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struct Scope;
struct Checker;
struct Type;
struct DeclInfo;
struct meProcedure;
struct lbModule;
struct lbProcedure;
#define ENTITY_KINDS \
ENTITY_KIND(Invalid) \
ENTITY_KIND(Constant) \
ENTITY_KIND(Variable) \
ENTITY_KIND(TypeName) \
ENTITY_KIND(Procedure) \
ENTITY_KIND(ProcGroup) \
ENTITY_KIND(Builtin) \
ENTITY_KIND(ImportName) \
ENTITY_KIND(LibraryName) \
ENTITY_KIND(Nil) \
ENTITY_KIND(Label)
enum EntityKind {
#define ENTITY_KIND(k) GB_JOIN2(Entity_, k),
ENTITY_KINDS
#undef ENTITY_KIND
Entity_Count,
};
String const entity_strings[] = {
#define ENTITY_KIND(k) {cast(u8 *)#k, gb_size_of(#k)-1},
ENTITY_KINDS
#undef ENTITY_KIND
};
enum EntityFlag : u64 {
EntityFlag_Visited = 1ull<<0,
EntityFlag_Used = 1ull<<1,
EntityFlag_Using = 1ull<<2,
EntityFlag_Field = 1ull<<3,
EntityFlag_Param = 1ull<<4,
EntityFlag_Result = 1ull<<5,
EntityFlag_ArrayElem = 1ull<<6,
EntityFlag_ArraySwizzle = 1ull<<7,
EntityFlag_Ellipsis = 1ull<<8,
EntityFlag_NoAlias = 1ull<<9,
EntityFlag_TypeField = 1ull<<10,
EntityFlag_Value = 1ull<<11,
EntityFlag_Sret = 1ull<<12,
EntityFlag_ByVal = 1ull<<13,
EntityFlag_BitFieldValue = 1ull<<14,
EntityFlag_PolyConst = 1ull<<15,
EntityFlag_NotExported = 1ull<<16,
EntityFlag_ConstInput = 1ull<<17,
EntityFlag_Static = 1ull<<18,
EntityFlag_ImplicitReference = 1ull<<19, // NOTE(bill): equivalent to `const &` in C++
EntityFlag_SoaPtrField = 1ull<<20, // to allow s.x[0] where `s.x` is a pointer rather than a slice
EntityFlag_ProcBodyChecked = 1ull<<21,
EntityFlag_CVarArg = 1ull<<22,
EntityFlag_AutoCast = 1ull<<23,
EntityFlag_AnyInt = 1ull<<24,
EntityFlag_Disabled = 1ull<<25,
EntityFlag_Cold = 1ull<<26, // procedure is rarely called
EntityFlag_Lazy = 1ull<<27, // Lazily type checked
EntityFlag_ForValue = 1ull<<28,
EntityFlag_SwitchValue = 1ull<<29,
EntityFlag_Test = 1ull<<30,
EntityFlag_Init = 1ull<<31,
EntityFlag_Subtype = 1ull<<32,
EntityFlag_CustomLinkName = 1ull<<40,
EntityFlag_CustomLinkage_Internal = 1ull<<41,
EntityFlag_CustomLinkage_Strong = 1ull<<42,
EntityFlag_CustomLinkage_Weak = 1ull<<43,
EntityFlag_CustomLinkage_LinkOnce = 1ull<<44,
EntityFlag_Require = 1ull<<50,
EntityFlag_Overridden = 1ull<<63,
};
enum : u64 {
EntityFlags_IsSubtype = EntityFlag_Using|EntityFlag_Subtype,
};
enum EntityState : u32 {
EntityState_Unresolved = 0,
EntityState_InProgress = 1,
EntityState_Resolved = 2,
};
enum ParameterValueKind {
ParameterValue_Invalid,
ParameterValue_Constant,
ParameterValue_Nil,
ParameterValue_Location,
ParameterValue_Value,
};
struct ParameterValue {
ParameterValueKind kind;
Ast *original_ast_expr;
union {
ExactValue value;
Ast *ast_value;
};
};
bool has_parameter_value(ParameterValue const ¶m_value) {
if (param_value.kind != ParameterValue_Invalid) {
return true;
}
if (param_value.original_ast_expr != nullptr) {
return true;
}
return false;
}
enum EntityConstantFlags : u32 {
EntityConstantFlag_ImplicitEnumValue = 1<<0,
};
enum ProcedureOptimizationMode : u32 {
ProcedureOptimizationMode_Default,
ProcedureOptimizationMode_None,
ProcedureOptimizationMode_Minimal,
ProcedureOptimizationMode_Size,
ProcedureOptimizationMode_Speed,
};
BlockingMutex global_type_name_objc_metadata_mutex;
struct TypeNameObjCMetadataEntry {
String name;
Entity *entity;
};
struct TypeNameObjCMetadata {
BlockingMutex *mutex;
Array<TypeNameObjCMetadataEntry> type_entries;
Array<TypeNameObjCMetadataEntry> value_entries;
};
TypeNameObjCMetadata *create_type_name_obj_c_metadata() {
TypeNameObjCMetadata *md = gb_alloc_item(permanent_allocator(), TypeNameObjCMetadata);
md->mutex = gb_alloc_item(permanent_allocator(), BlockingMutex);
mutex_init(md->mutex);
array_init(&md->type_entries, heap_allocator());
array_init(&md->value_entries, heap_allocator());
return md;
}
// An Entity is a named "thing" in the language
struct Entity {
EntityKind kind;
u64 id;
std::atomic<u64> flags;
std::atomic<EntityState> state;
Token token;
Scope * scope;
Type * type;
std::atomic<Ast *> identifier; // Can be nullptr
DeclInfo * decl_info;
DeclInfo * parent_proc_decl; // nullptr if in file/global scope
AstFile * file;
AstPackage *pkg;
// TODO(bill): Cleanup how `using` works for entities
Entity * using_parent;
Ast * using_expr;
Entity * aliased_of;
lbModule * code_gen_module;
lbProcedure *code_gen_procedure;
meProcedure *me_procedure;
u64 order_in_src;
String deprecated_message;
String warning_message;
// IMPORTANT NOTE(bill): This must be a discriminated union because of patching
// later entity kinds
union {
struct {
u8 start;
} Dummy;
struct {
ExactValue value;
ParameterValue param_value;
u32 flags;
i32 field_group_index;
CommentGroup *docs;
CommentGroup *comment;
} Constant;
struct {
Ast *init_expr; // only used for some variables within procedure bodies
i32 field_index;
i32 field_group_index;
ParameterValue param_value;
String thread_local_model;
Entity * foreign_library;
Ast * foreign_library_ident;
String link_name;
String link_prefix;
String link_section;
CommentGroup *docs;
CommentGroup *comment;
bool is_foreign;
bool is_export;
} Variable;
struct {
Type * type_parameter_specialization;
String ir_mangled_name;
bool is_type_alias;
String objc_class_name;
TypeNameObjCMetadata *objc_metadata;
} TypeName;
struct {
u64 tags;
Entity *foreign_library;
Ast * foreign_library_ident;
String link_name;
String link_prefix;
DeferredProcedure deferred_procedure;
bool is_foreign;
bool is_export;
bool generated_from_polymorphic;
ProcedureOptimizationMode optimization_mode;
} Procedure;
struct {
Array<Entity *> entities;
} ProcGroup;
struct {
i32 id;
} Builtin;
struct {
String path;
String name;
Scope *scope;
} ImportName;
struct {
Slice<String> paths;
String name;
} LibraryName;
i32 Nil;
struct {
String name;
Ast *node;
Ast *parent;
} Label;
};
};
bool is_entity_kind_exported(EntityKind kind, bool allow_builtin = false) {
switch (kind) {
case Entity_Builtin:
return allow_builtin;
case Entity_ImportName:
case Entity_LibraryName:
case Entity_Nil:
return false;
}
return true;
}
bool is_entity_exported(Entity *e, bool allow_builtin = false) {
// TODO(bill): Determine the actual exportation rules for imports of entities
GB_ASSERT(e != nullptr);
if (!is_entity_kind_exported(e->kind, allow_builtin)) {
return false;
}
if (e->flags & EntityFlag_NotExported) {
return false;
}
if (e->file != nullptr && (e->file->flags & (AstFile_IsPrivatePkg|AstFile_IsPrivateFile)) != 0) {
return false;
}
String name = e->token.string;
switch (name.len) {
case 0: return false;
case 1: return name[0] != '_';
}
return true;
}
bool entity_has_deferred_procedure(Entity *e) {
GB_ASSERT(e != nullptr);
if (e->kind == Entity_Procedure) {
return e->Procedure.deferred_procedure.entity != nullptr;
}
return false;
}
gb_global std::atomic<u64> global_entity_id;
Entity *alloc_entity(EntityKind kind, Scope *scope, Token token, Type *type) {
gbAllocator a = permanent_allocator();
Entity *entity = gb_alloc_item(a, Entity);
entity->kind = kind;
entity->state = EntityState_Unresolved;
entity->scope = scope;
entity->token = token;
entity->type = type;
entity->id = 1 + global_entity_id.fetch_add(1);
return entity;
}
Entity *alloc_entity_variable(Scope *scope, Token token, Type *type, EntityState state = EntityState_Unresolved) {
Entity *entity = alloc_entity(Entity_Variable, scope, token, type);
entity->state = state;
return entity;
}
Entity *alloc_entity_using_variable(Entity *parent, Token token, Type *type, Ast *using_expr) {
GB_ASSERT(parent != nullptr);
token.pos = parent->token.pos;
Entity *entity = alloc_entity(Entity_Variable, parent->scope, token, type);
entity->using_parent = parent;
entity->parent_proc_decl = parent->parent_proc_decl;
entity->using_expr = using_expr;
entity->flags |= EntityFlag_Using;
entity->flags |= EntityFlag_Used;
entity->state = EntityState_Resolved;
return entity;
}
Entity *alloc_entity_constant(Scope *scope, Token token, Type *type, ExactValue value) {
Entity *entity = alloc_entity(Entity_Constant, scope, token, type);
entity->Constant.value = value;
return entity;
}
Entity *alloc_entity_type_name(Scope *scope, Token token, Type *type, EntityState state = EntityState_Unresolved) {
Entity *entity = alloc_entity(Entity_TypeName, scope, token, type);
entity->state = state;
return entity;
}
Entity *alloc_entity_param(Scope *scope, Token token, Type *type, bool is_using, bool is_value) {
Entity *entity = alloc_entity_variable(scope, token, type);
entity->flags |= EntityFlag_Used;
entity->flags |= EntityFlag_Param;
entity->state = EntityState_Resolved;
if (is_using) entity->flags |= EntityFlag_Using;
if (is_value) entity->flags |= EntityFlag_Value;
return entity;
}
Entity *alloc_entity_const_param(Scope *scope, Token token, Type *type, ExactValue value, bool poly_const) {
Entity *entity = alloc_entity_constant(scope, token, type, value);
entity->flags |= EntityFlag_Used;
if (poly_const) entity->flags |= EntityFlag_PolyConst;
entity->flags |= EntityFlag_Param;
return entity;
}
Entity *alloc_entity_field(Scope *scope, Token token, Type *type, bool is_using, i32 field_index, EntityState state = EntityState_Unresolved) {
Entity *entity = alloc_entity_variable(scope, token, type);
entity->Variable.field_index = field_index;
if (is_using) entity->flags |= EntityFlag_Using;
entity->flags |= EntityFlag_Field;
entity->state = state;
return entity;
}
Entity *alloc_entity_array_elem(Scope *scope, Token token, Type *type, i32 field_index) {
Entity *entity = alloc_entity_variable(scope, token, type);
entity->Variable.field_index = field_index;
entity->flags |= EntityFlag_Field;
entity->flags |= EntityFlag_ArrayElem;
entity->state = EntityState_Resolved;
return entity;
}
Entity *alloc_entity_procedure(Scope *scope, Token token, Type *signature_type, u64 tags) {
Entity *entity = alloc_entity(Entity_Procedure, scope, token, signature_type);
entity->Procedure.tags = tags;
return entity;
}
Entity *alloc_entity_proc_group(Scope *scope, Token token, Type *type) {
Entity *entity = alloc_entity(Entity_ProcGroup, scope, token, type);
return entity;
}
Entity *alloc_entity_builtin(Scope *scope, Token token, Type *type, i32 id) {
Entity *entity = alloc_entity(Entity_Builtin, scope, token, type);
entity->Builtin.id = id;
entity->state = EntityState_Resolved;
return entity;
}
Entity *alloc_entity_import_name(Scope *scope, Token token, Type *type,
String path, String name, Scope *import_scope) {
Entity *entity = alloc_entity(Entity_ImportName, scope, token, type);
entity->ImportName.path = path;
entity->ImportName.name = name;
entity->ImportName.scope = import_scope;
entity->state = EntityState_Resolved; // TODO(bill): Is this correct?
return entity;
}
Entity *alloc_entity_library_name(Scope *scope, Token token, Type *type,
Slice<String> paths, String name) {
Entity *entity = alloc_entity(Entity_LibraryName, scope, token, type);
entity->LibraryName.paths = paths;
entity->LibraryName.name = name;
entity->state = EntityState_Resolved; // TODO(bill): Is this correct?
return entity;
}
Entity *alloc_entity_nil(String name, Type *type) {
Entity *entity = alloc_entity(Entity_Nil, nullptr, make_token_ident(name), type);
return entity;
}
Entity *alloc_entity_label(Scope *scope, Token token, Type *type, Ast *node, Ast *parent) {
Entity *entity = alloc_entity(Entity_Label, scope, token, type);
entity->Label.node = node;
entity->Label.parent = parent;
entity->state = EntityState_Resolved;
return entity;
}
Entity *alloc_entity_dummy_variable(Scope *scope, Token token) {
token.string = str_lit("_");
return alloc_entity_variable(scope, token, nullptr);
}
Entity *entity_from_expr(Ast *expr);
Entity *strip_entity_wrapping(Entity *e) {
if (e == nullptr) {
return nullptr;
}
if (e->kind != Entity_Constant) {
return e;
}
if (e->Constant.value.kind == ExactValue_Procedure) {
return strip_entity_wrapping(e->Constant.value.value_procedure);
}
return e;
}
Entity *strip_entity_wrapping(Ast *expr) {
Entity *e = entity_from_expr(expr);
return strip_entity_wrapping(e);
}
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