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Reflected
struct Reflected[T: AnyType]
A compile-time reflection handle for a type.
Reflected[T] is a zero-sized handle that exposes compile-time
introspection of T through methods. Construct it via reflect[T]().
For best performance, assign the result of reflect[T]() and any methods
that return type-level values (such as field_names, field_types,
field_count) to comptime variables so the work happens at compile time.
Example:
struct Point:
var x: Int
var y: Float64
def main():
comptime r = reflect[Point]()
comptime if r.is_struct():
comptime names = r.field_names()
comptime for i in range(r.field_count()):
print(names[i])
Parameters
- T (
AnyType): The type being introspected. The wrapped type is exposed via this parameter, soreflect[T]().TisT.
Implemented traits
AnyType,
Copyable,
ImplicitlyCopyable,
ImplicitlyDestructible,
Movable,
RegisterPassable,
TrivialRegisterPassable
Methods
__init__
__init__() -> Self
Constructs a reflection handle. Prefer reflect[T]().
is_struct
is_struct(self) -> Bool
Returns True if T is a Mojo struct type, False otherwise.
This distinguishes Mojo struct types from MLIR primitive types (such as
__mlir_type.index or __mlir_type.i64). The other reflection methods
produce a compile error on non-struct types, so is_struct is useful
as a comptime if guard when iterating over field types that may
contain MLIR primitives.
Example:
def process_type[T: AnyType]():
comptime r = reflect[T]()
comptime if r.is_struct():
print("struct with", r.field_count(), "fields")
else:
print("non-struct:", r.name())
Returns:
Bool: True if T is a Mojo struct type, False if it is an MLIR type.
name
name[*, qualified_builtins: Bool = False](self) -> StaticString
Returns the struct name of T.
Example:
struct Point:
var x: Int
var y: Float64
def main():
comptime r = reflect[Point]()
print(r.name()) # "Point" (or module-qualified if defined)
Parameters:
- qualified_builtins (
Bool): Whether to print fully qualified builtin type names (e.g.std.builtin.int.Int) or shorten them (e.g.Int).
Returns:
StaticString: Type name.
base_name
base_name(self) -> StaticString
Returns the name of the base type of a parameterized type.
For parameterized types like List[Int], this returns "List".
For non-parameterized types, it returns the type's simple name.
Unlike name, this method strips type parameters and returns only the
unqualified base type name.
Example:
from std.collections import List, Dict
def main():
print(reflect[List[Int]]().base_name()) # "List"
print(reflect[Dict[String, Int]]().base_name()) # "Dict"
print(reflect[Int]().base_name()) # "Int"
Returns:
StaticString: The unqualified name of the base type as a StaticString.
field_count
field_count(self) -> Int
Returns the number of fields in struct T.
Constraints:
T must be a struct type.
Returns:
Int: The number of fields in the struct.
field_types
field_types(self) -> TypeList[#kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>]
Returns the types of all fields in struct T as a TypeList.
For nested structs this returns the struct type itself, not its flattened fields.
Example:
struct Point:
var x: Int
var y: Float64
def main():
comptime r = reflect[Point]()
comptime types = r.field_types()
comptime for i in range(r.field_count()):
print(reflect[types[i]]().name())
Constraints:
T must be a struct type.
Returns:
TypeList[#kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>]: A TypeList with one entry per field in the struct.
field_names
field_names(self) -> InlineArray[StringSlice[StaticConstantOrigin], TypeList[#kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>].size]
Returns the names of all fields in struct T.
Constraints:
T must be a struct type.
Returns:
InlineArray[StringSlice[StaticConstantOrigin], TypeList[#kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>].size]: An InlineArray of StaticString, one entry per field.
field_index
field_index[name: StringLiteral[name.value]](self) -> Int
Returns the index of the field with the given name in struct T.
Note: T must be a concrete type, not a generic type parameter, when
looking up by name.
Parameters:
- name (
StringLiteral[name.value]): The name of the field to look up.
Returns:
Int: The zero-based index of the field.
field_type
field_type[name: StringLiteral[name.value]](self) -> Reflected[#kgen.struct_field_type_by_name<:trait<_std::_builtin::_anytype::_AnyType> T, #kgen.param.decl.ref<"name.value`2x"> : !kgen.string>]
Returns a reflection handle for the type of the named field.
The returned handle's T parameter is the field's type, so
r.field_type["x"]().T can be used in type position.
Note: T must be a concrete type, not a generic type parameter, when
looking up by name.
Example:
struct Point:
var x: Int
var y: Float64
def main():
comptime r = reflect[Point]()
comptime y_type = r.field_type["y"]()
var v: y_type.T = 3.14 # y_type.T is Float64
Parameters:
- name (
StringLiteral[name.value]): The name of the field.
Returns:
Reflected[#kgen.struct_field_type_by_name<:trait<_std::_builtin::_anytype::_AnyType> T, #kgen.param.decl.ref<"name.value`2x"> : !kgen.string>]: A Reflected handle whose T is the named field's type.
field_ref
field_ref[idx: Int](self, ref s: T) -> ref[s_is_mut] #kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>[idx]
Returns a reference to the field at the given index in s.
Returns a reference rather than a copy, so this works with non-copyable field types and supports mutation through the result.
Example:
@fieldwise_init
struct Container:
var id: Int
var name: String
def main():
var c = Container(id=1, name="test")
comptime r = reflect[Container]()
r.field_ref[0](c) = 42 # mutates c.id
Constraints:
T must be a struct type. idx must be in range
[0, field_count()).
Parameters:
- idx (
Int): The zero-based index of the field.
Args:
- s (
T): The struct value to access.
Returns:
ref[s_is_mut] #kgen.struct_field_types<:trait<_std::_builtin::_anytype::_AnyType> T>[idx]: A reference to the field at the specified index, with the same
mutability as s.
field_offset
field_offset[*, name: StringLiteral[name.value], target: __mlir_type.`!kgen.target` = _current_target()](self) -> Int
Returns the byte offset of the named field within struct T.
Accounts for alignment padding between fields. Computed using the target's data layout.
Example:
struct Point:
var x: Int # offset 0
var y: Float64 # offset 8
def main():
comptime r = reflect[Point]()
comptime x_off = r.field_offset[name="x"]() # 0
comptime y_off = r.field_offset[name="y"]() # 8
Constraints:
T must be a struct type with a field of the given name.
Parameters:
- name (
StringLiteral[name.value]): The name of the field. - target (
__mlir_type.`!kgen.target`): The target architecture (defaults to the current target).
Returns:
Int: The byte offset of the field from the start of the struct.
field_offset[*, index: Int, target: __mlir_type.`!kgen.target` = _current_target()](self) -> Int
Returns the byte offset of the field at the given index.
Accounts for alignment padding between fields. Computed using the target's data layout.
Constraints:
T must be a struct type. index must be in range
[0, field_count()).
Parameters:
- index (
Int): The zero-based index of the field. - target (
__mlir_type.`!kgen.target`): The target architecture (defaults to the current target).
Returns:
Int: The byte offset of the field from the start of the struct.