import pytest from shapely import Point, Polygon from shapely.geos import geos_version def test_format_invalid(): # check invalid spec formats pt = Point(1, 2) test_list = [ ("5G", ValueError, "invalid format specifier"), (".f", ValueError, "invalid format specifier"), ("0.2e", ValueError, "invalid format specifier"), (".1x", ValueError, "hex representation does not specify precision"), ] for format_spec, err, match in test_list: with pytest.raises(err, match=match): format(pt, format_spec) def test_format_point(): # example coordinate data xy1 = (0.12345678901234567, 1.2345678901234567e10) xy2 = (-169.910918, -18.997564) xyz3 = (630084, 4833438, 76) # list of tuples to test; see structure at top of the for-loop test_list = [ (".0f", xy1, "POINT (0 12345678901)", True), (".1f", xy1, "POINT (0.1 12345678901.2)", True), ("0.2f", xy2, "POINT (-169.91 -19.00)", True), (".3F", (float("inf"), -float("inf")), "POINT (INF -INF)", True), ] if geos_version < (3, 10, 0): # 'g' format varies depending on GEOS version test_list += [ (".1g", xy1, "POINT (0.1 1e+10)", True), (".6G", xy1, "POINT (0.123457 1.23457E+10)", True), ("0.12g", xy1, "POINT (0.123456789012 12345678901.2)", True), ("0.4g", xy2, "POINT (-169.9 -19)", True), ] else: test_list += [ (".1g", xy1, "POINT (0.1 12345678901.2)", False), (".6G", xy1, "POINT (0.123457 12345678901.234568)", False), ("0.12g", xy1, "POINT (0.123456789012 12345678901.234568)", False), ("g", xy2, "POINT (-169.910918 -18.997564)", False), ("0.2g", xy2, "POINT (-169.91 -19)", False), ] # without precsions test GEOS rounding_precision=-1; different than Python test_list += [ ("f", (1, 2), f"POINT ({1:.16f} {2:.16f})", False), ("F", xyz3, "POINT Z ({:.16f} {:.16f} {:.16f})".format(*xyz3), False), ("g", xyz3, "POINT Z (630084 4833438 76)", False), ] for format_spec, coords, expt_wkt, same_python_float in test_list: pt = Point(*coords) # basic checks assert f"{pt}" == pt.wkt assert format(pt, "") == pt.wkt assert format(pt, "x") == pt.wkb_hex.lower() assert format(pt, "X") == pt.wkb_hex # check formatted WKT to expected assert format(pt, format_spec) == expt_wkt, format_spec # check Python's format consistency text_coords = expt_wkt[expt_wkt.index("(") + 1 : expt_wkt.index(")")] is_same = [] for coord, expt_coord in zip(coords, text_coords.split()): py_fmt_float = format(float(coord), format_spec) if same_python_float: assert py_fmt_float == expt_coord, format_spec else: is_same.append(py_fmt_float == expt_coord) if not same_python_float: assert not all(is_same), f"{format_spec!r} with {expt_wkt}" def test_format_polygon(): # check basic cases poly = Point(0, 0).buffer(10, 2) assert f"{poly}" == poly.wkt assert format(poly, "") == poly.wkt assert format(poly, "x") == poly.wkb_hex.lower() assert format(poly, "X") == poly.wkb_hex # Use f-strings with extra characters and rounding precision assert f"<{poly:.2f}>" == ( "" ) # 'g' format varies depending on GEOS version if geos_version < (3, 10, 0): expected_2G = ( "POLYGON ((10 0, 7.1 -7.1, 1.6E-14 -10, -7.1 -7.1, " "-10 -3.2E-14, -7.1 7.1, -4.6E-14 10, 7.1 7.1, 10 0))" ) else: expected_2G = ( "POLYGON ((10 0, 7.07 -7.07, 0 -10, -7.07 -7.07, " "-10 0, -7.07 7.07, 0 10, 7.07 7.07, 10 0))" ) assert f"{poly:.2G}" == expected_2G # check empty empty = Polygon() assert f"{empty}" == "POLYGON EMPTY" assert format(empty, "") == empty.wkt assert format(empty, ".2G") == empty.wkt assert format(empty, "x") == empty.wkb_hex.lower() assert format(empty, "X") == empty.wkb_hex