#!/usr/bin/env python # -*- coding: utf-8; -*- # 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 * x = [0.5] y = [0.5] title = [ "Large Circle + Light Diagonal Cross with plptex", "UTF-8 plus", "UTF-8 squared plus", "UTF-8 heavy plus", "UTF-8 minus", "UTF-8 squared minus", "UTF-8 heavy minus", "UTF-8 times", "UTF-8 squared times", "UTF-8 heavy multiplication x", "UTF-8 number sign", "UTF-8 full-width number sign", "UTF-8 asterisk", "UTF-8 four teardrop-spoked asterisk", "UTF-8 8-spoked asterisk", "UTF-8 asterisk operator", "UTF-8 Asterisk operator with plptex", "Plplot Encoded Unicode Indexed Asterisk operator with plptex", "Plplot Encoded Hershey Indexed Asterisk operator with plptex", "Hershey Asterisk operator with plsym", "Hershey Asterisk operator with plpoin", "Plplot Encoded Hershey Indexed Asterisk operator with plstring", ] ifunicode = True # Parse and process command line arguments w.plparseopts(sys.argv, w.PL_PARSE_FULL) # Initialize plplot w.plinit() for kind in range(len(title)): w.pladv(0) w.plvpor(0.1, 0.9, 0.1, 0.9) w.plwind(0., 1., 0., 1.) # Just to show edges of viewport w.plcol0(1) w.plbox("bc", 0., 0, "bc", 0., 0) w.plcol0(2) w.plschr(0., 1.) w.plmtex("t", 1., 0.5, 0.5, title[kind]) k=0 for size in 2.**arange(2,-3,-1): k+=1 w.plcol0(k) if kind==0: if ifunicode: w.plschr(0., 4.*size) # LARGE CIRCLE has a centre of symmetry which is about one-eighth the # radius below the centre of symmetry of the box for DejaVu Sans. w.plptex(0.5, 0.5, 1., 0., 0.5, "#[0x25ef]") # BOX DRAWINGS LIGHT DIAGONAL CROSS is one of the best centred symmetrical # glyphs I have found using gucharmap for DejaVu Sans. w.plptex(0.5, 0.5, 1., 0., 0.5, "#[0x2573]") else: w.plschr(0., 4.*size) # Large circle via Hershey fonts. w.plptex(0.5, 0.5, 1., 0., 0.5, "#(907)") elif kind ==1: # Print a utf-8 plus w.plschr(0., 16.*size) w.plstring(x, y, "+") elif kind ==2: # Print a utf-8 squared plus w.plschr(0., 16.*size) w.plstring(x, y, "⊞") elif kind ==3: # Print a utf-8 heavy plus w.plschr(0., 16.*size) w.plstring(x, y, "➕") elif kind ==4: # Print a utf-8 minus w.plschr(0., 16.*size) w.plstring(x, y, "-") elif kind ==5: # Print a utf-8 squared minus w.plschr(0., 16.*size) w.plstring(x, y, "⊟") elif kind ==6: # Print a utf-8 heay minus w.plschr(0., 16.*size) w.plstring(x, y, "➖") elif kind ==7: # Print a utf-8 times w.plschr(0., 16.*size) w.plstring(x, y, "×") elif kind ==8: # Print a utf-8 squared times w.plschr(0., 16.*size) w.plstring(x, y, "⊠") elif kind ==9: # Print a utf-8 heavy multiplication x w.plschr(0., 16.*size) w.plstring(x, y, "✖") elif kind ==10: # Print a utf-8 number sign w.plschr(0., 16.*size) w.plstring(x, y, "##") elif kind ==11: # Print a utf-8 full-width number sign w.plschr(0., 16.*size) w.plstring(x, y, "#") elif kind ==12: # Print a utf-8 asterisk w.plschr(0., 16.*size) w.plstring(x, y, "*") elif kind ==13: # Print a utf-8 four teardrop-spoked asterisk w.plschr(0., 16.*size) w.plstring(x, y, "✢" ) elif kind ==14: # Print a utf-8 8-spoked asterisk w.plschr(0., 16.*size) w.plstring(x, y, "✳") elif kind ==15: # Print a utf-8 asterisk operator w.plschr(0., 16.*size) w.plstring(x, y, "∗") elif kind ==16: # Print a utf-8 asterisk operator using w.plptex w.plschr(0., 16.*size) w.plptex(0.5, 0.5, 1., 0., 0.5, "∗") elif kind ==17: # Print a (PLplot encoded) unicode indexed asterisk operator using w.plptex w.plschr(0., 16.*size) w.plptex(0.5, 0.5, 1., 0., 0.5, "#[0x2217]") elif kind ==18: # Print a (PLplot encoded) Hershey indexed asterisk operator using w.plptex w.plschr(0., 16.*size) w.plptex(0.5, 0.5, 1., 0., 0.5, "#(728)") elif kind ==19: # Print an asterisk operator using w.plsym w.plssym(0., 16.*size) w.plsym(x, y, 728) elif kind ==20: # Print an asterisk operator using w.plpoin w.plssym(0., 16.*size) w.plpoin(x, y, 3) elif kind ==21: # Print a (PLplot encoded) Hershey indexed asterisk operator using w.plstring w.plschr(0., 16.*size) w.plstring(x, y, "#(728)") else: print("missing kind value: bad code") # Terminate plplot w.plend()