def test_vcs_read_yx_scr(self): testfile = os.path.join(os.path.dirname(__file__), "share", "read_yxvsx.scr") vcs.scriptrun(testfile) self.assertTrue("testyx" in vcs.listelements("yxvsx")) y = vcs.getyxvsx("testyx") self.assertEqual(y.datawc_x1, -50.) self.assertEqual(y.datawc_x2, 20.) self.assertEqual(y.datawc_y1, 50.) self.assertEqual(y.datawc_timeunits, "days since 2100") self.assertEqual(y.datawc_calendar, 135441) self.assertEqual(y.xaxisconvert, "log10") self.assertEqual(y.yaxisconvert, "area_wt") self.assertEqual(y.linetype, "dash") self.assertEqual(y.linecolor, [0.0, 0.0, 0.0, 100.0]) self.assertEqual(y.linewidth, 1) self.assertEqual(y.marker, "circle") self.assertEqual(y.markercolor, [0.0, 0.0, 0.0, 100.0]) self.assertEqual(y.markersize, 1) self.assertEqual(y.flip, False)
def test_vcs_read_old_scr(self): testfile = os.path.join("uvcdat-testdata", "data", "vcs", "old.scr") Ns = {} for k in vcs.elements.keys(): Ns[k] = len(vcs.elements[k].keys()) vcs.scriptrun(testfile) Ns2 = {} for k in vcs.elements.keys(): Ns2[k] = len(vcs.elements[k].keys()) diffs = { 'projection': 0, 'colormap': 53, 'isofill': 187, 'marker': 0, '3d_dual_scalar': 0, 'texttable': 4, '3d_scalar': 0, 'fillarea': 234, 'font': 0, '3d_vector': 0, '1d': 9, 'template': 43, 'textcombined': 0, 'textorientation': 3, 'xvsy': 0, 'xyvsy': 0, 'isoline': 113, 'boxfill': 239, 'fontNumber': 0, 'line': 21, 'meshfill': 0, 'yxvsx': 9, 'taylordiagram': 0, 'list': 26, 'display': 0, 'vector': 55, 'scatter': 0, "streamline": 0 } for k in vcs.elements.keys(): print "---Checking number of new elements for", k self.assertEqual(diffs[k], Ns2[k] - Ns[k]) gm = vcs.getisofill("pr_time_lat_1") self.assertEqual(gm.ymtics1, "lat5") self.assertTrue(gm.ext_2) self.assertEqual(gm.fillareastyle, "solid") self.assertEqual( gm.fillareacolors, [240, 240, 240, 28, 27, 26, 25, 23, 22, 21, 20, 19, 18, 16]) gm = vcs.getboxfill("lon_lat_mjop05") self.assertEqual(gm.xmtics1, "lon5") self.assertEqual(gm.yticlabels1, "lat20") self.assertEqual(gm.datawc_x1, 30) self.assertEqual(gm.datawc_x2, 210.) self.assertEqual(gm.datawc_y1, -30) self.assertEqual(gm.datawc_y2, 30.) self.assertEqual(gm.level_1, -0.05) self.assertEqual(gm.level_2, 0.05) self.assertEqual(gm.color_1, 18) self.assertEqual(gm.color_2, 219) gm = vcs.getline("red_solid") self.assertEqual(gm.type, ['solid']) self.assertEqual(gm.color, [242]) self.assertEqual(gm.width, [2.0]) gm = vcs.getyxvsx("pr_lsfit_lat") self.assertEqual(gm.xmtics1, "lat5") self.assertEqual(gm.linecolor, 242) self.assertEqual(gm.linewidth, 2.) self.assertEqual(gm.datawc_x1, 30) self.assertEqual(gm.datawc_x2, -30.) self.assertEqual(gm.datawc_y1, -5.) self.assertEqual(gm.datawc_y2, 5.) gm = vcs.getisoline("div_anom") self.assertEqual(gm.xmtics1, "lon5") self.assertEqual(gm.xticlabels1, "lon15") self.assertEqual(gm.linetypes, [ 'dash', 'dash', 'dash', 'dash', 'solid', 'dash', 'dash', 'dash', 'solid', 'solid', 'solid', 'solid', 'solid', 'solid', 'solid', 'solid', 'solid' ]) self.assertEqual(gm.linecolors, [ 241, 241, 241, 241, 242, 241, 241, 241, 1, 1, 1, 1, 1, 1, 1, 1, 1 ]) self.assertEqual(gm.linewidths, [ 1.0, 1.0, 1.0, 1.0, 2.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 ]) gm = vcs.getvector("lon_lat_IO_5") self.assertEqual(gm.xmtics1, "lon5") self.assertEqual(gm.xticlabels1, "lon20") self.assertEqual(gm.linecolor, 242) self.assertEqual(gm.linewidth, 2.) self.assertEqual(gm.scale, 3) self.assertEqual(gm.reference, 5)
import vcs, sys vcs.scriptrun(sys.argv[1]) assert ("testyx" in vcs.listelements("yxvsx")) y = vcs.getyxvsx("testyx") assert (y.datawc_x1 == -50.) assert (y.datawc_x2 == 20.) assert (y.datawc_y1 == 50.) assert (y.datawc_timeunits == "days since 2100") assert (y.datawc_calendar == 135441) assert (y.xaxisconvert == "log10") assert (y.yaxisconvert == "area_wt") assert (y.line == "dash") assert (y.linecolor == 241) assert (y.linewidth == 1) assert (y.marker == "circle") assert (y.markercolor == 241) assert (y.markersize == 1) assert (y.flip == False)
import vcs,sys vcs.scriptrun(sys.argv[1]) assert("testyx" in vcs.listelements("yxvsx")) y = vcs.getyxvsx("testyx") assert(y.datawc_x1 == -50.) assert(y.datawc_x2 == 20.) assert(y.datawc_y1 == 50.) assert(y.datawc_timeunits == "days since 2100") assert(y.datawc_calendar == 135441) assert(y.xaxisconvert == "log10") assert(y.yaxisconvert == "area_wt") assert(y.line == "dash") assert(y.linecolor == 241) assert(y.linewidth == 1) assert(y.marker == "circle") assert(y.markercolor == 241) assert(y.markersize == 1) assert(y.flip == False)
import vcs o = vcs.createyxvsx() O = vcs.getyxvsx(o.name) O2 = vcs.createyxvsx(None,o.name)