-#!/bin/sh
+#!/usr/bin/python
+
import os
import glob
import re
+import sys
+import optparse
-cmds = """
-./configure --enable-config=cov --disable-optimising
-make conf=cov -j2
-make conf=cov test LILYPOND_JOBS=
+#File 'accidental-engraver.cc'
+#Lines executed:87.70% of 252
-cd out-cov
-ln ../lily/* .
-ln ../lily/out-conv/*cc .
-mkdir include
-ln ../lily/include/* include/
-for a in *[cyl] ; do gcov -o ../lily/out-cov/ -p $a > $a.gcov-summary ; done
-"""
+def summary (args):
+ results = []
+ for f in args:
+ str = open (f).read ()
+ m = re.search ("File '([^']+.cc)'\s*Lines executed:([0-9.]+)% of ([0-9]+)", str)
-cmds = ''
+ if m and '/usr/lib' in m.group (1):
+ continue
-for c in cmds.split ('\n'):
- os.system (c)
+ if m:
+ cov = float (m.group (2))
+ lines = int (m.group (3))
+ pain = lines * (100.0 - cov)
+ file = m.group (1)
+ tup = (pain, locals ().copy())
-os.chdir ('out-cov')
+ results.append(tup)
-#File 'accidental-engraver.cc'
-#Lines executed:87.70% of 252
+ results.sort ()
+ results.reverse()
-results = []
-for f in glob.glob ('*.gcov-summary'):
- str = open (f).read ()
- m = re.search ("File '([^']+.cc)'\s*Lines executed:([0-9.]+)% of ([0-9]+)", str)
- if '/usr/lib' in m.group (1):
- continue
-
- if m:
- cov = float (m.group (2))
- lines = int (m.group (3))
- pain = lines * (100.0 - cov)
- file = m.group (1)
- tup = (pain, locals ().copy())
+ print 'files sorted by number of untested lines (decreasing)'
+ print
+ print '%5s (%6s): %s' % ('cov %', 'lines', 'file')
+ print '----------------------------------------------'
+
+ for (pain, d) in results:
+ print '%(cov)5.2f (%(lines)6d): %(file)s' % d
+
+class Chunk:
+ def __init__ (self, range, coverage_count, all_lines, file):
+ assert coverage_count >= 0
+ assert type (range) == type (())
+
+ self.coverage_count = coverage_count
+ self.range = range
+ self.all_lines = all_lines
+ self.file = file
+
+ def length (self):
+ return self.range[1] - self.range[0]
+
+ def text (self):
+ return ''.join ([l[2] for l in self.lines()])
+
+ def lines (self):
+ return self.all_lines[self.range[0]:
+ self.range[1]]
+ def widen (self):
+ self.range = (min (self.range[0] -1, 0),
+ self.range[0] +1)
+ def write (self):
+ print 'chunk in', self.file
+ for (c, n, l) in self.lines ():
+ cov = '%d' % c
+ if c == 0:
+ cov = '#######'
+ elif c < 0:
+ cov = ''
+ sys.stdout.write ('%8s:%8d:%s' % (cov, n, l))
+
+ def uncovered_score (self):
+ return self.length ()
+
+class SchemeChunk (Chunk):
+ def uncovered_score (self):
+ text = self.text ()
+ if (text.startswith ('(define ')
+ and not text.startswith ('(define (')):
+ return 0
+
+ if text.startswith ('(use-modules '):
+ return 0
+
+ if (text.startswith ('(define-public ')
+ and not text.startswith ('(define-public (')):
+ return 0
+
+ return len ([l for (c,n,l) in self.lines() if (c == 0)])
+
+def read_gcov (f):
+ ls = []
+
+ in_lines = [l for l in open (f).readlines ()]
+ (count_len, line_num_len) = tuple (map (len, in_lines[0].split (':')[:2]))
+
+ for l in in_lines:
+ c = l[:count_len].strip ()
+ l = l[count_len+1:]
+ n = int (l[:line_num_len].strip ())
+
+ if n == 0:
+ continue
+
+ if '#' in c:
+ c = 0
+ elif c == '-':
+ c = -1
+ else:
+ c = int (c)
+
+ l = l[line_num_len+1:]
+
+ ls.append ((c,n,l))
- results.append(tup)
+ return ls
-results.sort ()
-results.reverse()
-for (pain, d) in results:
- print '%(cov)5.2f (%(lines)6d): %(file)s' % d
+def get_c_chunks (ls, file):
+ chunks = []
+ chunk = []
+ last_c = -1
+ for (c, n, l) in ls:
+ if not (c == last_c or c < 0 and l != '}\n'):
+ if chunk and last_c >= 0:
+ nums = [n-1 for (n, l) in chunk]
+ chunks.append (Chunk ((min (nums), max (nums)+1),
+ last_c, ls, file))
+ chunk = []
+
+ chunk.append ((n,l))
+ if c >= 0:
+ last_c = c
+
+ return chunks
+
+def get_scm_chunks (ls, file):
+ chunks = []
+ chunk = []
+
+ def new_chunk ():
+ if chunk:
+ nums = [n-1 for (n, l) in chunk]
+ chunks.append (SchemeChunk ((min (nums), max (nums)+1),
+ max (last_c, 0), ls, file))
+ chunk[:] = []
+
+ last_c = -1
+ for (cov_count, line_number, line) in ls:
+ if line.startswith ('('):
+ new_chunk ()
+ last_c = -1
+
+ chunk.append ((line_number, line))
+ if cov_count >= 0:
+ last_c = cov_count
+
+ return chunks
+
+def widen_chunk (ch, ls):
+ a -= 1
+ b += 1
+
+ return [(n, l) for (c, n, l) in ls[a:b]]
+
+
+def extract_chunks (file):
+ try:
+ ls = read_gcov (file)
+ except IOError, s :
+ print s
+ return []
+
+ cs = []
+ if 'scm' in file:
+ cs = get_scm_chunks (ls, file)
+ else:
+ cs = get_c_chunks (ls, file)
+ return cs
+
+
+def filter_uncovered (chunks):
+ def interesting (c):
+ if c.coverage_count > 0:
+ return False
+
+ t = c.text()
+ for stat in ('warning', 'error', 'print', 'scm_gc_mark'):
+ if stat in t:
+ return False
+ return True
+
+ return [c for c in chunks if interesting (c)]
+
+
+def main ():
+ p = optparse.OptionParser (usage="usage coverage.py [options] files",
+ description="")
+ p.add_option ("--summary",
+ action='store_true',
+ default=False,
+ dest="summary")
+
+ p.add_option ("--hotspots",
+ default=False,
+ action='store_true',
+ dest="hotspots")
+
+ p.add_option ("--uncovered",
+ default=False,
+ action='store_true',
+ dest="uncovered")
+
+
+ (options, args) = p.parse_args ()
+
+
+ if options.summary:
+ summary (['%s.gcov-summary' % s for s in args])
+
+ if options.uncovered or options.hotspots:
+ chunks = []
+ for a in args:
+ name = a
+ if name.endswith ('scm'):
+ name += '.cov'
+ else:
+ name += '.gcov'
+
+ chunks += extract_chunks (name)
+
+ if options.uncovered:
+ chunks = filter_uncovered (chunks)
+ chunks = [(c.uncovered_score (), c) for c in chunks if c.uncovered_score() > 0]
+ elif options.hotspots:
+ chunks = [((c.coverage_count, -c.length()), c) for c in chunks]
+
+
+ chunks.sort ()
+ chunks.reverse ()
+ for (score, c) in chunks:
+ c.write ()
+
+
+
+if __name__ == '__main__':
+ main ()
projects / lilypond.git / blobdiff