def plot3(w):
# For the final graph we wish to override the default tick
# intervals, so do not use w.plenv
w.pladv(0)
# Use standard viewport, and define X range from 0 to 360
# degrees, Y range from -1.2 to 1.2.
w.plvsta()
w.plwind(0.0, 360.0, -1.2, 1.2)
# Draw a box with ticks spaced 60 degrees apart in X, and 0.2 in Y.
w.plcol0(1)
w.plbox("bcnst", 60.0, 2, "bcnstv", 0.2, 2)
# Superimpose a dashed line grid, with 1.5 mm marks and spaces.
w.plstyl([1500], [1500])
w.plcol0(2)
w.plbox("g", 30.0, 0, "g", 0.2, 0)
w.plstyl([], [])
w.plcol0(3)
w.pllab("Angle (degrees)", "sine", "#frPLplot Example 1 - Sine function")
x = 3.6 * arange(101)
y = sin((pi / 180.) * x)
w.plcol0(4)
w.plline(x, y)
w.plflush()
def plotCurves(self):
self.plot.clearWidget()
# 1st plot
indexes = numpy.arange(0, 360.1, 1.0)
sine = numpy.sin(indexes * 3.14159 / 180.0)
cosine = numpy.cos(indexes * 3.14159 / 180.0)
plplot.pladv(0)
plplot.plvpor(0.05, 0.95, 0.05, 0.45)
plplot.plwind(0.0, 360.0, -1.2, 1.2)
plplot.plcol0(2)
plplot.plbox("bcnst", 0., 0, "bcnst", 0., 0)
plplot.plcol0(1)
plplot.plwidth(2)
plplot.plline(indexes, sine)
plplot.plcol0(3)
plplot.plwidth(1)
plplot.pllsty(2)
plplot.plline(indexes, cosine)
plplot.pllsty(1)
plplot.plcol0(2)
plplot.plmtex("t", 1., 0.5, 0.5, "Sines")
# 2nd plot
indexes = numpy.arange(-1.0, 1.0, 0.01)
square = indexes * indexes
cubic = square * indexes
plplot.plvpor(0.05, 0.95, 0.55, 0.95)
plplot.plwind(-1., 1., -1., 1.)
plplot.plcol0(2)
plplot.plbox("bcnst", 0., 0, "bcnst", 0., 0)
plplot.plcol0(1)
plplot.plwidth(2)
plplot.plline(indexes, square)
plplot.plcol0(3)
plplot.plwidth(1)
plplot.pllsty(2)
plplot.plline(indexes, cubic)
plplot.pllsty(1)
plplot.plcol0(2)
plplot.plmtex("t", 1., 0.5, 0.5, "Square & Cubic")
self.update()
def main(w):
w.pladv(0)
w.plcol0(2)
w.plvpor(0.02, 0.98, 0.02, 0.90)
w.plwind(0.0, 1.0, 0.0, 1.0)
w.plsfci(0)
w.plschr(0., 2.5)
# The text is Genesis, Chapter 1 verse 3 in Hebrew.
w.plptex(0.5, 0.5, 1., 0., 0.5,
"וַיֹּאמֶר אֱלֹהִים יְהִי אוֹר וַיְהִי אוֹר וַיַּרְא")
w.plschr(0., 1.0)
# Restore defaults
w.plcol0(1)
def main(w):
FCI_COMBINATIONS = 30
w.plsfont(0, 0, 0)
for index_fci in range(0, FCI_COMBINATIONS):
family_index = index_fci % 5
style_index = (index_fci / 5) % 3
weight_index = ((index_fci / 5) / 3) % 2
title = "Type 1 glyphs for family = " + family[
family_index] + ", style = " + style[
style_index] + ", weight = " + weight[weight_index]
w.pladv(0)
# Set up viewport and window
w.plcol0(2)
w.plvpor(0.1, 1.0, 0.1, 0.9)
w.plwind(0.0, 1.0, 0.0, 1.0)
# Draw the grid using w.plbox
w.plbox("bcg", 1. / 16., 0, "bcg", 1. / 16., 0)
# Write the digits below the frame
w.plcol0(15)
for i in range(16):
w.plmtex("b", 1.5, ((i + 0.5) / 16.), 0.5, str(i))
k = 0
w.plmtex("t", 1.5, 0.5, 0.5, title)
for i in range(16):
# Write the digits to the left of the frame
w.plmtex("lv", 1.0, (1.0 - (i + 0.5) / 16.), 1.0, str(16 * i))
w.plsfont(family_index, style_index, weight_index)
for j in range(16):
x = (j + 0.5) / 16.
y = 1. - (i + 0.5) / 16
# Display the Type 1 glyph corresponding to k
glyph_string = unichr(k).encode('utf-8')
# Escape the escape.
if glyph_string == "#":
glyph_string = "##"
w.plptex(x, y, 1., 0., 0.5, glyph_string)
k = k + 1
w.plsfont(0, 0, 0)
def plotHistogram(self):
def plfbox(x0, y0):
x = numpy.array([x0, x0, x0 + 1.0, x0 + 1.0])
y = numpy.array([0.0, y0, y0, 0.0])
plplot.plfill(x, y)
plplot.plcol0(1)
plplot.pllsty(1)
plplot.plline(x, y)
self.plot.clearWidget();
y0 = numpy.array([5, 15, 12, 24, 28, 30, 20, 8, 12, 3])
pos = numpy.array([0.0, 0.25, 0.5, 0.75, 1.0])
red = numpy.array([0.0, 0.25, 0.5, 1.0, 1.0])
green = numpy.array([1.0, 0.5, 0.5, 0.5, 1.0])
blue = numpy.array([1.0, 1.0, 0.5, 0.25, 0.0])
plplot.pladv(0)
plplot.plvsta()
plplot.plcol0(2)
plplot.plwind(1980.0, 1990.0, 0.0, 35.0)
plplot.plbox("bc", 1.0, 0, "bcnv", 10.0, 0)
plplot.plcol0(2)
plplot.pllab("Year", "Widget Sales (millions)", "#frPLplot Example 12")
plplot.plscmap1l(1,pos,red,green,blue)
for i in range(10):
plplot.plcol1(i/9.0)
plplot.plpsty(0)
plfbox((1980. + i), y0[i])
string = "%.0f" % (y0[i])
plplot.plptex((1980. + i + .5), (y0[i] + 1.), 1.0, 0.0, .5, string)
string = "%d" % (1980 + i)
plplot.plmtex("b", 1.0, ((i + 1) * .1 - .05), 0.5, string)
self.update()
def main(w):
x = (arange(XPTS) - (XPTS / 2)) / float(XPTS / 2)
y = (arange(YPTS) - (YPTS / 2)) / float(YPTS / 2)
x = 1.5*x
y = 0.5 + y
x.shape = (-1,1)
r2 = (x*x) + (y*y)
z = (1. - x)*(1. - x) + 100 * (x*x - y)*(x*x - y)
# The log argument may be zero for just the right grid. */
z = log(choose(greater(z,0.), (exp(-5.), z)))
x.shape = (-1,)
zmin = min(z.flat)
zmax = max(z.flat)
nlevel = 10
step = (zmax-zmin)/(nlevel+1)
clevel = zmin + step + arange(nlevel)*step
w.plschr(0., 1.8)
w.plwidth(1)
w.pladv(0)
w.plvpor(0.0, 1.0, 0.0, 1.0)
w.plwind(-0.43, 0.840, 0.05, 0.48)
w.plcol0(1)
w.plw3d(1.0, 1.0, 1.0, -1.5, 1.5, -0.5, 1.5, zmin, zmax,
alt, az)
w.plbox3("bnstu", "", 0.0, 0,
"bnstu", "", 0.0, 0,
"bcdmnstuv", "", 0.0, 0)
# If converting the -dev svg result later with the ImageMagick
# "convert" application or viewing the svg result with the ImageMagick
# "display" application must compensate for the librsvg-2.22
# positioning bug since librsvg is what ImageMagick uses
# to interpret SVG results.
if_rsvg_bug = True
if if_rsvg_bug:
shift = 1.00
else:
shift = 1.07
w.plmtex3("zs", 5.0, shift, 1.0, "z axis")
w.plcol0(2)
# magnitude colored plot with faceted squares
cmap1_init(w, 0)
w.plsurf3d(x, y, z, w.MAG_COLOR | w.FACETED, ())
# Shading to provide a good background for legend.
x1 = 0.10
x2 = 0.8
w.plvpor(0.0, 1.0, 0.0, 1.0)
w.plwind(0.0, 1.0, 0.0, 1.0)
# Completely opaque from 0. to x1
w.plscol0a(15, 0, 0, 0, 1.0)
w.plcol0(15)
x=array([0., 0., x1, x1])
y=array([0., 1., 1., 0.])
w.plfill(x,y)
# Black transparent gradient.
pos = array([0.0, 1.0])
rcoord = array([0.0, 0.0])
gcoord = array([0.0, 0.0])
bcoord = array([0.0, 0.0])
acoord = array([1.0, 0.0])
rev = array([0, 0])
w.plscmap1n(2)
w.plscmap1la(1, pos, rcoord, gcoord, bcoord, acoord, rev)
x=array([x1, x1, x2, x2])
w.plgradient(x,y,0.)
# Logo Legend
w.plscol0a(15, 255, 255, 255, 1.0)
w.plcol0(15)
x1 = 0.03
w.plschr(0., 2.9)
w.plsfont(w.PL_FCI_SANS, w.PL_FCI_UPRIGHT, w.PL_FCI_BOLD)
w.plptex(x1, 0.57, 1.0, 0.0, 0.0, "PLplot")
w.plschr(0., 1.5)
w.plptex(x1, 0.30, 1.0, 0.0, 0.0,
"The ultimate in cross-platform plotting")
# Append to effective python path so that can find plplot modules.
from plplot_python_start import *
import sys
import plplot as w
from numpy import *
# Parse and process command line arguments
w.plparseopts(sys.argv, w.PL_PARSE_FULL)
# Initialize plplot
w.plinit()
# Like yellow lines better.
w.plcol0(2)
w.pladv(0)
w.plvpor(0.1, 0.9, 0.1, 0.9)
w.plwind(0., 1., 0., 1.)
x=0.*arange(2)
y=1.*arange(2)
w.plline(x,y)
x=0.1*arange(2)
y=0.5+0.*arange(2)
w.plline(x,y)
w.plschr(0., 4.)
#w.plmtex("l", 0., 0.5, 0.5, "#[0x00d7]#[0x00d7]#[0x00d7]#[0x00d7]#[0x00d7]#[0x00d7]#[0x00d7]")
w.plmtex("l", 0., 0.5, 0.5, "HHHHHHH")
# Terminate plplot
w.plend()
from plplot_python_start import *
import sys
import plplot as w
from numpy import *
# Parse and process command line arguments
w.plparseopts(sys.argv, w.PL_PARSE_FULL)
# Initialize plplot
w.plinit()
# Like yellow lines better.
w.plcol0(2)
w.pladv(0)
w.plvpor(0.2, 0.8, 0.2, 0.8)
w.plwind(0., 1., 0., 1.)
w.plbox("bc", 0., 0, "bc", 0., 0)
w.plptex(0.5, 0.8, 1., 0., 0.5, "X#d0#d#<italic/>1#d2#u3#u4#u5#u6#u7#u8#d9#d0#d1")
w.plptex(0.5, 0.8, 1., 0., 0.5, "X#u0#u#<italic/>1#u2#d3#d4#d5#d6#d7#d8#u9#u0#u1")
w.plptex(0.5, 0.6, 1., 0., 0.5, "#ga#uaa#gad#gdp#gr#gf#d, #ga#u#ga#gaad#gdp#gr#gf#d, B#ua#<italic/>a#gad#gdp#gr#gf#d, B#u#ga#gaad#gdp#gr#gf#d")
w.plptex(0.5, 0.4, 1., 0., 0.5, "#ga#daa#gad#gdp#gr#gf#u, #ga#d#ga#gaad#gdp#gr#gf#u, B#da#<italic/>a#gad#gdp#gr#gf#u, B#d#ga#gaad#gdp#gr#gf#u")
w.plptex(0.5, 0.2, 1., 0., 1.1, "B#uf#d, B#ur#d")
w.plptex(0.5, 0.2, 1., 0., -0.1, "B#df#u, B#dr#u")
w.pladv(0)
w.plvpor(0.2, 0.8, 0.2, 0.8)
w.plwind(0., 1.e-200, 0., 1.e-200)
w.plbox("bcmnt", 0., 0, "bcmntv", 0., 0)
# Some fiducial marks that show yoffset problems with the pdf device.
def main(w):
status = 0
# Test if device initialization screwed around with the preset
# compression parameter.
compression2 = w.plgcompression()
sys.stdout.write("Output various PLplot parameters\n")
sys.stdout.write("compression parameter = %d\n" % compression2)
if compression2 != compression1:
sys.stderr.write("plgcompression test failed\n")
status = 1
# Exercise w.plscolor, w.plscol0, w.plscmap1, and w.plscmap1a to make sure
# they work without any obvious error messages.
w.plscolor(1)
w.plscol0(1, 255, 0, 0)
r1 = [0, 255]
g1 = [255, 0]
b1 = [0, 0]
a1 = [1.0, 1.0]
w.plscmap1(r1, g1, b1)
w.plscmap1a(r1, g1, b1, a1)
level2 = w.plglevel()
sys.stdout.write("level parameter = %d\n" % level2)
if level2 != 1:
sys.stderr.write("plglevel test failed.\n")
status = 1
w.pladv(0)
xmin0, xmax0, ymin0, ymax0 = (0.01, 0.99, 0.02, 0.49)
w.plvpor(xmin0, xmax0, ymin0, ymax0)
(xmin, xmax, ymin, ymax) = w.plgvpd()
sys.stdout.write("plvpor: xmin, xmax, ymin, ymax = %f %f %f %f\n" %
(xmin, xmax, ymin, ymax))
if xmin != xmin0 or xmax != xmax0 or ymin != ymin0 or ymax != ymax0:
sys.stderr.write("plgvpd test failed\n")
status = 1
xmid = 0.5 * (xmin + xmax)
ymid = 0.5 * (ymin + ymax)
xmin0, xmax0, ymin0, ymax0 = (0.2, 0.3, 0.4, 0.5)
w.plwind(xmin0, xmax0, ymin0, ymax0)
(xmin, xmax, ymin, ymax) = w.plgvpw()
sys.stdout.write("plwind: xmin, xmax, ymin, ymax = %f %f %f %f\n" %
(xmin, xmax, ymin, ymax))
if xmin != xmin0 or xmax != xmax0 or ymin != ymin0 or ymax != ymax0:
sys.stderr.write("plgvpw test failed\n")
status = 1
# Get world coordinates for middle of viewport
(wx, wy, win) = w.plcalc_world(xmid, ymid)
sys.stdout.write("world parameters: wx, wy, win = %f %f %d\n" %
(wx, wy, win))
if abs(wx - 0.5 * (xmin + xmax)) > 1.0E-5 or abs(wy - 0.5 *
(ymin + ymax)) > 1.0E-5:
sys.stderr.write("plcalc_world test failed\n")
status = 1
# Retrieve and print the name of the output file (if any)
fnam = w.plgfnam()
if fnam == '':
sys.stdout.write("No output file name is set\n")
else:
sys.stdout.write("Output file name read\n")
sys.stderr.write("Output file name is %s\n" % fnam)
# Set and get the number of digits used to display axis labels
# Note digits is currently ignored in w.pls[xyz]ax and
# therefore it does not make sense to test the returned value.
w.plsxax(3, 0)
(digmax, digits) = w.plgxax()
sys.stdout.write("x axis parameters: digmax, digits = %d %d\n" %
(digmax, digits))
if digmax != 3:
sys.stderr.write("plgxax test failed\n")
status = 1
w.plsyax(4, 0)
(digmax, digits) = w.plgyax()
sys.stdout.write("y axis parameters: digmax, digits = %d %d\n" %
(digmax, digits))
if digmax != 4:
sys.stderr.write("plgyax test failed\n")
status = 1
w.plszax(5, 0)
(digmax, digits) = w.plgzax()
sys.stdout.write("z axis parameters: digmax, digits = %d %d\n" %
(digmax, digits))
if digmax != 5:
sys.stderr.write("plgzax test failed\n")
status = 1
(mar0, aspect0, jx0, jy0) = (0.05, w.PL_NOTSET, 0.1, 0.2)
w.plsdidev(mar0, aspect0, jx0, jy0)
(mar, aspect, jx, jy) = w.plgdidev()
sys.stdout.write(
"device-space window parameters: mar, aspect, jx, jy = %f %f %f %f\n" %
(mar, aspect, jx, jy))
if mar != mar0 or jx != jx0 or jy != jy0:
sys.stderr.write("plgdidev test failed\n")
status = 1
ori0 = 1.0
w.plsdiori(ori0)
ori = w.plgdiori()
sys.stdout.write("ori parameter = %f\n" % ori)
if ori != ori0:
sys.stderr.write("plgdiori test failed\n")
status = 1
(xmin0, ymin0, xmax0, ymax0) = (0.1, 0.2, 0.9, 0.8)
w.plsdiplt(xmin0, ymin0, xmax0, ymax0)
(xmin, ymin, xmax, ymax) = w.plgdiplt()
sys.stdout.write(
"plot-space window parameters: xmin, ymin, xmax, ymax = %f %f %f %f\n"
% (xmin, ymin, xmax, ymax))
if xmin != xmin0 or ymin != ymin0 or xmax != xmax0 or ymax != ymax0:
sys.stderr.write("plgdiplt test failed\n")
status = 1
(zxmin0, zymin0, zxmax0, zymax0) = (0.1, 0.1, 0.9, 0.9)
w.plsdiplz(zxmin0, zymin0, zxmax0, zymax0)
(zxmin, zymin, zxmax, zymax) = w.plgdiplt()
sys.stdout.write(
"zoomed plot-space window parameters: xmin, ymin, xmax, ymax = %f %f %f %f\n"
% (zxmin, zymin, zxmax, zymax))
if abs(zxmin - (xmin + (xmax - xmin) * zxmin0)) > 1.0E-5 or abs(
zymin - (ymin + (ymax - ymin) * zymin0)) > 1.0E-5 or abs(
zxmax - (xmin + (xmax - xmin) * zxmax0)) > 1.0E-5 or abs(
zymax - (ymin + (ymax - ymin) * zymax0)) > 1.0E-5:
sys.stderr.write("plsdiplz test failed\n")
status = 1
(r0, g0, b0) = (10, 20, 30)
w.plscolbg(r0, g0, b0)
(r, g, b) = w.plgcolbg()
sys.stdout.write("background colour parameters: r, g, b = %d %d %d\n" %
(r, g, b))
if r != r0 or g != g0 or b != b0:
sys.stderr.write("plgcolbg test failed\n")
status = 1
(r0, g0, b0, a0) = (20, 30, 40, 0.5)
w.plscolbga(r0, g0, b0, a0)
(r, g, b, a) = w.plgcolbga()
sys.stdout.write(
"background/transparency colour parameters: r, g, b, a = %d %d %d %f\n"
% (r, g, b, a))
if r != r0 or g != g0 or b != b0 or a != a0:
sys.stderr.write("plgcolbga test failed\n")
status = 1
# Restore defaults
# cmap0 default color palette.
w.plspal0("cmap0_default.pal")
# cmap1 default color palette.
w.plspal1("cmap1_default.pal", 1)
box_line_widths = zeros(nlegend, "int")
line_colors = zeros(nlegend, "int")
line_styles = zeros(nlegend, "int")
line_widths = zeros(nlegend, "int")
symbol_colors = zeros(nlegend, "int")
symbol_scales = zeros(nlegend)
symbol_numbers = zeros(nlegend, "int")
symbols = zeros(nlegend, "S100")
# Only specify legend data that are required according to the
# value of opt_array for that entry.
opt_base = w.PL_LEGEND_BACKGROUND | w.PL_LEGEND_BOUNDING_BOX | w.PL_LEGEND_TEXT_LEFT
w.pladv(0)
w.plvpor(0.1, 0.9, 0.1, 0.9)
w.plwind(xmin, xmax, ymin, ymax)
text_scale = 0.90
# Set up line legend entries with various styles
for i in range(nlegend):
opt_array[i] = w.PL_LEGEND_LINE
text[i] = "%s %d" % ("Line Style", i + 1)
text_colors[i] = 2
line_colors[i] = 2
line_styles[i] = i + 1
line_widths[i] = 1
opt = opt_base
w.plscol0a(15, 32, 32, 32, 0.70)
(legend_width, legend_height) = \
w.pllegend( opt, w.PL_POSITION_LEFT, 0., 0.,
#!/usr/bin/env python
# Append to effective python path so that can find plplot modules.
from plplot_python_start import *
import sys
import plplot as w
from numpy import *
# Parse and process command line arguments
w.plparseopts(sys.argv, w.PL_PARSE_FULL)
# Initialize plplot
w.plinit()
# Choose 5 here so there is room for non-exponential notation for an axis
# label of +0.08.
w.plsyax(5, 0)
w.pladv(0)
w.plvpor(0.1, 0.9, 0.1, 0.9)
w.plwind(0.00, 1.00, 0.00, 0.08)
w.plbox("bcnst", 0.0, 0, "bcnstv", 0.0, 0);
w.plend()
