mirror of
https://sourceware.org/git/binutils-gdb.git
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4a94e36819
This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
408 lines
15 KiB
Python
408 lines
15 KiB
Python
# Copyright (C) 2009-2022 Free Software Foundation, Inc.
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#
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# This file is part of GDB.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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import gdb
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import os.path
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class TypeFlag:
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"""A class that allows us to store a flag name, its short name,
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and its value.
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In the GDB sources, struct type has a component called instance_flags
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in which the value is the addition of various flags. These flags are
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defined by the enumerates type_instance_flag_value. This class helps us
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recreate a list with all these flags that is easy to manipulate and sort.
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Because all flag names start with TYPE_INSTANCE_FLAG_, a short_name
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attribute is provided that strips this prefix.
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ATTRIBUTES
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name: The enumeration name (eg: "TYPE_INSTANCE_FLAG_CONST").
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value: The associated value.
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short_name: The enumeration name, with the suffix stripped.
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"""
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def __init__(self, name, value):
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self.name = name
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self.value = value
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self.short_name = name.replace("TYPE_INSTANCE_FLAG_", "")
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def __lt__(self, other):
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"""Sort by value order."""
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return self.value < other.value
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# A list of all existing TYPE_INSTANCE_FLAGS_* enumerations,
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# stored as TypeFlags objects. Lazy-initialized.
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TYPE_FLAGS = None
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class TypeFlagsPrinter:
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"""A class that prints a decoded form of an instance_flags value.
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This class uses a global named TYPE_FLAGS, which is a list of
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all defined TypeFlag values. Using a global allows us to compute
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this list only once.
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This class relies on a couple of enumeration types being defined.
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If not, then printing of the instance_flag is going to be degraded,
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but it's not a fatal error.
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"""
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def __init__(self, val):
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self.val = val
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def __str__(self):
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global TYPE_FLAGS
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if TYPE_FLAGS is None:
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self.init_TYPE_FLAGS()
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if not self.val:
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return "0"
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if TYPE_FLAGS:
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flag_list = [
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flag.short_name for flag in TYPE_FLAGS if self.val & flag.value
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]
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else:
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flag_list = ["???"]
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return "0x%x [%s]" % (self.val, "|".join(flag_list))
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def init_TYPE_FLAGS(self):
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"""Initialize the TYPE_FLAGS global as a list of TypeFlag objects.
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This operation requires the search of a couple of enumeration types.
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If not found, a warning is printed on stdout, and TYPE_FLAGS is
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set to the empty list.
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The resulting list is sorted by increasing value, to facilitate
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printing of the list of flags used in an instance_flags value.
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"""
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global TYPE_FLAGS
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TYPE_FLAGS = []
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try:
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iflags = gdb.lookup_type("enum type_instance_flag_value")
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except:
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print("Warning: Cannot find enum type_instance_flag_value type.")
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print(" `struct type' pretty-printer will be degraded")
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return
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TYPE_FLAGS = [TypeFlag(field.name, field.enumval) for field in iflags.fields()]
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TYPE_FLAGS.sort()
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class StructTypePrettyPrinter:
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"""Pretty-print an object of type struct type"""
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def __init__(self, val):
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self.val = val
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def to_string(self):
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fields = []
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fields.append("pointer_type = %s" % self.val["pointer_type"])
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fields.append("reference_type = %s" % self.val["reference_type"])
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fields.append("chain = %s" % self.val["reference_type"])
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fields.append(
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"instance_flags = %s" % TypeFlagsPrinter(self.val["m_instance_flags"])
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)
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fields.append("length = %d" % self.val["length"])
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fields.append("main_type = %s" % self.val["main_type"])
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return "\n{" + ",\n ".join(fields) + "}"
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class StructMainTypePrettyPrinter:
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"""Pretty-print an objet of type main_type"""
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def __init__(self, val):
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self.val = val
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def flags_to_string(self):
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"""struct main_type contains a series of components that
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are one-bit ints whose name start with "flag_". For instance:
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flag_unsigned, flag_stub, etc. In essence, these components are
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really boolean flags, and this method prints a short synthetic
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version of the value of all these flags. For instance, if
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flag_unsigned and flag_static are the only components set to 1,
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this function will return "unsigned|static".
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"""
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fields = [
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field.name.replace("flag_", "")
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for field in self.val.type.fields()
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if field.name.startswith("flag_") and self.val[field.name]
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]
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return "|".join(fields)
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def owner_to_string(self):
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"""Return an image of component "owner"."""
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if self.val["m_flag_objfile_owned"] != 0:
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return "%s (objfile)" % self.val["m_owner"]["objfile"]
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else:
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return "%s (gdbarch)" % self.val["m_owner"]["gdbarch"]
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def struct_field_location_img(self, field_val):
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"""Return an image of the loc component inside the given field
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gdb.Value.
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"""
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loc_val = field_val["m_loc"]
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loc_kind = str(field_val["m_loc_kind"])
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if loc_kind == "FIELD_LOC_KIND_BITPOS":
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return "bitpos = %d" % loc_val["bitpos"]
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elif loc_kind == "FIELD_LOC_KIND_ENUMVAL":
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return "enumval = %d" % loc_val["enumval"]
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elif loc_kind == "FIELD_LOC_KIND_PHYSADDR":
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return "physaddr = 0x%x" % loc_val["physaddr"]
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elif loc_kind == "FIELD_LOC_KIND_PHYSNAME":
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return "physname = %s" % loc_val["physname"]
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elif loc_kind == "FIELD_LOC_KIND_DWARF_BLOCK":
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return "dwarf_block = %s" % loc_val["dwarf_block"]
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else:
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return "m_loc = ??? (unsupported m_loc_kind value)"
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def struct_field_img(self, fieldno):
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"""Return an image of the main_type field number FIELDNO."""
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f = self.val["flds_bnds"]["fields"][fieldno]
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label = "flds_bnds.fields[%d]:" % fieldno
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if f["artificial"]:
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label += " (artificial)"
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fields = []
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fields.append("m_name = %s" % f["m_name"])
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fields.append("m_type = %s" % f["m_type"])
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fields.append("m_loc_kind = %s" % f["m_loc_kind"])
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fields.append("bitsize = %d" % f["bitsize"])
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fields.append(self.struct_field_location_img(f))
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return label + "\n" + " {" + ",\n ".join(fields) + "}"
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def bound_img(self, bound_name):
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"""Return an image of the given main_type's bound."""
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bounds = self.val["flds_bnds"]["bounds"].dereference()
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b = bounds[bound_name]
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bnd_kind = str(b["m_kind"])
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if bnd_kind == "PROP_CONST":
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return str(b["m_data"]["const_val"])
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elif bnd_kind == "PROP_UNDEFINED":
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return "(undefined)"
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else:
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info = [bnd_kind]
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if bound_name == "high" and bounds["flag_upper_bound_is_count"]:
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info.append("upper_bound_is_count")
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return "{} ({})".format(str(b["m_data"]["baton"]), ",".join(info))
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def bounds_img(self):
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"""Return an image of the main_type bounds."""
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b = self.val["flds_bnds"]["bounds"].dereference()
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low = self.bound_img("low")
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high = self.bound_img("high")
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img = "flds_bnds.bounds = {%s, %s}" % (low, high)
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if b["flag_bound_evaluated"]:
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img += " [evaluated]"
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return img
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def type_specific_img(self):
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"""Return a string image of the main_type type_specific union.
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Only the relevant component of that union is printed (based on
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the value of the type_specific_kind field.
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"""
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type_specific_kind = str(self.val["type_specific_field"])
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type_specific = self.val["type_specific"]
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if type_specific_kind == "TYPE_SPECIFIC_NONE":
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img = "type_specific_field = %s" % type_specific_kind
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elif type_specific_kind == "TYPE_SPECIFIC_CPLUS_STUFF":
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img = "cplus_stuff = %s" % type_specific["cplus_stuff"]
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elif type_specific_kind == "TYPE_SPECIFIC_GNAT_STUFF":
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img = (
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"gnat_stuff = {descriptive_type = %s}"
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% type_specific["gnat_stuff"]["descriptive_type"]
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)
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elif type_specific_kind == "TYPE_SPECIFIC_FLOATFORMAT":
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img = "floatformat[0..1] = %s" % type_specific["floatformat"]
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elif type_specific_kind == "TYPE_SPECIFIC_FUNC":
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img = (
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"calling_convention = %d"
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% type_specific["func_stuff"]["calling_convention"]
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)
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# tail_call_list is not printed.
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elif type_specific_kind == "TYPE_SPECIFIC_SELF_TYPE":
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img = "self_type = %s" % type_specific["self_type"]
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elif type_specific_kind == "TYPE_SPECIFIC_FIXED_POINT":
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# The scaling factor is an opaque structure, so we cannot
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# decode its value from Python (not without insider knowledge).
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img = (
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"scaling_factor: <opaque> (call __gmpz_dump with "
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" _mp_num and _mp_den fields if needed)"
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)
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elif type_specific_kind == "TYPE_SPECIFIC_INT":
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img = "int_stuff = { bit_size = %d, bit_offset = %d }" % (
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type_specific["int_stuff"]["bit_size"],
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type_specific["int_stuff"]["bit_offset"],
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)
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else:
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img = (
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"type_specific = ??? (unknown type_specific_kind: %s)"
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% type_specific_kind
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)
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return img
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def to_string(self):
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"""Return a pretty-printed image of our main_type."""
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fields = []
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fields.append("name = %s" % self.val["name"])
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fields.append("code = %s" % self.val["code"])
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fields.append("flags = [%s]" % self.flags_to_string())
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fields.append("owner = %s" % self.owner_to_string())
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fields.append("target_type = %s" % self.val["target_type"])
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if self.val["nfields"] > 0:
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for fieldno in range(self.val["nfields"]):
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fields.append(self.struct_field_img(fieldno))
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if self.val["code"] == gdb.TYPE_CODE_RANGE:
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fields.append(self.bounds_img())
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fields.append(self.type_specific_img())
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return "\n{" + ",\n ".join(fields) + "}"
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class CoreAddrPrettyPrinter:
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"""Print CORE_ADDR values as hex."""
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def __init__(self, val):
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self._val = val
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def to_string(self):
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return hex(int(self._val))
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class IntrusiveListPrinter:
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"""Print a struct intrusive_list."""
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def __init__(self, val):
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self._val = val
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# Type of linked items.
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self._item_type = self._val.type.template_argument(0)
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self._node_ptr_type = gdb.lookup_type(
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"intrusive_list_node<{}>".format(self._item_type.tag)
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).pointer()
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# Type of value -> node converter.
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self._conv_type = self._val.type.template_argument(1)
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if self._uses_member_node():
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# The second template argument of intrusive_member_node is a member
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# pointer value. Its value is the offset of the node member in the
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# enclosing type.
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member_node_ptr = self._conv_type.template_argument(1)
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member_node_ptr = member_node_ptr.cast(gdb.lookup_type("int"))
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self._member_node_offset = int(member_node_ptr)
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# This is only needed in _as_node_ptr if using a member node. Look it
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# up here so we only do it once.
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self._char_ptr_type = gdb.lookup_type("char").pointer()
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def display_hint(self):
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return "array"
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def _uses_member_node(self):
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"""Return True if the list items use a node as a member, False if
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they use a node as a base class.
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"""
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if self._conv_type.name.startswith("intrusive_member_node<"):
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return True
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elif self._conv_type.name.startswith("intrusive_base_node<"):
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return False
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else:
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raise RuntimeError(
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"Unexpected intrusive_list value -> node converter type: {}".format(
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self._conv_type.name
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)
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)
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def to_string(self):
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s = "intrusive list of {}".format(self._item_type)
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if self._uses_member_node():
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node_member = self._conv_type.template_argument(1)
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s += ", linked through {}".format(node_member)
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return s
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def _as_node_ptr(self, elem_ptr):
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"""Given ELEM_PTR, a pointer to a list element, return a pointer to the
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corresponding intrusive_list_node.
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"""
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assert elem_ptr.type.code == gdb.TYPE_CODE_PTR
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if self._uses_member_node():
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# Node as a member: add the member node offset from to the element's
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# address to get the member node's address.
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elem_char_ptr = elem_ptr.cast(self._char_ptr_type)
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node_char_ptr = elem_char_ptr + self._member_node_offset
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return node_char_ptr.cast(self._node_ptr_type)
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else:
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# Node as a base: just casting from node pointer to item pointer
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# will adjust the pointer value.
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return elem_ptr.cast(self._node_ptr_type)
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def _children_generator(self):
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"""Generator that yields one tuple per list item."""
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elem_ptr = self._val["m_front"]
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idx = 0
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while elem_ptr != 0:
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yield (str(idx), elem_ptr.dereference())
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node_ptr = self._as_node_ptr(elem_ptr)
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elem_ptr = node_ptr["next"]
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idx += 1
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def children(self):
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return self._children_generator()
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def type_lookup_function(val):
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"""A routine that returns the correct pretty printer for VAL
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if appropriate. Returns None otherwise.
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"""
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tag = val.type.tag
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name = val.type.name
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if tag == "type":
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return StructTypePrettyPrinter(val)
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elif tag == "main_type":
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return StructMainTypePrettyPrinter(val)
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elif name == "CORE_ADDR":
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return CoreAddrPrettyPrinter(val)
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elif tag is not None and tag.startswith("intrusive_list<"):
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return IntrusiveListPrinter(val)
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return None
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def register_pretty_printer(objfile):
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"""A routine to register a pretty-printer against the given OBJFILE."""
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objfile.pretty_printers.append(type_lookup_function)
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if __name__ == "__main__":
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if gdb.current_objfile() is not None:
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# This is the case where this script is being "auto-loaded"
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# for a given objfile. Register the pretty-printer for that
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# objfile.
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register_pretty_printer(gdb.current_objfile())
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else:
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# We need to locate the objfile corresponding to the GDB
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# executable, and register the pretty-printer for that objfile.
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# FIXME: The condition used to match the objfile is too simplistic
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# and will not work on Windows.
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for objfile in gdb.objfiles():
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if os.path.basename(objfile.filename) == "gdb":
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objfile.pretty_printers.append(type_lookup_function)
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