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#include <assert.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "alloc.h"
#include "analyzer.h"
#include "common.h"
#include "errors.h"
#include "parser.h"
#include "types.h"
struct environ {
idx_t_ up;
struct declaration {
idx_t_ astidx;
} *buf;
size_t len, cap;
};
struct environs {
struct environ *buf;
size_t len, cap;
};
static struct environ *create_environments(struct ast, struct lexemes,
struct environs *, idx_t_, idx_t_,
arena *)
__attribute__((returns_nonnull, nonnull));
static void typecheckast(struct environs, struct type *, struct ast,
struct lexemes)
__attribute__((nonnull));
static idx_t_ typecheckdecl(struct environs, struct type *, struct ast,
struct lexemes, idx_t_, idx_t_)
__attribute__((nonnull));
static idx_t_ typecheckstmt(struct environs, struct type *, struct ast,
struct lexemes, idx_t_, idx_t_)
__attribute__((nonnull));
static idx_t_ typecheckexpr(struct environs, struct type *, struct ast,
struct lexemes, idx_t_, idx_t_)
__attribute__((nonnull));
static idx_t_ typecheckfn(struct environs, struct type *, struct ast,
struct lexemes, idx_t_, idx_t_)
__attribute__((nonnull));
static idx_t_ typecheckblk(struct environs, struct type *, struct ast,
struct lexemes, idx_t_, idx_t_)
__attribute__((nonnull));
static const struct type *typegrab(struct ast, struct lexemes, idx_t_)
__attribute__((returns_nonnull));
static bool typecompat(struct type, struct type);
/* Defined in primitives.gperf */
const struct type *typelookup(const uchar *, size_t)
__attribute__((nonnull));
struct type *
analyzeast(struct ast ast, struct lexemes toks)
{
arena a = NULL;
struct environs evs = {0};
struct type *types = bufalloc(NULL, ast.len, sizeof(*types));
memset(types, 0, ast.len * sizeof(*types));
create_environments(ast, toks, &evs, 0, ast.len - 1, &a);
typecheckast(evs, types, ast, toks);
arena_free(&a);
free(evs.buf);
return types;
}
struct environ *
create_environments(struct ast ast, struct lexemes toks, struct environs *evs,
idx_t_ beg, idx_t_ end, arena *a)
{
assert(evs != NULL);
if (evs->len == evs->cap) {
evs->cap = evs->cap == 0 ? 8 : evs->cap * 2;
evs->buf = bufalloc(evs->buf, evs->cap, sizeof(*evs->buf));
}
struct environ *ev = evs->buf + evs->len++;
*ev = (struct environ){.cap = 16};
ev->buf = arena_new(a, struct declaration, ev->cap);
for (idx_t_ i = beg; likely(i <= end); i++) {
switch (ast.kinds[i]) {
case ASTDECL:
if (beg != 0)
break;
__attribute__((fallthrough));
case ASTCDECL: {
struct declaration cd = {.astidx = i};
struct strview sv = toks.strs[ast.lexemes[i]];
/* TODO: Sorted insert and existence check */
for (size_t i = 0; i < ev->len; i++) {
struct strview sv2 = toks.strs[ast.lexemes[ev->buf[i].astidx]];
if (sv.len == sv2.len && memcmp(sv.p, sv2.p, sv.len) == 0) {
err("analyzer: Symbol ‘%.*s’ declared multiple times",
(int)sv.len, sv.p);
}
}
if (ev->len == ev->cap) {
ev->buf = arena_grow(a, ev->buf, struct declaration, ev->cap,
ev->cap * 2);
ev->cap *= 2;
}
ev->buf[ev->len++] = cd;
break;
}
case ASTBLK: {
idx_t_ lhs, rhs, up;
lhs = ast.kids[i].lhs;
rhs = ast.kids[i].rhs;
up = ev - evs->buf;
create_environments(ast, toks, evs, lhs, rhs, a)->up = up;
i = rhs;
break;
}
}
}
return ev;
}
void
typecheckast(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks)
{
for (idx_t_ i = 0; likely(i < ast.len);) {
assert(ast.kinds[i] == ASTDECL || ast.kinds[i] == ASTCDECL);
if (types[i].kind == TYPE_UNSET)
i = typecheckdecl(evs, types, ast, toks, 0, i);
else {
while (++i < ast.len && ast.kinds[i] != ASTDECL && ast.kinds[i] != ASTCDECL)
;
}
}
}
const struct type *
typegrab(struct ast ast, struct lexemes toks, idx_t_ i)
{
struct strview sv = toks.strs[ast.lexemes[i]];
const struct type *tp = typelookup(sv.p, sv.len);
if (tp == NULL)
err("analyzer: Unknown type ‘%.*s’", (int)sv.len, sv.p);
return tp;
}
idx_t_
typecheckdecl(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks, idx_t_ evi, idx_t_ i)
{
types[i].kind = TYPE_CHECKING;
struct pair p = ast.kids[i];
struct type ltype, rtype;
ltype.kind = TYPE_UNSET;
assert(p.rhs != AST_EMPTY);
if (p.lhs != AST_EMPTY)
ltype = *typegrab(ast, toks, p.lhs);
idx_t_ ni = typecheckexpr(evs, types, ast, toks, evi, p.rhs);
rtype = types[p.rhs];
if (ltype.kind == TYPE_UNSET)
ltype = rtype;
else if (!typecompat(ltype, rtype))
err("analyzer: Type mismatch");
types[i] = ltype;
return ni;
}
idx_t_
typecheckstmt(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks, idx_t_ evi, idx_t_ i)
{
switch (ast.kinds[i]) {
case ASTDECL:
case ASTCDECL:
return typecheckdecl(evs, types, ast, toks, evi, i);
case ASTRET: {
idx_t_ ni = typecheckexpr(evs, types, ast, toks, evi, ast.kids[i].rhs);
types[i] = types[ast.kids[i].rhs];
return ni;
}
}
assert(!"unreachable");
__builtin_unreachable();
}
idx_t_
typecheckexpr(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks, idx_t_ evi, idx_t_ i)
{
switch (ast.kinds[i]) {
case ASTNUMLIT:
types[i].kind = TYPE_NUM;
types[i].size = 0;
types[i].issigned = true;
return i + 1;
case ASTIDENT: {
struct environ ev = evs.buf[evi];
struct strview sv = toks.strs[ast.lexemes[i]];
for (;;) {
for (size_t j = 0; j < ev.len; j++) {
struct strview sv2 = toks.strs[ast.lexemes[ev.buf[j].astidx]];
if (sv.len != sv2.len || memcmp(sv.p, sv2.p, sv.len) != 0)
continue;
switch (types[j].kind) {
case TYPE_UNSET:
typecheckdecl(evs, types, ast, toks, evi, j);
break;
case TYPE_CHECKING:
err("analyzer: Circular definition of ‘%.*s’", (int)sv2.len,
sv2.p);
}
types[i] = types[j];
return i + 1;
}
if (evi == 0)
err("analyzer: Unknown constant ‘%.*s’", (int)sv.len, sv.p);
evi = ev.up;
}
}
case ASTFN:
return typecheckfn(evs, types, ast, toks, evi, i);
default:
err("analyzer: Unexpected AST kind %u", ast.kinds[i]);
__builtin_unreachable();
}
}
idx_t_
typecheckfn(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks, idx_t_ evi, idx_t_ i)
{
struct type t = {.kind = TYPE_FN};
struct pair p = ast.kids[i];
idx_t_ proto = p.lhs;
if (ast.kids[proto].rhs != AST_EMPTY)
t.ret = typegrab(ast, toks, ast.kids[proto].rhs);
types[i] = t;
idx_t_ ni = typecheckblk(evs, types, ast, toks, evi, p.rhs);
// if (!typecompat(types[i], types[p.rhs]))
// err("analyzer: Type mismatch");
return ni;
}
idx_t_
typecheckblk(struct environs evs, struct type *types, struct ast ast,
struct lexemes toks, idx_t_ evi, idx_t_ i)
{
struct pair p = ast.kids[i];
for (i = p.lhs; i <= p.rhs;)
i = typecheckstmt(evs, types, ast, toks, evi, i);
return i;
}
bool
typecompat(struct type lhs, struct type rhs)
{
if (rhs.kind == TYPE_FN)
return lhs.ret == rhs.ret;
if (lhs.kind == rhs.kind)
return true;
/* TODO: Need to actually parse it! 256 should not coerce to i8. */
if (rhs.kind == TYPE_NUM)
return true;
if (lhs.issigned != rhs.issigned)
return false;
return lhs.size >= rhs.size;
}
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