""" Common compiler level utilities for typed dict and list. """ import operator import warnings from llvmlite import ir from llvmlite.llvmpy.core import Builder from numba.core import types, cgutils from numba.core import typing from numba.core.registry import cpu_target from numba.core.typeconv import Conversion from numba.core.extending import intrinsic from numba.core.errors import TypingError, NumbaTypeSafetyWarning def _as_bytes(builder, ptr): """Helper to do (void*)ptr """ return builder.bitcast(ptr, cgutils.voidptr_t) @intrinsic def _cast(typingctx, val, typ): """Cast *val* to *typ* """ def codegen(context, builder, signature, args): [val, typ] = args context.nrt.incref(builder, signature.return_type, val) return val # Using implicit casting in argument types casted = typ.instance_type _sentry_safe_cast(val, casted) sig = casted(casted, typ) return sig, codegen def _sentry_safe_cast(fromty, toty): """Check and raise TypingError if *fromty* cannot be safely cast to *toty* """ tyctxt = cpu_target.typing_context fromty, toty = map(types.unliteral, (fromty, toty)) by = tyctxt.can_convert(fromty, toty) def warn(): m = 'unsafe cast from {} to {}. Precision may be lost.' warnings.warn(m.format(fromty, toty), category=NumbaTypeSafetyWarning) isint = lambda x: isinstance(x, types.Integer) isflt = lambda x: isinstance(x, types.Float) iscmplx = lambda x: isinstance(x, types.Complex) isdict = lambda x: isinstance(x, types.DictType) # Only check against numeric types. if by is None or by > Conversion.safe: if isint(fromty) and isint(toty): # Accept if both types are ints warn() elif isint(fromty) and isflt(toty): # Accept if ints to floats warn() elif isflt(fromty) and isflt(toty): # Accept if floats to floats warn() elif iscmplx(fromty) and iscmplx(toty): # Accept if complex to complex warn() elif isdict(fromty) and isdict(toty): pass # it's complaining about initial values being different elif not isinstance(toty, types.Number): # Non-numbers warn() else: # Make it a hard error for numeric type that changes domain. m = 'cannot safely cast {} to {}. Please cast explicitly.' raise TypingError(m.format(fromty, toty)) def _sentry_safe_cast_default(default, valty): """Similar to _sentry_safe_cast but handle default value. """ # Handle default values # TODO: simplify default values; too many possible way to spell None if default is None: return if isinstance(default, (types.Omitted, types.NoneType)): return return _sentry_safe_cast(default, valty) @intrinsic def _nonoptional(typingctx, val): """Typing trick to cast Optional[T] to T """ if not isinstance(val, types.Optional): raise TypeError('expected an optional') def codegen(context, builder, sig, args): context.nrt.incref(builder, sig.return_type, args[0]) return args[0] casted = val.type sig = casted(casted) return sig, codegen def _container_get_data(context, builder, container_ty, c): """Helper to get the C list pointer in a numba containers. """ ctor = cgutils.create_struct_proxy(container_ty) conatainer_struct = ctor(context, builder, value=c) return conatainer_struct.data def _container_get_meminfo(context, builder, container_ty, c): """Helper to get the meminfo for a container """ ctor = cgutils.create_struct_proxy(container_ty) conatainer_struct = ctor(context, builder, value=c) return conatainer_struct.meminfo def _get_incref_decref(context, module, datamodel, container_element_type): assert datamodel.contains_nrt_meminfo() fe_type = datamodel.fe_type data_ptr_ty = datamodel.get_data_type().as_pointer() refct_fnty = ir.FunctionType(ir.VoidType(), [data_ptr_ty]) incref_fn = cgutils.get_or_insert_function( module, refct_fnty, '.numba_{}.{}_incref'.format( context.fndesc.mangled_name, container_element_type),) builder = ir.IRBuilder(incref_fn.append_basic_block()) context.nrt.incref( builder, fe_type, datamodel.load_from_data_pointer(builder, incref_fn.args[0]), ) builder.ret_void() decref_fn = cgutils.get_or_insert_function( module, refct_fnty, name='.numba_{}.{}_decref'.format( context.fndesc.mangled_name, container_element_type),) builder = ir.IRBuilder(decref_fn.append_basic_block()) context.nrt.decref( builder, fe_type, datamodel.load_from_data_pointer(builder, decref_fn.args[0]), ) builder.ret_void() return incref_fn, decref_fn def _get_equal(context, module, datamodel, container_element_type): assert datamodel.contains_nrt_meminfo() fe_type = datamodel.fe_type data_ptr_ty = datamodel.get_data_type().as_pointer() wrapfnty = context.call_conv.get_function_type(types.int32, [fe_type, fe_type]) argtypes = [fe_type, fe_type] def build_wrapper(fn): builder = Builder(fn.append_basic_block()) args = context.call_conv.decode_arguments(builder, argtypes, fn) sig = typing.signature(types.boolean, fe_type, fe_type) op = operator.eq fnop = context.typing_context.resolve_value_type(op) fnop.get_call_type(context.typing_context, sig.args, {}) eqfn = context.get_function(fnop, sig) res = eqfn(builder, args) intres = context.cast(builder, res, types.boolean, types.int32) context.call_conv.return_value(builder, intres) wrapfn = cgutils.get_or_insert_function( module, wrapfnty, name='.numba_{}.{}_equal.wrap'.format( context.fndesc.mangled_name, container_element_type)) build_wrapper(wrapfn) equal_fnty = ir.FunctionType(ir.IntType(32), [data_ptr_ty, data_ptr_ty]) equal_fn = cgutils.get_or_insert_function( module, equal_fnty, name='.numba_{}.{}_equal'.format( context.fndesc.mangled_name, container_element_type),) builder = Builder(equal_fn.append_basic_block()) lhs = datamodel.load_from_data_pointer(builder, equal_fn.args[0]) rhs = datamodel.load_from_data_pointer(builder, equal_fn.args[1]) status, retval = context.call_conv.call_function( builder, wrapfn, types.boolean, argtypes, [lhs, rhs], ) with builder.if_then(status.is_ok, likely=True): with builder.if_then(status.is_none): builder.ret(context.get_constant(types.int32, 0)) retval = context.cast(builder, retval, types.boolean, types.int32) builder.ret(retval) # Error out builder.ret(context.get_constant(types.int32, -1)) return equal_fn