# KLayout Layout Viewer # Copyright (C) 2006-2025 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 import pya import unittest import os import sys def to_s_test(self): r = self.name() r += "[" refs = [ self.database().cell_by_id(i.parent_cell_id).name() + "->" + str(i.trans) for i in self.each_reference() ] r += ",".join(refs) r += "]" return r def to_s_items(self): r = self.name() r += "[" ai = [] for i in self.each_item(): vv = [ str(v) for v in i.each_value() ] ai.append("/".join(vv)) r += ",".join(ai) r += "]" return r pya.RdbCell.to_s_items = to_s_items pya.RdbCell.to_s_test = to_s_test class RDB_TestClass(unittest.TestCase): # RdbReference def test_1(self): ref = pya.RdbReference(pya.DCplxTrans(), 0) self.assertEqual(ref.trans.__str__(), "r0 *1 0,0") ref.trans = pya.DCplxTrans(5.0) self.assertEqual(ref.trans.__str__(), "r0 *5 0,0") self.assertEqual(ref.parent_cell_id, 0) ref.parent_cell_id = 177 self.assertEqual(ref.parent_cell_id, 177) # RdbCell, RdbCategory def test_2(self): db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") self.assertEqual(cell.database().__repr__(), db.__repr__()) self.assertEqual(cell.name(), "cell_name") self.assertEqual(cell.rdb_id(), 1) cell2 = db.create_cell("new_cell", "var1") self.assertEqual(cell2.name(), "new_cell") self.assertEqual(cell2.layout_name(), "") self.assertEqual(cell2.qname(), "new_cell:var1") cell2 = db.create_cell("cell_name", "var1", "cell_name$1") self.assertEqual(cell.name(), "cell_name") self.assertEqual(cell.qname(), "cell_name:1") self.assertEqual(db.cell_by_qname("cell_name:1").rdb_id(), cell.rdb_id()) self.assertEqual(db.cell_by_id(cell.rdb_id()).rdb_id(), cell.rdb_id()) self.assertEqual(cell2.name(), "cell_name") self.assertEqual(cell2.layout_name(), "cell_name$1") self.assertEqual(cell2.qname(), "cell_name:var1") self.assertEqual(db.cell_by_qname("cell_name:var1").rdb_id(), cell2.rdb_id()) self.assertEqual(db.cell_by_id(cell2.rdb_id()).rdb_id(), cell2.rdb_id()) self.assertEqual(cell2.rdb_id(), 3) self.assertEqual(cell.num_items(), 0) self.assertEqual(cell2.num_items(), 0) self.assertEqual(cell.num_items_visited(), 0) self.assertEqual(cell2.num_items_visited(), 0) cc = db.variants("cell_name") self.assertEqual(len(cc), 2) self.assertEqual(cc[0], cell.rdb_id()) self.assertEqual(cc[1], cell2.rdb_id()) cc = [ c for c in db.each_cell() ] self.assertEqual(len(cc), 3) self.assertEqual(cc[0].rdb_id(), cell.rdb_id()) self.assertEqual(cc[2].rdb_id(), cell2.rdb_id()) cat = db.create_category("cat") self.assertEqual(cat.database().__repr__(), db.__repr__()) self.assertEqual(cat.name(), "cat") self.assertEqual(cat.rdb_id(), 4) self.assertEqual(cat.path(), "cat") cats = db.create_category(cat, "subcat") self.assertEqual(cats.name(), "subcat") self.assertEqual(cats.rdb_id(), 5) self.assertEqual(cats.path(), "cat.subcat") self.assertEqual(cats.parent().rdb_id(), cat.rdb_id()) cat.description = "cat_desc" self.assertEqual(cat.description, "cat_desc") x = [ c for c in cat.each_sub_category() ] self.assertEqual(len(x), 1) self.assertEqual(x[0].rdb_id(), cats.rdb_id()) item = db.create_item(cell.rdb_id(), cat.rdb_id()) self.assertEqual(db.num_items(), 1) self.assertEqual(db.num_items_visited(), 0) self.assertEqual(db.num_items(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell.rdb_id(), cat.rdb_id()), 0) self.assertEqual(db.num_items(cell.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items_visited(cell.rdb_id(), cats.rdb_id()), 0) self.assertEqual(cell.num_items(), 1) self.assertEqual(cell2.num_items(), 0) self.assertEqual(cat.num_items(), 1) self.assertEqual(cats.num_items(), 0) self.assertEqual(cell.num_items_visited(), 0) self.assertEqual(cell2.num_items_visited(), 0) self.assertEqual(cat.num_items_visited(), 0) self.assertEqual(cats.num_items_visited(), 0) try: item = db.create_item(1000, cat.rdb_id()) self.assertEqual(False, True) except Exception as ex: self.assertEqual(ex.__str__(), "Not a valid cell ID: 1000 in ReportDatabase.create_item") try: item = db.create_item(cell.rdb_id(), 1001) self.assertEqual(False, True) except Exception as ex: self.assertEqual(ex.__str__(), "Not a valid category ID: 1001 in ReportDatabase.create_item") item2 = db.create_item(cell2, cats) self.assertEqual(db.num_items(), 2) self.assertEqual(db.num_items_visited(), 0) self.assertEqual(db.num_items(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell2.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items(cell2.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell2.rdb_id(), cat.rdb_id()), 0) self.assertEqual(cell.num_items(), 1) self.assertEqual(cell2.num_items(), 1) self.assertEqual(cat.num_items(), 2) self.assertEqual(cats.num_items(), 1) self.assertEqual(cell.num_items_visited(), 0) self.assertEqual(cell2.num_items_visited(), 0) self.assertEqual(cat.num_items_visited(), 0) self.assertEqual(cats.num_items_visited(), 0) db.set_item_visited(item, True) self.assertEqual(item.is_visited(), True) self.assertEqual(cell.num_items_visited(), 1) self.assertEqual(cell2.num_items_visited(), 0) self.assertEqual(cat.num_items_visited(), 1) self.assertEqual(cats.num_items_visited(), 0) self.assertEqual(db.num_items(), 2) self.assertEqual(db.num_items_visited(), 1) self.assertEqual(db.num_items(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell2.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items(cell.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items_visited(cell.rdb_id(), cats.rdb_id()), 0) db.set_item_visited(item2, True) self.assertEqual(cell.num_items_visited(), 1) self.assertEqual(cell2.num_items_visited(), 1) self.assertEqual(cat.num_items_visited(), 2) self.assertEqual(cats.num_items_visited(), 1) self.assertEqual(db.num_items(), 2) self.assertEqual(db.num_items_visited(), 2) self.assertEqual(db.num_items(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items(cell.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items_visited(cell.rdb_id(), cats.rdb_id()), 0) db.set_item_visited(item, False) self.assertEqual(item.is_visited(), False) self.assertEqual(cell.num_items_visited(), 0) self.assertEqual(cell2.num_items_visited(), 1) self.assertEqual(cat.num_items_visited(), 1) self.assertEqual(cats.num_items_visited(), 1) self.assertEqual(db.num_items(), 2) self.assertEqual(db.num_items_visited(), 1) self.assertEqual(db.num_items(cell.rdb_id(), cat.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell.rdb_id(), cat.rdb_id()), 0) self.assertEqual(db.num_items(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items_visited(cell2.rdb_id(), cats.rdb_id()), 1) self.assertEqual(db.num_items(cell.rdb_id(), cats.rdb_id()), 0) self.assertEqual(db.num_items_visited(cell.rdb_id(), cats.rdb_id()), 0) ii = [ i for i in db.each_item() ] self.assertEqual(len(ii), 2) self.assertEqual(ii[0].cell_id(), item.cell_id()) self.assertEqual(ii[0].category_id(), item.category_id()) self.assertEqual(ii[1].cell_id(), item2.cell_id()) self.assertEqual(ii[1].category_id(), item2.category_id()) ii = [ i for i in db.each_item_per_cell(cell.rdb_id()) ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].cell_id(), item.cell_id()) self.assertEqual(ii[0].category_id(), item.category_id()) ii = [ i for i in cell.each_item() ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].cell_id(), item.cell_id()) self.assertEqual(ii[0].category_id(), item.category_id()) ii = [ i for i in db.each_item_per_category(cats.rdb_id()) ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].cell_id(), item2.cell_id()) self.assertEqual(ii[0].category_id(), item2.category_id()) ii = [ i for i in cats.each_item() ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].cell_id(), item2.cell_id()) self.assertEqual(ii[0].category_id(), item2.category_id()) ii = [ i for i in db.each_item_per_cell_and_category(cell.rdb_id(), cats.rdb_id()) ] self.assertEqual(len(ii), 0) ii = [ i for i in db.each_item_per_cell_and_category(cell2.rdb_id(), cats.rdb_id()) ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].cell_id(), item2.cell_id()) self.assertEqual(ii[0].category_id(), item2.category_id()) refs = [ r for r in cell.each_reference() ] self.assertEqual(len(refs), 0) cell.add_reference(pya.RdbReference(pya.DCplxTrans(2.5), 178)) refs = [ r for r in cell.each_reference() ] self.assertEqual(len(refs), 1) self.assertEqual(refs[0].parent_cell_id, 178) self.assertEqual(refs[0].database().__repr__(), db.__repr__()) cell.clear_references() refs = [ r for r in cell.each_reference() ] self.assertEqual(len(refs), 0) # RdbItemValue def test_3(self): v = pya.RdbItemValue(1.0) self.assertEqual(v.tag_id, 0) v.tag_id = 15 self.assertEqual(v.tag_id, 15) vf = pya.RdbItemValue(1.0) vs = pya.RdbItemValue("a string") vb = pya.RdbItemValue(pya.DBox(0, 10, 20, 30)) vl = pya.RdbItemValue(pya.DText("abc", pya.DTrans())) vp = pya.RdbItemValue(pya.DPolygon(pya.DBox(100, 101, 102, 103))) ve = pya.RdbItemValue(pya.DEdge(pya.DPoint(0, 10), pya.DPoint(20, 30))) vee = pya.RdbItemValue(pya.DEdgePair(pya.DEdge(0, 10, 5, 15), pya.DEdge(20, 30, 25, 35))) self.assertEqual(vf.__str__(), "float: 1") self.assertEqual(vs.__str__(), "text: 'a string'") self.assertEqual(vb.__str__(), "box: (0,10;20,30)") self.assertEqual(vp.__str__(), "polygon: (100,101;100,103;102,103;102,101)") self.assertEqual(vl.__str__(), "label: ('abc',r0 0,0)"); self.assertEqual(ve.__str__(), "edge: (0,10;20,30)") self.assertEqual(vee.__str__(), "edge-pair: (0,10;5,15)/(20,30;25,35)") self.assertEqual(pya.RdbItemValue.from_s(vf.__str__()).__str__(), vf.__str__()) self.assertEqual(pya.RdbItemValue.from_s(vs.__str__()).__str__(), vs.__str__()) self.assertEqual(pya.RdbItemValue.from_s(vb.__str__()).__str__(), vb.__str__()) self.assertEqual(pya.RdbItemValue.from_s(vp.__str__()).__str__(), vp.__str__()) self.assertEqual(pya.RdbItemValue.from_s(vl.__str__()).__str__(), vl.__str__()) self.assertEqual(pya.RdbItemValue.from_s(ve.__str__()).__str__(), ve.__str__()) self.assertEqual(pya.RdbItemValue.from_s(vee.__str__()).__str__(), vee.__str__()) self.assertEqual(vf.is_float(), True) self.assertEqual(vf.is_string(), False) self.assertEqual(vf.is_polygon(), False) self.assertEqual(vf.is_text(), False) self.assertEqual(vf.is_edge(), False) self.assertEqual(vf.is_box(), False) self.assertEqual(vf.is_edge_pair(), False) self.assertEqual(vf.float(), 1) self.assertEqual(vf.string(), "1") self.assertEqual(vs.is_float(), False) self.assertEqual(vs.is_string(), True) self.assertEqual(vs.is_polygon(), False) self.assertEqual(vs.is_text(), False) self.assertEqual(vs.is_edge(), False) self.assertEqual(vs.is_box(), False) self.assertEqual(vs.is_edge_pair(), False) self.assertEqual(vs.string(), "a string") self.assertEqual(vl.is_float(), False) self.assertEqual(vl.is_string(), False) self.assertEqual(vl.is_polygon(), False) self.assertEqual(vl.is_text(), True) self.assertEqual(vl.is_edge(), False) self.assertEqual(vl.is_box(), False) self.assertEqual(vl.is_edge_pair(), False) self.assertEqual(vl.text().__str__(), "('abc',r0 0,0)") self.assertEqual(vl.string(), "label: " + vl.text().__str__()) self.assertEqual(vp.is_float(), False) self.assertEqual(vp.is_string(), False) self.assertEqual(vp.is_polygon(), True) self.assertEqual(vp.is_text(), False) self.assertEqual(vp.is_edge(), False) self.assertEqual(vp.is_box(), False) self.assertEqual(vp.is_edge_pair(), False) self.assertEqual(vp.polygon().__str__(), "(100,101;100,103;102,103;102,101)") self.assertEqual(vp.string(), "polygon: " + vp.polygon().__str__()) self.assertEqual(ve.is_float(), False) self.assertEqual(ve.is_string(), False) self.assertEqual(ve.is_polygon(), False) self.assertEqual(ve.is_text(), False) self.assertEqual(ve.is_edge(), True) self.assertEqual(ve.is_box(), False) self.assertEqual(ve.is_edge_pair(), False) self.assertEqual(ve.edge().__str__(), "(0,10;20,30)") self.assertEqual(ve.string(), "edge: " + ve.edge().__str__()) self.assertEqual(vb.is_float(), False) self.assertEqual(vb.is_string(), False) self.assertEqual(vb.is_polygon(), False) self.assertEqual(vb.is_text(), False) self.assertEqual(vb.is_edge(), False) self.assertEqual(vb.is_box(), True) self.assertEqual(vb.is_edge_pair(), False) self.assertEqual(vb.box().__str__(), "(0,10;20,30)") self.assertEqual(vb.string(), "box: " + vb.box().__str__()) self.assertEqual(vee.is_float(), False) self.assertEqual(vee.is_string(), False) self.assertEqual(vee.is_polygon(), False) self.assertEqual(vee.is_text(), False) self.assertEqual(vee.is_edge(), False) self.assertEqual(vee.is_box(), False) self.assertEqual(vee.is_edge_pair(), True) self.assertEqual(vee.edge_pair().__str__(), "(0,10;5,15)/(20,30;25,35)") self.assertEqual(vee.string(), "edge-pair: " + vee.edge_pair().__str__()) # RdbItem def test_4(self): db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") item = db.create_item(cell.rdb_id(), cat.rdb_id()) self.assertEqual(item.database().__repr__(), db.__repr__()) self.assertEqual(item.cell_id(), cell.rdb_id()) self.assertEqual(item.category_id(), cat.rdb_id()) self.assertEqual(db.user_tag_id("x1") != 0, True) self.assertEqual(db.tag_id("x1") != 0, True) self.assertEqual(db.tag_id("x1") == db.user_tag_id("x1"), False) db.set_tag_description(db.user_tag_id("x1"), "D") self.assertEqual(db.tag_description(db.user_tag_id("x1")), "D") self.assertEqual(db.tag_name(db.user_tag_id("x1")), "x1") self.assertEqual(db.tag_description(db.tag_id("x1")), "") self.assertEqual(db.tag_name(db.tag_id("x1")), "x1") db.set_tag_description(db.tag_id("x1"), "U") self.assertEqual(db.tag_description(db.user_tag_id("x1")), "D") self.assertEqual(db.tag_description(db.tag_id("x1")), "U") item.add_tag(db.tag_id("x1")) self.assertEqual(item.has_tag(db.tag_id("x2")), False) self.assertEqual(item.has_tag(db.tag_id("x1")), True) self.assertEqual(item.tags_str, "x1") item.add_tag(db.tag_id("x2")) self.assertEqual(item.has_tag(db.tag_id("x2")), True) self.assertEqual(item.has_tag(db.tag_id("x1")), True) self.assertEqual(item.tags_str, "x1,x2") item.remove_tag(db.tag_id("x1")) self.assertEqual(item.has_tag(db.tag_id("x2")), True) self.assertEqual(item.has_tag(db.tag_id("x1")), False) self.assertEqual(item.tags_str, "x2") item.tags_str="x2,x1" self.assertEqual(item.has_tag(db.tag_id("x2")), True) self.assertEqual(item.has_tag(db.tag_id("x1")), True) self.assertEqual(item.tags_str, "x1,x2") item.tags_str="" self.assertEqual(item.has_tag(db.tag_id("x2")), False) self.assertEqual(item.has_tag(db.tag_id("x1")), False) self.assertEqual(item.tags_str, "") self.assertEqual(item.image_str, "") self.assertEqual(item.has_image(), False) self.assertEqual(item.comment, "") item.comment = "abc" self.assertEqual(item.comment, "abc") # can actually by any string, but only base64-encoded PNG images make sense istr="iVBORw0KGgoAAAANSUhEUgAAACoAAAA0CAIAAABzfT3nAAAAA3NCSVQICAjb4U/gAAAACXBIWXMAAA0SAAANOgHo3ZneAAAA3UlEQVRYhe2WwQ3DIAxFoco8XaGZIaeO43FyYgZYgYXcQ6SWuDGgBhWq/qccIvGCEd9SbAwAAPSGaW2lFR2rfWDpXrPpSe2SP10fvnn/PZHZH9IwbKFVZZ/Z6wMtZcjW02Bn2FVpZYdWdkr2nvh23S2FyDNJuVITpwmRjTGbNr0v20U5byNtJuuJt/fO2f93+UlbEJl5UjVPr3Y71EQ/PoPPlU+lDJtWlCt3GwCMG33BuJGAcWMEMG6c1jBudCyf/nzV8nbZPRohclFLHdGbZ8eNSjN1fmf0AACA1jwA4hKxu4C6P7EAAAAASUVORK5CYII=" item.image_str=istr self.assertEqual(item.image_str, istr) self.assertEqual(item.has_image(), True) if "image_pixels" in item.__dict__: px=item.image_pixels self.assertEqual(px.width, 42) self.assertEqual(px.height, 52) item.image = px px2=item.image_pixels self.assertEqual(px == px2, True) if "image" in item.__dict__: px=item.image self.assertEqual(px.width, 42) self.assertEqual(px.height, 52) item.image = px px2=item.image self.assertEqual(px2.width, 42) self.assertEqual(px2.height, 52) vs = pya.RdbItemValue("a string") vs2 = pya.RdbItemValue("a string (ii)") item.add_value(vs) item.add_value(vs2) vv=[ v for v in item.each_value() ] self.assertEqual(len(vv), 2) self.assertEqual(vv[0].__str__(), "text: 'a string'") self.assertEqual(vv[1].__str__(), "text: 'a string (ii)'") item.clear_values() vv=[ v for v in item.each_value() ] self.assertEqual(len(vv), 0) item.clear_values() item.add_value(1.0) item.add_value("hello") item.add_value(pya.DPolygon(pya.DBox(1, 2, 3, 4))) item.add_value(pya.DBox(11, 12, 13, 14)) item.add_value(pya.DEdge(21, 22, 23, 24)) item.add_value(pya.DEdgePair(pya.DEdge(31, 32, 33, 34), pya.DEdge(41, 42, 43, 44))) shapes = pya.Shapes() pts = [ pya.Point(0, 0), pya.Point(50, 150) ] shapes.insert(pya.Path(pts, 100)) for s in shapes: item.add_value(s, pya.CplxTrans(0.001)) vv=[ v for v in item.each_value() ] self.assertEqual(len(vv), 7) self.assertEqual(vv[0].__str__(), "float: 1") self.assertEqual(vv[1].__str__(), "text: hello") self.assertEqual(vv[2].__str__(), "polygon: (1,2;1,4;3,4;3,2)") self.assertEqual(vv[3].__str__(), "box: (11,12;13,14)") self.assertEqual(vv[4].__str__(), "edge: (21,22;23,24)") self.assertEqual(vv[5].__str__(), "edge-pair: (31,32;33,34)/(41,42;43,44)") self.assertEqual(vv[6].__str__(), "path: (0,0;0.05,0.15) w=0.1 bx=0 ex=0 r=false") # Multiple items def test_5(self): db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") r = pya.Region(pya.Box(0, 0, 100, 200)) db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), r) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "polygon: (0,0;0,0.2;0.1,0.2;0.1,0)") db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") p = pya.Polygon(pya.Box(0, 0, 100, 200)) db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), [p]) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "polygon: (0,0;0,0.2;0.1,0.2;0.1,0)") db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") r = pya.Edges(pya.Edge(0, 0, 100, 200)) db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), r) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "edge: (0,0;0.1,0.2)") db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") r = [ pya.Edge(0, 0, 100, 200) ] db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), r) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "edge: (0,0;0.1,0.2)") db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") r = pya.EdgePairs() r.insert(pya.EdgePair(pya.Edge(0, 0, 100, 200), pya.Edge(10, 10, 50, 150))) db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), r) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "edge-pair: (0,0;0.1,0.2)/(0.01,0.01;0.05,0.15)") db = pya.ReportDatabase("name") cell = db.create_cell("cell_name") cat = db.create_category("cat") r = [ pya.EdgePair(pya.Edge(0, 0, 100, 200), pya.Edge(10, 10, 50, 150)) ] db.create_items(cell.rdb_id(), cat.rdb_id(), pya.CplxTrans(0.001), r) a = [] for item in db.each_item_per_category(cat.rdb_id()): for v in item.each_value(): a.append(str(v)) self.assertEqual(";".join(a), "edge-pair: (0,0;0.1,0.2)/(0.01,0.01;0.05,0.15)") # ReportDatabase def test_6(self): db = pya.ReportDatabase("name") db.reset_modified() self.assertEqual(db.is_modified(), False) self.assertEqual(db.name(), "name") db.description = "desc" db.generator = "gg" db.top_cell_name = "top" db.original_file = "of" self.assertEqual(db.description, "desc") self.assertEqual(db.generator, "gg") self.assertEqual(db.top_cell_name, "top") self.assertEqual(db.original_file, "of") self.assertEqual(db.is_modified(), True) db.reset_modified() self.assertEqual(db.is_modified(), False) tag_id = db.tag_id("x") self.assertEqual(tag_id, 1) db.set_tag_description(tag_id, "xdesc") self.assertEqual(db.tag_description(tag_id), "xdesc") cell = db.create_cell("cell_name") cc = [ c for c in db.each_cell() ] self.assertEqual(len(cc), 1) self.assertEqual(cc[0].rdb_id(), cell.rdb_id()) cat = db.create_category("cat") cc = [ c for c in db.each_category() ] self.assertEqual(len(cc), 1) self.assertEqual(cc[0].rdb_id(), cat.rdb_id()) cats = db.create_category(cat, "subcat") c = db.category_by_path("x") self.assertEqual(c, None) c = db.category_by_path("cat") self.assertEqual(c.rdb_id(), cat.rdb_id()) c = db.category_by_path("cat.subcat") self.assertEqual(c.rdb_id(), cats.rdb_id()) self.assertEqual(db.category_by_id(cat.rdb_id()).rdb_id(), cat.rdb_id()) self.assertEqual(db.category_by_id(cats.rdb_id()).rdb_id(), cats.rdb_id()) item = db.create_item(cell.rdb_id(), cat.rdb_id()) v = pya.RdbItemValue("a") v.tag_id = db.user_tag_id("x2") item.add_value(v) v = pya.RdbItemValue("b") v.tag_id = db.tag_id("x1") item.add_value(v) item.add_tag(db.tag_id("x1")) item.add_tag(db.user_tag_id("x2")) istr="iVBORw0KGgoAAAANSUhEUgAAACoAAAA0CAIAAABzfT3nAAAAA3NCSVQICAjb4U/gAAAACXBIWXMAAA0SAAANOgHo3ZneAAAA3UlEQVRYhe2WwQ3DIAxFoco8XaGZIaeO43FyYgZYgYXcQ6SWuDGgBhWq/qccIvGCEd9SbAwAAPSGaW2lFR2rfWDpXrPpSe2SP10fvnn/PZHZH9IwbKFVZZ/Z6wMtZcjW02Bn2FVpZYdWdkr2nvh23S2FyDNJuVITpwmRjTGbNr0v20U5byNtJuuJt/fO2f93+UlbEJl5UjVPr3Y71EQ/PoPPlU+lDJtWlCt3GwCMG33BuJGAcWMEMG6c1jBudCyf/nzV8nbZPRohclFLHdGbZ8eNSjN1fmf0AACA1jwA4hKxu4C6P7EAAAAASUVORK5CYII=" if "image_str" in item.__dict__: item.image_str=istr ut_testtmp = os.getenv("TESTTMP", ".") tmp = os.path.join(ut_testtmp, "tmp.lyrdb") self.assertEqual(db.filename(), "") db.save(tmp) self.assertEqual(db.filename(), tmp) # load and save db = None db2 = pya.ReportDatabase("neu") db2.load(tmp) self.assertEqual(os.path.basename(db2.filename()), os.path.basename(tmp)) self.assertEqual(db2.name(), os.path.basename(tmp)) self.assertEqual(db2.description, "desc") self.assertEqual(db2.generator, "gg") self.assertEqual(db2.top_cell_name, "top") self.assertEqual(db2.original_file, "of") c = db2.category_by_path("cat.subcat") self.assertEqual(c.path(), "cat.subcat") cc = [ c for c in db2.each_category() ] self.assertEqual(len(cc), 1) ii = [ i for i in db2.each_item() ] self.assertEqual(len(ii), 1) self.assertEqual(ii[0].tags_str, "x1,#x2") self.assertEqual(ii[0].has_tag(db2.user_tag_id("x2")), True) self.assertEqual(ii[0].has_tag(db2.tag_id("x1")), True) self.assertEqual(ii[0].has_tag(db2.tag_id("x")), False) # Only the first 30 bytes count ... the remaining part is too different for different versions of Qt if "image_str" in ii[0].__dict__: self.assertEqual(ii[0].image_str[range(0, 30)], istr[range(0, 30)]) self.assertEqual(db2.cell_by_id(ii[0].cell_id()).qname(), "cell_name") self.assertEqual(db2.category_by_id(ii[0].category_id()).path(), "cat") vs = "" for v in ii[0].each_value(): vs += v.string() self.assertEqual(vs, "ab") vs = "" for v in ii[0].each_value(): if v.tag_id == db2.tag_id("x1"): vs += v.string() self.assertEqual(vs, "b") vs = "" for v in ii[0].each_value(): if v.tag_id == db2.user_tag_id("x1"): vs += v.string() self.assertEqual(vs, "") vs = "" for v in ii[0].each_value(): if v.tag_id == db2.user_tag_id("x2"): vs += v.string() self.assertEqual(vs, "a") # LayoutView def test_10(self): if not "Application" in pya.__dict__: return mw = pya.Application.instance().main_window() mw.create_layout(1) view = mw.current_view() self.ot = 0 def on_changed(): self.ot += 1 view.on_rdb_list_changed += on_changed rdb_index = view.create_rdb("NEW_RDB") self.assertEqual(view.num_rdbs(), 1) self.assertEqual(self.ot, 1) self.assertEqual(view.rdb(rdb_index).name(), "NEW_RDB") view.remove_rdb(rdb_index) self.assertEqual(view.num_rdbs(), 0) self.assertEqual(self.ot, 2) view.on_rdb_list_changed -= on_changed self.ot = 0 rdb_index = view.create_rdb("NEW_RDB2") self.assertEqual(view.rdb(rdb_index).name(), "NEW_RDB2") self.assertEqual(self.ot, 0) self.assertEqual(view.num_rdbs(), 1) rdb_index = view.create_rdb("NEW_RDB3") self.assertEqual(view.rdb(rdb_index).name(), "NEW_RDB3") self.assertEqual(view.num_rdbs(), 2) self.assertEqual(self.ot, 0) mw.close_current_view() # scan_... methods def test_11(self): ly = pya.Layout() c0 = ly.create_cell("c0") c1 = ly.create_cell("c1") c2 = ly.create_cell("c2") c3 = ly.create_cell("c3") c1.insert(pya.CellInstArray(c2.cell_index(), pya.Trans(10, 20))) c2.insert(pya.CellInstArray(c3.cell_index(), pya.Trans(11, 21))) l1 = ly.insert_layer(pya.LayerInfo(1, 0)) prop_id = ly.properties_id([[ "a", 17 ]]) c0.shapes(l1).insert(pya.Box(0, 1, 2, 3), prop_id) prop_id = ly.properties_id([[ "a", 21 ]]) c1.shapes(l1).insert(pya.Box(0, 1, 20, 30), prop_id) c2.shapes(l1).insert(pya.Box(0, 1, 21, 31)) c3.shapes(l1).insert(pya.Box(0, 1, 22, 32)) rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1) self.assertEqual(rdb.tag_name(1), "a") # from property self.assertEqual(cat.num_items(), 4) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c0[];c1[];c2[];c3[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c0[polygon: (0,0.001;0,0.003;0.002,0.003;0.002,0.001)/float: 17];c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1, None, -1, False) self.assertEqual(cat.num_items(), 4) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c0[];c1[];c2[];c3[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c0[polygon: (0,0.001;0,0.003;0.002,0.003;0.002,0.001)];c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1, c1) self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[];c2[c1->r0 *1 0.01,0.02];c3[c1->r0 *1 0.021,0.041]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1, c1, 0) self.assertEqual(cat.num_items(), 1) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1, c1, -1) self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[];c2[c1->r0 *1 0.01,0.02];c3[c1->r0 *1 0.021,0.041]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_layer(ly, l1, c1, 1) self.assertEqual(cat.num_items(), 2) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[];c2[c1->r0 *1 0.01,0.02]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_shapes(c1.begin_shapes_rec(l1)) # hierarchical scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[];c2[c1->r0 *1 0.01,0.02];c3[c1->r0 *1 0.021,0.041]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_shapes(c1.begin_shapes_rec(l1), False, False) # hierarchical scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[];c2[c1->r0 *1 0.01,0.02];c3[c1->r0 *1 0.021,0.041]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") cat.scan_shapes(c1.begin_shapes_rec(l1), True) # flat scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21,polygon: (0.01,0.021;0.01,0.051;0.031,0.051;0.031,0.021),polygon: (0.021,0.042;0.021,0.073;0.043,0.073;0.043,0.042)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") r = pya.Region(c1.begin_shapes_rec(l1)) cat.scan_collection(rdb.create_cell("TOP"), pya.CplxTrans(0.001), r) # hierarchical scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[];c1[TOP->r0 *1 0,0];c2[c1->r0 *1 0.01,0.02];c3[c1->r0 *1 0.021,0.041]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[];c1[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21];c2[polygon: (0,0.001;0,0.031;0.021,0.031;0.021,0.001)];c3[polygon: (0,0.001;0,0.032;0.022,0.032;0.022,0.001)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") r = pya.Region(c1.begin_shapes_rec(l1)) cat.scan_collection(rdb.create_cell("TOP"), pya.CplxTrans(0.001), r, True) # flat scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001)/float: 21,polygon: (0.01,0.021;0.01,0.051;0.031,0.051;0.031,0.021),polygon: (0.021,0.042;0.021,0.073;0.043,0.073;0.043,0.042)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") r = pya.Region(c1.begin_shapes_rec(l1)) cat.scan_collection(rdb.create_cell("TOP"), pya.CplxTrans(0.001), r, True, False) # flat scan self.assertEqual(cat.num_items(), 3) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[polygon: (0,0.001;0,0.03;0.02,0.03;0.02,0.001),polygon: (0.01,0.021;0.01,0.051;0.031,0.051;0.031,0.021),polygon: (0.021,0.042;0.021,0.073;0.043,0.073;0.043,0.042)]") rdb = pya.ReportDatabase("neu") cat = rdb.create_category("l1") r = pya.Region(c1.begin_shapes_rec(l1)).merged() cat.scan_collection(rdb.create_cell("TOP"), pya.CplxTrans(0.001), r, True) # flat scan self.assertEqual(cat.num_items(), 1) cn = [ c.to_s_test() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[]") cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "TOP[polygon: (0,0.001;0,0.03;0.01,0.03;0.01,0.051;0.021,0.051;0.021,0.073;0.043,0.073;0.043,0.042;0.031,0.042;0.031,0.021;0.02,0.021;0.02,0.001)]") # shape insertion from shape, shapes, recursive iterator def test_12(self): ly = pya.Layout() c0 = ly.create_cell("c0") c1 = ly.create_cell("c1") c2 = ly.create_cell("c2") c3 = ly.create_cell("c3") c1.insert(pya.CellInstArray(c2.cell_index(), pya.Trans(10, 20))) c2.insert(pya.CellInstArray(c3.cell_index(), pya.Trans(11, 21))) l1 = ly.insert_layer(pya.LayerInfo(1, 0)) c0.shapes(l1).insert(pya.Box(0, 1, 2, 3)) c1.shapes(l1).insert(pya.Text("Hello, world!", pya.Trans())) c2.shapes(l1).insert(pya.Edge(0, 1, 21, 31)) c3.shapes(l1).insert(pya.Polygon(pya.Box(0, 1, 22, 32))) rdb = pya.ReportDatabase("neu") cat1 = rdb.create_category("l1") cell1 = rdb.create_cell("c1") for s in c0.shapes(l1).each(): rdb.create_item(cell1.rdb_id(), cat1.rdb_id(), pya.CplxTrans(ly.dbu), s) self.assertEqual(cat1.num_items(), 1) cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.003;0.002,0.003;0.002,0.001)]") rdb = pya.ReportDatabase("neu") cat1 = rdb.create_category("l1") cell1 = rdb.create_cell("c1") rdb.create_items(cell1.rdb_id(), cat1.rdb_id(), pya.CplxTrans(ly.dbu), c0.shapes(l1)) self.assertEqual(cat1.num_items(), 1) cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[polygon: (0,0.001;0,0.003;0.002,0.003;0.002,0.001)]") rdb = pya.ReportDatabase("neu") cat1 = rdb.create_category("l1") cell1 = rdb.create_cell("c1") rdb.create_items(cell1.rdb_id(), cat1.rdb_id(), c1.begin_shapes_rec(l1)) self.assertEqual(cat1.num_items(), 3) cn = [ c.to_s_items() for c in rdb.each_cell() ] self.assertEqual(";".join(cn), "c1[label: ('Hello, world!',r0 0,0),edge: (0.01,0.021;0.031,0.051),polygon: (0.021,0.042;0.021,0.073;0.043,0.073;0.043,0.042)]") def test_13(self): # manipulations rdb = pya.ReportDatabase("") _cell = rdb.create_cell("CELL") _cat = rdb.create_category("cat") _subcat = rdb.create_category(_cat, "subcat") _subcat.description = "subcat_d" _item1 = rdb.create_item(_cell.rdb_id(), _subcat.rdb_id()) _item1.add_value(17.5) _item1.add_value("string") _item2 = rdb.create_item(_cell.rdb_id(), _subcat.rdb_id()) _item2.add_value("b") _subsubcat = rdb.create_category(_subcat, "subsubcat") _cat2 = rdb.create_category("cat2") cell = rdb.cell_by_id(_cell.rdb_id()) self.assertEqual(cell._is_const_object(), False) self.assertEqual([ c for c in rdb.each_cell() ][0]._is_const_object(), False) cell = rdb.cell_by_qname("CELL") self.assertEqual(cell._is_const_object(), False) cat = rdb.category_by_id(_cat.rdb_id()) self.assertEqual(cat._is_const_object(), False) cat = rdb.category_by_path("cat") self.assertEqual(cat._is_const_object(), False) subcat = rdb.category_by_path("cat.subcat") self.assertEqual([ c for c in rdb.each_category() ][0]._is_const_object(), False) self.assertEqual(",".join([ c.name() for c in rdb.each_category() ]), "cat,cat2") self.assertEqual(subcat._is_const_object(), False) self.assertEqual(subcat.database()._is_const_object(), False) self.assertEqual(subcat.name(), "subcat") self.assertEqual(subcat.parent().name(), "cat") self.assertEqual(subcat.description, "subcat_d") subcat.description = "changed" self.assertEqual(subcat.description, "changed") self.assertEqual(";".join([ "/".join([ str(v) for v in item.each_value() ]) for item in rdb.each_item_per_category(subcat.rdb_id())]), "float: 17.5/text: string;text: b") item1 = [ i for i in rdb.each_item_per_category(subcat.rdb_id())][0] self.assertEqual(item1._is_const_object(), False) item1.clear_values() self.assertEqual(";".join([ "/".join([ str(v) for v in item.each_value() ]) for item in rdb.each_item_per_category(subcat.rdb_id())]), ";text: b") item1.add_value("x") self.assertEqual(";".join([ "/".join([ str(v) for v in item.each_value() ]) for item in rdb.each_item_per_category(subcat.rdb_id())]), "text: x;text: b") item1.add_tag(17) self.assertEqual(item1.has_tag(17), True) self.assertEqual(item1.has_tag(16), False) item1 = [ i for i in rdb.each_item() ][0] self.assertEqual(item1._is_const_object(), False) self.assertEqual(item1.has_tag(17), True) item1 = [ i for i in rdb.each_item_per_cell(cell.rdb_id()) ][0] self.assertEqual(item1._is_const_object(), False) self.assertEqual(item1.has_tag(17), True) item1 = [ i for i in rdb.each_item_per_cell_and_category(cell.rdb_id(), subcat.rdb_id())][0] self.assertEqual(item1._is_const_object(), False) self.assertEqual(item1.has_tag(17), True) item1 = [ i for i in cell.each_item()][0] self.assertEqual(item1._is_const_object(), False) self.assertEqual(item1.has_tag(17), True) def test_14(self): # same names do not generate a new category rdb = pya.ReportDatabase("") _cell = rdb.create_cell("CELL") _cat = rdb.create_category("cat") _cat_same = rdb.create_category("cat") self.assertEqual(_cat.rdb_id(), _cat_same.rdb_id()) _subcat = rdb.create_category(_cat, "subcat") _subcat_same = rdb.create_category(_cat_same, "subcat") self.assertEqual(_subcat.rdb_id(), _subcat_same.rdb_id()) # testing whether decrementing the reference count would do harm _cat = None _cat_same = None self.assertEqual(_subcat.rdb_id(), _subcat_same.rdb_id()) def test_15(self): p = pya.DPolygon(pya.DBox(0.5, 1, 2, 3)) pwp = pya.DPolygonWithProperties(p, { 1: "value" }) e = pya.DEdge(pya.DPoint(0, 0), pya.DPoint(1, 2)) ewp = pya.DEdgeWithProperties(e, { 1: "value" }) ep = pya.DEdgePair(e, e.moved(10, 10)) epwp = pya.DEdgePairWithProperties(ep, { 1: "value" }) t = pya.DText("text", pya.DTrans.R0) twp = pya.DTextWithProperties(t, { 1: "value" }) b = pya.DBox(0, 0, 1, 2) bwp = pya.DBoxWithProperties(b, { 1: "value" }) ip = pya.Polygon(pya.Box(0, 1, 2, 3)) ipwp = pya.PolygonWithProperties(ip, { 1: "value" }) ie = pya.Edge(pya.Point(0, 0), pya.Point(1, 2)) iewp = pya.EdgeWithProperties(ie, { 1: "value" }) iep = pya.EdgePair(ie, ie.moved(10, 10)) iepwp = pya.EdgePairWithProperties(iep, { 1: "value" }) it = pya.Text("text", pya.Trans.R0) itwp = pya.TextWithProperties(it, { 1: "value" }) ib = pya.Box(0, 0, 1, 2) ibwp = pya.BoxWithProperties(ib, { 1: "value" }) rdb = pya.ReportDatabase() cat = rdb.create_category("name") cell = rdb.create_cell("TOP") item = rdb.create_item(cell, cat) item.add_value(p) item.add_value(pwp) item.add_value(b) item.add_value(bwp) item.add_value(t) item.add_value(twp) item.add_value(e) item.add_value(ewp) item.add_value(ep) item.add_value(epwp) item.add_value(ip) item.add_value(ipwp) item.add_value(ib) item.add_value(ibwp) item.add_value(it) item.add_value(itwp) item.add_value(ie) item.add_value(iewp) item.add_value(iep) item.add_value(iepwp) item.add_value("string") item.add_value(17.5) values = [ str(v) for v in item.each_value() ] self.assertEqual(values, [ 'polygon: (0.5,1;0.5,3;2,3;2,1)', 'polygon: (0.5,1;0.5,3;2,3;2,1)', 'box: (0,0;1,2)', 'box: (0,0;1,2)', "label: ('text',r0 0,0)", "label: ('text',r0 0,0)", 'edge: (0,0;1,2)', 'edge: (0,0;1,2)', 'edge-pair: (0,0;1,2)/(10,10;11,12)', 'edge-pair: (0,0;1,2)/(10,10;11,12)', 'polygon: (0,1;0,3;2,3;2,1)', 'polygon: (0,1;0,3;2,3;2,1)', 'box: (0,0;1,2)', 'box: (0,0;1,2)', "label: ('text',r0 0,0)", "label: ('text',r0 0,0)", 'edge: (0,0;1,2)', 'edge: (0,0;1,2)', 'edge-pair: (0,0;1,2)/(10,10;11,12)', 'edge-pair: (0,0;1,2)/(10,10;11,12)', 'text: string', 'float: 17.5' ]) # run unit tests if __name__ == '__main__': suite = unittest.TestLoader().loadTestsFromTestCase(RDB_TestClass) if not unittest.TextTestRunner(verbosity = 1).run(suite).wasSuccessful(): sys.exit(1)