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#include "parser.h"
#include <stdarg.h>
#include <string.h>
#include "dyn_arr.h"
#include "lex.h"
#include "val.h"
#include "vm.h"
#define parser_add_byte(p, byte) (proto_add_byte((p)->fp->proto, byte))
#define parser_add_const(p, c) (proto_add_const((p)->fp->proto, c))
#define parser_bytecode_len(p) (da_len((p)->fp->proto->bytecode))
enum precedence {
PREC_NONE,
PREC_ASSIGN, // =
PREC_EQL, // == !=
PREC_COMP, // < <= > >=
PREC_CONCAT,
PREC_TERM, // + -
PREC_FACTOR, // * / %
PREC_UNARY,
PREC_CALL, // ()
};
struct loop {
struct loop *outer;
int start;
int scope;
bool labeled;
struct token label;
int *breaks; // dyn_arr
};
struct variable {
struct token name;
int scope;
bool captured;
};
struct upval {
struct token name;
bool is_local;
u8 index;
};
struct func_parser {
struct func_parser *outer;
struct us_proto *proto;
struct upval *upvals; // dyn_arr
struct variable *locals; // dyn_arr
struct loop *loop;
int scope;
bool is_script;
};
struct parser {
struct lexer lex;
struct token prev;
struct token cur;
struct func_parser *fp;
bool can_assign;
bool had_err;
};
typedef void (*fn_parse)(struct parser *p);
struct expr {
fn_parse prefix;
fn_parse infix;
enum precedence prec;
};
static
void show_error(struct parser *p, struct token tok, const char *msg, ...)
{
if (tok.kind == TOKEN_EOF)
fprintf(stderr, "on line %d at EOF:\n\t", tok.line);
else
fprintf(stderr, "on line %d at '%.*s':\n\t", tok.line, tok.len, tok.start);
va_list args;
va_start(args, msg);
vfprintf(stderr, msg, args);
va_end(args);
putc('\n', stderr);
p->had_err = true;
}
static
void advance(struct parser *p)
{
p->prev = p->cur;
while (true) {
p->cur = lex_next_token(&p->lex);
// print_token(p->cur);
if (p->cur.kind != TOKEN_ERR)
break;
show_error(p, p->prev, p->cur.start);
};
}
static
int begin_jump(struct parser *p, u8 instruction)
{
parser_add_byte(p, instruction);
parser_add_byte(p, 0xFF);
parser_add_byte(p, 0xFF);
return parser_bytecode_len(p) - 2;
}
static
void end_jump(struct parser *p, int loc)
{
int jump = parser_bytecode_len(p) - loc - 2;
if (jump > UINT16_MAX)
show_error(p, p->prev, "jump too large");
p->fp->proto->bytecode[loc] = (jump >> 8) & 0xFF;
p->fp->proto->bytecode[loc+1] = jump & 0xFF;
}
static
void add_loop(struct parser *p, int loc)
{
int jump = parser_bytecode_len(p) - loc + 2;
if (jump > UINT16_MAX)
show_error(p, p->prev, "jump too large");
parser_add_byte(p, BC_LOOP);
parser_add_byte(p, (jump >> 8) & 0xFF);
parser_add_byte(p, jump & 0xFF);
}
static
bool consume(struct parser *p, u16 tok)
{
if (p->cur.kind != tok)
return false;
advance(p);
return true;
}
static
void expect(struct parser *p, u16 tok, const char *err)
{
if (p->cur.kind != tok) {
show_error(p, p->cur, err);
return;
}
advance(p);
}
static
void declare_variable(struct parser *p, struct token name)
{
if (da_len(p->fp->locals) > UINT8_MAX)
show_error(p, name, "too many locals");
struct variable slot;
slot.scope = p->fp->scope;
slot.name = name;
slot.captured = false;
da_append(struct variable, &p->fp->locals, slot);
}
static
int find_local(struct func_parser *fp, struct token name)
{
if (fp == NULL)
return -1;
for (int i = da_len(fp->locals) - 1; i >= 0; i--) {
struct variable local = fp->locals[i];
if (
name.len == local.name.len &&
memcmp(name.start, local.name.start, name.len) == 0
)
return i;
}
return -1;
}
static
int find_global(struct token name)
{
for (int i = da_len(vm.gstack) - 1; i >= 0; i--) {
struct global global = vm.gstack[i];
if (
(size_t)name.len == global.name->len &&
memcmp(name.start, global.name->chars, name.len) == 0
)
return i;
}
return -1;
}
static
int find_upval(struct parser *p, struct func_parser *fp, struct token name)
{
if (fp == NULL)
return -1;
for (int i = da_len(fp->upvals); i >= 0; i--) {
struct upval upval = fp->upvals[i];
if (
name.len == upval.name.len &&
memcmp(name.start, upval.name.start, name.len) == 0
)
return i;
}
// Didn't find one already captured in an outer scope. Try to find a
// local variable.
int local = find_local(fp->outer, name);
if (local != -1) {
fp->outer->locals[local].captured = true;
struct upval upval;
upval.name = name;
upval.is_local = true;
upval.index = local;
da_append(
struct upval,
&fp->upvals,
upval
);
fp->proto->upvalc++;
return da_len(fp->upvals) - 1;
}
// Didn't find an already captured upval. Try to capture one from an
// outer scope.
int outer = find_upval(p, fp->outer, name);
if (outer != -1) {
struct upval upval;
upval.name = name;
upval.is_local = false;
upval.index = outer;
da_append(
struct upval,
&fp->upvals,
upval
);
fp->proto->upvalc++;
return da_len(fp->upvals) - 1;
}
return -1;
}
static
int pop_scope(struct parser *p, int scope)
{
int locals_len = da_len(p->fp->locals);
for (int i = da_len(p->fp->locals) - 1; i >= 0; i--) {
struct variable local = p->fp->locals[i];
if (local.scope < scope)
break;
parser_add_byte(p, local.captured ? BC_POP_UPVAL : BC_POP);
locals_len = i;
}
return locals_len;
}
static
void begin_scope(struct parser *p)
{
p->fp->scope++;
}
static
void end_scope(struct parser *p)
{
*da_len_ptr(p->fp->locals) = pop_scope(p, p->fp->scope);
p->fp->scope--;
}
static
void begin_function(struct parser *p, struct us_proto *proto)
{
struct func_parser *fp = mem_alloc(sizeof(struct func_parser));
fp->outer = p->fp;
fp->proto = proto;
fp->loop = NULL;
fp->locals = da_create(struct variable, 0);
fp->upvals = da_create(struct upval, 0);
fp->scope = 0;
fp->is_script = false;
p->fp = fp;
}
static
void end_function(struct parser *p)
{
parser_add_byte(p, BC_ZILCH);
parser_add_byte(p, BC_RET);
struct func_parser *fp = p->fp;
p->fp = fp->outer;
if (p->fp) {
p->fp->proto->constants[p->fp->proto->nconstants] =
wrap_proto(fp->proto);
parser_add_byte(p, BC_LOAD_FUNC);
parser_add_byte(p, p->fp->proto->nconstants++);
for (int i = 0; i < fp->proto->upvalc; i++) {
parser_add_byte(p, fp->upvals[i].is_local ? 1 : 0);
parser_add_byte(p, (u8)fp->upvals[i].index);
}
}
#ifdef UE_DEBUG
print_func(fp->proto);
#endif
da_free(fp->locals);
da_free(fp->upvals);
mem_free(fp);
}
static void parse_expr(struct parser *p, enum precedence prec);
static struct expr get_expr(struct token tok);
static void expr(struct parser *p);
static
void parse_number(struct parser *p)
{
struct token num_tok = p->prev;
double n = strtod(num_tok.start, NULL);
// Avoid filling up the constants list with numbers that could easily
// just be part of the bytecode.
if (n <= UINT8_MAX && (u8)n == n) {
parser_add_byte(p, BC_SMALL_INT);
parser_add_byte(p, (u8)n);
return;
}
parser_add_const(p, create_num(n));
}
static
void parse_string(struct parser *p)
{
parser_add_const(p, p->prev.val);
}
static
void parse_literal(struct parser *p)
{
switch (p->prev.kind) {
case TOKEN_FALSE: parser_add_byte(p, BC_FALSE); break;
case TOKEN_TRUE: parser_add_byte(p, BC_TRUE); break;
case TOKEN_ZILCH: parser_add_byte(p, BC_ZILCH); break;
}
}
static
void parse_arr(struct parser *p)
{
int arr_len = 0;
if (p->cur.kind != ']') {
do {
if (p->cur.kind == ']')
break;
expr(p);
arr_len++;
} while (consume(p, ','));
}
expect(p, ']', "unterminated array literal");
if (arr_len > UINT8_MAX) {
show_error(p, p->prev, "too many literals the array (max 255)");
}
parser_add_byte(p, BC_ARR);
parser_add_byte(p, (u8)arr_len);
}
static
void parse_ident(struct parser *p)
{
struct token ident = p->prev;
u8 setter;
u8 getter;
int var = find_local(p->fp, ident);
if (var != -1) {
setter = BC_SET_LOCAL;
getter = BC_GET_LOCAL;
} else if ((var = find_upval(p, p->fp, ident)) != -1) {
setter = BC_SET_UPVAL;
getter = BC_GET_UPVAL;
} else if ((var = find_global(ident)) != -1) {
setter = BC_SET_GLOBAL;
getter = BC_GET_GLOBAL;
}
if (var == -1) {
show_error(p, ident, "undefined variable");
return;
}
if (p->can_assign && consume(p, '=')) {
expr(p);
parser_add_byte(p, setter);
} else {
parser_add_byte(p, getter);
}
if (setter == BC_SET_GLOBAL) {
parser_add_byte(p, (var >> 8) & 0xFF);
parser_add_byte(p, var & 0xFF);
} else {
parser_add_byte(p, (u8)var);
}
}
static
void parse_binary(struct parser *p)
{
struct token op = p->prev;
parse_expr(p, get_expr(op).prec + 1);
switch (op.kind) {
case '+': parser_add_byte(p, BC_ADD); break;
case '-': parser_add_byte(p, BC_SUB); break;
case '*': parser_add_byte(p, BC_MULT); break;
case '/': parser_add_byte(p, BC_DIV); break;
case '%': parser_add_byte(p, BC_MOD); break;
case '>': parser_add_byte(p, BC_GT); break;
case '<': parser_add_byte(p, BC_LT); break;
case TOKEN_DOT_DOT: parser_add_byte(p, BC_CONCAT); break;
case TOKEN_EQL: parser_add_byte(p, BC_EQL); break;
case TOKEN_NEQL: parser_add_byte(p, BC_NEQL); break;
case TOKEN_GTEQL: parser_add_byte(p, BC_GTE); break;
case TOKEN_LTEQL: parser_add_byte(p, BC_LTE); break;
}
}
static
void parse_unary(struct parser *p)
{
struct token op = p->prev;
parse_expr(p, PREC_UNARY);
switch (op.kind) {
case '-': parser_add_byte(p, BC_NEG); break;
case '!': parser_add_byte(p, BC_NOT); break;
}
}
static
void parse_grouping(struct parser *p)
{
expr(p);
expect(p, ')', "expected ')'");
}
static
void parse_call(struct parser *p)
{
int argc = 0;
if (p->cur.kind != ')') {
do {
argc++;
expr(p);
} while (consume(p, ','));
}
expect(p, ')', "expected ')'");
if (argc > UINT8_MAX)
show_error(p, p->prev, "max argument count is 255");
parser_add_byte(p, BC_CALL);
parser_add_byte(p, argc);
}
static
void parse_index(struct parser *p)
{
expr(p);
expect(p, ']', "expected ']'");
if (consume(p, '=')) {
expr(p);
parser_add_byte(p, BC_SET_INDEX);
} else {
parser_add_byte(p, BC_GET_INDEX);
}
}
static
struct expr expressions[] = {
['('] = {parse_grouping, parse_call, PREC_CALL},
[')'] = {NULL, NULL, PREC_NONE},
['{'] = {NULL, NULL, PREC_NONE},
['}'] = {NULL, NULL, PREC_NONE},
['['] = {parse_arr, parse_index, PREC_CALL},
[']'] = {NULL, NULL, PREC_NONE},
[','] = {NULL, NULL, PREC_NONE},
[';'] = {NULL, NULL, PREC_NONE},
[':'] = {NULL, NULL, PREC_NONE},
['.'] = {NULL, NULL, PREC_NONE},
['+'] = {NULL, parse_binary, PREC_TERM},
['-'] = {parse_unary, parse_binary, PREC_TERM},
['*'] = {NULL, parse_binary, PREC_FACTOR},
['/'] = {NULL, parse_binary, PREC_FACTOR},
['%'] = {NULL, parse_binary, PREC_FACTOR},
['<'] = {NULL, parse_binary, PREC_COMP},
['>'] = {NULL, parse_binary, PREC_COMP},
['='] = {NULL, NULL, PREC_NONE},
['!'] = {parse_unary, NULL, PREC_NONE},
[TOKEN_EOF] = {NULL, NULL, PREC_NONE},
[TOKEN_BREAK] = {NULL, NULL, PREC_NONE},
[TOKEN_DIV_EQL] = {NULL, NULL, PREC_NONE},
[TOKEN_DOT_DOT] = {NULL, parse_binary, PREC_CONCAT},
[TOKEN_DO] = {NULL, NULL, PREC_NONE},
[TOKEN_ELSE] = {NULL, NULL, PREC_NONE},
[TOKEN_END] = {NULL, NULL, PREC_NONE},
[TOKEN_EQL] = {NULL, parse_binary, PREC_EQL},
[TOKEN_ERR] = {NULL, NULL, PREC_NONE},
[TOKEN_FALSE] = {parse_literal, NULL, PREC_NONE},
[TOKEN_FUN] = {NULL, NULL, PREC_NONE},
[TOKEN_GLOBAL] = {NULL, NULL, PREC_NONE},
[TOKEN_GTEQL] = {NULL, parse_binary, PREC_COMP},
[TOKEN_IDENT] = {parse_ident, NULL, PREC_NONE},
[TOKEN_IF] = {NULL, NULL, PREC_NONE},
[TOKEN_IN] = {NULL, NULL, PREC_NONE},
[TOKEN_LET] = {NULL, NULL, PREC_NONE},
[TOKEN_LOOP] = {NULL, NULL, PREC_NONE},
[TOKEN_LTEQL] = {NULL, parse_binary, PREC_COMP},
[TOKEN_MINUS_EQL] = {NULL, NULL, PREC_NONE},
[TOKEN_MOD] = {NULL, NULL, PREC_NONE},
[TOKEN_MOD_EQL] = {NULL, NULL, PREC_NONE},
[TOKEN_MULT_EQL] = {NULL, NULL, PREC_NONE},
[TOKEN_NEQL] = {NULL, parse_binary, PREC_EQL},
[TOKEN_NEXT] = {NULL, NULL, PREC_NONE},
[TOKEN_NUM] = {parse_number, NULL, PREC_NONE},
[TOKEN_PLUS_EQL] = {NULL, NULL, PREC_NONE},
[TOKEN_RET] = {NULL, NULL, PREC_NONE},
[TOKEN_STR] = {parse_string, NULL, PREC_NONE},
[TOKEN_TRUE] = {parse_literal, NULL, PREC_NONE},
[TOKEN_ZILCH] = {parse_literal, NULL, PREC_NONE},
};
static void stat(struct parser *p);
static
struct expr get_expr(struct token tok)
{
return expressions[tok.kind];
}
static
void parse_expr(struct parser *p, enum precedence prec)
{
advance(p);
fn_parse prefix = get_expr(p->prev).prefix;
if (!prefix) {
show_error(p, p->prev, "expected expression");
return;
}
p->can_assign = prec <= PREC_ASSIGN;
prefix(p);
while (prec <= get_expr(p->cur).prec) {
advance(p);
get_expr(p->prev).infix(p);
}
if (p->can_assign && consume(p, '=')) {
show_error(p, p->prev, "bad assignment");
}
p->can_assign = false;
}
static
void expr(struct parser *p)
{
parse_expr(p, PREC_ASSIGN);
}
static
void expr_stat(struct parser *p)
{
expr(p);
parser_add_byte(p, BC_POP);
}
static
void var_def_stat(struct parser *p, bool is_global)
{
do {
expect(p, TOKEN_IDENT, "expected variable name");
struct token name = p->prev;
if (consume(p, '='))
expr(p);
else
parser_add_byte(p, BC_ZILCH);
if (is_global) {
struct us_str *ident = copy_str(name.start, name.len);
int idx = declare_global(ident);
parser_add_byte(p, BC_SET_GLOBAL);
parser_add_byte(p, (idx >> 8) & 0xFF);
parser_add_byte(p, idx & 0xFF);
parser_add_byte(p, BC_POP); // set global does not pop
} else {
declare_variable(p, name);
}
} while (consume(p, ','));
}
static
void fun_stat(struct parser *p)
{
expect(p, TOKEN_IDENT, "expected function name");
struct token name_token = p->prev;
struct us_str *name = copy_str(name_token.start, name_token.len);
struct us_proto *proto = create_proto(name);
// parser_add_const(p, wrap_func(func));
declare_variable(p, name_token);
begin_function(p, proto);
expect(p, '(', "expected '(' after function name");
if (p->cur.kind != ')') {
do {
expect(p, TOKEN_IDENT, "expected arguement name");
declare_variable(p, p->prev);
proto->argc++;
} while (consume(p, ','));
}
expect(p, ')', "expected ')' after arguments");
while (p->cur.kind != TOKEN_END && p->cur.kind != TOKEN_EOF)
stat(p);
end_function(p);
expect(p, TOKEN_END, "unterminated function");
}
static
void if_stat(struct parser *p, bool is_elseif)
{
struct token begin = p->prev;
expr(p);
int jump = begin_jump(p, BC_FALSEY_JMP);
if (!is_elseif)
expect(p, ':', "expected ':' to begin 'if' block");
else
expect(p, ':', "expected ':' to begin 'elseif' block");
begin_scope(p);
while (
p->cur.kind != TOKEN_END &&
p->cur.kind != TOKEN_ELSE &&
p->cur.kind != TOKEN_ELSEIF &&
p->cur.kind != TOKEN_EOF
)
stat(p);
end_scope(p);
int else_jump = begin_jump(p, BC_JMP);
end_jump(p, jump);
// The only reason "elseif" was chosen over "else if" is because it
// reduces indentation in this one single spot.
if (consume(p, TOKEN_ELSEIF)) {
if_stat(p, true);
} else if (consume(p, TOKEN_ELSE)) {
expect(p, ':', "expected ':' to begin 'else' block");
begin_scope(p);
while (p->cur.kind != TOKEN_END && p->cur.kind != TOKEN_EOF)
stat(p);
end_scope(p);
}
end_jump(p, else_jump);
if (!is_elseif && !consume(p, TOKEN_END))
show_error(p, begin, "unterminated 'if' block");
}
static
void loop_stat(struct parser *p)
{
// For now, we will just support loop <cond>. loop <var> in <expr>
// needs a lot to happen before it can be implemented.
struct token begin = p->prev;
struct loop loop;
loop.outer = p->fp->loop;
loop.start = da_len(p->fp->proto->bytecode) - 1;
loop.labeled = false;
loop.scope = p->fp->scope + 1;
loop.breaks = da_create(int, 0);
p->fp->loop = &loop;
int exit_jump = -1;
if (!consume(p, ':')) {
expr(p);
exit_jump = begin_jump(p, BC_FALSEY_JMP);
expect(p, ':', "expected ':' to begin 'loop' block");
}
if (consume(p, '<')) {
expect(p, TOKEN_IDENT, "expected loop label");
loop.label = p->prev;
loop.labeled = true;
expect(p, '>', "expected '>' after loop label");
}
begin_scope(p);
while (p->cur.kind != TOKEN_END && p->cur.kind != TOKEN_EOF)
stat(p);
end_scope(p);
add_loop(p, loop.start);
if (exit_jump != -1)
end_jump(p, exit_jump);
for (int i = 0; i < da_len(loop.breaks); i++)
end_jump(p, loop.breaks[i]);
if (!consume(p, TOKEN_END))
show_error(p, begin, "unterminated 'loop' block");
p->fp->loop = loop.outer;
da_free(loop.breaks);
}
static
struct loop *find_loop(struct parser *p, struct token label)
{
struct loop *loop = p->fp->loop;
while (loop != NULL) {
if (
loop->label.len == label.len &&
memcmp(label.start, loop->label.start, label.len) == 0
) {
break;
}
loop = loop->outer;
}
if (!loop) {
show_error(
p,
label,
"unknown loop label '<%.*s>'",
label.len, label.start
);
return p->fp->loop;
}
return loop;
}
static
struct loop *loop_label(struct parser *p)
{
if (consume(p, '<')) {
expect(p, TOKEN_IDENT, "expected loop label");
struct token label = p->prev;
expect(p, '>', "expected '>' after loop label");
return find_loop(p, label);
}
return p->fp->loop;
}
static
void break_stat(struct parser *p)
{
if (!p->fp->loop) {
show_error(p, p->prev, "'break' is only allowed in loops");
return;
}
struct loop *loop = loop_label(p);
pop_scope(p, loop->scope);
da_append(int, &loop->breaks, begin_jump(p, BC_JMP));
}
static
void next_stat(struct parser *p)
{
if (!p->fp->loop) {
show_error(p, p->prev, "'next' is only allowed in loops");
return;
}
struct loop *loop = loop_label(p);
pop_scope(p, loop->scope);
add_loop(p, loop->start);
}
static
void do_stat(struct parser *p)
{
struct token begin = p->prev;
begin_scope(p);
expect(p, ':', "expected ':' to begin 'do' block");
while (p->cur.kind != TOKEN_END && p->cur.kind != TOKEN_EOF)
stat(p);
if (!consume(p, TOKEN_END))
show_error(p, begin, "unterminated 'do' block");
end_scope(p);
}
static
void ret_stat(struct parser *p)
{
if (p->fp->is_script)
show_error(p, p->prev, "ret is only allowed within functions");
if (p->cur.kind != TOKEN_END && p->cur.kind != ';') {
expr(p);
} else {
parser_add_byte(p, BC_ZILCH);
}
parser_add_byte(p, BC_RET);
}
static
void stat(struct parser *p)
{
if (consume(p, TOKEN_LET)) {
var_def_stat(p, false);
consume(p, ';');
} else if (consume(p, TOKEN_GLOBAL)) {
if (!p->fp->is_script) {
show_error(
p,
p->cur,
"can only define globals in the outermost scope"
);
}
var_def_stat(p, true);
consume(p, ';');
} else if (consume(p, TOKEN_FUN)) {
fun_stat(p);
} else if (consume(p, TOKEN_IF)) {
if_stat(p, false);
} else if (consume(p, TOKEN_LOOP)) {
loop_stat(p);
} else if (consume(p, TOKEN_BREAK)) {
break_stat(p);
consume(p, ';');
} else if (consume(p, TOKEN_NEXT)) {
next_stat(p);
consume(p, ';');
} else if (consume(p, TOKEN_DO)) {
do_stat(p);
} else if (consume(p, TOKEN_RET)) {
ret_stat(p);
consume(p, ';');
} else if (consume(p, TOKEN_PRINT)) {
// temp. only til functions get functioning
expect(p, '(', "expected '('");
expr(p);
expect(p, ')', "expected ')'");
parser_add_byte(p, BC_PRINT);
consume(p, ';');
} else {
expr_stat(p);
}
}
struct us_proto *compile(const char *name, const char *src)
{
struct us_proto *proto = create_proto(copy_str(name, -1));
struct parser p;
p.had_err = false;
p.can_assign = false;
p.fp = NULL;
begin_function(&p, proto);
p.fp->is_script = true;
lex_init(&p.lex, src);
advance(&p);
while (!consume(&p, TOKEN_EOF)) {
stat(&p);
}
expect(&p, TOKEN_EOF, "expected EOF");
end_function(&p);
return p.had_err ? NULL : proto;
}
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