# # Miscellaneous neat things you can do using the string variables code # set print "stringvar.tmp" print "" print "Exercise substring handling" print "" beg = 2 end = 4 print "beg = ",beg," end = ",end foo = "ABCDEF" print "foo = ",foo print "foo[3:5] = ",foo[3:5] print "foo[1:1] = ",foo[1:1] print "foo[5:3] = ",foo[5:3] print "foo[beg:end] = ",foo[beg:end] print "foo[end:beg] = ",foo[end:beg] print "foo[5:] = ",foo[5:] print "foo[5:*] = ",foo[5:*] print "foo[:] = ",foo[:] print "foo[*:*] = ",foo[*:*] print "foo.foo[2:2] = ",foo.foo[2:2] print "(foo.foo)[2:2]= ",(foo.foo)[2:2] print "" print "foo[1:1] eq 'A' && foo[2:2] ne 'X' = ", \ (foo[1:1] eq 'A' && foo[2:2] ne 'X') ? "true" : "false" unset print set label 1 system("cat stringvar.tmp") at graph 0.1, graph 0.9 unset xtics unset ytics set yrange [0:1] plot 0 |
set print "stringvar.tmp" print "Exercise string handling functions" print "" print "foo = ",foo print "strlen(foo) = ",strlen(foo) print "substr(foo,3,4) = ",substr(foo,3,4) print "" haystack = "`date`" needle = ":" S = strstrt(haystack,needle) print "haystack = \`date\`" print "haystack = ",haystack print "needle = ",needle print "S = strstrt(haystack,needle) = ",S print "haystack[S-2:S+2] = ",haystack[S-2:S+2] print "It is now " . haystack[S-2:S+2] # print "" print "words(haystack) = ",words(haystack) print "word(haystack,5) = ",word(haystack,5) # print "" # foo = sprintf("%40d %40d %40d %40d %40d %40d",1,2,3,4,5,6) if (strlen(foo) == 245) print "sprintf output of long strings works OK" if (strlen(foo) != 245) print "sprintf output of long strings BROKEN" print "" unset print set label 1 system("cat stringvar.tmp") at graph 0.1, graph 0.9 unset xtics unset ytics set yrange [0:1] plot 0 |
reset # set xrange [300:400] set title "String-valued expression in using spec" plot 'silver.dat' using 1:2 with linespoints notitle, \ '' using 1:2:(sprintf("[%.0f,%.0f]",$1,$2)) with labels # |
# set xrange [0:1] set yrange [0:1] set title "Constant string expressions as plot symbols" set xrange [250:500] set auto y set style data lines plot 'silver.dat' u 1:2:($3+$1/50.) w filledcurves above title 'Above', \ '' u 1:2:($3+$1/50.) w filledcurves below title 'Below', \ '' u 1:2 lt -1 lw 0.5 notitle, \ '' u 1:($3+$1/50.) lt 3 lw 0.5 notitle, \ '' using 1:2:( ($2>($3+$1/50.)) ? "Up" : "Dn" ) with labels \ title 'plot <foo> using 1:2:( ($3>$2) ? "Up" : "Dn" ) with labels' # |
# plot 'silver.dat' \ u 1:2 lt -1 lw 0.5 notitle, \ '' u 1:($3+$1/50.) lt 3 lw 0.5 notitle, \ '' using 1:2:( ($2>($3+$1/50.)) ? "J" : "D" ) with labels font "WingDings,28"\ title 'Same thing using character glyphs from WingDings font' # |
# reset set title "String-valued functions to generate datafile names" set key title 'file(i) = sprintf("%1d.dat",i); N=2; M=3' set key left width 25 Left reverse N = 2 M = 3 file(i) = sprintf("%1d.dat",i) plot 5*sin(x)/x, file(N), file(M) # |
# reset fmt = '%Y-%m-%d %H:%M:%S' time_str = '2005-05-09 19:44:12' seconds = strptime(fmt, time_str) time_str2 = strftime(fmt, seconds+10.) print '' print 'time_str = "', time_str, '"' print '-> seconds = ', seconds print ' seconds + 10. = ', seconds+10. print '-> time_str2 = "', time_str2, '"' # print "" # set xdata time set key inside left #set format x '%Y-%m-%d' fmt = "%d/%m/%y\t%H%M" print "read_time(fmt, c) =" \ . " strptime(fmt, stringcolumn(c).' '.stringcolumn(c+1))" read_time(fmt, c) = strptime(fmt, stringcolumn(c).' '.stringcolumn(c+1)) plot 'timedat.dat' using (read_time(fmt,1)):3 with histeps, \ 'timedat.dat' using (read_time(fmt,1)):($3-0.01):2 with labels title '' # print "" |
# reset |