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llvm-project/lldb/examples/synthetic/gnu_libstdcpp.py

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from __future__ import division
import lldb.formatters.Logger
# C++ STL formatters for LLDB
# As there are many versions of the libstdc++, you are encouraged to look at the STL
# implementation for your platform before relying on these formatters to do the right
# thing for your setup
def ForwardListSummaryProvider(valobj, dict):
list_capping_size = valobj.GetTarget().GetMaximumNumberOfChildrenToDisplay()
text = "size=" + str(valobj.GetNumChildren())
if valobj.GetNumChildren() > list_capping_size:
return "(capped) " + text
else:
return text
def StdOptionalSummaryProvider(valobj, dict):
has_value = valobj.GetNumChildren() > 0
# We add wrapping spaces for consistency with the libcxx formatter
return " Has Value=" + ("true" if has_value else "false") + " "
class StdOptionalSynthProvider:
def __init__(self, valobj, dict):
self.valobj = valobj
def update(self):
try:
self.payload = self.valobj.GetChildMemberWithName('_M_payload')
self.value = self.payload.GetChildMemberWithName('_M_payload')
self.has_value = self.payload.GetChildMemberWithName('_M_engaged').GetValueAsUnsigned(0) != 0
except:
self.has_value = False
return False
def num_children(self):
return 1 if self.has_value else 0
def get_child_index(self, name):
return 0
def get_child_at_index(self, index):
# some versions of libstdcpp have an additional _M_value child with the actual value
possible_value = self.value.GetChildMemberWithName('_M_value')
if possible_value.IsValid():
return possible_value.Clone('Value')
return self.value.Clone('Value')
"""
This formatter can be applied to all
unordered map-like structures (unordered_map, unordered_multimap, unordered_set, unordered_multiset)
"""
class StdUnorderedMapSynthProvider:
def __init__(self, valobj, dict):
self.valobj = valobj
self.count = None
self.kind = self.get_object_kind(valobj)
def get_object_kind(self, valobj):
type_name = valobj.GetTypeName()
return "set" if "set" in type_name else "map"
def extract_type(self):
type = self.valobj.GetType()
# type of std::pair<key, value> is the first template
# argument type of the 4th template argument to std::map and
# 3rd template argument for std::set. That's why
# we need to know kind of the object
template_arg_num = 4 if self.kind == "map" else 3
allocator_type = type.GetTemplateArgumentType(template_arg_num)
data_type = allocator_type.GetTemplateArgumentType(0)
return data_type
def update(self):
# preemptively setting this to None - we might end up changing our mind
# later
self.count = None
try:
self.head = self.valobj.GetChildMemberWithName('_M_h')
self.before_begin = self.head.GetChildMemberWithName('_M_before_begin')
self.next = self.before_begin.GetChildMemberWithName('_M_nxt')
self.data_type = self.extract_type()
self.skip_size = self.next.GetType().GetByteSize()
self.data_size = self.data_type.GetByteSize()
if (not self.data_type.IsValid()) or (not self.next.IsValid()):
self.count = 0
except:
self.count = 0
return False
def get_child_index(self, name):
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self, index):
logger = lldb.formatters.Logger.Logger()
logger >> "Being asked to fetch child[" + str(index) + "]"
if index < 0:
return None
if index >= self.num_children():
return None
try:
offset = index
current = self.next
while offset > 0:
current = current.GetChildMemberWithName('_M_nxt')
offset = offset - 1
return current.CreateChildAtOffset( '[' + str(index) + ']', self.skip_size, self.data_type)
except:
logger >> "Cannot get child"
return None
def num_children(self):
if self.count is None:
self.count = self.num_children_impl()
return self.count
def num_children_impl(self):
logger = lldb.formatters.Logger.Logger()
try:
count = self.head.GetChildMemberWithName('_M_element_count').GetValueAsUnsigned(0)
return count
except:
logger >> "Could not determine the size"
return 0
class AbstractListSynthProvider:
def __init__(self, valobj, dict, has_prev):
'''
:param valobj: The value object of the list
:param dict: A dict with metadata provided by LLDB
:param has_prev: Whether the list supports a 'prev' pointer besides a 'next' one
'''
logger = lldb.formatters.Logger.Logger()
self.valobj = valobj
self.count = None
self.has_prev = has_prev
self.list_capping_size = self.valobj.GetTarget().GetMaximumNumberOfChildrenToDisplay()
logger >> "Providing synthetic children for a list named " + \
str(valobj.GetName())
def next_node(self, node):
logger = lldb.formatters.Logger.Logger()
return node.GetChildMemberWithName('_M_next')
def is_valid(self, node):
logger = lldb.formatters.Logger.Logger()
valid = self.value(self.next_node(node)) != self.get_end_of_list_address()
if valid:
logger >> "%s is valid" % str(self.valobj.GetName())
else:
logger >> "synthetic value is not valid"
return valid
def value(self, node):
logger = lldb.formatters.Logger.Logger()
value = node.GetValueAsUnsigned()
logger >> "synthetic value for {}: {}".format(
str(self.valobj.GetName()), value)
return value
# Floyd's cycle-finding algorithm
# try to detect if this list has a loop
def has_loop(self):
global _list_uses_loop_detector
logger = lldb.formatters.Logger.Logger()
if not _list_uses_loop_detector:
logger >> "Asked not to use loop detection"
return False
slow = self.next
fast1 = self.next
fast2 = self.next
while self.is_valid(slow):
slow_value = self.value(slow)
fast1 = self.next_node(fast2)
fast2 = self.next_node(fast1)
if self.value(fast1) == slow_value or self.value(
fast2) == slow_value:
return True
slow = self.next_node(slow)
return False
def num_children(self):
logger = lldb.formatters.Logger.Logger()
if self.count is None:
# libstdc++ 6.0.21 added dedicated count field.
count_child = self.node.GetChildMemberWithName('_M_data')
if count_child and count_child.IsValid():
self.count = count_child.GetValueAsUnsigned(0)
if self.count is None:
self.count = self.num_children_impl()
return self.count
def num_children_impl(self):
logger = lldb.formatters.Logger.Logger()
try:
# After a std::list has been initialized, both next and prev will
# be non-NULL
next_val = self.next.GetValueAsUnsigned(0)
if next_val == 0:
return 0
if self.has_loop():
return 0
if self.has_prev:
prev_val = self.prev.GetValueAsUnsigned(0)
if prev_val == 0:
return 0
if next_val == self.node_address:
return 0
if next_val == prev_val:
return 1
size = 1
current = self.next
while current.GetChildMemberWithName(
'_M_next').GetValueAsUnsigned(0) != self.get_end_of_list_address():
current = current.GetChildMemberWithName('_M_next')
if not current.IsValid():
break
size = size + 1
if size >= self.list_capping_size:
break
return size
except:
logger >> "Error determining the size"
return 0
def get_child_index(self, name):
logger = lldb.formatters.Logger.Logger()
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self, index):
logger = lldb.formatters.Logger.Logger()
logger >> "Fetching child " + str(index)
if index < 0:
return None
if index >= self.num_children():
return None
try:
offset = index
current = self.next
while offset > 0:
current = current.GetChildMemberWithName('_M_next')
offset = offset - 1
# C++ lists store the data of a node after its pointers. In the case of a forward list, there's just one pointer (next), and
# in the case of a double-linked list, there's an additional pointer (prev).
return current.CreateChildAtOffset(
'[' + str(index) + ']',
(2 if self.has_prev else 1) * current.GetType().GetByteSize(),
self.data_type)
except:
return None
def extract_type(self):
logger = lldb.formatters.Logger.Logger()
list_type = self.valobj.GetType().GetUnqualifiedType()
if list_type.IsReferenceType():
list_type = list_type.GetDereferencedType()
if list_type.GetNumberOfTemplateArguments() > 0:
return list_type.GetTemplateArgumentType(0)
return lldb.SBType()
def update(self):
logger = lldb.formatters.Logger.Logger()
# preemptively setting this to None - we might end up changing our mind
# later
self.count = None
try:
self.impl = self.valobj.GetChildMemberWithName('_M_impl')
self.data_type = self.extract_type()
if (not self.data_type.IsValid()) or (not self.impl.IsValid()):
self.count = 0
elif not self.updateNodes():
self.count = 0
else:
self.data_size = self.data_type.GetByteSize()
except:
self.count = 0
return False
'''
Method is used to extract the list pointers into the variables (e.g self.node, self.next, and optionally to self.prev)
and is mandatory to be overriden in each AbstractListSynthProvider subclass.
This should return True or False depending on wheter it found valid data.
'''
def updateNodes(self):
raise NotImplementedError
def has_children(self):
return True
'''
Method is used to identify if a node traversal has reached its end
and is mandatory to be overriden in each AbstractListSynthProvider subclass
'''
def get_end_of_list_address(self):
raise NotImplementedError
class StdForwardListSynthProvider(AbstractListSynthProvider):
def __init__(self, valobj, dict):
has_prev = False
super().__init__(valobj, dict, has_prev)
def updateNodes(self):
self.node = self.impl.GetChildMemberWithName('_M_head')
self.next = self.node.GetChildMemberWithName('_M_next')
if (not self.node.IsValid()) or (not self.next.IsValid()):
return False
return True
def get_end_of_list_address(self):
return 0
class StdListSynthProvider(AbstractListSynthProvider):
def __init__(self, valobj, dict):
has_prev = True
super().__init__(valobj, dict, has_prev)
def updateNodes(self):
self.node_address = self.valobj.AddressOf().GetValueAsUnsigned(0)
self.node = self.impl.GetChildMemberWithName('_M_node')
self.prev = self.node.GetChildMemberWithName('_M_prev')
self.next = self.node.GetChildMemberWithName('_M_next')
if self.node_address == 0 or (not self.node.IsValid()) or (not self.next.IsValid()) or (not self.prev.IsValid()):
return False
return True
def get_end_of_list_address(self):
return self.node_address
class StdVectorSynthProvider:
class StdVectorImplementation(object):
def __init__(self, valobj):
self.valobj = valobj
self.count = None
def num_children(self):
if self.count is None:
self.count = self.num_children_impl()
return self.count
def num_children_impl(self):
try:
start_val = self.start.GetValueAsUnsigned(0)
finish_val = self.finish.GetValueAsUnsigned(0)
end_val = self.end.GetValueAsUnsigned(0)
# Before a vector has been constructed, it will contain bad values
# so we really need to be careful about the length we return since
# uninitialized data can cause us to return a huge number. We need
# to also check for any of the start, finish or end of storage values
# being zero (NULL). If any are, then this vector has not been
# initialized yet and we should return zero
# Make sure nothing is NULL
if start_val == 0 or finish_val == 0 or end_val == 0:
return 0
# Make sure start is less than finish
if start_val >= finish_val:
return 0
# Make sure finish is less than or equal to end of storage
if finish_val > end_val:
return 0
# if we have a struct (or other data type that the compiler pads to native word size)
# this check might fail, unless the sizeof() we get is itself incremented to take the
# padding bytes into account - on current clang it looks like
# this is the case
num_children = (finish_val - start_val)
if (num_children % self.data_size) != 0:
return 0
else:
num_children = num_children // self.data_size
return num_children
except:
return 0
def get_child_at_index(self, index):
logger = lldb.formatters.Logger.Logger()
logger >> "Retrieving child " + str(index)
if index < 0:
return None
if index >= self.num_children():
return None
try:
offset = index * self.data_size
return self.start.CreateChildAtOffset(
'[' + str(index) + ']', offset, self.data_type)
except:
return None
def update(self):
# preemptively setting this to None - we might end up changing our
# mind later
self.count = None
try:
impl = self.valobj.GetChildMemberWithName('_M_impl')
self.start = impl.GetChildMemberWithName('_M_start')
self.finish = impl.GetChildMemberWithName('_M_finish')
self.end = impl.GetChildMemberWithName('_M_end_of_storage')
self.data_type = self.start.GetType().GetPointeeType()
self.data_size = self.data_type.GetByteSize()
# if any of these objects is invalid, it means there is no
# point in trying to fetch anything
if self.start.IsValid() and self.finish.IsValid(
) and self.end.IsValid() and self.data_type.IsValid():
self.count = None
else:
self.count = 0
except:
self.count = 0
return False
class StdVBoolImplementation(object):
def __init__(self, valobj, bool_type):
self.valobj = valobj
self.bool_type = bool_type
self.valid = False
def num_children(self):
if self.valid:
start = self.start_p.GetValueAsUnsigned(0)
finish = self.finish_p.GetValueAsUnsigned(0)
offset = self.offset.GetValueAsUnsigned(0)
if finish >= start:
return (finish - start) * 8 + offset
return 0
def get_child_at_index(self, index):
if index >= self.num_children():
return None
element_type = self.start_p.GetType().GetPointeeType()
element_bits = 8 * element_type.GetByteSize()
element_offset = (index // element_bits) * \
element_type.GetByteSize()
bit_offset = index % element_bits
element = self.start_p.CreateChildAtOffset(
'[' + str(index) + ']', element_offset, element_type)
bit = element.GetValueAsUnsigned(0) & (1 << bit_offset)
if bit != 0:
value_expr = "(bool)true"
else:
value_expr = "(bool)false"
return self.valobj.CreateValueFromExpression(
"[%d]" % index, value_expr)
def update(self):
try:
m_impl = self.valobj.GetChildMemberWithName('_M_impl')
self.m_start = m_impl.GetChildMemberWithName('_M_start')
self.m_finish = m_impl.GetChildMemberWithName('_M_finish')
self.start_p = self.m_start.GetChildMemberWithName('_M_p')
self.finish_p = self.m_finish.GetChildMemberWithName('_M_p')
self.offset = self.m_finish.GetChildMemberWithName('_M_offset')
if self.offset.IsValid() and self.start_p.IsValid() and self.finish_p.IsValid():
self.valid = True
else:
self.valid = False
except:
self.valid = False
return False
def __init__(self, valobj, dict):
logger = lldb.formatters.Logger.Logger()
first_template_arg_type = valobj.GetType().GetTemplateArgumentType(0)
if str(first_template_arg_type.GetName()) == "bool":
self.impl = self.StdVBoolImplementation(
valobj, first_template_arg_type)
else:
self.impl = self.StdVectorImplementation(valobj)
logger >> "Providing synthetic children for a vector named " + \
str(valobj.GetName())
def num_children(self):
return self.impl.num_children()
def get_child_index(self, name):
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self, index):
return self.impl.get_child_at_index(index)
def update(self):
return self.impl.update()
def has_children(self):
return True
"""
This formatter can be applied to all
map-like structures (map, multimap, set, multiset)
"""
class StdMapLikeSynthProvider:
def __init__(self, valobj, dict):
logger = lldb.formatters.Logger.Logger()
self.valobj = valobj
self.count = None
self.kind = self.get_object_kind(valobj)
logger >> "Providing synthetic children for a " + self.kind + " named " + \
str(valobj.GetName())
def get_object_kind(self, valobj):
type_name = valobj.GetTypeName()
for kind in ["multiset", "multimap", "set", "map"]:
if kind in type_name:
return kind
return type_name
# we need this function as a temporary workaround for rdar://problem/10801549
# which prevents us from extracting the std::pair<K,V> SBType out of the template
# arguments for _Rep_Type _M_t in the object itself - because we have to make up the
# typename and then find it, we may hit the situation were std::string has multiple
# names but only one is actually referenced in the debug information. hence, we need
# to replace the longer versions of std::string with the shorter one in order to be able
# to find the type name
def fixup_class_name(self, class_name):
logger = lldb.formatters.Logger.Logger()
if class_name == 'std::basic_string<char, std::char_traits<char>, std::allocator<char> >':
return 'std::basic_string<char>', True
if class_name == 'basic_string<char, std::char_traits<char>, std::allocator<char> >':
return 'std::basic_string<char>', True
if class_name == 'std::basic_string<char, std::char_traits<char>, std::allocator<char> >':
return 'std::basic_string<char>', True
if class_name == 'basic_string<char, std::char_traits<char>, std::allocator<char> >':
return 'std::basic_string<char>', True
return class_name, False
def update(self):
logger = lldb.formatters.Logger.Logger()
# preemptively setting this to None - we might end up changing our mind
# later
self.count = None
try:
# we will set this to True if we find out that discovering a node in the object takes more steps than the overall size of the RB tree
# if this gets set to True, then we will merrily return None for
# any child from that moment on
self.garbage = False
self.Mt = self.valobj.GetChildMemberWithName('_M_t')
self.Mimpl = self.Mt.GetChildMemberWithName('_M_impl')
self.Mheader = self.Mimpl.GetChildMemberWithName('_M_header')
if not self.Mheader.IsValid():
self.count = 0
else:
map_type = self.valobj.GetType()
if map_type.IsReferenceType():
logger >> "Dereferencing type"
map_type = map_type.GetDereferencedType()
# Get the type of std::pair<key, value>. It is the first template
# argument type of the 4th template argument to std::map.
allocator_type = map_type.GetTemplateArgumentType(3)
self.data_type = allocator_type.GetTemplateArgumentType(0)
if not self.data_type:
# GCC does not emit DW_TAG_template_type_parameter for
# std::allocator<...>. For such a case, get the type of
# std::pair from a member of std::map.
rep_type = self.valobj.GetChildMemberWithName('_M_t').GetType()
self.data_type = rep_type.GetTypedefedType().GetTemplateArgumentType(1)
# from libstdc++ implementation of _M_root for rbtree
self.Mroot = self.Mheader.GetChildMemberWithName('_M_parent')
self.data_size = self.data_type.GetByteSize()
self.skip_size = self.Mheader.GetType().GetByteSize()
except:
self.count = 0
return False
def num_children(self):
logger = lldb.formatters.Logger.Logger()
if self.count is None:
self.count = self.num_children_impl()
return self.count
def num_children_impl(self):
logger = lldb.formatters.Logger.Logger()
try:
root_ptr_val = self.node_ptr_value(self.Mroot)
if root_ptr_val == 0:
return 0
count = self.Mimpl.GetChildMemberWithName(
'_M_node_count').GetValueAsUnsigned(0)
logger >> "I have " + str(count) + " children available"
return count
except:
return 0
def get_child_index(self, name):
logger = lldb.formatters.Logger.Logger()
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self, index):
logger = lldb.formatters.Logger.Logger()
logger >> "Being asked to fetch child[" + str(index) + "]"
if index < 0:
return None
if index >= self.num_children():
return None
if self.garbage:
logger >> "Returning None since we are a garbage tree"
return None
try:
offset = index
current = self.left(self.Mheader)
while offset > 0:
current = self.increment_node(current)
offset = offset - 1
# skip all the base stuff and get at the data
return current.CreateChildAtOffset(
'[' + str(index) + ']', self.skip_size, self.data_type)
except:
return None
# utility functions
def node_ptr_value(self, node):
logger = lldb.formatters.Logger.Logger()
return node.GetValueAsUnsigned(0)
def right(self, node):
logger = lldb.formatters.Logger.Logger()
return node.GetChildMemberWithName("_M_right")
def left(self, node):
logger = lldb.formatters.Logger.Logger()
return node.GetChildMemberWithName("_M_left")
def parent(self, node):
logger = lldb.formatters.Logger.Logger()
return node.GetChildMemberWithName("_M_parent")
# from libstdc++ implementation of iterator for rbtree
def increment_node(self, node):
logger = lldb.formatters.Logger.Logger()
max_steps = self.num_children()
if self.node_ptr_value(self.right(node)) != 0:
x = self.right(node)
max_steps -= 1
while self.node_ptr_value(self.left(x)) != 0:
x = self.left(x)
max_steps -= 1
logger >> str(max_steps) + " more to go before giving up"
if max_steps <= 0:
self.garbage = True
return None
return x
else:
x = node
y = self.parent(x)
max_steps -= 1
while(self.node_ptr_value(x) == self.node_ptr_value(self.right(y))):
x = y
y = self.parent(y)
max_steps -= 1
logger >> str(max_steps) + " more to go before giving up"
if max_steps <= 0:
self.garbage = True
return None
if self.node_ptr_value(self.right(x)) != self.node_ptr_value(y):
x = y
return x
def has_children(self):
return True
_list_uses_loop_detector = True
class StdDequeSynthProvider:
def __init__(self, valobj, d):
self.valobj = valobj
self.pointer_size = self.valobj.GetProcess().GetAddressByteSize()
self.count = None
self.block_size = -1
self.element_size = -1
self.find_block_size()
def find_block_size(self):
# in order to use the deque we must have the block size, or else
# it's impossible to know what memory addresses are valid
self.element_type = self.valobj.GetType().GetTemplateArgumentType(0)
if not self.element_type.IsValid():
return
self.element_size = self.element_type.GetByteSize()
# The block size (i.e. number of elements per subarray) is defined in
# this piece of code, so we need to replicate it.
#
# #define _GLIBCXX_DEQUE_BUF_SIZE 512
#
# return (__size < _GLIBCXX_DEQUE_BUF_SIZE
# ? size_t(_GLIBCXX_DEQUE_BUF_SIZE / __size) : size_t(1));
if self.element_size < 512:
self.block_size = 512 // self.element_size
else:
self.block_size = 1
def num_children(self):
if self.count is None:
return 0
return self.count
def has_children(self):
return True
def get_child_index(self, name):
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self, index):
if index < 0 or self.count is None:
return None
if index >= self.num_children():
return None
try:
name = '[' + str(index) + ']'
# We first look for the element in the first subarray,
# which might be incomplete.
if index < self.first_node_size:
# The following statement is valid because self.first_elem is the pointer
# to the first element
return self.first_elem.CreateChildAtOffset(name, index * self.element_size, self.element_type)
# Now the rest of the subarrays except for maybe the last one
# are going to be complete, so the final expression is simpler
i, j = divmod(index - self.first_node_size, self.block_size)
# We first move to the beginning of the node/subarray were our element is
node = self.start_node.CreateChildAtOffset(
'',
(1 + i) * self.valobj.GetProcess().GetAddressByteSize(),
self.element_type.GetPointerType())
return node.CreateChildAtOffset(name, j * self.element_size, self.element_type)
except:
return None
def update(self):
logger = lldb.formatters.Logger.Logger()
self.count = 0
try:
# A deque is effectively a two-dim array, with fixed width.
# However, only a subset of this memory contains valid data
# since a deque may have some slack at the front and back in
# order to have O(1) insertion at both ends.
# The rows in active use are delimited by '_M_start' and
# '_M_finish'.
#
# To find the elements that are actually constructed, the 'start'
# variable tells which element in this NxM array is the 0th
# one.
if self.block_size < 0 or self.element_size < 0:
return False
count = 0
impl = self.valobj.GetChildMemberWithName('_M_impl')
# we calculate the size of the first node (i.e. first internal array)
self.start = impl.GetChildMemberWithName('_M_start')
self.start_node = self.start.GetChildMemberWithName('_M_node')
first_node_address = self.start_node.GetValueAsUnsigned(0)
first_node_last_elem = self.start.GetChildMemberWithName('_M_last').GetValueAsUnsigned(0)
self.first_elem = self.start.GetChildMemberWithName('_M_cur')
first_node_first_elem = self.first_elem.GetValueAsUnsigned(0)
finish = impl.GetChildMemberWithName('_M_finish')
last_node_address = finish.GetChildMemberWithName('_M_node').GetValueAsUnsigned(0)
last_node_first_elem = finish.GetChildMemberWithName('_M_first').GetValueAsUnsigned(0)
last_node_last_elem = finish.GetChildMemberWithName('_M_cur').GetValueAsUnsigned(0)
if first_node_first_elem == 0 or first_node_last_elem == 0 or first_node_first_elem > first_node_last_elem:
return False
if last_node_first_elem == 0 or last_node_last_elem == 0 or last_node_first_elem > last_node_last_elem:
return False
if last_node_address == first_node_address:
self.first_node_size = (last_node_last_elem - first_node_first_elem) // self.element_size
count += self.first_node_size
else:
self.first_node_size = (first_node_last_elem - first_node_first_elem) // self.element_size
count += self.first_node_size
# we calculate the size of the last node
finish = impl.GetChildMemberWithName('_M_finish')
last_node_address = finish.GetChildMemberWithName('_M_node').GetValueAsUnsigned(0)
count += (last_node_last_elem - last_node_first_elem) // self.element_size
# we calculate the size of the intermediate nodes
num_intermediate_nodes = (last_node_address - first_node_address - 1) // self.valobj.GetProcess().GetAddressByteSize()
count += self.block_size * num_intermediate_nodes
self.count = count
except:
pass
return False
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