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b808815e57
All DistinctNumerics are given an identifying tag, if the tag is generated by the macro, print the alias instead of DistinctNumeric.
413 lines
12 KiB
Python
413 lines
12 KiB
Python
# Copyright (c) 2021, Gunnar Beutner <gunnar@beutner.name>
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#
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# SPDX-License-Identifier: BSD-2-Clause
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import gdb
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import gdb.types
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import re
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def handler_class_for_type(type, re=re.compile('^([^<]+)(<.*>)?$')):
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typename = str(type.tag)
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match = re.match(typename)
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if not match:
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return None
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klass = match.group(1)
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if klass == 'AK::Atomic':
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return AKAtomic
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elif klass == 'AK::DistinctNumeric':
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return AKDistinctNumeric
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elif klass == 'AK::InlineLinkedList':
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return AKInlineLinkedList
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elif klass == 'AK::HashMap':
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return AKHashMapPrettyPrinter
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elif klass == 'AK::RefCounted':
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return AKRefCounted
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elif klass == 'AK::RefPtr':
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return AKRefPtr
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elif klass == 'AK::OwnPtr':
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return AKOwnPtr
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elif klass == 'AK::NonnullRefPtr':
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return AKRefPtr
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elif klass == 'AK::SinglyLinkedList':
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return AKSinglyLinkedList
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elif klass == 'AK::String':
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return AKString
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elif klass == 'AK::StringView':
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return AKStringView
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elif klass == 'AK::StringImpl':
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return AKStringImpl
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elif klass == 'AK::Variant':
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return AKVariant
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elif klass == 'AK::Vector':
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return AKVector
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elif klass == 'VirtualAddress':
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return VirtualAddress
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else:
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return UnhandledType
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class UnhandledType:
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@classmethod
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def prettyprint_type(cls, type):
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return type.name
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class AKAtomic:
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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 self.val["m_value"]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::Atomic<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKDistinctNumeric:
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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 self.val["m_value"]
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@classmethod
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def prettyprint_type(cls, type):
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actual_name = type.template_argument(1)
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parts = actual_name.name.split("::")
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unqualified_name = re.sub(r'__(\w+)_tag', r'\1', actual_name.name)
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if unqualified_name != actual_name.name:
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qualified_name = '::'.join(parts[:-2] + [unqualified_name])
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return qualified_name
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# If the tag is malformed, just print DistinctNumeric<T>
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contained_type = type.template_argument(0)
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return f'AK::DistinctNumeric<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKRefCounted:
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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 self.val["m_ref_count"]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::RefCounted<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKString:
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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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if int(self.val["m_impl"]["m_bits"]["m_value"]) == 0:
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return '""'
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else:
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impl = AKRefPtr(self.val["m_impl"]).get_pointee().dereference()
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return AKStringImpl(impl).to_string()
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::String'
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class AKStringView:
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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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if int(self.val["m_length"]) == 0:
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return '""'
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else:
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characters = self.val["m_characters"]
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str_type = characters.type.target().array(self.val["m_length"]).pointer()
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return str(characters.cast(str_type).dereference())
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::StringView'
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def get_field_unalloced(val, member, type):
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# Trying to access a variable-length field seems to fail with
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# Python Exception <class 'gdb.error'> value requires 4294967296 bytes, which is more than max-value-size
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# This works around that issue.
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return gdb.parse_and_eval(f"*({type}*)(({val.type.name}*){int(val.address)})->{member}")
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class AKStringImpl:
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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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if int(self.val["m_length"]) == 0:
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return '""'
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else:
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str_type = gdb.lookup_type("char").array(self.val["m_length"])
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return get_field_unalloced(self.val, "m_inline_buffer", str_type)
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::StringImpl'
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class AKOwnPtr:
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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 AKOwnPtr.prettyprint_type(self.val.type)
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def children(self):
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return [('*', self.val["m_ptr"])]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::OwnPtr<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKRefPtr:
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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 AKRefPtr.prettyprint_type(self.val.type)
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def get_pointee(self):
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inner_type = self.val.type.template_argument(0)
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inner_type_ptr = inner_type.pointer()
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return self.val["m_bits"]["m_value"].cast(inner_type_ptr)
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def children(self):
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return [('*', self.get_pointee())]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::RefPtr<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKVariant:
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def __init__(self, val):
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self.val = val
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self.index = int(self.val["m_index"])
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self.contained_types = self.resolve_types(self.val.type)
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def to_string(self):
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return AKVariant.prettyprint_type(self.val.type)
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def children(self):
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data = self.val["m_data"]
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ty = self.contained_types[self.index]
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return [(ty.name, data.cast(ty.pointer()).referenced_value())]
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@classmethod
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def resolve_types(cls, ty):
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contained_types = []
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type_resolved = ty.strip_typedefs()
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index = 0
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while True:
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try:
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arg = type_resolved.template_argument(index)
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index += 1
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contained_types.append(arg)
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except RuntimeError:
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break
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return contained_types
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@classmethod
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def prettyprint_type(cls, ty):
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names = ", ".join(handler_class_for_type(t).prettyprint_type(t) for t in AKVariant.resolve_types(ty))
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return f'AK::Variant<{names}>'
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class AKVector:
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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 f'{AKVector.prettyprint_type(self.val.type)} of len {int(self.val["m_size"])}'
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def children(self):
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vec_len = int(self.val["m_size"])
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if vec_len == 0:
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return []
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outline_buf = self.val["m_outline_buffer"]
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inner_type_ptr = self.val.type.template_argument(0).pointer()
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if int(outline_buf) != 0:
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elements = outline_buf.cast(inner_type_ptr)
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else:
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elements = get_field_unalloced(self.val, "m_inline_buffer_storage", inner_type_ptr)
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return [(f"[{i}]", elements[i]) for i in range(vec_len)]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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return f'AK::Vector<{handler_class_for_type(template_type).prettyprint_type(template_type)}>'
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class AKHashMapPrettyPrinter:
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def __init__(self, val):
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self.val = val
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@staticmethod
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def _iter_hashtable(val, cb):
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entry_type_ptr = val.type.template_argument(0).pointer()
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buckets = val["m_buckets"]
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for i in range(0, val["m_capacity"]):
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bucket = buckets[i]
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if bucket["used"]:
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cb(bucket["storage"].cast(entry_type_ptr))
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@staticmethod
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def _iter_hashmap(val, cb):
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table = val["m_table"]
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AKHashMapPrettyPrinter._iter_hashtable(table, lambda entry: cb(entry["key"], entry["value"]))
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def to_string(self):
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return AKHashMapPrettyPrinter.prettyprint_type(self.val.type)
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def children(self):
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elements = []
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def cb(key, value):
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nonlocal elements
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elements.append((f"[{key}]", value))
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AKHashMapPrettyPrinter._iter_hashmap(self.val, cb)
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return elements
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@classmethod
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def prettyprint_type(cls, type):
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template_types = list(type.template_argument(i) for i in (0, 1))
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key, value = list(handler_class_for_type(t).prettyprint_type(t) for t in template_types)
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return f'AK::HashMap<{key}, {value}>'
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class AKSinglyLinkedList:
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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 AKSinglyLinkedList.prettyprint_type(self.val.type)
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def children(self):
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elements = []
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node = self.val["m_head"]
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while node != 0:
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elements.append(node["value"])
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node = node["next"]
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return [(f"[{i}]", elements[i]) for i in range(len(elements))]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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return f'AK::SinglyLinkedList<{handler_class_for_type(template_type).prettyprint_type(template_type)}>'
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class AKInlineLinkedList:
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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 AKInlineLinkedList.prettyprint_type(self.val.type)
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def children(self):
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node_type_ptr = self.val.type.template_argument(0).pointer()
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elements = []
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node = self.val["m_head"]
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while node != 0:
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elements.append(node.cast(node_type_ptr))
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node = node["m_next"]
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return [(f"[{i}]", elements[i].dereference()) for i in range(len(elements))]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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return f'AK::InlineLinkedList<{handler_class_for_type(template_type).prettyprint_type(template_type)}>'
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class VirtualAddress:
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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 self.val["m_address"]
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@classmethod
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def prettyprint_type(cls, type):
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return 'VirtualAddress'
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class SerenityPrettyPrinterLocator(gdb.printing.PrettyPrinter):
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def __init__(self):
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super(SerenityPrettyPrinterLocator, self).__init__("serenity_pretty_printers", [])
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def __call__(self, val):
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type = gdb.types.get_basic_type(val.type)
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handler = handler_class_for_type(type)
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if handler is UnhandledType:
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return None
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return handler(val)
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gdb.printing.register_pretty_printer(None, SerenityPrettyPrinterLocator(), replace=True)
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class FindThreadCmd(gdb.Command):
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"""
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Find SerenityOS thread for the specified TID.
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find_thread TID
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"""
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def __init__(self):
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super(FindThreadCmd, self).__init__(
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"find_thread", gdb.COMMAND_USER
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)
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def _find_thread(self, tid):
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threads = gdb.parse_and_eval("Kernel::Thread::g_tid_map")
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thread = None
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def cb(key, value):
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nonlocal thread
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if int(key["m_value"]) == tid:
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thread = value
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AKHashMapPrettyPrinter._iter_hashmap(threads, cb)
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return thread
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def complete(self, text, word):
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return gdb.COMPLETE_SYMBOL
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def invoke(self, args, from_tty):
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argv = gdb.string_to_argv(args)
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if len(argv) == 0:
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gdb.write("Argument required (TID).\n")
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return
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tid = int(argv[0])
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thread = self._find_thread(tid)
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if not thread:
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gdb.write(f"No thread with TID {tid} found.\n")
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else:
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gdb.write(f"{thread}\n")
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FindThreadCmd()
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