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# vim: set ts=8 sts=4 et sw=4 tw=99:
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# ----------------------------------------------------------------------------
# This script checks that SpiderMonkey MacroAssembler methods are properly
# annotated.
#
# The MacroAssembler has one interface for all platforms, but it might have one
# definition per platform. The code of the MacroAssembler use a macro to
# annotate the method declarations, in order to delete the function if it is not
# present on the current platform, and also to locate the files in which the
# methods are defined.
#
# This script scans the MacroAssembler.h header, for method declarations.
# It also scans MacroAssembler-/arch/.cpp, MacroAssembler-/arch/-inl.h, and
# MacroAssembler-inl.h for method definitions. The result of both scans are
# uniformized, and compared, to determine if the MacroAssembler.h header as
# proper methods annotations.
# ----------------------------------------------------------------------------
import difflib
import os
import re
import sys
architecture_independent = set(["generic"])
all_unsupported_architectures_names = set(["mips32", "mips64", "mips_shared"])
all_architecture_names = set(
["x86", "x64", "arm", "arm64", "loong64", "riscv64", "wasm32"]
)
all_shared_architecture_names = set(
["x86_shared", "arm", "arm64", "loong64", "riscv64", "wasm32"]
)
reBeforeArg = r"(?<=[(,\s])"
reArgType = r"(?P<type>[\w\s:*&<>]+)"
reArgName = r"(?P<name>\s\w+)"
reArgDefault = r"(?P<default>(?:\s=(?:(?:\s[\w:]+\(\))|[^,)]+))?)"
reAfterArg = "(?=[,)])"
reMatchArg = re.compile(reBeforeArg + reArgType + reArgName + reArgDefault + reAfterArg)
def get_normalized_signatures(signature, fileAnnot=None):
# Remove static
signature = signature.replace("static", "")
# Remove semicolon.
signature = signature.replace(";", " ")
# Normalize spaces.
signature = re.sub(r"\s+", " ", signature).strip()
# Remove new-line induced spaces after opening braces.
signature = re.sub(r"\(\s+", "(", signature).strip()
# Match arguments, and keep only the type.
signature = reMatchArg.sub(r"\g<type>", signature)
# Remove class name
signature = signature.replace("MacroAssembler::", "")
# Extract list of architectures
archs = ["generic"]
if fileAnnot:
archs = [fileAnnot["arch"]]
if "DEFINED_ON(" in signature:
archs = re.sub(
r".*DEFINED_ON\((?P<archs>[^()]*)\).*", r"\g<archs>", signature
).split(",")
archs = [a.strip() for a in archs]
signature = re.sub(r"\s+DEFINED_ON\([^()]*\)", "", signature)
elif "PER_ARCH" in signature:
archs = all_architecture_names
signature = re.sub(r"\s+PER_ARCH", "", signature)
elif "PER_SHARED_ARCH" in signature:
archs = all_shared_architecture_names
signature = re.sub(r"\s+PER_SHARED_ARCH", "", signature)
elif "OOL_IN_HEADER" in signature:
assert archs == ["generic"]
signature = re.sub(r"\s+OOL_IN_HEADER", "", signature)
else:
# No signature annotation, the list of architectures remains unchanged.
pass
# Extract inline annotation
inline = False
if fileAnnot:
inline = fileAnnot["inline"]
if "inline " in signature:
signature = re.sub(r"inline\s+", "", signature)
inline = True
inlinePrefx = ""
if inline:
inlinePrefx = "inline "
signatures = [{"arch": a, "sig": inlinePrefx + signature} for a in archs]
return signatures
file_suffixes = set(
[
a.replace("_", "-")
for a in all_architecture_names.union(all_shared_architecture_names).union(
all_unsupported_architectures_names
)
]
)
def get_file_annotation(filename):
origFilename = filename
filename = filename.split("/")[-1]
inline = False
if filename.endswith(".cpp"):
filename = filename[: -len(".cpp")]
elif filename.endswith("-inl.h"):
inline = True
filename = filename[: -len("-inl.h")]
elif filename.endswith(".h"):
# This allows the definitions block in MacroAssembler.h to be
# style-checked.
inline = True
filename = filename[: -len(".h")]
else:
raise Exception("unknown file name", origFilename)
arch = "generic"
for suffix in file_suffixes:
if filename == "MacroAssembler-" + suffix:
arch = suffix
break
return {"inline": inline, "arch": arch.replace("-", "_")}
def get_macroassembler_definitions(filename):
try:
fileAnnot = get_file_annotation(filename)
except Exception:
return []
style_section = False
lines = ""
signatures = []
with open(filename, encoding="utf-8") as f:
for line in f:
if "//{{{ check_macroassembler_style" in line:
if style_section:
raise "check_macroassembler_style section already opened."
style_section = True
braces_depth = 0
elif "//}}} check_macroassembler_style" in line:
style_section = False
if not style_section:
continue
# Ignore preprocessor directives.
if line.startswith("#"):
continue
# Remove comments from the processed line.
line = re.sub(r"//.*", "", line)
# Locate and count curly braces.
open_curly_brace = line.find("{")
was_braces_depth = braces_depth
braces_depth = braces_depth + line.count("{") - line.count("}")
# Raise an error if the check_macroassembler_style macro is used
# across namespaces / classes scopes.
if braces_depth < 0:
raise "check_macroassembler_style annotations are not well scoped."
# If the current line contains an opening curly brace, check if
# this line combines with the previous one can be identified as a
# MacroAssembler function signature.
if open_curly_brace != -1 and was_braces_depth == 0:
lines = lines + line[:open_curly_brace]
if "MacroAssembler::" in lines:
signatures.extend(get_normalized_signatures(lines, fileAnnot))
lines = ""
continue
# We do not aggregate any lines if we are scanning lines which are
# in-between a set of curly braces.
if braces_depth > 0:
continue
if was_braces_depth != 0:
line = line[line.rfind("}") + 1 :]
# This logic is used to remove template instantiation, static
# variable definitions and function declaration from the next
# function definition.
last_semi_colon = line.rfind(";")
if last_semi_colon != -1:
lines = ""
line = line[last_semi_colon + 1 :]
# Aggregate lines of non-braced text, which corresponds to the space
# where we are expecting to find function definitions.
lines = lines + line
return signatures
def get_macroassembler_declaration(filename):
style_section = False
lines = ""
signatures = []
with open(filename, encoding="utf-8") as f:
for line in f:
if "//{{{ check_macroassembler_decl_style" in line:
style_section = True
elif "//}}} check_macroassembler_decl_style" in line:
style_section = False
if not style_section:
continue
# Ignore preprocessor directives.
if line.startswith("#"):
continue
line = re.sub(r"//.*", "", line)
if len(line.strip()) == 0 or "public:" in line or "private:" in line:
lines = ""
continue
lines = lines + line
# Continue until we have a complete declaration
if ";" not in lines:
continue
# Skip member declarations: which are lines ending with a
# semi-colon without any list of arguments.
if ")" not in lines:
lines = ""
continue
signatures.extend(get_normalized_signatures(lines))
lines = ""
return signatures
def append_signatures(d, sigs):
for s in sigs:
if s["sig"] not in d:
d[s["sig"]] = []
d[s["sig"]].append(s["arch"])
return d
def generate_file_content(signatures):
output = []
for s in sorted(signatures.keys()):
archs = set(sorted(signatures[s]))
archs -= all_unsupported_architectures_names
if len(archs.symmetric_difference(architecture_independent)) == 0:
output.append(s + ";\n")
if s.startswith("inline"):
# functions. (Such annotation is already removed by the time
# this function sees the signature here.)
output.append(" is defined in MacroAssembler-inl.h\n")
else:
output.append(" is defined in MacroAssembler.cpp\n")
else:
if len(archs.symmetric_difference(all_architecture_names)) == 0:
output.append(s + " PER_ARCH;\n")
elif len(archs.symmetric_difference(all_shared_architecture_names)) == 0:
output.append(s + " PER_SHARED_ARCH;\n")
else:
output.append(s + " DEFINED_ON(" + ", ".join(sorted(archs)) + ");\n")
for a in sorted(archs):
a = a.replace("_", "-")
masm = "%s/MacroAssembler-%s" % (a, a)
if s.startswith("inline"):
output.append(" is defined in %s-inl.h\n" % masm)
else:
output.append(" is defined in %s.cpp\n" % masm)
return output
def check_style():
# We read from the header file the signature of each function.
decls = dict() # type: dict(signature => ['x86', 'x64'])
# We infer from each file the signature of each MacroAssembler function.
defs = dict() # type: dict(signature => ['x86', 'x64'])
root_dir = os.path.join("js", "src", "jit")
for dirpath, dirnames, filenames in os.walk(root_dir):
for filename in filenames:
if "MacroAssembler" not in filename:
continue
filepath = os.path.join(dirpath, filename).replace("\\", "/")
if filepath.endswith("MacroAssembler.h"):
decls = append_signatures(
decls, get_macroassembler_declaration(filepath)
)
defs = append_signatures(defs, get_macroassembler_definitions(filepath))
if not decls or not defs:
raise Exception("Did not find any definitions or declarations")
# Compare declarations and definitions output.
difflines = difflib.unified_diff(
generate_file_content(decls),
generate_file_content(defs),
fromfile="check_macroassembler_style.py declared syntax",
tofile="check_macroassembler_style.py found definitions",
)
ok = True
for diffline in difflines:
ok = False
print(diffline, end="")
return ok
def main():
ok = check_style()
if ok:
print("TEST-PASS | check_macroassembler_style.py | ok")
else:
print(
"TEST-UNEXPECTED-FAIL | check_macroassembler_style.py | actual output does not match expected output; diff is above" # noqa: E501
)
sys.exit(0 if ok else 1)
if __name__ == "__main__":
main()