gb_internal bool is_in_doc_writer(void); gb_internal GB_COMPARE_PROC(type_info_pair_cmp) { TypeInfoPair *x = cast(TypeInfoPair *)a; TypeInfoPair *y = cast(TypeInfoPair *)b; if (x->hash == y->hash) { return 0; } return x->hash < y->hash ? -1 : +1; } gb_internal gbAllocator type_set_allocator(void) { return heap_allocator(); } gb_internal TypeSetIterator begin(TypeSet &set) noexcept { usize index = 0; while (index < set.capacity) { TypeInfoPair key = set.keys[index]; if (key.hash != 0 && key.hash != TYPE_SET_TOMBSTONE) { break; } index++; } return TypeSetIterator{&set, index}; } gb_internal TypeSetIterator end(TypeSet &set) noexcept { return TypeSetIterator{&set, set.capacity}; } gb_internal void type_set_init(TypeSet *s, isize capacity) { GB_ASSERT(s->keys == nullptr); if (capacity != 0) { capacity = next_pow2_isize(gb_max(16, capacity)); s->keys = gb_alloc_array(type_set_allocator(), TypeInfoPair, capacity); // This memory will be zeroed, no need to explicitly zero it } s->count = 0; s->capacity = capacity; } gb_internal void type_set_destroy(TypeSet *s) { gb_free(type_set_allocator(), s->keys); s->keys = nullptr; s->count = 0; s->capacity = 0; } gb_internal isize type_set__find(TypeSet *s, TypeInfoPair pair) { GB_ASSERT(pair.type != nullptr); GB_ASSERT(pair.hash != 0); if (s->count != 0) { usize hash = pair.hash; usize mask = s->capacity-1; usize hash_index = cast(usize)hash & mask; for (usize i = 0; i < s->capacity; i++) { Type *key = s->keys[hash_index].type; if (are_types_identical_unique_tuples(key, pair.type)) { return hash_index; } else if (key == 0) { return -1; } hash_index = (hash_index+1)&mask; } } return -1; } gb_internal isize type_set__find(TypeSet *s, Type *ptr) { GB_ASSERT(ptr != 0); if (s->count != 0) { usize hash = cast(usize)type_hash_canonical_type(ptr); usize mask = s->capacity-1; usize hash_index = cast(usize)hash & mask; for (usize i = 0; i < s->capacity; i++) { Type *key = s->keys[hash_index].type; if (are_types_identical_unique_tuples(key, ptr)) { return hash_index; } else if (key == 0) { return -1; } hash_index = (hash_index+1)&mask; } } return -1; } gb_internal bool type_set__full(TypeSet *s) { return 0.75f * s->capacity <= s->count; } gb_internal gb_inline void type_set_grow(TypeSet *old_set) { if (old_set->capacity == 0) { type_set_init(old_set); return; } TypeSet new_set = {}; type_set_init(&new_set, gb_max(old_set->capacity<<1, 16)); for (TypeInfoPair const &set : *old_set) { bool was_new = type_set_update(&new_set, set); GB_ASSERT(!was_new); } GB_ASSERT(old_set->count == new_set.count); type_set_destroy(old_set); *old_set = new_set; } gb_internal gb_inline bool type_set_exists(TypeSet *s, Type *ptr) { return type_set__find(s, ptr) >= 0; } gb_internal gb_inline bool type_set_exists(TypeSet *s, TypeInfoPair pair) { return type_set__find(s, pair) >= 0; } gb_internal gb_inline TypeInfoPair *type_set_retrieve(TypeSet *s, Type *type) { isize index = type_set__find(s, type); if (index >= 0) { return &s->keys[index]; } return nullptr; } gb_internal bool type_set_update(TypeSet *s, TypeInfoPair pair) { // returns true if it previously existsed if (type_set_exists(s, pair)) { return true; } if (s->keys == nullptr) { type_set_init(s); } else if (type_set__full(s)) { type_set_grow(s); } GB_ASSERT(s->count < s->capacity); GB_ASSERT(s->capacity >= 0); usize mask = s->capacity-1; usize hash = cast(usize)pair.hash; usize hash_index = (cast(usize)hash) & mask; GB_ASSERT(hash_index < s->capacity); for (usize i = 0; i < s->capacity; i++) { TypeInfoPair *key = &s->keys[hash_index]; GB_ASSERT(!are_types_identical_unique_tuples(key->type, pair.type)); if (key->hash == TYPE_SET_TOMBSTONE || key->hash == 0) { *key = pair; s->count++; return false; } hash_index = (hash_index+1)&mask; } GB_PANIC("ptr set out of memory"); return false; } gb_internal bool type_set_update(TypeSet *s, Type *ptr) { // returns true if it previously existsed TypeInfoPair pair = {ptr, type_hash_canonical_type(ptr)}; return type_set_update(s, pair); } gb_internal Type *type_set_add(TypeSet *s, Type *ptr) { type_set_update(s, ptr); return ptr; } gb_internal Type *type_set_add(TypeSet *s, TypeInfoPair pair) { type_set_update(s, pair); return pair.type; } gb_internal void type_set_remove(TypeSet *s, Type *ptr) { isize index = type_set__find(s, ptr); if (index >= 0) { GB_ASSERT(s->count > 0); s->keys[index].type = nullptr; s->keys[index].hash = TYPE_SET_TOMBSTONE; s->count--; } } gb_internal gb_inline void type_set_clear(TypeSet *s) { s->count = 0; gb_zero_size(s->keys, s->capacity*gb_size_of(*s->keys)); } #define TYPE_WRITER_PROC(name) bool name(TypeWriter *w, void const *ptr, isize len) typedef TYPE_WRITER_PROC(TypeWriterProc); struct TypeWriter { TypeWriterProc *proc; void *user_data; }; bool type_writer_append(TypeWriter *w, void const *ptr, isize len) { return w->proc(w, ptr, len); } bool type_writer_appendb(TypeWriter *w, char b) { return w->proc(w, &b, 1); } bool type_writer_appendc(TypeWriter *w, char const *str) { isize len = gb_strlen(str); return w->proc(w, str, len); } bool type_writer_append_fmt(TypeWriter *w, char const *fmt, ...) { va_list va; char *str; va_start(va, fmt); str = gb_bprintf_va(fmt, va); va_end(va); return type_writer_appendc(w, str); } TYPE_WRITER_PROC(type_writer_string_writer_proc) { gbString *s = cast(gbString *)&w->user_data; *s = gb_string_append_length(*s, ptr, len); return true; } void type_writer_make_string(TypeWriter *w, gbAllocator allocator) { w->user_data = gb_string_make(allocator, ""); w->proc = type_writer_string_writer_proc; } void type_writer_destroy_string(TypeWriter *w) { gb_string_free(cast(gbString)w->user_data); } TYPE_WRITER_PROC(type_writer_hasher_writer_proc) { u64 *seed = cast(u64 *)w->user_data; *seed = fnv64a(ptr, len, *seed); return true; } void type_writer_make_hasher(TypeWriter *w, u64 *hash) { w->user_data = hash; w->proc = type_writer_hasher_writer_proc; } gb_internal void write_canonical_params(TypeWriter *w, Type *params) { type_writer_appendc(w, "("); defer (type_writer_appendc(w, ")")); if (params == nullptr) { return; } GB_ASSERT(params->kind == Type_Tuple); for_array(i, params->Tuple.variables) { Entity *v = params->Tuple.variables[i]; if (i > 0) { type_writer_appendc(w, CANONICAL_PARAM_SEPARATOR); } type_writer_append(w, v->token.string.text, v->token.string.len); type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); switch (v->kind) { case Entity_Variable: if (v->flags&EntityFlag_CVarArg) { type_writer_appendc(w, CANONICAL_PARAM_C_VARARG); } if (v->flags&EntityFlag_Ellipsis) { Type *slice = base_type(v->type); type_writer_appendc(w, CANONICAL_PARAM_VARARG); GB_ASSERT(v->type->kind == Type_Slice); write_type_to_canonical_string(w, slice->Slice.elem); } else { write_type_to_canonical_string(w, v->type); } if (is_in_doc_writer()) { // NOTE(bill): This just exists to make sure the entities default values exist when // writing to the odin doc format Ast *expr = v->Variable.init_expr; if (expr == nullptr) { expr = v->Variable.param_value.original_ast_expr; } if (expr != nullptr) { type_writer_appendc(w, "="); gbString s = write_expr_to_string( // Minor leak gb_string_make(temporary_allocator(), ""), expr, build_context.cmd_doc_flags & CmdDocFlag_Short ); type_writer_append(w, s, gb_string_length(s)); } } break; case Entity_TypeName: type_writer_appendc(w, CANONICAL_PARAM_TYPEID); write_type_to_canonical_string(w, v->type); break; case Entity_Constant: { type_writer_appendc(w, CANONICAL_PARAM_CONST); gbString s = exact_value_to_string(v->Constant.value, 1<<16); type_writer_append(w, s, gb_string_length(s)); gb_string_free(s); } break; default: GB_PANIC("TODO(bill): handle non type/const parapoly parameter values"); break; } } return; } gb_internal u64 type_hash_canonical_type(Type *type) { if (type == nullptr) { return 0; } u64 hash = fnv64a(nullptr, 0); TypeWriter w = {}; type_writer_make_hasher(&w, &hash); write_type_to_canonical_string(&w, type); return hash ? hash : 1; } gb_internal String type_to_canonical_string(gbAllocator allocator, Type *type) { TypeWriter w = {}; type_writer_make_string(&w, allocator); write_type_to_canonical_string(&w, type); gbString s = cast(gbString)w.user_data; return make_string(cast(u8 const *)s, gb_string_length(s)); } gb_internal gbString temp_canonical_string(Type *type) { TypeWriter w = {}; type_writer_make_string(&w, temporary_allocator()); write_type_to_canonical_string(&w, type); return cast(gbString)w.user_data; } gb_internal gbString string_canonical_entity_name(gbAllocator allocator, Entity *e) { TypeWriter w = {}; type_writer_make_string(&w, allocator); write_canonical_entity_name(&w, e); return cast(gbString)w.user_data; } gb_internal void write_canonical_parent_prefix(TypeWriter *w, Entity *e) { GB_ASSERT(e != nullptr); if (e->kind == Entity_Procedure || e->kind == Entity_TypeName) { if (e->kind == Entity_Procedure && (e->Procedure.is_export || e->Procedure.is_foreign)) { // no prefix return; } if (e->parent_proc_decl) { Entity *p = e->parent_proc_decl->entity; write_canonical_parent_prefix(w, p); type_writer_append(w, p->token.string.text, p->token.string.len); if (is_type_polymorphic(p->type)) { type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); write_type_to_canonical_string(w, p->type); } type_writer_appendc(w, CANONICAL_NAME_SEPARATOR); } else if (e->pkg && (scope_lookup_current(e->pkg->scope, e->token.string) == e)) { type_writer_append(w, e->pkg->name.text, e->pkg->name.len); if (e->pkg->name == "llvm") { type_writer_appendc(w, "$"); } type_writer_appendc(w, CANONICAL_NAME_SEPARATOR); } else { String file_name = filename_without_directory(e->file->fullpath); type_writer_append(w, e->pkg->name.text, e->pkg->name.len); if (e->pkg->name == "llvm") { type_writer_appendc(w, "$"); } type_writer_append_fmt(w, CANONICAL_NAME_SEPARATOR "%.*s" CANONICAL_NAME_SEPARATOR, LIT(file_name)); } } else { GB_PANIC("TODO(bill): handle entity kind: %d", e->kind); } if (e->kind == Entity_Procedure && e->Procedure.is_anonymous) { String file_name = filename_without_directory(e->file->fullpath); type_writer_append_fmt(w, CANONICAL_ANON_PREFIX "_%.*s:%d", LIT(file_name), e->token.pos.offset); } else { type_writer_append(w, e->token.string.text, e->token.string.len); } if (is_type_polymorphic(e->type)) { type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); write_type_to_canonical_string(w, e->type); } type_writer_appendc(w, CANONICAL_NAME_SEPARATOR); return; } gb_internal void write_canonical_entity_name(TypeWriter *w, Entity *e) { GB_ASSERT(e != nullptr); if (e->token.string == "_") { GB_PANIC("_ string"); } if (e->token.string.len == 0) { GB_PANIC("empty string"); } if (e->kind == Entity_Variable) { bool is_foreign = e->Variable.is_foreign; bool is_export = e->Variable.is_export; if (e->Variable.link_name.len > 0) { type_writer_append(w, e->Variable.link_name.text, e->Variable.link_name.len); return; } else if (is_foreign || is_export) { type_writer_append(w, e->token.string.text, e->token.string.len); return; } } else if (e->kind == Entity_Procedure && e->Procedure.link_name.len > 0) { type_writer_append(w, e->Procedure.link_name.text, e->Procedure.link_name.len); return; } else if (e->kind == Entity_Procedure && e->Procedure.is_export) { type_writer_append(w, e->token.string.text, e->token.string.len); return; } bool write_scope_index_suffix = false; if (e->scope->flags & (ScopeFlag_Builtin)) { goto write_base_name; } else if ((e->scope->flags & (ScopeFlag_File | ScopeFlag_Pkg)) == 0 || e->flags & EntityFlag_NotExported) { Scope *s = e->scope; while ((s->flags & (ScopeFlag_Proc|ScopeFlag_File)) == 0 && s->decl_info == nullptr) { if (s->parent == nullptr) { break; } s = s->parent; } if (s->decl_info != nullptr && s->decl_info->entity) { Entity *parent = s->decl_info->entity; write_canonical_parent_prefix(w, parent); if (e->scope->index > 0) { write_scope_index_suffix = true; } goto write_base_name; } else if ((s->flags & ScopeFlag_File) && s->file != nullptr) { String file_name = filename_without_directory(s->file->fullpath); type_writer_append(w, e->pkg->name.text, e->pkg->name.len); if (e->pkg->name == "llvm") { type_writer_appendc(w, "$"); } type_writer_appendc(w, gb_bprintf(CANONICAL_NAME_SEPARATOR "[%.*s]" CANONICAL_NAME_SEPARATOR, LIT(file_name))); goto write_base_name; } else if (s->flags & (ScopeFlag_Builtin)) { goto write_base_name; } gb_printf_err("%s WEIRD ENTITY TYPE %s %u %p\n", token_pos_to_string(e->token.pos), type_to_string(e->type), s->flags, s->decl_info); auto const print_scope_flags = [](Scope *s) { if (s->flags & ScopeFlag_Pkg) gb_printf_err("Pkg "); if (s->flags & ScopeFlag_Builtin) gb_printf_err("Builtin "); if (s->flags & ScopeFlag_Global) gb_printf_err("Global "); if (s->flags & ScopeFlag_File) gb_printf_err("File "); if (s->flags & ScopeFlag_Init) gb_printf_err("Init "); if (s->flags & ScopeFlag_Proc) gb_printf_err("Proc "); if (s->flags & ScopeFlag_Type) gb_printf_err("Type "); if (s->flags & ScopeFlag_HasBeenImported) gb_printf_err("HasBeenImported "); if (s->flags & ScopeFlag_ContextDefined) gb_printf_err("ContextDefined "); gb_printf_err("\n"); }; print_scope_flags(s); GB_PANIC("weird entity %.*s", LIT(e->token.string)); } if (e->pkg != nullptr) { type_writer_append(w, e->pkg->name.text, e->pkg->name.len); type_writer_appendc(w, CANONICAL_NAME_SEPARATOR); } write_base_name: switch (e->kind) { case Entity_TypeName: { Type *params = nullptr; Entity *parent = type_get_polymorphic_parent(e->type, ¶ms); if (parent && (parent->token.string == e->token.string)) { type_writer_append(w, parent->token.string.text, parent->token.string.len); write_canonical_params(w, params); } else { type_writer_append(w, e->token.string.text, e->token.string.len); } } break; case Entity_Constant: // For debug symbols only /*fallthrough*/ case Entity_Procedure: case Entity_Variable: type_writer_append(w, e->token.string.text, e->token.string.len); if (is_type_polymorphic(e->type)) { type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); write_type_to_canonical_string(w, e->type); } break; default: GB_PANIC("TODO(bill): entity kind %d", e->kind); break; } if (write_scope_index_suffix) { GB_ASSERT(e != nullptr && e->scope != nullptr); type_writer_append_fmt(w, CANONICAL_NAME_SEPARATOR "$%d", e->scope->index); } return; } // NOTE(bill): This exists so that we deterministically hash a type by serializing it to a canonical string gb_internal void write_type_to_canonical_string(TypeWriter *w, Type *type) { if (type == nullptr) { type_writer_appendc(w, CANONICAL_NONE_TYPE); // none/void type return; } type = default_type(type); GB_ASSERT(!is_type_untyped(type)); switch (type->kind) { case Type_Basic: type_writer_append(w, type->Basic.name.text, type->Basic.name.len); return; case Type_Pointer: type_writer_appendb(w, '^'); write_type_to_canonical_string(w, type->Pointer.elem); return; case Type_MultiPointer: type_writer_appendc(w, "[^]"); write_type_to_canonical_string(w, type->Pointer.elem); return; case Type_SoaPointer: type_writer_appendc(w, "#soa^"); write_type_to_canonical_string(w, type->Pointer.elem); return; case Type_EnumeratedArray: if (type->EnumeratedArray.is_sparse) { type_writer_appendc(w, "#sparse"); } type_writer_appendb(w, '['); write_type_to_canonical_string(w, type->EnumeratedArray.index); type_writer_appendb(w, ']'); write_type_to_canonical_string(w, type->EnumeratedArray.elem); return; case Type_Array: type_writer_append_fmt(w, "[%lld]", cast(long long)type->Array.count); write_type_to_canonical_string(w, type->Array.elem); return; case Type_Slice: type_writer_appendc(w, "[]"); write_type_to_canonical_string(w, type->Array.elem); return; case Type_DynamicArray: type_writer_appendc(w, "[dynamic]"); write_type_to_canonical_string(w, type->DynamicArray.elem); return; case Type_SimdVector: type_writer_append_fmt(w, "#simd[%lld]", cast(long long)type->SimdVector.count); write_type_to_canonical_string(w, type->SimdVector.elem); return; case Type_Matrix: if (type->Matrix.is_row_major) { type_writer_appendc(w, "#row_major "); } type_writer_append_fmt(w, "matrix[%lld, %lld]", cast(long long)type->Matrix.row_count, cast(long long)type->Matrix.column_count); write_type_to_canonical_string(w, type->Matrix.elem); return; case Type_Map: type_writer_appendc(w, "map["); write_type_to_canonical_string(w, type->Map.key); type_writer_appendc(w, "]"); write_type_to_canonical_string(w, type->Map.value); return; case Type_Enum: type_writer_appendc(w, "enum"); if (type->Enum.base_type != nullptr) { type_writer_appendb(w, ' '); write_type_to_canonical_string(w, type->Enum.base_type); type_writer_appendb(w, ' '); } type_writer_appendb(w, '{'); for_array(i, type->Enum.fields) { Entity *f = type->Enum.fields[i]; GB_ASSERT(f->kind == Entity_Constant); if (i > 0) { type_writer_appendc(w, CANONICAL_FIELD_SEPARATOR); } type_writer_append(w, f->token.string.text, f->token.string.len); type_writer_appendc(w, "="); gbString s = exact_value_to_string(f->Constant.value, 1<<16); type_writer_append(w, s, gb_string_length(s)); gb_string_free(s); } type_writer_appendb(w, '}'); return; case Type_BitSet: type_writer_appendc(w, "bit_set["); if (type->BitSet.elem == nullptr) { type_writer_appendc(w, CANONICAL_NONE_TYPE); } else if (is_type_enum(type->BitSet.elem)) { write_type_to_canonical_string(w, type->BitSet.elem); } else { type_writer_append_fmt(w, "%lld", type->BitSet.lower); type_writer_append_fmt(w, CANONICAL_RANGE_OPERATOR); type_writer_append_fmt(w, "%lld", type->BitSet.upper); } if (type->BitSet.underlying != nullptr) { type_writer_appendc(w, ";"); write_type_to_canonical_string(w, type->BitSet.underlying); } type_writer_appendc(w, "]"); return; case Type_Union: type_writer_appendc(w, "union"); if (is_in_doc_writer() && type->Union.polymorphic_params) { write_canonical_params(w, type->Union.polymorphic_params); } switch (type->Union.kind) { case UnionType_no_nil: type_writer_appendc(w, "#no_nil"); break; case UnionType_shared_nil: type_writer_appendc(w, "#shared_nil"); break; } if (type->Union.custom_align != 0) { type_writer_append_fmt(w, "#align(%lld)", cast(long long)type->Union.custom_align); } type_writer_appendc(w, "{"); for_array(i, type->Union.variants) { Type *t = type->Union.variants[i]; if (i > 0) type_writer_appendc(w, CANONICAL_FIELD_SEPARATOR); write_type_to_canonical_string(w, t); } type_writer_appendc(w, "}"); return; case Type_Struct: if (type->Struct.soa_kind != StructSoa_None) { switch (type->Struct.soa_kind) { case StructSoa_Fixed: type_writer_append_fmt(w, "#soa[%lld]", cast(long long)type->Struct.soa_count); break; case StructSoa_Slice: type_writer_appendc(w, "#soa[]"); break; case StructSoa_Dynamic: type_writer_appendc(w, "#soa[dynamic]"); break; default: GB_PANIC("Unknown StructSoaKind"); break; } return write_type_to_canonical_string(w, type->Struct.soa_elem); } type_writer_appendc(w, "struct"); if (is_in_doc_writer() && type->Struct.polymorphic_params) { write_canonical_params(w, type->Struct.polymorphic_params); } if (type->Struct.is_packed) type_writer_appendc(w, "#packed"); if (type->Struct.is_raw_union) type_writer_appendc(w, "#raw_union"); if (type->Struct.custom_min_field_align != 0) type_writer_append_fmt(w, "#min_field_align(%lld)", cast(long long)type->Struct.custom_min_field_align); if (type->Struct.custom_max_field_align != 0) type_writer_append_fmt(w, "#max_field_align(%lld)", cast(long long)type->Struct.custom_max_field_align); if (type->Struct.custom_align != 0) type_writer_append_fmt(w, "#align(%lld)", cast(long long)type->Struct.custom_align); type_writer_appendb(w, '{'); for_array(i, type->Struct.fields) { Entity *f = type->Struct.fields[i]; GB_ASSERT(f->kind == Entity_Variable); if (i > 0) { type_writer_appendc(w, CANONICAL_FIELD_SEPARATOR); } type_writer_append(w, f->token.string.text, f->token.string.len); type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); write_type_to_canonical_string(w, f->type); String tag = {}; if (type->Struct.tags != nullptr) { tag = type->Struct.tags[i]; } if (tag.len != 0) { String s = quote_to_ascii(heap_allocator(), tag); type_writer_append(w, s.text, s.len); gb_free(heap_allocator(), s.text); } } type_writer_appendb(w, '}'); return; case Type_BitField: type_writer_appendc(w, "bit_field"); write_type_to_canonical_string(w, type->BitField.backing_type); type_writer_appendc(w, " {"); for (isize i = 0; i < type->BitField.fields.count; i++) { Entity *f = type->BitField.fields[i]; if (i > 0) { type_writer_appendc(w, CANONICAL_FIELD_SEPARATOR); } type_writer_append(w, f->token.string.text, f->token.string.len); type_writer_appendc(w, CANONICAL_TYPE_SEPARATOR); write_type_to_canonical_string(w, f->type); type_writer_appendc(w, CANONICAL_BIT_FIELD_SEPARATOR); type_writer_append_fmt(w, "%u", type->BitField.bit_sizes[i]); } type_writer_appendc(w, " }"); return; case Type_Proc: type_writer_appendc(w, "proc"); if (default_calling_convention() != type->Proc.calling_convention) { type_writer_appendc(w, "\""); type_writer_appendc(w, proc_calling_convention_strings[type->Proc.calling_convention]); type_writer_appendc(w, "\""); } write_canonical_params(w, type->Proc.params); if (type->Proc.result_count > 0) { type_writer_appendc(w, "->"); write_canonical_params(w, type->Proc.results); } return; case Type_Generic: if (is_in_doc_writer()) { type_writer_appendc(w, "$"); type_writer_append(w, type->Generic.name.text, type->Generic.name.len); type_writer_append_fmt(w, "-%lld", cast(long long)type->Generic.id); if (type->Generic.specialized) { type_writer_appendc(w, "/"); write_type_to_canonical_string(w, type->Generic.specialized); } } else if (type->Generic.specialized) { // If we have a specialized type, use that instead of panicking write_type_to_canonical_string(w, type->Generic.specialized); } else { // For unspecialized generics, use a generic placeholder string type_writer_appendc(w, "rawptr"); } return; case Type_Named: if (type->Named.type_name != nullptr) { write_canonical_entity_name(w, type->Named.type_name); return; } else { type_writer_append(w, type->Named.name.text, type->Named.name.len); } return; case Type_Tuple: type_writer_appendc(w, "params"); write_canonical_params(w, type); return; default: GB_PANIC("unknown type kind %d %.*s", type->kind, LIT(type_strings[type->kind])); break; } return; }