blob: 3ffb07ddf6ad8fc9dc1ec5222b05a7eade47328d [file] [log] [blame]
#!/usr/bin/env python3
"""A utility to update LLVM IR CHECK lines in C/C++ FileCheck test files.
Example RUN lines in .c/.cc test files:
// RUN: %clang -emit-llvm -S %s -o - -O2 | FileCheck %s
// RUN: %clangxx -emit-llvm -S %s -o - -O2 | FileCheck -check-prefix=CHECK-A %s
Usage:
% utils/update_cc_test_checks.py --llvm-bin=release/bin test/a.cc
% utils/update_cc_test_checks.py --clang=release/bin/clang /tmp/c/a.cc
"""
from __future__ import print_function
import argparse
import collections
import json
import os
import re
import shlex
import shutil
import subprocess
import sys
import tempfile
from UpdateTestChecks import common
SUBST = {
"%clang": [],
"%clang_cc1": ["-cc1"],
"%clangxx": ["--driver-mode=g++"],
}
def get_line2func_list(args, clang_args):
ret = collections.defaultdict(list)
# Use clang's JSON AST dump to get the mangled name
json_dump_args = [args.clang] + clang_args + ["-fsyntax-only", "-o", "-"]
if "-cc1" not in json_dump_args:
# For tests that invoke %clang instead if %clang_cc1 we have to use
# -Xclang -ast-dump=json instead:
json_dump_args.append("-Xclang")
json_dump_args.append("-ast-dump=json")
common.debug("Running", " ".join(json_dump_args))
popen = subprocess.Popen(
json_dump_args,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
stdout, stderr = popen.communicate()
if popen.returncode != 0:
sys.stderr.write("Failed to run " + " ".join(json_dump_args) + "\n")
sys.stderr.write(stderr)
sys.stderr.write(stdout)
sys.exit(2)
# Parse the clang JSON and add all children of type FunctionDecl.
# TODO: Should we add checks for global variables being emitted?
def parse_clang_ast_json(node, loc, search):
node_kind = node["kind"]
# Recurse for the following nodes that can contain nested function decls:
if node_kind in (
"NamespaceDecl",
"LinkageSpecDecl",
"TranslationUnitDecl",
"CXXRecordDecl",
"ClassTemplateSpecializationDecl",
):
# Specializations must use the loc from the specialization, not the
# template, and search for the class's spelling as the specialization
# does not mention the method names in the source.
if node_kind == "ClassTemplateSpecializationDecl":
inner_loc = node["loc"]
inner_search = node["name"]
else:
inner_loc = None
inner_search = None
if "inner" in node:
for inner in node["inner"]:
parse_clang_ast_json(inner, inner_loc, inner_search)
# Otherwise we ignore everything except functions:
if node_kind not in (
"FunctionDecl",
"CXXMethodDecl",
"CXXConstructorDecl",
"CXXDestructorDecl",
"CXXConversionDecl",
):
return
if loc is None:
loc = node["loc"]
if node.get("isImplicit") is True and node.get("storageClass") == "extern":
common.debug("Skipping builtin function:", node["name"], "@", loc)
return
common.debug("Found function:", node["kind"], node["name"], "@", loc)
line = loc.get("line")
# If there is no line it is probably a builtin function -> skip
if line is None:
common.debug(
"Skipping function without line number:", node["name"], "@", loc
)
return
# If there is no 'inner' object, it is a function declaration and we can
# skip it. However, function declarations may also contain an 'inner' list,
# but in that case it will only contains ParmVarDecls. If we find an entry
# that is not a ParmVarDecl, we know that this is a function definition.
has_body = False
if "inner" in node:
for i in node["inner"]:
if i.get("kind", "ParmVarDecl") != "ParmVarDecl":
has_body = True
break
if not has_body:
common.debug("Skipping function without body:", node["name"], "@", loc)
return
spell = node["name"]
if search is None:
search = spell
mangled = node.get("mangledName", spell)
ret[int(line) - 1].append((spell, mangled, search))
ast = json.loads(stdout)
if ast["kind"] != "TranslationUnitDecl":
common.error("Clang AST dump JSON format changed?")
sys.exit(2)
parse_clang_ast_json(ast, None, None)
for line, funcs in sorted(ret.items()):
for func in funcs:
common.debug(
"line {}: found function {}".format(line + 1, func), file=sys.stderr
)
if not ret:
common.warn("Did not find any functions using", " ".join(json_dump_args))
return ret
def str_to_commandline(value):
if not value:
return []
return shlex.split(value)
def infer_dependent_args(args):
if not args.clang:
if not args.llvm_bin:
args.clang = "clang"
else:
args.clang = os.path.join(args.llvm_bin, "clang")
if not args.opt:
if not args.llvm_bin:
args.opt = "opt"
else:
args.opt = os.path.join(args.llvm_bin, "opt")
def find_executable(executable):
_, ext = os.path.splitext(executable)
if sys.platform == "win32" and ext != ".exe":
executable = executable + ".exe"
return shutil.which(executable)
def config():
parser = argparse.ArgumentParser(
description=__doc__, formatter_class=argparse.RawTextHelpFormatter
)
parser.add_argument("--llvm-bin", help="llvm $prefix/bin path")
parser.add_argument(
"--clang", help='"clang" executable, defaults to $llvm_bin/clang'
)
parser.add_argument(
"--clang-args",
default=[],
type=str_to_commandline,
help="Space-separated extra args to clang, e.g. --clang-args=-v",
)
parser.add_argument("--opt", help='"opt" executable, defaults to $llvm_bin/opt')
parser.add_argument(
"--functions",
nargs="+",
help="A list of function name regexes. "
"If specified, update CHECK lines for functions matching at least one regex",
)
parser.add_argument(
"--x86_extra_scrub",
action="store_true",
help="Use more regex for x86 matching to reduce diffs between various subtargets",
)
parser.add_argument(
"--function-signature",
action="store_true",
help="Keep function signature information around for the check line",
)
parser.add_argument(
"--check-attributes",
action="store_true",
help='Check "Function Attributes" for functions',
)
parser.add_argument(
"--check-globals",
nargs="?",
const="all",
default="default",
choices=["none", "smart", "all"],
help="Check global entries (global variables, metadata, attribute sets, ...) for functions",
)
parser.add_argument("tests", nargs="+")
args = common.parse_commandline_args(parser)
infer_dependent_args(args)
if not find_executable(args.clang):
print("Please specify --llvm-bin or --clang", file=sys.stderr)
sys.exit(1)
# Determine the builtin includes directory so that we can update tests that
# depend on the builtin headers. See get_clang_builtin_include_dir() and
# use_clang() in llvm/utils/lit/lit/llvm/config.py.
try:
builtin_include_dir = (
subprocess.check_output([args.clang, "-print-file-name=include"])
.decode()
.strip()
)
SUBST["%clang_cc1"] = [
"-cc1",
"-internal-isystem",
builtin_include_dir,
"-nostdsysteminc",
]
except subprocess.CalledProcessError:
common.warn(
"Could not determine clang builtins directory, some tests "
"might not update correctly."
)
if not find_executable(args.opt):
# Many uses of this tool will not need an opt binary, because it's only
# needed for updating a test that runs clang | opt | FileCheck. So we
# defer this error message until we find that opt is actually needed.
args.opt = None
return args, parser
def get_function_body(builder, args, filename, clang_args, extra_commands, prefixes):
# TODO Clean up duplication of asm/common build_function_body_dictionary
# Invoke external tool and extract function bodies.
raw_tool_output = common.invoke_tool(args.clang, clang_args, filename)
for extra_command in extra_commands:
extra_args = shlex.split(extra_command)
with tempfile.NamedTemporaryFile() as f:
f.write(raw_tool_output.encode())
f.flush()
if extra_args[0] == "opt":
if args.opt is None:
print(
filename,
"needs to run opt. " "Please specify --llvm-bin or --opt",
file=sys.stderr,
)
sys.exit(1)
extra_args[0] = args.opt
raw_tool_output = common.invoke_tool(extra_args[0], extra_args[1:], f.name)
if "-emit-llvm" in clang_args:
builder.process_run_line(
common.OPT_FUNCTION_RE, common.scrub_body, raw_tool_output, prefixes
)
builder.processed_prefixes(prefixes)
else:
print(
"The clang command line should include -emit-llvm as asm tests "
"are discouraged in Clang testsuite.",
file=sys.stderr,
)
sys.exit(1)
def exec_run_line(exe):
popen = subprocess.Popen(
exe, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True
)
stdout, stderr = popen.communicate()
if popen.returncode != 0:
sys.stderr.write("Failed to run " + " ".join(exe) + "\n")
sys.stderr.write(stderr)
sys.stderr.write(stdout)
sys.exit(3)
def main():
initial_args, parser = config()
script_name = os.path.basename(__file__)
for ti in common.itertests(
initial_args.tests,
parser,
"utils/" + script_name,
comment_prefix="//",
argparse_callback=infer_dependent_args,
):
# Build a list of filechecked and non-filechecked RUN lines.
run_list = []
line2func_list = collections.defaultdict(list)
subs = {
"%s": ti.path,
"%t": tempfile.NamedTemporaryFile().name,
"%S": os.path.dirname(ti.path),
}
for l in ti.run_lines:
commands = [cmd.strip() for cmd in l.split("|")]
triple_in_cmd = None
m = common.TRIPLE_ARG_RE.search(commands[0])
if m:
triple_in_cmd = m.groups()[0]
# Parse executable args.
exec_args = shlex.split(commands[0])
# Execute non-clang runline.
if exec_args[0] not in SUBST:
# Do lit-like substitutions.
for s in subs:
exec_args = [
i.replace(s, subs[s]) if s in i else i for i in exec_args
]
run_list.append((None, exec_args, None, None))
continue
# This is a clang runline, apply %clang substitution rule, do lit-like substitutions,
# and append args.clang_args
clang_args = exec_args
clang_args[0:1] = SUBST[clang_args[0]]
for s in subs:
clang_args = [
i.replace(s, subs[s]) if s in i else i for i in clang_args
]
clang_args += ti.args.clang_args
# Extract -check-prefix in FileCheck args
filecheck_cmd = commands[-1]
common.verify_filecheck_prefixes(filecheck_cmd)
if not filecheck_cmd.startswith("FileCheck "):
# Execute non-filechecked clang runline.
exe = [ti.args.clang] + clang_args
run_list.append((None, exe, None, None))
continue
check_prefixes = common.get_check_prefixes(filecheck_cmd)
run_list.append((check_prefixes, clang_args, commands[1:-1], triple_in_cmd))
# Execute clang, generate LLVM IR, and extract functions.
# Store only filechecked runlines.
filecheck_run_list = [i for i in run_list if i[0]]
ginfo = common.make_ir_generalizer(version=ti.args.version)
builder = common.FunctionTestBuilder(
run_list=filecheck_run_list,
flags=ti.args,
scrubber_args=[],
path=ti.path,
ginfo=ginfo,
)
for prefixes, args, extra_commands, triple_in_cmd in run_list:
# Execute non-filechecked runline.
if not prefixes:
print(
"NOTE: Executing non-FileChecked RUN line: " + " ".join(args),
file=sys.stderr,
)
exec_run_line(args)
continue
clang_args = args
common.debug("Extracted clang cmd: clang {}".format(clang_args))
common.debug("Extracted FileCheck prefixes: {}".format(prefixes))
get_function_body(
builder, ti.args, ti.path, clang_args, extra_commands, prefixes
)
# Invoke clang -Xclang -ast-dump=json to get mapping from start lines to
# mangled names. Forward all clang args for now.
for k, v in get_line2func_list(ti.args, clang_args).items():
line2func_list[k].extend(v)
func_dict = builder.finish_and_get_func_dict()
global_vars_seen_dict = {}
prefix_set = set([prefix for p in filecheck_run_list for prefix in p[0]])
output_lines = []
has_checked_pre_function_globals = False
include_generated_funcs = common.find_arg_in_test(
ti,
lambda args: ti.args.include_generated_funcs,
"--include-generated-funcs",
True,
)
generated_prefixes = []
if include_generated_funcs:
# Generate the appropriate checks for each function. We need to emit
# these in the order according to the generated output so that CHECK-LABEL
# works properly. func_order provides that.
# It turns out that when clang generates functions (for example, with
# -fopenmp), it can sometimes cause functions to be re-ordered in the
# output, even functions that exist in the source file. Therefore we
# can't insert check lines before each source function and instead have to
# put them at the end. So the first thing to do is dump out the source
# lines.
common.dump_input_lines(output_lines, ti, prefix_set, "//")
# Now generate all the checks.
def check_generator(my_output_lines, prefixes, func):
return common.add_ir_checks(
my_output_lines,
"//",
prefixes,
func_dict,
func,
False,
ti.args.function_signature,
ginfo,
global_vars_seen_dict,
is_filtered=builder.is_filtered(),
)
if ti.args.check_globals != 'none':
generated_prefixes.extend(
common.add_global_checks(
builder.global_var_dict(),
"//",
run_list,
output_lines,
ginfo,
global_vars_seen_dict,
False,
True,
ti.args.check_globals,
)
)
generated_prefixes.extend(
common.add_checks_at_end(
output_lines,
filecheck_run_list,
builder.func_order(),
"//",
lambda my_output_lines, prefixes, func: check_generator(
my_output_lines, prefixes, func
),
)
)
else:
# Normal mode. Put checks before each source function.
for line_info in ti.iterlines(output_lines):
idx = line_info.line_number
line = line_info.line
args = line_info.args
include_line = True
m = common.CHECK_RE.match(line)
if m and m.group(1) in prefix_set:
continue # Don't append the existing CHECK lines
# Skip special separator comments added by commmon.add_global_checks.
if line.strip() == "//" + common.SEPARATOR:
continue
if idx in line2func_list:
added = set()
for spell, mangled, search in line2func_list[idx]:
# One line may contain multiple function declarations.
# Skip if the mangled name has been added before.
# The line number may come from an included file, we simply require
# the search string (normally the function's spelling name, but is
# the class's spelling name for class specializations) to appear on
# the line to exclude functions from other files.
if mangled in added or search not in line:
continue
if args.functions is None or any(
re.search(regex, spell) for regex in args.functions
):
last_line = output_lines[-1].strip()
while last_line == "//":
# Remove the comment line since we will generate a new comment
# line as part of common.add_ir_checks()
output_lines.pop()
last_line = output_lines[-1].strip()
if (
ti.args.check_globals != 'none'
and not has_checked_pre_function_globals
):
generated_prefixes.extend(
common.add_global_checks(
builder.global_var_dict(),
"//",
run_list,
output_lines,
ginfo,
global_vars_seen_dict,
False,
True,
ti.args.check_globals,
)
)
has_checked_pre_function_globals = True
if added:
output_lines.append("//")
added.add(mangled)
generated_prefixes.extend(
common.add_ir_checks(
output_lines,
"//",
filecheck_run_list,
func_dict,
mangled,
False,
args.function_signature,
ginfo,
global_vars_seen_dict,
is_filtered=builder.is_filtered(),
)
)
if line.rstrip("\n") == "//":
include_line = False
if include_line:
output_lines.append(line.rstrip("\n"))
if ti.args.check_globals != 'none':
generated_prefixes.extend(
common.add_global_checks(
builder.global_var_dict(),
"//",
run_list,
output_lines,
ginfo,
global_vars_seen_dict,
False,
False,
ti.args.check_globals,
)
)
if ti.args.gen_unused_prefix_body:
output_lines.extend(
ti.get_checks_for_unused_prefixes(run_list, generated_prefixes)
)
common.debug("Writing %d lines to %s..." % (len(output_lines), ti.path))
with open(ti.path, "wb") as f:
f.writelines(["{}\n".format(l).encode("utf-8") for l in output_lines])
return 0
if __name__ == "__main__":
sys.exit(main())