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lex.c
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lex.c
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// Copyright 2012 Rui Ueyama. Released under the MIT license.
/*
* Tokenizer
*
* This is a translation phase after the phase 1 and 2 in file.c.
* In this phase, the source code is decomposed into preprocessing tokens.
*
* Each comment is treated as if it were a space character.
* Space characters are removed, but the presence of the characters is
* recorded to the token that immediately follows the spaces as a boolean flag.
* Newlines are converted to newline tokens.
*
* Note that the pp-token is different from the regular token.
* A keyword, such as "if", is just an identifier at this stage.
* The definition of the pp-token is usually more relaxed than
* the regular one. For example, ".32e." is a valid pp-number.
* Pp-tokens are converted to regular tokens by the C preprocesor
* (and invalid tokens are rejected by that).
* Some tokens are removed by the preprocessor (e.g. newline).
* For more information about pp-tokens, see C11 6.4 "Lexical Elements".
*/
#include <ctype.h>
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include "8cc.h"
static Vector *buffers = &EMPTY_VECTOR;
static Token *space_token = &(Token){ TSPACE };
static Token *newline_token = &(Token){ TNEWLINE };
static Token *eof_token = &(Token){ TEOF };
typedef struct {
int line;
int column;
} Pos;
static Pos pos;
static char *pos_string(Pos *p) {
File *f = current_file();
return format("%s:%d:%d", f ? f->name : "(unknown)", p->line, p->column);
}
#define errorp(p, ...) errorf(__FILE__ ":" STR(__LINE__), pos_string(&p), __VA_ARGS__)
#define warnp(p, ...) warnf(__FILE__ ":" STR(__LINE__), pos_string(&p), __VA_ARGS__)
static void skip_block_comment(void);
void lex_init(char *filename) {
vec_push(buffers, make_vector());
if (!strcmp(filename, "-")) {
stream_push(make_file(stdin, "-"));
return;
}
FILE *fp = fopen(filename, "r");
if (!fp)
error("Cannot open %s: %s", filename, strerror(errno));
stream_push(make_file(fp, filename));
}
static Pos get_pos(int delta) {
File *f = current_file();
return (Pos){ f->line, f->column + delta };
}
static void mark() {
pos = get_pos(0);
}
static Token *make_token(Token *tmpl) {
Token *r = malloc(sizeof(Token));
*r = *tmpl;
r->hideset = NULL;
File *f = current_file();
r->file = f;
r->line = pos.line;
r->column = pos.column;
r->count = f->ntok++;
return r;
}
static Token *make_ident(char *p) {
return make_token(&(Token){ TIDENT, .sval = p });
}
static Token *make_strtok(char *s, int len, int enc) {
return make_token(&(Token){ TSTRING, .sval = s, .slen = len, .enc = enc });
}
static Token *make_keyword(int id) {
return make_token(&(Token){ TKEYWORD, .id = id });
}
static Token *make_number(char *s) {
return make_token(&(Token){ TNUMBER, .sval = s });
}
static Token *make_invalid(char c) {
return make_token(&(Token){ TINVALID, .c = c });
}
static Token *make_char(int c, int enc) {
return make_token(&(Token){ TCHAR, .c = c, .enc = enc });
}
static bool iswhitespace(int c) {
return c == ' ' || c == '\t' || c == '\f' || c == '\v';
}
static int peek() {
int r = readc();
unreadc(r);
return r;
}
static bool next(int expect) {
int c = readc();
if (c == expect)
return true;
unreadc(c);
return false;
}
static void skip_line() {
for (;;) {
int c = readc();
if (c == EOF)
return;
if (c == '\n') {
unreadc(c);
return;
}
}
}
static bool do_skip_space() {
int c = readc();
if (c == EOF)
return false;
if (iswhitespace(c))
return true;
if (c == '/') {
if (next('*')) {
skip_block_comment();
return true;
}
if (next('/')) {
skip_line();
return true;
}
}
unreadc(c);
return false;
}
// Skips spaces including comments.
// Returns true if at least one space is skipped.
static bool skip_space() {
if (!do_skip_space())
return false;
while (do_skip_space());
return true;
}
static void skip_char() {
if (readc() == '\\')
readc();
int c = readc();
while (c != EOF && c != '\'')
c = readc();
}
static void skip_string() {
for (int c = readc(); c != EOF && c != '"'; c = readc())
if (c == '\\')
readc();
}
// Skips a block of code excluded from input by #if, #ifdef and the like.
// C11 6.10 says that code within #if and #endif needs to be a sequence of
// valid tokens even if skipped. However, in reality, most compilers don't
// tokenize nor validate contents. We don't do that, too.
// This function is to skip code until matching #endif as fast as we can.
void skip_cond_incl() {
int nest = 0;
for (;;) {
bool bol = (current_file()->column == 1);
skip_space();
int c = readc();
if (c == EOF)
return;
if (c == '\'') {
skip_char();
continue;
}
if (c == '\"') {
skip_string();
continue;
}
if (c != '#' || !bol)
continue;
int column = current_file()->column - 1;
Token *tok = lex();
if (tok->kind != TIDENT)
continue;
if (!nest && (is_ident(tok, "else") || is_ident(tok, "elif") || is_ident(tok, "endif"))) {
unget_token(tok);
Token *hash = make_keyword('#');
hash->bol = true;
hash->column = column;
unget_token(hash);
return;
}
if (is_ident(tok, "if") || is_ident(tok, "ifdef") || is_ident(tok, "ifndef"))
nest++;
else if (nest && is_ident(tok, "endif"))
nest--;
skip_line();
}
}
// Reads a number literal. Lexer's grammar on numbers is not strict.
// Integers and floating point numbers and different base numbers are not distinguished.
static Token *read_number(char c) {
Buffer *b = make_buffer();
buf_write(b, c);
char last = c;
for (;;) {
int c = readc();
bool flonum = strchr("eEpP", last) && strchr("+-", c);
if (!isdigit(c) && !isalpha(c) && c != '.' && !flonum) {
unreadc(c);
buf_write(b, '\0');
return make_number(buf_body(b));
}
buf_write(b, c);
last = c;
}
}
static bool nextoct() {
int c = peek();
return '0' <= c && c <= '7';
}
// Reads an octal escape sequence.
static int read_octal_char(int c) {
int r = c - '0';
if (!nextoct())
return r;
r = (r << 3) | (readc() - '0');
if (!nextoct())
return r;
return (r << 3) | (readc() - '0');
}
// Reads a \x escape sequence.
static int read_hex_char() {
Pos p = get_pos(-2);
int c = readc();
if (!isxdigit(c))
errorp(p, "\\x is not followed by a hexadecimal character: %c", c);
int r = 0;
for (;; c = readc()) {
switch (c) {
case '0' ... '9': r = (r << 4) | (c - '0'); continue;
case 'a' ... 'f': r = (r << 4) | (c - 'a' + 10); continue;
case 'A' ... 'F': r = (r << 4) | (c - 'A' + 10); continue;
default: unreadc(c); return r;
}
}
}
static bool is_valid_ucn(unsigned int c) {
// C11 6.4.3p2: U+D800 to U+DFFF are reserved for surrogate pairs.
// A codepoint within the range cannot be a valid character.
if (0xD800 <= c && c <= 0xDFFF)
return false;
// It's not allowed to encode ASCII characters using \U or \u.
// Some characters not in the basic character set (C11 5.2.1p3)
// are allowed as exceptions.
return 0xA0 <= c || c == '$' || c == '@' || c == '`';
}
// Reads \u or \U escape sequences. len is 4 or 8, respecitvely.
static int read_universal_char(int len) {
Pos p = get_pos(-2);
unsigned int r = 0;
for (int i = 0; i < len; i++) {
char c = readc();
switch (c) {
case '0' ... '9': r = (r << 4) | (c - '0'); continue;
case 'a' ... 'f': r = (r << 4) | (c - 'a' + 10); continue;
case 'A' ... 'F': r = (r << 4) | (c - 'A' + 10); continue;
default: errorp(p, "invalid universal character: %c", c);
}
}
if (!is_valid_ucn(r))
errorp(p, "invalid universal character: \\%c%0*x", (len == 4) ? 'u' : 'U', len, r);
return r;
}
static int read_escaped_char() {
Pos p = get_pos(-1);
int c = readc();
// This switch-cases is an interesting example of magical aspects
// of self-hosting compilers. Here, we teach the compiler about
// escaped sequences using escaped sequences themselves.
// This is a tautology. The information about their real character
// codes is not present in the source code but propagated from
// a compiler compiling the source code.
// See "Reflections on Trusting Trust" by Ken Thompson for more info.
// http://cm.bell-labs.com/who/ken/trust.html
switch (c) {
case '\'': case '"': case '?': case '\\':
return c;
case 'a': return '\a';
case 'b': return '\b';
case 'f': return '\f';
case 'n': return '\n';
case 'r': return '\r';
case 't': return '\t';
case 'v': return '\v';
case 'e': return '\033'; // '\e' is GNU extension
case 'x': return read_hex_char();
case 'u': return read_universal_char(4);
case 'U': return read_universal_char(8);
case '0' ... '7': return read_octal_char(c);
}
warnp(p, "unknown escape character: \\%c", c);
return c;
}
static Token *read_char(int enc) {
int c = readc();
int r = (c == '\\') ? read_escaped_char() : c;
c = readc();
if (c != '\'')
errorp(pos, "unterminated char");
if (enc == ENC_NONE)
return make_char((char)r, enc);
return make_char(r, enc);
}
// Reads a string literal.
static Token *read_string(int enc) {
Buffer *b = make_buffer();
for (;;) {
int c = readc();
if (c == EOF)
errorp(pos, "unterminated string");
if (c == '"')
break;
if (c != '\\') {
buf_write(b, c);
continue;
}
bool isucs = (peek() == 'u' || peek() == 'U');
c = read_escaped_char();
if (isucs) {
write_utf8(b, c);
continue;
}
buf_write(b, c);
}
buf_write(b, '\0');
return make_strtok(buf_body(b), buf_len(b), enc);
}
static Token *read_ident(char c) {
Buffer *b = make_buffer();
buf_write(b, c);
for (;;) {
c = readc();
if (isalnum(c) || (c & 0x80) || c == '_' || c == '$') {
buf_write(b, c);
continue;
}
// C11 6.4.2.1: \u or \U characters (universal-character-name)
// are allowed to be part of identifiers.
if (c == '\\' && (peek() == 'u' || peek() == 'U')) {
write_utf8(b, read_escaped_char());
continue;
}
unreadc(c);
buf_write(b, '\0');
return make_ident(buf_body(b));
}
}
static void skip_block_comment() {
Pos p = get_pos(-2);
bool maybe_end = false;
for (;;) {
int c = readc();
if (c == EOF)
errorp(p, "premature end of block comment");
if (c == '/' && maybe_end)
return;
maybe_end = (c == '*');
}
}
// Reads a digraph starting with '%'. Digraphs are alternative spellings
// for some punctuation characters. They are useless in ASCII.
// We implement this just for the standard compliance.
// See C11 6.4.6p3 for the spec.
static Token *read_hash_digraph() {
if (next('>'))
return make_keyword('}');
if (next(':')) {
if (next('%')) {
if (next(':'))
return make_keyword(KHASHHASH);
unreadc('%');
}
return make_keyword('#');
}
return NULL;
}
static Token *read_rep(char expect, int t1, int els) {
return make_keyword(next(expect) ? t1 : els);
}
static Token *read_rep2(char expect1, int t1, char expect2, int t2, char els) {
if (next(expect1))
return make_keyword(t1);
return make_keyword(next(expect2) ? t2 : els);
}
static Token *do_read_token() {
if (skip_space())
return space_token;
mark();
int c = readc();
switch (c) {
case '\n': return newline_token;
case ':': return make_keyword(next('>') ? ']' : ':');
case '#': return make_keyword(next('#') ? KHASHHASH : '#');
case '+': return read_rep2('+', OP_INC, '=', OP_A_ADD, '+');
case '*': return read_rep('=', OP_A_MUL, '*');
case '=': return read_rep('=', OP_EQ, '=');
case '!': return read_rep('=', OP_NE, '!');
case '&': return read_rep2('&', OP_LOGAND, '=', OP_A_AND, '&');
case '|': return read_rep2('|', OP_LOGOR, '=', OP_A_OR, '|');
case '^': return read_rep('=', OP_A_XOR, '^');
case '"': return read_string(ENC_NONE);
case '\'': return read_char(ENC_NONE);
case '/': return make_keyword(next('=') ? OP_A_DIV : '/');
case 'a' ... 't': case 'v' ... 'z': case 'A' ... 'K':
case 'M' ... 'T': case 'V' ... 'Z': case '_': case '$':
case 0x80 ... 0xFD:
return read_ident(c);
case '0' ... '9':
return read_number(c);
case 'L': case 'U': {
// Wide/char32_t character/string literal
int enc = (c == 'L') ? ENC_WCHAR : ENC_CHAR32;
if (next('"')) return read_string(enc);
if (next('\'')) return read_char(enc);
return read_ident(c);
}
case 'u':
if (next('"')) return read_string(ENC_CHAR16);
if (next('\'')) return read_char(ENC_CHAR16);
// C11 6.4.5: UTF-8 string literal
if (next('8')) {
if (next('"'))
return read_string(ENC_UTF8);
unreadc('8');
}
return read_ident(c);
case '.':
if (isdigit(peek()))
return read_number(c);
if (next('.')) {
if (next('.'))
return make_keyword(KELLIPSIS);
return make_ident("..");
}
return make_keyword('.');
case '(': case ')': case ',': case ';': case '[': case ']': case '{':
case '}': case '?': case '~':
return make_keyword(c);
case '-':
if (next('-')) return make_keyword(OP_DEC);
if (next('>')) return make_keyword(OP_ARROW);
if (next('=')) return make_keyword(OP_A_SUB);
return make_keyword('-');
case '<':
if (next('<')) return read_rep('=', OP_A_SAL, OP_SAL);
if (next('=')) return make_keyword(OP_LE);
if (next(':')) return make_keyword('[');
if (next('%')) return make_keyword('{');
return make_keyword('<');
case '>':
if (next('=')) return make_keyword(OP_GE);
if (next('>')) return read_rep('=', OP_A_SAR, OP_SAR);
return make_keyword('>');
case '%': {
Token *tok = read_hash_digraph();
if (tok)
return tok;
return read_rep('=', OP_A_MOD, '%');
}
case EOF:
return eof_token;
default: return make_invalid(c);
}
}
static bool buffer_empty() {
return vec_len(buffers) == 1 && vec_len(vec_head(buffers)) == 0;
}
// Reads a header file name for #include.
//
// Filenames after #include need a special tokenization treatment.
// A filename string may be quoted by < and > instead of "".
// Even if it's quoted by "", it's still different from a regular string token.
// For example, \ in this context is not interpreted as a quote.
// Thus, we cannot use lex() to read a filename.
//
// That the C preprocessor requires a special lexer behavior only for
// #include is a violation of layering. Ideally, the lexer should be
// agnostic about higher layers status. But we need this for the C grammar.
char *read_header_file_name(bool *std) {
if (!buffer_empty())
return NULL;
skip_space();
Pos p = get_pos(0);
char close;
if (next('"')) {
*std = false;
close = '"';
} else if (next('<')) {
*std = true;
close = '>';
} else {
return NULL;
}
Buffer *b = make_buffer();
while (!next(close)) {
int c = readc();
if (c == EOF || c == '\n')
errorp(p, "premature end of header name");
buf_write(b, c);
}
if (buf_len(b) == 0)
errorp(p, "header name should not be empty");
buf_write(b, '\0');
return buf_body(b);
}
bool is_keyword(Token *tok, int c) {
return (tok->kind == TKEYWORD) && (tok->id == c);
}
// Temporarily switches the input token stream to given list of tokens,
// so that you can get the tokens as return values of lex() again.
// After the tokens are exhausted, EOF is returned from lex() until
// "unstash" is called to restore the original state.
void token_buffer_stash(Vector *buf) {
vec_push(buffers, buf);
}
void token_buffer_unstash() {
vec_pop(buffers);
}
void unget_token(Token *tok) {
if (tok->kind == TEOF)
return;
Vector *buf = vec_tail(buffers);
vec_push(buf, tok);
}
// Reads a token from a given string.
// This function temporarily switches the main input stream to
// a given string and reads one token.
Token *lex_string(char *s) {
stream_stash(make_file_string(s));
Token *r = do_read_token();
next('\n');
Pos p = get_pos(0);
if (peek() != EOF)
errorp(p, "unconsumed input: %s", s);
stream_unstash();
return r;
}
Token *lex() {
Vector *buf = vec_tail(buffers);
if (vec_len(buf) > 0)
return vec_pop(buf);
if (vec_len(buffers) > 1)
return eof_token;
bool bol = (current_file()->column == 1);
Token *tok = do_read_token();
while (tok->kind == TSPACE) {
tok = do_read_token();
tok->space = true;
}
tok->bol = bol;
return tok;
}