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parse.c
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parse.c
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// This file contains a recursive descent parser for C.
//
// Most functions in this file are named after the symbols they are
// supposed to read from an input token list. For example, stmt() is
// responsible for reading a statement from a token list. The function
// then construct an AST node representing a statement.
//
// Each function conceptually returns two values, an AST node and
// remaining part of the input tokens. Since C doesn't support
// multiple return values, the remaining tokens are returned to the
// caller via a pointer argument.
//
// Input tokens are represented by a linked list. Unlike many recursive
// descent parsers, we don't have the notion of the "input token stream".
// Most parsing functions don't change the global state of the parser.
// So it is very easy to lookahead arbitrary number of tokens in this
// parser.
#include "chibicc.h"
// All local variable instances created during parsing are
// accumulated to this list.
static Obj *locals;
static Obj *globals;
static Type *declspec(Token **rest, Token *tok);
static Type *declarator(Token **rest, Token *tok, Type *ty);
static Node *declaration(Token **rest, Token *tok);
static Node *compound_stmt(Token **rest, Token *tok);
static Node *stmt(Token **rest, Token *tok);
static Node *expr_stmt(Token **rest, Token *tok);
static Node *expr(Token **rest, Token *tok);
static Node *assign(Token **rest, Token *tok);
static Node *equality(Token **rest, Token *tok);
static Node *relational(Token **rest, Token *tok);
static Node *add(Token **rest, Token *tok);
static Node *mul(Token **rest, Token *tok);
static Node *postfix(Token **rest, Token *tok);
static Node *unary(Token **rest, Token *tok);
static Node *primary(Token **rest, Token *tok);
// Find a local variable by name.
static Obj *find_var(Token *tok) {
for (Obj *var = locals; var; var = var->next)
if (strlen(var->name) == tok->len && !strncmp(tok->loc, var->name, tok->len))
return var;
for (Obj *var = globals; var; var = var->next)
if (strlen(var->name) == tok->len && !strncmp(tok->loc, var->name, tok->len))
return var;
return NULL;
}
static Node *new_node(NodeKind kind, Token *tok) {
Node *node = calloc(1, sizeof(Node));
node->kind = kind;
node->tok = tok;
return node;
}
static Node *new_binary(NodeKind kind, Node *lhs, Node *rhs, Token *tok) {
Node *node = new_node(kind, tok);
node->lhs = lhs;
node->rhs = rhs;
return node;
}
static Node *new_unary(NodeKind kind, Node *expr, Token *tok) {
Node *node = new_node(kind, tok);
node->lhs = expr;
return node;
}
static Node *new_num(int val, Token *tok) {
Node *node = new_node(ND_NUM, tok);
node->val = val;
return node;
}
static Node *new_var_node(Obj *var, Token *tok) {
Node *node = new_node(ND_VAR, tok);
node->var = var;
return node;
}
static Obj *new_var(char *name, Type *ty) {
Obj *var = calloc(1, sizeof(Obj));
var->name = name;
var->ty = ty;
return var;
}
static Obj *new_lvar(char *name, Type *ty) {
Obj *var = new_var(name, ty);
var->is_local = true;
var->next = locals;
locals = var;
return var;
}
static Obj *new_gvar(char *name, Type *ty) {
Obj *var = new_var(name, ty);
var->next = globals;
globals = var;
return var;
}
static char *new_unique_name(void) {
static int id = 0;
char *buf = calloc(1, 20);
sprintf(buf, ".L..%d", id++);
return buf;
}
static Obj *new_anon_gvar(Type *ty) {
return new_gvar(new_unique_name(), ty);
}
static Obj *new_string_literal(char *p, Type *ty) {
Obj *var = new_anon_gvar(ty);
var->init_data = p;
return var;
}
static char *get_ident(Token *tok) {
if (tok->kind != TK_IDENT)
error_tok(tok, "expected an identifier");
return strndup(tok->loc, tok->len);
}
static int get_number(Token *tok) {
if (tok->kind != TK_NUM)
error_tok(tok, "expected a number");
return tok->val;
}
// declspec = "char" | "int"
static Type *declspec(Token **rest, Token *tok) {
if (equal(tok, "char")) {
*rest = tok->next;
return ty_char;
}
*rest = skip(tok, "int");
return ty_int;
}
// func-params = (param ("," param)*)? ")"
// param = declspec declarator
static Type *func_params(Token **rest, Token *tok, Type *ty) {
Type head = {};
Type *cur = &head;
while (!equal(tok, ")")) {
if (cur != &head)
tok = skip(tok, ",");
Type *basety = declspec(&tok, tok);
Type *ty = declarator(&tok, tok, basety);
cur = cur->next = copy_type(ty);
}
ty = func_type(ty);
ty->params = head.next;
*rest = tok->next;
return ty;
}
// type-suffix = "(" func-params
// | "[" num "]" type-suffix
// | ε
static Type *type_suffix(Token **rest, Token *tok, Type *ty) {
if (equal(tok, "("))
return func_params(rest, tok->next, ty);
if (equal(tok, "[")) {
int sz = get_number(tok->next);
tok = skip(tok->next->next, "]");
ty = type_suffix(rest, tok, ty);
return array_of(ty, sz);
}
*rest = tok;
return ty;
}
// declarator = "*"* ident type-suffix
static Type *declarator(Token **rest, Token *tok, Type *ty) {
while (consume(&tok, tok, "*"))
ty = pointer_to(ty);
if (tok->kind != TK_IDENT)
error_tok(tok, "expected a variable name");
ty = type_suffix(rest, tok->next, ty);
ty->name = tok;
return ty;
}
// declaration = declspec (declarator ("=" expr)? ("," declarator ("=" expr)?)*)? ";"
static Node *declaration(Token **rest, Token *tok) {
Type *basety = declspec(&tok, tok);
Node head = {};
Node *cur = &head;
int i = 0;
while (!equal(tok, ";")) {
if (i++ > 0)
tok = skip(tok, ",");
Type *ty = declarator(&tok, tok, basety);
Obj *var = new_lvar(get_ident(ty->name), ty);
if (!equal(tok, "="))
continue;
Node *lhs = new_var_node(var, ty->name);
Node *rhs = assign(&tok, tok->next);
Node *node = new_binary(ND_ASSIGN, lhs, rhs, tok);
cur = cur->next = new_unary(ND_EXPR_STMT, node, tok);
}
Node *node = new_node(ND_BLOCK, tok);
node->body = head.next;
*rest = tok->next;
return node;
}
// Returns true if a given token represents a type.
static bool is_typename(Token *tok) {
return equal(tok, "char") || equal(tok, "int");
}
// stmt = "return" expr ";"
// | "if" "(" expr ")" stmt ("else" stmt)?
// | "for" "(" expr-stmt expr? ";" expr? ")" stmt
// | "while" "(" expr ")" stmt
// | "{" compound-stmt
// | expr-stmt
static Node *stmt(Token **rest, Token *tok) {
if (equal(tok, "return")) {
Node *node = new_node(ND_RETURN, tok);
node->lhs = expr(&tok, tok->next);
*rest = skip(tok, ";");
return node;
}
if (equal(tok, "if")) {
Node *node = new_node(ND_IF, tok);
tok = skip(tok->next, "(");
node->cond = expr(&tok, tok);
tok = skip(tok, ")");
node->then = stmt(&tok, tok);
if (equal(tok, "else"))
node->els = stmt(&tok, tok->next);
*rest = tok;
return node;
}
if (equal(tok, "for")) {
Node *node = new_node(ND_FOR, tok);
tok = skip(tok->next, "(");
node->init = expr_stmt(&tok, tok);
if (!equal(tok, ";"))
node->cond = expr(&tok, tok);
tok = skip(tok, ";");
if (!equal(tok, ")"))
node->inc = expr(&tok, tok);
tok = skip(tok, ")");
node->then = stmt(rest, tok);
return node;
}
if (equal(tok, "while")) {
Node *node = new_node(ND_FOR, tok);
tok = skip(tok->next, "(");
node->cond = expr(&tok, tok);
tok = skip(tok, ")");
node->then = stmt(rest, tok);
return node;
}
if (equal(tok, "{"))
return compound_stmt(rest, tok->next);
return expr_stmt(rest, tok);
}
// compound-stmt = (declaration | stmt)* "}"
static Node *compound_stmt(Token **rest, Token *tok) {
Node *node = new_node(ND_BLOCK, tok);
Node head = {};
Node *cur = &head;
while (!equal(tok, "}")) {
if (is_typename(tok))
cur = cur->next = declaration(&tok, tok);
else
cur = cur->next = stmt(&tok, tok);
add_type(cur);
}
node->body = head.next;
*rest = tok->next;
return node;
}
// expr-stmt = expr? ";"
static Node *expr_stmt(Token **rest, Token *tok) {
if (equal(tok, ";")) {
*rest = tok->next;
return new_node(ND_BLOCK, tok);
}
Node *node = new_node(ND_EXPR_STMT, tok);
node->lhs = expr(&tok, tok);
*rest = skip(tok, ";");
return node;
}
// expr = assign
static Node *expr(Token **rest, Token *tok) {
return assign(rest, tok);
}
// assign = equality ("=" assign)?
static Node *assign(Token **rest, Token *tok) {
Node *node = equality(&tok, tok);
if (equal(tok, "="))
return new_binary(ND_ASSIGN, node, assign(rest, tok->next), tok);
*rest = tok;
return node;
}
// equality = relational ("==" relational | "!=" relational)*
static Node *equality(Token **rest, Token *tok) {
Node *node = relational(&tok, tok);
for (;;) {
Token *start = tok;
if (equal(tok, "==")) {
node = new_binary(ND_EQ, node, relational(&tok, tok->next), start);
continue;
}
if (equal(tok, "!=")) {
node = new_binary(ND_NE, node, relational(&tok, tok->next), start);
continue;
}
*rest = tok;
return node;
}
}
// relational = add ("<" add | "<=" add | ">" add | ">=" add)*
static Node *relational(Token **rest, Token *tok) {
Node *node = add(&tok, tok);
for (;;) {
Token *start = tok;
if (equal(tok, "<")) {
node = new_binary(ND_LT, node, add(&tok, tok->next), start);
continue;
}
if (equal(tok, "<=")) {
node = new_binary(ND_GE, add(&tok, tok->next), node, start);
continue;
}
if (equal(tok, ">")) {
node = new_binary(ND_LT, add(&tok, tok->next), node, start);
continue;
}
if (equal(tok, ">=")) {
node = new_binary(ND_GE, node, add(&tok, tok->next), start);
continue;
}
*rest = tok;
return node;
}
}
// In C, `+` operator is overloaded to perform the pointer arithmetic.
// If p is a pointer, p+n adds not n but sizeof(*p)*n to the value of p,
// so that p+n points to the location n elements (not bytes) ahead of p.
// In other words, we need to scale an integer value before adding to a
// pointer value. This function takes care of the scaling.
static Node *new_add(Node *lhs, Node *rhs, Token *tok) {
add_type(lhs);
add_type(rhs);
// num + num
if (is_integer(lhs->ty) && is_integer(rhs->ty))
return new_binary(ND_ADD, lhs, rhs, tok);
if (lhs->ty->base && rhs->ty->base)
error_tok(tok, "invalid operands");
// Canonicalize `num + ptr` to `ptr + num`.
if (!lhs->ty->base && rhs->ty->base) {
Node *tmp = lhs;
lhs = rhs;
rhs = tmp;
}
// ptr + num
rhs = new_binary(ND_MUL, rhs, new_num(lhs->ty->base->size, tok), tok);
return new_binary(ND_ADD, lhs, rhs, tok);
}
// Like `+`, `-` is overloaded for the pointer type.
static Node *new_sub(Node *lhs, Node *rhs, Token *tok) {
add_type(lhs);
add_type(rhs);
// num - num
if (is_integer(lhs->ty) && is_integer(rhs->ty))
return new_binary(ND_SUB, lhs, rhs, tok);
// ptr - num
if (lhs->ty->base && is_integer(rhs->ty)) {
rhs = new_binary(ND_MUL, rhs, new_num(lhs->ty->base->size, tok), tok);
add_type(rhs);
Node *node = new_binary(ND_SUB, lhs, rhs, tok);
node->ty = lhs->ty;
return node;
}
// ptr - ptr, which returns how many elements are between the two.
if (lhs->ty->base && rhs->ty->base) {
Node *node = new_binary(ND_SUB, lhs, rhs, tok);
node->ty = ty_int;
return new_binary(ND_DIV, node, new_num(lhs->ty->base->size, tok), tok);
}
error_tok(tok, "invalid operands");
}
// add = mul ("+" mul | "-" mul)*
static Node *add(Token **rest, Token *tok) {
Node *node = mul(&tok, tok);
for (;;) {
Token *start = tok;
if (equal(tok, "+")) {
node = new_add(node, mul(&tok, tok->next), start);
continue;
}
if (equal(tok, "-")) {
node = new_sub(node, mul(&tok, tok->next), start);
continue;
}
*rest = tok;
return node;
}
}
// mul = unary ("*" unary | "/" unary)*
static Node *mul(Token **rest, Token *tok) {
Node *node = unary(&tok, tok);
for (;;) {
Token *start = tok;
if (equal(tok, "*")) {
node = new_binary(ND_MUL, node, unary(&tok, tok->next), start);
continue;
}
if (equal(tok, "/")) {
node = new_binary(ND_DIV, node, unary(&tok, tok->next), start);
continue;
}
*rest = tok;
return node;
}
}
// unary = ("+" | "-" | "*" | "&") unary
// | postfix
static Node *unary(Token **rest, Token *tok) {
if (equal(tok, "+"))
return unary(rest, tok->next);
if (equal(tok, "-"))
return new_unary(ND_NEG, unary(rest, tok->next), tok);
if (equal(tok, "&"))
return new_unary(ND_ADDR, unary(rest, tok->next), tok);
if (equal(tok, "*"))
return new_unary(ND_DEREF, unary(rest, tok->next), tok);
return postfix(rest, tok);
}
// postfix = primary ("[" expr "]")*
static Node *postfix(Token **rest, Token *tok) {
Node *node = primary(&tok, tok);
while (equal(tok, "[")) {
// x[y] is short for *(x+y)
Token *start = tok;
Node *idx = expr(&tok, tok->next);
tok = skip(tok, "]");
node = new_unary(ND_DEREF, new_add(node, idx, start), start);
}
*rest = tok;
return node;
}
// funcall = ident "(" (assign ("," assign)*)? ")"
static Node *funcall(Token **rest, Token *tok) {
Token *start = tok;
tok = tok->next->next;
Node head = {};
Node *cur = &head;
while (!equal(tok, ")")) {
if (cur != &head)
tok = skip(tok, ",");
cur = cur->next = assign(&tok, tok);
}
*rest = skip(tok, ")");
Node *node = new_node(ND_FUNCALL, start);
node->funcname = strndup(start->loc, start->len);
node->args = head.next;
return node;
}
// primary = "(" expr ")" | "sizeof" unary | ident func-args? | str | num
static Node *primary(Token **rest, Token *tok) {
if (equal(tok, "(")) {
Node *node = expr(&tok, tok->next);
*rest = skip(tok, ")");
return node;
}
if (equal(tok, "sizeof")) {
Node *node = unary(rest, tok->next);
add_type(node);
return new_num(node->ty->size, tok);
}
if (tok->kind == TK_IDENT) {
// Function call
if (equal(tok->next, "("))
return funcall(rest, tok);
// Variable
Obj *var = find_var(tok);
if (!var)
error_tok(tok, "undefined variable");
*rest = tok->next;
return new_var_node(var, tok);
}
if (tok->kind == TK_STR) {
Obj *var = new_string_literal(tok->str, tok->ty);
*rest = tok->next;
return new_var_node(var, tok);
}
if (tok->kind == TK_NUM) {
Node *node = new_num(tok->val, tok);
*rest = tok->next;
return node;
}
error_tok(tok, "expected an expression");
}
static void create_param_lvars(Type *param) {
if (param) {
create_param_lvars(param->next);
new_lvar(get_ident(param->name), param);
}
}
static Token *function(Token *tok, Type *basety) {
Type *ty = declarator(&tok, tok, basety);
Obj *fn = new_gvar(get_ident(ty->name), ty);
fn->is_function = true;
locals = NULL;
create_param_lvars(ty->params);
fn->params = locals;
tok = skip(tok, "{");
fn->body = compound_stmt(&tok, tok);
fn->locals = locals;
return tok;
}
static Token *global_variable(Token *tok, Type *basety) {
bool first = true;
while (!consume(&tok, tok, ";")) {
if (!first)
tok = skip(tok, ",");
first = false;
Type *ty = declarator(&tok, tok, basety);
new_gvar(get_ident(ty->name), ty);
}
return tok;
}
// Lookahead tokens and returns true if a given token is a start
// of a function definition or declaration.
static bool is_function(Token *tok) {
if (equal(tok, ";"))
return false;
Type dummy = {};
Type *ty = declarator(&tok, tok, &dummy);
return ty->kind == TY_FUNC;
}
// program = (function-definition | global-variable)*
Obj *parse(Token *tok) {
globals = NULL;
while (tok->kind != TK_EOF) {
Type *basety = declspec(&tok, tok);
// Function
if (is_function(tok)) {
tok = function(tok, basety);
continue;
}
// Global variable
tok = global_variable(tok, basety);
}
return globals;
}
Obj *find_fn(const char *name) {
for (Obj *obj = globals; obj; obj = obj->next)
if (obj->is_function && !strcmp(obj->name, name))
return obj;
return NULL;
}