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tree-sitter/examples/parsers/arithmetic.c
Max Brunsfeld 0dc3a95d0c Refactor parser header 
Make separate lexer, stack and parser structs.
2014-03-15 14:43:50 -07:00

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#include "tree_sitter/parser.h"
enum {
ts_sym_expression,
ts_sym_factor,
ts_sym_number,
ts_sym_plus,
ts_sym_term,
ts_sym_times,
ts_sym_variable,
ts_aux_sym_token1,
ts_aux_sym_token2,
};
SYMBOL_NAMES {
"expression",
"factor",
"number",
"plus",
"term",
"times",
"variable",
"token1",
"token2",
};
RECOVER_FN() {
switch (state) {
case 6:
RECOVER(7, 1, EXPECT({ts_aux_sym_token2}));
case 13:
RECOVER(14, 1, EXPECT({ts_aux_sym_token2}));
case 23:
RECOVER(24, 1, EXPECT({ts_aux_sym_token2}));
case 26:
RECOVER(27, 1, EXPECT({ts_aux_sym_token2}));
case 31:
RECOVER(32, 1, EXPECT({ts_aux_sym_token2}));
case 41:
RECOVER(42, 1, EXPECT({ts_aux_sym_token2}));
case 46:
RECOVER(47, 1, EXPECT({ts_aux_sym_token2}));
case 49:
RECOVER(50, 1, EXPECT({ts_aux_sym_token2}));
default:
RECOVER(0, 0, EXPECT({}));
}
}
LEX_FN() {
START_LEXER();
switch (LEX_STATE()) {
case 0:
LEX_ERROR();
case 1:
if (LOOKAHEAD_CHAR() == '+')
ADVANCE(2);
LEX_ERROR();
case 2:
ACCEPT_TOKEN(ts_sym_plus);
case 3:
if (LOOKAHEAD_CHAR() == ')')
ADVANCE(4);
LEX_ERROR();
case 4:
ACCEPT_TOKEN(ts_aux_sym_token2);
case 5:
if (LOOKAHEAD_CHAR() == ')')
ADVANCE(4);
if (LOOKAHEAD_CHAR() == '+')
ADVANCE(2);
LEX_ERROR();
case 6:
if (LOOKAHEAD_CHAR() == ')')
ADVANCE(4);
if (LOOKAHEAD_CHAR() == '*')
ADVANCE(7);
if (LOOKAHEAD_CHAR() == '+')
ADVANCE(2);
LEX_ERROR();
case 7:
ACCEPT_TOKEN(ts_sym_times);
case 8:
if (LOOKAHEAD_CHAR() == '(')
ADVANCE(9);
if ('0' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= '9')
ADVANCE(10);
if (('A' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'Z') ||
('a' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'z'))
ADVANCE(11);
LEX_ERROR();
case 9:
ACCEPT_TOKEN(ts_aux_sym_token1);
case 10:
if ('0' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= '9')
ADVANCE(10);
ACCEPT_TOKEN(ts_sym_number);
case 11:
if (('A' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'Z') ||
('a' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'z'))
ADVANCE(11);
ACCEPT_TOKEN(ts_sym_variable);
case 12:
if (LOOKAHEAD_CHAR() == ')')
ADVANCE(4);
if (LOOKAHEAD_CHAR() == '*')
ADVANCE(7);
LEX_ERROR();
case 13:
if (LOOKAHEAD_CHAR() == '*')
ADVANCE(7);
if (LOOKAHEAD_CHAR() == '+')
ADVANCE(2);
LEX_ERROR();
case 14:
if (LOOKAHEAD_CHAR() == '*')
ADVANCE(7);
LEX_ERROR();
case ts_lex_state_error:
if (LOOKAHEAD_CHAR() == '(')
ADVANCE(9);
if (LOOKAHEAD_CHAR() == ')')
ADVANCE(4);
if (LOOKAHEAD_CHAR() == '*')
ADVANCE(7);
if (LOOKAHEAD_CHAR() == '+')
ADVANCE(2);
if ('0' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= '9')
ADVANCE(10);
if (('A' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'Z') ||
('a' <= LOOKAHEAD_CHAR() && LOOKAHEAD_CHAR() <= 'z'))
ADVANCE(11);
LEX_ERROR();
default:
LEX_PANIC();
}
}
PARSE_FN() {
START_PARSER();
switch (PARSE_STATE()) {
case 0:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(1);
case ts_sym_factor:
SHIFT(2);
case ts_sym_number:
SHIFT(34);
case ts_sym_term:
SHIFT(35);
case ts_sym_variable:
SHIFT(34);
case ts_aux_sym_token1:
SHIFT(49);
default:
PARSE_ERROR(6, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1}));
}
case 1:
SET_LEX_STATE(0);
switch (LOOKAHEAD_SYM()) {
case ts_builtin_sym_end:
ACCEPT_INPUT();
default:
PARSE_ERROR(1, EXPECT({ts_builtin_sym_end}));
}
case 2:
SET_LEX_STATE(13);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
case ts_sym_times:
SHIFT(3);
case ts_builtin_sym_end:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_builtin_sym_end}));
}
case 3:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(4);
case ts_sym_number:
SHIFT(5);
case ts_sym_variable:
SHIFT(5);
case ts_aux_sym_token1:
SHIFT(6);
default:
PARSE_ERROR(4, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_variable, ts_aux_sym_token1}));
}
case 4:
SET_LEX_STATE(1);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
case ts_builtin_sym_end:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_builtin_sym_end}));
}
case 5:
SET_LEX_STATE(1);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_builtin_sym_end}));
}
case 6:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(7);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(7);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 7:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(8);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 8:
SET_LEX_STATE(1);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_builtin_sym_end}));
}
case 9:
SET_LEX_STATE(6);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
case ts_sym_times:
SHIFT(10);
case ts_aux_sym_token2:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_aux_sym_token2}));
}
case 10:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(11);
case ts_sym_number:
SHIFT(12);
case ts_sym_variable:
SHIFT(12);
case ts_aux_sym_token1:
SHIFT(13);
default:
PARSE_ERROR(4, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_variable, ts_aux_sym_token1}));
}
case 11:
SET_LEX_STATE(5);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
case ts_aux_sym_token2:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_aux_sym_token2}));
}
case 12:
SET_LEX_STATE(5);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_aux_sym_token2}));
}
case 13:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(14);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(14);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 14:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(15);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 15:
SET_LEX_STATE(5);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_aux_sym_token2}));
}
case 16:
SET_LEX_STATE(6);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_sym_times:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_aux_sym_token2}));
}
case 17:
SET_LEX_STATE(5);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
SHIFT(18);
case ts_aux_sym_token2:
REDUCE(ts_sym_expression, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_aux_sym_token2}));
}
case 18:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(19);
case ts_sym_number:
SHIFT(29);
case ts_sym_term:
SHIFT(30);
case ts_sym_variable:
SHIFT(29);
case ts_aux_sym_token1:
SHIFT(31);
default:
PARSE_ERROR(5, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1}));
}
case 19:
SET_LEX_STATE(12);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
SHIFT(20);
case ts_aux_sym_token2:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_aux_sym_token2}));
}
case 20:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(21);
case ts_sym_number:
SHIFT(22);
case ts_sym_variable:
SHIFT(22);
case ts_aux_sym_token1:
SHIFT(23);
default:
PARSE_ERROR(4, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_variable, ts_aux_sym_token1}));
}
case 21:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 22:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 23:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(24);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(24);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 24:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(25);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 25:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 26:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(27);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(27);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 27:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(28);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 28:
SET_LEX_STATE(6);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_sym_times:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_aux_sym_token2}));
}
case 29:
SET_LEX_STATE(12);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_aux_sym_token2}));
}
case 30:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
REDUCE(ts_sym_expression, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 31:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(32);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(32);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 32:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(33);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 33:
SET_LEX_STATE(12);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_aux_sym_token2:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_aux_sym_token2}));
}
case 34:
SET_LEX_STATE(13);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_sym_times:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_builtin_sym_end}));
}
case 35:
SET_LEX_STATE(1);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
SHIFT(36);
case ts_builtin_sym_end:
REDUCE(ts_sym_expression, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_plus, ts_builtin_sym_end}));
}
case 36:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(37);
case ts_sym_number:
SHIFT(44);
case ts_sym_term:
SHIFT(45);
case ts_sym_variable:
SHIFT(44);
case ts_aux_sym_token1:
SHIFT(46);
default:
PARSE_ERROR(5, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1}));
}
case 37:
SET_LEX_STATE(14);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
SHIFT(38);
case ts_builtin_sym_end:
REDUCE(ts_sym_term, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_builtin_sym_end}));
}
case 38:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_factor:
SHIFT(39);
case ts_sym_number:
SHIFT(40);
case ts_sym_variable:
SHIFT(40);
case ts_aux_sym_token1:
SHIFT(41);
default:
PARSE_ERROR(4, EXPECT({ts_sym_factor, ts_sym_number, ts_sym_variable, ts_aux_sym_token1}));
}
case 39:
SET_LEX_STATE(0);
switch (LOOKAHEAD_SYM()) {
case ts_builtin_sym_end:
REDUCE(ts_sym_term, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(1, EXPECT({ts_builtin_sym_end}));
}
case 40:
SET_LEX_STATE(0);
switch (LOOKAHEAD_SYM()) {
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(1, EXPECT({ts_builtin_sym_end}));
}
case 41:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(42);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(42);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 42:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(43);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 43:
SET_LEX_STATE(0);
switch (LOOKAHEAD_SYM()) {
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(1, EXPECT({ts_builtin_sym_end}));
}
case 44:
SET_LEX_STATE(14);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 1, COLLAPSE({0}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_builtin_sym_end}));
}
case 45:
SET_LEX_STATE(0);
switch (LOOKAHEAD_SYM()) {
case ts_builtin_sym_end:
REDUCE(ts_sym_expression, 3, COLLAPSE({0, 0, 0}));
default:
PARSE_ERROR(1, EXPECT({ts_builtin_sym_end}));
}
case 46:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(47);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(47);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 47:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(48);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 48:
SET_LEX_STATE(14);
switch (LOOKAHEAD_SYM()) {
case ts_sym_times:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(2, EXPECT({ts_sym_times, ts_builtin_sym_end}));
}
case 49:
SET_LEX_STATE(8);
switch (LOOKAHEAD_SYM()) {
case ts_sym_expression:
SHIFT(50);
case ts_sym_factor:
SHIFT(9);
case ts_sym_number:
SHIFT(16);
case ts_sym_term:
SHIFT(17);
case ts_sym_variable:
SHIFT(16);
case ts_aux_sym_token1:
SHIFT(26);
case ts_builtin_sym_error:
SHIFT(50);
default:
PARSE_ERROR(7, EXPECT({ts_sym_expression, ts_sym_factor, ts_sym_number, ts_sym_term, ts_sym_variable, ts_aux_sym_token1, ts_builtin_sym_error}));
}
case 50:
SET_LEX_STATE(3);
switch (LOOKAHEAD_SYM()) {
case ts_aux_sym_token2:
SHIFT(51);
default:
PARSE_ERROR(1, EXPECT({ts_aux_sym_token2}));
}
case 51:
SET_LEX_STATE(13);
switch (LOOKAHEAD_SYM()) {
case ts_sym_plus:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_sym_times:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
case ts_builtin_sym_end:
REDUCE(ts_sym_factor, 3, COLLAPSE({1, 0, 1}));
default:
PARSE_ERROR(3, EXPECT({ts_sym_plus, ts_sym_times, ts_builtin_sym_end}));
}
default:
PARSE_PANIC();
}
FINISH_PARSER();
}
EXPORT_PARSER(ts_parse_config_arithmetic);
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