mlir/utils/gdb-scripts/prettyprinters.py - llvm-project - Git at Google

 """GDB pretty printers for MLIR types."""

 import gdb.printing


 class StoragePrinter:
   """Prints bases of a struct and its fields."""

   def __init__(self, val):
     self.val = val

   def children(self):
     for field in self.val.type.fields():
       if field.is_base_class:
         yield ('<%s>' % field.name, self.val.cast(field.type))
       else:
         yield (field.name, self.val[field.name])


 class TupleTypeStoragePrinter(StoragePrinter):

   def children(self):
     for child in StoragePrinter.children(self):
       yield child
     pointer_type = gdb.lookup_type('mlir::Type').pointer()
     elements = (self.val.address + 1).cast(pointer_type)
     for i in range(self.val['numElements']):
       yield 'elements[%u]' % i, elements[i]


 class RankedTypeStoragePrinter(StoragePrinter):

   def children(self):
     for child in StoragePrinter.children(self):
       yield child
     for i in range(self.val['shapeSize']):
       yield 'shapeElements[%u]' % i, self.val['shapeElements'][i]


 class MemRefTypeStoragePrinter(RankedTypeStoragePrinter):

   def children(self):
     for child in RankedTypeStoragePrinter.children(self):
       yield child
     for i in range(self.val['numAffineMaps']):
       yield 'affineMapsList[%u]' % i, self.val['affineMapsList'][i]


 class FusedLocationStoragePrinter(StoragePrinter):

   def children(self):
     for child in StoragePrinter.children(self):
       yield child
     pointer_type = gdb.lookup_type('mlir::Location').pointer()
     elements = (self.val.address + 1).cast(pointer_type)
     for i in range(self.val['numLocs']):
       yield 'locs[%u]' % i, elements[i]


 class StorageUserBasePrinter:
   """Printer for an mlir::detail::StorageUserBase instance."""

   def __init__(self, val):
     self.val = val

   def children(self):
     storage_type = self.val.type.template_argument(2)
     yield 'impl', self.val['impl'].dereference().cast(storage_type)


 class StorageTypeMap:
   """Maps a TypeID to the corresponding type derived from StorageUserBase.

   Types need to be registered by name before the first lookup.
   """

   def __init__(self):
     self.map = None
     self.type_names = []

   def register_type(self, type_name):
     assert not self.map, 'register_type called after __getitem__'
     self.type_names += [type_name]

   def _init_map(self):
     """Lazy initialization  of self.map."""
     if self.map:
       return
     self.map = {}
     for type_name in self.type_names:
       concrete_type = gdb.lookup_type(type_name)
       try:
         storage = gdb.parse_and_eval(
             "&'mlir::detail::TypeIDExported::get<%s>()::instance'" % type_name)
       except gdb.error:
         # Skip when TypeID instance cannot be found in current context.
         continue
       if concrete_type and storage:
         self.map[int(storage)] = concrete_type

   def __getitem__(self, type_id):
     self._init_map()
     return self.map.get(int(type_id['storage']))


 storage_type_map = StorageTypeMap()


 def get_type_id_printer(val):
   """Returns a printer of the name of a mlir::TypeID."""

   class StringPrinter:

     def __init__(self, string):
       self.string = string

     def to_string(self):
       return self.string

   concrete_type = storage_type_map[val]
   if not concrete_type:
     return None
   return StringPrinter('"%s"' % concrete_type.name)


 def get_attr_or_type_printer(val, get_type_id):
   """Returns a printer for mlir::Attribute or mlir::Type."""

   class UpcastPrinter:

     def __init__(self, val, type):
       self.val = val.cast(type)

     def children(self):
       yield 'cast<%s>' % self.val.type.name, self.val

   if not val['impl']:
     return None
   type_id = get_type_id(val['impl'].dereference())
   concrete_type = storage_type_map[type_id]
   if not concrete_type:
     return None
   return UpcastPrinter(val, concrete_type)


 pp = gdb.printing.RegexpCollectionPrettyPrinter('MLIRSupport')

 # Printers for types deriving from AttributeStorage or TypeStorage.
 pp.add_printer('mlir::detail::FusedLocationStorage',
                '^mlir::detail::FusedLocationStorage',
                FusedLocationStoragePrinter)
 pp.add_printer('mlir::detail::VectorTypeStorage',
                '^mlir::detail::VectorTypeStorage', RankedTypeStoragePrinter)
 pp.add_printer('mlir::detail::RankedTensorTypeStorage',
                '^mlir::detail::RankedTensorTypeStorage',
                RankedTypeStoragePrinter)
 pp.add_printer('mlir::detail::MemRefTypeStorage',
                '^mlir::detail::MemRefTypeStorage$', MemRefTypeStoragePrinter)
 pp.add_printer('mlir::detail::TupleTypeStorage',
                '^mlir::detail::TupleTypeStorage$', TupleTypeStoragePrinter)

 # Printers for Attribute::AttrBase or Type::TypeBase typedefs.
 pp.add_printer('mlir::detail::StorageUserBase',
                '^mlir::detail::StorageUserBase<.*>$', StorageUserBasePrinter)

 # Printers of types deriving from Attribute::AttrBase or Type::TypeBase.
 for name in [
     # mlir/IR/Attributes.h
     'ArrayAttr',
     'DictionaryAttr',
     'FloatAttr',
     'IntegerAttr',
     'IntegerSetAttr',
     'OpaqueAttr',
     'StringAttr',
     'SymbolRefAttr',
     'TypeAttr',
     'UnitAttr',
     'DenseStringElementsAttr',
     'DenseIntOrFPElementsAttr',
     'OpaqueElementsAttr',
     'SparseElementsAttr',
     # mlir/IR/BuiltinTypes.h
     'ComplexType',
     'IndexType',
     'IntegerType',
     'Float16Type',
     'Float32Type',
     'Float64Type',
     'Float80Type',
     'Float128Type',
     'NoneType',
     'VectorType',
     'RankedTensorType',
     'UnrankedTensorType',
     'MemRefType',
     'UnrankedMemRefType',
     'TupleType',
     # mlir/IR/Location.h
     'CallSiteLoc',
     'FileLineColLoc',
     'FusedLoc',
     'NameLoc',
     'OpaqueLoc',
     'UnknownLoc'
 ]:
   storage_type_map.register_type('mlir::%s' % name)  # Register for upcasting.

 pp.add_printer('mlir::TypeID', '^mlir::TypeID$', get_type_id_printer)


 def add_attr_or_type_printers(name):
   """Adds printers for mlir::Attribute or mlir::Type and their Storage type."""
   get_type_id = lambda val: val['abstract%s' % name]['typeID']
   pp.add_printer('mlir::%s' % name, '^mlir::%s$' % name,
                  lambda val: get_attr_or_type_printer(val, get_type_id))
   pp.add_printer('mlir::%sStorage' % name, '^mlir::%sStorage$' % name,
                  lambda val: get_type_id_printer(get_type_id(val)))


 # Upcasting printers of mlir::Attribute and mlir::Type.
 for name in ['Attribute', 'Type']:
   add_attr_or_type_printers(name)

 gdb.printing.register_pretty_printer(gdb.current_objfile(), pp)
	"""GDB pretty printers for MLIR types."""

	import gdb.printing


	class StoragePrinter:
	"""Prints bases of a struct and its fields."""

	def __init__(self, val):
	self.val = val

	def children(self):
	for field in self.val.type.fields():
	if field.is_base_class:
	yield ('<%s>' % field.name, self.val.cast(field.type))
	else:
	yield (field.name, self.val[field.name])


	class TupleTypeStoragePrinter(StoragePrinter):

	def children(self):
	for child in StoragePrinter.children(self):
	yield child
	pointer_type = gdb.lookup_type('mlir::Type').pointer()
	elements = (self.val.address + 1).cast(pointer_type)
	for i in range(self.val['numElements']):
	yield 'elements[%u]' % i, elements[i]


	class RankedTypeStoragePrinter(StoragePrinter):

	def children(self):
	for child in StoragePrinter.children(self):
	yield child
	for i in range(self.val['shapeSize']):
	yield 'shapeElements[%u]' % i, self.val['shapeElements'][i]


	class MemRefTypeStoragePrinter(RankedTypeStoragePrinter):

	def children(self):
	for child in RankedTypeStoragePrinter.children(self):
	yield child
	for i in range(self.val['numAffineMaps']):
	yield 'affineMapsList[%u]' % i, self.val['affineMapsList'][i]


	class FusedLocationStoragePrinter(StoragePrinter):

	def children(self):
	for child in StoragePrinter.children(self):
	yield child
	pointer_type = gdb.lookup_type('mlir::Location').pointer()
	elements = (self.val.address + 1).cast(pointer_type)
	for i in range(self.val['numLocs']):
	yield 'locs[%u]' % i, elements[i]


	class StorageUserBasePrinter:
	"""Printer for an mlir::detail::StorageUserBase instance."""

	def __init__(self, val):
	self.val = val

	def children(self):
	storage_type = self.val.type.template_argument(2)
	yield 'impl', self.val['impl'].dereference().cast(storage_type)


	class StorageTypeMap:
	"""Maps a TypeID to the corresponding type derived from StorageUserBase.

	Types need to be registered by name before the first lookup.
	"""

	def __init__(self):
	self.map = None
	self.type_names = []

	def register_type(self, type_name):
	assert not self.map, 'register_type called after __getitem__'
	self.type_names += [type_name]

	def _init_map(self):
	"""Lazy initialization of self.map."""
	if self.map:
	return
	self.map = {}
	for type_name in self.type_names:
	concrete_type = gdb.lookup_type(type_name)
	try:
	storage = gdb.parse_and_eval(
	"&'mlir::detail::TypeIDExported::get<%s>()::instance'" % type_name)
	except gdb.error:
	# Skip when TypeID instance cannot be found in current context.
	continue
	if concrete_type and storage:
	self.map[int(storage)] = concrete_type

	def __getitem__(self, type_id):
	self._init_map()
	return self.map.get(int(type_id['storage']))


	storage_type_map = StorageTypeMap()


	def get_type_id_printer(val):
	"""Returns a printer of the name of a mlir::TypeID."""

	class StringPrinter:

	def __init__(self, string):
	self.string = string

	def to_string(self):
	return self.string

	concrete_type = storage_type_map[val]
	if not concrete_type:
	return None
	return StringPrinter('"%s"' % concrete_type.name)


	def get_attr_or_type_printer(val, get_type_id):
	"""Returns a printer for mlir::Attribute or mlir::Type."""

	class UpcastPrinter:

	def __init__(self, val, type):
	self.val = val.cast(type)

	def children(self):
	yield 'cast<%s>' % self.val.type.name, self.val

	if not val['impl']:
	return None
	type_id = get_type_id(val['impl'].dereference())
	concrete_type = storage_type_map[type_id]
	if not concrete_type:
	return None
	return UpcastPrinter(val, concrete_type)


	pp = gdb.printing.RegexpCollectionPrettyPrinter('MLIRSupport')

	# Printers for types deriving from AttributeStorage or TypeStorage.
	pp.add_printer('mlir::detail::FusedLocationStorage',
	'^mlir::detail::FusedLocationStorage',
	FusedLocationStoragePrinter)
	pp.add_printer('mlir::detail::VectorTypeStorage',
	'^mlir::detail::VectorTypeStorage', RankedTypeStoragePrinter)
	pp.add_printer('mlir::detail::RankedTensorTypeStorage',
	'^mlir::detail::RankedTensorTypeStorage',
	RankedTypeStoragePrinter)
	pp.add_printer('mlir::detail::MemRefTypeStorage',
	'^mlir::detail::MemRefTypeStorage$', MemRefTypeStoragePrinter)
	pp.add_printer('mlir::detail::TupleTypeStorage',
	'^mlir::detail::TupleTypeStorage$', TupleTypeStoragePrinter)

	# Printers for Attribute::AttrBase or Type::TypeBase typedefs.
	pp.add_printer('mlir::detail::StorageUserBase',
	'^mlir::detail::StorageUserBase<.*>$', StorageUserBasePrinter)

	# Printers of types deriving from Attribute::AttrBase or Type::TypeBase.
	for name in [
	# mlir/IR/Attributes.h
	'ArrayAttr',
	'DictionaryAttr',
	'FloatAttr',
	'IntegerAttr',
	'IntegerSetAttr',
	'OpaqueAttr',
	'StringAttr',
	'SymbolRefAttr',
	'TypeAttr',
	'UnitAttr',
	'DenseStringElementsAttr',
	'DenseIntOrFPElementsAttr',
	'OpaqueElementsAttr',
	'SparseElementsAttr',
	# mlir/IR/BuiltinTypes.h
	'ComplexType',
	'IndexType',
	'IntegerType',
	'Float16Type',
	'Float32Type',
	'Float64Type',
	'Float80Type',
	'Float128Type',
	'NoneType',
	'VectorType',
	'RankedTensorType',
	'UnrankedTensorType',
	'MemRefType',
	'UnrankedMemRefType',
	'TupleType',
	# mlir/IR/Location.h
	'CallSiteLoc',
	'FileLineColLoc',
	'FusedLoc',
	'NameLoc',
	'OpaqueLoc',
	'UnknownLoc'
	]:
	storage_type_map.register_type('mlir::%s' % name) # Register for upcasting.

	pp.add_printer('mlir::TypeID', '^mlir::TypeID$', get_type_id_printer)


	def add_attr_or_type_printers(name):
	"""Adds printers for mlir::Attribute or mlir::Type and their Storage type."""
	get_type_id = lambda val: val['abstract%s' % name]['typeID']
	pp.add_printer('mlir::%s' % name, '^mlir::%s$' % name,
	lambda val: get_attr_or_type_printer(val, get_type_id))
	pp.add_printer('mlir::%sStorage' % name, '^mlir::%sStorage$' % name,
	lambda val: get_type_id_printer(get_type_id(val)))


	# Upcasting printers of mlir::Attribute and mlir::Type.
	for name in ['Attribute', 'Type']:
	add_attr_or_type_printers(name)

	gdb.printing.register_pretty_printer(gdb.current_objfile(), pp)