def create_tex_best_count(countBest):
parse_functions.create_output_dir("output/tex-count/")
r = config_executor.restrictions['global']
for strategy in countBest:
texCountFile = "output/tex-count/" + strategy + ".tex"
parse_functions.removing_existing_file(texCountFile)
print("Creating text file: " + texCountFile)
f = open(texCountFile, 'w')
caption = ""
f.write(tex_code.packages)
f.write(tex_code.commands)
f.write(tex_code.header_count_best(strategy))
seg = r.segInf #1
while seg <= r.segSup:
length = r.lenInf
f.write(" & " + str(int(math.log(seg, 2))))
while length <= r.lenSup:
if (seg in countBest[strategy]):
if (length in countBest[strategy][seg]):
if (countBest[strategy][seg][length] == 0):
f.write(" & --")
else:
value = countBest[strategy][seg][length]
if (value >= 80):
boldValue = 0.6
else:
if (value >= 60):
boldValue = 0.5
else:
if (value >= 40):
boldValue = 0.4
else:
if (value >= 20):
boldValue = 0.3
else:
boldValue = 0.2
#f.write(" & \\bold"+ strategy + "{" + str(boldValue) + "}{\\ApplyGradient{" + str(value) + "}}")
f.write(" & \\bold{" + str(boldValue) +
"}{\\ApplyGradient{" + str(value) + "}}")
#f.write(" & \\ApplyGradient{" + str(value) + "}")
length *= 2
seg *= 2
f.write("\\\\ \n")
f.write(tex_code.tail)
f.close()
def create_tex_all_bests(countBest):
parse_functions.create_output_dir("output/")
texAllBestsFile = "output/all-bests.tex"
parse_functions.removing_existing_file(texAllBestsFile)
print("Creating text file: " + texAllBestsFile)
f = open(texAllBestsFile, 'w')
r = config_executor.restrictions['global']
f.write(tex_code.packages)
f.write(tex_code.commands)
f.write(tex_code.header_all_bests())
seg=r.segInf #1
while seg <= r.segSup:
length = r.lenInf
f.write(" & " + str(int(math.log(seg,2))))
while length <= r.lenSup:
f.write(" &")
if(length/seg <= 1):
f.write(" \\noTest")
else:
f.write(" \makecell{")
count = 0
for strategy in countBest:
if(seg in countBest[strategy]):
if(length in countBest[strategy][seg]):
if(countBest[strategy][seg][length] >= 1):
f.write(" \\" + strategy + "\\")
count += 1
if(count == 2):
#f.write(" \\\\ ")
count = 0
f.write(" }")
length *= 2
seg *= 2
f.write("\\\\ \\hhline{|*{2}{~}||*{13}{-}|} \n")
f.write(tex_code.tailAllBests)
f.close()
def create_tex_the_best(selectedBests, outputfile, caption):
parse_functions.create_output_dir("output/")
texTheBestFile = outputfile
parse_functions.removing_existing_file(texTheBestFile)
print("Creating text file: " + texTheBestFile)
f = open(texTheBestFile, 'w')
r = config_executor.restrictions['global']
f.write(tex_code.packages)
f.write(tex_code.commands)
f.write(tex_code.header_the_best(caption))
seg=r.segInf #1
while seg <= r.segSup:
length = r.lenInf
f.write(" & " + str(int(math.log(seg,2))))
while length <= r.lenSup:
if(length/seg <= 1):
f.write(' & \\noTest')
else:
f.write(' & \\' + selectedBests[seg][length])
length *= 2
seg *= 2
f.write("\\\\ \n")
f.write(tex_code.tailTheBest)
f.close()
def generate_multiple_scurves(scurves, outputdir): parse_functions.create_output_dir(outputdir) for strategy in scurves: create_scurve(scurves[strategy], outputdir + strategy + ".eps")