#include "cbaselib.h" #include "cvm.h" #include "cvalue.h" #include "cobj.h" #include "cmem.h" int cosmoB_print(CState *state, int nargs, CValue *args) { for (int i = 0; i < nargs; i++) { CObjString *str = cosmoV_toString(state, args[i]); printf("%s", cosmoO_readCString(str)); } printf("\n"); return 0; // print doesn't return any args } int cosmoB_assert(CState *state, int nargs, CValue *args) { if (nargs != 1) { cosmoV_error(state, "assert() expected 1 argument, got %d!", nargs); return 0; // nothing pushed onto the stack to return } if (!IS_BOOLEAN(args[0])) { cosmoV_typeError(state, "assert()", "", "%s", cosmoV_typeStr(args[0])); return 0; } if (!cosmoV_readBoolean(args[0])) { // expression passed was false, error! cosmoV_error(state, "assert() failed!"); } // else do nothing :) return 0; } int cosmoB_type(CState *state, int nargs, CValue *args) { if (nargs != 1) { cosmoV_error(state, "type() expected 1 argument, got %d!", nargs); return 0; } // push the type string to the stack cosmoV_pushString(state, cosmoV_typeStr(args[0])); return 1; // 1 return value, the type string :D } int cosmoB_pcall(CState *state, int nargs, CValue *args) { if (nargs < 1) { cosmoV_error(state, "pcall() expected at least 1 argument!"); return 0; } // call the passed callable COSMOVMRESULT res = cosmoV_pcall(state, nargs-1, 1); // insert false before the result cosmo_insert(state, 0, cosmoV_newBoolean(res == COSMOVM_OK)); return 2; } int cosmoB_loadstring(CState *state, int nargs, CValue *args) { if (nargs < 1) { cosmoV_error(state, "loadstring() expected 1 argument, got %d!", nargs); return 0; } if (!IS_STRING(args[0])) { cosmoV_typeError(state, "loadstring()", "", "%s", cosmoV_typeStr(args[0])); return 0; } CObjString *str = cosmoV_readString(args[0]); bool res = cosmoV_compileString(state, str->str, ""); cosmo_insert(state, 0, cosmoV_newBoolean(res)); return 2; // , or } // ================================================================ [STRING.*] ================================================================ // string.sub int cosmoB_sSub(CState *state, int nargs, CValue *args) { if (nargs == 2) { if (!IS_STRING(args[0]) || !IS_NUMBER(args[1])) { cosmoV_typeError(state, "string.sub()", ", ", "%s, %s", cosmoV_typeStr(args[0]), cosmoV_typeStr(args[1])); return 0; } CObjString *str = cosmoV_readString(args[0]); cosmo_Number indx = cosmoV_readNumber(args[1]); // make sure we stay within memory if (indx < 0 || indx >= str->length) { cosmoV_error(state, "string.sub() expected index to be 0-%d, got %d!", str->length, indx); return 0; } cosmoV_pushLString(state, str->str + ((int)indx), str->length - ((int)indx)); } else if (nargs == 3) { if (!IS_STRING(args[0]) || !IS_NUMBER(args[1]) || !IS_NUMBER(args[2])) { cosmoV_typeError(state, "string.sub()", ", , ", "%s, %s, %s", cosmoV_typeStr(args[0]), cosmoV_typeStr(args[1]), cosmoV_typeStr(args[2])); return 0; } CObjString *str = cosmoV_readString(args[0]); cosmo_Number indx = cosmoV_readNumber(args[1]); cosmo_Number length = cosmoV_readNumber(args[2]); // make sure we stay within memory if (indx + length < 0 || indx + length >= str->length || indx < 0 || indx >= str->length) { cosmoV_error(state, "string.sub() expected subbed string goes out of bounds, max length is %d!", str->length); return 0; } cosmoV_pushLString(state, str->str + ((int)indx), ((int)length)); } else { cosmoV_error(state, "Expected 2 or 3 arguments, got %d!", nargs); return 0; } return 1; } void cosmoB_loadLibrary(CState *state) { const char *identifiers[] = { "print", "assert", "type", "pcall", "loadstring" }; CosmoCFunction baseLib[] = { cosmoB_print, cosmoB_assert, cosmoB_type, cosmoB_pcall, cosmoB_loadstring }; int i; for (i = 0; i < sizeof(identifiers)/sizeof(identifiers[0]); i++) { cosmoV_pushString(state, identifiers[i]); cosmoV_pushCFunction(state, baseLib[i]); } // register all the pushed c functions and the strings as globals cosmoV_register(state, i); // string.* cosmoV_pushString(state, "string"); // sub cosmoV_pushString(state, "sub"); cosmoV_pushCFunction(state, cosmoB_sSub); cosmoV_makeObject(state, 1); // string.* // grab the object from the stack and set the base protoObject StkPtr obj = cosmoV_getTop(state, 0); state->protoObjects[COBJ_STRING] = cosmoV_readObject(*obj); // register "string" to the global table cosmoV_register(state, 1); } // ================================================================ [DEBUG] ================================================================ int cosmoB_dsetProto(CState *state, int nargs, CValue *args) { if (nargs == 2) { CObj *obj = cosmoV_readObj(args[0]); // object to set proto too CObjObject *proto = cosmoV_readObject(args[1]); obj->proto = proto; // boom done } else { cosmoV_error(state, "Expected 2 parameters, got %d!", nargs); } return 0; // nothing } int cosmoB_dgetProto(CState *state, int nargs, CValue *args) { if (nargs != 1) { cosmoV_error(state, "Expected 1 argument, got %d!", nargs); } cosmoV_pushValue(state, cosmoV_newObj(cosmoV_readObject(args[0])->_obj.proto)); // just return the proto return 1; // 1 result } void cosmoB_loadDebug(CState *state) { // make __getter object for debug proto cosmoV_pushString(state, "__getter"); // key & value pair cosmoV_pushString(state, "__proto"); // key cosmoV_pushCFunction(state, cosmoB_dgetProto); // value cosmoV_makeTable(state, 1); // make __setter object cosmoV_pushString(state, "__setter"); cosmoV_pushString(state, "__proto"); cosmoV_pushCFunction(state, cosmoB_dsetProto); cosmoV_makeTable(state, 1); // we call makeObject leting it know there are 2 sets of key & value pairs on the stack cosmoV_makeObject(state, 2); // set debug protos to the debug object state->protoObjects[COBJ_OBJECT] = cosmoV_readObject(*cosmoV_pop(state)); }