/* Extra femtoLisp builtin functions */ #include #include #include #include #include #include #include #include #include #include #include "llt.h" #include "flisp.h" size_t llength(value_t v) { size_t n = 0; while (iscons(v)) { n++; v = cdr_(v); } return n; } value_t list_nth(value_t l, size_t n) { while (n && iscons(l)) { l = cdr_(l); n--; } if (iscons(l)) return car_(l); return NIL; } value_t fl_print(value_t *args, u_int32_t nargs) { unsigned i; for (i=0; i < nargs; i++) print(ios_stdout, args[i], 0); ios_putc('\n', ios_stdout); return nargs ? args[nargs-1] : NIL; } value_t fl_princ(value_t *args, u_int32_t nargs) { unsigned i; for (i=0; i < nargs; i++) print(ios_stdout, args[i], 1); return nargs ? args[nargs-1] : NIL; } value_t fl_read(value_t *args, u_int32_t nargs) { (void)args; argcount("read", nargs, 0); return read_sexpr(ios_stdin); } value_t fl_load(value_t *args, u_int32_t nargs) { argcount("load", nargs, 1); return load_file(tostring(args[0], "load")); } value_t fl_exit(value_t *args, u_int32_t nargs) { if (nargs > 0) exit(tofixnum(args[0], "exit")); exit(0); return NIL; } extern value_t LAMBDA; value_t fl_setsyntax(value_t *args, u_int32_t nargs) { argcount("set-syntax", nargs, 2); symbol_t *sym = tosymbol(args[0], "set-syntax"); if (sym->syntax && (sym->syntax == TAG_CONST || isspecial(sym->syntax))) lerror(ArgError, "set-syntax: cannot define syntax for %s", symbol_name(args[0])); if (args[1] == NIL) { sym->syntax = 0; } else { if (!iscons(args[1]) || car_(args[1])!=LAMBDA) type_error("set-syntax", "function", args[1]); sym->syntax = args[1]; } return args[1]; } value_t fl_symbolsyntax(value_t *args, u_int32_t nargs) { argcount("symbol-syntax", nargs, 1); symbol_t *sym = tosymbol(args[0], "symbol-syntax"); // must avoid returning built-in syntax expanders, because they // don't behave like functions (they take their arguments directly // from the form rather than from the stack of evaluated arguments) if (sym->syntax == TAG_CONST || isspecial(sym->syntax)) return NIL; return sym->syntax; } static void syntax_env_assoc_list(symbol_t *root, value_t *pv) { while (root != NULL) { if (root->syntax && root->syntax != TAG_CONST && !isspecial(root->syntax)) { PUSH(fl_cons(tagptr(root,TAG_SYM), root->syntax)); *pv = fl_cons(POP(), *pv); } syntax_env_assoc_list(root->left, pv); root = root->right; } } static void global_env_assoc_list(symbol_t *root, value_t *pv) { while (root != NULL) { if (root->binding != UNBOUND) { PUSH(fl_cons(tagptr(root,TAG_SYM), root->binding)); *pv = fl_cons(POP(), *pv); } global_env_assoc_list(root->left, pv); root = root->right; } } extern symbol_t *symtab; value_t fl_syntax_env(value_t *args, u_int32_t nargs) { (void)args; argcount("syntax-environment", nargs, 0); PUSH(NIL); syntax_env_assoc_list(symtab, &Stack[SP-1]); return POP(); } value_t fl_global_env(value_t *args, u_int32_t nargs) { (void)args; argcount("environment", nargs, 0); PUSH(NIL); global_env_assoc_list(symtab, &Stack[SP-1]); return POP(); } extern value_t QUOTE; value_t fl_constantp(value_t *args, u_int32_t nargs) { argcount("constantp", nargs, 1); if (issymbol(args[0])) return (isconstant(args[0]) ? T : NIL); if (iscons(args[0])) { if (car_(args[0]) == QUOTE) return T; return NIL; } return T; } value_t fl_fixnum(value_t *args, u_int32_t nargs) { argcount("fixnum", nargs, 1); if (isfixnum(args[0])) return args[0]; if (iscvalue(args[0])) { cvalue_t *cv = (cvalue_t*)ptr(args[0]); long i; if (cv->flags.cstring) { char *pend; errno = 0; i = strtol(cv_data(cv), &pend, 0); if (*pend != '\0' || errno!=0) lerror(ArgError, "fixnum: invalid string"); return fixnum(i); } else if (valid_numtype(cv_numtype(cv))) { i = conv_to_long(cv_data(cv), cv_numtype(cv)); return fixnum(i); } } lerror(ArgError, "fixnum: cannot convert argument"); } value_t fl_truncate(value_t *args, u_int32_t nargs) { argcount("truncate", nargs, 1); if (isfixnum(args[0])) return args[0]; if (iscvalue(args[0])) { cvalue_t *cv = (cvalue_t*)ptr(args[0]); void *data = cv_data(cv); numerictype_t nt = cv_numtype(cv); if (valid_numtype(nt)) { double d; if (nt == T_FLOAT) d = (double)*(float*)data; else if (nt == T_DOUBLE) d = *(double*)data; else return args[0]; if (d > 0) return return_from_uint64((uint64_t)d); return return_from_int64((int64_t)d); } } type_error("truncate", "number", args[0]); } value_t fl_vector_alloc(value_t *args, u_int32_t nargs) { fixnum_t i; value_t f, v; if (nargs == 0) lerror(ArgError, "vector.alloc: too few arguments"); i = tofixnum(args[0], "vector.alloc"); if (i < 0) lerror(ArgError, "vector.alloc: invalid size"); if (nargs == 2) f = args[1]; else f = NIL; v = alloc_vector((unsigned)i, f==NIL); if (f != NIL) { int k; for(k=0; k < i; k++) vector_elt(v,k) = f; } return v; } value_t fl_time_now(value_t *args, u_int32_t nargs) { argcount("time.now", nargs, 0); (void)args; return mk_double(clock_now()); } static double value_to_double(value_t a, char *fname) { if (isfixnum(a)) return (double)numval(a); if (iscvalue(a)) { cvalue_t *cv = (cvalue_t*)ptr(a); numerictype_t nt = cv_numtype(cv); if (valid_numtype(nt)) return conv_to_double(cv_data(cv), nt); } type_error(fname, "number", a); } static value_t return_from_cstr(char *str) { size_t n = strlen(str); value_t v = cvalue_string(n); memcpy(cvalue_data(v), str, n); return v; } value_t fl_time_string(value_t *args, uint32_t nargs) { argcount("time.string", nargs, 1); double t = value_to_double(args[0], "time.string"); char buf[64]; timestring(t, buf, sizeof(buf)); return return_from_cstr(buf); } value_t fl_path_cwd(value_t *args, uint32_t nargs) { if (nargs > 1) argcount("path.cwd", nargs, 1); if (nargs == 0) { char buf[1024]; get_cwd(buf, sizeof(buf)); return return_from_cstr(buf); } char *ptr = tostring(args[0], "path.cwd"); if (set_cwd(ptr)) lerror(IOError, "could not cd to %s", ptr); return T; } value_t fl_os_getenv(value_t *args, uint32_t nargs) { argcount("os.getenv", nargs, 1); char *name = tostring(args[0], "os.getenv"); char *val = getenv(name); if (val == NULL) return NIL; if (*val == 0) return symbol_value(emptystringsym); return cvalue_pinned_cstring(val); } value_t fl_os_setenv(value_t *args, uint32_t nargs) { argcount("os.setenv", nargs, 2); char *name = tostring(args[0], "os.setenv"); int result; if (args[1] == NIL) { result = unsetenv(name); } else { char *val = tostring(args[1], "os.setenv"); result = setenv(name, val, 1); } if (result != 0) lerror(ArgError, "os.setenv: invalid environment variable"); return T; } value_t fl_rand(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; fixnum_t r; #ifdef BITS64 r = ((((uint64_t)random())<<32) | random()) & 0x1fffffffffffffffLL; #else r = random() & 0x1fffffff; #endif return fixnum(r); } value_t fl_rand32(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; ulong r = random(); #ifdef BITS64 return fixnum(r); #else if (fits_fixnum(r)) return fixnum(r); return mk_uint32(r); #endif } value_t fl_rand64(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; ulong r = (((uint64_t)random())<<32) | random(); #ifdef BITS64 if (fits_fixnum(r)) return fixnum(r); #endif return mk_uint64(r); } value_t fl_randd(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; return mk_double(rand_double()); } value_t fl_randf(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; return mk_float(rand_float()); } value_t fl_randn(value_t *args, u_int32_t nargs) { (void)args; (void)nargs; return mk_double(randn()); } extern void stringfuncs_init(); void builtins_init() { set(symbol("set-syntax"), guestfunc(fl_setsyntax)); set(symbol("symbol-syntax"), guestfunc(fl_symbolsyntax)); set(symbol("syntax-environment"), guestfunc(fl_syntax_env)); set(symbol("environment"), guestfunc(fl_global_env)); set(symbol("constantp"), guestfunc(fl_constantp)); set(symbol("print"), guestfunc(fl_print)); set(symbol("princ"), guestfunc(fl_princ)); set(symbol("read"), guestfunc(fl_read)); set(symbol("load"), guestfunc(fl_load)); set(symbol("exit"), guestfunc(fl_exit)); set(symbol("fixnum"), guestfunc(fl_fixnum)); set(symbol("truncate"), guestfunc(fl_truncate)); set(symbol("vector.alloc"), guestfunc(fl_vector_alloc)); set(symbol("time.now"), guestfunc(fl_time_now)); set(symbol("time.string"), guestfunc(fl_time_string)); set(symbol("rand"), guestfunc(fl_rand)); set(symbol("rand.uint32"), guestfunc(fl_rand32)); set(symbol("rand.uint64"), guestfunc(fl_rand64)); set(symbol("rand.double"), guestfunc(fl_randd)); set(symbol("rand.float"), guestfunc(fl_randf)); set(symbol("randn"), guestfunc(fl_randn)); set(symbol("path.cwd"), guestfunc(fl_path_cwd)); set(symbol("os.getenv"), guestfunc(fl_os_getenv)); set(symbol("os.setenv"), guestfunc(fl_os_setenv)); stringfuncs_init(); }