circuitpython/py/lexer.c

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/* lexer.c -- simple tokeniser for Python implementation
*/
#include <stdint.h>
#include <stdio.h>
#include <string.h>
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#include <assert.h>
#include "misc.h"
#include "mpconfig.h"
#include "qstr.h"
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#include "lexer.h"
#define TAB_SIZE (8)
// TODO seems that CPython allows NULL byte in the input stream
// don't know if that's intentional or not, but we don't allow it
struct _mp_lexer_t {
qstr source_name; // name of source
void *stream_data; // data for stream
mp_lexer_stream_next_char_t stream_next_char; // stream callback to get next char
mp_lexer_stream_close_t stream_close; // stream callback to free
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unichar chr0, chr1, chr2; // current cached characters from source
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uint line; // source line
uint column; // source column
int emit_dent; // non-zero when there are INDENT/DEDENT tokens to emit
int nested_bracket_level; // >0 when there are nested brackets over multiple lines
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uint alloc_indent_level;
uint num_indent_level;
uint16_t *indent_level;
vstr_t vstr;
mp_token_t tok_cur;
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};
// TODO replace with a call to a standard function
bool str_strn_equal(const char *str, const char *strn, int len) {
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uint i = 0;
while (i < len && *str == *strn) {
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++i;
++str;
++strn;
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}
return i == len && *str == 0;
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}
void mp_token_show(const mp_token_t *tok) {
printf("(%d:%d) kind:%d str:%p len:%d", tok->src_line, tok->src_column, tok->kind, tok->str, tok->len);
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if (tok->str != NULL && tok->len > 0) {
const char *i = tok->str;
const char *j = i + tok->len;
printf(" ");
while (i < j) {
unichar c = utf8_get_char(i);
i = utf8_next_char(i);
if (unichar_isprint(c)) {
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printf("%c", c);
} else {
printf("?");
}
}
}
printf("\n");
}
#define CUR_CHAR(lex) ((lex)->chr0)
static bool is_end(mp_lexer_t *lex) {
return lex->chr0 == MP_LEXER_CHAR_EOF;
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}
static bool is_physical_newline(mp_lexer_t *lex) {
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return lex->chr0 == '\n' || lex->chr0 == '\r';
}
static bool is_char(mp_lexer_t *lex, char c) {
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return lex->chr0 == c;
}
static bool is_char_or(mp_lexer_t *lex, char c1, char c2) {
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return lex->chr0 == c1 || lex->chr0 == c2;
}
static bool is_char_or3(mp_lexer_t *lex, char c1, char c2, char c3) {
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return lex->chr0 == c1 || lex->chr0 == c2 || lex->chr0 == c3;
}
/*
static bool is_char_following(mp_lexer_t *lex, char c) {
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return lex->chr1 == c;
}
*/
static bool is_char_following_or(mp_lexer_t *lex, char c1, char c2) {
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return lex->chr1 == c1 || lex->chr1 == c2;
}
static bool is_char_following_following_or(mp_lexer_t *lex, char c1, char c2) {
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return lex->chr2 == c1 || lex->chr2 == c2;
}
static bool is_char_and(mp_lexer_t *lex, char c1, char c2) {
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return lex->chr0 == c1 && lex->chr1 == c2;
}
static bool is_whitespace(mp_lexer_t *lex) {
return unichar_isspace(lex->chr0);
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}
static bool is_letter(mp_lexer_t *lex) {
return unichar_isalpha(lex->chr0);
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}
static bool is_digit(mp_lexer_t *lex) {
return unichar_isdigit(lex->chr0);
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}
static bool is_following_digit(mp_lexer_t *lex) {
return unichar_isdigit(lex->chr1);
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}
static bool is_following_odigit(mp_lexer_t *lex) {
return lex->chr1 >= '0' && lex->chr1 <= '7';
}
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// TODO UNICODE include unicode characters in definition of identifiers
static bool is_head_of_identifier(mp_lexer_t *lex) {
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return is_letter(lex) || lex->chr0 == '_';
}
// TODO UNICODE include unicode characters in definition of identifiers
static bool is_tail_of_identifier(mp_lexer_t *lex) {
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return is_head_of_identifier(lex) || is_digit(lex);
}
static void next_char(mp_lexer_t *lex) {
if (lex->chr0 == MP_LEXER_CHAR_EOF) {
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return;
}
int advance = 1;
if (lex->chr0 == '\n') {
// LF is a new line
++lex->line;
lex->column = 1;
} else if (lex->chr0 == '\r') {
// CR is a new line
++lex->line;
lex->column = 1;
if (lex->chr1 == '\n') {
// CR LF is a single new line
advance = 2;
}
} else if (lex->chr0 == '\t') {
// a tab
lex->column = (((lex->column - 1 + TAB_SIZE) / TAB_SIZE) * TAB_SIZE) + 1;
} else {
// a character worth one column
++lex->column;
}
for (; advance > 0; advance--) {
lex->chr0 = lex->chr1;
lex->chr1 = lex->chr2;
lex->chr2 = lex->stream_next_char(lex->stream_data);
if (lex->chr2 == MP_LEXER_CHAR_EOF) {
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// EOF
if (lex->chr1 != MP_LEXER_CHAR_EOF && lex->chr1 != '\n' && lex->chr1 != '\r') {
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lex->chr2 = '\n'; // insert newline at end of file
}
}
}
}
void indent_push(mp_lexer_t *lex, uint indent) {
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if (lex->num_indent_level >= lex->alloc_indent_level) {
lex->indent_level = m_renew(uint16_t, lex->indent_level, lex->alloc_indent_level, lex->alloc_indent_level * 2);
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lex->alloc_indent_level *= 2;
}
lex->indent_level[lex->num_indent_level++] = indent;
}
uint indent_top(mp_lexer_t *lex) {
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return lex->indent_level[lex->num_indent_level - 1];
}
void indent_pop(mp_lexer_t *lex) {
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lex->num_indent_level -= 1;
}
// some tricky operator encoding:
// <op> = begin with <op>, if this opchar matches then begin here
// e<op> = end with <op>, if this opchar matches then end
// E<op> = mandatory end with <op>, this opchar must match, then end
// c<op> = continue with <op>, if this opchar matches then continue matching
// this means if the start of two ops are the same then they are equal til the last char
static const char *tok_enc =
"()[]{},:;@~" // singles
"<e=c<e=" // < <= << <<=
">e=c>e=" // > >= >> >>=
"*e=c*e=" // * *= ** **=
"+e=" // + +=
"-e=e>" // - -= ->
"&e=" // & &=
"|e=" // | |=
"/e=c/e=" // / /= // //=
"%e=" // % %=
"^e=" // ^ ^=
"=e=" // = ==
"!E=" // !=
".c.E."; // . ...
// TODO static assert that number of tokens is less than 256 so we can safely make this table with byte sized entries
static const uint8_t tok_enc_kind[] = {
MP_TOKEN_DEL_PAREN_OPEN, MP_TOKEN_DEL_PAREN_CLOSE,
MP_TOKEN_DEL_BRACKET_OPEN, MP_TOKEN_DEL_BRACKET_CLOSE,
MP_TOKEN_DEL_BRACE_OPEN, MP_TOKEN_DEL_BRACE_CLOSE,
MP_TOKEN_DEL_COMMA, MP_TOKEN_DEL_COLON, MP_TOKEN_DEL_SEMICOLON, MP_TOKEN_DEL_AT, MP_TOKEN_OP_TILDE,
MP_TOKEN_OP_LESS, MP_TOKEN_OP_LESS_EQUAL, MP_TOKEN_OP_DBL_LESS, MP_TOKEN_DEL_DBL_LESS_EQUAL,
MP_TOKEN_OP_MORE, MP_TOKEN_OP_MORE_EQUAL, MP_TOKEN_OP_DBL_MORE, MP_TOKEN_DEL_DBL_MORE_EQUAL,
MP_TOKEN_OP_STAR, MP_TOKEN_DEL_STAR_EQUAL, MP_TOKEN_OP_DBL_STAR, MP_TOKEN_DEL_DBL_STAR_EQUAL,
MP_TOKEN_OP_PLUS, MP_TOKEN_DEL_PLUS_EQUAL,
MP_TOKEN_OP_MINUS, MP_TOKEN_DEL_MINUS_EQUAL, MP_TOKEN_DEL_MINUS_MORE,
MP_TOKEN_OP_AMPERSAND, MP_TOKEN_DEL_AMPERSAND_EQUAL,
MP_TOKEN_OP_PIPE, MP_TOKEN_DEL_PIPE_EQUAL,
MP_TOKEN_OP_SLASH, MP_TOKEN_DEL_SLASH_EQUAL, MP_TOKEN_OP_DBL_SLASH, MP_TOKEN_DEL_DBL_SLASH_EQUAL,
MP_TOKEN_OP_PERCENT, MP_TOKEN_DEL_PERCENT_EQUAL,
MP_TOKEN_OP_CARET, MP_TOKEN_DEL_CARET_EQUAL,
MP_TOKEN_DEL_EQUAL, MP_TOKEN_OP_DBL_EQUAL,
MP_TOKEN_OP_NOT_EQUAL,
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MP_TOKEN_DEL_PERIOD, MP_TOKEN_ELLIPSIS,
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};
// must have the same order as enum in lexer.h
static const char *tok_kw[] = {
"False",
"None",
"True",
"and",
"as",
"assert",
"break",
"class",
"continue",
"def",
"del",
"elif",
"else",
"except",
"finally",
"for",
"from",
"global",
"if",
"import",
"in",
"is",
"lambda",
"nonlocal",
"not",
"or",
"pass",
"raise",
"return",
"try",
"while",
"with",
"yield",
NULL,
};
static int hex_digit(unichar c) {
// c is assumed to be hex digit
int n = c - '0';
if (n > 9) {
n &= ~('a' - 'A');
n -= ('A' - ('9' + 1));
}
return n;
}
// This is called with CUR_CHAR() before first hex digit, and should return with
// it pointing to last hex digit
static bool get_hex(mp_lexer_t *lex, int num_digits, uint *result) {
uint num = 0;
while (num_digits-- != 0) {
next_char(lex);
unichar c = CUR_CHAR(lex);
if (!unichar_isxdigit(c)) {
return false;
}
num = (num << 4) + hex_digit(c);
}
*result = num;
return true;
}
static void mp_lexer_next_token_into(mp_lexer_t *lex, mp_token_t *tok, bool first_token) {
// skip white space and comments
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bool had_physical_newline = false;
while (!is_end(lex)) {
if (is_physical_newline(lex)) {
had_physical_newline = true;
next_char(lex);
} else if (is_whitespace(lex)) {
next_char(lex);
} else if (is_char(lex, '#')) {
next_char(lex);
while (!is_end(lex) && !is_physical_newline(lex)) {
next_char(lex);
}
// had_physical_newline will be set on next loop
} else if (is_char(lex, '\\')) {
// backslash (outside string literals) must appear just before a physical newline
next_char(lex);
if (!is_physical_newline(lex)) {
// SyntaxError: unexpected character after line continuation character
tok->src_line = lex->line;
tok->src_column = lex->column;
tok->kind = MP_TOKEN_BAD_LINE_CONTINUATION;
vstr_reset(&lex->vstr);
tok->str = vstr_str(&lex->vstr);
tok->len = 0;
return;
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} else {
next_char(lex);
}
} else {
break;
}
}
// set token source information
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tok->src_line = lex->line;
tok->src_column = lex->column;
// start new token text
vstr_reset(&lex->vstr);
if (first_token && lex->line == 1 && lex->column != 1) {
// check that the first token is in the first column
// if first token is not on first line, we get a physical newline and
// this check is done as part of normal indent/dedent checking below
// (done to get equivalence with CPython)
tok->kind = MP_TOKEN_INDENT;
} else if (lex->emit_dent < 0) {
tok->kind = MP_TOKEN_DEDENT;
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lex->emit_dent += 1;
} else if (lex->emit_dent > 0) {
tok->kind = MP_TOKEN_INDENT;
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lex->emit_dent -= 1;
} else if (had_physical_newline && lex->nested_bracket_level == 0) {
tok->kind = MP_TOKEN_NEWLINE;
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uint num_spaces = lex->column - 1;
lex->emit_dent = 0;
if (num_spaces == indent_top(lex)) {
} else if (num_spaces > indent_top(lex)) {
indent_push(lex, num_spaces);
lex->emit_dent += 1;
} else {
while (num_spaces < indent_top(lex)) {
indent_pop(lex);
lex->emit_dent -= 1;
}
if (num_spaces != indent_top(lex)) {
tok->kind = MP_TOKEN_DEDENT_MISMATCH;
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}
}
} else if (is_end(lex)) {
if (indent_top(lex) > 0) {
tok->kind = MP_TOKEN_NEWLINE;
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lex->emit_dent = 0;
while (indent_top(lex) > 0) {
indent_pop(lex);
lex->emit_dent -= 1;
}
} else {
tok->kind = MP_TOKEN_END;
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}
} else if (is_char_or(lex, '\'', '\"')
|| (is_char_or3(lex, 'r', 'u', 'b') && is_char_following_or(lex, '\'', '\"'))
|| ((is_char_and(lex, 'r', 'b') || is_char_and(lex, 'b', 'r')) && is_char_following_following_or(lex, '\'', '\"'))) {
// a string or bytes literal
// parse type codes
bool is_raw = false;
bool is_bytes = false;
if (is_char(lex, 'u')) {
next_char(lex);
} else if (is_char(lex, 'b')) {
is_bytes = true;
next_char(lex);
if (is_char(lex, 'r')) {
is_raw = true;
next_char(lex);
}
} else if (is_char(lex, 'r')) {
is_raw = true;
next_char(lex);
if (is_char(lex, 'b')) {
is_bytes = true;
next_char(lex);
}
}
// set token kind
if (is_bytes) {
tok->kind = MP_TOKEN_BYTES;
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} else {
tok->kind = MP_TOKEN_STRING;
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}
// get first quoting character
char quote_char = '\'';
if (is_char(lex, '\"')) {
quote_char = '\"';
}
next_char(lex);
// work out if it's a single or triple quoted literal
int num_quotes;
if (is_char_and(lex, quote_char, quote_char)) {
// triple quotes
next_char(lex);
next_char(lex);
num_quotes = 3;
} else {
// single quotes
num_quotes = 1;
}
// parse the literal
int n_closing = 0;
while (!is_end(lex) && (num_quotes > 1 || !is_char(lex, '\n')) && n_closing < num_quotes) {
if (is_char(lex, quote_char)) {
n_closing += 1;
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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} else {
n_closing = 0;
if (!is_raw && is_char(lex, '\\')) {
next_char(lex);
unichar c = CUR_CHAR(lex);
switch (c) {
case MP_LEXER_CHAR_EOF: break; // TODO a proper error message?
case '\n': c = MP_LEXER_CHAR_EOF; break; // TODO check this works correctly (we are supposed to ignore it
case '\\': break;
case '\'': break;
case '"': break;
case 'a': c = 0x07; break;
case 'b': c = 0x08; break;
case 't': c = 0x09; break;
case 'n': c = 0x0a; break;
case 'v': c = 0x0b; break;
case 'f': c = 0x0c; break;
case 'r': c = 0x0d; break;
case 'x':
{
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uint num = 0;
if (!get_hex(lex, 2, &num)) {
// TODO error message
assert(0);
}
c = num;
break;
}
case 'N': break; // TODO \N{name} only in strings
case 'u': break; // TODO \uxxxx only in strings
case 'U': break; // TODO \Uxxxxxxxx only in strings
default:
if (c >= '0' && c <= '7') {
// Octal sequence, 1-3 chars
int digits = 3;
int num = c - '0';
while (is_following_odigit(lex) && --digits != 0) {
next_char(lex);
num = num * 8 + (CUR_CHAR(lex) - '0');
}
c = num;
} else {
// TODO error message
assert(0);
}
break;
}
if (c != MP_LEXER_CHAR_EOF) {
vstr_add_char(&lex->vstr, c);
}
} else {
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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}
}
next_char(lex);
}
// check we got the required end quotes
if (n_closing < num_quotes) {
tok->kind = MP_TOKEN_LONELY_STRING_OPEN;
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}
// cut off the end quotes from the token text
vstr_cut_tail(&lex->vstr, n_closing);
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} else if (is_head_of_identifier(lex)) {
tok->kind = MP_TOKEN_NAME;
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// get first char
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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next_char(lex);
// get tail chars
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while (!is_end(lex) && is_tail_of_identifier(lex)) {
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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next_char(lex);
}
} else if (is_digit(lex) || (is_char(lex, '.') && is_following_digit(lex))) {
tok->kind = MP_TOKEN_NUMBER;
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// get first char
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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next_char(lex);
// get tail chars
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while (!is_end(lex)) {
if (is_char_or(lex, 'e', 'E')) {
vstr_add_char(&lex->vstr, 'e');
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next_char(lex);
if (is_char(lex, '+') || is_char(lex, '-')) {
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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next_char(lex);
}
} else if (is_letter(lex) || is_digit(lex) || is_char_or(lex, '_', '.')) {
vstr_add_char(&lex->vstr, CUR_CHAR(lex));
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next_char(lex);
} else {
break;
}
}
} else {
// search for encoded delimiter or operator
const char *t = tok_enc;
uint tok_enc_index = 0;
for (; *t != 0 && !is_char(lex, *t); t += 1) {
if (*t == 'e' || *t == 'c') {
t += 1;
} else if (*t == 'E') {
tok_enc_index -= 1;
t += 1;
}
tok_enc_index += 1;
}
next_char(lex);
if (*t == 0) {
// didn't match any delimiter or operator characters
tok->kind = MP_TOKEN_INVALID;
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} else {
// matched a delimiter or operator character
// get the maximum characters for a valid token
t += 1;
uint t_index = tok_enc_index;
for (;;) {
for (; *t == 'e'; t += 1) {
t += 1;
t_index += 1;
if (is_char(lex, *t)) {
next_char(lex);
tok_enc_index = t_index;
break;
}
}
if (*t == 'E') {
t += 1;
if (is_char(lex, *t)) {
next_char(lex);
tok_enc_index = t_index;
} else {
tok->kind = MP_TOKEN_INVALID;
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}
break;
}
if (*t == 'c') {
t += 1;
t_index += 1;
if (is_char(lex, *t)) {
next_char(lex);
tok_enc_index = t_index;
t += 1;
} else {
break;
}
} else {
break;
}
}
// set token kind
tok->kind = tok_enc_kind[tok_enc_index];
// compute bracket level for implicit line joining
if (tok->kind == MP_TOKEN_DEL_PAREN_OPEN || tok->kind == MP_TOKEN_DEL_BRACKET_OPEN || tok->kind == MP_TOKEN_DEL_BRACE_OPEN) {
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lex->nested_bracket_level += 1;
} else if (tok->kind == MP_TOKEN_DEL_PAREN_CLOSE || tok->kind == MP_TOKEN_DEL_BRACKET_CLOSE || tok->kind == MP_TOKEN_DEL_BRACE_CLOSE) {
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lex->nested_bracket_level -= 1;
}
}
}
// point token text to vstr buffer
tok->str = vstr_str(&lex->vstr);
tok->len = vstr_len(&lex->vstr);
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// check for keywords
if (tok->kind == MP_TOKEN_NAME) {
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for (int i = 0; tok_kw[i] != NULL; i++) {
if (str_strn_equal(tok_kw[i], tok->str, tok->len)) {
tok->kind = MP_TOKEN_KW_FALSE + i;
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break;
}
}
}
}
mp_lexer_t *mp_lexer_new(const char *src_name, void *stream_data, mp_lexer_stream_next_char_t stream_next_char, mp_lexer_stream_close_t stream_close) {
mp_lexer_t *lex = m_new(mp_lexer_t, 1);
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lex->source_name = qstr_from_str(src_name);
lex->stream_data = stream_data;
lex->stream_next_char = stream_next_char;
lex->stream_close = stream_close;
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lex->line = 1;
lex->column = 1;
lex->emit_dent = 0;
lex->nested_bracket_level = 0;
lex->alloc_indent_level = 16;
lex->num_indent_level = 1;
lex->indent_level = m_new(uint16_t, lex->alloc_indent_level);
lex->indent_level[0] = 0;
vstr_init(&lex->vstr, 32);
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// preload characters
lex->chr0 = stream_next_char(stream_data);
lex->chr1 = stream_next_char(stream_data);
lex->chr2 = stream_next_char(stream_data);
// if input stream is 0, 1 or 2 characters long and doesn't end in a newline, then insert a newline at the end
if (lex->chr0 == MP_LEXER_CHAR_EOF) {
lex->chr0 = '\n';
} else if (lex->chr1 == MP_LEXER_CHAR_EOF) {
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if (lex->chr0 != '\n' && lex->chr0 != '\r') {
lex->chr1 = '\n';
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}
} else if (lex->chr2 == MP_LEXER_CHAR_EOF) {
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if (lex->chr1 != '\n' && lex->chr1 != '\r') {
lex->chr2 = '\n';
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}
}
// preload first token
mp_lexer_next_token_into(lex, &lex->tok_cur, true);
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return lex;
}
void mp_lexer_free(mp_lexer_t *lex) {
if (lex) {
if (lex->stream_close) {
lex->stream_close(lex->stream_data);
}
vstr_clear(&lex->vstr);
m_del(uint16_t, lex->indent_level, lex->alloc_indent_level);
m_del_obj(mp_lexer_t, lex);
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}
}
qstr mp_lexer_source_name(mp_lexer_t *lex) {
return lex->source_name;
}
void mp_lexer_to_next(mp_lexer_t *lex) {
mp_lexer_next_token_into(lex, &lex->tok_cur, false);
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}
const mp_token_t *mp_lexer_cur(const mp_lexer_t *lex) {
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return &lex->tok_cur;
}
bool mp_lexer_is_kind(mp_lexer_t *lex, mp_token_kind_t kind) {
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return lex->tok_cur.kind == kind;
}
/*
bool mp_lexer_is_str(mp_lexer_t *lex, const char *str) {
return mp_token_is_str(&lex->tok_cur, str);
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}
bool mp_lexer_opt_kind(mp_lexer_t *lex, mp_token_kind_t kind) {
if (mp_lexer_is_kind(lex, kind)) {
mp_lexer_to_next(lex);
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return true;
}
return false;
}
bool mp_lexer_opt_str(mp_lexer_t *lex, const char *str) {
if (mp_lexer_is_str(lex, str)) {
mp_lexer_to_next(lex);
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return true;
}
return false;
}
*/
bool mp_lexer_show_error_pythonic_prefix(mp_lexer_t *lex) {
printf(" File \"%s\", line %d column %d\n", qstr_str(lex->source_name), lex->tok_cur.src_line, lex->tok_cur.src_column);
return false;
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}
bool mp_lexer_show_error_pythonic(mp_lexer_t *lex, const char *msg) {
printf(" File \"%s\", line %d column %d\n%s\n", qstr_str(lex->source_name), lex->tok_cur.src_line, lex->tok_cur.src_column, msg);
return false;
}