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|
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import copy
import functools
from ipdl.util import hash_str
class Visitor:
def defaultVisit(self, node):
raise Exception(
"INTERNAL ERROR: no visitor for node type `%s'" % (node.__class__.__name__)
)
def visitWhitespace(self, ws):
pass
def visitVerbatimNode(self, verb):
pass
def visitGroupNode(self, group):
for node in group.nodes:
node.accept(self)
def visitFile(self, f):
for thing in f.stuff:
thing.accept(self)
def visitCppDirective(self, ppd):
pass
def visitBlock(self, block):
for stmt in block.stmts:
stmt.accept(self)
def visitNamespace(self, ns):
self.visitBlock(ns)
def visitType(self, type):
pass
def visitTypeArray(self, ta):
ta.basetype.accept(self)
ta.nmemb.accept(self)
def visitTypeEnum(self, enum):
pass
def visitTypeFunction(self, fn):
pass
def visitTypeUnion(self, union):
for t, name in union.components:
t.accept(self)
def visitTypedef(self, tdef):
tdef.fromtype.accept(self)
def visitUsing(self, us):
us.type.accept(self)
def visitForwardDecl(self, fd):
pass
def visitDecl(self, decl):
decl.type.accept(self)
def visitParam(self, param):
self.visitDecl(param)
if param.default is not None:
param.default.accept(self)
def visitClass(self, cls):
for inherit in cls.inherits:
inherit.accept(self)
self.visitBlock(cls)
def visitInherit(self, inh):
pass
def visitFriendClassDecl(self, fcd):
pass
def visitMethodDecl(self, meth):
for param in meth.params:
param.accept(self)
if meth.ret is not None:
meth.ret.accept(self)
if meth.typeop is not None:
meth.typeop.accept(self)
if meth.T is not None:
meth.T.accept(self)
def visitMethodDefn(self, meth):
meth.decl.accept(self)
self.visitBlock(meth)
def visitFunctionDecl(self, fun):
self.visitMethodDecl(fun)
def visitFunctionDefn(self, fd):
self.visitMethodDefn(fd)
def visitConstructorDecl(self, ctor):
self.visitMethodDecl(ctor)
def visitConstructorDefn(self, cd):
cd.decl.accept(self)
for init in cd.memberinits:
init.accept(self)
self.visitBlock(cd)
def visitDestructorDecl(self, dtor):
self.visitMethodDecl(dtor)
def visitDestructorDefn(self, dd):
dd.decl.accept(self)
self.visitBlock(dd)
def visitExprLiteral(self, l):
pass
def visitExprVar(self, v):
pass
def visitExprPrefixUnop(self, e):
e.expr.accept(self)
def visitExprBinary(self, e):
e.left.accept(self)
e.right.accept(self)
def visitExprConditional(self, c):
c.cond.accept(self)
c.ife.accept(self)
c.elsee.accept(self)
def visitExprAddrOf(self, eao):
self.visitExprPrefixUnop(eao)
def visitExprDeref(self, ed):
self.visitExprPrefixUnop(ed)
def visitExprNot(self, en):
self.visitExprPrefixUnop(en)
def visitExprCast(self, ec):
ec.expr.accept(self)
def visitExprSelect(self, es):
es.obj.accept(self)
def visitExprAssn(self, ea):
ea.lhs.accept(self)
ea.rhs.accept(self)
def visitExprCall(self, ec):
ec.func.accept(self)
for arg in ec.args:
arg.accept(self)
def visitExprMove(self, ec):
self.visitExprCall(ec)
def visitExprNothing(self, ec):
self.visitExprCall(ec)
def visitExprSome(self, ec):
self.visitExprCall(ec)
def visitExprNew(self, en):
en.ctype.accept(self)
if en.newargs is not None:
for arg in en.newargs:
arg.accept(self)
if en.args is not None:
for arg in en.args:
arg.accept(self)
def visitExprDelete(self, ed):
ed.obj.accept(self)
def visitExprMemberInit(self, minit):
self.visitExprCall(minit)
def visitExprLambda(self, l):
self.visitBlock(l)
def visitStmtBlock(self, sb):
self.visitBlock(sb)
def visitStmtDecl(self, sd):
sd.decl.accept(self)
if sd.init is not None:
sd.init.accept(self)
def visitLabel(self, label):
pass
def visitCaseLabel(self, case):
pass
def visitDefaultLabel(self, dl):
pass
def visitStmtIf(self, si):
si.cond.accept(self)
si.ifb.accept(self)
if si.elseb is not None:
si.elseb.accept(self)
def visitStmtFor(self, sf):
if sf.init is not None:
sf.init.accept(self)
if sf.cond is not None:
sf.cond.accept(self)
if sf.update is not None:
sf.update.accept(self)
def visitStmtSwitch(self, ss):
ss.expr.accept(self)
self.visitBlock(ss)
def visitStmtBreak(self, sb):
pass
def visitStmtExpr(self, se):
se.expr.accept(self)
def visitStmtReturn(self, sr):
if sr.expr is not None:
sr.expr.accept(self)
# ------------------------------
class Node:
def __init__(self):
pass
def accept(self, visitor):
visit = getattr(visitor, "visit" + self.__class__.__name__, None)
if visit is None:
return getattr(visitor, "defaultVisit")(self)
return visit(self)
class Whitespace(Node):
# yes, this is silly. but we need to stick comments in the
# generated code without resorting to more serious hacks
def __init__(self, ws, indent=False):
Node.__init__(self)
self.ws = ws
self.indent = indent
Whitespace.NL = Whitespace("\n")
class VerbatimNode(Node):
# A block of text to be written verbatim to the output file.
#
# NOTE: This node is usually created by `code`. See `code.py` for details.
# FIXME: Merge Whitespace and VerbatimNode? They're identical.
def __init__(self, text, indent=0):
Node.__init__(self)
self.text = text
self.indent = indent
class GroupNode(Node):
# A group of nodes to be treated as a single node. These nodes have an
# optional indentation level which should be applied when generating them.
#
# NOTE: This node is usually created by `code`. See `code.py` for details.
def __init__(self, nodes, offset=0):
Node.__init__(self)
self.nodes = nodes
self.offset = offset
class File(Node):
def __init__(self, filename):
Node.__init__(self)
self.name = filename
# array of stuff in the file --- stmts and preprocessor thingies
self.stuff = []
def addthing(self, thing):
assert thing is not None
assert not isinstance(thing, list)
self.stuff.append(thing)
def addthings(self, things):
for t in things:
self.addthing(t)
# "look like" a Block so code doesn't have to care whether they're
# in global scope or not
def addstmt(self, stmt):
assert stmt is not None
assert not isinstance(stmt, list)
self.stuff.append(stmt)
def addstmts(self, stmts):
for s in stmts:
self.addstmt(s)
def addcode(self, tmpl, **context):
from ipdl.cxx.code import StmtCode
self.addstmt(StmtCode(tmpl, **context))
class CppDirective(Node):
"""represents |#[directive] [rest]|, where |rest| is any string"""
def __init__(self, directive, rest=None):
Node.__init__(self)
self.directive = directive
self.rest = rest
class Block(Node):
def __init__(self):
Node.__init__(self)
self.stmts = []
def addstmt(self, stmt):
assert stmt is not None
assert not isinstance(stmt, tuple)
self.stmts.append(stmt)
def addstmts(self, stmts):
for s in stmts:
self.addstmt(s)
def addcode(self, tmpl, **context):
from ipdl.cxx.code import StmtCode
self.addstmt(StmtCode(tmpl, **context))
# ------------------------------
# type and decl thingies
class Namespace(Block):
def __init__(self, name):
assert isinstance(name, str)
Block.__init__(self)
self.name = name
class Type(Node):
def __init__(
self,
name,
const=False,
ptr=False,
ptrptr=False,
ptrconstptr=False,
ref=False,
rvalref=False,
rightconst=False,
hasimplicitcopyctor=True,
T=None,
inner=None,
):
"""
Represents the type |name<T>::inner| with the ptr and const
modifiers as specified.
To avoid getting fancy with recursive types, we limit the kinds
of pointer types that can be be constructed.
ptr => T*
ptrptr => T**
ptrconstptr => T* const*
ref => T&
rvalref => T&&
Any type, naked or pointer, can be const (const T) or ref (T&)."""
# XXX(nika): This type is complex enough at this point, perhaps we
# should get "fancy with recursive types" to simplify it.
assert isinstance(name, str)
assert isinstance(const, bool)
assert isinstance(ptr, bool)
assert isinstance(ptrptr, bool)
assert isinstance(ptrconstptr, bool)
assert isinstance(ref, bool)
assert isinstance(rvalref, bool)
assert isinstance(rightconst, bool)
assert not isinstance(T, str)
Node.__init__(self)
self.name = name
self.const = const
self.ptr = ptr
self.ptrptr = ptrptr
self.ptrconstptr = ptrconstptr
self.ref = ref
self.rvalref = rvalref
self.rightconst = rightconst
self.hasimplicitcopyctor = hasimplicitcopyctor
self.T = T
self.inner = inner
# XXX could get serious here with recursive types, but shouldn't
# need that for this codegen
def __deepcopy__(self, memo):
return Type(
self.name,
const=self.const,
ptr=self.ptr,
ptrptr=self.ptrptr,
ptrconstptr=self.ptrconstptr,
ref=self.ref,
rvalref=self.rvalref,
rightconst=self.rightconst,
T=copy.deepcopy(self.T, memo),
inner=copy.deepcopy(self.inner, memo),
)
Type.BOOL = Type("bool")
Type.INT = Type("int")
Type.INT32 = Type("int32_t")
Type.INTPTR = Type("intptr_t")
Type.NSRESULT = Type("nsresult")
Type.UINT32 = Type("uint32_t")
Type.UINT32PTR = Type("uint32_t", ptr=True)
Type.SIZE = Type("size_t")
Type.VOID = Type("void")
Type.VOIDPTR = Type("void", ptr=True)
Type.AUTO = Type("auto")
Type.AUTORVAL = Type("auto", rvalref=True)
class TypeArray(Node):
def __init__(self, basetype, nmemb):
"""the type |basetype DECLNAME[nmemb]|. |nmemb| is an Expr"""
self.basetype = basetype
self.nmemb = nmemb
class TypeEnum(Node):
def __init__(self, name=None):
"""name can be None"""
Node.__init__(self)
self.name = name
self.idnums = [] # pairs of ('Foo', [num]) or ('Foo', None)
def addId(self, id, num=None):
self.idnums.append((id, num))
class TypeUnion(Node):
def __init__(self, name=None):
Node.__init__(self)
self.name = name
self.components = [] # [ Decl ]
def addComponent(self, type, name):
self.components.append(Decl(type, name))
class TypeFunction(Node):
def __init__(self, params=[], ret=Type("void")):
"""Anonymous function type std::function<>"""
self.params = params
self.ret = ret
@functools.total_ordering
class Typedef(Node):
def __init__(self, fromtype, totypename, templateargs=[]):
assert isinstance(totypename, str)
Node.__init__(self)
self.fromtype = fromtype
self.totypename = totypename
self.templateargs = templateargs
def __lt__(self, other):
return self.totypename < other.totypename
def __eq__(self, other):
return self.__class__ == other.__class__ and self.totypename == other.totypename
def __hash__(self):
return hash_str(self.totypename)
class Using(Node):
def __init__(self, type):
Node.__init__(self)
self.type = type
class ForwardDecl(Node):
def __init__(self, pqname, cls=False, struct=False):
# Exactly one of cls and struct must be set
assert cls ^ struct
self.pqname = pqname
self.cls = cls
self.struct = struct
class Decl(Node):
"""represents |Foo bar|, e.g. in a function signature"""
def __init__(self, type, name):
assert type is not None
assert not isinstance(type, str)
assert isinstance(name, str)
Node.__init__(self)
self.type = type
self.name = name
def __deepcopy__(self, memo):
return Decl(copy.deepcopy(self.type, memo), self.name)
class Param(Decl):
def __init__(self, type, name, default=None):
Decl.__init__(self, type, name)
self.default = default
def __deepcopy__(self, memo):
return Param(
copy.deepcopy(self.type, memo), self.name, copy.deepcopy(self.default, memo)
)
# ------------------------------
# class stuff
class Class(Block):
def __init__(
self,
name,
inherits=[],
interface=False,
abstract=False,
final=False,
specializes=None,
struct=False,
):
assert not (interface and abstract)
assert not (abstract and final)
assert not (interface and final)
assert not (inherits and specializes)
Block.__init__(self)
self.name = name
self.inherits = inherits # [ Type ]
self.interface = interface # bool
self.abstract = abstract # bool
self.final = final # bool
self.specializes = specializes # Type or None
self.struct = struct # bool
class Inherit(Node):
def __init__(self, type, viz="public"):
assert isinstance(viz, str)
Node.__init__(self)
self.type = type
self.viz = viz
class FriendClassDecl(Node):
def __init__(self, friend):
Node.__init__(self)
self.friend = friend
# Python2 polyfill for Python3's Enum() functional API.
def make_enum(name, members_str):
members_list = members_str.split()
members_dict = {}
for member_value, member in enumerate(members_list, start=1):
members_dict[member] = member_value
return type(name, (), members_dict)
MethodSpec = make_enum("MethodSpec", "NONE VIRTUAL PURE OVERRIDE STATIC")
class MethodDecl(Node):
def __init__(
self,
name,
params=[],
ret=Type("void"),
methodspec=MethodSpec.NONE,
const=False,
warn_unused=False,
force_inline=False,
typeop=None,
T=None,
cls=None,
):
assert not (name and typeop)
assert name is None or isinstance(name, str)
assert not isinstance(ret, list)
for decl in params:
assert not isinstance(decl, str)
assert not isinstance(T, int)
assert isinstance(const, bool)
assert isinstance(warn_unused, bool)
assert isinstance(force_inline, bool)
if typeop is not None:
assert methodspec == MethodSpec.NONE
ret = None
Node.__init__(self)
self.name = name
self.params = params # [ Param ]
self.ret = ret # Type or None
self.methodspec = methodspec # enum
self.const = const # bool
self.warn_unused = warn_unused # bool
self.force_inline = force_inline or bool(T) # bool
self.typeop = typeop # Type or None
self.T = T # Type or None
self.cls = cls # Class or None
self.only_for_definition = False
def __deepcopy__(self, memo):
return MethodDecl(
self.name,
params=copy.deepcopy(self.params, memo),
ret=copy.deepcopy(self.ret, memo),
methodspec=self.methodspec,
const=self.const,
warn_unused=self.warn_unused,
force_inline=self.force_inline,
typeop=copy.deepcopy(self.typeop, memo),
T=copy.deepcopy(self.T, memo),
)
class MethodDefn(Block):
def __init__(self, decl):
Block.__init__(self)
self.decl = decl
class FunctionDecl(MethodDecl):
def __init__(
self,
name,
params=[],
ret=Type("void"),
methodspec=MethodSpec.NONE,
warn_unused=False,
force_inline=False,
T=None,
):
assert methodspec == MethodSpec.NONE or methodspec == MethodSpec.STATIC
MethodDecl.__init__(
self,
name,
params=params,
ret=ret,
methodspec=methodspec,
warn_unused=warn_unused,
force_inline=force_inline,
T=T,
)
class FunctionDefn(MethodDefn):
def __init__(self, decl):
MethodDefn.__init__(self, decl)
class ConstructorDecl(MethodDecl):
def __init__(self, name, params=[], explicit=False, force_inline=False):
MethodDecl.__init__(
self, name, params=params, ret=None, force_inline=force_inline
)
self.explicit = explicit
def __deepcopy__(self, memo):
return ConstructorDecl(
self.name, copy.deepcopy(self.params, memo), self.explicit
)
class ConstructorDefn(MethodDefn):
def __init__(self, decl, memberinits=[]):
MethodDefn.__init__(self, decl)
self.memberinits = memberinits
class DestructorDecl(MethodDecl):
def __init__(self, name, methodspec=MethodSpec.NONE, force_inline=False):
# C++ allows pure or override destructors, but ipdl cgen does not.
assert methodspec == MethodSpec.NONE or methodspec == MethodSpec.VIRTUAL
MethodDecl.__init__(
self,
name,
params=[],
ret=None,
methodspec=methodspec,
force_inline=force_inline,
)
def __deepcopy__(self, memo):
return DestructorDecl(
self.name, methodspec=self.methodspec, force_inline=self.force_inline
)
class DestructorDefn(MethodDefn):
def __init__(self, decl):
MethodDefn.__init__(self, decl)
# ------------------------------
# expressions
class ExprVar(Node):
def __init__(self, name):
assert isinstance(name, str)
Node.__init__(self)
self.name = name
ExprVar.THIS = ExprVar("this")
class ExprLiteral(Node):
def __init__(self, value, type):
"""|type| is a Python format specifier; 'd' for example"""
Node.__init__(self)
self.value = value
self.type = type
@staticmethod
def Int(i):
return ExprLiteral(i, "d")
@staticmethod
def String(s):
return ExprLiteral('"' + s + '"', "s")
def __str__(self):
return ("%" + self.type) % (self.value)
ExprLiteral.ZERO = ExprLiteral.Int(0)
ExprLiteral.ONE = ExprLiteral.Int(1)
ExprLiteral.NULL = ExprVar("nullptr")
ExprLiteral.TRUE = ExprVar("true")
ExprLiteral.FALSE = ExprVar("false")
class ExprPrefixUnop(Node):
def __init__(self, expr, op):
assert not isinstance(expr, tuple)
self.expr = expr
self.op = op
class ExprNot(ExprPrefixUnop):
def __init__(self, expr):
ExprPrefixUnop.__init__(self, expr, "!")
class ExprAddrOf(ExprPrefixUnop):
def __init__(self, expr):
ExprPrefixUnop.__init__(self, expr, "&")
class ExprDeref(ExprPrefixUnop):
def __init__(self, expr):
ExprPrefixUnop.__init__(self, expr, "*")
class ExprCast(Node):
def __init__(self, expr, type, static=False, const=False):
# Exactly one of these should be set
assert static ^ const
Node.__init__(self)
self.expr = expr
self.type = type
self.static = static
self.const = const
class ExprBinary(Node):
def __init__(self, left, op, right):
Node.__init__(self)
self.left = left
self.op = op
self.right = right
class ExprConditional(Node):
def __init__(self, cond, ife, elsee):
Node.__init__(self)
self.cond = cond
self.ife = ife
self.elsee = elsee
class ExprSelect(Node):
def __init__(self, obj, op, field):
assert obj and op and field
assert not isinstance(obj, str)
assert isinstance(op, str)
Node.__init__(self)
self.obj = obj
self.op = op
if isinstance(field, str):
self.field = ExprVar(field)
else:
self.field = field
class ExprAssn(Node):
def __init__(self, lhs, rhs, op="="):
Node.__init__(self)
self.lhs = lhs
self.op = op
self.rhs = rhs
class ExprCall(Node):
def __init__(self, func, args=[]):
assert hasattr(func, "accept")
assert isinstance(args, list)
for arg in args:
assert arg and not isinstance(arg, str)
Node.__init__(self)
self.func = func
self.args = args
class ExprMove(ExprCall):
def __init__(self, arg):
ExprCall.__init__(self, ExprVar("std::move"), args=[arg])
class ExprNew(Node):
# XXX taking some poetic license ...
def __init__(self, ctype, args=[], newargs=None):
assert not (ctype.const or ctype.ref or ctype.rvalref)
Node.__init__(self)
self.ctype = ctype
self.args = args
self.newargs = newargs
class ExprDelete(Node):
def __init__(self, obj):
Node.__init__(self)
self.obj = obj
class ExprMemberInit(ExprCall):
def __init__(self, member, args=[]):
ExprCall.__init__(self, member, args)
class ExprLambda(Block):
def __init__(self, captures=[], params=[], ret=None):
Block.__init__(self)
assert isinstance(captures, list)
assert isinstance(params, list)
self.captures = captures
self.params = params
self.ret = ret
# ------------------------------
# statements etc.
class StmtBlock(Block):
def __init__(self, stmts=[]):
Block.__init__(self)
self.addstmts(stmts)
class StmtDecl(Node):
def __init__(self, decl, init=None, initargs=None):
assert not (init and initargs)
assert not isinstance(init, str) # easy to confuse with Decl
assert not isinstance(init, list)
assert not isinstance(decl, tuple)
Node.__init__(self)
self.decl = decl
self.init = init
self.initargs = initargs
class Label(Node):
def __init__(self, name):
Node.__init__(self)
self.name = name
Label.PUBLIC = Label("public")
Label.PROTECTED = Label("protected")
Label.PRIVATE = Label("private")
class CaseLabel(Node):
def __init__(self, name):
Node.__init__(self)
self.name = name
class DefaultLabel(Node):
def __init__(self):
Node.__init__(self)
class StmtIf(Node):
def __init__(self, cond):
Node.__init__(self)
self.cond = cond
self.ifb = Block()
self.elseb = None
def addifstmt(self, stmt):
self.ifb.addstmt(stmt)
def addifstmts(self, stmts):
self.ifb.addstmts(stmts)
def addelsestmt(self, stmt):
if self.elseb is None:
self.elseb = Block()
self.elseb.addstmt(stmt)
def addelsestmts(self, stmts):
if self.elseb is None:
self.elseb = Block()
self.elseb.addstmts(stmts)
class StmtFor(Block):
def __init__(self, init=None, cond=None, update=None):
Block.__init__(self)
self.init = init
self.cond = cond
self.update = update
class StmtRangedFor(Block):
def __init__(self, var, iteree):
assert isinstance(var, ExprVar)
assert iteree
Block.__init__(self)
self.var = var
self.iteree = iteree
class StmtSwitch(Block):
def __init__(self, expr):
Block.__init__(self)
self.expr = expr
self.nr_cases = 0
def addcase(self, case, block):
"""NOTE: |case| is not checked for uniqueness"""
assert not isinstance(case, str)
assert (
isinstance(block, StmtBreak)
or isinstance(block, StmtReturn)
or isinstance(block, StmtSwitch)
or isinstance(block, GroupNode)
or isinstance(block, VerbatimNode)
or (
hasattr(block, "stmts")
and (
isinstance(block.stmts[-1], StmtBreak)
or isinstance(block.stmts[-1], StmtReturn)
or isinstance(block.stmts[-1], GroupNode)
or isinstance(block.stmts[-1], VerbatimNode)
)
)
)
self.addstmt(case)
self.addstmt(block)
self.nr_cases += 1
class StmtBreak(Node):
def __init__(self):
Node.__init__(self)
class StmtExpr(Node):
def __init__(self, expr):
assert expr is not None
Node.__init__(self)
self.expr = expr
class StmtReturn(Node):
def __init__(self, expr=None):
Node.__init__(self)
self.expr = expr
StmtReturn.TRUE = StmtReturn(ExprLiteral.TRUE)
StmtReturn.FALSE = StmtReturn(ExprLiteral.FALSE)
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