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cascade-coverage.py
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cascade-coverage.py
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#!/usr/bin/env python
from __future__ import print_function
import sys
import math
import cPickle
from os.path import split
from PIL import Image, ImageDraw, ImageFont
from coverage import coverage
cov = coverage()
cov.load()
total_statements = 0
total_missing = 0
total_files = 0
total_covered = 0
coverage_data = []
biggest_prefix = None
show_comments = True
#line_height = 12 # maybe "box_size" or "statement_size" or similar? it's width too
line_height = 3
#line_height = 2
for fname in cov.data.measured_files():
if len(sys.argv) > 1:
match = False
for arg in sys.argv[1:]:
if arg in fname:
match = True
break
if not match:
# print("skip:", fname)
continue
print("doing:", fname)
try:
covdata = cov._analyze(fname)
except Exception:
print("failed:", fname)
continue
if biggest_prefix is None:
biggest_prefix = fname
else:
for (i, ch) in enumerate(fname[:len(biggest_prefix)]):
if ch != biggest_prefix[i]:
biggest_prefix = biggest_prefix[:i]
break
if covdata.numbers.n_statements == 0:
print('no statements, ignoring:', fname)
continue
# can't we derive this info. from stuff in coverage?
# "statements"/n_statements isn't every line
if show_comments:
lines = len(open(covdata.filename).readlines())
else:
# actually, ignoring comments etc seems more-sane sometimes
# ...but then the code doesn't "look" right :/
lines = covdata.numbers.n_statements
total_statements += lines
total_missing += covdata.numbers.n_missing
total_files += 1
total_covered += (covdata.numbers.n_statements - covdata.numbers.n_missing)
coverage_data.append((fname, covdata, lines))
big_line = max(10, line_height * 4)
fnt = ImageFont.truetype('/home/mike/dot-files/fonts/SourceCodePro_FontsOnly-1.017/TTF/SourceCodePro-Regular.ttf', big_line)
fnt_height = fnt.getsize('0')[1]
print("HEIGHT", fnt_height)
tinyfnt = ImageFont.truetype('/home/mike/dot-files/fonts/SourceCodePro_FontsOnly-1.017/TTF/SourceCodePro-Regular.ttf', line_height)
column_chars = 80
column_width = tinyfnt.getsize('0' * column_chars)[0]
max_title_chars = int(column_width / fnt.getsize('0')[0])
num_columns = int(math.ceil(2560.0 / column_width))
column_content = []
for x in range(num_columns):
column_content.append([])
# do the biggest data first
coverage_data.sort(lambda a, b: cmp(a[1].numbers.n_statements, b[1].numbers.n_statements))
coverage_data.reverse()
def column_height(col):
return sum(map(lambda x: x[2], col), 0)
for (fname, covdata, lines) in coverage_data:
# find shortest column
heights = map(column_height, column_content)
min_height = min(heights)
#print("HEIGHTS", heights, "min", min_height)
idx = heights.index(min_height)
#print("index:", idx)
column_content[idx].append((fname, covdata, lines))
# if lines == 1944:
# print("DING", idx, column_content[idx])
width = num_columns * column_width
max_column_height = max(map(column_height, column_content))
height = line_height * max_column_height
print("HEIGHTS", map(column_height, column_content))
for col in column_content:
print(' ', map(lambda x: x[2], col))
print("MAX", max_column_height)
img = Image.new('RGBA', (width, height), (0, 0, 0))
draw = ImageDraw.Draw(img)
from pygments import highlight
from pygments.token import Token
from pygments.lexers import get_lexer_by_name
from pygments.formatter import Formatter
def parse_color(col):
r = int(col[:2], 16)
g = int(col[2:4], 16)
b = int(col[4:6], 16)
return (r, g, b)
class ImageFormatter(Formatter):
def __init__(self, draw, fnt, origin, covdata, **kw):
Formatter.__init__(self, **kw)
self.draw = draw
self.fnt = fnt
self.origin = origin
self.covdata = covdata
#: maps Token -> r,g,b triple
self.token_color = {}
for (token, style) in self.style:
if 'color' in style and style['color']:
c = parse_color(style['color'])
self.token_color[token] = c
#print(' {} -> {}'.format(token, c))
def draw_line_background(self, line_index):
bg = (32, 32, 32, 255)
if (line_index + 2) in self.covdata.missing:
bg = (128, 32, 32)
elif (line_index + 2) in self.covdata.branch_lines():
bg = (128, 128, 32)
elif (line_index + 2) in self.covdata.statements:
bg = (32, 44, 32)
x = self.origin[0]
y = self.y + line_height # self.origin[1] + (line_height * line_index)
self.draw.rectangle((x, y, x + column_width, y + line_height - 2), fill=bg)
# elif not show_comments:
# continue
def format(self, tokensource, outfile):
self.x = self.origin[0]
self.y = self.origin[1]
index = 0
self.draw_line_background(index)
for ttype, value in tokensource:
try:
c = self.token_color[ttype]
except KeyError:
c = (32, 32, 32)
try:
text = str(value).encode('utf8')
except:
text = ''
for snip in text.splitlines(True):
size = self.draw_text(snip, c, index)
if '\n' in snip:
index += 1
self.draw_line_background(index)
self.y += size[1]
self.x = self.origin[0]
def draw_text(self, text, color, line_index):
# FIXME need to clip text at column-border -- but can't just
# text[:80] because we get these in color-specific chunks, I
# think? E.g. each differently-styled token...
size = self.fnt.getsize(text)
self.draw.text((self.x, self.y - 2), text.rstrip(), fill=color, font=self.fnt)
self.x += size[0]
return size
if False:
fname = column_content[0][0][0]
print("FNAME", fname)
raw = open(fname, 'r').read()
fmt = ImageFormatter(raw, style='monokai')
lines = highlight(
open(fname, 'r').read(),
get_lexer_by_name('python'),
formatter=fmt#draw, x, y, line_height),
)
print("lines '{}'".format(lines))
print("got", fmt.found)
print("wanted", len(fmt.raw.split('\n')))
sys.exit(0)
for column in range(num_columns):
x = column * column_width
y = 0
for (fname, covdata, lines) in column_content[column]:
percent = float(lines - covdata.numbers.n_missing) / lines
barmax = column_width - 1
pwid = math.ceil(barmax * percent)
if True:
draw.rectangle([x, y, x + pwid, y + fnt_height - 1], fill=(32, 96, 32, 255))
draw.rectangle([x + pwid, y, x + barmax, y + fnt_height - 1], fill=(96, 32, 32, 255))
#draw.rectangle([x, y, x + barmax, y + fnt_height - 1], fill=(96, 32, 32, 255))
trunc_fname = fname
while fnt.getsize(trunc_fname)[0] > column_width:
trunc_fname = trunc_fname[1:]
text_x = column_width - fnt.getsize(trunc_fname)[0] # negative is OKAY? not really
text_x += x
draw.text((text_x, y - 2), trunc_fname, fill=(255, 255, 255, 128), font=fnt)
y += fnt_height
if True:
frmt = ImageFormatter(draw, tinyfnt, (x, y), covdata, style='monokai')
highlight(open(fname, 'r').read(), get_lexer_by_name('python'), formatter=frmt)
y += line_height * len(open(fname, 'r').readlines())
else:
data = open(fname, 'r').readlines()
#for line in covdata.statements:#range(lines):
for line in range(len(data)):#range(lines):
textcolor = (64, 64, 64)
color = (32, 32, 32, 255)
if line in covdata.missing:
color = (128, 32, 32)
textcolor = (200, 200, 200)
elif line in covdata.branch_lines():
color = (128, 128, 32)
textcolor = (20, 20, 20)
elif line in covdata.statements:
color = (32, 44, 32)
textcolor = (200, 200, 200)
elif not show_comments:
continue
draw.rectangle([x, y, x + column_width - 1, y + line_height - 2], fill=color, outline=color)
draw.text((x, y - 2), data[line - 1].rstrip()[:column_chars], font=tinyfnt, fill=textcolor)
y += line_height
print("total coverage", float(total_statements - total_missing) / total_statements * 100.0)
img.save('coverage_cascade.png')