#include "runtime.h" #include "refc_util.h" void missing_ffi() { fprintf(stderr, "Foreign function declared, but not defined.\n" "Cannot call missing FFI - aborting.\n"); exit(1); } void push_Arglist(Value_Arglist *arglist, Value *arg) { IDRIS2_REFC_VERIFY(arglist->filled < arglist->total, "unable to add more arguments to arglist"); arglist->args[arglist->filled] = newReference(arg); arglist->filled++; } Value *apply_closure(Value *_clos, Value *arg) { // create a new arg list Value_Arglist *oldArgs = ((Value_Closure *)_clos)->arglist; Value_Arglist *newArgs = newArglist(0, oldArgs->total); newArgs->filled = oldArgs->filled + 1; // add argument to new arglist for (int i = 0; i < oldArgs->filled; i++) { newArgs->args[i] = newReference(oldArgs->args[i]); } newArgs->args[oldArgs->filled] = newReference(arg); Value_Closure *clos = (Value_Closure *)_clos; // check if enough arguments exist if (newArgs->filled >= newArgs->total) { fun_ptr_t f = clos->f; while (1) { Value *retVal = f(newArgs); removeReference((Value *)newArgs); if (!retVal || retVal->header.tag != COMPLETE_CLOSURE_TAG) { return retVal; } f = ((Value_Closure *)retVal)->f; newArgs = ((Value_Closure *)retVal)->arglist; newArgs = (Value_Arglist *)newReference((Value *)newArgs); removeReference(retVal); } } return (Value *)makeClosureFromArglist(clos->f, newArgs); } Value *tailcall_apply_closure(Value *_clos, Value *arg) { // create a new arg list Value_Arglist *oldArgs = ((Value_Closure *)_clos)->arglist; Value_Arglist *newArgs = newArglist(0, oldArgs->total); newArgs->filled = oldArgs->filled + 1; // add argument to new arglist for (int i = 0; i < oldArgs->filled; i++) { newArgs->args[i] = newReference(oldArgs->args[i]); } newArgs->args[oldArgs->filled] = newReference(arg); Value_Closure *clos = (Value_Closure *)_clos; // check if enough arguments exist if (newArgs->filled >= newArgs->total) return (Value *)makeClosureFromArglist(clos->f, newArgs); return (Value *)makeClosureFromArglist(clos->f, newArgs); } int extractInt(Value *v) { switch (v->header.tag) { case INT8_TAG: return (int)((Value_Int8 *)v)->i8; case INT16_TAG: return (int)((Value_Int16 *)v)->i16; case INT32_TAG: return (int)((Value_Int32 *)v)->i32; case INT64_TAG: return (int)((Value_Int64 *)v)->i64; case INTEGER_TAG: return (int)mpz_get_si(((Value_Integer *)v)->i); case DOUBLE_TAG: return (int)((Value_Double *)v)->d; case CHAR_TAG: return (int)((Value_Char *)v)->c; default: return -1; } } Value *trampoline(Value *closure) { fun_ptr_t f = ((Value_Closure *)closure)->f; Value_Arglist *_arglist = ((Value_Closure *)closure)->arglist; Value_Arglist *arglist = (Value_Arglist *)newReference((Value *)_arglist); removeReference(closure); while (1) { Value *retVal = f(arglist); removeReference((Value *)arglist); if (!retVal || retVal->header.tag != COMPLETE_CLOSURE_TAG) { return retVal; } f = ((Value_Closure *)retVal)->f; arglist = ((Value_Closure *)retVal)->arglist; arglist = (Value_Arglist *)newReference((Value *)arglist); removeReference(retVal); } return NULL; }