBA::DeepShapeStore::new r = RBA::Texts::new(ly.begin_shapes(c1.cell_index, l1), dss) 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,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") target = RBA::Layout::new target_top = target.add_cell("TOP") target_li = target.layer r.with_text("abc", false).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") target_li = target.layer r.with_text("abd", true).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") target_li = target.layer r.with_text("abc", true).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "") target_li = target.layer r.with_match("*b*", false).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") target_li = target.layer r.with_match("*bb*", true).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") target_li = target.layer r.with_match("*b*", true).insert_into(target, target_top, target_li) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "") target = RBA::Layout::new target_top = target.add_cell("TOP") target_li = target.layer r.insert_into_as_polygons(target, target_top, target_li, 1) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Region::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Region::new(target.cell("C2").shapes(target_li)).to_s, "(99,-201;99,-199;101,-199;101,-201)") target_li = target.layer target.insert(target_top, target_li, r) cells = [] target.each_cell { |c| cells << c.name } assert_equal(cells.join(","), "TOP,C2") assert_equal(RBA::Texts::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Region::new(target.cell("TOP").shapes(target_li)).to_s, "") assert_equal(RBA::Texts::new(target.cell("C2").shapes(target_li)).to_s, "('abc',r0 100,-200)") assert_equal(RBA::Region::new(target.cell("C2").shapes(target_li)).to_s, "") end # interact def test_5 r = RBA::Texts::new r.insert(RBA::Text::new("abc", RBA::Trans::new(RBA::Vector::new(100, 200)))) r.insert(RBA::Text::new("uvw", RBA::Trans::new(RBA::Vector::new(110, -210)))) g2 = RBA::Region::new g2.insert(RBA::Box::new(0, 100, 200, 200)) g2.insert(RBA::Box::new(-200, 100, -100, 200)) assert_equal(r.interacting(g2).to_s, "('abc',r0 100,200)") assert_equal(g2.interacting(r).to_s, "(0,100;0,200;200,200;200,100)") assert_equal(r.not_interacting(g2).to_s, "('uvw',r0 110,-210)") assert_equal(g2.not_interacting(r).to_s, "(-200,100;-200,200;-100,200;-100,100)") rr = r.dup rr.select_interacting(g2) assert_equal(rr.to_s, "('abc',r0 100,200)") rr = r.dup rr.select_not_interacting(g2) assert_equal(rr.to_s, "('uvw',r0 110,-210)") assert_equal(r.pull_interacting(g2).to_s, "(0,100;0,200;200,200;200,100)") assert_equal(g2.pull_interacting(r).to_s, "('abc',r0 100,200)") end end load("test_epilogue.rb")