# $Id: xw08.py 11680 2011-03-27 17:57:51Z airwin $ # xw08.py PLplot demo for Python # # Copyright (C) 2004 Alan W. Irwin # # This file is part of PLplot. # # PLplot is free software; you can redistribute it and/or modify # it under the terms of the GNU Library General Public License as published # by the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # PLplot is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Library General Public License for more details. # # You should have received a copy of the GNU Library General Public License # along with PLplot; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA from plplot_py_demos import * XPTS = 35 # Data points in x YPTS = 46 # Data points in y alt = [60.0, 20.0] az = [30.0, 60.0] title = ["#frPLplot Example 8 - Alt=60, Az=30", "#frPLplot Example 8 - Alt=20, Az=60"] # Routine for restoring colour map1 to default. # See static void plcmap1_def(void) in plctrl.c for reference. def restore_cmap1(): # For center control points, pick black or white, whichever is closer to bg # Be careful to pick just short of top or bottom else hue info is lost vertex = sum(array(plgcolbg()))/(3.*255.) if vertex < 0.5: vertex = 0.01 midpt = 0.10 else: vertex = 0.99 midpt = 0.90 # Independent variable of control points. i = array((0., 0.44, 0.50, 0.50, 0.56, 1.)) # Hue for control points. Blue-violet to red h = array((260., 260., 260., 0., 0., 0.)) # Lightness ranging from medium to vertex to medium l = array((0.5, midpt, vertex, vertex, midpt, 0.5)) # Saturation is complete for default s = array((1., 1., 1., 1., 1., 1.)) # Default number of cmap1 colours plscmap1n(128) # Interpolate between control points to set up default cmap1. plscmap1l(0, i, h, l, s) # Routine for defining a specific color map 1 in HLS space. # if gray is true, use basic grayscale variation from half-dark to light. # otherwise use false color variation from blue (240 deg) to red (360 deg). def cmap1_init(gray): # Independent variable of control points. i = array((0., 1.)) if gray: # Hue for control points. Doesn't matter since saturation is zero. h = array((0., 0.)) # Lightness ranging from half-dark (for interest) to light. l = array((0.5, 1.)) # Gray scale has zero saturation s = array((0., 0.)) else: # Hue ranges from blue (240 deg) to red (0 or 360 deg) h = array((240., 0.)) # Lightness and saturation are constant (values taken from C example). l = array((0.6, 0.6)) s = array((0.8, 0.8)) # number of cmap1 colours is 256 in this case. plscmap1n(256) # Interpolate between control points to set up cmap1. plscmap1l(0, i, h, l, s) # main # # Does a series of 3-d plots for a given data set, with different # viewing options in each plot. def main(): rosen = 1 x = (arange(XPTS) - (XPTS / 2)) / float(XPTS / 2) y = (arange(YPTS) - (YPTS / 2)) / float(YPTS / 2) if rosen == 1: x = 1.5*x y = 0.5 + y x.shape = (-1,1) r2 = (x*x) + (y*y) if rosen == 1: 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))) else: z = exp(-r2)*cos((2.0*pi)*sqrt(r2)) x.shape = (-1,) zmin = min(z.flat) zmax = max(z.flat) nlevel = 10 step = (zmax-zmin)/(nlevel+1) clevel = zmin + step + arange(nlevel)*step pllightsource(1., 1., 1.) for k in range(2): for ifshade in range(4): pladv(0) plvpor(0.0, 1.0, 0.0, 0.9) plwind(-1.0, 1.0, -0.9, 1.1) plcol0(3) plmtex("t", 1.0, 0.5, 0.5, title[k]) plcol0(1) if rosen == 1: plw3d(1.0, 1.0, 1.0, -1.5, 1.5, -0.5, 1.5, zmin, zmax, alt[k], az[k]) else: plw3d(1.0, 1.0, 1.0, -1.0, 1.0, -1.0, 1.0, zmin, zmax, alt[k], az[k]) plbox3("bnstu", "x axis", 0.0, 0, "bnstu", "y axis", 0.0, 0, "bcdmnstuv", "z axis", 0.0, 0) plcol0(2) if ifshade == 0: # diffuse light surface plot. # set up modified gray scale cmap1. cmap1_init(1) plsurf3d(x, y, z, 0, ()) elif ifshade == 1: # magnitude colored plot. cmap1_init(0) plsurf3d(x, y, z, MAG_COLOR, ()) elif ifshade == 2: # magnitude colored plot with faceted squares cmap1_init(0) plsurf3d(x, y, z, MAG_COLOR | FACETED, ()) elif ifshade == 3: # magnitude colored plot with contours cmap1_init(0) plsurf3d(x, y, z, MAG_COLOR | SURF_CONT | BASE_CONT, clevel) # Restore defaults #plcol0(1) restore_cmap1() main()