gdb/testsuite/gdb.python/py-xmethods.py - binutils-gdb - Git at Google

 # Copyright 2014-2021 Free Software Foundation, Inc.

 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 3 of the License, or
 # (at your option) any later version.
 #
 # This program is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 # GNU General Public License for more details.
 #
 # You should have received a copy of the GNU General Public License
 # along with this program.  If not, see <http://www.gnu.org/licenses/>.

 # This file is part of the GDB testsuite.  It test the xmethods support
 # in the Python extension language.

 import gdb
 import re

 from gdb.xmethod import XMethod
 from gdb.xmethod import XMethodMatcher, XMethodWorker
 from gdb.xmethod import SimpleXMethodMatcher


 def A_plus_A(obj, opr):
     print("From Python <A_plus_A>:")
     return obj["a"] + opr["a"]


 def plus_plus_A(obj):
     print("From Python <plus_plus_A>:")
     return obj["a"] + 1


 def A_geta(obj):
     print("From Python <A_geta>:")
     return obj["a"]


 def A_getarrayind(obj, index):
     print("From Python <A_getarrayind>:")
     return obj["array"][index]


 def A_indexoper(obj, index):
     return obj["array"][index].reference_value()


 def B_indexoper(obj, index):
     return obj["array"][index].const_value().reference_value()


 type_A = gdb.parse_and_eval("(dop::A *) 0").type.target()
 type_B = gdb.parse_and_eval("(dop::B *) 0").type.target()
 type_int = gdb.parse_and_eval("(int *) 0").type.target()


 # The E class matcher and worker test two things:
 #   1. xmethod returning None.
 #   2. Matcher returning a list of workers.


 class E_method_char_worker(XMethodWorker):
     def __init__(self):
         pass

     def get_arg_types(self):
         return gdb.lookup_type("char")

     def get_result_type(self, obj, arg):
         return gdb.lookup_type("void")

     def __call__(self, obj, arg):
         print("From Python <E_method_char>")
         return None


 class E_method_int_worker(XMethodWorker):
     def __init__(self):
         pass

     def get_arg_types(self):
         return gdb.lookup_type("int")

     # Note: get_result_type method elided on purpose

     def __call__(self, obj, arg):
         print("From Python <E_method_int>")
         return None


 class E_method_matcher(XMethodMatcher):
     def __init__(self):
         XMethodMatcher.__init__(self, "E_methods")
         self.methods = [XMethod("method_int"), XMethod("method_char")]

     def match(self, class_type, method_name):
         class_tag = class_type.unqualified().tag
         if not re.match("^dop::E$", class_tag):
             return None
         if not re.match("^method$", method_name):
             return None
         workers = []
         if self.methods[0].enabled:
             workers.append(E_method_int_worker())
         if self.methods[1].enabled:
             workers.append(E_method_char_worker())
         return workers


 # The G class method matcher and worker illustrate how to write
 # xmethod matchers and workers for template classes and template
 # methods.


 class G_size_diff_worker(XMethodWorker):
     def __init__(self, class_template_type, method_template_type):
         self._class_template_type = class_template_type
         self._method_template_type = method_template_type

     def get_arg_types(self):
         pass

     def __call__(self, obj):
         print("From Python G<>::size_diff()")
         return self._method_template_type.sizeof - self._class_template_type.sizeof


 class G_size_mul_worker(XMethodWorker):
     def __init__(self, class_template_type, method_template_val):
         self._class_template_type = class_template_type
         self._method_template_val = method_template_val

     def get_arg_types(self):
         pass

     def __call__(self, obj):
         print("From Python G<>::size_mul()")
         return self._class_template_type.sizeof * self._method_template_val


 class G_mul_worker(XMethodWorker):
     def __init__(self, class_template_type, method_template_type):
         self._class_template_type = class_template_type
         self._method_template_type = method_template_type

     def get_arg_types(self):
         return self._method_template_type

     def __call__(self, obj, arg):
         print("From Python G<>::mul()")
         return obj["t"] * arg


 class G_methods_matcher(XMethodMatcher):
     def __init__(self):
         XMethodMatcher.__init__(self, "G_methods")
         self.methods = [XMethod("size_diff"), XMethod("size_mul"), XMethod("mul")]

     def _is_enabled(self, name):
         for method in self.methods:
             if method.name == name and method.enabled:
                 return True

     def match(self, class_type, method_name):
         class_tag = class_type.unqualified().tag
         if not re.match("^dop::G<[ ]*[_a-zA-Z][ _a-zA-Z0-9]*>$", class_tag):
             return None
         t_name = class_tag[7:-1]
         try:
             t_type = gdb.lookup_type(t_name)
         except gdb.error:
             return None
         if re.match("^size_diff<[ ]*[_a-zA-Z][ _a-zA-Z0-9]*>$", method_name):
             if not self._is_enabled("size_diff"):
                 return None
             t1_name = method_name[10:-1]
             try:
                 t1_type = gdb.lookup_type(t1_name)
                 return G_size_diff_worker(t_type, t1_type)
             except gdb.error:
                 return None
         if re.match("^size_mul<[ ]*[0-9]+[ ]*>$", method_name):
             if not self._is_enabled("size_mul"):
                 return None
             m_val = int(method_name[9:-1])
             return G_size_mul_worker(t_type, m_val)
         if re.match("^mul<[ ]*[_a-zA-Z][ _a-zA-Z0-9]*>$", method_name):
             if not self._is_enabled("mul"):
                 return None
             t1_name = method_name[4:-1]
             try:
                 t1_type = gdb.lookup_type(t1_name)
                 return G_mul_worker(t_type, t1_type)
             except gdb.error:
                 return None


 global_dm_list = [
     SimpleXMethodMatcher(
         r"A_plus_A",
         r"^dop::A$",
         r"operator\+",
         A_plus_A,
         # This is a replacement, hence match the arg type
         # exactly!
         type_A.const().reference(),
     ),
     SimpleXMethodMatcher(r"plus_plus_A", r"^dop::A$", r"operator\+\+", plus_plus_A),
     SimpleXMethodMatcher(r"A_geta", r"^dop::A$", r"^geta$", A_geta),
     SimpleXMethodMatcher(
         r"A_getarrayind", r"^dop::A$", r"^getarrayind$", A_getarrayind, type_int
     ),
     SimpleXMethodMatcher(
         r"A_indexoper", r"^dop::A$", r"operator\[\]", A_indexoper, type_int
     ),
     SimpleXMethodMatcher(
         r"B_indexoper", r"^dop::B$", r"operator\[\]", B_indexoper, type_int
     ),
 ]

 for matcher in global_dm_list:
     gdb.xmethod.register_xmethod_matcher(gdb, matcher)
 gdb.xmethod.register_xmethod_matcher(gdb.current_progspace(), G_methods_matcher())
 gdb.xmethod.register_xmethod_matcher(gdb.current_progspace(), E_method_matcher())
	# Copyright 2014-2021 Free Software Foundation, Inc.

	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 3 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program. If not, see <http://www.gnu.org/licenses/>.

	# This file is part of the GDB testsuite. It test the xmethods support
	# in the Python extension language.

	import gdb
	import re

	from gdb.xmethod import XMethod
	from gdb.xmethod import XMethodMatcher, XMethodWorker
	from gdb.xmethod import SimpleXMethodMatcher


	def A_plus_A(obj, opr):
	print("From Python <A_plus_A>:")
	return obj["a"] + opr["a"]


	def plus_plus_A(obj):
	print("From Python <plus_plus_A>:")
	return obj["a"] + 1


	def A_geta(obj):
	print("From Python <A_geta>:")
	return obj["a"]


	def A_getarrayind(obj, index):
	print("From Python <A_getarrayind>:")
	return obj["array"][index]


	def A_indexoper(obj, index):
	return obj["array"][index].reference_value()


	def B_indexoper(obj, index):
	return obj["array"][index].const_value().reference_value()


	type_A = gdb.parse_and_eval("(dop::A *) 0").type.target()
	type_B = gdb.parse_and_eval("(dop::B *) 0").type.target()
	type_int = gdb.parse_and_eval("(int *) 0").type.target()


	# The E class matcher and worker test two things:
	# 1. xmethod returning None.
	# 2. Matcher returning a list of workers.


	class E_method_char_worker(XMethodWorker):
	def __init__(self):
	pass

	def get_arg_types(self):
	return gdb.lookup_type("char")

	def get_result_type(self, obj, arg):
	return gdb.lookup_type("void")

	def __call__(self, obj, arg):
	print("From Python <E_method_char>")
	return None


	class E_method_int_worker(XMethodWorker):
	def __init__(self):
	pass

	def get_arg_types(self):
	return gdb.lookup_type("int")

	# Note: get_result_type method elided on purpose

	def __call__(self, obj, arg):
	print("From Python <E_method_int>")
	return None


	class E_method_matcher(XMethodMatcher):
	def __init__(self):
	XMethodMatcher.__init__(self, "E_methods")
	self.methods = [XMethod("method_int"), XMethod("method_char")]

	def match(self, class_type, method_name):
	class_tag = class_type.unqualified().tag
	if not re.match("^dop::E$", class_tag):
	return None
	if not re.match("^method$", method_name):
	return None
	workers = []
	if self.methods[0].enabled:
	workers.append(E_method_int_worker())
	if self.methods[1].enabled:
	workers.append(E_method_char_worker())
	return workers


	# The G class method matcher and worker illustrate how to write
	# xmethod matchers and workers for template classes and template
	# methods.


	class G_size_diff_worker(XMethodWorker):
	def __init__(self, class_template_type, method_template_type):
	self._class_template_type = class_template_type
	self._method_template_type = method_template_type

	def get_arg_types(self):
	pass

	def __call__(self, obj):
	print("From Python G<>::size_diff()")
	return self._method_template_type.sizeof - self._class_template_type.sizeof


	class G_size_mul_worker(XMethodWorker):
	def __init__(self, class_template_type, method_template_val):
	self._class_template_type = class_template_type
	self._method_template_val = method_template_val

	def get_arg_types(self):
	pass

	def __call__(self, obj):
	print("From Python G<>::size_mul()")
	return self._class_template_type.sizeof * self._method_template_val


	class G_mul_worker(XMethodWorker):
	def __init__(self, class_template_type, method_template_type):
	self._class_template_type = class_template_type
	self._method_template_type = method_template_type

	def get_arg_types(self):
	return self._method_template_type

	def __call__(self, obj, arg):
	print("From Python G<>::mul()")
	return obj["t"] * arg


	class G_methods_matcher(XMethodMatcher):
	def __init__(self):
	XMethodMatcher.__init__(self, "G_methods")
	self.methods = [XMethod("size_diff"), XMethod("size_mul"), XMethod("mul")]

	def _is_enabled(self, name):
	for method in self.methods:
	if method.name == name and method.enabled:
	return True

	def match(self, class_type, method_name):
	class_tag = class_type.unqualified().tag
	if not re.match("^dop::G<[ ][_a-zA-Z][ _a-zA-Z0-9]>$", class_tag):
	return None
	t_name = class_tag[7:-1]
	try:
	t_type = gdb.lookup_type(t_name)
	except gdb.error:
	return None
	if re.match("^size_diff<[ ][_a-zA-Z][ _a-zA-Z0-9]>$", method_name):
	if not self._is_enabled("size_diff"):
	return None
	t1_name = method_name[10:-1]
	try:
	t1_type = gdb.lookup_type(t1_name)
	return G_size_diff_worker(t_type, t1_type)
	except gdb.error:
	return None
	if re.match("^size_mul<[ ][0-9]+[ ]>$", method_name):
	if not self._is_enabled("size_mul"):
	return None
	m_val = int(method_name[9:-1])
	return G_size_mul_worker(t_type, m_val)
	if re.match("^mul<[ ][_a-zA-Z][ _a-zA-Z0-9]>$", method_name):
	if not self._is_enabled("mul"):
	return None
	t1_name = method_name[4:-1]
	try:
	t1_type = gdb.lookup_type(t1_name)
	return G_mul_worker(t_type, t1_type)
	except gdb.error:
	return None


	global_dm_list = [
	SimpleXMethodMatcher(
	r"A_plus_A",
	r"^dop::A$",
	r"operator\+",
	A_plus_A,
	# This is a replacement, hence match the arg type
	# exactly!
	type_A.const().reference(),
	),
	SimpleXMethodMatcher(r"plus_plus_A", r"^dop::A$", r"operator\+\+", plus_plus_A),
	SimpleXMethodMatcher(r"A_geta", r"^dop::A$", r"^geta$", A_geta),
	SimpleXMethodMatcher(
	r"A_getarrayind", r"^dop::A$", r"^getarrayind$", A_getarrayind, type_int
	),
	SimpleXMethodMatcher(
	r"A_indexoper", r"^dop::A$", r"operator\[\]", A_indexoper, type_int
	),
	SimpleXMethodMatcher(
	r"B_indexoper", r"^dop::B$", r"operator\[\]", B_indexoper, type_int
	),
	]

	for matcher in global_dm_list:
	gdb.xmethod.register_xmethod_matcher(gdb, matcher)
	gdb.xmethod.register_xmethod_matcher(gdb.current_progspace(), G_methods_matcher())
	gdb.xmethod.register_xmethod_matcher(gdb.current_progspace(), E_method_matcher())