#ifndef CSTATE_H
#define CSTATE_H

#include "cosmo.h"
#include "cvalue.h"
#include "cobj.h"
#include "ctable.h"

typedef struct CCallFrame {
    CObjClosure *closure;
    INSTRUCTION *pc;
    CValue* base;
} CCallFrame;

typedef enum IStringEnum {
    ISTRING_INIT,       // __init
    ISTRING_INDEX,      // __index
    ISTRING_NEWINDEX,   // __newindex
    ISTRING_GETTER,     // __getter
    ISTRING_SETTER,     // __setter
    ISTRING_ITER,       // __iter
    ISTRING_NEXT,       // __next
    ISTRING_RESERVED,   // __reserved
    ISTRING_MAX
} IStringEnum;

typedef struct ArrayCObj {
    CObj **array;
    int count;
    int capacity;
} ArrayCObj;

typedef struct CState {
    bool panic;
    int freezeGC; // when > 0, GC events will be ignored (for internal use)
    int frameCount;

    CObjObject *protoObj; // start met obj for all objects (NULL by default)
    CObj *objects; // tracks all of our allocated objects
    CObj *userRoots; // user definable roots, this holds CObjs that should be considered "roots", lets the VM know you are holding a reference to a CObj in your code
    ArrayCObj grayStack; // keeps track of which objects *haven't yet* been traversed in our GC, but *have been* found
    size_t allocatedBytes;
    size_t nextGC; // when allocatedBytes reaches this threshhold, trigger a GC event

    CObjUpval *openUpvalues; // tracks all of our still open (meaning still on the stack) upvalues
    CTable strings;
    CTable globals;

    CValue *top; // top of the stack
    CObjString *iStrings[ISTRING_MAX]; // strings used internally by the VM, eg. __init, __index & friends
    CCallFrame callFrame[FRAME_MAX]; // call frames
    CValue stack[STACK_MAX]; // stack
} CState;

COSMO_API CState *cosmoV_newState();
// expects 2*pairs values on the stack, each pair should consist of 1 key and 1 value
COSMO_API void cosmoV_register(CState *state, int pairs); 
COSMO_API void cosmoV_freeState(CState *state);
COSMO_API void cosmoV_printStack(CState *state);

#endif