args = []

for arg in fn.sig.args:

args.append('{}{}{}'.format(emitter.ctype_spaced(arg.type), REG_PREFIX, arg.name))

return '{ret_type}{name}({args})'.format(

ret_type=emitter.ctype_spaced(fn.sig.ret_type),

name=emitter.native_function_name(fn),

emitter: Emitter,

source_path: str,

module_name: str) -> None:

declarations = Emitter(emitter.context, fn.env)

body = Emitter(emitter.context, fn.env)

visitor = FunctionEmitterVisitor(body, declarations, source_path, module_name)

declarations.emit_line('{} {{'.format(native_function_header(fn.decl, emitter)))

body.indent()

for r, i in fn.env.indexes.items():

if isinstance(r.type, RTuple):

emitter.declare_tuple_struct(r.type)

if i < len(fn.args):

continue # skip the arguments

ctype = emitter.ctype_spaced(r.type)

init = ''

if r in fn.env.vars_needing_init:

init = ' = {}'.format(declarations.c_error_value(r.type))

declarations.emit_line('{ctype}{prefix}{name}{init};'.format(ctype=ctype,

prefix=REG_PREFIX,

name=r.name,

init=init))

# Before we emit the blocks, give them all labels

for i, block in enumerate(fn.blocks):

block.label = i

for block in fn.blocks:

body.emit_label(block)

for op in block.ops:

op.accept(visitor)

body.emit_line('}')

emitter.emit_from_emitter(declarations)

def __init__(self,

emitter: Emitter,

declarations: Emitter,

source_path: str,

module_name: str) -> None:

self.emitter = emitter

self.names = emitter.names

self.declarations = declarations

self.env = self.emitter.env

self.source_path = source_path

self.module_name = module_name

def temp_name(self) -> str:

return self.emitter.temp_name()

def visit_goto(self, op: Goto) -> None:

self.emit_line('goto %s;' % self.label(op.label))

def visit_branch(self, op: Branch) -> None:

neg = '!' if op.negated else ''

cond = ''

if op.op == Branch.BOOL_EXPR:

expr_result = self.reg(op.left) # right isn't used

cond = '{}{}'.format(neg, expr_result)

elif op.op == Branch.IS_ERROR:

typ = op.left.type

compare = '!=' if op.negated else '=='

if isinstance(typ, RTuple):

# TODO: What about empty tuple?

cond = self.emitter.tuple_undefined_check_cond(typ,

self.reg(op.left),

self.c_error_value,

compare)

else:

cond = '{} {} {}'.format(self.reg(op.left),

compare,

self.c_error_value(typ))

else:

assert False, "Invalid branch"

# For error checks, tell the compiler the branch is unlikely

if op.traceback_entry is not None or op.rare:

cond = 'unlikely({})'.format(cond)

self.emit_line('if ({}) {{'.format(cond))

if op.traceback_entry is not None:

globals_static = self.emitter.static_name('globals', self.module_name)

self.emit_line('CPy_AddTraceback("%s", "%s", %d, %s);' % (

self.source_path.replace("\\", "\\\\"),

op.traceback_entry[0],

op.traceback_entry[1],

globals_static))

if DEBUG_ERRORS:

self.emit_line('assert(PyErr_Occurred() != NULL && "failure w/o err!");')

self.emit_lines(

'goto %s;' % self.label(op.true),

'} else',

' goto %s;' % self.label(op.false)

)

def visit_return(self, op: Return) -> None:

regstr = self.reg(op.reg)

self.emit_line('return %s;' % regstr)

def visit_primitive_op(self, op: PrimitiveOp) -> None:

args = [self.reg(arg) for arg in op.args]

if not op.is_void:

dest = self.reg(op)

else:

# This will generate a C compile error if used. The reason for this

# is that we don't want to insert "assert dest is not None" checks

# everywhere.

dest = '<undefined dest>'

op.desc.emit(self, args, dest)

def visit_tuple_set(self, op: TupleSet) -> None:

dest = self.reg(op)

tuple_type = op.tuple_type

self.emitter.declare_tuple_struct(tuple_type)

if len(op.items) == 0: # empty tuple

self.emit_line('{}.empty_struct_error_flag = 0;'.format(dest))

else:

for i, item in enumerate(op.items):

self.emit_line('{}.f{} = {};'.format(dest, i, self.reg(item)))

self.emit_inc_ref(dest, tuple_type)

def visit_assign(self, op: Assign) -> None:

dest = self.reg(op.dest)

src = self.reg(op.src)

# clang whines about self assignment (which we might generate

# for some casts), so don't emit it.

if dest != src:

self.emit_line('%s = %s;' % (dest, src))

def visit_load_int(self, op: LoadInt) -> None:

dest = self.reg(op)

self.emit_line('%s = %d;' % (dest, op.value * 2))

def visit_load_error_value(self, op: LoadErrorValue) -> None:

if isinstance(op.type, RTuple):

values = [self.c_undefined_value(item) for item in op.type.types]

tmp = self.temp_name()

self.emit_line('%s %s = { %s };' % (self.ctype(op.type), tmp, ', '.join(values)))

self.emit_line('%s = %s;' % (self.reg(op), tmp))

else:

self.emit_line('%s = %s;' % (self.reg(op),

self.c_error_value(op.type)))

def visit_get_attr(self, op: GetAttr) -> None:

dest = self.reg(op)

obj = self.reg(op.obj)

rtype = op.class_type

cl = rtype.class_ir

version = '_TRAIT' if cl.is_trait else ''

if cl.is_trait or cl.get_method(op.attr):

self.emit_line('%s = CPY_GET_ATTR%s(%s, %s, %d, %s, %s); /* %s */' % (

dest,

version,

obj,

self.emitter.type_struct_name(rtype.class_ir),

rtype.getter_index(op.attr),

rtype.struct_name(self.names),

self.ctype(rtype.attr_type(op.attr)),

op.attr))

else:

typ, decl_cl = cl.attr_details(op.attr)

# FIXME: We use the lib_prefixed version which is an

# indirect call we can't inline. We should investigate

# duplicating getter/setter code.

self.emit_line('%s = %s%s((%s *)%s); /* %s */' % (

dest,

self.emitter.get_group_prefix(decl_cl),

native_getter_name(decl_cl, op.attr, self.emitter.names),

decl_cl.struct_name(self.names),

obj,

op.attr))

def visit_set_attr(self, op: SetAttr) -> None:

dest = self.reg(op)

obj = self.reg(op.obj)

src = self.reg(op.src)

rtype = op.class_type

cl = rtype.class_ir

version = '_TRAIT' if cl.is_trait else ''

if cl.is_trait or cl.get_method(op.attr):

self.emit_line('%s = CPY_SET_ATTR%s(%s, %s, %d, %s, %s, %s); /* %s */' % (

dest,

version,

obj,

self.emitter.type_struct_name(rtype.class_ir),

rtype.setter_index(op.attr),

src,

rtype.struct_name(self.names),

self.ctype(rtype.attr_type(op.attr)),

op.attr))

else:

typ, decl_cl = cl.attr_details(op.attr)

self.emit_line('%s = %s%s((%s *)%s, %s); /* %s */' % (

dest,

self.emitter.get_group_prefix(decl_cl),

native_setter_name(decl_cl, op.attr, self.emitter.names),

decl_cl.struct_name(self.names),

obj,

src,

op.attr))

PREFIX_MAP = {

NAMESPACE_STATIC: STATIC_PREFIX,

NAMESPACE_TYPE: TYPE_PREFIX,

NAMESPACE_MODULE: MODULE_PREFIX,

} # type: Final

def visit_load_static(self, op: LoadStatic) -> None:

dest = self.reg(op)

prefix = self.PREFIX_MAP[op.namespace]

name = self.emitter.static_name(op.identifier, op.module_name, prefix)

if op.namespace == NAMESPACE_TYPE:

name = '(PyObject *)%s' % name

ann = ''

if op.ann:

s = repr(op.ann)

if not any(x in s for x in ('/*', '*/', '\0')):

ann = ' /* %s */' % s

self.emit_line('%s = %s;%s' % (dest, name, ann))

def visit_init_static(self, op: InitStatic) -> None:

value = self.reg(op.value)

prefix = self.PREFIX_MAP[op.namespace]

name = self.emitter.static_name(op.identifier, op.module_name, prefix)

if op.namespace == NAMESPACE_TYPE:

value = '(PyTypeObject *)%s' % value

self.emit_line('%s = %s;' % (name, value))

self.emit_inc_ref(name, op.value.type)

def visit_tuple_get(self, op: TupleGet) -> None:

dest = self.reg(op)

src = self.reg(op.src)

self.emit_line('{} = {}.f{};'.format(dest, src, op.index))

self.emit_inc_ref(dest, op.type)

def get_dest_assign(self, dest: Value) -> str:

if not dest.is_void:

return self.reg(dest) + ' = '

else:

return ''

def visit_call(self, op: Call) -> None:

"""Call native function."""

dest = self.get_dest_assign(op)

args = ', '.join(self.reg(arg) for arg in op.args)

lib = self.emitter.get_group_prefix(op.fn)

cname = op.fn.cname(self.names)

self.emit_line('%s%s%s%s(%s);' % (dest, lib, NATIVE_PREFIX, cname, args))

def visit_method_call(self, op: MethodCall) -> None:

"""Call native method."""

dest = self.get_dest_assign(op)

obj = self.reg(op.obj)

rtype = op.receiver_type

class_ir = rtype.class_ir

name = op.method

method_idx = rtype.method_index(name)

method = rtype.class_ir.get_method(name)

assert method is not None

# Can we call the method directly, bypassing vtable?

is_direct = class_ir.is_method_final(name)

# The first argument gets omitted for static methods and

# turned into the class for class methods

obj_args = (

[] if method.decl.kind == FUNC_STATICMETHOD else

['(PyObject *)Py_TYPE({})'.format(obj)] if method.decl.kind == FUNC_CLASSMETHOD else

[obj])

args = ', '.join(obj_args + [self.reg(arg) for arg in op.args])

mtype = native_function_type(method, self.emitter)

version = '_TRAIT' if rtype.class_ir.is_trait else ''

if is_direct:

# Directly call method, without going through the vtable.

lib = self.emitter.get_group_prefix(method.decl)

self.emit_line('{}{}{}{}({});'.format(

dest, lib, NATIVE_PREFIX, method.cname(self.names), args))

else:

# Call using vtable.

self.emit_line('{}CPY_GET_METHOD{}({}, {}, {}, {}, {})({}); /* {} */'.format(

dest, version, obj, self.emitter.type_struct_name(rtype.class_ir),

method_idx, rtype.struct_name(self.names), mtype, args, op.method))

def visit_inc_ref(self, op: IncRef) -> None:

src = self.reg(op.src)

self.emit_inc_ref(src, op.src.type)

def visit_dec_ref(self, op: DecRef) -> None:

src = self.reg(op.src)

self.emit_dec_ref(src, op.src.type, op.is_xdec)

def visit_box(self, op: Box) -> None:

self.emitter.emit_box(self.reg(op.src), self.reg(op), op.src.type, can_borrow=True)

def visit_cast(self, op: Cast) -> None:

self.emitter.emit_cast(self.reg(op.src), self.reg(op), op.type,

src_type=op.src.type)

def visit_unbox(self, op: Unbox) -> None:

self.emitter.emit_unbox(self.reg(op.src), self.reg(op), op.type)

def visit_unreachable(self, op: Unreachable) -> None:

self.emitter.emit_line('CPy_Unreachable();')

def visit_raise_standard_error(self, op: RaiseStandardError) -> None:

# TODO: Better escaping of backspaces and such

if op.value is not None:

if isinstance(op.value, str):

message = op.value.replace('"', '\\"')

self.emitter.emit_line(

'PyErr_SetString(PyExc_{}, "{}");'.format(op.class_name, message))

elif isinstance(op.value, Value):

self.emitter.emit_line(

'PyErr_SetObject(PyExc_{}, {}{});'.format(op.class_name, REG_PREFIX,

op.value.name))

else:

assert False, 'op value type must be either str or Value'

else:

self.emitter.emit_line('PyErr_SetNone(PyExc_{});'.format(op.class_name))

self.emitter.emit_line('{} = 0;'.format(self.reg(op)))

# Helpers

def label(self, label: BasicBlock) -> str:

return self.emitter.label(label)

def reg(self, reg: Value) -> str:

return self.emitter.reg(reg)

def ctype(self, rtype: RType) -> str:

return self.emitter.ctype(rtype)

def c_error_value(self, rtype: RType) -> str:

return self.emitter.c_error_value(rtype)

def c_undefined_value(self, rtype: RType) -> str:

return self.emitter.c_undefined_value(rtype)

def emit_line(self, line: str) -> None:

self.emitter.emit_line(line)

def emit_lines(self, *lines: str) -> None:

self.emitter.emit_lines(*lines)

def emit_inc_ref(self, dest: str, rtype: RType) -> None:

self.emitter.emit_inc_ref(dest, rtype)

def emit_dec_ref(self, dest: str, rtype: RType, is_xdec: bool) -> None:

self.emitter.emit_dec_ref(dest, rtype, is_xdec)

def emit_declaration(self, line: str) -> None: