Exemplo n.º 1
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def to_object(b, kind, op):
    """convert(Complex, [real, imag]) -> PyComplex_FromDoubles(real, imag)"""
    arg, = op.args
    real = b.getfield(arg, [Const('real')])
    imag = b.getfield(arg, [Const('imag')])
    return b.gen_call_external("PyComplex_FromDoubles", [real, imag],
                               op.result)
Exemplo n.º 2
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def from_ctypes_value(ctypes_value):
    """
    Convert a ctypes value to a pykit constant
    """
    if not is_ctypes_value(ctypes_value):
        assert isinstance(ctypes_value, (int, long, float))
        return Const(ctypes_value)

    #if is_ctypes_function(ctypes_value):
    #    restype = from_ctypes_type(ctypes_value.restype)
    #    argtypes = [from_ctypes_type(argty) for argty in ctypes_value.argtypes]
    #    ptr = ptrval(ctypes_value)
    #    func_type = types.Function(restype, argtypes, varargs=False)
    #func_type_p = types.Pointer(func_type)
    #return Pointer(ptr, func_type_p)

    ctype = type(ctypes_value)

    if hashable(ctype) and ctype in ctypes_map:
        return Const(ctypes_value.value, from_ctypes_type(ctype))
    elif is_ctypes_struct_type(ctype):
        names = [name for name, _ in ctype._fields_]
        values = [from_ctypes_value(getattr(ctypes_value, n)) for n in names]
        if not names:
            names, values = ('dummy', ), (Const(0, types.Int8))
        return Struct(names, values, from_ctypes_type(ctype))
    else:
        assert is_ctypes_pointer_type(ctype), ctype
        return Pointer(
            ctypes.cast(ctypes_value, ctypes.c_void_p).value,
            from_ctypes_type(ctype))
Exemplo n.º 3
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def heap_allocate(caller, builder, type, env):
    """
    Heap allocate an object of type `type`
    """
    phase = env['flypy.state.phase']
    # TODO: implement untyped pykit builder !

    # Put object on the heap: call gc.gc_alloc(nitems, type)
    gcmod = gc.gc_impl(env["flypy.gc.impl"])
    context = env['flypy.typing.context']

    # Build arguments for gc_alloc
    n = Const(1, ptypes.Opaque)
    ty = Const(type, ptypes.Opaque)
    context[n] = int64
    context[ty] = Type[type]

    # Type the gc_alloc function
    p = caller.call(phase, gcmod.gc_alloc, [n, ty])
    obj = builder.convert(ptypes.Opaque, p)

    # Update type context
    context[p] = Pointer[void]

    return [p, obj], obj
Exemplo n.º 4
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    def test_exc_rewrite(self):
        func = Function("foo", [], types.Function(types.Void, (), False))
        entry = func.new_block("entry")
        catch_block = func.new_block("catch")
        b = Builder(func)

        with b.at_front(entry):
            b.exc_setup([catch_block])
            b.exc_throw(Const(StopIteration, types.Exception))
        with b.at_front(catch_block):
            b.exc_catch([Const(Exception, types.Exception)])

        local_exceptions.run(func, {})
        self.assertNotIn('exc_throw', opcodes(func))
Exemplo n.º 5
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def _from_expr(expr, f, builder, values):
    if expr.opcode == 'array':
        result = values[expr]
    else:
        # -------------------------------------------------
        # Construct args

        # This is purely for IR readability
        name = qualified_name(expr.metadata['overload'].func)
        args = [_from_expr(arg, f, builder, values) for arg in expr.args]
        args = [Const(name)] + args

        # -------------------------------------------------
        # Construct Op

        result = Op("kernel", expr.dshape, args)

        # Copy metadata verbatim
        assert 'kernel' in expr.metadata
        assert 'overload' in expr.metadata
        result.add_metadata(expr.metadata)

        # -------------------------------------------------
        # Emit Op in code stream

        builder.emit(result)

    values[expr] = result
    return result
Exemplo n.º 6
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def allocate_pointer_const(b, const):
    ty = const.type
    val = const.const
    if ty.is_pointer:
        value = allocate_pointer_const(b, Const(val.base, ty.base))
        variable = b.alloca(ty)
        b.store(value, variable)
        return variable
    return const
Exemplo n.º 7
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 def _handle_raise(self, op, badval, exc):
     "Raise an exception if retval == badval"
     assert badval is not None
     cond = self.builder.eq(types.Bool, [op, badval])
     with self.builder.if_(cond):
         msg = op.metadata.get("exc.msg")
         args = [Const(msg)] if msg is not None else []
         exc = self.builder.new_exc(types.Exception, [exc] + args)
         self.builder.exc_throw(exc)
Exemplo n.º 8
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def resolve_type(context, op):
    """
    Resolve types for ops:

        - map flypy type to low-level representation type
        - represent stack-allocated values through pointers
    """
    if isinstance(op, (FuncArg, Const, Op, Undef)):
        if op.type.is_void:
            return op

        if op not in context:
            raise errors.CompileError("Type for %s was lost" % (op,))

        # Retrieve type
        type = context[op]

        # Remove dummy method lookups (TODO: methods as first-class citizens)
        if type.__class__.__name__ == 'Method':
            return op # TODO: Remove this

        # Generate low-level representation type
        if isinstance(type, set):
            assert not isinstance(type, set)
        ltype = compiler.representation_type(type)

        if isinstance(op, Const):
            const = op.const

            # Represent dummy constant structs with at least one field for LLVM
            if isinstance(const, Struct) and not const.values:
                const = Struct(['dummy'], [Const(0, ptypes.Int32)])

            # Also represent stack-allocated values through pointers
            if ltype.is_pointer and not isinstance(const, Pointer):
                const = Pointer(const, ltype)

            op = Const(const, ltype)
        elif isinstance(op, Undef):
            op = Undef(ltype)
        else:
            op.type = ltype

    return op
Exemplo n.º 9
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def resolve_type(context, op):
    """
    Resolve types for ops:

        - map flypy type to low-level representation type
        - represent stack-allocated values through pointers
    """
    if isinstance(op, (FuncArg, Const, Op, Undef)):
        if op.type.is_void:
            return op

        if op not in context:
            raise errors.CompileError("Type for %s was lost" % (op, ))

        # Retrieve type
        type = context[op]

        # Remove dummy method lookups (TODO: methods as first-class citizens)
        if type.__class__.__name__ == 'Method':
            return op  # TODO: Remove this

        # Generate low-level representation type
        if isinstance(type, set):
            assert not isinstance(type, set)
        ltype = compiler.representation_type(type)

        if isinstance(op, Const):
            const = op.const

            # Represent dummy constant structs with at least one field for LLVM
            if isinstance(const, Struct) and not const.values:
                const = Struct(['dummy'], [Const(0, ptypes.Int32)])

            # Also represent stack-allocated values through pointers
            if ltype.is_pointer and not isinstance(const, Pointer):
                const = Pointer(const, ltype)

            op = Const(const, ltype)
        elif isinstance(op, Undef):
            op = Undef(ltype)
        else:
            op.type = ltype

    return op
Exemplo n.º 10
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    def gen_call_external(self, fname, args, result=None):
        """Generate call to external function (which must be declared"""
        gv = self.module.get_global(fname)

        assert gv is not None, "Global %s not declared" % fname
        assert gv.type.is_function, gv
        assert gv.type.argtypes == [arg.type for arg in args]

        op = self.call(gv.type.res, [Const(fname), args])
        op.result = result or op.result
        return op
Exemplo n.º 11
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def rewrite_overlays(func, env=None):
    """
    Resolve overlays of constants.
    """
    for op in func.ops:
        consts = collect_constants(op)
        new = []
        for c in consts:
            overlain = overlay_registry.lookup_overlay(c.const)
            if overlain:
                c = Const(overlain, type=c.type)
            new.append(c)
        substitute_args(op, consts, new)
Exemplo n.º 12
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    def gen_loop(self, start=None, stop=None, step=None):
        """
        Generate a loop given start, stop, step and the index variable type.
        The builder's position is set to the end of the body block.

        Returns (condition_block, body_block, exit_block).
        """
        self._assert_position()
        assert isinstance(stop,
                          Value), "Stop should be a Constant or Operation"

        ty = stop.type
        start = start or Const(0, ty)
        step = step or Const(1, ty)
        assert start.type == ty == step.type

        with self.at_front(self.func.blocks[0]):
            var = self.alloca(types.Pointer(ty), [])

        prev, exit = self.splitblock('loop.exit')
        cond = self.func.add_block('loop.cond', after=prev)
        body = self.func.add_block('loop.body', after=cond)

        with self.at_end(prev):
            self.store(start, var)
            self.jump(cond)

        # Condition
        with self.at_front(cond):
            index = self.load(ty, [var])
            self.store(self.add(ty, [index, step]), var)
            self.cbranch(self.lt(types.Bool, [index, stop]), body, exit)

        with self.at_end(body):
            self.jump(cond)

        self.position_at_beginning(body)
        return cond, body, exit
Exemplo n.º 13
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    def fold(self, op, cells):
        m = getattr(self, 'op_' + op.opcode, None)
        result = None
        if m is not None:
            result = m(op, cells)
            if (result is not None and isconst(result) and not
                    isinstance(result, Const)):
                result = Const(result, op.type)
                cells[result] = result

        if result is None:
            result = bottom # Undetermined value

        cells[op] = result
        return result
Exemplo n.º 14
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    def op_FOR_ITER(self, inst):
        """
        Translate a for loop to:

            it = getiter(iterable)
            try:
                while 1:
                    i = next(t)
                    ...
            except StopIteration:
                pass
        """
        iterobj = self.peek()
        delta = inst.arg
        loopexit = self.blocks[inst.next + delta]

        loop_block = self.loop_stack[-1]
        loop_block.catch_block = loopexit

        # -------------------------------------------------
        # Try

        self.insert('exc_setup', [loopexit])
        self.call(next, [iterobj])

        # We assume a 1-to-1 block mapping, resolve a block split in a
        # later pass
        self.insert('exc_end')

        # -------------------------------------------------
        # Catch

        with self.builder.at_front(loopexit):
            self.insert('exc_catch',
                        [Const(StopIteration, type=types.Exception)])

        # -------------------------------------------------
        # Exit

        # Add the loop exit at a successor to the header
        self.predecessors[loopexit].add(self.curblock)

        # Remove ourselves as a predecessor from the actual exit block, set by
        # SETUP_LOOP
        self.predecessors[loop_block.end].remove(self.prevblock)
Exemplo n.º 15
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class OpBuilder(object):
    """
    I know how to build Operations.
    """

    def _op(op):
        """Helper to create Builder methods"""
        def _process(self, ty, args=None, result=None, **metadata):
            if args is None:
                args = []
            assert ty is not None
            assert isinstance(args, list), args
            assert not any(arg is None for arg in flatten(args)), args
            result = Op(op, ty, args, result)
            if metadata:
                result.add_metadata(metadata)
            self._insert_op(result)
            return result

        def _process_void(self, *args, **kwds):
            result = kwds.pop('result', None)
            op = _process(self, types.Void, list(args), result)
            if kwds:
                op.add_metadata(kwds)
            return op

        if ops.is_void(op):
            build_op = _process_void
        else:
            build_op = _process

        if config.op_verify:
            build_op = op_verifier(build_op)

        return build_op

    def _insert_op(self, op):
        """Implement in subclass that emits Operations"""

    _const = lambda val: Const(val, types.Void)

    # __________________________________________________________________
    # IR constructors

    # Generated by pykit.utils._generate
    Sin                  = _const(ops.Sin)
    Asin                 = _const(ops.Asin)
    Sinh                 = _const(ops.Sinh)
    Asinh                = _const(ops.Asinh)
    Cos                  = _const(ops.Cos)
    Acos                 = _const(ops.Acos)
    Cosh                 = _const(ops.Cosh)
    Acosh                = _const(ops.Acosh)
    Tan                  = _const(ops.Tan)
    Atan                 = _const(ops.Atan)
    Atan2                = _const(ops.Atan2)
    Tanh                 = _const(ops.Tanh)
    Atanh                = _const(ops.Atanh)
    Log                  = _const(ops.Log)
    Log2                 = _const(ops.Log2)
    Log10                = _const(ops.Log10)
    Log1p                = _const(ops.Log1p)
    Exp                  = _const(ops.Exp)
    Exp2                 = _const(ops.Exp2)
    Expm1                = _const(ops.Expm1)
    Floor                = _const(ops.Floor)
    Ceil                 = _const(ops.Ceil)
    Abs                  = _const(ops.Abs)
    Erfc                 = _const(ops.Erfc)
    Rint                 = _const(ops.Rint)
    Pow                  = _const(ops.Pow)
    Round                = _const(ops.Round)
    alloca               = _op(ops.alloca)
    load                 = _op(ops.load)
    store                = _op(ops.store)
    map                  = _op(ops.map)
    reduce               = _op(ops.reduce)
    filter               = _op(ops.filter)
    scan                 = _op(ops.scan)
    zip                  = _op(ops.zip)
    allpairs             = _op(ops.allpairs)
    flatten              = _op(ops.flatten)
    print                = _op(ops.print)
    concat               = _op(ops.concat)
    length               = _op(ops.length)
    contains             = _op(ops.contains)
    list_append          = _op(ops.list_append)
    list_pop             = _op(ops.list_pop)
    set_add              = _op(ops.set_add)
    set_remove           = _op(ops.set_remove)
    dict_add             = _op(ops.dict_add)
    dict_remove          = _op(ops.dict_remove)
    dict_keys            = _op(ops.dict_keys)
    dict_values          = _op(ops.dict_values)
    dict_items           = _op(ops.dict_items)
    box                  = _op(ops.box)
    unbox                = _op(ops.unbox)
    convert              = _op(ops.convert)
    new_list             = _op(ops.new_list)
    new_tuple            = _op(ops.new_tuple)
    new_dict             = _op(ops.new_dict)
    new_set              = _op(ops.new_set)
    new_struct           = _op(ops.new_struct)
    new_data             = _op(ops.new_data)
    new_exc              = _op(ops.new_exc)
    phi                  = _op(ops.phi)
    exc_setup            = _op(ops.exc_setup)
    exc_catch            = _op(ops.exc_catch)
    jump                 = _op(ops.jump)
    cbranch              = _op(ops.cbranch)
    exc_throw            = _op(ops.exc_throw)
    ret                  = _op(ops.ret)
    function             = _op(ops.function)
    call                 = _op(ops.call)
    call_math            = _op(ops.call_math)
    ptradd               = _op(ops.ptradd)
    ptrload              = _op(ops.ptrload)
    ptrstore             = _op(ops.ptrstore)
    ptrcast              = _op(ops.ptrcast)
    ptr_isnull           = _op(ops.ptr_isnull)
    getfield             = _op(ops.getfield)
    setfield             = _op(ops.setfield)
    getindex             = _op(ops.getindex)
    setindex             = _op(ops.setindex)
    getslice             = _op(ops.getslice)
    setslice             = _op(ops.setslice)
    slice                = _op(ops.slice)
    add                  = _op(ops.add)
    sub                  = _op(ops.sub)
    mul                  = _op(ops.mul)
    div                  = _op(ops.div)
    mod                  = _op(ops.mod)
    lshift               = _op(ops.lshift)
    rshift               = _op(ops.rshift)
    bitand               = _op(ops.bitand)
    bitor                = _op(ops.bitor)
    bitxor               = _op(ops.bitxor)
    invert               = _op(ops.invert)
    not_                 = _op(ops.not_)
    uadd                 = _op(ops.uadd)
    usub                 = _op(ops.usub)
    eq                   = _op(ops.eq)
    noteq                = _op(ops.noteq)
    lt                   = _op(ops.lt)
    lte                  = _op(ops.lte)
    gt                   = _op(ops.gt)
    gte                  = _op(ops.gte)
    is_                  = _op(ops.is_)
    threadpool_start     = _op(ops.threadpool_start)
    threadpool_submit    = _op(ops.threadpool_submit)
    threadpool_join      = _op(ops.threadpool_join)
    threadpool_close     = _op(ops.threadpool_close)
    thread_start         = _op(ops.thread_start)
    thread_join          = _op(ops.thread_join)
    check_overflow       = _op(ops.check_overflow)
    check_error          = _op(ops.check_error)
    addressof            = _op(ops.addressof)
    exc_matches          = _op(ops.exc_matches)
    store_tl_exc         = _op(ops.store_tl_exc)
    load_tl_exc          = _op(ops.load_tl_exc)
    gc_gotref            = _op(ops.gc_gotref)
    gc_giveref           = _op(ops.gc_giveref)
    gc_incref            = _op(ops.gc_incref)
    gc_decref            = _op(ops.gc_decref)
    gc_alloc             = _op(ops.gc_alloc)
    gc_dealloc           = _op(ops.gc_dealloc)

    def convert(self, type, args, result=None, buildop=convert):
        if type == args[0].type:
            return args[0]
        return buildop(self, type, args, result)
Exemplo n.º 16
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 def visit_Constant(self, node):
     type = self.type_env[node.type]
     const = types.convert(node.value, types.resolve_typedef(type))
     if isinstance(const, basestring):
         const = const[1:-1]  # slice away quotes
     return Const(const)
Exemplo n.º 17
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class GeneratedBuilder(object):
    _const = lambda val: Const(val, types.Opaque)
    _insert_op = lambda self, op: None  # noop

    #===------------------------------------------------------------------===
    # Generated by pykit.utils._generate
    #===------------------------------------------------------------------===
    
    Sin                  = _const(ops.Sin)
    Asin                 = _const(ops.Asin)
    Sinh                 = _const(ops.Sinh)
    Asinh                = _const(ops.Asinh)
    Cos                  = _const(ops.Cos)
    Acos                 = _const(ops.Acos)
    Cosh                 = _const(ops.Cosh)
    Acosh                = _const(ops.Acosh)
    Tan                  = _const(ops.Tan)
    Atan                 = _const(ops.Atan)
    Atan2                = _const(ops.Atan2)
    Tanh                 = _const(ops.Tanh)
    Atanh                = _const(ops.Atanh)
    Log                  = _const(ops.Log)
    Log2                 = _const(ops.Log2)
    Log10                = _const(ops.Log10)
    Log1p                = _const(ops.Log1p)
    Exp                  = _const(ops.Exp)
    Exp2                 = _const(ops.Exp2)
    Expm1                = _const(ops.Expm1)
    Floor                = _const(ops.Floor)
    Ceil                 = _const(ops.Ceil)
    Abs                  = _const(ops.Abs)
    Erfc                 = _const(ops.Erfc)
    Rint                 = _const(ops.Rint)
    Pow                  = _const(ops.Pow)
    Round                = _const(ops.Round)

    def alloca(self, returnType, obj0, **kwds):
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('alloca', returnType, [obj0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def load(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('load', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def store(self, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('store', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def convert(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('convert', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def bitcast(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('bitcast', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def phi(self, returnType, lst0, lst1, **kwds):
        assert isinstance(lst0, list)
        assert isinstance(lst1, list)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('phi', returnType, [lst0, lst1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def exc_setup(self, lst0, **kwds):
        assert isinstance(lst0, list)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('exc_setup', returnType, [lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def exc_catch(self, lst0, **kwds):
        assert isinstance(lst0, list)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('exc_catch', returnType, [lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def jump(self, value0, **kwds):
        assert isinstance(value0, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('jump', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def cbranch(self, value0, value1, value2, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert isinstance(value2, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('cbranch', returnType, [value0, value1, value2], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def exc_throw(self, value0, **kwds):
        assert isinstance(value0, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('exc_throw', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ret(self, obj0, **kwds):
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('ret', returnType, [obj0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def call(self, returnType, value0, lst0, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(lst0, list)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('call', returnType, [value0, lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def call_math(self, returnType, obj0, lst0, **kwds):
        assert isinstance(lst0, list)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('call_math', returnType, [obj0, lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def add(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('add', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def addressof(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('addressof', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def sizeof(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('sizeof', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ptradd(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ptradd', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ptrload(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ptrload', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ptrstore(self, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('ptrstore', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ptrcast(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ptrcast', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ptr_isnull(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ptr_isnull', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ge(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ge', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def get(self, returnType, value0, lst0, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(lst0, list)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('get', returnType, [value0, lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def set(self, returnType, value0, value1, lst0, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert isinstance(lst0, list)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('set', returnType, [value0, value1, lst0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def getfield(self, returnType, value0, obj0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('getfield', returnType, [value0, obj0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def setfield(self, value0, obj0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('setfield', returnType, [value0, obj0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def extractfield(self, returnType, value0, obj0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('extractfield', returnType, [value0, obj0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def insertfield(self, returnType, value0, obj0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('insertfield', returnType, [value0, obj0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def shufflevector(self, returnType, value0, value1, value2, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert isinstance(value2, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('shufflevector', returnType, [value0, value1, value2], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def sub(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('sub', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def mul(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('mul', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def div(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('div', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def mod(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('mod', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def lshift(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('lshift', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def rshift(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('rshift', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def bitand(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('bitand', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def bitor(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('bitor', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def bitxor(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('bitxor', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def invert(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('invert', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def not_(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('not_', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def uadd(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('uadd', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def usub(self, returnType, value0, **kwds):
        assert isinstance(value0, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('usub', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def eq(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('eq', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def ne(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('ne', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def lt(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('lt', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def le(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('le', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def gt(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('gt', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def is_(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('is_', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def check_error(self, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('check_error', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def new_exc(self, returnType, value0, value1, **kwds):
        assert isinstance(value0, Value)
        assert isinstance(value1, Value)
        assert returnType is not None
        register = kwds.pop('result', None)
        op = Op('new_exc', returnType, [value0, value1], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op

    def print(self, value0, **kwds):
        assert isinstance(value0, Value)
        returnType = types.Void
        register = kwds.pop('result', None)
        op = Op('print', returnType, [value0], register, metadata=kwds)
        if config.op_verify:
            verify_op_syntax(op)
        self._insert_op(op)
        return op
Exemplo n.º 18
0
def allocate_const(func, env, op, value, type):
    const = Const(value, ptypes.Opaque)
    context = env['flypy.typing.context']
    context[const] = type
    return const
Exemplo n.º 19
0
 def visit_Constant(self, node):
     type = self.type_env[node.type]
     const = types.convert(node.value, type)
     return Const(const)
Exemplo n.º 20
0
 def gen_call_external(self, fname, args):
     gv = self.module.get_global(fname)
     assert gv.type.is_function, gv
     assert gv.type.argtypes == [arg.type for arg in args]
     return self.call_external(gv.type.res, [Const(fname), args])
Exemplo n.º 21
0
class GeneratedBuilder(object):
    _const = lambda val: Const(val, types.Opaque)
    _insert_op = lambda self, op: None  # noop