# (c) 2022 Exaloop Inc. All rights reserved.
from internal.gc import free
@pure
@C
def seq_check_errno() -> str:
pass
from C import seq_print(str)
from C import exit(int)
@extend
class __internal__:
@pure
@derives
@llvm
def class_raw(obj) -> Ptr[byte]:
ret i8* %obj
@pure
@derives
@llvm
def _tuple_getitem_llvm(t: T, idx: int, T: type, E: type) -> E:
%x = alloca {=T}
store {=T} %t, {=T}* %x
%p0 = bitcast {=T}* %x to {=E}*
%p1 = getelementptr {=E}, {=E}* %p0, i64 %idx
%v = load {=E}, {=E}* %p1
ret {=E} %v
def tuple_fix_index(idx: int, len: int) -> int:
if idx < 0:
idx += len
if idx < 0 or idx >= len:
raise IndexError(f"tuple index {idx} out of range 0..{len}")
return idx
def tuple_getitem(t: T, idx: int, T: type, E: type) -> E:
return __internal__._tuple_getitem_llvm(
t, __internal__.tuple_fix_index(idx, staticlen(t)), T, E
)
@pure
@derives
@llvm
def fn_new(ptr: Ptr[byte], T: type) -> T:
%0 = bitcast i8* %ptr to {=T}
ret {=T} %0
@pure
@derives
@llvm
def fn_raw(fn: T, T: type) -> Ptr[byte]:
%0 = bitcast {=T} %fn to i8*
ret i8* %0
@pure
@llvm
def int_sext(what, F: Static[int], T: Static[int]) -> Int[T]:
%0 = sext i{=F} %what to i{=T}
ret i{=T} %0
@pure
@llvm
def int_zext(what, F: Static[int], T: Static[int]) -> Int[T]:
%0 = zext i{=F} %what to i{=T}
ret i{=T} %0
@pure
@llvm
def int_trunc(what, F: Static[int], T: Static[int]) -> Int[T]:
%0 = trunc i{=F} %what to i{=T}
ret i{=T} %0
def seq_assert(file: str, line: int, msg: str) -> AssertionError:
s = f": {msg}" if msg else ""
s = f"Assert failed{s} ({file}:{line.__repr__()})"
return AssertionError(s)
def seq_assert_test(file: str, line: int, msg: str):
s = f": {msg}" if msg else ""
s = f"\033[1;31mTEST FAILED:\033[0m {file} (line {line}){s}\n"
seq_print(s)
def check_errno(prefix: str):
msg = seq_check_errno()
if msg:
raise OSError(prefix + msg)
@pure
@llvm
def opt_tuple_new(T: type) -> Optional[T]:
ret { i1, {=T} } { i1 false, {=T} undef }
@pure
@llvm
def opt_ref_new(T: type) -> Optional[T]:
ret i8* null
@pure
@derives
@llvm
def opt_tuple_new_arg(what: T, T: type) -> Optional[T]:
%0 = insertvalue { i1, {=T} } { i1 true, {=T} undef }, {=T} %what, 1
ret { i1, {=T} } %0
@pure
@derives
@llvm
def opt_ref_new_arg(what: T, T: type) -> Optional[T]:
ret i8* %what
@pure
@llvm
def opt_tuple_bool(what: Optional[T], T: type) -> bool:
%0 = extractvalue { i1, {=T} } %what, 0
%1 = zext i1 %0 to i8
ret i8 %1
@pure
@llvm
def opt_ref_bool(what: Optional[T], T: type) -> bool:
%0 = icmp ne i8* %what, null
%1 = zext i1 %0 to i8
ret i8 %1
@pure
@derives
@llvm
def opt_tuple_invert(what: Optional[T], T: type) -> T:
%0 = extractvalue { i1, {=T} } %what, 1
ret {=T} %0
@pure
@derives
@llvm
def opt_ref_invert(what: Optional[T], T: type) -> T:
ret i8* %what
@pure
@derives
@llvm
def to_class_ptr(ptr: Ptr[byte], T: type) -> T:
%0 = bitcast i8* %ptr to {=T}
ret {=T} %0
def _tuple_offsetof(x, field: Static[int]) -> int:
@pure
@llvm
def _llvm_offsetof(T: type, idx: Static[int], TE: type) -> int:
%a = alloca {=T}
%b = getelementptr inbounds {=T}, {=T}* %a, i64 0, i32 {=idx}
%base = ptrtoint {=T}* %a to i64
%elem = ptrtoint {=TE}* %b to i64
%offset = sub i64 %elem, %base
ret i64 %offset
return _llvm_offsetof(type(x), field, type(x[field]))
def raw_type_str(p: Ptr[byte], name: str) -> str:
pstr = p.__repr__()
# '<[name] at [pstr]>'
total = 1 + name.len + 4 + pstr.len + 1
buf = Ptr[byte](total)
where = 0
buf[where] = byte(60) # '<'
where += 1
str.memcpy(buf + where, name.ptr, name.len)
where += name.len
buf[where] = byte(32) # ' '
where += 1
buf[where] = byte(97) # 'a'
where += 1
buf[where] = byte(116) # 't'
where += 1
buf[where] = byte(32) # ' '
where += 1
str.memcpy(buf + where, pstr.ptr, pstr.len)
where += pstr.len
buf[where] = byte(62) # '>'
free(pstr.ptr)
return str(buf, total)
def tuple_str(strs: Ptr[str], names: Ptr[str], n: int) -> str:
total = 2 # one for each of '(' and ')'
i = 0
while i < n:
total += strs[i].len
if names[i].len:
total += names[i].len + 2 # extra : and space
if i < n - 1:
total += 2 # ", "
i += 1
buf = Ptr[byte](total)
where = 0
buf[where] = byte(40) # '('
where += 1
i = 0
while i < n:
s = names[i]
l = s.len
if l:
str.memcpy(buf + where, s.ptr, l)
where += l
buf[where] = byte(58) # ':'
where += 1
buf[where] = byte(32) # ' '
where += 1
s = strs[i]
l = s.len
str.memcpy(buf + where, s.ptr, l)
where += l
if i < n - 1:
buf[where] = byte(44) # ','
where += 1
buf[where] = byte(32) # ' '
where += 1
i += 1
buf[where] = byte(41) # ')'
return str(buf, total)
def undef(v, s):
if not v:
raise NameError(f"variable '{s}' not yet defined")
def set_header(e, func, file, line, col):
if not isinstance(e, BaseException):
compile_error("exceptions must derive from BaseException")
e.func = func
e.file = file
e.line = line
e.col = col
return e
# TODO: keep this commented until static for lands
# @pure
# @llvm
# def __raw__(self) -> Ptr[byte]:
# ret i8* %self
# def __iter__(self):
# for _, i in self.__static_list__:
# yield i
# def __contains__(self, what):
# for _, i in self.__static_list__:
# if isinstance(what, type(i)):
# if what == i:
# return True
# return False
# def __eq__(self, obj) -> bool:
# for ii, i in self.__static_list__:
# if not i == obj.__static_list__[ii]:
# return False
# return True
# def __ne__(self, obj) -> bool:
# return not self == obj
# def __lt__(self, obj) -> bool:
# for ii, i in self.__static_list__:
# if i < obj.__static_list__[ii]:
# return True
# elif not i == obj.__static_list__[ii]:
# return False
# return False
# def __le__(self, obj) -> bool:
# return self < obj or self == obj
# def __ge__(self, obj) -> bool:
# return not self < obj
# def __gt__(self, obj) -> bool:
# return not self < obj and not self == obj
# def __hash__(self) -> int:
# seed = 0
# for _, i in self.__static_list__:
# seed = seed ^ ((i.__hash__() + 2654435769) + ((seed << 6) + (seed >> 2)))
# return seed
# def __pickle__(self, dest: Ptr[byte]) -> None:
# for _, i in self.__static_list__:
# i.__pickle__(dest)
# # __unpickle
# def __len__(self):
# return staticlen(self)
# def __to_py__(self) -> cobj:
# o = pyobj._tuple_new(staticlen(self))
# for ii, i in self.__static_list__:
# pyobj._tuple_set(o, ii + 1, i.__to_py__())
# return o
# # __from_py__
# def __repr__(self) -> str:
# a = __array__[str](staticlen(self))
# n = __array__[str](staticlen(self))
# for ii, i in self.__static_list__:
# a.__setitem__(ii, i.__repr__())
# n.__setitem__(ii, i.__static_name__)
# return __internal__.tuple_str(a.ptr, n.ptr, staticlen(self))
# def __dict__(self) -> str:
# d = List[str](staticlen(self))
# for _, i in self.__static_list__:
# d.append(i.__static_name)
# return d
# def __add__(self, obj):
# return (*self, *obj)
@dataclass(init=True)
@tuple
class Import:
name: str
file: str
def __repr__(self) -> str:
return f"<module '{self.name}' from '{self.file}'>"
@extend
class Function:
@pure
@llvm
def __new__(what: Ptr[byte]) -> Function[T, TR]:
%0 = bitcast i8* %what to {=Function[T, TR]}
ret {=Function[T, TR]} %0
def __new__(what: Function[T, TR]) -> Function[T, TR]:
return what
@pure
@llvm
def __raw__(self) -> Ptr[byte]:
%0 = bitcast {=Function[T, TR]} %self to i8*
ret i8* %0
def __repr__(self) -> str:
return __internal__.raw_type_str(self.__raw__(), "function")
@llvm
def __call__(self, *args) -> TR:
noop # compiler will populate this one