Ejemplo n.º 1
0
 def testDec(self):
     ticks = [tick((1, 4), labellevel=0), tick((2, 4), labellevel=0)]
     decimal().labels(ticks)
     self.assertEqual([t.label for t in ticks], ["0.25", "0.5"])
     ticks = [tick((1, 4), labellevel=0), tick((2, 4), labellevel=0)]
     decimal(equalprecision=1).labels(ticks)
     self.assertEqual([t.label for t in ticks], ["0.25", "0.50"])
     ticks = [tick((1, 17), labellevel=0), tick((17, 17), labellevel=0)]
     decimal().labels(ticks)
     self.assertEqual([t.label for t in ticks],
                      [r"0.\overline{0588235294117647}", "1"])
     ticks = [
         tick((1, 10000000), labellevel=0),
         tick((1, 100000000), labellevel=0),
         tick((1, 1000000000), labellevel=0)
     ]
     decimal(thousandthpartsep=",").labels(ticks)
     self.assertEqual([t.label for t in ticks],
                      ["0.000,000,1", "0.000,000,01", "0.000,000,001"])
     ticks = [
         tick((1000000, 1), labellevel=0),
         tick((10000000, 1), labellevel=0),
         tick((100000000, 1), labellevel=0)
     ]
     decimal(thousandsep=",").labels(ticks)
     self.assertEqual([t.label for t in ticks],
                      ["1,000,000", "10,000,000", "100,000,000"])
Ejemplo n.º 2
0
 def testDefault(self):
     ticks = [
         tick((0, 10), labellevel=0),
         tick((1, 10), labellevel=0),
         tick((1, 1), labellevel=0),
         tick((10, 1), labellevel=0)
     ]
     default().labels(ticks)
     self.assertEqual([tex_expr(t.label) for t in ticks],
                      ["0", "0.1", "1", "10"])
     ticks = [
         tick((0, 10), labellevel=0),
         tick((1, 10), labellevel=0),
         tick((1, 1), labellevel=0),
         tick((10000, 1), labellevel=0)
     ]
     default(minexponent=1,
             skipmantissaunity=skipmantissaunity.never,
             uniformexponent=False).labels(ticks)
     self.assertEqual([tex_expr(t.label) for t in ticks],
                      [r"0", r"1\cdot{}10^{-1}", r"1", r"1\cdot{}10^{4}"])
     ticks = [
         tick((0, 10), labellevel=0),
         tick((1, 10), labellevel=0),
         tick((1, 1), labellevel=0),
         tick((10000, 1), labellevel=0)
     ]
     default(minexponent=2, uniformexponent=False).labels(ticks)
     self.assertEqual([tex_expr(t.label) for t in ticks],
                      ["0", "0.1", "1", r"10^{4}"])
     ticks = [
         tick((-1, 10), labellevel=0),
         tick((1, 1), labellevel=0),
         tick((10, 1), labellevel=0)
     ]
     default(minexponent=0).labels(ticks)
     self.assertEqual([tex_expr(t.label) for t in ticks],
                      [r"-10^{-1}", r"10^{0}", r"10^{1}"])
     ticks = [
         tick((0, 1), labellevel=0),
         tick((1, -10), labellevel=0),
         tick((15, 100), labellevel=0)
     ]
     default(minnegexponent=0,
             mantissatexter=decimal(equalprecision=True)).labels(ticks)
     self.assertEqual(
         [tex_expr(t.label) for t in ticks],
         [r"0.0\cdot{}10^{0}", r"-1.0\cdot{}10^{-1}", r"1.5\cdot{}10^{-1}"])
     ticks = [
         tick((0, 1), labellevel=0),
         tick((1, -10), labellevel=0),
         tick((15, 100), labellevel=0)
     ]
     default(minnegexponent=1,
             mantissatexter=decimal(equalprecision=True)).labels(ticks)
     self.assertEqual([tex_expr(t.label) for t in ticks],
                      [r"0.0", r"-1.0\cdot{}10^{-1}", r"1.5\cdot{}10^{-1}"])
Ejemplo n.º 3
0
 def testExp(self):
     ticks = [tick((-1, 10), labellevel=0), tick((1, 1), labellevel=0), tick((10, 1), labellevel=0)]
     exponential().labels(ticks)
     self.assertEqual([t.label for t in ticks], [r"{-10^{-1}}", r"{10^{0}}", r"{10^{1}}"])
     ticks = [tick((0, 1), labellevel=0), tick((1, -10), labellevel=0), tick((15, 100), labellevel=0)]
     exponential(mantissatexter=decimal(equalprecision=1)).labels(ticks)
     self.assertEqual([t.label for t in ticks], [r"{0.0}", r"{{-1.0}\cdot10^{-1}}", r"{{1.5}\cdot10^{-1}}"])
Ejemplo n.º 4
0
 def testDec(self):
     ticks = [tick((1, 4), labellevel=0), tick((2, 4), labellevel=0)]
     decimal().labels(ticks)
     self.assertEqual([t.label for t in ticks], ["0.25", "0.5"])
     ticks = [tick((1, 4), labellevel=0), tick((2, 4), labellevel=0)]
     decimal(equalprecision=1).labels(ticks)
     self.assertEqual([t.label for t in ticks], ["0.25", "0.50"])
     ticks = [tick((1, 17), labellevel=0), tick((17, 17), labellevel=0)]
     decimal().labels(ticks)
     self.assertEqual([t.label for t in ticks], [r"0.\overline{0588235294117647}", "1"])
     ticks = [tick((1, 10000000), labellevel=0), tick((1, 100000000), labellevel=0), tick((1, 1000000000), labellevel=0)]
     decimal(thousandthpartsep=",").labels(ticks)
     self.assertEqual([t.label for t in ticks], ["0.000,000,1", "0.000,000,01", "0.000,000,001"])
     ticks = [tick((1000000, 1), labellevel=0), tick((10000000, 1), labellevel=0), tick((100000000, 1), labellevel=0)]
     decimal(thousandsep=",").labels(ticks)
     self.assertEqual([t.label for t in ticks], ["1,000,000", "10,000,000", "100,000,000"])
Ejemplo n.º 5
0
from pyxcandy import read_dat, ssdata, ssplot

text.set(cls=text.LatexRunner, texenc='utf-8')
text.preamble(r'\usepackage[utf8]{inputenc}')
text.preamble(r'\usepackage{textgreek}')
text.preamble(r'\usepackage{fixltx2e}')
text.preamble(r'\usepackage{libertine}')
text.preamble(r'\renewcommand{\familydefault}{\sfdefault}')
text.preamble(r'\usepackage{sansmath}')

g = graph.graphxy(
    width=5.0,
    height=1.2,
    x=axis.linear(min=1,
                  max=269,
                  texter=texter.decimal(labelattrs=[text.clearmathmode]),
                  title="TN residue"),
    y=axis.linear(min=0.0,
                  parter=parter.linear(tickdists=[4.0, 2.0]),
                  max=8.0,
                  texter=texter.decimal(labelattrs=[text.clearmathmode]),
                  title=r"RMSF ± std (Å)"))

resid, rmsf_mean, rmsf_std = read_dat("rmsf.dat", [int, float, float])

g.plot(data.values(x=resid, y=rmsf_mean), [graph.style.line()])

ss = [line.strip() for line in open("ss.dat")]

ssplot(g, ssdata(ss))