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#include <assert.h>
#include <errno.h>
#include <limits.h>
#include <stdalign.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include "alloc.h"
#include "common.h"
#include "errors.h"
#include "parser.h"
#include "strview.h"
#if DEBUG
# define AST_DFLT_CAP (8)
# define AUX_DFLT_CAP (8)
#else
# define AST_DFLT_CAP (2048)
# define AUX_DFLT_CAP (128)
#endif
#define SIZE_WDTH (sizeof(size_t) * CHAR_BIT)
typedef idx_t parsefn(ast_t *, aux_t *, lexemes_t)
__attribute__((nonnull));
static parsefn parseblk, parseexpr, parsefunc, parseproto, parsestmt, parsetype;
static idx_t parsedecl(ast_t *, aux_t *, lexemes_t, bool)
__attribute__((nonnull));
static ast_t mkast(void);
/* Return a new index in AST where a node can be stored. This function
automatically resizes AST if it runs out of capacity. */
static idx_t astalloc(ast_t *ast)
__attribute__((nonnull));
/* Resize AST to the next power-of-2 capacity */
static void astresz(ast_t *ast)
__attribute__((nonnull));
/* TODO: Make thread-local? */
static size_t toksidx;
idx_t
fwdnode(ast_t ast, idx_t i)
{
while (likely(i < ast.len)) {
switch (ast.kinds[i]) {
case ASTBLK:
i = ast.kids[i].lhs == AST_EMPTY ? i + 1 : ast.kids[i].rhs;
break;
case ASTDECL:
i = ast.kids[i].rhs == AST_EMPTY ? ast.kids[i].lhs
: ast.kids[i].rhs;
break;
case ASTRET:
if (ast.kids[i].rhs == AST_EMPTY)
return i + 1;
i = ast.kids[i].rhs;
break;
case ASTBINADD:
case ASTBINSUB:
case ASTCDECL:
case ASTFN:
i = ast.kids[i].rhs;
break;
case ASTIDENT:
case ASTNUMLIT:
case ASTTYPE:
return i + 1;
case ASTFNPROTO:
assert("analyzer: Not reachable");
__builtin_unreachable();
}
}
return i;
}
ast_t
parsetoks(lexemes_t toks, aux_t *aux)
{
ast_t ast = mkast();
aux->buf = bufalloc(NULL, aux->cap = AUX_DFLT_CAP, sizeof(*aux->buf));
for (;;) {
(void)parsedecl(&ast, aux, toks, true);
if (toks.kinds[toksidx] == LEXEOF)
break;
}
return ast;
}
idx_t
parseblk(ast_t *ast, aux_t *aux, lexemes_t toks)
{
idx_t i = astalloc(ast);
ast->lexemes[i] = toksidx;
ast->kinds[i] = ASTBLK;
ast->kids[i].lhs = AST_EMPTY;
ast->kids[i].rhs = i;
if (toks.kinds[toksidx++] != LEXLBRACE)
err("parser: Expected left brace");
if (toks.kinds[toksidx] != LEXRBRACE) {
idx_t stmt = parsestmt(ast, aux, toks);
ast->kids[i].lhs = ast->kids[i].rhs = stmt;
}
while (toks.kinds[toksidx] != LEXRBRACE) {
idx_t stmt = parsestmt(ast, aux, toks);
ast->kids[i].rhs = stmt;
}
toksidx++; /* Eat rbrace */
return i;
}
idx_t
parsedecl(ast_t *ast, aux_t *aux, lexemes_t toks, bool toplvl)
{
idx_t i = astalloc(ast), j = aux->len++;
if (aux->len > aux->cap) {
aux->cap *= 2;
aux->buf = bufalloc(aux->buf, aux->cap, sizeof(*aux->buf));
}
aux->buf[j].decl.isstatic = toplvl;
if (toplvl && toks.kinds[toksidx] == LEXIDENT
&& strview_eq(SV("pub"), toks.strs[toksidx]))
{
aux->buf[j].decl.ispub = true;
ast->lexemes[i] = ++toksidx;
} else {
aux->buf[j].decl.ispub = false;
ast->lexemes[i] = toksidx;
}
if (toks.kinds[toksidx++] != LEXIDENT)
err("parser: Expected identifier");
if (toks.kinds[toksidx++] != LEXCOLON)
err("parser: Expected colon");
aux->buf[j].decl.type = toks.kinds[toksidx] == LEXIDENT
? parsetype(ast, aux, toks)
: AST_EMPTY;
ast->kids[i].lhs = j;
switch (toks.kinds[toksidx++]) {
case LEXSEMI:
if (aux->buf[j].decl.type == AST_EMPTY)
err("parser: No type provided in non-assigning declaration");
ast->kinds[i] = ASTDECL;
ast->kids[i].rhs = AST_EMPTY;
return i;
case LEXCOLON:
ast->kinds[i] = ASTCDECL;
break;
case LEXEQ:
ast->kinds[i] = ASTDECL;
break;
default:
err("parser: Expected colon, equals, or semicolon");
}
bool func = toks.kinds[toksidx] == LEXLPAR;
if (func && ast->kinds[i] == ASTDECL)
err("Cannot assign function to mutable variable");
idx_t rhs = (func ? parsefunc : parseexpr)(ast, aux, toks);
ast->kids[i].rhs = rhs;
if (!func && toks.kinds[toksidx++] != LEXSEMI)
err("parser: Expected semicolon");
return i;
}
idx_t
parsefunc(ast_t *ast, aux_t *aux, lexemes_t toks)
{
idx_t i = astalloc(ast);
ast->lexemes[i] = toksidx;
assert(toks.kinds[toksidx] == LEXLPAR);
ast->kinds[i] = ASTFN;
idx_t lhs = parseproto(ast, aux, toks);
idx_t rhs = parseblk(ast, aux, toks);
ast->kids[i].lhs = lhs;
ast->kids[i].rhs = rhs;
return i;
}
idx_t
parseexpr(ast_t *ast, aux_t *aux, lexemes_t toks)
{
(void)aux;
idx_t i = astalloc(ast);
ast->lexemes[i] = toksidx;
switch (toks.kinds[toksidx]) {
case LEXNUM:
toksidx++;
ast->kinds[i] = ASTNUMLIT;
break;
case LEXIDENT:
toksidx++;
ast->kinds[i] = ASTIDENT;
break;
default:
err("parser: Expected expression");
}
return i;
}
idx_t
parseproto(ast_t *ast, aux_t *aux, lexemes_t toks)
{
idx_t i = astalloc(ast);
ast->lexemes[i] = toksidx;
ast->kinds[i] = ASTFNPROTO;
ast->kids[i].lhs = AST_EMPTY;
if (toks.kinds[toksidx++] != LEXLPAR)
err("parser: Expected left parenthesis");
if (toks.kinds[toksidx++] != LEXRPAR)
err("parser: Expected right parenthesis");
idx_t rhs = toks.kinds[toksidx] == LEXIDENT ? parsetype(ast, aux, toks)
: AST_EMPTY;
ast->kids[i].rhs = rhs;
return i;
}
idx_t
parsestmt(ast_t *ast, aux_t *aux, lexemes_t toks)
{
idx_t i;
if (toks.kinds[toksidx] != LEXIDENT)
err("parser: Expected identifier");
strview_t sv = toks.strs[toksidx];
if (strview_eq(SV("return"), sv)) {
i = astalloc(ast);
ast->lexemes[i] = toksidx++;
ast->kinds[i] = ASTRET;
idx_t rhs = toks.kinds[toksidx] != LEXSEMI ? parseexpr(ast, aux, toks)
: AST_EMPTY;
ast->kids[i].rhs = rhs;
if (toks.kinds[toksidx++] != LEXSEMI)
err("parser: Expected semicolon");
} else if (toks.kinds[toksidx + 1] == LEXCOLON) {
i = parsedecl(ast, aux, toks, false);
} else {
err("parser: Invalid statement");
}
return i;
}
idx_t
parsetype(ast_t *ast, aux_t *aux, lexemes_t toks)
{
(void)aux;
idx_t i = astalloc(ast);
ast->kinds[i] = ASTTYPE;
ast->lexemes[i] = toksidx;
if (toks.kinds[toksidx++] != LEXIDENT)
err("parser: Expected type");
return i;
}
ast_t
mkast(void)
{
ast_t soa;
static_assert(AST_DFLT_CAP * sizeof(*soa.kinds) % alignof(idx_t) == 0,
"Additional padding is required to properly align LEXEMES");
static_assert(AST_DFLT_CAP * (sizeof(*soa.kinds) + sizeof(*soa.lexemes))
% alignof(pair_t)
== 0,
"Additional padding is required to properly align KIDS");
soa.len = 0;
soa.cap = AST_DFLT_CAP;
soa.kinds = bufalloc(NULL, soa.cap, AST_SOA_BLKSZ);
soa.lexemes = (void *)((char *)soa.kinds + soa.cap * sizeof(*soa.kinds));
soa.kids = (void *)((char *)soa.lexemes + soa.cap * sizeof(*soa.lexemes));
return soa;
}
void
astresz(ast_t *soa)
{
size_t ncap, pad1, pad2, newsz;
ptrdiff_t lexemes_off, kids_off;
lexemes_off = (char *)soa->lexemes - (char *)soa->kinds;
kids_off = (char *)soa->kids - (char *)soa->kinds;
/* The capacity is always going to be a power of 2, so checking for
overflow becomes pretty trivial */
if (unlikely((soa->cap >> (SIZE_WDTH - 1)) != 0)) {
errno = ENOMEM;
err("%s:", __func__);
}
ncap = soa->cap << 1;
/* Ensure that soa->lexemes is properly aligned */
pad1 = alignof(idx_t) - ncap % alignof(idx_t);
if (pad1 == alignof(idx_t))
pad1 = 0;
/* Ensure that soa->kids is properly aligned */
pad2 = alignof(pair_t)
- (ncap * (1 + sizeof(idx_t)) + pad1) % alignof(pair_t);
if (pad2 == alignof(pair_t))
pad2 = 0;
newsz = ncap * AST_SOA_BLKSZ + pad1 + pad2;
soa->kinds = bufalloc(soa->kinds, newsz, 1);
soa->lexemes = (void *)((char *)soa->kinds + ncap * sizeof(*soa->kinds)
+ pad1);
soa->kids = (void *)((char *)soa->lexemes + ncap * sizeof(*soa->lexemes)
+ pad2);
memmove(soa->kids, (char *)soa->kinds + kids_off,
soa->len * sizeof(*soa->kids));
memmove(soa->lexemes, (char *)soa->kinds + lexemes_off,
soa->len * sizeof(*soa->lexemes));
soa->cap = ncap;
}
idx_t
astalloc(ast_t *soa)
{
if (unlikely(soa->len == soa->cap))
astresz(soa);
return soa->len++;
}
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