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# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0
# For details: https://bitbucket.org/ned/coveragepy/src/default/NOTICE.txt
"""Parser.py: a main for invoking code in coverage/parser.py"""
from __future__ import division
import glob, os, sys
import collections
from optparse import OptionParser
import disgen
from coverage.misc import CoverageException
from coverage.parser import ByteParser, PythonParser
from coverage.python import get_python_source
opcode_counts = collections.Counter()
class ParserMain(object):
"""A main for code parsing experiments."""
def main(self, args):
"""A main function for trying the code from the command line."""
parser = OptionParser()
parser.add_option(
"-c", action="store_true", dest="chunks",
help="Show basic block chunks"
)
parser.add_option(
"-d", action="store_true", dest="dis",
help="Disassemble"
)
parser.add_option(
"-H", action="store_true", dest="histogram",
help="Count occurrences of opcodes"
)
parser.add_option(
"-R", action="store_true", dest="recursive",
help="Recurse to find source files"
)
parser.add_option(
"-s", action="store_true", dest="source",
help="Show analyzed source"
)
parser.add_option(
"-t", action="store_true", dest="tokens",
help="Show tokens"
)
options, args = parser.parse_args()
if options.recursive:
if args:
root = args[0]
else:
root = "."
for root, _, _ in os.walk(root):
for f in glob.glob(root + "/*.py"):
self.one_file(options, f)
elif not args:
parser.print_help()
else:
self.one_file(options, args[0])
if options.histogram:
total = sum(opcode_counts.values())
print("{0} total opcodes".format(total))
for opcode, number in opcode_counts.most_common():
print("{0:20s} {1:6d} {2:.1%}".format(opcode, number, number/total))
def one_file(self, options, filename):
"""Process just one file."""
try:
text = get_python_source(filename)
bp = ByteParser(text, filename=filename)
except Exception as err:
print("%s" % (err,))
return
if options.dis:
print("Main code:")
self.disassemble(bp, chunks=options.chunks, histogram=options.histogram)
arcs = bp._all_arcs()
if options.chunks:
chunks = bp._all_chunks()
if options.recursive:
print("%6d: %s" % (len(chunks), filename))
else:
print("Chunks: %r" % chunks)
print("Arcs: %r" % sorted(arcs))
if options.source or options.tokens:
cp = PythonParser(filename=filename, exclude=r"no\s*cover")
cp.show_tokens = options.tokens
cp.parse_source()
if options.source:
arc_width = 0
arc_chars = {}
if options.chunks:
arc_chars = self.arc_ascii_art(arcs)
if arc_chars:
arc_width = max(len(a) for a in arc_chars.values())
exit_counts = cp.exit_counts()
for lineno, ltext in enumerate(cp.lines, start=1):
m0 = m1 = m2 = m3 = a = ' '
if lineno in cp.statements:
m0 = '='
elif lineno in cp.raw_statements:
m0 = '-'
exits = exit_counts.get(lineno, 0)
if exits > 1:
m1 = str(exits)
if lineno in cp.raw_docstrings:
m2 = '"'
if lineno in cp.raw_classdefs:
m2 = 'C'
if lineno in cp.raw_excluded:
m3 = 'x'
if arc_chars:
a = arc_chars[lineno].ljust(arc_width)
else:
a = ""
print("%4d %s%s%s%s%s %s" % (lineno, m0, m1, m2, m3, a, ltext))
def disassemble(self, byte_parser, chunks=False, histogram=False):
"""Disassemble code, for ad-hoc experimenting."""
for bp in byte_parser.child_parsers():
if chunks:
chunkd = dict((chunk.byte, chunk) for chunk in bp._split_into_chunks())
if bp.text:
srclines = bp.text.splitlines()
else:
srclines = None
print("\n%s: " % bp.code)
upto = None
for disline in disgen.disgen(bp.code):
if histogram:
opcode_counts[disline.opcode] += 1
continue
if disline.first:
if srclines:
upto = upto or disline.lineno-1
while upto <= disline.lineno-1:
print("%100s%s" % ("", srclines[upto]))
upto += 1
elif disline.offset > 0:
print("")
line = disgen.format_dis_line(disline)
chunkstr = ""
if chunks:
chunk = chunkd.get(disline.offset)
if chunk:
chunkstr = ":: %r" % chunk
print("%-70s%s" % (line, chunkstr))
print("")
def arc_ascii_art(self, arcs):
"""Draw arcs as ascii art.
Returns a dictionary mapping line numbers to ascii strings to draw for
that line.
"""
arc_chars = collections.defaultdict(str)
for lfrom, lto in sorted(arcs):
if lfrom < 0:
arc_chars[lto] += 'v'
elif lto < 0:
arc_chars[lfrom] += '^'
else:
if lfrom == lto - 1:
# Don't show obvious arcs.
continue
if lfrom < lto:
l1, l2 = lfrom, lto
else:
l1, l2 = lto, lfrom
#w = max(len(arc_chars[l]) for l in range(l1, l2+1))
w = first_all_blanks(arc_chars[l] for l in range(l1, l2+1))
for l in range(l1, l2+1):
if l == lfrom:
ch = '<'
elif l == lto:
ch = '>'
else:
ch = '|'
arc_chars[l] = set_char(arc_chars[l], w, ch)
return arc_chars
def set_char(s, n, c):
"""Set the nth char of s to be c, extending s if needed."""
s = s.ljust(n)
return s[:n] + c + s[n+1:]
def blanks(s):
"""Return the set of positions where s is blank."""
return set(i for i, c in enumerate(s) if c == " ")
def first_all_blanks(ss):
"""Find the first position that is all blank in the strings ss."""
ss = list(ss)
blankss = blanks(ss[0])
for s in ss[1:]:
blankss &= blanks(s)
if blankss:
return min(blankss)
else:
return max(len(s) for s in ss)
if __name__ == '__main__':
ParserMain().main(sys.argv[1:])
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