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597 lines
32 KiB
Plaintext
597 lines
32 KiB
Plaintext
hir_analysis_ambiguous_assoc_item = ambiguous associated {$assoc_kind} `{$assoc_name}` in bounds of `{$qself}`
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.label = ambiguous associated {$assoc_kind} `{$assoc_name}`
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hir_analysis_ambiguous_lifetime_bound =
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ambiguous lifetime bound, explicit lifetime bound required
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hir_analysis_assoc_item_constraints_not_allowed_here =
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associated item constraints are not allowed here
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.label = associated item constraint not allowed here
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hir_analysis_assoc_item_is_private = {$kind} `{$name}` is private
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.label = private {$kind}
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.defined_here_label = the {$kind} is defined here
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hir_analysis_assoc_item_not_found = associated {$assoc_kind} `{$assoc_name}` not found for `{$qself}`
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hir_analysis_assoc_item_not_found_found_in_other_trait_label = there is {$identically_named ->
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[true] an
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*[false] a similarly named
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} associated {$assoc_kind} `{$suggested_name}` in the trait `{$trait_name}`
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hir_analysis_assoc_item_not_found_label = associated {$assoc_kind} `{$assoc_name}` not found
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hir_analysis_assoc_item_not_found_other_sugg = `{$qself}` has the following associated {$assoc_kind}
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hir_analysis_assoc_item_not_found_similar_in_other_trait_qpath_sugg =
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consider fully qualifying{$identically_named ->
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[true] {""}
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*[false] {" "}and renaming
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} the associated {$assoc_kind}
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hir_analysis_assoc_item_not_found_similar_in_other_trait_sugg = change the associated {$assoc_kind} name to use `{$suggested_name}` from `{$trait_name}`
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hir_analysis_assoc_item_not_found_similar_in_other_trait_with_bound_sugg = ...and changing the associated {$assoc_kind} name
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hir_analysis_assoc_item_not_found_similar_sugg = there is an associated {$assoc_kind} with a similar name
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hir_analysis_assoc_kind_mismatch = expected {$expected}, found {$got}
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.label = unexpected {$got}
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.expected_because_label = expected a {$expected} because of this associated {$expected}
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.note = the associated {$assoc_kind} is defined here
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.bound_on_assoc_const_label = bounds are not allowed on associated constants
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hir_analysis_assoc_kind_mismatch_wrap_in_braces_sugg = consider adding braces here
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hir_analysis_associated_type_trait_uninferred_generic_params = cannot use the associated {$what} of a trait with uninferred generic parameters
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.suggestion = use a fully qualified path with inferred lifetimes
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hir_analysis_associated_type_trait_uninferred_generic_params_multipart_suggestion = use a fully qualified path with explicit lifetimes
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hir_analysis_auto_deref_reached_recursion_limit = reached the recursion limit while auto-dereferencing `{$ty}`
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.label = deref recursion limit reached
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.help = consider increasing the recursion limit by adding a `#![recursion_limit = "{$suggested_limit}"]` attribute to your crate (`{$crate_name}`)
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hir_analysis_bad_precise_capture = expected {$kind} parameter in `use<...>` precise captures list, found {$found}
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hir_analysis_bad_return_type_notation_position = return type notation not allowed in this position yet
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hir_analysis_cannot_capture_late_bound_const =
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cannot capture late-bound const parameter in {$what}
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.label = parameter defined here
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hir_analysis_cannot_capture_late_bound_lifetime =
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cannot capture late-bound lifetime in {$what}
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.label = lifetime defined here
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hir_analysis_cannot_capture_late_bound_ty =
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cannot capture late-bound type parameter in {$what}
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.label = parameter defined here
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hir_analysis_closure_implicit_hrtb = implicit types in closure signatures are forbidden when `for<...>` is present
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.label = `for<...>` is here
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hir_analysis_cmse_call_generic =
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function pointers with the `"C-cmse-nonsecure-call"` ABI cannot contain generics in their type
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hir_analysis_cmse_entry_generic =
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functions with the `"C-cmse-nonsecure-entry"` ABI cannot contain generics in their type
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hir_analysis_cmse_inputs_stack_spill =
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arguments for `"{$abi_name}"` function too large to pass via registers
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.label = {$plural ->
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[false] this argument doesn't
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*[true] these arguments don't
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} fit in the available registers
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.note = functions with the `"{$abi_name}"` ABI must pass all their arguments via the 4 32-bit available argument registers
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hir_analysis_cmse_output_stack_spill =
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return value of `"{$abi_name}"` function too large to pass via registers
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.label = this type doesn't fit in the available registers
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.note1 = functions with the `"{$abi_name}"` ABI must pass their result via the available return registers
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.note2 = the result must either be a (transparently wrapped) i64, u64 or f64, or be at most 4 bytes in size
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hir_analysis_coerce_unsized_may = the trait `{$trait_name}` may only be implemented for a coercion between structures
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hir_analysis_coerce_unsized_multi = implementing the trait `CoerceUnsized` requires multiple coercions
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.note = `CoerceUnsized` may only be implemented for a coercion between structures with one field being coerced
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.coercions_note = currently, {$number} fields need coercions: {$coercions}
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.label = requires multiple coercions
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hir_analysis_coercion_between_struct_same_note = expected coercion between the same definition; expected `{$source_path}`, found `{$target_path}`
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hir_analysis_coercion_between_struct_single_note = expected a single field to be coerced, none found
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hir_analysis_const_bound_for_non_const_trait =
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`{$modifier}` can only be applied to `#[const_trait]` traits
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hir_analysis_const_impl_for_non_const_trait =
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const `impl` for trait `{$trait_name}` which is not marked with `#[const_trait]`
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.suggestion = mark `{$trait_name}` as const
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.note = marking a trait with `#[const_trait]` ensures all default method bodies are `const`
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.adding = adding a non-const method body in the future would be a breaking change
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hir_analysis_const_param_ty_impl_on_non_adt =
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the trait `ConstParamTy` may not be implemented for this type
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.label = type is not a structure or enumeration
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hir_analysis_const_param_ty_impl_on_unsized =
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the trait `ConstParamTy` may not be implemented for this type
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.label = type is not `Sized`
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hir_analysis_const_specialize = cannot specialize on const impl with non-const impl
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hir_analysis_copy_impl_on_non_adt =
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the trait `Copy` cannot be implemented for this type
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.label = type is not a structure or enumeration
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hir_analysis_copy_impl_on_type_with_dtor =
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the trait `Copy` cannot be implemented for this type; the type has a destructor
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.label = `Copy` not allowed on types with destructors
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hir_analysis_cross_crate_traits = cross-crate traits with a default impl, like `{$traits}`, can only be implemented for a struct/enum type, not `{$self_ty}`
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.label = can't implement cross-crate trait with a default impl for non-struct/enum type
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hir_analysis_cross_crate_traits_defined = cross-crate traits with a default impl, like `{$traits}`, can only be implemented for a struct/enum type defined in the current crate
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.label = can't implement cross-crate trait for type in another crate
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hir_analysis_dispatch_from_dyn_multi = implementing the `DispatchFromDyn` trait requires multiple coercions
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.note = the trait `DispatchFromDyn` may only be implemented for a coercion between structures with a single field being coerced
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.coercions_note = currently, {$number} fields need coercions: {$coercions}
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hir_analysis_dispatch_from_dyn_repr = structs implementing `DispatchFromDyn` may not have `#[repr(packed)]` or `#[repr(C)]`
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hir_analysis_dispatch_from_dyn_zst = the trait `DispatchFromDyn` may only be implemented for structs containing the field being coerced, ZST fields with 1 byte alignment, and nothing else
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.note = extra field `{$name}` of type `{$ty}` is not allowed
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hir_analysis_drop_impl_negative = negative `Drop` impls are not supported
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hir_analysis_drop_impl_on_wrong_item =
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the `Drop` trait may only be implemented for local structs, enums, and unions
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.label = must be a struct, enum, or union in the current crate
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hir_analysis_drop_impl_reservation = reservation `Drop` impls are not supported
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hir_analysis_duplicate_precise_capture = cannot capture parameter `{$name}` twice
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.label = parameter captured again here
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hir_analysis_empty_specialization = specialization impl does not specialize any associated items
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.note = impl is a specialization of this impl
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hir_analysis_enum_discriminant_overflowed = enum discriminant overflowed
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.label = overflowed on value after {$discr}
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.note = explicitly set `{$item_name} = {$wrapped_discr}` if that is desired outcome
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hir_analysis_escaping_bound_var_in_ty_of_assoc_const_binding =
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the type of the associated constant `{$assoc_const}` cannot capture late-bound generic parameters
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.label = its type cannot capture the late-bound {$var_def_kind} `{$var_name}`
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.var_defined_here_label = the late-bound {$var_def_kind} `{$var_name}` is defined here
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hir_analysis_field_already_declared =
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field `{$field_name}` is already declared
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.label = field already declared
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.previous_decl_label = `{$field_name}` first declared here
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hir_analysis_field_already_declared_both_nested =
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field `{$field_name}` is already declared
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.label = field `{$field_name}` declared in this unnamed field
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.nested_field_decl_note = field `{$field_name}` declared here
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.previous_decl_label = `{$field_name}` first declared here in this unnamed field
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.previous_nested_field_decl_note = field `{$field_name}` first declared here
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hir_analysis_field_already_declared_current_nested =
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field `{$field_name}` is already declared
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.label = field `{$field_name}` declared in this unnamed field
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.nested_field_decl_note = field `{$field_name}` declared here
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.previous_decl_label = `{$field_name}` first declared here
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hir_analysis_field_already_declared_nested_help =
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fields from the type of this unnamed field are considered fields of the outer type
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hir_analysis_field_already_declared_previous_nested =
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field `{$field_name}` is already declared
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.label = field already declared
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.previous_decl_label = `{$field_name}` first declared here in this unnamed field
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.previous_nested_field_decl_note = field `{$field_name}` first declared here
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hir_analysis_function_not_found_in_trait = function not found in this trait
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hir_analysis_function_not_have_default_implementation = function doesn't have a default implementation
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.note = required by this annotation
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hir_analysis_functions_names_duplicated = functions names are duplicated
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.note = all `#[rustc_must_implement_one_of]` arguments must be unique
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hir_analysis_generic_args_on_overridden_impl = could not resolve generic parameters on overridden impl
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hir_analysis_impl_not_marked_default = `{$ident}` specializes an item from a parent `impl`, but that item is not marked `default`
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.label = cannot specialize default item `{$ident}`
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.ok_label = parent `impl` is here
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.note = to specialize, `{$ident}` in the parent `impl` must be marked `default`
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hir_analysis_impl_not_marked_default_err = `{$ident}` specializes an item from a parent `impl`, but that item is not marked `default`
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.note = parent implementation is in crate `{$cname}`
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hir_analysis_inherent_dyn = cannot define inherent `impl` for a dyn auto trait
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.label = impl requires at least one non-auto trait
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.note = define and implement a new trait or type instead
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hir_analysis_inherent_nominal = no nominal type found for inherent implementation
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.label = impl requires a nominal type
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.note = either implement a trait on it or create a newtype to wrap it instead
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hir_analysis_inherent_primitive_ty = cannot define inherent `impl` for primitive types
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.help = consider using an extension trait instead
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hir_analysis_inherent_primitive_ty_note = you could also try moving the reference to uses of `{$subty}` (such as `self`) within the implementation
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hir_analysis_inherent_ty_outside = cannot define inherent `impl` for a type outside of the crate where the type is defined
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.help = consider moving this inherent impl into the crate defining the type if possible
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.span_help = alternatively add `#[rustc_has_incoherent_inherent_impls]` to the type and `#[rustc_allow_incoherent_impl]` to the relevant impl items
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hir_analysis_inherent_ty_outside_new = cannot define inherent `impl` for a type outside of the crate where the type is defined
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.label = impl for type defined outside of crate
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.note = define and implement a trait or new type instead
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hir_analysis_inherent_ty_outside_primitive = cannot define inherent `impl` for primitive types outside of `core`
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.help = consider moving this inherent impl into `core` if possible
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.span_help = alternatively add `#[rustc_allow_incoherent_impl]` to the relevant impl items
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hir_analysis_inherent_ty_outside_relevant = cannot define inherent `impl` for a type outside of the crate where the type is defined
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.help = consider moving this inherent impl into the crate defining the type if possible
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.span_help = alternatively add `#[rustc_allow_incoherent_impl]` to the relevant impl items
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hir_analysis_invalid_generic_receiver_ty = invalid generic `self` parameter type: `{$receiver_ty}`
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.note = type of `self` must not be a method generic parameter type
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hir_analysis_invalid_generic_receiver_ty_help =
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use a concrete type such as `self`, `&self`, `&mut self`, `self: Box<Self>`, `self: Rc<Self>`, `self: Arc<Self>`, or `self: Pin<P>` (where P is one of the previous types except `Self`)
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hir_analysis_invalid_receiver_ty = invalid `self` parameter type: `{$receiver_ty}`
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.note = type of `self` must be `Self` or a type that dereferences to it
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hir_analysis_invalid_receiver_ty_help =
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consider changing to `self`, `&self`, `&mut self`, `self: Box<Self>`, `self: Rc<Self>`, `self: Arc<Self>`, or `self: Pin<P>` (where P is one of the previous types except `Self`)
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hir_analysis_invalid_union_field =
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field must implement `Copy` or be wrapped in `ManuallyDrop<...>` to be used in a union
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.note = union fields must not have drop side-effects, which is currently enforced via either `Copy` or `ManuallyDrop<...>`
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hir_analysis_invalid_union_field_sugg =
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wrap the field type in `ManuallyDrop<...>`
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hir_analysis_late_bound_const_in_apit = `impl Trait` can only mention const parameters from an fn or impl
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.label = const parameter declared here
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hir_analysis_late_bound_lifetime_in_apit = `impl Trait` can only mention lifetimes from an fn or impl
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.label = lifetime declared here
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hir_analysis_late_bound_type_in_apit = `impl Trait` can only mention type parameters from an fn or impl
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.label = type parameter declared here
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hir_analysis_lifetime_implicitly_captured = `impl Trait` captures lifetime parameter, but it is not mentioned in `use<...>` precise captures list
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.param_label = all lifetime parameters originating from a trait are captured implicitly
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hir_analysis_lifetime_must_be_first = lifetime parameter `{$name}` must be listed before non-lifetime parameters
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.label = move the lifetime before this parameter
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hir_analysis_lifetime_not_captured = `impl Trait` captures lifetime parameter, but it is not mentioned in `use<...>` precise captures list
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.label = lifetime captured due to being mentioned in the bounds of the `impl Trait`
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.param_label = this lifetime parameter is captured
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hir_analysis_lifetimes_or_bounds_mismatch_on_trait =
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lifetime parameters or bounds on {$item_kind} `{$ident}` do not match the trait declaration
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.label = lifetimes do not match {$item_kind} in trait
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.generics_label = lifetimes in impl do not match this {$item_kind} in trait
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.where_label = this `where` clause might not match the one in the trait
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.bounds_label = this bound might be missing in the impl
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hir_analysis_linkage_type =
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invalid type for variable with `#[linkage]` attribute
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hir_analysis_main_function_async = `main` function is not allowed to be `async`
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.label = `main` function is not allowed to be `async`
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hir_analysis_main_function_generic_parameters = `main` function is not allowed to have generic parameters
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.label = `main` cannot have generic parameters
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hir_analysis_main_function_return_type_generic = `main` function return type is not allowed to have generic parameters
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hir_analysis_manual_implementation =
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manual implementations of `{$trait_name}` are experimental
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.label = manual implementations of `{$trait_name}` are experimental
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.help = add `#![feature(unboxed_closures)]` to the crate attributes to enable
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hir_analysis_method_should_return_future = method should be `async` or return a future, but it is synchronous
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.note = this method is `async` so it expects a future to be returned
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hir_analysis_missing_one_of_trait_item = not all trait items implemented, missing one of: `{$missing_items_msg}`
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.label = missing one of `{$missing_items_msg}` in implementation
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.note = required because of this annotation
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hir_analysis_missing_trait_item = not all trait items implemented, missing: `{$missing_items_msg}`
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.label = missing `{$missing_items_msg}` in implementation
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hir_analysis_missing_trait_item_label = `{$item}` from trait
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hir_analysis_missing_trait_item_suggestion = implement the missing item: `{$snippet}`
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hir_analysis_missing_trait_item_unstable = not all trait items implemented, missing: `{$missing_item_name}`
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.note = default implementation of `{$missing_item_name}` is unstable
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.some_note = use of unstable library feature `{$feature}`: {$reason}
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.none_note = use of unstable library feature `{$feature}`
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hir_analysis_missing_type_params =
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the type {$parameterCount ->
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[one] parameter
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*[other] parameters
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} {$parameters} must be explicitly specified
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.label = type {$parameterCount ->
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[one] parameter
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*[other] parameters
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} {$parameters} must be specified for this
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.suggestion = set the type {$parameterCount ->
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[one] parameter
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*[other] parameters
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} to the desired {$parameterCount ->
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[one] type
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*[other] types
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}
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.no_suggestion_label = missing {$parameterCount ->
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[one] reference
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*[other] references
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} to {$parameters}
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.note = because of the default `Self` reference, type parameters must be specified on object types
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hir_analysis_multiple_relaxed_default_bounds =
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type parameter has more than one relaxed default bound, only one is supported
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hir_analysis_must_be_name_of_associated_function = must be a name of an associated function
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hir_analysis_must_implement_not_function = not a function
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hir_analysis_must_implement_not_function_note = all `#[rustc_must_implement_one_of]` arguments must be associated function names
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hir_analysis_must_implement_not_function_span_note = required by this annotation
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hir_analysis_must_implement_one_of_attribute = the `#[rustc_must_implement_one_of]` attribute must be used with at least 2 args
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hir_analysis_not_supported_delegation = {$descr}
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.label = callee defined here
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hir_analysis_only_current_traits_adt = `{$name}` is not defined in the current crate
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hir_analysis_only_current_traits_arbitrary = only traits defined in the current crate can be implemented for arbitrary types
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hir_analysis_only_current_traits_foreign = this is not defined in the current crate because this is a foreign trait
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hir_analysis_only_current_traits_name = this is not defined in the current crate because {$name} are always foreign
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hir_analysis_only_current_traits_note = define and implement a trait or new type instead
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hir_analysis_only_current_traits_note_more_info = for more information see https://doc.rust-lang.org/reference/items/implementations.html#orphan-rules
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hir_analysis_only_current_traits_note_uncovered = impl doesn't have any local type before any uncovered type parameters
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hir_analysis_only_current_traits_opaque = type alias impl trait is treated as if it were foreign, because its hidden type could be from a foreign crate
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hir_analysis_only_current_traits_outside = only traits defined in the current crate can be implemented for types defined outside of the crate
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hir_analysis_only_current_traits_pointer = `{$pointer}` is not defined in the current crate because raw pointers are always foreign
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hir_analysis_only_current_traits_pointer_sugg = consider introducing a new wrapper type
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hir_analysis_only_current_traits_primitive = only traits defined in the current crate can be implemented for primitive types
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hir_analysis_only_current_traits_ty = `{$ty}` is not defined in the current crate
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hir_analysis_opaque_captures_higher_ranked_lifetime = `impl Trait` cannot capture {$bad_place}
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.label = `impl Trait` implicitly captures all lifetimes in scope
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.note = lifetime declared here
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|
|
hir_analysis_param_in_ty_of_assoc_const_binding =
|
|
the type of the associated constant `{$assoc_const}` must not depend on {$param_category ->
|
|
[self] `Self`
|
|
[synthetic] `impl Trait`
|
|
*[normal] generic parameters
|
|
}
|
|
.label = its type must not depend on {$param_category ->
|
|
[self] `Self`
|
|
[synthetic] `impl Trait`
|
|
*[normal] the {$param_def_kind} `{$param_name}`
|
|
}
|
|
.param_defined_here_label = {$param_category ->
|
|
[synthetic] the `impl Trait` is specified here
|
|
*[normal] the {$param_def_kind} `{$param_name}` is defined here
|
|
}
|
|
|
|
hir_analysis_param_not_captured = `impl Trait` must mention all {$kind} parameters in scope in `use<...>`
|
|
.label = {$kind} parameter is implicitly captured by this `impl Trait`
|
|
.note = currently, all {$kind} parameters are required to be mentioned in the precise captures list
|
|
|
|
hir_analysis_paren_sugar_attribute = the `#[rustc_paren_sugar]` attribute is a temporary means of controlling which traits can use parenthetical notation
|
|
.help = add `#![feature(unboxed_closures)]` to the crate attributes to use it
|
|
|
|
hir_analysis_parenthesized_fn_trait_expansion =
|
|
parenthesized trait syntax expands to `{$expanded_type}`
|
|
|
|
hir_analysis_pattern_type_non_const_range = range patterns must have constant range start and end
|
|
hir_analysis_pattern_type_wild_pat = wildcard patterns are not permitted for pattern types
|
|
.label = this type is the same as the inner type without a pattern
|
|
hir_analysis_placeholder_not_allowed_item_signatures = the placeholder `_` is not allowed within types on item signatures for {$kind}
|
|
.label = not allowed in type signatures
|
|
|
|
hir_analysis_precise_capture_self_alias = `Self` can't be captured in `use<...>` precise captures list, since it is an alias
|
|
.label = `Self` is not a generic argument, but an alias to the type of the {$what}
|
|
|
|
hir_analysis_recursive_generic_parameter = {$param_def_kind} `{$param_name}` is only used recursively
|
|
.label = {$param_def_kind} must be used non-recursively in the definition
|
|
.note = all type parameters must be used in a non-recursive way in order to constrain their variance
|
|
|
|
hir_analysis_redundant_lifetime_args = unnecessary lifetime parameter `{$victim}`
|
|
.note = you can use the `{$candidate}` lifetime directly, in place of `{$victim}`
|
|
|
|
hir_analysis_requires_note = the `{$trait_name}` impl for `{$ty}` requires that `{$error_predicate}`
|
|
|
|
hir_analysis_return_type_notation_equality_bound =
|
|
return type notation is not allowed to use type equality
|
|
|
|
hir_analysis_return_type_notation_illegal_param_const =
|
|
return type notation is not allowed for functions that have const parameters
|
|
.label = const parameter declared here
|
|
hir_analysis_return_type_notation_illegal_param_type =
|
|
return type notation is not allowed for functions that have type parameters
|
|
.label = type parameter declared here
|
|
|
|
hir_analysis_return_type_notation_on_non_rpitit =
|
|
return type notation used on function that is not `async` and does not return `impl Trait`
|
|
.note = function returns `{$ty}`, which is not compatible with associated type return bounds
|
|
.label = this function must be `async` or return `impl Trait`
|
|
|
|
hir_analysis_rpitit_refined = impl trait in impl method signature does not match trait method signature
|
|
.suggestion = replace the return type so that it matches the trait
|
|
.label = return type from trait method defined here
|
|
.unmatched_bound_label = this bound is stronger than that defined on the trait
|
|
.note = add `#[allow(refining_impl_trait)]` if it is intended for this to be part of the public API of this crate
|
|
.feedback_note = we are soliciting feedback, see issue #121718 <https://github.com/rust-lang/rust/issues/121718> for more information
|
|
|
|
hir_analysis_rpitit_refined_lifetimes = impl trait in impl method captures fewer lifetimes than in trait
|
|
.suggestion = modify the `use<..>` bound to capture the same lifetimes that the trait does
|
|
.note = add `#[allow(refining_impl_trait)]` if it is intended for this to be part of the public API of this crate
|
|
.feedback_note = we are soliciting feedback, see issue #121718 <https://github.com/rust-lang/rust/issues/121718> for more information
|
|
|
|
hir_analysis_self_in_impl_self =
|
|
`Self` is not valid in the self type of an impl block
|
|
.note = replace `Self` with a different type
|
|
|
|
hir_analysis_self_ty_not_captured = `impl Trait` must mention the `Self` type of the trait in `use<...>`
|
|
.label = `Self` type parameter is implicitly captured by this `impl Trait`
|
|
.note = currently, all type parameters are required to be mentioned in the precise captures list
|
|
|
|
hir_analysis_simd_ffi_highly_experimental = use of SIMD type{$snip} in FFI is highly experimental and may result in invalid code
|
|
.help = add `#![feature(simd_ffi)]` to the crate attributes to enable
|
|
|
|
hir_analysis_specialization_trait = implementing `rustc_specialization_trait` traits is unstable
|
|
.help = add `#![feature(min_specialization)]` to the crate attributes to enable
|
|
|
|
hir_analysis_start_function_parameters = `#[start]` function is not allowed to have type parameters
|
|
.label = `#[start]` function cannot have type parameters
|
|
|
|
hir_analysis_start_function_where = `#[start]` function is not allowed to have a `where` clause
|
|
.label = `#[start]` function cannot have a `where` clause
|
|
|
|
hir_analysis_start_not_async = `#[start]` function is not allowed to be `async`
|
|
.label = `#[start]` is not allowed to be `async`
|
|
|
|
hir_analysis_start_not_target_feature = `#[start]` function is not allowed to have `#[target_feature]`
|
|
.label = `#[start]` function is not allowed to have `#[target_feature]`
|
|
|
|
hir_analysis_start_not_track_caller = `#[start]` function is not allowed to be `#[track_caller]`
|
|
.label = `#[start]` function is not allowed to be `#[track_caller]`
|
|
|
|
hir_analysis_static_specialize = cannot specialize on `'static` lifetime
|
|
|
|
hir_analysis_tait_forward_compat = item constrains opaque type that is not in its signature
|
|
.note = this item must mention the opaque type in its signature in order to be able to register hidden types
|
|
|
|
hir_analysis_tait_forward_compat2 = item does not constrain `{$opaque_type}`, but has it in its signature
|
|
.note = consider moving the opaque type's declaration and defining uses into a separate module
|
|
.opaque = this opaque type is in the signature
|
|
|
|
hir_analysis_target_feature_on_main = `main` function is not allowed to have `#[target_feature]`
|
|
|
|
hir_analysis_too_large_static = extern static is too large for the target architecture
|
|
|
|
hir_analysis_track_caller_on_main = `main` function is not allowed to be `#[track_caller]`
|
|
.suggestion = remove this annotation
|
|
|
|
hir_analysis_trait_cannot_impl_for_ty = the trait `{$trait_name}` cannot be implemented for this type
|
|
.label = this field does not implement `{$trait_name}`
|
|
|
|
hir_analysis_trait_object_declared_with_no_traits =
|
|
at least one trait is required for an object type
|
|
.alias_span = this alias does not contain a trait
|
|
|
|
hir_analysis_traits_with_defualt_impl = traits with a default impl, like `{$traits}`, cannot be implemented for {$problematic_kind} `{$self_ty}`
|
|
.note = a trait object implements `{$traits}` if and only if `{$traits}` is one of the trait object's trait bounds
|
|
|
|
hir_analysis_transparent_enum_variant = transparent enum needs exactly one variant, but has {$number}
|
|
.label = needs exactly one variant, but has {$number}
|
|
.many_label = too many variants in `{$path}`
|
|
.multi_label = variant here
|
|
|
|
hir_analysis_transparent_non_zero_sized = transparent {$desc} needs at most one field with non-trivial size or alignment, but has {$field_count}
|
|
.label = needs at most one field with non-trivial size or alignment, but has {$field_count}
|
|
.labels = this field has non-zero size or requires alignment
|
|
|
|
hir_analysis_transparent_non_zero_sized_enum = the variant of a transparent {$desc} needs at most one field with non-trivial size or alignment, but has {$field_count}
|
|
.label = needs at most one field with non-trivial size or alignment, but has {$field_count}
|
|
.labels = this field has non-zero size or requires alignment
|
|
|
|
hir_analysis_ty_of_assoc_const_binding_note = `{$assoc_const}` has type `{$ty}`
|
|
|
|
hir_analysis_ty_param_first_local = type parameter `{$param}` must be covered by another type when it appears before the first local type (`{$local_type}`)
|
|
.label = type parameter `{$param}` must be covered by another type when it appears before the first local type (`{$local_type}`)
|
|
.note = implementing a foreign trait is only possible if at least one of the types for which it is implemented is local, and no uncovered type parameters appear before that first local type
|
|
.case_note = in this case, 'before' refers to the following order: `impl<..> ForeignTrait<T1, ..., Tn> for T0`, where `T0` is the first and `Tn` is the last
|
|
|
|
hir_analysis_ty_param_some = type parameter `{$param}` must be used as the type parameter for some local type (e.g., `MyStruct<{$param}>`)
|
|
.label = type parameter `{$param}` must be used as the type parameter for some local type
|
|
.note = implementing a foreign trait is only possible if at least one of the types for which it is implemented is local
|
|
.only_note = only traits defined in the current crate can be implemented for a type parameter
|
|
|
|
hir_analysis_type_of = {$ty}
|
|
|
|
hir_analysis_typeof_reserved_keyword_used =
|
|
`typeof` is a reserved keyword but unimplemented
|
|
.suggestion = consider replacing `typeof(...)` with an actual type
|
|
.label = reserved keyword
|
|
|
|
hir_analysis_unconstrained_generic_parameter = the {$param_def_kind} `{$param_name}` is not constrained by the impl trait, self type, or predicates
|
|
.label = unconstrained {$param_def_kind}
|
|
.const_param_note = expressions using a const parameter must map each value to a distinct output value
|
|
.const_param_note2 = proving the result of expressions other than the parameter are unique is not supported
|
|
|
|
hir_analysis_unconstrained_opaque_type = unconstrained opaque type
|
|
.note = `{$name}` must be used in combination with a concrete type within the same {$what}
|
|
|
|
hir_analysis_unrecognized_atomic_operation =
|
|
unrecognized atomic operation function: `{$op}`
|
|
.label = unrecognized atomic operation
|
|
|
|
hir_analysis_unrecognized_intrinsic_function =
|
|
unrecognized intrinsic function: `{$name}`
|
|
.label = unrecognized intrinsic
|
|
.help = if you're adding an intrinsic, be sure to update `check_intrinsic_type`
|
|
|
|
hir_analysis_unused_associated_type_bounds =
|
|
unnecessary associated type bound for dyn-incompatible associated type
|
|
.note = this associated type has a `where Self: Sized` bound, and while the associated type can be specified, it cannot be used because trait objects are never `Sized`
|
|
.suggestion = remove this bound
|
|
|
|
hir_analysis_unused_generic_parameter =
|
|
{$param_def_kind} `{$param_name}` is never used
|
|
.label = unused {$param_def_kind}
|
|
.const_param_help = if you intended `{$param_name}` to be a const parameter, use `const {$param_name}: /* Type */` instead
|
|
.usage_spans = `{$param_name}` is named here, but is likely unused in the containing type
|
|
|
|
hir_analysis_unused_generic_parameter_adt_help =
|
|
consider removing `{$param_name}`, referring to it in a field, or using a marker such as `{$phantom_data}`
|
|
hir_analysis_unused_generic_parameter_adt_no_phantom_data_help =
|
|
consider removing `{$param_name}` or referring to it in a field
|
|
hir_analysis_unused_generic_parameter_ty_alias_help =
|
|
consider removing `{$param_name}` or referring to it in the body of the type alias
|
|
|
|
hir_analysis_value_of_associated_struct_already_specified =
|
|
the value of the associated type `{$item_name}` in trait `{$def_path}` is already specified
|
|
.label = re-bound here
|
|
.previous_bound_label = `{$item_name}` bound here first
|
|
|
|
hir_analysis_variadic_function_compatible_convention = C-variadic function must have a compatible calling convention, like {$conventions}
|
|
.label = C-variadic function must have a compatible calling convention
|
|
|
|
hir_analysis_variances_of = {$variances}
|
|
|
|
hir_analysis_where_clause_on_main = `main` function is not allowed to have a `where` clause
|
|
.label = `main` cannot have a `where` clause
|
|
|
|
hir_analysis_wrong_number_of_generic_arguments_to_intrinsic =
|
|
intrinsic has wrong number of {$descr} parameters: found {$found}, expected {$expected}
|
|
.label = expected {$expected} {$descr} {$expected ->
|
|
[one] parameter
|
|
*[other] parameters
|
|
}
|