share/gdb/python/gdb/FrameDecorator.py - platform/prebuilts/gcc/darwin-x86/mips/mipsel-linux-android-4.8 - Git at Google

 # Copyright (C) 2013-2014 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/>.

 import gdb

 # This small code snippet deals with problem of strings in Python 2.x
 # and Python 3.x.  Python 2.x has str and unicode classes which are
 # sub-classes of basestring.  In Python 3.x all strings are encoded
 # and basestring has been removed.
 try:
     basestring
 except NameError:
     basestring = str

 class FrameDecorator(object):
     """Basic implementation of a Frame Decorator"""

     """ This base frame decorator decorates a frame or another frame
     decorator, and provides convenience methods.  If this object is
     wrapping a frame decorator, defer to that wrapped object's method
     if it has one.  This allows for frame decorators that have
     sub-classed FrameDecorator object, but also wrap other frame
     decorators on the same frame to correctly execute.

     E.g

     If the result of frame filters running means we have one gdb.Frame
     wrapped by multiple frame decorators, all sub-classed from
     FrameDecorator, the resulting hierarchy will be:

     Decorator1
       -- (wraps) Decorator2
         -- (wraps) FrameDecorator
           -- (wraps) gdb.Frame

     In this case we have two frame decorators, both of which are
     sub-classed from FrameDecorator.  If Decorator1 just overrides the
     'function' method, then all of the other methods are carried out
     by the super-class FrameDecorator.  But Decorator2 may have
     overriden other methods, so FrameDecorator will look at the
     'base' parameter and defer to that class's methods.  And so on,
     down the chain."""

     # 'base' can refer to a gdb.Frame or another frame decorator.  In
     # the latter case, the child class will have called the super
     # method and _base will be an object conforming to the Frame Filter
     # class.
     def __init__(self, base):
         self._base = base

     @staticmethod
     def _is_limited_frame(frame):
         """Internal utility to determine if the frame is special or
         limited."""
         sal = frame.find_sal()

         if (not sal.symtab or not sal.symtab.filename
             or frame.type() == gdb.DUMMY_FRAME
             or frame.type() == gdb.SIGTRAMP_FRAME):

             return True

         return False

     def elided(self):
         """Return any elided frames that this class might be
         wrapping, or None."""
         if hasattr(self._base, "elided"):
             return self._base.elided()

         return None

     def function(self):
         """ Return the name of the frame's function or an address of
         the function of the frame.  First determine if this is a
         special frame.  If not, try to determine filename from GDB's
         frame internal function API.  Finally, if a name cannot be
         determined return the address.  If this function returns an
         address, GDB will attempt to determine the function name from
         its internal minimal symbols store (for example, for inferiors
         without debug-info)."""

         # Both gdb.Frame, and FrameDecorator have a method called
         # "function", so determine which object this is.
         if not isinstance(self._base, gdb.Frame):
             if hasattr(self._base, "function"):
                 # If it is not a gdb.Frame, and there is already a
                 # "function" method, use that.
                 return self._base.function()

         frame = self.inferior_frame()

         if frame.type() == gdb.DUMMY_FRAME:
             return "<function called from gdb>"
         elif frame.type() == gdb.SIGTRAMP_FRAME:
             return "<signal handler called>"

         func = frame.function()

         # If we cannot determine the function name, return the
         # address.  If GDB detects an integer value from this function
         # it will attempt to find the function name from minimal
         # symbols via its own internal functions.
         if func == None:
             pc = frame.pc()
             return pc

         return str(func)

     def address(self):
         """ Return the address of the frame's pc"""

         if hasattr(self._base, "address"):
             return self._base.address()

         frame = self.inferior_frame()
         return frame.pc()

     def filename(self):
         """ Return the filename associated with this frame, detecting
         and returning the appropriate library name is this is a shared
         library."""

         if hasattr(self._base, "filename"):
             return self._base.filename()

         frame = self.inferior_frame()
         sal = frame.find_sal()
         if not sal.symtab or not sal.symtab.filename:
             pc = frame.pc()
             return gdb.solib_name(pc)
         else:
             return sal.symtab.filename

     def frame_args(self):
         """ Return an iterable of frame arguments for this frame, if
         any.  The iterable object contains objects conforming with the
         Symbol/Value interface.  If there are no frame arguments, or
         if this frame is deemed to be a special case, return None."""

         if hasattr(self._base, "frame_args"):
             return self._base.frame_args()

         frame = self.inferior_frame()
         if self._is_limited_frame(frame):
             return None

         args = FrameVars(frame)
         return args.fetch_frame_args()

     def frame_locals(self):
         """ Return an iterable of local variables for this frame, if
         any.  The iterable object contains objects conforming with the
         Symbol/Value interface.  If there are no frame locals, or if
         this frame is deemed to be a special case, return None."""

         if hasattr(self._base, "frame_locals"):
             return self._base.frame_locals()

         frame = self.inferior_frame()
         if self._is_limited_frame(frame):
             return None

         args = FrameVars(frame)
         return args.fetch_frame_locals()

     def line(self):
         """ Return line number information associated with the frame's
         pc.  If symbol table/line information does not exist, or if
         this frame is deemed to be a special case, return None"""

         if hasattr(self._base, "line"):
             return self._base.line()

         frame = self.inferior_frame()
         if self._is_limited_frame(frame):
             return None

         sal = frame.find_sal()
         if (sal):
             return sal.line
         else:
             return None

     def inferior_frame(self):
         """ Return the gdb.Frame underpinning this frame decorator."""

         # If 'base' is a frame decorator, we want to call its inferior
         # frame method.  If '_base' is a gdb.Frame, just return that.
         if hasattr(self._base, "inferior_frame"):
             return self._base.inferior_frame()
         return self._base

 class SymValueWrapper(object):
     """A container class conforming to the Symbol/Value interface
     which holds frame locals or frame arguments."""
     def __init__(self, symbol, value):
         self.sym = symbol
         self.val = value

     def value(self):
         """ Return the value associated with this symbol, or None"""
         return self.val

     def symbol(self):
         """ Return the symbol, or Python text, associated with this
         symbol, or None"""
         return self.sym

 class FrameVars(object):

     """Utility class to fetch and store frame local variables, or
     frame arguments."""

     def __init__(self, frame):
         self.frame = frame
         self.symbol_class = {
             gdb.SYMBOL_LOC_STATIC: True,
             gdb.SYMBOL_LOC_REGISTER: True,
             gdb.SYMBOL_LOC_ARG: True,
             gdb.SYMBOL_LOC_REF_ARG: True,
             gdb.SYMBOL_LOC_LOCAL: True,
 	    gdb.SYMBOL_LOC_REGPARM_ADDR: True,
 	    gdb.SYMBOL_LOC_COMPUTED: True
             }

     def fetch_b(self, sym):
         """ Local utility method to determine if according to Symbol
         type whether it should be included in the iterator.  Not all
         symbols are fetched, and only symbols that return
         True from this method should be fetched."""

         # SYM may be a string instead of a symbol in the case of
         # synthetic local arguments or locals.  If that is the case,
         # always fetch.
         if isinstance(sym, basestring):
             return True

         sym_type = sym.addr_class

         return self.symbol_class.get(sym_type, False)

     def fetch_frame_locals(self):
         """Public utility method to fetch frame local variables for
         the stored frame.  Frame arguments are not fetched.  If there
         are no frame local variables, return an empty list."""
         lvars = []

         try:
             block = self.frame.block()
         except RuntimeError:
             block = None

         while block != None:
             if block.is_global or block.is_static:
                 break
             for sym in block:
                 if sym.is_argument:
                     continue;
                 if self.fetch_b(sym):
                     lvars.append(SymValueWrapper(sym, None))

             block = block.superblock

         return lvars

     def fetch_frame_args(self):
         """Public utility method to fetch frame arguments for the
         stored frame.  Frame arguments are the only type fetched.  If
         there are no frame argument variables, return an empty list."""

         args = []

         try:
             block = self.frame.block()
         except RuntimeError:
             block = None

         while block != None:
             if block.function != None:
                 break
             block = block.superblock

         if block != None:
             for sym in block:
                 if not sym.is_argument:
                     continue;
                 args.append(SymValueWrapper(sym, None))

         return args
	# Copyright (C) 2013-2014 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/>.

	import gdb

	# This small code snippet deals with problem of strings in Python 2.x
	# and Python 3.x. Python 2.x has str and unicode classes which are
	# sub-classes of basestring. In Python 3.x all strings are encoded
	# and basestring has been removed.
	try:
	basestring
	except NameError:
	basestring = str

	class FrameDecorator(object):
	"""Basic implementation of a Frame Decorator"""

	""" This base frame decorator decorates a frame or another frame
	decorator, and provides convenience methods. If this object is
	wrapping a frame decorator, defer to that wrapped object's method
	if it has one. This allows for frame decorators that have
	sub-classed FrameDecorator object, but also wrap other frame
	decorators on the same frame to correctly execute.

	E.g

	If the result of frame filters running means we have one gdb.Frame
	wrapped by multiple frame decorators, all sub-classed from
	FrameDecorator, the resulting hierarchy will be:

	Decorator1
	-- (wraps) Decorator2
	-- (wraps) FrameDecorator
	-- (wraps) gdb.Frame

	In this case we have two frame decorators, both of which are
	sub-classed from FrameDecorator. If Decorator1 just overrides the
	'function' method, then all of the other methods are carried out
	by the super-class FrameDecorator. But Decorator2 may have
	overriden other methods, so FrameDecorator will look at the
	'base' parameter and defer to that class's methods. And so on,
	down the chain."""

	# 'base' can refer to a gdb.Frame or another frame decorator. In
	# the latter case, the child class will have called the super
	# method and _base will be an object conforming to the Frame Filter
	# class.
	def __init__(self, base):
	self._base = base

	@staticmethod
	def _is_limited_frame(frame):
	"""Internal utility to determine if the frame is special or
	limited."""
	sal = frame.find_sal()

	if (not sal.symtab or not sal.symtab.filename
	or frame.type() == gdb.DUMMY_FRAME
	or frame.type() == gdb.SIGTRAMP_FRAME):

	return True

	return False

	def elided(self):
	"""Return any elided frames that this class might be
	wrapping, or None."""
	if hasattr(self._base, "elided"):
	return self._base.elided()

	return None

	def function(self):
	""" Return the name of the frame's function or an address of
	the function of the frame. First determine if this is a
	special frame. If not, try to determine filename from GDB's
	frame internal function API. Finally, if a name cannot be
	determined return the address. If this function returns an
	address, GDB will attempt to determine the function name from
	its internal minimal symbols store (for example, for inferiors
	without debug-info)."""

	# Both gdb.Frame, and FrameDecorator have a method called
	# "function", so determine which object this is.
	if not isinstance(self._base, gdb.Frame):
	if hasattr(self._base, "function"):
	# If it is not a gdb.Frame, and there is already a
	# "function" method, use that.
	return self._base.function()

	frame = self.inferior_frame()

	if frame.type() == gdb.DUMMY_FRAME:
	return "<function called from gdb>"
	elif frame.type() == gdb.SIGTRAMP_FRAME:
	return "<signal handler called>"

	func = frame.function()

	# If we cannot determine the function name, return the
	# address. If GDB detects an integer value from this function
	# it will attempt to find the function name from minimal
	# symbols via its own internal functions.
	if func == None:
	pc = frame.pc()
	return pc

	return str(func)

	def address(self):
	""" Return the address of the frame's pc"""

	if hasattr(self._base, "address"):
	return self._base.address()

	frame = self.inferior_frame()
	return frame.pc()

	def filename(self):
	""" Return the filename associated with this frame, detecting
	and returning the appropriate library name is this is a shared
	library."""

	if hasattr(self._base, "filename"):
	return self._base.filename()

	frame = self.inferior_frame()
	sal = frame.find_sal()
	if not sal.symtab or not sal.symtab.filename:
	pc = frame.pc()
	return gdb.solib_name(pc)
	else:
	return sal.symtab.filename

	def frame_args(self):
	""" Return an iterable of frame arguments for this frame, if
	any. The iterable object contains objects conforming with the
	Symbol/Value interface. If there are no frame arguments, or
	if this frame is deemed to be a special case, return None."""

	if hasattr(self._base, "frame_args"):
	return self._base.frame_args()

	frame = self.inferior_frame()
	if self._is_limited_frame(frame):
	return None

	args = FrameVars(frame)
	return args.fetch_frame_args()

	def frame_locals(self):
	""" Return an iterable of local variables for this frame, if
	any. The iterable object contains objects conforming with the
	Symbol/Value interface. If there are no frame locals, or if
	this frame is deemed to be a special case, return None."""

	if hasattr(self._base, "frame_locals"):
	return self._base.frame_locals()

	frame = self.inferior_frame()
	if self._is_limited_frame(frame):
	return None

	args = FrameVars(frame)
	return args.fetch_frame_locals()

	def line(self):
	""" Return line number information associated with the frame's
	pc. If symbol table/line information does not exist, or if
	this frame is deemed to be a special case, return None"""

	if hasattr(self._base, "line"):
	return self._base.line()

	frame = self.inferior_frame()
	if self._is_limited_frame(frame):
	return None

	sal = frame.find_sal()
	if (sal):
	return sal.line
	else:
	return None

	def inferior_frame(self):
	""" Return the gdb.Frame underpinning this frame decorator."""

	# If 'base' is a frame decorator, we want to call its inferior
	# frame method. If '_base' is a gdb.Frame, just return that.
	if hasattr(self._base, "inferior_frame"):
	return self._base.inferior_frame()
	return self._base

	class SymValueWrapper(object):
	"""A container class conforming to the Symbol/Value interface
	which holds frame locals or frame arguments."""
	def __init__(self, symbol, value):
	self.sym = symbol
	self.val = value

	def value(self):
	""" Return the value associated with this symbol, or None"""
	return self.val

	def symbol(self):
	""" Return the symbol, or Python text, associated with this
	symbol, or None"""
	return self.sym

	class FrameVars(object):

	"""Utility class to fetch and store frame local variables, or
	frame arguments."""

	def __init__(self, frame):
	self.frame = frame
	self.symbol_class = {
	gdb.SYMBOL_LOC_STATIC: True,
	gdb.SYMBOL_LOC_REGISTER: True,
	gdb.SYMBOL_LOC_ARG: True,
	gdb.SYMBOL_LOC_REF_ARG: True,
	gdb.SYMBOL_LOC_LOCAL: True,
	gdb.SYMBOL_LOC_REGPARM_ADDR: True,
	gdb.SYMBOL_LOC_COMPUTED: True
	}

	def fetch_b(self, sym):
	""" Local utility method to determine if according to Symbol
	type whether it should be included in the iterator. Not all
	symbols are fetched, and only symbols that return
	True from this method should be fetched."""

	# SYM may be a string instead of a symbol in the case of
	# synthetic local arguments or locals. If that is the case,
	# always fetch.
	if isinstance(sym, basestring):
	return True

	sym_type = sym.addr_class

	return self.symbol_class.get(sym_type, False)

	def fetch_frame_locals(self):
	"""Public utility method to fetch frame local variables for
	the stored frame. Frame arguments are not fetched. If there
	are no frame local variables, return an empty list."""
	lvars = []

	try:
	block = self.frame.block()
	except RuntimeError:
	block = None

	while block != None:
	if block.is_global or block.is_static:
	break
	for sym in block:
	if sym.is_argument:
	continue;
	if self.fetch_b(sym):
	lvars.append(SymValueWrapper(sym, None))

	block = block.superblock

	return lvars

	def fetch_frame_args(self):
	"""Public utility method to fetch frame arguments for the
	stored frame. Frame arguments are the only type fetched. If
	there are no frame argument variables, return an empty list."""

	args = []

	try:
	block = self.frame.block()
	except RuntimeError:
	block = None

	while block != None:
	if block.function != None:
	break
	block = block.superblock

	if block != None:
	for sym in block:
	if not sym.is_argument:
	continue;
	args.append(SymValueWrapper(sym, None))

	return args