vm.c

# 3 "vm.c"
#include <stdarg.h>


#include <stdio.h>

#include <string.h>


#include <time.h>



#include "common.h"

#include "compiler.h"


#include "debug.h"


#include "object.h"
#include "memory.h"

#include "vm.h"
#include "natives.h"

VM vm;



static void resetStack() {
  vm.stackTop = vm.stack;

  vm.frameCount = 0;


  vm.openUpvalues = NULL;

}


void runtimeError(const char* format, ...) {
  va_list args;
  va_start(args, format);
  vfprintf(stderr, format, args);
  va_end(args);
  fputs("\n", stderr);
# 64 "vm.c"
  for (int i = vm.frameCount - 1; i >= 0; i--) {
    CallFrame* frame = &vm.frames[i];




    ObjFunction* function = frame->closure->function;

    size_t instruction = frame->ip - function->chunk.code - 1;
    fprintf(stderr, "[line %d] in ",
            function->chunk.lines[instruction]);
    if (function->name == NULL) {
      fprintf(stderr, "script\n");
    } else {
      fprintf(stderr, "%s()\n", function->name->chars);
    }
  }


  resetStack();
}



void defineNative(const char* name, NativeFn function) {
    push(OBJ_VAL(copyString(name, (int)strlen(name))));
    push(OBJ_VAL(newNative(function)));
    tableSet(&vm.globals, AS_STRING(vm.stack[0]), vm.stack[1]);
    pop();
    pop();
}

void defineNativeVoid(const char* name, NativeFnVoid function) {
    push(OBJ_VAL(copyString(name, (int)strlen(name))));
    push(OBJ_VAL(newNativeVoid(function)));
    tableSet(&vm.globals, AS_STRING(vm.stack[0]), vm.stack[1]);
    pop();
    pop();
}


void initVM() {

  resetStack();


  vm.objects = NULL;


  vm.bytesAllocated = 0;
  vm.nextGC = 1024 * 1024;



  vm.grayCount = 0;
  vm.grayCapacity = 0;
  vm.grayStack = NULL;



  initTable(&vm.globals);


  initTable(&vm.strings);




  vm.initString = NULL;

  vm.initString = copyString("init", 4);



 defineAllNatives();

}

void freeVM() {

  freeTable(&vm.globals);


  freeTable(&vm.strings);


  vm.initString = NULL;


  freeObjects();

}

void push(Value value) {
  *vm.stackTop = value;
  vm.stackTop++;
}


Value pop() {
  vm.stackTop--;
  return *vm.stackTop;
}


static Value peek(int distance) {
  return vm.stackTop[-1 - distance];
}






static bool call(ObjClosure* closure, int argCount) {







  if (argCount != closure->function->arity) {
    runtimeError("Expected %d arguments but got %d.",
        closure->function->arity, argCount);


    return false;
  }



  if (vm.frameCount == FRAMES_MAX) {
    runtimeError("Stack overflow.");
    return false;
  }


  CallFrame* frame = &vm.frames[vm.frameCount++];





  frame->closure = closure;
  frame->ip = closure->function->chunk.code;

  frame->slots = vm.stackTop - argCount - 1;
  return true;
}


static bool callValue(Value callee, int argCount) {
  if (IS_OBJ(callee)) {
    switch (OBJ_TYPE(callee)) {

      case OBJ_BOUND_METHOD: {
        ObjBoundMethod* bound = AS_BOUND_METHOD(callee);

        vm.stackTop[-argCount - 1] = bound->receiver;

        return call(bound->method, argCount);
      }


      case OBJ_CLASS: {
        ObjClass* klass = AS_CLASS(callee);
        vm.stackTop[-argCount - 1] = OBJ_VAL(newInstance(klass));

        Value initializer;
        if (tableGet(&klass->methods, vm.initString,
                     &initializer)) {
          return call(AS_CLOSURE(initializer), argCount);

        } else if (argCount != 0) {
          runtimeError("Expected 0 arguments but got %d.",
                       argCount);
          return false;

        }

        return true;
      }


      case OBJ_CLOSURE:
        return call(AS_CLOSURE(callee), argCount);






      case OBJ_NATIVE: {
        NativeFn native = AS_NATIVE(callee);
        Value result = native(argCount, vm.stackTop - argCount);
        vm.stackTop -= argCount + 1;
        push(result);
        return true;
      }

      default:
        break;
    }
  }
  runtimeError("Can only call functions and classes.");
  return false;
}


static bool invokeFromClass(ObjClass* klass, ObjString* name,
                            int argCount) {
  Value method;
  if (!tableGet(&klass->methods, name, &method)) {
    runtimeError("Undefined property '%s'.", name->chars);
    return false;
  }
  return call(AS_CLOSURE(method), argCount);
}


static bool invoke(ObjString* name, int argCount) {
  Value receiver = peek(argCount);


  if (!IS_INSTANCE(receiver)) {
    runtimeError("Only instances have methods.");
    return false;
  }


  ObjInstance* instance = AS_INSTANCE(receiver);


  Value value;
  if (tableGet(&instance->fields, name, &value)) {
    vm.stackTop[-argCount - 1] = value;
    return callValue(value, argCount);
  }


  return invokeFromClass(instance->klass, name, argCount);
}


static bool bindMethod(ObjClass* klass, ObjString* name) {
  Value method;
  if (!tableGet(&klass->methods, name, &method)) {
    runtimeError("Undefined property '%s'.", name->chars);
    return false;
  }

  ObjBoundMethod* bound = newBoundMethod(peek(0),
                                         AS_CLOSURE(method));
  pop();
  push(OBJ_VAL(bound));
  return true;
}


static ObjUpvalue* captureUpvalue(Value* local) {

  ObjUpvalue* prevUpvalue = NULL;
  ObjUpvalue* upvalue = vm.openUpvalues;
  while (upvalue != NULL && upvalue->location > local) {
    prevUpvalue = upvalue;
    upvalue = upvalue->next;
  }

  if (upvalue != NULL && upvalue->location == local) {
    return upvalue;
  }


  ObjUpvalue* createdUpvalue = newUpvalue(local);

  createdUpvalue->next = upvalue;

  if (prevUpvalue == NULL) {
    vm.openUpvalues = createdUpvalue;
  } else {
    prevUpvalue->next = createdUpvalue;
  }


  return createdUpvalue;
}


static void closeUpvalues(Value* last) {
  while (vm.openUpvalues != NULL &&
         vm.openUpvalues->location >= last) {
    ObjUpvalue* upvalue = vm.openUpvalues;
    upvalue->closed = *upvalue->location;
    upvalue->location = &upvalue->closed;
    vm.openUpvalues = upvalue->next;
  }
}


static void defineMethod(ObjString* name) {
  Value method = peek(0);
  ObjClass* klass = AS_CLASS(peek(1));
  tableSet(&klass->methods, name, method);
  pop();
}




static void concatenate() {





  ObjString* b = AS_STRING(peek(0));
  ObjString* a = AS_STRING(peek(1));


  int length = a->length + b->length;
  char* chars = ALLOCATE(char, length + 1);
  memcpy(chars, a->chars, a->length);
  memcpy(chars + a->length, b->chars, b->length);
  chars[length] = '\0';

  ObjString* result = takeString(chars, length);

  pop();
  pop();

  push(OBJ_VAL(result));
}


static InterpretResult run() {

  CallFrame* frame = &vm.frames[vm.frameCount - 1];




#define READ_BYTE() (*frame->ip++)
# 415 "vm.c"
#define READ_SHORT() \
    (frame->ip += 2, \
    (uint16_t)((frame->ip[-2] << 8) | frame->ip[-1]))






#define READ_CONSTANT() \
    (frame->closure->function->chunk.constants.values[READ_BYTE()])




#define READ_STRING() AS_STRING(READ_CONSTANT())
# 443 "vm.c"
#define BINARY_OP(valueType,op) \
    do { \
      if (!IS_NUMBER(peek(0)) || !IS_NUMBER(peek(1))) { \
        runtimeError("Operands must be numbers."); \
        return INTERPRET_RUNTIME_ERROR; \
      } \
      double b = AS_NUMBER(pop()); \
      double a = AS_NUMBER(pop()); \
      push(valueType(a op b)); \
    } while (false)

#define POWER_OP() \
 do { \
  if(!IS_NUMBER(peek(0)) || !IS_NUMBER(peek(1))) { \
   runtimeError("Operands must be numbers."); \
   return INTERPRET_RUNTIME_ERROR; \
  } \
  double b = AS_NUMBER(pop()); \
  double a = AS_NUMBER(pop()); \
  push(NUMBER_VAL(pow(a, b))); \
 } while (false)

  for (;;) {

#ifdef DEBUG_TRACE_EXECUTION

    printf("          ");
    for (Value* slot = vm.stack; slot < vm.stackTop; slot++) {
      printf("[ ");
      printValue(*slot);
      printf(" ]");
    }
    printf("\n");
# 486 "vm.c"
    disassembleInstruction(&frame->closure->function->chunk,
        (int)(frame->ip - frame->closure->function->chunk.code));

#endif


    uint8_t instruction;
    switch (instruction = READ_BYTE()) {

      case OP_CONSTANT: {
        Value constant = READ_CONSTANT();





        push(constant);

        break;
      }


      case OP_NIL: push(NIL_VAL); break;
      case OP_TRUE: push(BOOL_VAL(true)); break;
      case OP_FALSE: push(BOOL_VAL(false)); break;


      case OP_POP: pop(); break;


      case OP_GET_LOCAL: {
        uint8_t slot = READ_BYTE();




        push(frame->slots[slot]);

        break;
      }


      case OP_SET_LOCAL: {
        uint8_t slot = READ_BYTE();




        frame->slots[slot] = peek(0);

        break;
      }


      case OP_GET_GLOBAL: {
        ObjString* name = READ_STRING();
        Value value;
        if (!tableGet(&vm.globals, name, &value)) {
          runtimeError("Undefined variable '%s'.", name->chars);
          return INTERPRET_RUNTIME_ERROR;
        }
        push(value);
        break;
      }


      case OP_DEFINE_GLOBAL: {
        ObjString* name = READ_STRING();
        tableSet(&vm.globals, name, peek(0));
        pop();
        break;
      }


      case OP_SET_GLOBAL: {
        ObjString* name = READ_STRING();
        if (tableSet(&vm.globals, name, peek(0))) {
          tableDelete(&vm.globals, name);
          runtimeError("Undefined variable '%s'.", name->chars);
          return INTERPRET_RUNTIME_ERROR;
        }
        break;
      }


      case OP_GET_UPVALUE: {
        uint8_t slot = READ_BYTE();
        push(*frame->closure->upvalues[slot]->location);
        break;
      }


      case OP_SET_UPVALUE: {
        uint8_t slot = READ_BYTE();
        *frame->closure->upvalues[slot]->location = peek(0);
        break;
      }


      case OP_GET_PROPERTY: {

        if (!IS_INSTANCE(peek(0))) {
          runtimeError("Only instances have properties.");
          return INTERPRET_RUNTIME_ERROR;
        }


        ObjInstance* instance = AS_INSTANCE(peek(0));
        ObjString* name = READ_STRING();

        Value value;
        if (tableGet(&instance->fields, name, &value)) {
          pop();
          push(value);
          break;
        }
# 610 "vm.c"
        if (!bindMethod(instance->klass, name)) {
          return INTERPRET_RUNTIME_ERROR;
        }
        break;

      }


      case OP_SET_PROPERTY: {

        if (!IS_INSTANCE(peek(1))) {
          runtimeError("Only instances have fields.");
          return INTERPRET_RUNTIME_ERROR;
        }


        ObjInstance* instance = AS_INSTANCE(peek(1));
        tableSet(&instance->fields, READ_STRING(), peek(0));
        Value value = pop();
        pop();
        push(value);
        break;
      }


      case OP_GET_SUPER: {
        ObjString* name = READ_STRING();
        ObjClass* superclass = AS_CLASS(pop());

        if (!bindMethod(superclass, name)) {
          return INTERPRET_RUNTIME_ERROR;
        }
        break;
      }


      case OP_EQUAL: {
        Value b = pop();
        Value a = pop();
        push(BOOL_VAL(valuesEqual(a, b)));
        break;
      }


      case OP_GREATER: BINARY_OP(BOOL_VAL, >); break;
      case OP_LESS: BINARY_OP(BOOL_VAL, <); break;
# 670 "vm.c"
      case OP_ADD: {
        if (IS_STRING(peek(0)) && IS_STRING(peek(1))) {
          concatenate();
        } else if (IS_NUMBER(peek(0)) && IS_NUMBER(peek(1))) {
          double b = AS_NUMBER(pop());
          double a = AS_NUMBER(pop());
          push(NUMBER_VAL(a + b));
        } else {
          runtimeError(
              "Operands must be two numbers or two strings.");
          return INTERPRET_RUNTIME_ERROR;
        }
        break;
      }


      case OP_SUBTRACT: BINARY_OP(NUMBER_VAL, -); break;
      case OP_MULTIPLY: BINARY_OP(NUMBER_VAL, *); break;
      case OP_DIVIDE: BINARY_OP(NUMBER_VAL, /); break;
   case OP_POWER: POWER_OP(); break;


      case OP_NOT:
        push(BOOL_VAL(isFalsey(pop())));
        break;


      case OP_NEGATE:
        if (!IS_NUMBER(peek(0))) {
          runtimeError("Operand must be a number.");
          return INTERPRET_RUNTIME_ERROR;
        }
        push(NUMBER_VAL(-AS_NUMBER(pop())));
        break;


      case OP_PRINT: {
        printValue(pop());
        printf("\n");
        break;
      }


      case OP_JUMP: {
        uint16_t offset = READ_SHORT();




        frame->ip += offset;

        break;
      }


      case OP_JUMP_IF_FALSE: {
        uint16_t offset = READ_SHORT();




        if (isFalsey(peek(0))) frame->ip += offset;

        break;
      }


      case OP_LOOP: {
        uint16_t offset = READ_SHORT();




        frame->ip -= offset;

        break;
      }


      case OP_CALL: {
        int argCount = READ_BYTE();
        if (!callValue(peek(argCount), argCount)) {
          return INTERPRET_RUNTIME_ERROR;
        }

        frame = &vm.frames[vm.frameCount - 1];

        break;
      }


      case OP_INVOKE: {
        ObjString* method = READ_STRING();
        int argCount = READ_BYTE();
        if (!invoke(method, argCount)) {
          return INTERPRET_RUNTIME_ERROR;
        }
        frame = &vm.frames[vm.frameCount - 1];
        break;
      }


      case OP_SUPER_INVOKE: {
        ObjString* method = READ_STRING();
        int argCount = READ_BYTE();
        ObjClass* superclass = AS_CLASS(pop());
        if (!invokeFromClass(superclass, method, argCount)) {
          return INTERPRET_RUNTIME_ERROR;
        }
        frame = &vm.frames[vm.frameCount - 1];
        break;
      }


      case OP_CLOSURE: {
        ObjFunction* function = AS_FUNCTION(READ_CONSTANT());
        ObjClosure* closure = newClosure(function);
        push(OBJ_VAL(closure));

        for (int i = 0; i < closure->upvalueCount; i++) {
          uint8_t isLocal = READ_BYTE();
          uint8_t index = READ_BYTE();
          if (isLocal) {
            closure->upvalues[i] =
                captureUpvalue(frame->slots + index);
          } else {
            closure->upvalues[i] = frame->closure->upvalues[index];
          }
        }

        break;
      }


      case OP_CLOSE_UPVALUE:
        closeUpvalues(vm.stackTop - 1);
        pop();
        break;

      case OP_RETURN: {
# 821 "vm.c"
        Value result = pop();

        closeUpvalues(frame->slots);

        vm.frameCount--;
        if (vm.frameCount == 0) {
          pop();
          return INTERPRET_OK;
        }

        vm.stackTop = frame->slots;
        push(result);
        frame = &vm.frames[vm.frameCount - 1];
        break;

      }

      case OP_CLASS:
        push(OBJ_VAL(newClass(READ_STRING())));
        break;


      case OP_INHERIT: {
        Value superclass = peek(1);

        if (!IS_CLASS(superclass)) {
          runtimeError("Superclass must be a class.");
          return INTERPRET_RUNTIME_ERROR;
        }


        ObjClass* subclass = AS_CLASS(peek(0));
        tableAddAll(&AS_CLASS(superclass)->methods,
                    &subclass->methods);
        pop();
        break;
      }


      case OP_METHOD:
        defineMethod(READ_STRING());
        break;

    }
  }

#undef READ_BYTE

#undef READ_SHORT


#undef READ_CONSTANT


#undef READ_STRING


#undef BINARY_OP

#undef POWER_OP
}


void hack(bool b) {


  run();
  if (b) hack(false);
}
# 899 "vm.c"
InterpretResult interpret(const char* source) {
# 915 "vm.c"
  ObjFunction* function = compile(source);
  if (function == NULL) return INTERPRET_COMPILE_ERROR;

  push(OBJ_VAL(function));
# 930 "vm.c"
  ObjClosure* closure = newClosure(function);
  pop();
  push(OBJ_VAL(closure));
  call(closure, 0);
# 944 "vm.c"
  return run();


}