static void type_err(struct parse_context *c,
char *fmt, struct exec *loc,
struct type *t1, int rules, struct type *t2);
+ static void tok_err(struct parse_context *c, char *fmt, struct token *t);
###### core functions
passed by reference. It has `Efail` set when an error is found, and
`Eretry` when the type for some element is set via propagation. If
any expression cannot be evaluated immediately, `Enoconst` is set.
+If the expression can be copied, `Emaycopy` is set.
If it remains unchanged at `0`, then no more propagation is needed.
###### ast
enum val_rules {Rnolabel = 1<<0, Rboolok = 1<<1, Rnoconstant = 1<<2};
- enum prop_err {Efail = 1<<0, Eretry = 1<<1, Enoconst = 1<<2};
+ enum prop_err {Efail = 1<<0, Eretry = 1<<1, Enoconst = 1<<2,
+ Emaycopy = 1<<3};
###### format cases
case 'r':
struct type {
struct text name;
struct type *next;
+ struct token first_use;
int size, align;
int anon;
void (*init)(struct type *type, struct value *val);
- void (*prepare_type)(struct parse_context *c, struct type *type, int parse_time);
+ int (*prepare_type)(struct parse_context *c, struct type *type, int parse_time);
void (*print)(struct type *type, struct value *val, FILE *f);
void (*print_type)(struct type *type, FILE *f);
int (*cmp_order)(struct type *t1, struct type *t2,
int (*cmp_eq)(struct type *t1, struct type *t2,
struct value *v1, struct value *v2);
void (*dup)(struct type *type, struct value *vold, struct value *vnew);
+ int (*test)(struct type *type, struct value *val);
void (*free)(struct type *type, struct value *val);
void (*free_type)(struct type *t);
long long (*to_int)(struct value *v);
struct type *n;
n = calloc(1, sizeof(*n));
- *n = *proto;
+ if (proto)
+ *n = *proto;
+ else
+ n->size = -1;
n->name = s;
n->anon = anon;
n->next = c->typelist;
static void prepare_types(struct parse_context *c)
{
struct type *t;
+ int retry = 1;
+ enum { none, some, cannot } progress = none;
- for (t = c->typelist; t; t = t->next)
- if (t->prepare_type)
- t->prepare_type(c, t, 1);
+ while (retry) {
+ retry = 0;
+
+ for (t = c->typelist; t; t = t->next) {
+ if (t->size < 0)
+ tok_err(c, "error: type used but not declared",
+ &t->first_use);
+ if (t->size == 0 && t->prepare_type) {
+ if (t->prepare_type(c, t, 1))
+ progress = some;
+ else if (progress == cannot)
+ tok_err(c, "error: type has recursive definition",
+ &t->first_use);
+ else
+ retry = 1;
+ }
+ }
+ switch (progress) {
+ case cannot:
+ retry = 0; break;
+ case none:
+ progress = cannot; break;
+ case some:
+ progress = none; break;
+ }
+ }
}
###### forward decls
$*type
Type -> IDENTIFIER ${
- $0 = find_type(c, $1.txt);
+ $0 = find_type(c, $ID.txt);
if (!$0) {
- tok_err(c,
- "error: undefined type", &$1);
-
- $0 = Tnone;
+ $0 = add_type(c, $ID.txt, NULL);
+ $0->first_use = $ID;
}
}$
## type grammar
static void _free_value(struct type *type, struct value *v);
+ static int bool_test(struct type *type, struct value *v)
+ {
+ return v->bool;
+ }
+
static struct type base_prototype = {
.init = _val_init,
.print = _print_value,
###### context initialization
Tbool = add_base_type(&context, "Boolean", Vbool, sizeof(char));
+ Tbool->test = bool_test;
Tstr = add_base_type(&context, "string", Vstr, sizeof(struct text));
Tnum = add_base_type(&context, "number", Vnum, sizeof(mpq_t));
Tnone = add_base_type(&context, "none", Vnone, 0);
###### value functions
- static void array_prepare_type(struct parse_context *c, struct type *type,
+ static int array_prepare_type(struct parse_context *c, struct type *type,
int parse_time)
{
struct value *vsize;
mpz_t q;
if (type->array.static_size)
- return;
+ return 1; // UNTESTED
if (type->array.unspec && parse_time)
- return;
+ return 1; // UNTESTED
if (parse_time && type->array.vsize && !type->array.vsize->global)
- return;
+ return 1; // UNTESTED
if (type->array.vsize) {
vsize = var_value(c, type->array.vsize);
if (!vsize)
- return; // UNTESTED
+ return 1; // UNTESTED
mpz_init(q);
mpz_tdiv_q(q, mpq_numref(vsize->num), mpq_denref(vsize->num));
type->array.size = mpz_get_si(q);
mpz_clear(q);
}
+ if (!parse_time)
+ return 1;
+ if (type->array.member->size <= 0)
+ return 0; // UNTESTED
- if (parse_time && type->array.member->size) {
- type->array.static_size = 1;
- type->size = type->array.size * type->array.member->size;
- type->align = type->array.member->align;
- }
+ type->array.static_size = 1;
+ type->size = type->array.size * type->array.member->size;
+ type->align = type->array.member->align;
+
+ return 1;
}
static void array_init(struct type *type, struct value *val)
free_fieldlist(t->structure.field_list);
}
- static void structure_prepare_type(struct parse_context *c,
- struct type *t, int parse_time)
+ static int structure_prepare_type(struct parse_context *c,
+ struct type *t, int parse_time)
{
int cnt = 0;
struct fieldlist *f;
if (!parse_time || t->structure.fields)
- return;
+ return 1;
for (f = t->structure.field_list; f; f=f->prev) {
enum prop_err perr;
cnt += 1;
+ if (f->f.type->size <= 0)
+ return 0;
if (f->f.type->prepare_type)
- f->f.type->prepare_type(c, f->f.type, 1);
+ f->f.type->prepare_type(c, f->f.type, parse_time);
+
if (f->init == NULL)
continue;
do {
f = f->prev;
}
+ return 1;
}
static struct type structure_prototype = {
###### top level grammar
DeclareStruct -> struct IDENTIFIER FieldBlock Newlines ${ {
- struct type *t =
- add_type(c, $2.txt, &structure_prototype);
+ struct type *t;
+ t = find_type(c, $ID.txt);
+ if (!t)
+ t = add_type(c, $ID.txt, &structure_prototype);
+ else if (t->size >= 0) {
+ tok_err(c, "error: type already declared", &$ID);
+ tok_err(c, "info: this is location of declartion", &t->first_use);
+ /* Create a new one - duplicate */
+ t = add_type(c, $ID.txt, &structure_prototype);
+ } else {
+ struct type tmp = *t;
+ *t = structure_prototype;
+ t->name = tmp.name;
+ t->next = tmp.next;
+ }
t->structure.field_list = $<FB;
+ t->first_use = $ID;
} }$
$*fieldlist
}
*perr |= Enoconst;
v->var->type->check_args(c, perr, v->var->type, args);
+ if (v->var->type->function.inline_result)
+ *perr |= Emaycopy;
return v->var->type->function.return_type;
}
### Expressions: Arithmetic etc.
The remaining expressions with the highest precedence are arithmetic,
-string concatenation, and string conversion. String concatenation
+string concatenation, string conversion, and testing. String concatenation
(`++`) has the same precedence as multiplication and division, but lower
than the uniary.
+Testing comes in two forms. A single question mark (`?`) is a uniary
+operator which converts come types into Boolean. The general meaning is
+"is this a value value" and there will be more uses as the language
+develops. A double questionmark (`??`) is a binary operator (Choose),
+with same precedence as multiplication, which returns the LHS if it
+tests successfully, else returns the RHS.
+
String conversion is a temporary feature until I get a better type
system. `$` is a prefix operator which expects a string and returns
a number.
###### Binode types
Plus, Minus,
Times, Divide, Rem,
- Concat,
- Absolute, Negate,
+ Concat, Choose,
+ Absolute, Negate, Test,
StringConv,
Bracket,
###### declare terminals
$LEFT + - Eop
- $LEFT * / % ++ Top
- $LEFT Uop $
+ $LEFT * / % ++ ?? Top
+ $LEFT Uop $ ?
$TERM ( )
###### expression grammar
Uop -> + ${ $0.op = Absolute; }$
| - ${ $0.op = Negate; }$
| $ ${ $0.op = StringConv; }$
+ | ? ${ $0.op = Test; }$
Top -> * ${ $0.op = Times; }$
| / ${ $0.op = Divide; }$
| % ${ $0.op = Rem; }$
| ++ ${ $0.op = Concat; }$
+ | ?? ${ $0.op = Choose; }$
###### print binode cases
case Plus:
case Divide:
case Concat:
case Rem:
+ case Choose:
if (bracket) printf("(");
print_exec(b->left, indent, bracket);
switch(b->op) {
case Divide: fputs(" / ", stdout); break;
case Rem: fputs(" % ", stdout); break;
case Concat: fputs(" ++ ", stdout); break;
+ case Choose: fputs(" ?? ", stdout); break;
default: abort(); // NOTEST
} // NOTEST
print_exec(b->right, indent, bracket);
case Absolute:
case Negate:
case StringConv:
+ case Test:
if (bracket) printf("(");
switch (b->op) {
case Absolute: fputs("+", stdout); break;
case Negate: fputs("-", stdout); break;
case StringConv: fputs("$", stdout); break;
+ case Test: fputs("?", stdout); break;
default: abort(); // NOTEST
} // NOTEST
print_exec(b->right, indent, bracket);
prog, type, 0, NULL);
return Tnum;
+ case Test:
+ /* LHS must support ->test, result is Tbool */
+ t = propagate_types(b->right, c, perr, NULL, 0);
+ if (!t || !t->test)
+ type_err(c, "error: '?' requires a testable value, not %1",
+ prog, t, 0, NULL);
+ return Tbool;
+
+ case Choose:
+ /* LHS and RHS must match and are returned. Must support
+ * ->test
+ */
+ t = propagate_types(b->left, c, perr, type, rules);
+ t = propagate_types(b->right, c, perr, t, rules);
+ if (t && t->test == NULL)
+ type_err(c, "error: \"??\" requires a testable value, not %1",
+ prog, t, 0, NULL);
+ return t;
+
case Bracket:
return propagate_types(b->right, c, perr, type, 0);
printf("Unsupported suffix: %.*s\n", tx.len, tx.txt); // UNTESTED
break;
+ case Test:
+ right = interp_exec(c, b->right, &rtype);
+ rvtype = Tbool;
+ rv.bool = !!rtype->test(rtype, &right);
+ break;
+ case Choose:
+ left = interp_exec(c, b->left, <ype);
+ if (ltype->test(ltype, &left)) {
+ rv = left;
+ rvtype = ltype;
+ ltype = NULL;
+ } else
+ rv = interp_exec(c, b->right, &rvtype);
+ break;
###### value functions
propagate_types(b->left, c, perr, t,
(b->op == Assign ? Rnoconstant : 0));
}
- if (t && t->dup == NULL && t->name.txt[0] != ' ') // HACK
+ if (t && t->dup == NULL && !(*perr & Emaycopy))
type_err(c, "error: cannot assign value of type %1", b, t, 0, NULL);
return Tnone;
* is a list for 'struct var'
*/
struct type *t = add_anon_type(c, &structure_prototype,
- " function result");
+ "function result");
int cnt = 0;
struct binode *b;