# encoding: UTF-8 # KLayout Layout Viewer # Copyright (C) 2006-2019 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 sys import os class DBLayoutToNetlistTests(unittest.TestCase): def test_1_Basic(self): ut_testsrc = os.getenv("TESTSRC") lvs = pya.LayoutVsSchematic() self.assertEqual(lvs.xref() == None, True) self.assertEqual(lvs.reference == None, True) def test_2_Flow(self): ut_testsrc = os.getenv("TESTSRC") ly = pya.Layout() ly.read(os.path.join(ut_testsrc, "testdata", "algo", "lvs_test_1.gds")) lvs = pya.LayoutVsSchematic(pya.RecursiveShapeIterator(ly, ly.top_cell(), [])) nwell = lvs.make_layer(ly.layer(1, 0), "nwell") active = lvs.make_layer(ly.layer(2, 0), "active") pplus = lvs.make_layer(ly.layer(10, 0), "pplus") nplus = lvs.make_layer(ly.layer(11, 0), "nplus") poly = lvs.make_layer(ly.layer(3, 0), "poly") poly_lbl = lvs.make_text_layer(ly.layer(3, 1), "poly_lbl") diff_cont = lvs.make_layer(ly.layer(4, 0), "diff_cont") poly_cont = lvs.make_layer(ly.layer(5, 0), "poly_cont") metal1 = lvs.make_layer(ly.layer(6, 0), "metal1") metal1_lbl = lvs.make_text_layer(ly.layer(6, 1), "metal1_lbl") via1 = lvs.make_layer(ly.layer(7, 0), "via1") metal2 = lvs.make_layer(ly.layer(8, 0), "metal2") metal2_lbl = lvs.make_text_layer(ly.layer(8, 1), "metal2_lbl") bulk = lvs.make_layer() # compute some layers active_in_nwell = active & nwell pactive = active_in_nwell & pplus ntie = active_in_nwell & nplus pgate = pactive & poly psd = pactive - pgate active_outside_nwell = active - nwell nactive = active_outside_nwell & nplus ptie = active_outside_nwell & pplus ngate = nactive & poly nsd = nactive - ngate # device extraction pmos_ex = pya.DeviceExtractorMOS4Transistor("PMOS") dl = { "SD": psd, "G": pgate, "P": poly, "W": nwell } lvs.extract_devices(pmos_ex, dl) nmos_ex = pya.DeviceExtractorMOS4Transistor("NMOS") dl = { "SD": nsd, "G": ngate, "P": poly, "W": bulk } lvs.extract_devices(nmos_ex, dl) # register derived layers for connectivity lvs.register(psd, "psd") lvs.register(nsd, "nsd") lvs.register(ptie, "ptie") lvs.register(ntie, "ntie") # intra-layer lvs.connect(psd) lvs.connect(nsd) lvs.connect(nwell) lvs.connect(poly) lvs.connect(diff_cont) lvs.connect(poly_cont) lvs.connect(metal1) lvs.connect(via1) lvs.connect(metal2) lvs.connect(ptie) lvs.connect(ntie) # inter-layer lvs.connect(psd, diff_cont) lvs.connect(nsd, diff_cont) lvs.connect(poly, poly_cont) lvs.connect(poly_cont, metal1) lvs.connect(diff_cont, metal1) lvs.connect(diff_cont, ptie) lvs.connect(diff_cont, ntie) lvs.connect(nwell, ntie) lvs.connect(metal1, via1) lvs.connect(via1, metal2) lvs.connect(poly, poly_lbl) # attaches labels lvs.connect(metal1, metal1_lbl) # attaches labels lvs.connect(metal2, metal2_lbl) # attaches labels # global lvs.connect_global(ptie, "BULK") lvs.connect_global(bulk, "BULK") lvs.extract_netlist() lvs.netlist().combine_devices() lvs.netlist().make_top_level_pins() lvs.netlist().purge() # read the reference netlist reader = pya.NetlistSpiceReader() nl = pya.Netlist() nl.read(os.path.join(ut_testsrc, "testdata", "algo", "lvs_test_1.spi"), reader) self.assertEqual(lvs.reference == None, True) lvs.reference = nl self.assertEqual(lvs.reference == nl, True) # do the actual compare comparer = pya.NetlistComparer() res = lvs.compare(comparer) self.assertEqual(res, True) self.assertEqual(lvs.xref != None, True) def test_3_ReadAndWrite(self): ut_testsrc = os.getenv("TESTSRC") ut_testtmp = os.getenv("TESTTMP") lvs = pya.LayoutVsSchematic() infile = os.path.join(ut_testsrc, "testdata", "algo", "lvsdb_read_test.lvsdb") lvs.read(infile) tmp = os.path.join(ut_testtmp, "tmp.lvsdb") lvs.write(tmp) with open(tmp, 'r') as file: tmp_text = file.read() with open(infile, 'r') as file: infile_text = file.read() self.assertEqual(tmp_text, infile_text) self.assertEqual(",".join(lvs.layer_names()), "bulk,nwell,poly,poly_lbl,diff_cont,poly_cont,metal1,metal1_lbl,via1,metal2,metal2_lbl,ntie,psd,ptie,nsd") self.assertEqual(lvs.layer_name(lvs.layer_by_name("metal1")), "metal1") self.assertEqual(lvs.layer_name(lvs.layer_by_index(lvs.layer_of(lvs.layer_by_name("metal1")))), "metal1") tmp = os.path.join(ut_testtmp, "tmp.l2n") lvs.write_l2n(tmp) l2n = pya.LayoutToNetlist() l2n.read(tmp) self.assertEqual(",".join(l2n.layer_names()), "bulk,nwell,poly,poly_lbl,diff_cont,poly_cont,metal1,metal1_lbl,via1,metal2,metal2_lbl,ntie,psd,ptie,nsd") lvs2 = pya.LayoutVsSchematic() lvs2.read_l2n(tmp) self.assertEqual(",".join(lvs2.layer_names()), "bulk,nwell,poly,poly_lbl,diff_cont,poly_cont,metal1,metal1_lbl,via1,metal2,metal2_lbl,ntie,psd,ptie,nsd") # run unit tests if __name__ == '__main__': suite = unittest.TestLoader().loadTestsFromTestCase(DBLayoutToNetlistTests) if not unittest.TextTestRunner(verbosity = 1).run(suite).wasSuccessful(): sys.exit(1)