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LeafOS / LeafOS-Project / android_art / 11c8959243751f7a8946bae40f4346bc8d00cea4 / . / test / 961-default-iface-resolution-gen / util-src / generate_java.py
blob: a205cd6ce06529e8925bfaec20e8f4f706b6c041 [file] [log] [blame]
#!/usr/bin/python3
#
# Copyright (C) 2015 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Generate Java test files for test 961.
"""
import os
import sys
from pathlib import Path
BUILD_TOP = os.getenv("ANDROID_BUILD_TOP")
if BUILD_TOP is None:
print("ANDROID_BUILD_TOP not set. Please run build/envsetup.sh", file=sys.stderr)
sys.exit(1)
# Allow us to import utils and mixins.
sys.path.append(str(Path(BUILD_TOP)/"art"/"test"/"utils"/"python"))
from testgen.utils import get_copyright, subtree_sizes, gensym, filter_blanks
import testgen.mixins as mixins
from functools import total_ordering
import itertools
import string
# The max depth the type tree can have. Includes the class object in the tree.
# Increasing this increases the number of generated files significantly. This
# value was chosen as it is fairly quick to run and very comprehensive, checking
# every possible interface tree up to 5 layers deep.
MAX_IFACE_DEPTH = 5
class MainClass(mixins.DumpMixin, mixins.Named, mixins.JavaFileMixin):
"""
A Main.java file containing the Main class and the main function. It will run
all the test functions we have.
"""
MAIN_CLASS_TEMPLATE = """{copyright}
class Main {{
{test_groups}
{main_func}
}}
"""
MAIN_FUNCTION_TEMPLATE = """
public static void main(String[] args) {{
{test_group_invoke}
}}
"""
TEST_GROUP_INVOKE_TEMPLATE = """
{test_name}();
"""
def __init__(self):
"""
Initialize this MainClass. We start out with no tests.
"""
self.tests = set()
def get_expected(self):
"""
Get the expected output of this test.
"""
all_tests = sorted(self.tests)
return filter_blanks("\n".join(a.get_expected() for a in all_tests))
def add_test(self, ty):
"""
Add a test for the concrete type 'ty'
"""
self.tests.add(Func(ty))
def get_name(self):
"""
Get the name of this class
"""
return "Main"
def __str__(self):
"""
Print the MainClass java code.
"""
all_tests = sorted(self.tests)
test_invoke = ""
test_groups = ""
for t in all_tests:
test_groups += str(t)
for t in all_tests:
test_invoke += self.TEST_GROUP_INVOKE_TEMPLATE.format(test_name=t.get_name())
main_func = self.MAIN_FUNCTION_TEMPLATE.format(test_group_invoke=test_invoke)
return self.MAIN_CLASS_TEMPLATE.format(copyright = get_copyright("java"),
test_groups = test_groups,
main_func = main_func)
class Func(mixins.Named, mixins.NameComparableMixin):
"""
A function that tests the functionality of a concrete type. Should only be
constructed by MainClass.add_test.
"""
TEST_FUNCTION_TEMPLATE = """
public static void {fname}() {{
try {{
{farg} v = new {farg}();
System.out.printf("%s calls default method on %s\\n",
v.CalledClassName(),
v.CalledInterfaceName());
return;
}} catch (Error e) {{
e.printStackTrace(System.out);
return;
}}
}}
"""
def __init__(self, farg):
"""
Initialize a test function for the given argument
"""
self.farg = farg
def get_expected(self):
"""
Get the expected output calling this function.
"""
return "{tree} calls default method on {iface_tree}".format(
tree = self.farg.get_tree(), iface_tree = self.farg.get_called().get_tree())
def get_name(self):
"""
Get the name of this function
"""
return "TEST_FUNC_{}".format(self.farg.get_name())
def __str__(self):
"""
Print the java code of this function.
"""
return self.TEST_FUNCTION_TEMPLATE.format(fname=self.get_name(), farg=self.farg.get_name())
class TestClass(mixins.DumpMixin, mixins.Named, mixins.NameComparableMixin, mixins.JavaFileMixin):
"""
A class that will be instantiated to test default method resolution order.
"""
TEST_CLASS_TEMPLATE = """{copyright}
public class {class_name} implements {iface_name} {{
public String CalledClassName() {{
return "{tree}";
}}
}}
"""
def __init__(self, iface):
"""
Initialize this test class which implements the given interface
"""
self.iface = iface
self.class_name = "CLASS_"+gensym()
def get_name(self):
"""
Get the name of this class
"""
return self.class_name
def get_tree(self):
"""
Print out a representation of the type tree of this class
"""
return "[{class_name} {iface_tree}]".format(class_name = self.class_name,
iface_tree = self.iface.get_tree())
def __iter__(self):
"""
Step through all interfaces implemented transitively by this class
"""
yield self.iface
yield from self.iface
def get_called(self):
"""
Get the interface whose default method would be called when calling the
CalledInterfaceName function.
"""
all_ifaces = set(iface for iface in self if iface.default)
for i in all_ifaces:
if all(map(lambda j: i not in j.get_super_types(), all_ifaces)):
return i
raise Exception("UNREACHABLE! Unable to find default method!")
def __str__(self):
"""
Print the java code of this class.
"""
return self.TEST_CLASS_TEMPLATE.format(copyright = get_copyright('java'),
iface_name = self.iface.get_name(),
tree = self.get_tree(),
class_name = self.class_name)
class TestInterface(mixins.DumpMixin, mixins.Named, mixins.NameComparableMixin, mixins.JavaFileMixin):
"""
An interface that will be used to test default method resolution order.
"""
TEST_INTERFACE_TEMPLATE = """{copyright}
public interface {class_name} {extends} {ifaces} {{
public String CalledClassName();
{funcs}
}}
"""
DEFAULT_FUNC_TEMPLATE = """
public default String CalledInterfaceName() {{
return "{tree}";
}}
"""
def __init__(self, ifaces, default):
"""
Initialize interface with the given super-interfaces
"""
self.ifaces = sorted(ifaces)
self.default = default
end = "_DEFAULT" if default else ""
self.class_name = "INTERFACE_"+gensym()+end
def get_super_types(self):
"""
Returns a set of all the supertypes of this interface
"""
return set(i2 for i2 in self)
def get_name(self):
"""
Get the name of this class
"""
return self.class_name
def get_tree(self):
"""
Print out a representation of the type tree of this class
"""
return "[{class_name} {iftree}]".format(class_name = self.get_name(),
iftree = print_tree(self.ifaces))
def __iter__(self):
"""
Performs depth-first traversal of the interface tree this interface is the
root of. Does not filter out repeats.
"""
for i in self.ifaces:
yield i
yield from i
def __str__(self):
"""
Print the java code of this interface.
"""
j_ifaces = " "
for i in self.ifaces:
j_ifaces += " {},".format(i.get_name())
j_ifaces = j_ifaces[0:-1]
if self.default:
funcs = self.DEFAULT_FUNC_TEMPLATE.format(ifaces = j_ifaces,
tree = self.get_tree(),
class_name = self.class_name)
else:
funcs = ""
return self.TEST_INTERFACE_TEMPLATE.format(copyright = get_copyright('java'),
extends = "extends" if len(self.ifaces) else "",
ifaces = j_ifaces,
funcs = funcs,
tree = self.get_tree(),
class_name = self.class_name)
def print_tree(ifaces):
"""
Prints a list of iface trees
"""
return " ".join(i.get_tree() for i in ifaces)
# The deduplicated output of subtree_sizes for each size up to
# MAX_LEAF_IFACE_PER_OBJECT.
SUBTREES = [set(tuple(sorted(l)) for l in subtree_sizes(i))
for i in range(MAX_IFACE_DEPTH + 1)]
def create_interface_trees():
"""
Return all legal interface trees
"""
def dump_supers(s):
"""
Does depth first traversal of all the interfaces in the list.
"""
for i in s:
yield i
yield from i
def create_interface_trees_inner(num, allow_default):
for split in SUBTREES[num]:
ifaces = []
for sub in split:
if sub == 1:
ifaces.append([TestInterface([], allow_default)])
if allow_default:
ifaces[-1].append(TestInterface([], False))
else:
ifaces.append(list(create_interface_trees_inner(sub, allow_default)))
for supers in itertools.product(*ifaces):
all_supers = sorted(set(dump_supers(supers)) - set(supers))
for i in range(len(all_supers) + 1):
for combo in itertools.combinations(all_supers, i):
yield TestInterface(list(combo) + list(supers), allow_default)
if allow_default:
for i in range(len(split)):
ifaces = []
for sub, cs in zip(split, itertools.count()):
if sub == 1:
ifaces.append([TestInterface([], i == cs)])
else:
ifaces.append(list(create_interface_trees_inner(sub, i == cs)))
for supers in itertools.product(*ifaces):
all_supers = sorted(set(dump_supers(supers)) - set(supers))
for i in range(len(all_supers) + 1):
for combo in itertools.combinations(all_supers, i):
yield TestInterface(list(combo) + list(supers), False)
for num in range(1, MAX_IFACE_DEPTH):
yield from create_interface_trees_inner(num, True)
def create_all_test_files():
"""
Creates all the objects representing the files in this test. They just need to
be dumped.
"""
mc = MainClass()
classes = {mc}
for tree in create_interface_trees():
classes.add(tree)
for i in tree:
classes.add(i)
test_class = TestClass(tree)
mc.add_test(test_class)
classes.add(test_class)
return mc, classes
def main(argv):
java_dir = Path(argv[1])
if not java_dir.exists() or not java_dir.is_dir():
print("{} is not a valid java dir".format(java_dir), file=sys.stderr)
sys.exit(1)
expected_txt = Path(argv[2])
mainclass, all_files = create_all_test_files()
with expected_txt.open('w') as out:
print(mainclass.get_expected(), file=out)
for f in all_files:
f.dump(java_dir)
if __name__ == '__main__':
main(sys.argv)