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// This file defines how to compile enums
#include "../ast.h"
#include "../environment.h"
#include "../naming.h"
#include "../stdlib/tables.h"
#include "../stdlib/text.h"
#include "../typecheck.h"
#include "compilation.h"
Text_t compile_enum_typeinfo(env_t *env, const char *name, tag_ast_t *tags) {
// Compile member types and constructors:
Text_t member_typeinfos = EMPTY_TEXT;
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
if (!tag->fields) continue;
const char *tag_name = String(name, "$", tag->name);
type_t *tag_type = Table$str_get(*env->types, tag_name);
assert(tag_type && tag_type->tag == StructType);
member_typeinfos =
Texts(member_typeinfos, compile_struct_typeinfo(env, tag_type, tag_name, tag->fields, tag->secret, false));
}
int num_tags = 0;
for (tag_ast_t *t = tags; t; t = t->next)
num_tags += 1;
type_t *t = Table$str_get(*env->types, name);
const char *metamethods = is_packed_data(t) ? "PackedDataEnum$metamethods" : "Enum$metamethods";
Text_t info = namespace_name(env, env->namespace, Texts(name, "$$info"));
Text_t typeinfo =
Texts("public const TypeInfo_t ", info, " = {", (int64_t)type_size(t), "u, ", (int64_t)type_align(t),
"u, .metamethods=", metamethods, ", {.tag=EnumInfo, .EnumInfo={.name=\"", type_to_text(t),
"\", "
".num_tags=",
(int64_t)num_tags, ", .tags=(NamedType_t[]){");
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
const char *tag_type_name = String(name, "$", tag->name);
type_t *tag_type = Table$str_get(*env->types, tag_type_name);
if (tag_type && Match(tag_type, StructType)->fields)
typeinfo = Texts(typeinfo, "{\"", tag->name, "\", ", compile_type_info(tag_type), "}, ");
else typeinfo = Texts(typeinfo, "{\"", tag->name, "\"}, ");
}
typeinfo = Texts(typeinfo, "}}}};\n");
return Texts(member_typeinfos, typeinfo);
}
Text_t compile_enum_constructors(env_t *env, const char *name, tag_ast_t *tags) {
Text_t constructors = EMPTY_TEXT;
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
if (!tag->fields) continue;
Text_t arg_sig = EMPTY_TEXT;
for (arg_ast_t *field = tag->fields; field; field = field->next) {
type_t *field_t = get_arg_ast_type(env, field);
arg_sig = Texts(arg_sig, compile_declaration(field_t, Texts("$", field->name)));
if (field->next) arg_sig = Texts(arg_sig, ", ");
}
if (arg_sig.length == 0) arg_sig = Text("void");
Text_t type_name = namespace_name(env, env->namespace, Texts(name, "$$type"));
Text_t tagged_name = namespace_name(env, env->namespace, Texts(name, "$tagged$", tag->name));
Text_t tag_name = namespace_name(env, env->namespace, Texts(name, "$tag$", tag->name));
Text_t constructor_impl = Texts("public inline ", type_name, " ", tagged_name, "(", arg_sig, ") { return (",
type_name, "){.$tag=", tag_name, ", .", valid_c_name(tag->name), "={");
for (arg_ast_t *field = tag->fields; field; field = field->next) {
constructor_impl = Texts(constructor_impl, "$", field->name);
if (field->next) constructor_impl = Texts(constructor_impl, ", ");
}
constructor_impl = Texts(constructor_impl, "}}; }\n");
constructors = Texts(constructors, constructor_impl);
}
return constructors;
}
Text_t compile_enum_header(env_t *env, const char *name, tag_ast_t *tags) {
Text_t all_defs = EMPTY_TEXT;
Text_t none_name = namespace_name(env, env->namespace, Texts(name, "$none"));
Text_t enum_name = namespace_name(env, env->namespace, Texts(name, "$$enum"));
Text_t enum_tags = Texts("{ ", none_name, "=0, ");
assert(Table$str_get(*env->types, name));
bool has_any_tags_with_fields = false;
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
Text_t tag_name = namespace_name(env, env->namespace, Texts(name, "$tag$", tag->name));
enum_tags = Texts(enum_tags, tag_name);
if (tag->next) enum_tags = Texts(enum_tags, ", ");
has_any_tags_with_fields = has_any_tags_with_fields || (tag->fields != NULL);
}
enum_tags = Texts(enum_tags, " }");
if (!has_any_tags_with_fields) {
Text_t enum_def = Texts("enum ", enum_name, " ", enum_tags, ";\n");
Text_t info = namespace_name(env, env->namespace, Texts(name, "$$info"));
return Texts(enum_def, "extern const TypeInfo_t ", info, ";\n");
}
Text_t struct_name = namespace_name(env, env->namespace, Texts(name, "$$struct"));
Text_t enum_def = Texts("struct ", struct_name,
" {\n"
"enum ",
enum_tags,
" $tag;\n"
"union {\n");
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
if (!tag->fields) continue;
Text_t field_def = compile_struct_header(env, NewAST(tag->file, tag->start, tag->end, StructDef,
.name = Text$as_c_string(Texts(name, "$", tag->name)),
.fields = tag->fields));
all_defs = Texts(all_defs, field_def);
Text_t tag_type = namespace_name(env, env->namespace, Texts(name, "$", tag->name, "$$type"));
enum_def = Texts(enum_def, tag_type, " ", valid_c_name(tag->name), ";\n");
}
enum_def = Texts(enum_def, "};\n};\n");
all_defs = Texts(all_defs, enum_def);
Text_t info = namespace_name(env, env->namespace, Texts(name, "$$info"));
all_defs = Texts(all_defs, "extern const TypeInfo_t ", info, ";\n");
for (tag_ast_t *tag = tags; tag; tag = tag->next) {
if (!tag->fields) continue;
Text_t arg_sig = EMPTY_TEXT;
for (arg_ast_t *field = tag->fields; field; field = field->next) {
type_t *field_t = get_arg_ast_type(env, field);
arg_sig = Texts(arg_sig, compile_declaration(field_t, Texts("$", field->name)));
if (field->next) arg_sig = Texts(arg_sig, ", ");
}
if (arg_sig.length == 0) arg_sig = Text("void");
Text_t enum_type = namespace_name(env, env->namespace, Texts(name, "$$type"));
Text_t tagged_name = namespace_name(env, env->namespace, Texts(name, "$tagged$", tag->name));
Text_t constructor_def = Texts(enum_type, " ", tagged_name, "(", arg_sig, ");\n");
all_defs = Texts(all_defs, constructor_def);
}
return all_defs;
}
public
Text_t compile_empty_enum(type_t *t) {
DeclareMatch(enum_, t, EnumType);
tag_t *tag = enum_->tags;
assert(tag);
assert(tag->type);
if (Match(tag->type, StructType)->fields)
return Texts("((", compile_type(t), "){.$tag=", tag->tag_value, ", .", tag->name, "=", compile_empty(tag->type),
"})");
else if (enum_has_fields(t)) return Texts("((", compile_type(t), "){.$tag=", tag->tag_value, "})");
else return Texts("((", compile_type(t), ")", tag->tag_value, ")");
}
public
Text_t compile_enum_field_access(env_t *env, ast_t *ast) {
DeclareMatch(f, ast, FieldAccess);
type_t *fielded_t = get_type(env, f->fielded);
type_t *value_t = value_type(fielded_t);
DeclareMatch(e, value_t, EnumType);
for (tag_t *tag = e->tags; tag; tag = tag->next) {
if (streq(f->field, tag->name)) {
Text_t tag_name = namespace_name(e->env, e->env->namespace, Texts("tag$", tag->name));
if (tag->type != NULL && Match(tag->type, StructType)->fields) {
Text_t member = compile_maybe_incref(
env,
WrapAST(ast, InlineCCode,
.chunks = new (ast_list_t, WrapAST(ast, TextLiteral, Texts("_e.", tag->name))),
.type = tag->type),
tag->type);
return Texts("({ ", compile_declaration(value_t, Text("_e")), " = ",
compile_to_pointer_depth(env, f->fielded, 0, false), "; ", "_e.$tag == ", tag_name, " ? ",
promote_to_optional(tag->type, member), " : ", compile_none(tag->type), "; })");
} else if (fielded_t->tag == PointerType) {
Text_t fielded = compile_to_pointer_depth(env, f->fielded, 1, false);
return Texts("((", fielded, ")->$tag == ", tag_name, " ? OPTIONAL_EMPTY_STRUCT : NONE_EMPTY_STRUCT)");
} else if (enum_has_fields(value_t)) {
Text_t fielded = compile(env, f->fielded);
return Texts("((", fielded, ").$tag == ", tag_name, " ? OPTIONAL_EMPTY_STRUCT : NONE_EMPTY_STRUCT)");
} else {
Text_t fielded = compile(env, f->fielded);
return Texts("((", fielded, ") == ", tag_name, " ? OPTIONAL_EMPTY_STRUCT : NONE_EMPTY_STRUCT)");
}
}
}
code_err(ast, "The field '", f->field, "' is not a valid tag name of ", type_to_text(value_t));
}
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