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'''
This module contains the classes which represent XCB data types.
'''
from expr import Field, Expression
import __main__
class Type(object):
'''
Abstract base class for all XCB data types.
Contains default fields, and some abstract methods.
'''
def __init__(self, name):
'''
Default structure initializer. Sets up default fields.
Public fields:
name is a tuple of strings specifying the full type name.
size is the size of the datatype in bytes, or None if variable-sized.
nmemb is 1 for non-list types, None for variable-sized lists, otherwise number of elts.
booleans for identifying subclasses, because I can't figure out isinstance().
'''
self.name = name
self.size = None
self.nmemb = None
self.resolved = False
# Screw isinstance().
self.is_simple = False
self.is_list = False
self.is_expr = False
self.is_container = False
self.is_reply = False
self.is_union = False
self.is_pad = False
def resolve(self, module):
'''
Abstract method for resolving a type.
This should make sure any referenced types are already declared.
'''
raise Exception('abstract resolve method not overridden!')
def out(self, name):
'''
Abstract method for outputting code.
These are declared in the language-specific modules, and
there must be a dictionary containing them declared when this module is imported!
'''
raise Exception('abstract out method not overridden!')
def fixed_size(self):
'''
Abstract method for determining if the data type is fixed-size.
'''
raise Exception('abstract fixed_size method not overridden!')
def make_member_of(self, module, complex_type, field_type, field_name, visible, wire, auto):
'''
Default method for making a data type a member of a structure.
Extend this if the data type needs to add an additional length field or something.
module is the global module object.
complex_type is the structure object.
see Field for the meaning of the other parameters.
'''
new_field = Field(self, field_type, field_name, visible, wire, auto)
# We dump the _placeholder_byte if any fields are added.
for (idx, field) in enumerate(complex_type.fields):
if field == _placeholder_byte:
complex_type.fields[idx] = new_field
return
complex_type.fields.append(new_field)
class SimpleType(Type):
'''
Derived class which represents a cardinal type like CARD32 or char.
Any type which is typedef'ed to cardinal will be one of these.
Public fields added:
none
'''
def __init__(self, name, size):
Type.__init__(self, name)
self.is_simple = True
self.size = size
self.nmemb = 1
def resolve(self, module):
self.resolved = True
def fixed_size(self):
return True
out = __main__.output['simple']
# Cardinal datatype globals. See module __init__ method.
tcard8 = SimpleType(('uint8_t',), 1)
tcard16 = SimpleType(('uint16_t',), 2)
tcard32 = SimpleType(('uint32_t',), 4)
tint8 = SimpleType(('int8_t',), 1)
tint16 = SimpleType(('int16_t',), 2)
tint32 = SimpleType(('int32_t',), 4)
tchar = SimpleType(('char',), 1)
tfloat = SimpleType(('float',), 4)
tdouble = SimpleType(('double',), 8)
class Enum(SimpleType):
'''
Derived class which represents an enum. Fixed-size.
Public fields added:
values contains a list of (name, value) tuples. value is empty, or a number.
'''
def __init__(self, name, elt):
SimpleType.__init__(self, name, 4)
self.values = []
for item in list(elt):
# First check if we're using a default value
if len(list(item)) == 0:
self.values.append((item.get('name'), ''))
continue
# An explicit value or bit was specified.
value = list(item)[0]
if value.tag == 'value':
self.values.append((item.get('name'), value.text))
elif value.tag == 'bit':
# XXX replace this with a simple number, please.
self.values.append((item.get('name'), '(1 << %s)' % value.text))
def resolve(self, module):
self.resolved = True
def fixed_size(self):
return True
out = __main__.output['enum']
class ListType(Type):
'''
Derived class which represents a list of some other datatype. Fixed- or variable-sized.
Public fields added:
member is the datatype of the list elements.
parent is the structure type containing the list.
expr is an Expression object containing the length information, for variable-sized lists.
'''
def __init__(self, elt, member, parent):
Type.__init__(self, member.name)
self.is_list = True
self.member = member
self.parent = parent
if elt.tag == 'list':
elts = list(elt)
self.expr = Expression(elts[0] if len(elts) else elt, self)
elif elt.tag == 'valueparam':
self.expr = Expression(elt, self)
self.size = member.size if member.fixed_size() else None
self.nmemb = self.expr.nmemb if self.expr.fixed_size() else None
def make_member_of(self, module, complex_type, field_type, field_name, visible, wire, auto):
if not self.fixed_size():
# We need a length field.
# Ask our Expression object for it's name, type, and whether it's on the wire.
lenfid = self.expr.lenfield_type
lenfield_name = self.expr.lenfield_name
lenwire = self.expr.lenwire
needlen = True
# See if the length field is already in the structure.
for field in self.parent.fields:
if field.field_name == lenfield_name:
needlen = False
# It isn't, so we need to add it to the structure ourself.
if needlen:
type = module.get_type(lenfid)
lenfield_type = module.get_type_name(lenfid)
type.make_member_of(module, complex_type, lenfield_type, lenfield_name, True, lenwire, False)
# Add ourself to the structure by calling our original method.
Type.make_member_of(self, module, complex_type, field_type, field_name, visible, wire, auto)
def resolve(self, module):
if self.resolved:
return
self.member.resolve(module)
# Find my length field again. We need the actual Field object in the expr.
# This is needed because we might have added it ourself above.
if not self.fixed_size():
for field in self.parent.fields:
if field.field_name == self.expr.lenfield_name and field.wire:
self.expr.lenfield = field
break
self.resolved = True
def fixed_size(self):
return self.member.fixed_size() and self.expr.fixed_size()
class ExprType(Type):
'''
Derived class which represents an exprfield. Fixed size.
Public fields added:
expr is an Expression object containing the value of the field.
'''
def __init__(self, elt, member, parent):
Type.__init__(self, member.name)
self.is_expr = True
self.member = member
self.parent = parent
self.expr = Expression(list(elt)[0], self)
self.size = member.size
self.nmemb = 1
def resolve(self, module):
if self.resolved:
return
self.member.resolve(module)
self.resolved = True
def fixed_size(self):
return True
class PadType(Type):
'''
Derived class which represents a padding field.
'''
def __init__(self, elt):
Type.__init__(self, tcard8.name)
self.is_pad = True
self.size = 1
self.nmemb = 1 if (elt == None) else int(elt.get('bytes'))
def resolve(self, module):
self.resolved = True
def fixed_size(self):
return True
class ComplexType(Type):
'''
Derived class which represents a structure. Base type for all structure types.
Public fields added:
fields is an array of Field objects describing the structure fields.
'''
def __init__(self, name, elt):
Type.__init__(self, name)
self.is_container = True
self.elt = elt
self.fields = []
self.nmemb = 1
self.size = 0
def resolve(self, module):
if self.resolved:
return
pads = 0
# Resolve all of our field datatypes.
for child in list(self.elt):
if child.tag == 'pad':
field_name = 'pad' + str(pads)
fkey = 'CARD8'
type = PadType(child)
pads = pads + 1
visible = False
elif child.tag == 'field':
field_name = child.get('name')
fkey = child.get('type')
type = module.get_type(fkey)
visible = True
elif child.tag == 'exprfield':
field_name = child.get('name')
fkey = child.get('type')
type = ExprType(child, module.get_type(fkey), self)
visible = False
elif child.tag == 'list':
field_name = child.get('name')
fkey = child.get('type')
type = ListType(child, module.get_type(fkey), self)
visible = True
elif child.tag == 'valueparam':
field_name = child.get('value-list-name')
fkey = 'CARD32'
type = ListType(child, module.get_type(fkey), self)
visible = True
else:
# Hit this on Reply
continue
# Get the full type name for the field
field_type = module.get_type_name(fkey)
# Add the field to ourself
type.make_member_of(module, self, field_type, field_name, visible, True, False)
# Recursively resolve the type (could be another structure, list)
type.resolve(module)
self.calc_size() # Figure out how big we are
self.resolved = True
def calc_size(self):
self.size = 0
for m in self.fields:
if not m.wire:
continue
if m.type.fixed_size():
self.size = self.size + m.type.size
else:
self.size = None
break
def fixed_size(self):
for m in self.fields:
if not m.type.fixed_size():
return False
return True
class Struct(ComplexType):
'''
Derived class representing a struct data type.
'''
out = __main__.output['struct']
class Union(ComplexType):
'''
Derived class representing a union data type.
'''
def __init__(self, name, elt):
ComplexType.__init__(self, name, elt)
self.is_union = True
out = __main__.output['union']
class Reply(ComplexType):
'''
Derived class representing a reply. Only found as a field of Request.
'''
def __init__(self, name, elt):
ComplexType.__init__(self, name, elt)
self.is_reply = True
def resolve(self, module):
if self.resolved:
return
# Add the automatic protocol fields
self.fields.append(Field(tcard8, tcard8.name, 'response_type', False, True, True))
self.fields.append(_placeholder_byte)
self.fields.append(Field(tcard16, tcard16.name, 'sequence', False, True, True))
self.fields.append(Field(tcard32, tcard32.name, 'length', False, True, True))
ComplexType.resolve(self, module)
class Request(ComplexType):
'''
Derived class representing a request.
Public fields added:
reply contains the reply datatype or None for void requests.
opcode contains the request number.
'''
def __init__(self, name, elt):
ComplexType.__init__(self, name, elt)
self.reply = None
self.opcode = elt.get('opcode')
for child in list(elt):
if child.tag == 'reply':
self.reply = Reply(name, child)
def resolve(self, module):
if self.resolved:
return
# Add the automatic protocol fields
if module.namespace.is_ext:
self.fields.append(Field(tcard8, tcard8.name, 'major_opcode', False, True, True))
self.fields.append(Field(tcard8, tcard8.name, 'minor_opcode', False, True, True))
self.fields.append(Field(tcard16, tcard16.name, 'length', False, True, True))
ComplexType.resolve(self, module)
else:
self.fields.append(Field(tcard8, tcard8.name, 'major_opcode', False, True, True))
self.fields.append(_placeholder_byte)
self.fields.append(Field(tcard16, tcard16.name, 'length', False, True, True))
ComplexType.resolve(self, module)
if self.reply:
self.reply.resolve(module)
out = __main__.output['request']
class Event(ComplexType):
'''
Derived class representing an event data type.
Public fields added:
opcodes is a dictionary of name -> opcode number, for eventcopies.
'''
def __init__(self, name, elt):
ComplexType.__init__(self, name, elt)
self.opcodes = {}
tmp = elt.get('no-sequence-number')
self.has_seq = (tmp == None or tmp.lower() == 'false' or tmp == '0')
def add_opcode(self, opcode, name, main):
self.opcodes[name] = opcode
if main:
self.name = name
def resolve(self, module):
if self.resolved:
return
# Add the automatic protocol fields
self.fields.append(Field(tcard8, tcard8.name, 'response_type', False, True, True))
if self.has_seq:
self.fields.append(_placeholder_byte)
self.fields.append(Field(tcard16, tcard16.name, 'sequence', False, True, True))
ComplexType.resolve(self, module)
out = __main__.output['event']
class Error(ComplexType):
'''
Derived class representing an error data type.
Public fields added:
opcodes is a dictionary of name -> opcode number, for errorcopies.
'''
def __init__(self, name, elt):
ComplexType.__init__(self, name, elt)
self.opcodes = {}
def add_opcode(self, opcode, name, main):
self.opcodes[name] = opcode
if main:
self.name = name
def resolve(self, module):
if self.resolved:
return
# Add the automatic protocol fields
self.fields.append(Field(tcard8, tcard8.name, 'response_type', False, True, True))
self.fields.append(Field(tcard8, tcard8.name, 'error_code', False, True, True))
self.fields.append(Field(tcard16, tcard16.name, 'sequence', False, True, True))
ComplexType.resolve(self, module)
out = __main__.output['error']
_placeholder_byte = Field(PadType(None), tcard8.name, 'pad0', False, True, False)
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