diff options
Diffstat (limited to 'gerber/tests/test_gerber_statements.py')
| -rw-r--r-- | gerber/tests/test_gerber_statements.py | 835 |
1 files changed, 421 insertions, 414 deletions
diff --git a/gerber/tests/test_gerber_statements.py b/gerber/tests/test_gerber_statements.py index 15f35a1..140cbd1 100644 --- a/gerber/tests/test_gerber_statements.py +++ b/gerber/tests/test_gerber_statements.py @@ -3,414 +3,413 @@ # Author: Hamilton Kibbe <ham@hamiltonkib.be> -from .tests import * +import pytest from ..gerber_statements import * from ..cam import FileSettings def test_Statement_smoketest(): - stmt = Statement('Test') - assert_equal(stmt.type, 'Test') + stmt = Statement("Test") + assert stmt.type == "Test" stmt.to_metric() - assert_in('units=metric', str(stmt)) + assert "units=metric" in str(stmt) stmt.to_inch() - assert_in('units=inch', str(stmt)) + assert "units=inch" in str(stmt) stmt.to_metric() stmt.offset(1, 1) - assert_in('type=Test', str(stmt)) + assert "type=Test" in str(stmt) def test_FSParamStmt_factory(): """ Test FSParamStruct factory """ - stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'} + stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"} fs = FSParamStmt.from_dict(stmt) - assert_equal(fs.param, 'FS') - assert_equal(fs.zero_suppression, 'leading') - assert_equal(fs.notation, 'absolute') - assert_equal(fs.format, (2, 7)) + assert fs.param == "FS" + assert fs.zero_suppression == "leading" + assert fs.notation == "absolute" + assert fs.format == (2, 7) - stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '27'} + stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "27"} fs = FSParamStmt.from_dict(stmt) - assert_equal(fs.param, 'FS') - assert_equal(fs.zero_suppression, 'trailing') - assert_equal(fs.notation, 'incremental') - assert_equal(fs.format, (2, 7)) + assert fs.param == "FS" + assert fs.zero_suppression == "trailing" + assert fs.notation == "incremental" + assert fs.format == (2, 7) def test_FSParamStmt(): """ Test FSParamStmt initialization """ - param = 'FS' - zeros = 'trailing' - notation = 'absolute' + param = "FS" + zeros = "trailing" + notation = "absolute" fmt = (2, 5) stmt = FSParamStmt(param, zeros, notation, fmt) - assert_equal(stmt.param, param) - assert_equal(stmt.zero_suppression, zeros) - assert_equal(stmt.notation, notation) - assert_equal(stmt.format, fmt) + assert stmt.param == param + assert stmt.zero_suppression == zeros + assert stmt.notation == notation + assert stmt.format == fmt def test_FSParamStmt_dump(): """ Test FSParamStmt to_gerber() """ - stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'} + stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"} fs = FSParamStmt.from_dict(stmt) - assert_equal(fs.to_gerber(), '%FSLAX27Y27*%') + assert fs.to_gerber() == "%FSLAX27Y27*%" - stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '25'} + stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "25"} fs = FSParamStmt.from_dict(stmt) - assert_equal(fs.to_gerber(), '%FSTIX25Y25*%') + assert fs.to_gerber() == "%FSTIX25Y25*%" - settings = FileSettings(zero_suppression='leading', notation='absolute') - assert_equal(fs.to_gerber(settings), '%FSLAX25Y25*%') + settings = FileSettings(zero_suppression="leading", notation="absolute") + assert fs.to_gerber(settings) == "%FSLAX25Y25*%" def test_FSParamStmt_string(): """ Test FSParamStmt.__str__() """ - stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'} + stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"} fs = FSParamStmt.from_dict(stmt) - assert_equal(str(fs), - '<Format Spec: 2:7 leading zero suppression absolute notation>') + assert str(fs) == "<Format Spec: 2:7 leading zero suppression absolute notation>" - stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '25'} + stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "25"} fs = FSParamStmt.from_dict(stmt) - assert_equal(str(fs), - '<Format Spec: 2:5 trailing zero suppression incremental notation>') + assert ( + str(fs) == "<Format Spec: 2:5 trailing zero suppression incremental notation>" + ) def test_MOParamStmt_factory(): """ Test MOParamStruct factory """ - stmts = [{'param': 'MO', 'mo': 'IN'}, {'param': 'MO', 'mo': 'in'}, ] + stmts = [{"param": "MO", "mo": "IN"}, {"param": "MO", "mo": "in"}] for stmt in stmts: mo = MOParamStmt.from_dict(stmt) - assert_equal(mo.param, 'MO') - assert_equal(mo.mode, 'inch') + assert mo.param == "MO" + assert mo.mode == "inch" - stmts = [{'param': 'MO', 'mo': 'MM'}, {'param': 'MO', 'mo': 'mm'}, ] + stmts = [{"param": "MO", "mo": "MM"}, {"param": "MO", "mo": "mm"}] for stmt in stmts: mo = MOParamStmt.from_dict(stmt) - assert_equal(mo.param, 'MO') - assert_equal(mo.mode, 'metric') + assert mo.param == "MO" + assert mo.mode == "metric" - stmt = {'param': 'MO'} + stmt = {"param": "MO"} mo = MOParamStmt.from_dict(stmt) - assert_equal(mo.mode, None) - stmt = {'param': 'MO', 'mo': 'degrees kelvin'} - assert_raises(ValueError, MOParamStmt.from_dict, stmt) + assert mo.mode == None + stmt = {"param": "MO", "mo": "degrees kelvin"} + pytest.raises(ValueError, MOParamStmt.from_dict, stmt) def test_MOParamStmt(): """ Test MOParamStmt initialization """ - param = 'MO' - mode = 'inch' + param = "MO" + mode = "inch" stmt = MOParamStmt(param, mode) - assert_equal(stmt.param, param) + assert stmt.param == param - for mode in ['inch', 'metric']: + for mode in ["inch", "metric"]: stmt = MOParamStmt(param, mode) - assert_equal(stmt.mode, mode) + assert stmt.mode == mode def test_MOParamStmt_dump(): """ Test MOParamStmt to_gerber() """ - stmt = {'param': 'MO', 'mo': 'IN'} + stmt = {"param": "MO", "mo": "IN"} mo = MOParamStmt.from_dict(stmt) - assert_equal(mo.to_gerber(), '%MOIN*%') + assert mo.to_gerber() == "%MOIN*%" - stmt = {'param': 'MO', 'mo': 'MM'} + stmt = {"param": "MO", "mo": "MM"} mo = MOParamStmt.from_dict(stmt) - assert_equal(mo.to_gerber(), '%MOMM*%') + assert mo.to_gerber() == "%MOMM*%" def test_MOParamStmt_conversion(): - stmt = {'param': 'MO', 'mo': 'MM'} + stmt = {"param": "MO", "mo": "MM"} mo = MOParamStmt.from_dict(stmt) mo.to_inch() - assert_equal(mo.mode, 'inch') + assert mo.mode == "inch" - stmt = {'param': 'MO', 'mo': 'IN'} + stmt = {"param": "MO", "mo": "IN"} mo = MOParamStmt.from_dict(stmt) mo.to_metric() - assert_equal(mo.mode, 'metric') + assert mo.mode == "metric" def test_MOParamStmt_string(): """ Test MOParamStmt.__str__() """ - stmt = {'param': 'MO', 'mo': 'IN'} + stmt = {"param": "MO", "mo": "IN"} mo = MOParamStmt.from_dict(stmt) - assert_equal(str(mo), '<Mode: inches>') + assert str(mo) == "<Mode: inches>" - stmt = {'param': 'MO', 'mo': 'MM'} + stmt = {"param": "MO", "mo": "MM"} mo = MOParamStmt.from_dict(stmt) - assert_equal(str(mo), '<Mode: millimeters>') + assert str(mo) == "<Mode: millimeters>" def test_IPParamStmt_factory(): """ Test IPParamStruct factory """ - stmt = {'param': 'IP', 'ip': 'POS'} + stmt = {"param": "IP", "ip": "POS"} ip = IPParamStmt.from_dict(stmt) - assert_equal(ip.ip, 'positive') + assert ip.ip == "positive" - stmt = {'param': 'IP', 'ip': 'NEG'} + stmt = {"param": "IP", "ip": "NEG"} ip = IPParamStmt.from_dict(stmt) - assert_equal(ip.ip, 'negative') + assert ip.ip == "negative" def test_IPParamStmt(): """ Test IPParamStmt initialization """ - param = 'IP' - for ip in ['positive', 'negative']: + param = "IP" + for ip in ["positive", "negative"]: stmt = IPParamStmt(param, ip) - assert_equal(stmt.param, param) - assert_equal(stmt.ip, ip) + assert stmt.param == param + assert stmt.ip == ip def test_IPParamStmt_dump(): """ Test IPParamStmt to_gerber() """ - stmt = {'param': 'IP', 'ip': 'POS'} + stmt = {"param": "IP", "ip": "POS"} ip = IPParamStmt.from_dict(stmt) - assert_equal(ip.to_gerber(), '%IPPOS*%') + assert ip.to_gerber() == "%IPPOS*%" - stmt = {'param': 'IP', 'ip': 'NEG'} + stmt = {"param": "IP", "ip": "NEG"} ip = IPParamStmt.from_dict(stmt) - assert_equal(ip.to_gerber(), '%IPNEG*%') + assert ip.to_gerber() == "%IPNEG*%" def test_IPParamStmt_string(): - stmt = {'param': 'IP', 'ip': 'POS'} + stmt = {"param": "IP", "ip": "POS"} ip = IPParamStmt.from_dict(stmt) - assert_equal(str(ip), '<Image Polarity: positive>') + assert str(ip) == "<Image Polarity: positive>" - stmt = {'param': 'IP', 'ip': 'NEG'} + stmt = {"param": "IP", "ip": "NEG"} ip = IPParamStmt.from_dict(stmt) - assert_equal(str(ip), '<Image Polarity: negative>') + assert str(ip) == "<Image Polarity: negative>" def test_IRParamStmt_factory(): - stmt = {'param': 'IR', 'angle': '45'} + stmt = {"param": "IR", "angle": "45"} ir = IRParamStmt.from_dict(stmt) - assert_equal(ir.param, 'IR') - assert_equal(ir.angle, 45) + assert ir.param == "IR" + assert ir.angle == 45 def test_IRParamStmt_dump(): - stmt = {'param': 'IR', 'angle': '45'} + stmt = {"param": "IR", "angle": "45"} ir = IRParamStmt.from_dict(stmt) - assert_equal(ir.to_gerber(), '%IR45*%') + assert ir.to_gerber() == "%IR45*%" def test_IRParamStmt_string(): - stmt = {'param': 'IR', 'angle': '45'} + stmt = {"param": "IR", "angle": "45"} ir = IRParamStmt.from_dict(stmt) - assert_equal(str(ir), '<Image Angle: 45>') + assert str(ir) == "<Image Angle: 45>" def test_OFParamStmt_factory(): """ Test OFParamStmt factory """ - stmt = {'param': 'OF', 'a': '0.1234567', 'b': '0.1234567'} + stmt = {"param": "OF", "a": "0.1234567", "b": "0.1234567"} of = OFParamStmt.from_dict(stmt) - assert_equal(of.a, 0.1234567) - assert_equal(of.b, 0.1234567) + assert of.a == 0.1234567 + assert of.b == 0.1234567 def test_OFParamStmt(): """ Test IPParamStmt initialization """ - param = 'OF' + param = "OF" for val in [0.0, -3.4567]: stmt = OFParamStmt(param, val, val) - assert_equal(stmt.param, param) - assert_equal(stmt.a, val) - assert_equal(stmt.b, val) + assert stmt.param == param + assert stmt.a == val + assert stmt.b == val def test_OFParamStmt_dump(): """ Test OFParamStmt to_gerber() """ - stmt = {'param': 'OF', 'a': '0.123456', 'b': '0.123456'} + stmt = {"param": "OF", "a": "0.123456", "b": "0.123456"} of = OFParamStmt.from_dict(stmt) - assert_equal(of.to_gerber(), '%OFA0.12345B0.12345*%') + assert of.to_gerber() == "%OFA0.12345B0.12345*%" def test_OFParamStmt_conversion(): - stmt = {'param': 'OF', 'a': '2.54', 'b': '25.4'} + stmt = {"param": "OF", "a": "2.54", "b": "25.4"} of = OFParamStmt.from_dict(stmt) - of.units = 'metric' + of.units = "metric" # No effect of.to_metric() - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.a == 2.54 + assert of.b == 25.4 of.to_inch() - assert_equal(of.units, 'inch') - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.units == "inch" + assert of.a == 0.1 + assert of.b == 1.0 # No effect of.to_inch() - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.a == 0.1 + assert of.b == 1.0 - stmt = {'param': 'OF', 'a': '0.1', 'b': '1.0'} + stmt = {"param": "OF", "a": "0.1", "b": "1.0"} of = OFParamStmt.from_dict(stmt) - of.units = 'inch' + of.units = "inch" # No effect of.to_inch() - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.a == 0.1 + assert of.b == 1.0 of.to_metric() - assert_equal(of.units, 'metric') - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.units == "metric" + assert of.a == 2.54 + assert of.b == 25.4 # No effect of.to_metric() - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.a == 2.54 + assert of.b == 25.4 def test_OFParamStmt_offset(): - s = OFParamStmt('OF', 0, 0) + s = OFParamStmt("OF", 0, 0) s.offset(1, 0) - assert_equal(s.a, 1.) - assert_equal(s.b, 0.) + assert s.a == 1.0 + assert s.b == 0.0 s.offset(0, 1) - assert_equal(s.a, 1.) - assert_equal(s.b, 1.) + assert s.a == 1.0 + assert s.b == 1.0 def test_OFParamStmt_string(): """ Test OFParamStmt __str__ """ - stmt = {'param': 'OF', 'a': '0.123456', 'b': '0.123456'} + stmt = {"param": "OF", "a": "0.123456", "b": "0.123456"} of = OFParamStmt.from_dict(stmt) - assert_equal(str(of), '<Offset: X: 0.123456 Y: 0.123456 >') + assert str(of) == "<Offset: X: 0.123456 Y: 0.123456 >" def test_SFParamStmt_factory(): - stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'} + stmt = {"param": "SF", "a": "1.4", "b": "0.9"} sf = SFParamStmt.from_dict(stmt) - assert_equal(sf.param, 'SF') - assert_equal(sf.a, 1.4) - assert_equal(sf.b, 0.9) + assert sf.param == "SF" + assert sf.a == 1.4 + assert sf.b == 0.9 def test_SFParamStmt_dump(): - stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'} + stmt = {"param": "SF", "a": "1.4", "b": "0.9"} sf = SFParamStmt.from_dict(stmt) - assert_equal(sf.to_gerber(), '%SFA1.4B0.9*%') + assert sf.to_gerber() == "%SFA1.4B0.9*%" def test_SFParamStmt_conversion(): - stmt = {'param': 'OF', 'a': '2.54', 'b': '25.4'} + stmt = {"param": "OF", "a": "2.54", "b": "25.4"} of = SFParamStmt.from_dict(stmt) - of.units = 'metric' + of.units = "metric" of.to_metric() # No effect - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.a == 2.54 + assert of.b == 25.4 of.to_inch() - assert_equal(of.units, 'inch') - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.units == "inch" + assert of.a == 0.1 + assert of.b == 1.0 # No effect of.to_inch() - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.a == 0.1 + assert of.b == 1.0 - stmt = {'param': 'OF', 'a': '0.1', 'b': '1.0'} + stmt = {"param": "OF", "a": "0.1", "b": "1.0"} of = SFParamStmt.from_dict(stmt) - of.units = 'inch' + of.units = "inch" # No effect of.to_inch() - assert_equal(of.a, 0.1) - assert_equal(of.b, 1.0) + assert of.a == 0.1 + assert of.b == 1.0 of.to_metric() - assert_equal(of.units, 'metric') - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.units == "metric" + assert of.a == 2.54 + assert of.b == 25.4 # No effect of.to_metric() - assert_equal(of.a, 2.54) - assert_equal(of.b, 25.4) + assert of.a == 2.54 + assert of.b == 25.4 def test_SFParamStmt_offset(): - s = SFParamStmt('OF', 0, 0) + s = SFParamStmt("OF", 0, 0) s.offset(1, 0) - assert_equal(s.a, 1.) - assert_equal(s.b, 0.) + assert s.a == 1.0 + assert s.b == 0.0 s.offset(0, 1) - assert_equal(s.a, 1.) - assert_equal(s.b, 1.) + assert s.a == 1.0 + assert s.b == 1.0 def test_SFParamStmt_string(): - stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'} + stmt = {"param": "SF", "a": "1.4", "b": "0.9"} sf = SFParamStmt.from_dict(stmt) - assert_equal(str(sf), '<Scale Factor: X: 1.4 Y: 0.9>') + assert str(sf) == "<Scale Factor: X: 1.4 Y: 0.9>" def test_LPParamStmt_factory(): """ Test LPParamStmt factory """ - stmt = {'param': 'LP', 'lp': 'C'} + stmt = {"param": "LP", "lp": "C"} lp = LPParamStmt.from_dict(stmt) - assert_equal(lp.lp, 'clear') + assert lp.lp == "clear" - stmt = {'param': 'LP', 'lp': 'D'} + stmt = {"param": "LP", "lp": "D"} lp = LPParamStmt.from_dict(stmt) - assert_equal(lp.lp, 'dark') + assert lp.lp == "dark" def test_LPParamStmt_dump(): """ Test LPParamStmt to_gerber() """ - stmt = {'param': 'LP', 'lp': 'C'} + stmt = {"param": "LP", "lp": "C"} lp = LPParamStmt.from_dict(stmt) - assert_equal(lp.to_gerber(), '%LPC*%') + assert lp.to_gerber() == "%LPC*%" - stmt = {'param': 'LP', 'lp': 'D'} + stmt = {"param": "LP", "lp": "D"} lp = LPParamStmt.from_dict(stmt) - assert_equal(lp.to_gerber(), '%LPD*%') + assert lp.to_gerber() == "%LPD*%" def test_LPParamStmt_string(): """ Test LPParamStmt.__str__() """ - stmt = {'param': 'LP', 'lp': 'D'} + stmt = {"param": "LP", "lp": "D"} lp = LPParamStmt.from_dict(stmt) - assert_equal(str(lp), '<Level Polarity: dark>') + assert str(lp) == "<Level Polarity: dark>" - stmt = {'param': 'LP', 'lp': 'C'} + stmt = {"param": "LP", "lp": "C"} lp = LPParamStmt.from_dict(stmt) - assert_equal(str(lp), '<Level Polarity: clear>') + assert str(lp) == "<Level Polarity: clear>" def test_AMParamStmt_factory(): - name = 'DONUTVAR' - macro = ( -'''0 Test Macro. * + name = "DONUTVAR" + macro = """0 Test Macro. * 1,1,1.5,0,0* 20,1,0.9,0,0.45,12,0.45,0* 21,1,6.8,1.2,3.4,0.6,0* @@ -420,533 +419,541 @@ def test_AMParamStmt_factory(): 6,0,0,5,0.5,0.5,2,0.1,6,0* 7,0,0,7,6,0.2,0* 8,THIS IS AN UNSUPPORTED PRIMITIVE* -''') - s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro}) +""" + s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro}) s.build() - assert_equal(len(s.primitives), 10) - assert_true(isinstance(s.primitives[0], AMCommentPrimitive)) - assert_true(isinstance(s.primitives[1], AMCirclePrimitive)) - assert_true(isinstance(s.primitives[2], AMVectorLinePrimitive)) - assert_true(isinstance(s.primitives[3], AMCenterLinePrimitive)) - assert_true(isinstance(s.primitives[4], AMLowerLeftLinePrimitive)) - assert_true(isinstance(s.primitives[5], AMOutlinePrimitive)) - assert_true(isinstance(s.primitives[6], AMPolygonPrimitive)) - assert_true(isinstance(s.primitives[7], AMMoirePrimitive)) - assert_true(isinstance(s.primitives[8], AMThermalPrimitive)) - assert_true(isinstance(s.primitives[9], AMUnsupportPrimitive)) + assert len(s.primitives) == 10 + assert isinstance(s.primitives[0], AMCommentPrimitive) + assert isinstance(s.primitives[1], AMCirclePrimitive) + assert isinstance(s.primitives[2], AMVectorLinePrimitive) + assert isinstance(s.primitives[3], AMCenterLinePrimitive) + assert isinstance(s.primitives[4], AMLowerLeftLinePrimitive) + assert isinstance(s.primitives[5], AMOutlinePrimitive) + assert isinstance(s.primitives[6], AMPolygonPrimitive) + assert isinstance(s.primitives[7], AMMoirePrimitive) + assert isinstance(s.primitives[8], AMThermalPrimitive) + assert isinstance(s.primitives[9], AMUnsupportPrimitive) def testAMParamStmt_conversion(): - name = 'POLYGON' - macro = '5,1,8,25.4,25.4,25.4,0*' - s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro}) + name = "POLYGON" + macro = "5,1,8,25.4,25.4,25.4,0*" + s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro}) s.build() - s.units = 'metric' + s.units = "metric" # No effect s.to_metric() - assert_equal(s.primitives[0].position, (25.4, 25.4)) - assert_equal(s.primitives[0].diameter, 25.4) + assert s.primitives[0].position == (25.4, 25.4) + assert s.primitives[0].diameter == 25.4 s.to_inch() - assert_equal(s.units, 'inch') - assert_equal(s.primitives[0].position, (1., 1.)) - assert_equal(s.primitives[0].diameter, 1.) + assert s.units == "inch" + assert s.primitives[0].position == (1.0, 1.0) + assert s.primitives[0].diameter == 1.0 # No effect s.to_inch() - assert_equal(s.primitives[0].position, (1., 1.)) - assert_equal(s.primitives[0].diameter, 1.) + assert s.primitives[0].position == (1.0, 1.0) + assert s.primitives[0].diameter == 1.0 - macro = '5,1,8,1,1,1,0*' - s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro}) + macro = "5,1,8,1,1,1,0*" + s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro}) s.build() - s.units = 'inch' + s.units = "inch" # No effect s.to_inch() - assert_equal(s.primitives[0].position, (1., 1.)) - assert_equal(s.primitives[0].diameter, 1.) + assert s.primitives[0].position == (1.0, 1.0) + assert s.primitives[0].diameter == 1.0 s.to_metric() - assert_equal(s.units, 'metric') - assert_equal(s.primitives[0].position, (25.4, 25.4)) - assert_equal(s.primitives[0].diameter, 25.4) + assert s.units == "metric" + assert s.primitives[0].position == (25.4, 25.4) + assert s.primitives[0].diameter == 25.4 # No effect s.to_metric() - assert_equal(s.primitives[0].position, (25.4, 25.4)) - assert_equal(s.primitives[0].diameter, 25.4) + assert s.primitives[0].position == (25.4, 25.4) + assert s.primitives[0].diameter == 25.4 def test_AMParamStmt_dump(): - name = 'POLYGON' - macro = '5,1,8,25.4,25.4,25.4,0.0' - s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro}) + name = "POLYGON" + macro = "5,1,8,25.4,25.4,25.4,0.0" + s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro}) s.build() - assert_equal(s.to_gerber(), '%AMPOLYGON*5,1,8,25.4,25.4,25.4,0.0*%') + assert s.to_gerber() == "%AMPOLYGON*5,1,8,25.4,25.4,25.4,0.0*%" - #TODO - Store Equations and update on unit change... - s = AMParamStmt.from_dict({'param': 'AM', 'name': 'OC8', 'macro': '5,1,8,0,0,1.08239X$1,22.5'}) + # TODO - Store Equations and update on unit change... + s = AMParamStmt.from_dict( + {"param": "AM", "name": "OC8", "macro": "5,1,8,0,0,1.08239X$1,22.5"} + ) s.build() - #assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,1.08239X$1,22.5*%') - assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,0,22.5*%') + # assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,1.08239X$1,22.5*%') + assert s.to_gerber() == "%AMOC8*5,1,8,0,0,0,22.5*%" def test_AMParamStmt_string(): - name = 'POLYGON' - macro = '5,1,8,25.4,25.4,25.4,0*' - s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro}) + name = "POLYGON" + macro = "5,1,8,25.4,25.4,25.4,0*" + s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro}) s.build() - assert_equal(str(s), '<Aperture Macro POLYGON: 5,1,8,25.4,25.4,25.4,0*>') + assert str(s) == "<Aperture Macro POLYGON: 5,1,8,25.4,25.4,25.4,0*>" def test_ASParamStmt_factory(): - stmt = {'param': 'AS', 'mode': 'AXBY'} + stmt = {"param": "AS", "mode": "AXBY"} s = ASParamStmt.from_dict(stmt) - assert_equal(s.param, 'AS') - assert_equal(s.mode, 'AXBY') + assert s.param == "AS" + assert s.mode == "AXBY" def test_ASParamStmt_dump(): - stmt = {'param': 'AS', 'mode': 'AXBY'} + stmt = {"param": "AS", "mode": "AXBY"} s = ASParamStmt.from_dict(stmt) - assert_equal(s.to_gerber(), '%ASAXBY*%') + assert s.to_gerber() == "%ASAXBY*%" def test_ASParamStmt_string(): - stmt = {'param': 'AS', 'mode': 'AXBY'} + stmt = {"param": "AS", "mode": "AXBY"} s = ASParamStmt.from_dict(stmt) - assert_equal(str(s), '<Axis Select: AXBY>') + assert str(s) == "<Axis Select: AXBY>" def test_INParamStmt_factory(): """ Test INParamStmt factory """ - stmt = {'param': 'IN', 'name': 'test'} + stmt = {"param": "IN", "name": "test"} inp = INParamStmt.from_dict(stmt) - assert_equal(inp.name, 'test') + assert inp.name == "test" def test_INParamStmt_dump(): """ Test INParamStmt to_gerber() """ - stmt = {'param': 'IN', 'name': 'test'} + stmt = {"param": "IN", "name": "test"} inp = INParamStmt.from_dict(stmt) - assert_equal(inp.to_gerber(), '%INtest*%') + assert inp.to_gerber() == "%INtest*%" def test_INParamStmt_string(): - stmt = {'param': 'IN', 'name': 'test'} + stmt = {"param": "IN", "name": "test"} inp = INParamStmt.from_dict(stmt) - assert_equal(str(inp), '<Image Name: test>') + assert str(inp) == "<Image Name: test>" def test_LNParamStmt_factory(): """ Test LNParamStmt factory """ - stmt = {'param': 'LN', 'name': 'test'} + stmt = {"param": "LN", "name": "test"} lnp = LNParamStmt.from_dict(stmt) - assert_equal(lnp.name, 'test') + assert lnp.name == "test" def test_LNParamStmt_dump(): """ Test LNParamStmt to_gerber() """ - stmt = {'param': 'LN', 'name': 'test'} + stmt = {"param": "LN", "name": "test"} lnp = LNParamStmt.from_dict(stmt) - assert_equal(lnp.to_gerber(), '%LNtest*%') + assert lnp.to_gerber() == "%LNtest*%" def test_LNParamStmt_string(): - stmt = {'param': 'LN', 'name': 'test'} + stmt = {"param": "LN", "name": "test"} lnp = LNParamStmt.from_dict(stmt) - assert_equal(str(lnp), '<Level Name: test>') + assert str(lnp) == "<Level Name: test>" def test_comment_stmt(): """ Test comment statement """ - stmt = CommentStmt('A comment') - assert_equal(stmt.type, 'COMMENT') - assert_equal(stmt.comment, 'A comment') + stmt = CommentStmt("A comment") + assert stmt.type == "COMMENT" + assert stmt.comment == "A comment" def test_comment_stmt_dump(): """ Test CommentStmt to_gerber() """ - stmt = CommentStmt('A comment') - assert_equal(stmt.to_gerber(), 'G04A comment*') + stmt = CommentStmt("A comment") + assert stmt.to_gerber() == "G04A comment*" def test_comment_stmt_string(): - stmt = CommentStmt('A comment') - assert_equal(str(stmt), '<Comment: A comment>') + stmt = CommentStmt("A comment") + assert str(stmt) == "<Comment: A comment>" def test_eofstmt(): """ Test EofStmt """ stmt = EofStmt() - assert_equal(stmt.type, 'EOF') + assert stmt.type == "EOF" def test_eofstmt_dump(): """ Test EofStmt to_gerber() """ stmt = EofStmt() - assert_equal(stmt.to_gerber(), 'M02*') + assert stmt.to_gerber() == "M02*" def test_eofstmt_string(): - assert_equal(str(EofStmt()), '<EOF Statement>') + assert str(EofStmt()) == "<EOF Statement>" def test_quadmodestmt_factory(): """ Test QuadrantModeStmt.from_gerber() """ - line = 'G74*' + line = "G74*" stmt = QuadrantModeStmt.from_gerber(line) - assert_equal(stmt.type, 'QuadrantMode') - assert_equal(stmt.mode, 'single-quadrant') + assert stmt.type == "QuadrantMode" + assert stmt.mode == "single-quadrant" - line = 'G75*' + line = "G75*" stmt = QuadrantModeStmt.from_gerber(line) - assert_equal(stmt.mode, 'multi-quadrant') + assert stmt.mode == "multi-quadrant" def test_quadmodestmt_validation(): """ Test QuadrantModeStmt input validation """ - line = 'G76*' - assert_raises(ValueError, QuadrantModeStmt.from_gerber, line) - assert_raises(ValueError, QuadrantModeStmt, 'quadrant-ful') + line = "G76*" + pytest.raises(ValueError, QuadrantModeStmt.from_gerber, line) + pytest.raises(ValueError, QuadrantModeStmt, "quadrant-ful") def test_quadmodestmt_dump(): """ Test QuadrantModeStmt.to_gerber() """ - for line in ('G74*', 'G75*',): + for line in ("G74*", "G75*"): stmt = QuadrantModeStmt.from_gerber(line) - assert_equal(stmt.to_gerber(), line) + assert stmt.to_gerber() == line def test_regionmodestmt_factory(): """ Test RegionModeStmt.from_gerber() """ - line = 'G36*' + line = "G36*" stmt = RegionModeStmt.from_gerber(line) - assert_equal(stmt.type, 'RegionMode') - assert_equal(stmt.mode, 'on') + assert stmt.type == "RegionMode" + assert stmt.mode == "on" - line = 'G37*' + line = "G37*" stmt = RegionModeStmt.from_gerber(line) - assert_equal(stmt.mode, 'off') + assert stmt.mode == "off" def test_regionmodestmt_validation(): """ Test RegionModeStmt input validation """ - line = 'G38*' - assert_raises(ValueError, RegionModeStmt.from_gerber, line) - assert_raises(ValueError, RegionModeStmt, 'off-ish') + line = "G38*" + pytest.raises(ValueError, RegionModeStmt.from_gerber, line) + pytest.raises(ValueError, RegionModeStmt, "off-ish") def test_regionmodestmt_dump(): """ Test RegionModeStmt.to_gerber() """ - for line in ('G36*', 'G37*',): + for line in ("G36*", "G37*"): stmt = RegionModeStmt.from_gerber(line) - assert_equal(stmt.to_gerber(), line) + assert stmt.to_gerber() == line def test_unknownstmt(): """ Test UnknownStmt """ - line = 'G696969*' + line = "G696969*" stmt = UnknownStmt(line) - assert_equal(stmt.type, 'UNKNOWN') - assert_equal(stmt.line, line) + assert stmt.type == "UNKNOWN" + assert stmt.line == line def test_unknownstmt_dump(): """ Test UnknownStmt.to_gerber() """ - lines = ('G696969*', 'M03*',) + lines = ("G696969*", "M03*") for line in lines: stmt = UnknownStmt(line) - assert_equal(stmt.to_gerber(), line) + assert stmt.to_gerber() == line def test_statement_string(): """ Test Statement.__str__() """ - stmt = Statement('PARAM') - assert_in('type=PARAM', str(stmt)) - stmt.test = 'PASS' - assert_in('test=PASS', str(stmt)) - assert_in('type=PARAM', str(stmt)) + stmt = Statement("PARAM") + assert "type=PARAM" in str(stmt) + stmt.test = "PASS" + assert "test=PASS" in str(stmt) + assert "type=PARAM" in str(stmt) def test_ADParamStmt_factory(): """ Test ADParamStmt factory """ - stmt = {'param': 'AD', 'd': 0, 'shape': 'C'} + stmt = {"param": "AD", "d": 0, "shape": "C"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.d, 0) - assert_equal(ad.shape, 'C') + assert ad.d == 0 + assert ad.shape == "C" - stmt = {'param': 'AD', 'd': 1, 'shape': 'R'} + stmt = {"param": "AD", "d": 1, "shape": "R"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.d, 1) - assert_equal(ad.shape, 'R') + assert ad.d == 1 + assert ad.shape == "R" - stmt = {'param': 'AD', 'd': 1, 'shape': 'C', "modifiers": "1.42"} + stmt = {"param": "AD", "d": 1, "shape": "C", "modifiers": "1.42"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.d, 1) - assert_equal(ad.shape, 'C') - assert_equal(ad.modifiers, [(1.42,)]) + assert ad.d == 1 + assert ad.shape == "C" + assert ad.modifiers == [(1.42,)] - stmt = {'param': 'AD', 'd': 1, 'shape': 'C', "modifiers": "1.42X"} + stmt = {"param": "AD", "d": 1, "shape": "C", "modifiers": "1.42X"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.d, 1) - assert_equal(ad.shape, 'C') - assert_equal(ad.modifiers, [(1.42,)]) + assert ad.d == 1 + assert ad.shape == "C" + assert ad.modifiers == [(1.42,)] - stmt = {'param': 'AD', 'd': 1, 'shape': 'R', "modifiers": "1.42X1.24"} + stmt = {"param": "AD", "d": 1, "shape": "R", "modifiers": "1.42X1.24"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.d, 1) - assert_equal(ad.shape, 'R') - assert_equal(ad.modifiers, [(1.42, 1.24)]) + assert ad.d == 1 + assert ad.shape == "R" + assert ad.modifiers == [(1.42, 1.24)] def test_ADParamStmt_conversion(): - stmt = {'param': 'AD', 'd': 0, 'shape': 'C', - 'modifiers': '25.4X25.4,25.4X25.4'} + stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "25.4X25.4,25.4X25.4"} ad = ADParamStmt.from_dict(stmt) - ad.units = 'metric' + ad.units = "metric" # No effect ad.to_metric() - assert_equal(ad.modifiers[0], (25.4, 25.4)) - assert_equal(ad.modifiers[1], (25.4, 25.4)) + assert ad.modifiers[0] == (25.4, 25.4) + assert ad.modifiers[1] == (25.4, 25.4) ad.to_inch() - assert_equal(ad.units, 'inch') - assert_equal(ad.modifiers[0], (1., 1.)) - assert_equal(ad.modifiers[1], (1., 1.)) + assert ad.units == "inch" + assert ad.modifiers[0] == (1.0, 1.0) + assert ad.modifiers[1] == (1.0, 1.0) # No effect ad.to_inch() - assert_equal(ad.modifiers[0], (1., 1.)) - assert_equal(ad.modifiers[1], (1., 1.)) + assert ad.modifiers[0] == (1.0, 1.0) + assert ad.modifiers[1] == (1.0, 1.0) - stmt = {'param': 'AD', 'd': 0, 'shape': 'C', 'modifiers': '1X1,1X1'} + stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "1X1,1X1"} ad = ADParamStmt.from_dict(stmt) - ad.units = 'inch' + ad.units = "inch" # No effect ad.to_inch() - assert_equal(ad.modifiers[0], (1., 1.)) - assert_equal(ad.modifiers[1], (1., 1.)) + assert ad.modifiers[0] == (1.0, 1.0) + assert ad.modifiers[1] == (1.0, 1.0) ad.to_metric() - assert_equal(ad.modifiers[0], (25.4, 25.4)) - assert_equal(ad.modifiers[1], (25.4, 25.4)) + assert ad.modifiers[0] == (25.4, 25.4) + assert ad.modifiers[1] == (25.4, 25.4) # No effect ad.to_metric() - assert_equal(ad.modifiers[0], (25.4, 25.4)) - assert_equal(ad.modifiers[1], (25.4, 25.4)) + assert ad.modifiers[0] == (25.4, 25.4) + assert ad.modifiers[1] == (25.4, 25.4) def test_ADParamStmt_dump(): - stmt = {'param': 'AD', 'd': 0, 'shape': 'C'} + stmt = {"param": "AD", "d": 0, "shape": "C"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.to_gerber(), '%ADD0C*%') - stmt = {'param': 'AD', 'd': 0, 'shape': 'C', 'modifiers': '1X1,1X1'} + assert ad.to_gerber() == "%ADD0C*%" + stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "1X1,1X1"} ad = ADParamStmt.from_dict(stmt) - assert_equal(ad.to_gerber(), '%ADD0C,1X1,1X1*%') + assert ad.to_gerber() == "%ADD0C,1X1,1X1*%" def test_ADPamramStmt_string(): - stmt = {'param': 'AD', 'd': 0, 'shape': 'C'} + stmt = {"param": "AD", "d": 0, "shape": "C"} ad = ADParamStmt.from_dict(stmt) - assert_equal(str(ad), '<Aperture Definition: 0: circle>') + assert str(ad) == "<Aperture Definition: 0: circle>" - stmt = {'param': 'AD', 'd': 0, 'shape': 'R'} + stmt = {"param": "AD", "d": 0, "shape": "R"} ad = ADParamStmt.from_dict(stmt) - assert_equal(str(ad), '<Aperture Definition: 0: rectangle>') + assert str(ad) == "<Aperture Definition: 0: rectangle>" - stmt = {'param': 'AD', 'd': 0, 'shape': 'O'} + stmt = {"param": "AD", "d": 0, "shape": "O"} ad = ADParamStmt.from_dict(stmt) - assert_equal(str(ad), '<Aperture Definition: 0: obround>') + assert str(ad) == "<Aperture Definition: 0: obround>" - stmt = {'param': 'AD', 'd': 0, 'shape': 'test'} + stmt = {"param": "AD", "d": 0, "shape": "test"} ad = ADParamStmt.from_dict(stmt) - assert_equal(str(ad), '<Aperture Definition: 0: test>') + assert str(ad) == "<Aperture Definition: 0: test>" def test_MIParamStmt_factory(): - stmt = {'param': 'MI', 'a': 1, 'b': 1} + stmt = {"param": "MI", "a": 1, "b": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(mi.a, 1) - assert_equal(mi.b, 1) + assert mi.a == 1 + assert mi.b == 1 def test_MIParamStmt_dump(): - stmt = {'param': 'MI', 'a': 1, 'b': 1} + stmt = {"param": "MI", "a": 1, "b": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(mi.to_gerber(), '%MIA1B1*%') - stmt = {'param': 'MI', 'a': 1} + assert mi.to_gerber() == "%MIA1B1*%" + stmt = {"param": "MI", "a": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(mi.to_gerber(), '%MIA1B0*%') - stmt = {'param': 'MI', 'b': 1} + assert mi.to_gerber() == "%MIA1B0*%" + stmt = {"param": "MI", "b": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(mi.to_gerber(), '%MIA0B1*%') + assert mi.to_gerber() == "%MIA0B1*%" def test_MIParamStmt_string(): - stmt = {'param': 'MI', 'a': 1, 'b': 1} + stmt = {"param": "MI", "a": 1, "b": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(str(mi), '<Image Mirror: A=1 B=1>') + assert str(mi) == "<Image Mirror: A=1 B=1>" - stmt = {'param': 'MI', 'b': 1} + stmt = {"param": "MI", "b": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(str(mi), '<Image Mirror: A=0 B=1>') + assert str(mi) == "<Image Mirror: A=0 B=1>" - stmt = {'param': 'MI', 'a': 1} + stmt = {"param": "MI", "a": 1} mi = MIParamStmt.from_dict(stmt) - assert_equal(str(mi), '<Image Mirror: A=1 B=0>') + assert str(mi) == "<Image Mirror: A=1 B=0>" def test_coordstmt_ctor(): - cs = CoordStmt('G04', 0.0, 0.1, 0.2, 0.3, 'D01', FileSettings()) - assert_equal(cs.function, 'G04') - assert_equal(cs.x, 0.0) - assert_equal(cs.y, 0.1) - assert_equal(cs.i, 0.2) - assert_equal(cs.j, 0.3) - assert_equal(cs.op, 'D01') + cs = CoordStmt("G04", 0.0, 0.1, 0.2, 0.3, "D01", FileSettings()) + assert cs.function == "G04" + assert cs.x == 0.0 + assert cs.y == 0.1 + assert cs.i == 0.2 + assert cs.j == 0.3 + assert cs.op == "D01" def test_coordstmt_factory(): - stmt = {'function': 'G04', 'x': '0', 'y': '001', - 'i': '002', 'j': '003', 'op': 'D01'} + stmt = { + "function": "G04", + "x": "0", + "y": "001", + "i": "002", + "j": "003", + "op": "D01", + } cs = CoordStmt.from_dict(stmt, FileSettings()) - assert_equal(cs.function, 'G04') - assert_equal(cs.x, 0.0) - assert_equal(cs.y, 0.1) - assert_equal(cs.i, 0.2) - assert_equal(cs.j, 0.3) - assert_equal(cs.op, 'D01') + assert cs.function == "G04" + assert cs.x == 0.0 + assert cs.y == 0.1 + assert cs.i == 0.2 + assert cs.j == 0.3 + assert cs.op == "D01" def test_coordstmt_dump(): - cs = CoordStmt('G04', 0.0, 0.1, 0.2, 0.3, 'D01', FileSettings()) - assert_equal(cs.to_gerber(FileSettings()), 'G04X0Y001I002J003D01*') + cs = CoordStmt("G04", 0.0, 0.1, 0.2, 0.3, "D01", FileSettings()) + assert cs.to_gerber(FileSettings()) == "G04X0Y001I002J003D01*" def test_coordstmt_conversion(): - cs = CoordStmt('G71', 25.4, 25.4, 25.4, 25.4, 'D01', FileSettings()) - cs.units = 'metric' + cs = CoordStmt("G71", 25.4, 25.4, 25.4, 25.4, "D01", FileSettings()) + cs.units = "metric" # No effect cs.to_metric() - assert_equal(cs.x, 25.4) - assert_equal(cs.y, 25.4) - assert_equal(cs.i, 25.4) - assert_equal(cs.j, 25.4) - assert_equal(cs.function, 'G71') + assert cs.x == 25.4 + assert cs.y == 25.4 + assert cs.i == 25.4 + assert cs.j == 25.4 + assert cs.function == "G71" cs.to_inch() - assert_equal(cs.units, 'inch') - assert_equal(cs.x, 1.) - assert_equal(cs.y, 1.) - assert_equal(cs.i, 1.) - assert_equal(cs.j, 1.) - assert_equal(cs.function, 'G70') + assert cs.units == "inch" + assert cs.x == 1.0 + assert cs.y == 1.0 + assert cs.i == 1.0 + assert cs.j == 1.0 + assert cs.function == "G70" # No effect cs.to_inch() - assert_equal(cs.x, 1.) - assert_equal(cs.y, 1.) - assert_equal(cs.i, 1.) - assert_equal(cs.j, 1.) - assert_equal(cs.function, 'G70') + assert cs.x == 1.0 + assert cs.y == 1.0 + assert cs.i == 1.0 + assert cs.j == 1.0 + assert cs.function == "G70" - cs = CoordStmt('G70', 1., 1., 1., 1., 'D01', FileSettings()) - cs.units = 'inch' + cs = CoordStmt("G70", 1.0, 1.0, 1.0, 1.0, "D01", FileSettings()) + cs.units = "inch" # No effect cs.to_inch() - assert_equal(cs.x, 1.) - assert_equal(cs.y, 1.) - assert_equal(cs.i, 1.) - assert_equal(cs.j, 1.) - assert_equal(cs.function, 'G70') + assert cs.x == 1.0 + assert cs.y == 1.0 + assert cs.i == 1.0 + assert cs.j == 1.0 + assert cs.function == "G70" cs.to_metric() - assert_equal(cs.x, 25.4) - assert_equal(cs.y, 25.4) - assert_equal(cs.i, 25.4) - assert_equal(cs.j, 25.4) - assert_equal(cs.function, 'G71') + assert cs.x == 25.4 + assert cs.y == 25.4 + assert cs.i == 25.4 + assert cs.j == 25.4 + assert cs.function == "G71" # No effect cs.to_metric() - assert_equal(cs.x, 25.4) - assert_equal(cs.y, 25.4) - assert_equal(cs.i, 25.4) - assert_equal(cs.j, 25.4) - assert_equal(cs.function, 'G71') + assert cs.x == 25.4 + assert cs.y == 25.4 + assert cs.i == 25.4 + assert cs.j == 25.4 + assert cs.function == "G71" def test_coordstmt_offset(): - c = CoordStmt('G71', 0, 0, 0, 0, 'D01', FileSettings()) + c = CoordStmt("G71", 0, 0, 0, 0, "D01", FileSettings()) c.offset(1, 0) - assert_equal(c.x, 1.) - assert_equal(c.y, 0.) - assert_equal(c.i, 1.) - assert_equal(c.j, 0.) + assert c.x == 1.0 + assert c.y == 0.0 + assert c.i == 1.0 + assert c.j == 0.0 c.offset(0, 1) - assert_equal(c.x, 1.) - assert_equal(c.y, 1.) - assert_equal(c.i, 1.) - assert_equal(c.j, 1.) + assert c.x == 1.0 + assert c.y == 1.0 + assert c.i == 1.0 + assert c.j == 1.0 def test_coordstmt_string(): - cs = CoordStmt('G04', 0, 1, 2, 3, 'D01', FileSettings()) - assert_equal(str(cs), - '<Coordinate Statement: Fn: G04 X: 0 Y: 1 I: 2 J: 3 Op: Lights On>') - cs = CoordStmt('G04', None, None, None, None, 'D02', FileSettings()) - assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: Lights Off>') - cs = CoordStmt('G04', None, None, None, None, 'D03', FileSettings()) - assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: Flash>') - cs = CoordStmt('G04', None, None, None, None, 'TEST', FileSettings()) - assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: TEST>') + cs = CoordStmt("G04", 0, 1, 2, 3, "D01", FileSettings()) + assert ( + str(cs) == "<Coordinate Statement: Fn: G04 X: 0 Y: 1 I: 2 J: 3 Op: Lights On>" + ) + cs = CoordStmt("G04", None, None, None, None, "D02", FileSettings()) + assert str(cs) == "<Coordinate Statement: Fn: G04 Op: Lights Off>" + cs = CoordStmt("G04", None, None, None, None, "D03", FileSettings()) + assert str(cs) == "<Coordinate Statement: Fn: G04 Op: Flash>" + cs = CoordStmt("G04", None, None, None, None, "TEST", FileSettings()) + assert str(cs) == "<Coordinate Statement: Fn: G04 Op: TEST>" def test_aperturestmt_ctor(): ast = ApertureStmt(3, False) - assert_equal(ast.d, 3) - assert_equal(ast.deprecated, False) + assert ast.d == 3 + assert ast.deprecated == False ast = ApertureStmt(4, True) - assert_equal(ast.d, 4) - assert_equal(ast.deprecated, True) + assert ast.d == 4 + assert ast.deprecated == True ast = ApertureStmt(4, 1) - assert_equal(ast.d, 4) - assert_equal(ast.deprecated, True) + assert ast.d == 4 + assert ast.deprecated == True ast = ApertureStmt(3) - assert_equal(ast.d, 3) - assert_equal(ast.deprecated, False) + assert ast.d == 3 + assert ast.deprecated == False def test_aperturestmt_dump(): ast = ApertureStmt(3, False) - assert_equal(ast.to_gerber(), 'D3*') + assert ast.to_gerber() == "D3*" ast = ApertureStmt(3, True) - assert_equal(ast.to_gerber(), 'G54D3*') - assert_equal(str(ast), '<Aperture: 3>') + assert ast.to_gerber() == "G54D3*" + assert str(ast) == "<Aperture: 3>" |