printers.py
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Created: Sun, Jul 14, 01:06

printers.py
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	#!/usr/bin/env python3
	# encoding: utf-8
	#
	# Inspired from boost's pretty printers from
	# Rüdiger Sonderfeld <ruediger@c-plusplus.de>
	# and from Pretty-printers for libstc++ from Free Software Foundation, Inc.
	#
	import gdb
	import re
	import sys

	__use_gdb_pp__ = True
	try:
	import gdb.printing
	except ImportError:
	__use_gdb_pp__ = False


	class AkantuPrinter(object):
	regex = None

	@classmethod
	def supports(cls, typename):
	#print('{0} ~= {1}'.format(typename, cls.regex), file=sys.stderr)
	return cls.regex.search(typename)

	@classmethod
	def get_basic_type(cls, value):
	""" Determines the type associated to a value"""

	_type = value.type
	# If it points to a reference, get the reference.
	if _type.code == gdb.TYPE_CODE_REF:
	_type = _type.target()

	# Get the unqualified type, stripped of typedefs.
	_type = _type.unqualified().strip_typedefs()

	return _type.tag

	if __use_gdb_pp__:
	__akantu_pretty_printers__ = \
	gdb.printing.RegexpCollectionPrettyPrinter("libakantu-v3")
	else:
	class AkantuPrettyPrinters(object):
	def __init__(self, name):
	super(AkantuPrettyPrinters, self).__init__()
	self.name = name
	self.printers = {}

	@property
	def enabled(self):
	return True

	def add_printer(self, name, regex, printer):
	self.printers[name] = printer

	def __call__(self, val):
	typename = AkantuPrinter.get_basic_type(val)
	if not typename:
	return None

	for name, printer in self.printers.items():
	if(printer.supports(typename)):
	return printer

	return None

	__akantu_pretty_printers__ = AkantuPrettyPrinters("libakantu-v3")


	def register_pretty_printer(pretty_printer):
	"Registers a Pretty Printer"

	__akantu_pretty_printers__.add_printer(pretty_printer.name,
	pretty_printer.regex,
	pretty_printer)

	return pretty_printer

	@register_pretty_printer
	class AkaArrayPrinter(AkantuPrinter):
	"""Pretty printer for akantu::Array<T>"""
	regex = re.compile('^akantu::Array<(.*?), (true\|false)>$')
	name = 'akantu::Array'

	def __init__(self, value):
	self.typename = self.get_basic_type(value)
	self.value = value
	self.ptr = self.value['values']
	self.size = int(self.value['size_'])
	self.nb_component = int(self.value['nb_component'])

	def display_hint(self):
	return 'array'

	def to_string(self):
	m = self.regex.search(self.typename)
	return 'Array<{0}>({1}, {2}) stored at {3}'.format(
	m.group(1), self.size, self.nb_component, self.ptr)

	def children(self):
	_ptr = self.ptr
	for i in range(self.size):
	_values = ["{0}".format((_ptr + j).dereference())
	for j in range(self.nb_component)]
	_ptr = _ptr + self.nb_component
	yield ('[{0}]'.format(i),
	('{0}' if self.nb_component == 1 else '[{0}]').format(
	', '.join(_values)))

	if sys.version_info[0] > 2:
	### Python 3 stuff
	Iterator = object
	else:
	### Python 2 stuff
	class Iterator:
	"""Compatibility mixin for iterators

	Instead of writing next() methods for iterators, write
	__next__() methods and use this mixin to make them work in
	Python 2 as well as Python 3.

	Idea stolen from the "six" documentation:
	<http://pythonhosted.org/six/#six.Iterator>
	"""
	def next(self):
	return self.__next__()


	class RbtreeIterator(Iterator):
	"""
	Turn an RB-tree-based container (std::map, std::set etc.) into
	a Python iterable object.
	"""

	def __init__(self, rbtree):
	self.size = rbtree['_M_t']['_M_impl']['_M_node_count']
	self.node = rbtree['_M_t']['_M_impl']['_M_header']['_M_left']
	self.count = 0

	def __iter__(self):
	return self

	def __len__(self):
	return int (self.size)

	def __next__(self):
	if self.count == self.size:
	raise StopIteration
	result = self.node
	self.count = self.count + 1
	if self.count < self.size:
	# Compute the next node.
	node = self.node
	if node.dereference()['_M_right']:
	node = node.dereference()['_M_right']
	while node.dereference()['_M_left']:
	node = node.dereference()['_M_left']
	else:
	parent = node.dereference()['_M_parent']
	while node == parent.dereference()['_M_right']:
	node = parent
	parent = parent.dereference()['_M_parent']
	if node.dereference()['_M_right'] != parent:
	node = parent
	self.node = node
	return result

	def get_value_from_Rb_tree_node(node):
	"""Returns the value held in an _Rb_tree_node<_Val>"""
	try:
	member = node.type.fields()[1].name
	if member == '_M_value_field':
	# C++03 implementation, node contains the value as a member
	return node['_M_value_field']
	elif member == '_M_storage':
	# C++11 implementation, node stores value in __aligned_membuf
	valtype = node.type.template_argument(0)
	return get_value_from_aligned_membuf(node['_M_storage'], valtype)
	except:
	pass
	raise ValueError("Unsupported implementation for %s" % str(node.type))

	@register_pretty_printer
	class AkaElementTypeMapArrayPrinter(AkantuPrinter):
	"""Pretty printer for akantu::ElementTypeMap<Array<T>>"""
	regex = re.compile('^akantu::ElementTypeMap<akantu::Array<(.?), (true\|false)>\, akantu::(.*?)>$')
	name = 'akantu::ElementTypeMapArray'

	# Turn an RbtreeIterator into a pretty-print iterator.
	class _iter(Iterator):
	def __init__(self, rbiter, type):
	self.rbiter = rbiter
	self.count = 0
	self.type = type

	def __iter__(self):
	return self

	def __next__(self):
	if self.count % 2 == 0:
	n = next(self.rbiter)
	n = n.cast(self.type).dereference()
	n = get_value_from_Rb_tree_node(n)
	self.pair = n
	item = n['first']
	else:
	item = self.pair['second']
	result = ('[{0}]'.format(self.count), item.dereference())
	self.count = self.count + 1
	return result

	def __init__(self, value):
	self.typename = self.get_basic_type(value)
	self.value = value
	self.data = self.value['data']
	self.ghost_data = self.value['ghost_data']

	def to_string(self):
	m = self.regex.search(self.typename)
	return 'ElementTypMapArray<{0}> with {1} _not_ghost and {2} _ghost'.format(
	m.group(1), len(RbtreeIterator(self.data)), len(RbtreeIterator(self.ghost_data)))

	def children(self):
	m = self.regex.search(self.typename)
	try:
	_type = gdb.lookup_type("akantu::Array<{0}, {1}>".format(
	m.group(1), m.group(2))).strip_typedefs().pointer()
	yield ('[_not_ghost]', self._iter(RbtreeIterator(self.data), _type))
	yield ('[_ghost]', self._iter(RbtreeIterator(self.ghost_data), _type))
	except RuntimeError:
	pass

	def display_hint(self):
	return 'map'


	# @register_pretty_printer
	class AkaTensorPrinter(AkantuPrinter):
	"""Pretty printer for akantu::Tensor<T>"""
	regex = re.compile('^akantu::Tensor<(.), +(.), +(.*)>$')
	name = 'akantu::Tensor'

	value = None
	typename = ""
	ptr = None
	dims = []
	ndims = 0

	def pretty_print(self):
	def ij2str(i, j, m):
	return "{0}".format((self.ptr+m*j + i).dereference())

	def line(i, m, n):
	return "[{0}]".format(", ".join((ij2str(i, j, m) for j in
	range(n))))

	m = int(self.dims[0])
	if (self.ndims == 1):
	n = 1
	else:
	n = int(self.dims[1])

	return "[{0}]".format(", ".join(line(i, m, n) for i in range(m)))

	def __init__(self, value):
	self.typename = self.get_basic_type(value)
	self.value = value
	self.ptr = self.value['values']
	self.dims = self.value['n']

	def children(self):
	yield ('values', self.pretty_print())
	yield ('wrapped', self.value['wrapped'])

	@register_pretty_printer
	class AkaVectorPrinter(AkaTensorPrinter):
	"""Pretty printer for akantu::Vector<T>"""
	regex = re.compile('^akantu::Vector<(.*)>$')
	name = 'akantu::Vector'
	n = 0
	ptr = 0x0

	def __init__(self, value):
	super(AkaVectorPrinter, self).__init__(value)
	self.ndims = 1

	def to_string(self):
	m = self.regex.search(self.typename)
	return 'Vector<{0}>({1}) [{2}]'.format(m.group(1), int(self.dims[0]),
	str(self.ptr))


	@register_pretty_printer
	class AkaMatrixPrinter(AkaTensorPrinter):
	"""Pretty printer for akantu::Matrix<T>"""
	regex = re.compile('^akantu::Matrix<(.*)>$')
	name = 'akantu::Matrix'

	def __init__(self, value):
	super(AkaMatrixPrinter, self).__init__(value)
	self.ndims = 2

	def to_string(self):
	m = self.regex.search(self.typename)
	return 'Matrix<%s>(%d, %d) [%s]' % (m.group(1), int(self.dims[0]),
	int(self.dims[1]),
	str(self.ptr))


	@register_pretty_printer
	class AkaElementPrinter(AkantuPrinter):
	"""Pretty printer for akantu::Element"""
	regex = re.compile('^akantu::Element$')
	name = 'akantu::Element'

	def __init__(self, value):
	self.typename = self.get_basic_type(value)
	self.value = value

	self.element = self.value['element']
	self.eltype = self.value['type']
	self.ghost_type = self.value['ghost_type']

	def to_string(self):
	return 'Element({0}, {1}, {2})'.format(self.element, self.eltype,
	self.ghost_type)


	def register_akantu_printers(obj):
	"Register Akantu Pretty Printers."

	if __use_gdb_pp__:
	gdb.printing.register_pretty_printer(obj, __akantu_pretty_printers__)
	else:
	if obj is None:
	obj = gdb
	obj.pretty_printers.append(__akantu_pretty_printers__)

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