#include #include // PRIx64 #include #include #include // malloc #include #include // value.h typedef uint64_t Value; #define SIGN_BIT ((uint64_t)0x8000000000000000) #define QNAN ((uint64_t)0x7ffc000000000000) #define TAG_NIL 1 // 01. #define TAG_FALSE 2 // 10. #define TAG_TRUE 3 // 11. #define BOOL_VAL(b) ((b) ? TRUE_VAL : FALSE_VAL) #define FALSE_VAL ((Value)(uint64_t)(QNAN | TAG_FALSE)) #define TRUE_VAL ((Value)(uint64_t)(QNAN | TAG_TRUE)) #define NIL_VAL ((Value)(uint64_t)(QNAN | TAG_NIL)) #define NUMBER_VAL(num) numToValue(num) #define OBJ_VAL(obj) (Value)(SIGN_BIT | QNAN | (uint64_t)(uintptr_t)(obj)) #define IS_BOOL(value) (((value) | 1) == TRUE_VAL) #define IS_NIL(value) ((value) == NIL_VAL) #define IS_NUMBER(value) (((value) & QNAN) != QNAN) #define IS_OBJ(value) (((value) & (QNAN | SIGN_BIT)) == (QNAN | SIGN_BIT)) #define AS_BOOL(value) ((value) == TRUE_VAL) #define AS_NUMBER(value) valueToNum(value) #define AS_OBJ(value) ((Obj*)(uintptr_t)((value) & ~(SIGN_BIT | QNAN))) static inline double valueToNum(Value value) { double num; memcpy(&num, &value, sizeof(Value)); return num; } static inline Value numToValue(double num) { Value value; memcpy(&value, &num, sizeof(double)); return value; } typedef struct Obj Obj; typedef struct ObjString ObjString; // object.h #define OBJ_TYPE(value) (AS_OBJ(value)->type) #define IS_STRING(value) isObjType(value, OBJ_STRING) #define AS_STRING(value) ((ObjString*)AS_OBJ(value)) #define AS_CSTRING(value) (((ObjString*)AS_OBJ(value))->chars) typedef enum { // 他にも色々あるが、省略 OBJ_STRING, } ObjType; struct Obj { ObjType type; // bool isMarked; // struct Obj* next; }; struct ObjString { Obj obj; int length; char* chars; // uint32_t hash; }; #define ALLOCATE(type, count) \ (type*)reallocate(NULL, 0, sizeof(type) * (count)) #define reallocate(ptr, oldSize, newSize) realloc(ptr, newSize) #define ALLOCATE_OBJ(type, objectType) \ (type*)allocateObject(sizeof(type), objectType) static Obj* allocateObject(size_t size, ObjType type) { Obj* object = (Obj*)reallocate(NULL, 0, size); object->type = type; // object->isMarked = false; // object->next = vm.objects; // vm.objects = object; return object; } static ObjString* allocateString(char* chars, int length /*, uint32_t hash*/) { ObjString* string = ALLOCATE_OBJ(ObjString, OBJ_STRING); string->length = length; string->chars = chars; // string->hash = hash; // push(OBJ_VAL(string)); // tableSet(&vm.strings, string, NIL_VAL); // pop(); return string; } ObjString* copyString(const char* chars, int length) { // uint32_t hash = hashString(chars, length); // ObjString* interned = tableFindString(&vm.strings, chars, length, // hash); // if (interned != NULL) return interned; char* heapChars = ALLOCATE(char, length + 1); memcpy(heapChars, chars, length); heapChars[length] = '\0'; return allocateString(heapChars, length /*, hash*/); } void printObject(Value value) { switch (OBJ_TYPE(value)) { case OBJ_STRING: printf("\"%s\"", AS_CSTRING(value)); break; default: assert(false); break; } } void printValue(Value value) { printf("%016" PRIx64 ": ", value); if (IS_BOOL(value)) { printf(AS_BOOL(value) ? "true" : "false"); } else if (IS_NIL(value)) { printf("nil"); } else if (IS_NUMBER(value)) { printf("%g", AS_NUMBER(value)); } else if (IS_OBJ(value)) { printObject(value); } else { assert(!"illegal value"); } } int main(void) { char s[] = "Hello, world!"; Value str = OBJ_VAL(copyString(s, strlen(s))); Value values[] = { NIL_VAL, FALSE_VAL, TRUE_VAL, NUMBER_VAL(1.234), NUMBER_VAL(-0.789e5), NUMBER_VAL(0.0), NUMBER_VAL(1.0 / 0.0), NUMBER_VAL(-1.0 / 0.0), NUMBER_VAL(0.0 / 0.0), str, }; for (size_t i = 0; i < sizeof(values) / sizeof(*values); ++i) { printValue(values[i]); printf("\n"); } return 0; }