// Type infos and methods for Pointer types #include #include #include #include #include #include #include "integers.h" #include "metamethods.h" #include "tables.h" #include "text.h" #include "types.h" #include "util.h" public Text_t Pointer$as_text(const void *x, bool colorize, const TypeInfo_t *type) { __typeof(type->PointerInfo) ptr_info = type->PointerInfo; if (!x) { Text_t typename = generic_as_text(NULL, false, ptr_info.pointed); if (colorize) return Text$concat(Text("\x1b[34;1m"), Text$from_str(ptr_info.sigil), typename, Text("\x1b[m")); else return Text$concat(Text$from_str(ptr_info.sigil), typename); } const void *ptr = *(const void **)x; if (!ptr) { Text_t typename = generic_as_text(NULL, false, ptr_info.pointed); if (colorize) return Text$concat(Text("\x1b[34;1m!"), typename, Text("\x1b[m")); else return Text$concat(Text("!"), typename); } static const void *root = NULL; static Table_t pending = EMPTY_TABLE; bool top_level = (root == NULL); // Check for recursive references, so if `x.foo = x`, then it prints as // `@Foo{foo=@~1}` instead of overflowing the stack: if (top_level) { root = ptr; } else if (ptr == root) { Text_t text = Texts(Text$from_str(ptr_info.sigil), Text("~1")); return colorize ? Texts(Text("\x1b[34;1m"), text, Text("\x1b[m")) : text; } else { TypeInfo_t rec_table = *Table$info(type, &Int64$info); int64_t *id = Table$get(pending, x, &rec_table); if (id) { Text_t text = Texts(Text$from_str(ptr_info.sigil), Int64$value_as_text(*id)); return colorize ? Texts(Text("\x1b[34;1m"), text, Text("\x1b[m")) : text; } int64_t next_id = (int64_t)pending.entries.length + 2; Table$set(&pending, x, &next_id, &rec_table); } Text_t pointed = generic_as_text(ptr, colorize, ptr_info.pointed); if (top_level) { pending = (Table_t){}; // Restore root = NULL; } Text_t text; if (colorize) text = Text$concat(Text("\x1b[34;1m"), Text$from_str(ptr_info.sigil), Text("\x1b[m"), pointed); else text = Text$concat(Text$from_str(ptr_info.sigil), pointed); return text; } PUREFUNC public int32_t Pointer$compare(const void *x, const void *y, const TypeInfo_t *info) { (void)info; const void *xp = *(const void **)x, *yp = *(const void **)y; return (xp > yp) - (xp < yp); } PUREFUNC public bool Pointer$equal(const void *x, const void *y, const TypeInfo_t *info) { (void)info; const void *xp = *(const void **)x, *yp = *(const void **)y; return xp == yp; } PUREFUNC public bool Pointer$is_none(const void *x, const TypeInfo_t *info) { (void)info; return *(void **)x == NULL; } public void Pointer$serialize(const void *obj, FILE *out, Table_t *pointers, const TypeInfo_t *type) { void *ptr = *(void **)obj; assert(ptr != NULL); const TypeInfo_t ptr_to_int_table = {.size = sizeof(Table_t), .align = __alignof__(Table_t), .tag = TableInfo, .TableInfo.key = type, .TableInfo.value = &Int64$info}; int64_t *id_ptr = Table$get(*pointers, &ptr, &ptr_to_int_table); int64_t id; if (id_ptr) { id = *id_ptr; } else { id = (int64_t)pointers->entries.length + 1; Table$set(pointers, &ptr, &id, &ptr_to_int_table); } Int64$serialize(&id, out, pointers, &Int64$info); if (!id_ptr) _serialize(ptr, out, pointers, type->PointerInfo.pointed); } public void Pointer$deserialize(FILE *in, void *outval, List_t *pointers, const TypeInfo_t *type) { int64_t id = 0; Int64$deserialize(in, &id, pointers, &Int64$info); assert(id != 0); if (id > (int64_t)pointers->length) { void *obj = GC_MALLOC((size_t)type->PointerInfo.pointed->size); List$insert(pointers, &obj, I(0), sizeof(void *)); _deserialize(in, obj, pointers, type->PointerInfo.pointed); *(void **)outval = obj; } else { *(void **)outval = *(void **)(pointers->data + (id - 1) * pointers->stride); } }