return crc;
}
-uint16_t
+static uint16_t
ao_fec_crc(const uint8_t *bytes, uint8_t len)
{
uint16_t crc = AO_FEC_CRC_INIT;
struct ao_scheme_macro_stack *macro_stack;
-int
+static int
ao_scheme_macro_push(ao_poly p)
{
struct ao_scheme_macro_stack *m = macro_stack;
return 0;
}
-void
+static void
ao_scheme_macro_pop(void)
{
struct ao_scheme_macro_stack *m = macro_stack;
#define DBG_MACRO 0
#if DBG_MACRO
-int macro_scan_depth;
+static int macro_scan_depth;
-void indent(void)
+static void indent(void)
{
int i;
for (i = 0; i < macro_scan_depth; i++)
ao_poly
ao_has_macro(ao_poly p);
-ao_poly
+static ao_poly
ao_macro_test_get(ao_poly atom)
{
ao_poly *ref = ao_scheme_atom_ref(atom, NULL);
return AO_SCHEME_NIL;
}
-ao_poly
+static ao_poly
ao_is_macro(ao_poly p)
{
struct ao_scheme_builtin *builtin;
struct ao_scheme_lambda *lambda;
ao_poly ret;
- MACRO_DEBUG(indent(); printf ("is macro "); ao_scheme_poly_write(p); printf("\n"); ++macro_scan_depth);
+ MACRO_DEBUG(indent(); ao_scheme_printf ("is macro %v\n", p); ++macro_scan_depth);
switch (ao_scheme_poly_type(p)) {
case AO_SCHEME_ATOM:
if (ao_scheme_macro_push(p))
ret = AO_SCHEME_NIL;
break;
}
- MACRO_DEBUG(--macro_scan_depth; indent(); printf ("... "); ao_scheme_poly_write(ret); printf("\n"));
+ MACRO_DEBUG(--macro_scan_depth; indent(); ao_scheme_printf ("... %v\n", ret););
return ret;
}
if (p == AO_SCHEME_NIL)
return AO_SCHEME_NIL;
- MACRO_DEBUG(indent(); printf("has macro "); ao_scheme_poly_write(p); printf("\n"); ++macro_scan_depth);
+ MACRO_DEBUG(indent(); ao_scheme_printf("has macro %v\n", p); ++macro_scan_depth);
switch (ao_scheme_poly_type(p)) {
case AO_SCHEME_LAMBDA:
lambda = ao_scheme_poly_lambda(p);
- p = ao_has_macro(lambda->code);
+ p = ao_has_macro(ao_scheme_poly_cons(lambda->code)->cdr);
break;
case AO_SCHEME_CONS:
cons = ao_scheme_poly_cons(p);
list = cons->cdr;
p = AO_SCHEME_NIL;
- while (list != AO_SCHEME_NIL && ao_scheme_poly_type(list) == AO_SCHEME_CONS) {
+ while (ao_scheme_is_pair(list)) {
cons = ao_scheme_poly_cons(list);
m = ao_has_macro(cons->car);
if (m) {
p = AO_SCHEME_NIL;
break;
}
- MACRO_DEBUG(--macro_scan_depth; indent(); printf("... "); ao_scheme_poly_write(p); printf("\n"));
+ MACRO_DEBUG(--macro_scan_depth; indent(); ao_scheme_printf("... %v\n", p));
return p;
}
return 0;
}
-int
-ao_scheme_read_eval_abort(void)
+static int
+ao_scheme_read_eval_abort(FILE *read_file)
{
- ao_poly in, out = AO_SCHEME_NIL;
+ ao_poly in;
+
for(;;) {
- in = ao_scheme_read();
+ in = ao_scheme_read(read_file);
if (in == _ao_scheme_atom_eof)
break;
- out = ao_scheme_eval(in);
- if (ao_scheme_exception)
+ (void) ao_scheme_eval(in);
+ if (ao_scheme_exception) {
+ ao_scheme_fprintf(stderr, "make_const failed on %v\n", in);
return 0;
- ao_scheme_poly_write(out);
- putchar ('\n');
+ }
}
return 1;
}
static struct feature *enable;
static struct feature *disable;
-void
+static void
ao_scheme_add_feature(struct feature **list, char *name)
{
struct feature *feature = malloc (sizeof (struct feature) + strlen(name) + 1);
}
static bool
-ao_scheme_has_feature(struct feature *list, const char *name)
+_ao_scheme_has_feature(struct feature *list, const char *name, bool skip_undef)
{
+ if (skip_undef && !strcmp(name, "UNDEF"))
+ return false;
+
while (list) {
if (!strcmp(list->name, name))
return true;
return false;
}
+static bool
+ao_scheme_has_undef(struct feature *list)
+{
+ return _ao_scheme_has_feature(list, "UNDEF", false);
+}
+
+static bool
+ao_scheme_has_feature(struct feature *list, const char *name)
+{
+ return _ao_scheme_has_feature(list, name, true);
+}
+
static void
ao_scheme_add_features(struct feature **list, const char *names)
{
ao_poly val;
struct ao_scheme_atom *a;
struct ao_scheme_builtin *b;
+ struct feature *d;
int in_atom = 0;
char *out_name = NULL;
int c;
prev_func = _builtin_last;
target_func = 0;
+ b = NULL;
for (f = 0; f < (int) N_FUNC; f++) {
if (ao_scheme_has_feature(enable, funcs[f].feature) || !ao_scheme_has_feature(disable, funcs[f].feature)) {
if (funcs[f].func != prev_func) {
a = ao_scheme_atom_intern((char *) atoms[an].name);
}
- if (argv[optind]){
+ while (argv[optind]) {
in = fopen(argv[optind], "r");
if (!in) {
perror(argv[optind]);
exit(1);
}
+ if (!ao_scheme_read_eval_abort(in)) {
+ fprintf(stderr, "eval failed\n");
+ exit(1);
+ }
+ fclose(in);
+ optind++;
}
- if (!ao_scheme_read_eval_abort()) {
- fprintf(stderr, "eval failed\n");
- exit(1);
+
+ if (!ao_scheme_has_undef(enable) && ao_scheme_has_undef(disable)) {
+ struct ao_scheme_cons cons;
+
+ cons.car = _ao_scheme_atom_undef;
+ cons.cdr = AO_SCHEME_NIL;
+ ao_scheme_do_undef(&cons);
}
/* Reduce to referenced values */
val = ao_has_macro(vals->vals[f].val);
if (val != AO_SCHEME_NIL) {
- printf("error: function %s contains unresolved macro: ",
- ao_scheme_poly_atom(vals->vals[f].atom)->name);
- ao_scheme_poly_write(val);
- printf("\n");
+ fprintf(stderr, "error: function %s contains unresolved macro: ",
+ ao_scheme_poly_atom(vals->vals[f].atom)->name);
+ ao_scheme_poly_write(stderr, val, true);
+ fprintf(stderr, "\n");
exit(1);
}
fprintf(out, "/* Generated file, do not edit */\n\n");
+ for (d = disable; d; d = d->next)
+ fprintf(out, "#undef AO_SCHEME_FEATURE_%s\n", d->name);
+
fprintf(out, "#define AO_SCHEME_POOL_CONST %d\n", ao_scheme_top);
fprintf(out, "extern const uint8_t ao_scheme_const[AO_SCHEME_POOL_CONST] __attribute__((aligned(4)));\n");
fprintf(out, "#define ao_builtin_atoms 0x%04x\n", ao_scheme_atom_poly(ao_scheme_atoms));