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eb7fff8843d9fedfe30e00ddafb1d37e3fb2fe34
littlefs/scripts/structs.py
Christopher Haster eb7fff8843 scripts: Include all entries in collect_dwarf_info 
Note this only affects the top-level entries. Dwarf-info contains a
heirarchical structure, but for some scripts we just don't care. Finding
DW_TAG_variables in nested DW_TAG_lexical_blocks for example.

This is useful for ongoing stack.py rework.
2024-12-16 18:01:46 -06:00

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#!/usr/bin/env python3
#
# Script to find struct sizes.
#
# Example:
# ./scripts/structs.py lfs.o lfs_util.o -Ssize
#
# Copyright (c) 2022, The littlefs authors.
# 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
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)
# struct size results
class StructResult(co.namedtuple('StructResult', [
'file', 'struct',
'size', 'align',
'i', 'children'])):
_by = ['file', 'struct']
_fields = ['size', 'align']
_sort = ['size', 'align']
_types = {'size': RInt, 'align': RInt}
_i = 'i'
_children = 'children'
__slots__ = ()
def __new__(cls, file='', struct='', size=0, align=0,
i=None, children=None):
return super().__new__(cls, file, struct,
RInt(size), RInt(align),
i,
children if children is not None else [])
def __add__(self, other):
return StructResult(self.file, self.struct,
self.size + other.size,
max(self.align, other.align),
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)
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
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:
# 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? do a quick lookup
if k in self._by_name:
return self._by_name[k]
# find the best matching dwarf entry with a simple
# heuristic
#
# this can be different from the actual symbol because
# of optimization passes
else:
def key(entry):
i = k.find(entry.name)
if i == -1:
return None
return (i, len(k)-(i+len(entry.name)), k)
return min(
filter(key, self._by_name.values()),
key=key,
default=d)
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, tags=None, *,
objdump_path=OBJDUMP_PATH,
**args):
info_pattern = re.compile(
'^\s*<(?P<level>[^>]*)>'
'\s*<(?P<off>[^>]*)>'
'.*\(\s*(?P<tag>[^)]*?)\s*\)\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 unfiltered entries
if tags is None or entry.tag in tags:
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(obj_paths, *,
sources=None,
everything=False,
**args):
results = []
for obj_path in obj_paths:
# find source paths
files = collect_dwarf_files(obj_path, **args)
# find dwarf info
info = collect_dwarf_info(obj_path, **args)
# recursive+cached size finder
def sizeof(entry):
# cached?
if not hasattr(sizeof, 'cache'):
sizeof.cache = {}
if entry.off in sizeof.cache:
return sizeof.cache[entry.off]
# explicit size?
if 'DW_AT_byte_size' in entry:
size = int(entry['DW_AT_byte_size'])
# array? multiply by size
elif entry.tag == 'DW_TAG_array_type':
type = info[int(entry['DW_AT_type'].strip('<>'), 0)]
size = sizeof(type)
for child in entry.children:
if child.tag == 'DW_TAG_subrange_type':
size *= int(child['DW_AT_upper_bound']) + 1
# indirect type?
elif entry.tag in {
'DW_TAG_typedef',
'DW_TAG_enumeration_type',
'DW_TAG_member',
'DW_TAG_const_type',
'DW_TAG_volatile_type',
'DW_TAG_restrict_type'}:
type = info[int(entry['DW_AT_type'].strip('<>'), 0)]
size = sizeof(type)
else:
assert False, "Unknown dwarf entry? %r" % entry.tag
sizeof.cache[entry.off] = size
return size
# recursive+cached alignment finder
#
# Dwarf doesn't seem to give us this info, so we infer it from
# the size of children pointer/base types. This is _usually_
# correct.
def alignof(entry):
# cached?
if not hasattr(alignof, 'cache'):
alignof.cache = {}
if entry.off in alignof.cache:
return alignof.cache[entry.off]
# pointer? base type? assume this size == alignment
if entry.tag in {
'DW_TAG_pointer_type',
'DW_TAG_base_type'}:
align = int(entry['DW_AT_byte_size'])
# struct? union? take max alignment of children
elif entry.tag in {
'DW_TAG_structure_type',
'DW_TAG_union_type'}:
align = max(alignof(child) for child in entry.children)
# indirect type?
elif entry.tag in {
'DW_TAG_typedef',
'DW_TAG_array_type',
'DW_TAG_enumeration_type',
'DW_TAG_member',
'DW_TAG_const_type',
'DW_TAG_volatile_type',
'DW_TAG_restrict_type'}:
type = int(entry['DW_AT_type'].strip('<>'), 0)
align = alignof(info[type])
else:
assert False, "Unknown dwarf entry? %r" % entry.tag
alignof.cache[entry.off] = align
return align
# recursive+cached children finder
def childrenof(entry):
# cached?
if not hasattr(childrenof, 'cache'):
childrenof.cache = {}
if entry.off in childrenof.cache:
return childrenof.cache[entry.off]
# pointer? base type?
if entry.tag in {
'DW_TAG_pointer_type',
'DW_TAG_base_type'}:
children = []
# struct? union?
elif entry.tag in {
'DW_TAG_structure_type',
'DW_TAG_union_type'}:
children = []
for child in entry.children:
name_ = child.name
size_ = sizeof(child)
align_ = alignof(child)
children_ = childrenof(child)
children.append(StructResult(
file, name_, size_, align_,
i=child.off,
children=children_))
# indirect type?
elif entry.tag in {
'DW_TAG_typedef',
'DW_TAG_array_type',
'DW_TAG_enumeration_type',
'DW_TAG_member',
'DW_TAG_const_type',
'DW_TAG_volatile_type',
'DW_TAG_restrict_type'}:
type = int(entry['DW_AT_type'].strip('<>'), 0)
children = childrenof(info[type])
else:
assert False, "Unknown dwarf entry? %r" % entry.tag
childrenof.cache[entry.off] = children
return children
# collect structs and other types
typedefs = co.OrderedDict()
typedefed = set()
types = co.OrderedDict()
for entry in info:
# skip non-types and types with no name
if (entry.tag not in {
'DW_TAG_typedef',
'DW_TAG_structure_type',
'DW_TAG_union_type',
'DW_TAG_enumeration_type'}
or entry.name is None):
continue
# discard internal types
if not everything and entry.name.startswith('__'):
continue
# if we have no file guess from obj path
if '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
# find name
name = entry.name
# find the size of a type, recursing if necessary
size = sizeof(entry)
# find alignment, recursing if necessary
align = alignof(entry)
# find children, recursing if necessary
children = childrenof(entry)
# typdefs exist in a separate namespace, so we need to track
# these separately
if entry.tag == 'DW_TAG_typedef':
typedefs[entry.off] = StructResult(
file, name, size, align,
children=children)
typedefed.add(int(entry['DW_AT_type'].strip('<>'), 0))
else:
types[entry.off] = StructResult(
file, name, size, align,
children=children)
# let typedefs take priority
results.extend(typedefs.values())
results.extend(type
for off, type in types.items()
if off not in typedefed)
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__
Result_ = Result
class HotResult(Result_):
_i = '_hot_i'
_children = '_hot_children'
_notes = '_hot_notes'
def __new__(cls, r, i=None, children=None, notes=None):
self = HotResult._make(r)
self._hot_i = i
self._hot_children = children if children is not None else []
self._hot_notes = notes if notes is not None else []
if hasattr(Result_, '_notes'):
self._hot_notes.extend(getattr(r, r._notes))
return self
def __add__(self, other):
return HotResult(
Result_.__add__(self, other),
self._hot_i if other._hot_i is None
else other._hot_i if self._hot_i is None
else min(self._hot_i, other._hot_i),
self._hot_children + other._hot_children,
self._hot_notes + other._hot_notes)
results_ = []
for r in results:
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]._hot_notes.append('cycle detected')
return
# recurse?
if depth_ > 1:
recurse(getattr(r, Result._children),
depth_-1,
seen | {tuple(getattr(r, k) for k in Result._by)})
recurse(getattr(r, Result._children), depth-1)
results_.append(HotResult(r, children=hot_))
Result = HotResult
results = 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(Result, '_notes'):
entry[-1][1].extend(getattr(r, Result._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()
if hasattr(Result, '_i'):
names_.sort(key=lambda n: getattr(table_[n], Result._i))
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(getattr(r, Result._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(getattr(table[name], Result._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):
# figure out depth
if args.get('depth') is None:
args['depth'] = mt.inf if args.get('hot') else 1
elif args.get('depth') == 0:
args['depth'] = mt.inf
# 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
if not any(k in r and r[k].strip()
for k in StructResult._fields):
continue
try:
results.append(StructResult(
**{k: r[k] for k in StructResult._by
if k in r and r[k].strip()},
**{k: r[k]
for k in StructResult._fields
if k in r and r[k].strip()}))
except TypeError:
pass
# fold
results = fold(StructResult, 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 StructResult._sort)),
reverse=reverse ^ (not k or k in StructResult._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 StructResult._by)
+ [k for k in (
fields if fields is not None
else StructResult._fields)])
writer.writeheader()
for r in results:
writer.writerow(
{k: getattr(r, k) for k in (
by if by is not None else StructResult._by)}
| {k: getattr(r, k) for k in (
fields if fields is not None
else StructResult._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 StructResult._fields):
continue
try:
diff_results.append(StructResult(
**{k: r[k] for k in StructResult._by
if k in r and r[k].strip()},
**{k: r[k]
for k in StructResult._fields
if k in r and r[k].strip()}))
except TypeError:
pass
except FileNotFoundError:
pass
# fold
diff_results = fold(StructResult, diff_results, by=by, defines=defines)
# print table
if not args.get('quiet'):
table(StructResult, results, diff_results,
by=by if by is not None else ['struct'],
fields=fields,
sort=sort,
detect_cycles=False,
**args)
if __name__ == "__main__":
import argparse
import sys
parser = argparse.ArgumentParser(
description="Find struct sizes.",
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=StructResult._by,
help="Group by this field.")
parser.add_argument(
'-f', '--field',
dest='fields',
action='append',
choices=StructResult._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(
'-z', '--depth',
nargs='?',
type=lambda x: int(x, 0),
const=0,
help="Depth of function calls to show. 0 shows all calls unless "
"we find a cycle. Defaults to 0.")
parser.add_argument(
'-t', '--hot',
nargs='?',
action='append',
help="Show only the hot path for each function call.")
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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