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#!/usr/bin/python3
from collections import defaultdict
import io
import re
import subprocess
# --------------------------------------------------------------------------------------------
# globals
# --------------------------------------------------------------------------------------------
definitionSet = set() # set of method_name
definitionToSourceLocationMap = dict()
# for the "unused methods" analysis
callDict = defaultdict(set) # map of from_method_name -> set(method_name)
# clang does not always use exactly the same numbers in the type-parameter vars it generates
# so I need to substitute them to ensure we can match correctly.
normalizeTypeParamsRegex = re.compile(r"type-parameter-\d+-\d+")
def normalizeTypeParams( line ):
line = normalizeTypeParamsRegex.sub("type-parameter-?-?", line)
# make some of the types a little prettier
line = line.replace("std::__debug", "std::")
line = line.replace("class ", "")
line = line.replace("struct ", "")
line = line.replace("_Bool", "bool")
return line
# --------------------------------------------------------------------------------------------
# primary input loop
# --------------------------------------------------------------------------------------------
cnt = 0
with io.open("workdir/loplugin.methodcycles.log", "r", buffering=1024*1024) as txt:
for line in txt:
tokens = line.strip().split("\t")
if tokens[0] == "definition:":
returnType = tokens[1]
nameAndParams = tokens[2]
sourceLocation = tokens[3]
funcInfo = (normalizeTypeParams(returnType) + " " + normalizeTypeParams(nameAndParams)).strip()
definitionSet.add(funcInfo)
definitionToSourceLocationMap[funcInfo] = sourceLocation
elif tokens[0] == "call:":
returnTypeFrom = tokens[1]
nameAndParamsFrom = tokens[2]
returnTypeTo = tokens[3]
nameAndParamsTo = tokens[4]
caller = (normalizeTypeParams(returnTypeFrom) + " " + normalizeTypeParams(nameAndParamsFrom)).strip()
callee = (normalizeTypeParams(returnTypeTo) + " " + normalizeTypeParams(nameAndParamsTo)).strip()
callDict[caller].add(callee)
else:
print( "unknown line: " + line)
cnt = cnt + 1
#if cnt > 100000: break
# sort the results using a "natural order" so sequences like [item1,item2,item10] sort nicely
def natural_sort_key(s, _nsre=re.compile('([0-9]+)')):
return [int(text) if text.isdigit() else text.lower()
for text in re.split(_nsre, s)]
# sort by both the source-line and the datatype, so the output file ordering is stable
# when we have multiple items on the same source line
def v_sort_key(v):
return natural_sort_key(v[1]) + [v[0]]
def sort_set_by_natural_key(s):
return sorted(s, key=lambda v: v_sort_key(v))
# --------------------------------------------------------------------------------------------
# analysis
# --------------------------------------------------------------------------------------------
# follow caller-callee chains, removing all methods reachable from a root method
def remove_reachable(callDict, startCaller):
worklist = list()
worklist.append(startCaller)
while len(worklist) > 0:
caller = worklist.pop()
if caller not in callDict:
continue
calleeSet = callDict[caller]
del callDict[caller]
if caller in definitionSet:
definitionSet.remove(caller)
for c in calleeSet:
worklist.append(c)
# look for all the external entry points and remove code called from there
to_be_removed = set()
to_be_removed.add("int main(int,char **)")
# random dynload entrypoints that we don't otherwise find
to_be_removed.add("bool TestImportOLE2(SvStream &)")
to_be_removed.add("void SbiRuntime::StepREDIMP()")
to_be_removed.add("_object * (anonymous namespace)::createUnoStructHelper(_object *,_object *,_object *)")
for caller in definitionSet:
if caller not in definitionToSourceLocationMap:
to_be_removed.append(caller)
continue
location = definitionToSourceLocationMap[caller]
if "include/com/" in location \
or "include/cppu/" in location \
or "include/cppuhelper/" in location \
or "include/osl/" in location \
or "include/rtl/" in location \
or "include/sal/" in location \
or "include/salhelper/" in location \
or "include/typelib/" in location \
or "include/uno/" in location \
or "workdir/UnpackedTarball/" in location \
or "workdir/UnoApiHeadersTarget/" in location \
or "workdir/CustomTarget/officecfg/" in location \
or "workdir/LexTarget/" in location \
or "workdir/CustomTarget/i18npool/localedata/" in location \
or "workdir/SdiTarget/" in location \
or "/qa/" in location \
or "include/test/" in location:
to_be_removed.add(caller)
# TODO calls to destructors are not mentioned in the AST, so we'll just have to assume they get called,
# which is not ideal
if "::~" in caller:
to_be_removed.add(caller)
# dyload entry points for VCL builder
if "(VclPtr<vcl::Window> & rRet, const VclPtr<vcl::Window> & pParent, VclBuilder::stringmap & rMap)" in caller:
to_be_removed.add(caller)
if "(VclPtr<vcl::Window> &,const VclPtr<vcl::Window> &,std::::map<rtl::OString, rtl::OUString, std::less<rtl::OString>, std::allocator<std::pair<const rtl::OString, rtl::OUString> > > &)" in caller:
to_be_removed.add(caller)
# find all the UNO load-by-symbol-name entrypoints
uno_constructor_entrypoints = set()
git_grep_process = subprocess.Popen("git grep -h 'constructor=' -- *.component", stdout=subprocess.PIPE, shell=True)
with git_grep_process.stdout as txt:
for line in txt:
idx1 = line.find(b"\"")
idx2 = line.find(b"\"", idx1 + 1)
func = line[idx1+1 : idx2]
uno_constructor_entrypoints.add(func.decode('utf-8'))
for caller in callDict:
if "(com::sun::star::uno::XComponentContext *,const com::sun::star::uno::Sequence<com::sun::star::uno::Any> &)" in caller:
for func in uno_constructor_entrypoints:
if func in caller:
to_be_removed.add(caller)
# remove everything reachable from the found entry points
for caller in to_be_removed:
remove_reachable(callDict, caller)
for caller in callDict:
callDict[caller] -= to_be_removed
# create a reverse call graph
inverseCallDict = defaultdict(set) # map of from_method_name -> set(method_name)
for caller in callDict:
for callee in callDict[caller]:
inverseCallDict[callee].add(caller)
print_tree_recurse_set = set() # protect against cycles
def print_tree(f, callDict, caller, depth):
if depth == 0:
f.write("\n") # add an empty line before each tree
print_tree_recurse_set.clear()
# protect against cycles
if caller in print_tree_recurse_set:
return
# when printing out trees, things that are not in the map are things that are reachable,
# so we're not interested in them
if caller not in callDict:
return
print_tree_recurse_set.add(caller)
f.write(" " * depth + caller + "\n")
f.write(" " * depth + definitionToSourceLocationMap[caller] + "\n")
calleeSet = callDict[caller]
for c in calleeSet:
print_tree(f, callDict, c, depth+1)
# find possible roots (ie. entrypoints) by looking for methods that are not called
def dump_possible_roots():
possibleRootList = list()
for caller in callDict:
if caller not in inverseCallDict and caller in definitionToSourceLocationMap:
possibleRootList.append(caller)
possibleRootList.sort()
# print out first 100 trees of caller->callees
count = 0
with open("compilerplugins/clang/methodcycles.roots", "wt") as f:
f.write("callDict size " + str(len(callDict)) + "\n")
f.write("possibleRootList size " + str(len(possibleRootList)) + "\n")
f.write("\n")
for caller in possibleRootList:
f.write(caller + "\n")
f.write(" " + definitionToSourceLocationMap[caller] + "\n")
#print_tree(f, caller, 0)
count = count + 1
#if count>1000: break
# Look for cycles in a directed graph
# Adapted from:
# https://codereview.stackexchange.com/questions/86021/check-if-a-directed-graph-contains-a-cycle
def print_cycles():
with open("compilerplugins/clang/methodcycles.results", "wt") as f:
path = set()
visited = set()
def printPath(path):
if len(path) < 2:
return
# we may have found a cycle, but if the cycle is called from outside the cycle
# the code is still in use.
for p in path:
for caller in inverseCallDict[p]:
if caller not in path:
return
f.write("found cycle\n")
for p in path:
f.write(" " + p + "\n")
f.write(" " + definitionToSourceLocationMap[p] + "\n")
f.write("\n")
def checkCyclic(vertex):
if vertex in visited:
return
visited.add(vertex)
path.add(vertex)
if vertex in callDict:
for neighbour in callDict[vertex]:
if neighbour in path:
printPath(path)
break
else:
checkCyclic(neighbour)
path.remove(vertex)
for caller in callDict:
checkCyclic(caller)
print_cycles()
# print partitioned sub-graphs
def print_partitions():
callDict2 = callDict
# Remove anything with no callees, and that is itself not called.
# After this stage, we should only be left with closed sub-graphs ie. partitions
while True:
to_be_removed.clear()
for caller in callDict2:
if len(callDict2[caller]) == 0 \
or caller not in inverseCallDict[caller]:
to_be_removed.add(caller)
if len(to_be_removed) == 0:
break
for caller in to_be_removed:
remove_reachable(callDict2, caller)
for caller in callDict2:
callDict2[caller] -= to_be_removed
count = 0
with open("compilerplugins/clang/methodcycles.partition.results", "wt") as f:
f.write("callDict size " + str(len(callDict2)) + "\n")
f.write("\n")
while len(callDict2) > 0:
print_tree(f, callDict2, next(iter(callDict2)), 0)
for c in print_tree_recurse_set:
callDict2.pop(c, None)
count = count + 1
if count>1000:
break
print_partitions()
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