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183ede1b83b61b08aa056042ea64cd773ceb94ab
littlefs/scripts/data.py
Christopher Haster 183ede1b83 scripts: Option for result scripts to force children ordering 
This extends the recursive part of the table renderer to sort children
by the optional "i" field, if available.

Note this only affects children entries. The top-level entries are
strictly ordered by the relevant "by" fields. I just haven't seen a use
case for this yet, and not sorting "i" at the top-level reduces that
number of things that can go wrong for scripts without children.

---

This also rewrites -t/--hot to take advantage of children ordering by
injecting a totally-no-hacky HotResult subclass.

Now -t/--hot should be strictly ordered by the call depth! Though note
entries that share "by" fields are still merged...

This also gives us a way to introduce the "cycle detected" note and
respect -z/--depth, so overall a big improvement for -t/--hot.
2024-12-15 16:35:52 -06:00

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#!/usr/bin/env python3
#
# Script to find data size at the function level. Basically just a big wrapper
# around nm with some extra conveniences for comparing builds. Heavily inspired
# by Linux's Bloat-O-Meter.
#
# Example:
# ./scripts/data.py lfs.o lfs_util.o -Ssize
#
# Copyright (c) 2022, The littlefs authors.
# Copyright (c) 2020, Arm Limited. All rights reserved.
# SPDX-License-Identifier: BSD-3-Clause
#
# prevent local imports
__import__('sys').path.pop(0)
import collections as co
import csv
import itertools as it
import functools as ft
import math as mt
import os
import re
import shlex
import subprocess as sp
NM_PATH = ['nm']
NM_TYPES = 'dDbB'
OBJDUMP_PATH = ['objdump']
# integer fields
class RInt(co.namedtuple('RInt', 'x')):
__slots__ = ()
def __new__(cls, x=0):
if isinstance(x, RInt):
return x
if isinstance(x, str):
try:
x = int(x, 0)
except ValueError:
# also accept +-∞ and +-inf
if re.match('^\s*\+?\s*(?:∞|inf)\s*$', x):
x = mt.inf
elif re.match('^\s*-\s*(?:∞|inf)\s*$', x):
x = -mt.inf
else:
raise
if not (isinstance(x, int) or mt.isinf(x)):
x = int(x)
return super().__new__(cls, x)
def __str__(self):
if self.x == mt.inf:
return ''
elif self.x == -mt.inf:
return '-∞'
else:
return str(self.x)
def __bool__(self):
return bool(self.x)
def __int__(self):
assert not mt.isinf(self.x)
return self.x
def __float__(self):
return float(self.x)
none = '%7s' % '-'
def table(self):
return '%7s' % (self,)
def diff(self, other):
new = self.x if self else 0
old = other.x if other else 0
diff = new - old
if diff == +mt.inf:
return '%7s' % '+∞'
elif diff == -mt.inf:
return '%7s' % '-∞'
else:
return '%+7d' % diff
def ratio(self, other):
new = self.x if self else 0
old = other.x if other else 0
if mt.isinf(new) and mt.isinf(old):
return 0.0
elif mt.isinf(new):
return +mt.inf
elif mt.isinf(old):
return -mt.inf
elif not old and not new:
return 0.0
elif not old:
return +mt.inf
else:
return (new-old) / old
def __pos__(self):
return self.__class__(+self.x)
def __neg__(self):
return self.__class__(-self.x)
def __abs__(self):
return self.__class__(abs(self.x))
def __add__(self, other):
return self.__class__(self.x + other.x)
def __sub__(self, other):
return self.__class__(self.x - other.x)
def __mul__(self, other):
return self.__class__(self.x * other.x)
def __truediv__(self, other):
if not other:
if self >= self.__class__(0):
return self.__class__(+mt.inf)
else:
return self.__class__(-mt.inf)
return self.__class__(self.x // other.x)
def __mod__(self, other):
return self.__class__(self.x % other.x)
# data size results
class DataResult(co.namedtuple('DataResult', [
'file', 'function',
'size'])):
_by = ['file', 'function']
_fields = ['size']
_sort = ['size']
_types = {'size': RInt}
__slots__ = ()
def __new__(cls, file='', function='', size=0):
return super().__new__(cls, file, function,
RInt(size))
def __add__(self, other):
return DataResult(self.file, self.function,
self.size + other.size)
def openio(path, mode='r', buffering=-1):
# allow '-' for stdin/stdout
if path == '-':
if 'r' in mode:
return os.fdopen(os.dup(sys.stdin.fileno()), mode, buffering)
else:
return os.fdopen(os.dup(sys.stdout.fileno()), mode, buffering)
else:
return open(path, mode, buffering)
def collect_dwarf_files(obj_path, *,
objdump_path=OBJDUMP_PATH,
**args):
line_pattern = re.compile(
'^\s*(?P<no>[0-9]+)'
'(?:\s+(?P<dir>[0-9]+))?'
'.*\s+(?P<path>[^\s]+)\s*$')
# find source paths
dirs = co.OrderedDict()
files = co.OrderedDict()
# note objdump-path may contain extra args
cmd = objdump_path + ['--dwarf=rawline', obj_path]
if args.get('verbose'):
print(' '.join(shlex.quote(c) for c in cmd))
proc = sp.Popen(cmd,
stdout=sp.PIPE,
universal_newlines=True,
errors='replace',
close_fds=False)
for line in proc.stdout:
# note that files contain references to dirs, which we
# dereference as soon as we see them as each file table
# follows a dir table
m = line_pattern.match(line)
if m:
if not m.group('dir'):
# found a directory entry
dirs[int(m.group('no'))] = m.group('path')
else:
# found a file entry
dir = int(m.group('dir'))
if dir in dirs:
files[int(m.group('no'))] = os.path.join(
dirs[dir],
m.group('path'))
else:
files[int(m.group('no'))] = m.group('path')
proc.wait()
if proc.returncode != 0:
raise sp.CalledProcessError(proc.returncode, proc.args)
# simplify paths
files_ = co.OrderedDict()
for no, file in files.items():
if os.path.commonpath([
os.getcwd(),
os.path.abspath(file)]) == os.getcwd():
files_[no] = os.path.relpath(file)
else:
files_[no] = os.path.abspath(file)
files = files_
return files
# each dwarf entry can have attrs and children entries
class DwarfEntry:
def __init__(self, level, off, tag, ats={}, children=[]):
self.level = level
self.off = off
self.tag = tag
self.ats = ats or {}
self.children = children or []
def get(self, k, d=None):
return self.ats.get(k, d)
def __getitem__(self, k):
return self.ats[k]
def __contains__(self, k):
return k in self.ats
def __repr__(self):
return '%s(%d, 0x%x, %r, %r)' % (
self.__class__.__name__,
self.level,
self.off,
self.tag,
self.ats)
@ft.cached_property
def name(self):
if 'DW_AT_name' in self:
name = self['DW_AT_name'].split(':')[-1].strip()
# prefix with struct/union/enum
if self.tag == 'DW_TAG_structure_type':
name = 'struct ' + name
elif self.tag == 'DW_TAG_union_type':
name = 'union ' + name
elif self.tag == 'DW_TAG_enumeration_type':
name = 'enum ' + name
return name
else:
return None
# a collection of dwarf entries
class DwarfInfo:
def __init__(self, entries):
self.entries = entries
def get(self, k, d=None):
# allow lookup by both offset and dwarf name
if not isinstance(k, str):
return self.entries.get(k, d)
else:
import difflib
# organize entries by name
if not hasattr(self, '_by_name'):
self._by_name = {}
for entry in self.entries.values():
if entry.name is not None:
self._by_name[entry.name] = entry
# exact match? avoid difflib if we can for speed
if k in self._by_name:
return self._by_name[k]
# find the best matching dwarf entry with difflib
#
# this can be different from the actual symbol because
# of optimization passes
else:
name, entry = max(
self._by_name.items(),
key=lambda entry: difflib.SequenceMatcher(
None, entry[0], k, False).ratio(),
default=(None, None))
return entry
def __getitem__(self, k):
v = self.get(k)
if v is None:
raise KeyError(k)
return v
def __contains__(self, k):
return self.get(k) is not None
def __len__(self):
return len(self.entries)
def __iter__(self):
return (v for k, v in self.entries.items())
def collect_dwarf_info(obj_path, filter=None, *,
objdump_path=OBJDUMP_PATH,
**args):
filter_, filter = filter, __builtins__.filter
info_pattern = re.compile(
'^\s*(?:<(?P<level>[^>]*)>'
'\s*<(?P<off>[^>]*)>'
'.*\(\s*(?P<tag>[^)]*?)\s*\)'
'|\s*<(?P<off_>[^>]*)>'
'\s*(?P<at>[^>:]*?)'
'\s*:(?P<v>.*))\s*$')
# collect dwarf entries
info = co.OrderedDict()
entry = None
levels = {}
# note objdump-path may contain extra args
cmd = objdump_path + ['--dwarf=info', obj_path]
if args.get('verbose'):
print(' '.join(shlex.quote(c) for c in cmd))
proc = sp.Popen(cmd,
stdout=sp.PIPE,
universal_newlines=True,
errors='replace',
close_fds=False)
for line in proc.stdout:
# state machine here to find dwarf entries
m = info_pattern.match(line)
if m:
if m.group('tag'):
entry = DwarfEntry(
level=int(m.group('level'), 0),
off=int(m.group('off'), 16),
tag=m.group('tag').strip(),
)
# keep track of top-level entries
if (entry.level == 1 and (
# unless this entry is filtered
filter_ is None or entry.tag in filter_)):
info[entry.off] = entry
# store entry in parent
levels[entry.level] = entry
if entry.level-1 in levels:
levels[entry.level-1].children.append(entry)
elif m.group('at'):
if entry:
entry.ats[m.group('at').strip()] = (
m.group('v').strip())
proc.wait()
if proc.returncode != 0:
raise sp.CalledProcessError(proc.returncode, proc.args)
return DwarfInfo(info)
def collect_sizes(obj_path, *,
nm_path=NM_PATH,
nm_types=NM_TYPES,
everything=False,
**args):
size_pattern = re.compile(
'^(?P<size>[0-9a-fA-F]+)'
+ '\s+(?P<type>[%s])' % re.escape(nm_types)
+ '\s+(?P<func>[^\s]+)\s*$')
# find sizes
sizes = {}
# note nm-path may contain extra args
cmd = nm_path + ['--size-sort', obj_path]
if args.get('verbose'):
print(' '.join(shlex.quote(c) for c in cmd))
proc = sp.Popen(cmd,
stdout=sp.PIPE,
universal_newlines=True,
errors='replace',
close_fds=False)
for line in proc.stdout:
m = size_pattern.match(line)
if m:
func = m.group('func')
size = int(m.group('size'), 16)
sizes[func] = size
proc.wait()
if proc.returncode != 0:
raise sp.CalledProcessError(proc.returncode, proc.args)
return sizes
def collect(obj_paths, *,
sources=None,
everything=False,
**args):
results = []
for obj_path in obj_paths:
# find sizes
sizes = collect_sizes(obj_path, everything=everything, **args)
# try to figure out the source file if we have debug-info
try:
files = collect_dwarf_files(obj_path, **args)
info = collect_dwarf_info(obj_path,
filter={'DW_TAG_subprogram', 'DW_TAG_variable'},
**args)
except sp.CalledProcessError:
# do nothing on error, we don't need objdump to work, source
# files may just be inaccurate
files = {}
info = {}
# map function sizes to debug symbols
for func, size in sizes.items():
# discard internal functions
if not everything and func.startswith('__'):
continue
# find best matching dwarf entry, this may be slightly different
# due to optimizations
entry = info.get(func)
if entry is not None and 'DW_AT_decl_file' in entry:
file = files.get(int(entry['DW_AT_decl_file']), '?')
else:
file = re.sub('(\.o)?$', '.c', obj_path, 1)
# ignore filtered sources
if sources is not None:
if not any(os.path.abspath(file) == os.path.abspath(s)
for s in sources):
continue
else:
# default to only cwd
if not everything and not os.path.commonpath([
os.getcwd(),
os.path.abspath(file)]) == os.getcwd():
continue
results.append(CodeResult(file, func, size))
return results
def fold(Result, results, by=None, defines=[]):
if by is None:
by = Result._by
for k in it.chain(by or [], (k for k, _ in defines)):
if k not in Result._by and k not in Result._fields:
print("error: could not find field %r?" % k,
file=sys.stderr)
sys.exit(-1)
# filter by matching defines
if defines:
results_ = []
for r in results:
if all(getattr(r, k) in vs for k, vs in defines):
results_.append(r)
results = results_
# organize results into conflicts
folding = co.OrderedDict()
for r in results:
name = tuple(getattr(r, k) for k in by)
if name not in folding:
folding[name] = []
folding[name].append(r)
# merge conflicts
folded = []
for name, rs in folding.items():
folded.append(sum(rs[1:], start=rs[0]))
return folded
def table(Result, results, diff_results=None, *,
by=None,
fields=None,
sort=None,
diff=None,
percent=None,
all=False,
compare=None,
summary=False,
depth=1,
hot=None,
detect_cycles=True,
**_):
all_, all = all, __builtins__.all
if by is None:
by = Result._by
if fields is None:
fields = Result._fields
types = Result._types
# fold again
results = fold(Result, results, by=by)
if diff_results is not None:
diff_results = fold(Result, diff_results, by=by)
# reduce children to hot paths? only used by some scripts
if hot:
# subclass to reintroduce __dict__
class HotResult(Result):
i = None
children = None
notes = None
def __new__(cls, r, i=None, children=None, notes=None):
self = HotResult._make(r)
self.i = i
self.children = children if children is not None else []
self.notes = notes if notes is not None else []
if hasattr(r, 'notes'):
self.notes.extend(r.notes)
return self
def __add__(self, other):
return HotResult(
Result.__add__(self, other),
self.i if other.i is None
else other.i if self.i is None
else min(self.i, other.i),
self.children + other.children,
self.notes + other.notes)
def hot_(results_, depth_):
hot_ = []
def recurse(results_, depth_, seen=set()):
nonlocal hot_
if not results_:
return
# find the hottest result
r = max(results_,
key=lambda r: tuple(
tuple((getattr(r, k),)
if getattr(r, k, None) is not None
else ()
for k in (
[k] if k else [
k for k in Result._sort
if k in fields])
if k in fields)
for k in it.chain(hot, [None])))
hot_.append(HotResult(r, i=len(hot_)))
# found a cycle?
if (detect_cycles
and tuple(getattr(r, k) for k in Result._by) in seen):
hot_[-1].notes.append('cycle detected')
return
# recurse?
if depth_ > 1:
recurse(r.children,
depth_-1,
seen | {tuple(getattr(r, k) for k in Result._by)})
recurse(results_, depth_)
return hot_
results = [r._replace(children=hot_(r.children, depth-1))
for r in results]
# organize by name
table = {
','.join(str(getattr(r, k) or '') for k in by): r
for r in results}
diff_table = {
','.join(str(getattr(r, k) or '') for k in by): r
for r in diff_results or []}
names = [name
for name in table.keys() | diff_table.keys()
if diff_results is None
or all_
or any(
types[k].ratio(
getattr(table.get(name), k, None),
getattr(diff_table.get(name), k, None))
for k in fields)]
# find compare entry if there is one
if compare:
compare_result = table.get(','.join(str(k) for k in compare))
# sort again, now with diff info, note that python's sort is stable
names.sort()
if compare:
names.sort(
key=lambda n: (
table.get(n) == compare_result,
tuple(
types[k].ratio(
getattr(table.get(n), k, None),
getattr(compare_result, k, None))
for k in fields)),
reverse=True)
if diff or percent:
names.sort(
key=lambda n: tuple(
types[k].ratio(
getattr(table.get(n), k, None),
getattr(diff_table.get(n), k, None))
for k in fields),
reverse=True)
if sort:
for k, reverse in reversed(sort):
names.sort(
key=lambda n: tuple(
(getattr(table[n], k),)
if getattr(table.get(n), k, None) is not None
else ()
for k in (
[k] if k else [
k for k in Result._sort
if k in fields])),
reverse=reverse ^ (not k or k in Result._fields))
# build up our lines
lines = []
# header
header = ['%s%s' % (
','.join(by),
' (%d added, %d removed)' % (
sum(1 for n in table if n not in diff_table),
sum(1 for n in diff_table if n not in table))
if diff else '')
if not summary else '']
if not diff:
for k in fields:
header.append(k)
else:
for k in fields:
header.append('o'+k)
for k in fields:
header.append('n'+k)
for k in fields:
header.append('d'+k)
lines.append(header)
# entry helper
def table_entry(name, r, diff_r=None):
entry = [name]
# normal entry?
if ((compare is None or r == compare_result)
and not percent
and not diff):
for k in fields:
entry.append(
(getattr(r, k).table(),
getattr(getattr(r, k), 'notes', lambda: [])())
if getattr(r, k, None) is not None
else types[k].none)
# compare entry?
elif not percent and not diff:
for k in fields:
entry.append(
(getattr(r, k).table()
if getattr(r, k, None) is not None
else types[k].none,
(lambda t: ['+∞%'] if t == +mt.inf
else ['-∞%'] if t == -mt.inf
else ['%+.1f%%' % (100*t)])(
types[k].ratio(
getattr(r, k, None),
getattr(compare_result, k, None)))))
# percent entry?
elif not diff:
for k in fields:
entry.append(
(getattr(r, k).table()
if getattr(r, k, None) is not None
else types[k].none,
(lambda t: ['+∞%'] if t == +mt.inf
else ['-∞%'] if t == -mt.inf
else ['%+.1f%%' % (100*t)])(
types[k].ratio(
getattr(r, k, None),
getattr(diff_r, k, None)))))
# diff entry?
else:
for k in fields:
entry.append(getattr(diff_r, k).table()
if getattr(diff_r, k, None) is not None
else types[k].none)
for k in fields:
entry.append(getattr(r, k).table()
if getattr(r, k, None) is not None
else types[k].none)
for k in fields:
entry.append(
(types[k].diff(
getattr(r, k, None),
getattr(diff_r, k, None)),
(lambda t: ['+∞%'] if t == +mt.inf
else ['-∞%'] if t == -mt.inf
else ['%+.1f%%' % (100*t)] if t
else [])(
types[k].ratio(
getattr(r, k, None),
getattr(diff_r, k, None)))))
# append any notes
if hasattr(r, 'notes'):
entry[-1][1].extend(r.notes)
return entry
# recursive entry helper, only used by some scripts
def recurse(results_, depth_, seen=set(),
prefixes=('', '', '', '')):
# build the children table at each layer
results_ = fold(Result, results_, by=by)
table_ = {
','.join(str(getattr(r, k) or '') for k in by): r
for r in results_}
names_ = list(table_.keys())
# sort the children layer
names_.sort(key=lambda n: (getattr(table_[n], 'i', None), n))
if sort:
for k, reverse in reversed(sort):
names_.sort(
key=lambda n: tuple(
(getattr(table_[n], k),)
if getattr(table_.get(n), k, None)
is not None
else ()
for k in (
[k] if k else [
k for k in Result._sort
if k in fields])),
reverse=reverse ^ (not k or k in Result._fields))
for i, name in enumerate(names_):
r = table_[name]
is_last = (i == len(names_)-1)
line = table_entry(name, r)
line = [x if isinstance(x, tuple) else (x, []) for x in line]
# add prefixes
line[0] = (prefixes[0+is_last] + line[0][0], line[0][1])
# add cycle detection
if detect_cycles and name in seen:
line[-1] = (line[-1][0], line[-1][1] + ['cycle detected'])
lines.append(line)
# found a cycle?
if detect_cycles and name in seen:
continue
# recurse?
if depth_ > 1:
recurse(r.children,
depth_-1,
seen | {name},
(prefixes[2+is_last] + "|-> ",
prefixes[2+is_last] + "'-> ",
prefixes[2+is_last] + "| ",
prefixes[2+is_last] + " "))
# entries
if (not summary) or compare:
for name in names:
r = table.get(name)
if diff_results is None:
diff_r = None
else:
diff_r = diff_table.get(name)
lines.append(table_entry(name, r, diff_r))
# recursive entries
if name in table and depth > 1:
recurse(table[name].children,
depth-1,
{name},
("|-> ",
"'-> ",
"| ",
" "))
# total, unless we're comparing
if not (compare and not percent and not diff):
r = next(iter(fold(Result, results, by=[])), None)
if diff_results is None:
diff_r = None
else:
diff_r = next(iter(fold(Result, diff_results, by=[])), None)
lines.append(table_entry('TOTAL', r, diff_r))
# homogenize
lines = [
[x if isinstance(x, tuple) else (x, []) for x in line]
for line in lines]
# find the best widths, note that column 0 contains the names and is
# handled a bit differently
widths = co.defaultdict(lambda: 7, {0: 7})
nwidths = co.defaultdict(lambda: 0)
for line in lines:
for i, x in enumerate(line):
widths[i] = max(widths[i], ((len(x[0])+1+4-1)//4)*4-1)
if i != len(line)-1:
nwidths[i] = max(nwidths[i], 1+sum(2+len(n) for n in x[1]))
# print our table
for line in lines:
print('%-*s %s' % (
widths[0], line[0][0],
' '.join('%*s%-*s' % (
widths[i], x[0],
nwidths[i], ' (%s)' % ', '.join(x[1]) if x[1] else '')
for i, x in enumerate(line[1:], 1))))
def main(obj_paths, *,
by=None,
fields=None,
defines=[],
sort=None,
**args):
# find sizes
if not args.get('use', None):
results = collect(obj_paths, **args)
else:
results = []
with openio(args['use']) as f:
reader = csv.DictReader(f, restval='')
for r in reader:
# filter by matching defines
if not all(k in r and r[k] in vs for k, vs in defines):
continue
try:
results.append(DataResult(
**{k: r[k] for k in DataResult._by
if k in r and r[k].strip()},
**{k: r[k] for k in DataResult._fields
if k in r and r[k].strip()}))
except TypeError:
pass
# fold
results = fold(DataResult, results, by=by, defines=defines)
# sort, note that python's sort is stable
results.sort()
if sort:
for k, reverse in reversed(sort):
results.sort(
key=lambda r: tuple(
(getattr(r, k),) if getattr(r, k) is not None else ()
for k in ([k] if k else DataResult._sort)),
reverse=reverse ^ (not k or k in DataResult._fields))
# write results to CSV
if args.get('output'):
with openio(args['output'], 'w') as f:
writer = csv.DictWriter(f,
(by if by is not None else DataResult._by)
+ [k for k in (
fields if fields is not None
else DataResult._fields)])
writer.writeheader()
for r in results:
writer.writerow(
{k: getattr(r, k) for k in (
by if by is not None else DataResult._by)}
| {k: getattr(r, k) for k in (
fields if fields is not None
else DataResult._fields)})
# find previous results?
diff_results = None
if args.get('diff') or args.get('percent'):
diff_results = []
try:
with openio(args.get('diff') or args.get('percent')) as f:
reader = csv.DictReader(f, restval='')
for r in reader:
# filter by matching defines
if not all(k in r and r[k] in vs for k, vs in defines):
continue
if not any(k in r and r[k].strip()
for k in DataResult._fields):
continue
try:
diff_results.append(DataResult(
**{k: r[k] for k in DataResult._by
if k in r and r[k].strip()},
**{k: r[k] for k in DataResult._fields
if k in r and r[k].strip()}))
except TypeError:
pass
except FileNotFoundError:
pass
# fold
diff_results = fold(DataResult, diff_results, by=by, defines=defines)
# print table
if not args.get('quiet'):
table(DataResult, results, diff_results,
by=by if by is not None else ['function'],
fields=fields,
sort=sort,
**args)
if __name__ == "__main__":
import argparse
import sys
parser = argparse.ArgumentParser(
description="Find data size at the function level.",
allow_abbrev=False)
parser.add_argument(
'obj_paths',
nargs='*',
help="Input *.o files.")
parser.add_argument(
'-v', '--verbose',
action='store_true',
help="Output commands that run behind the scenes.")
parser.add_argument(
'-q', '--quiet',
action='store_true',
help="Don't show anything, useful with -o.")
parser.add_argument(
'-o', '--output',
help="Specify CSV file to store results.")
parser.add_argument(
'-u', '--use',
help="Don't parse anything, use this CSV file.")
parser.add_argument(
'-d', '--diff',
help="Specify CSV file to diff against.")
parser.add_argument(
'-p', '--percent',
help="Specify CSV file to diff against, but only show precentage "
"change, not a full diff.")
parser.add_argument(
'-a', '--all',
action='store_true',
help="Show all, not just the ones that changed.")
parser.add_argument(
'-c', '--compare',
type=lambda x: tuple(v.strip() for v in x.split(',')),
help="Compare results to the row matching this by pattern.")
parser.add_argument(
'-Y', '--summary',
action='store_true',
help="Only show the total.")
parser.add_argument(
'-b', '--by',
action='append',
choices=DataResult._by,
help="Group by this field.")
parser.add_argument(
'-f', '--field',
dest='fields',
action='append',
choices=DataResult._fields,
help="Show this field.")
parser.add_argument(
'-D', '--define',
dest='defines',
action='append',
type=lambda x: (
lambda k, vs: (
k.strip(),
{v.strip() for v in vs.split(',')})
)(*x.split('=', 1)),
help="Only include results where this field is this value.")
class AppendSort(argparse.Action):
def __call__(self, parser, namespace, value, option):
if namespace.sort is None:
namespace.sort = []
namespace.sort.append((value, True if option == '-S' else False))
parser.add_argument(
'-s', '--sort',
nargs='?',
action=AppendSort,
help="Sort by this field.")
parser.add_argument(
'-S', '--reverse-sort',
nargs='?',
action=AppendSort,
help="Sort by this field, but backwards.")
parser.add_argument(
'-F', '--source',
dest='sources',
action='append',
help="Only consider definitions in this file. Defaults to "
"anything in the current directory.")
parser.add_argument(
'--everything',
action='store_true',
help="Include builtin and libc specific symbols.")
parser.add_argument(
'--nm-types',
default=NM_TYPES,
help="Type of symbols to report, this uses the same "
"single-character type-names emitted by nm. Defaults to "
"%r." % NM_TYPES)
parser.add_argument(
'--nm-path',
type=lambda x: x.split(),
default=NM_PATH,
help="Path to the nm executable, may include flags. "
"Defaults to %r." % NM_PATH)
parser.add_argument(
'--objdump-path',
type=lambda x: x.split(),
default=OBJDUMP_PATH,
help="Path to the objdump executable, may include flags. "
"Defaults to %r." % OBJDUMP_PATH)
sys.exit(main(**{k: v
for k, v in vars(parser.parse_intermixed_args()).items()
if v is not None}))
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