555 lines
17 KiB
C
555 lines
17 KiB
C
#include "tree_sitter/parser.h"
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#define STATE_COUNT 32
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#define SYMBOL_COUNT 18
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enum {
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ts_sym_expression = ts_start_sym,
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ts_sym_sum,
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ts_sym_difference,
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ts_sym_product,
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ts_sym_quotient,
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ts_sym_exponent,
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ts_sym_group,
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ts_sym_number,
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ts_sym_variable,
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ts_aux_sym_1,
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ts_aux_sym_2,
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ts_aux_sym_3,
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ts_aux_sym_4,
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ts_aux_sym_5,
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ts_aux_sym_6,
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ts_aux_sym_7,
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};
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SYMBOL_NAMES = {
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[ts_sym_expression] = "expression",
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[ts_sym_sum] = "sum",
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[ts_sym_difference] = "difference",
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[ts_sym_product] = "product",
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[ts_sym_quotient] = "quotient",
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[ts_sym_exponent] = "exponent",
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[ts_sym_group] = "group",
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[ts_builtin_sym_error] = "error",
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[ts_builtin_sym_end] = "end",
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[ts_sym_number] = "number",
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[ts_sym_variable] = "variable",
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[ts_aux_sym_1] = "'+'",
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[ts_aux_sym_2] = "'-'",
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[ts_aux_sym_3] = "'*'",
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[ts_aux_sym_4] = "'/'",
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[ts_aux_sym_5] = "'^'",
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[ts_aux_sym_6] = "'('",
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[ts_aux_sym_7] = "')'",
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};
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UBIQUITOUS_SYMBOLS = {
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};
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HIDDEN_SYMBOLS = {
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[ts_aux_sym_1] = 1,
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[ts_aux_sym_2] = 1,
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[ts_aux_sym_3] = 1,
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[ts_aux_sym_4] = 1,
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[ts_aux_sym_5] = 1,
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[ts_aux_sym_6] = 1,
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[ts_aux_sym_7] = 1,
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};
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LEX_FN() {
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START_LEXER();
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switch (lex_state) {
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case 1:
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START_TOKEN();
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if (('\t' <= lookahead && lookahead <= '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(1);
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if (lookahead == '(')
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ADVANCE(2);
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if ('0' <= lookahead && lookahead <= '9')
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ADVANCE(3);
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if (('A' <= lookahead && lookahead <= 'Z') ||
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('a' <= lookahead && lookahead <= 'z'))
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ADVANCE(4);
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LEX_ERROR();
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case 2:
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ACCEPT_TOKEN(ts_aux_sym_6);
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case 3:
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if ('0' <= lookahead && lookahead <= '9')
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ADVANCE(3);
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ACCEPT_TOKEN(ts_sym_number);
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case 4:
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if (('0' <= lookahead && lookahead <= '9') ||
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('A' <= lookahead && lookahead <= 'Z') ||
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(lookahead == '_') ||
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('a' <= lookahead && lookahead <= 'z'))
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ADVANCE(4);
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ACCEPT_TOKEN(ts_sym_variable);
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case 5:
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START_TOKEN();
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if (lookahead == '\0')
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ADVANCE(6);
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if (('\t' <= lookahead && lookahead <= '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(5);
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if (lookahead == '*')
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ADVANCE(7);
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if (lookahead == '+')
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ADVANCE(8);
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if (lookahead == '-')
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ADVANCE(9);
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if (lookahead == '/')
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ADVANCE(10);
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if (lookahead == '^')
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ADVANCE(11);
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LEX_ERROR();
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case 6:
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ACCEPT_TOKEN(ts_builtin_sym_end);
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case 7:
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ACCEPT_TOKEN(ts_aux_sym_3);
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case 8:
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ACCEPT_TOKEN(ts_aux_sym_1);
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case 9:
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ACCEPT_TOKEN(ts_aux_sym_2);
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case 10:
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ACCEPT_TOKEN(ts_aux_sym_4);
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case 11:
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ACCEPT_TOKEN(ts_aux_sym_5);
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case 12:
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START_TOKEN();
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if (('\t' <= lookahead && lookahead <= '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(12);
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if (lookahead == ')')
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ADVANCE(13);
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if (lookahead == '*')
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ADVANCE(7);
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if (lookahead == '+')
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ADVANCE(8);
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if (lookahead == '-')
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ADVANCE(9);
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if (lookahead == '/')
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ADVANCE(10);
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if (lookahead == '^')
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ADVANCE(11);
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LEX_ERROR();
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case 13:
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ACCEPT_TOKEN(ts_aux_sym_7);
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case 14:
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START_TOKEN();
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if ((lookahead == '\t') ||
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(lookahead == '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(14);
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if (lookahead == ')')
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ADVANCE(13);
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LEX_ERROR();
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case 15:
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START_TOKEN();
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if (lookahead == '\0')
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ADVANCE(6);
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if (('\t' <= lookahead && lookahead <= '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(15);
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if (lookahead == '(')
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ADVANCE(2);
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if (lookahead == ')')
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ADVANCE(13);
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if (lookahead == '*')
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ADVANCE(7);
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if (lookahead == '+')
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ADVANCE(8);
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if (lookahead == '-')
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ADVANCE(9);
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if (lookahead == '/')
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ADVANCE(10);
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if ('0' <= lookahead && lookahead <= '9')
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ADVANCE(3);
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if (('A' <= lookahead && lookahead <= 'Z') ||
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('a' <= lookahead && lookahead <= 'z'))
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ADVANCE(4);
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if (lookahead == '^')
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ADVANCE(11);
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LEX_ERROR();
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case ts_lex_state_error:
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START_TOKEN();
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if (lookahead == '\0')
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ADVANCE(6);
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if (('\t' <= lookahead && lookahead <= '\n') ||
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(lookahead == '\r') ||
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(lookahead == ' '))
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ADVANCE(15);
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if (lookahead == '(')
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ADVANCE(2);
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if (lookahead == ')')
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ADVANCE(13);
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if (lookahead == '*')
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ADVANCE(7);
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if (lookahead == '+')
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ADVANCE(8);
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if (lookahead == '-')
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ADVANCE(9);
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if (lookahead == '/')
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ADVANCE(10);
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if ('0' <= lookahead && lookahead <= '9')
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ADVANCE(3);
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if (('A' <= lookahead && lookahead <= 'Z') ||
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('a' <= lookahead && lookahead <= 'z'))
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ADVANCE(4);
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if (lookahead == '^')
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ADVANCE(11);
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LEX_ERROR();
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default:
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LEX_PANIC();
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}
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}
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LEX_STATES = {
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[0] = 1,
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[1] = 5,
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[2] = 1,
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[3] = 5,
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[4] = 1,
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[5] = 5,
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[6] = 1,
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[7] = 5,
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[8] = 1,
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[9] = 5,
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[10] = 1,
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[11] = 5,
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[12] = 5,
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[13] = 1,
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[14] = 12,
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[15] = 1,
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[16] = 12,
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[17] = 1,
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[18] = 12,
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[19] = 1,
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[20] = 12,
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[21] = 1,
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[22] = 12,
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[23] = 1,
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[24] = 12,
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[25] = 12,
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[26] = 1,
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[27] = 12,
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[28] = 12,
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[29] = 14,
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[30] = 5,
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[31] = 14,
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};
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wmissing-field-initializers"
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PARSE_TABLE = {
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[0] = {
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[ts_sym_expression] = SHIFT(1),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[1] = {
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[ts_builtin_sym_end] = ACCEPT_INPUT(),
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[ts_aux_sym_1] = SHIFT(2),
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[ts_aux_sym_2] = SHIFT(4),
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[ts_aux_sym_3] = SHIFT(6),
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[ts_aux_sym_4] = SHIFT(8),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[2] = {
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[ts_sym_expression] = SHIFT(3),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[3] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_sum, 3),
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[ts_aux_sym_1] = SHIFT(2),
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[ts_aux_sym_2] = SHIFT(4),
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[ts_aux_sym_3] = SHIFT(6),
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[ts_aux_sym_4] = SHIFT(8),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[4] = {
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[ts_sym_expression] = SHIFT(5),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[5] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_difference, 3),
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[ts_aux_sym_1] = SHIFT(2),
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[ts_aux_sym_2] = SHIFT(4),
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[ts_aux_sym_3] = SHIFT(6),
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[ts_aux_sym_4] = SHIFT(8),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[6] = {
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[ts_sym_expression] = SHIFT(7),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[7] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_product, 3),
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[ts_aux_sym_1] = REDUCE(ts_sym_product, 3),
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[ts_aux_sym_2] = REDUCE(ts_sym_product, 3),
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[ts_aux_sym_3] = SHIFT(6),
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[ts_aux_sym_4] = SHIFT(8),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[8] = {
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[ts_sym_expression] = SHIFT(9),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[9] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_quotient, 3),
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[ts_aux_sym_1] = REDUCE(ts_sym_quotient, 3),
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[ts_aux_sym_2] = REDUCE(ts_sym_quotient, 3),
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[ts_aux_sym_3] = SHIFT(6),
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[ts_aux_sym_4] = SHIFT(8),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[10] = {
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[ts_sym_expression] = SHIFT(11),
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[ts_sym_sum] = SHIFT(12),
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[ts_sym_difference] = SHIFT(12),
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[ts_sym_product] = SHIFT(12),
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[ts_sym_quotient] = SHIFT(12),
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[ts_sym_exponent] = SHIFT(12),
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[ts_sym_group] = SHIFT(12),
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[ts_sym_number] = SHIFT(12),
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[ts_sym_variable] = SHIFT(12),
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[ts_aux_sym_6] = SHIFT(13),
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},
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[11] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_exponent, 3),
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[ts_aux_sym_1] = REDUCE(ts_sym_exponent, 3),
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[ts_aux_sym_2] = REDUCE(ts_sym_exponent, 3),
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[ts_aux_sym_3] = REDUCE(ts_sym_exponent, 3),
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[ts_aux_sym_4] = REDUCE(ts_sym_exponent, 3),
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[ts_aux_sym_5] = SHIFT(10),
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},
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[12] = {
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[ts_builtin_sym_end] = REDUCE(ts_sym_expression, 1),
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[ts_aux_sym_1] = REDUCE(ts_sym_expression, 1),
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[ts_aux_sym_2] = REDUCE(ts_sym_expression, 1),
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[ts_aux_sym_3] = REDUCE(ts_sym_expression, 1),
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[ts_aux_sym_4] = REDUCE(ts_sym_expression, 1),
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[ts_aux_sym_5] = REDUCE(ts_sym_expression, 1),
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},
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[13] = {
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[ts_sym_expression] = SHIFT(14),
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[ts_sym_sum] = SHIFT(25),
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[ts_sym_difference] = SHIFT(25),
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[ts_sym_product] = SHIFT(25),
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[ts_sym_quotient] = SHIFT(25),
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[ts_sym_exponent] = SHIFT(25),
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[ts_sym_group] = SHIFT(25),
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[ts_builtin_sym_error] = SHIFT(31),
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[ts_sym_number] = SHIFT(25),
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[ts_sym_variable] = SHIFT(25),
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[ts_aux_sym_6] = SHIFT(26),
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},
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[14] = {
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[ts_aux_sym_1] = SHIFT(15),
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[ts_aux_sym_2] = SHIFT(17),
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[ts_aux_sym_3] = SHIFT(19),
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[ts_aux_sym_4] = SHIFT(21),
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[ts_aux_sym_5] = SHIFT(23),
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[ts_aux_sym_7] = SHIFT(30),
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},
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[15] = {
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[ts_sym_expression] = SHIFT(16),
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[ts_sym_sum] = SHIFT(25),
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[ts_sym_difference] = SHIFT(25),
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[ts_sym_product] = SHIFT(25),
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[ts_sym_quotient] = SHIFT(25),
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[ts_sym_exponent] = SHIFT(25),
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[ts_sym_group] = SHIFT(25),
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[ts_sym_number] = SHIFT(25),
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[ts_sym_variable] = SHIFT(25),
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[ts_aux_sym_6] = SHIFT(26),
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},
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[16] = {
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[ts_aux_sym_1] = SHIFT(15),
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[ts_aux_sym_2] = SHIFT(17),
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[ts_aux_sym_3] = SHIFT(19),
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[ts_aux_sym_4] = SHIFT(21),
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[ts_aux_sym_5] = SHIFT(23),
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[ts_aux_sym_7] = REDUCE(ts_sym_sum, 3),
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},
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[17] = {
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[ts_sym_expression] = SHIFT(18),
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[ts_sym_sum] = SHIFT(25),
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[ts_sym_difference] = SHIFT(25),
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[ts_sym_product] = SHIFT(25),
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[ts_sym_quotient] = SHIFT(25),
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[ts_sym_exponent] = SHIFT(25),
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[ts_sym_group] = SHIFT(25),
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[ts_sym_number] = SHIFT(25),
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[ts_sym_variable] = SHIFT(25),
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[ts_aux_sym_6] = SHIFT(26),
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},
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[18] = {
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[ts_aux_sym_1] = SHIFT(15),
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[ts_aux_sym_2] = SHIFT(17),
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[ts_aux_sym_3] = SHIFT(19),
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[ts_aux_sym_4] = SHIFT(21),
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[ts_aux_sym_5] = SHIFT(23),
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[ts_aux_sym_7] = REDUCE(ts_sym_difference, 3),
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},
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[19] = {
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[ts_sym_expression] = SHIFT(20),
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[ts_sym_sum] = SHIFT(25),
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[ts_sym_difference] = SHIFT(25),
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[ts_sym_product] = SHIFT(25),
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[ts_sym_quotient] = SHIFT(25),
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[ts_sym_exponent] = SHIFT(25),
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[ts_sym_group] = SHIFT(25),
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[ts_sym_number] = SHIFT(25),
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[ts_sym_variable] = SHIFT(25),
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[ts_aux_sym_6] = SHIFT(26),
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},
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[20] = {
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[ts_aux_sym_1] = REDUCE(ts_sym_product, 3),
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[ts_aux_sym_2] = REDUCE(ts_sym_product, 3),
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[ts_aux_sym_3] = SHIFT(19),
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[ts_aux_sym_4] = SHIFT(21),
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[ts_aux_sym_5] = SHIFT(23),
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[ts_aux_sym_7] = REDUCE(ts_sym_product, 3),
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},
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[21] = {
|
|
[ts_sym_expression] = SHIFT(22),
|
|
[ts_sym_sum] = SHIFT(25),
|
|
[ts_sym_difference] = SHIFT(25),
|
|
[ts_sym_product] = SHIFT(25),
|
|
[ts_sym_quotient] = SHIFT(25),
|
|
[ts_sym_exponent] = SHIFT(25),
|
|
[ts_sym_group] = SHIFT(25),
|
|
[ts_sym_number] = SHIFT(25),
|
|
[ts_sym_variable] = SHIFT(25),
|
|
[ts_aux_sym_6] = SHIFT(26),
|
|
},
|
|
[22] = {
|
|
[ts_aux_sym_1] = REDUCE(ts_sym_quotient, 3),
|
|
[ts_aux_sym_2] = REDUCE(ts_sym_quotient, 3),
|
|
[ts_aux_sym_3] = SHIFT(19),
|
|
[ts_aux_sym_4] = SHIFT(21),
|
|
[ts_aux_sym_5] = SHIFT(23),
|
|
[ts_aux_sym_7] = REDUCE(ts_sym_quotient, 3),
|
|
},
|
|
[23] = {
|
|
[ts_sym_expression] = SHIFT(24),
|
|
[ts_sym_sum] = SHIFT(25),
|
|
[ts_sym_difference] = SHIFT(25),
|
|
[ts_sym_product] = SHIFT(25),
|
|
[ts_sym_quotient] = SHIFT(25),
|
|
[ts_sym_exponent] = SHIFT(25),
|
|
[ts_sym_group] = SHIFT(25),
|
|
[ts_sym_number] = SHIFT(25),
|
|
[ts_sym_variable] = SHIFT(25),
|
|
[ts_aux_sym_6] = SHIFT(26),
|
|
},
|
|
[24] = {
|
|
[ts_aux_sym_1] = REDUCE(ts_sym_exponent, 3),
|
|
[ts_aux_sym_2] = REDUCE(ts_sym_exponent, 3),
|
|
[ts_aux_sym_3] = REDUCE(ts_sym_exponent, 3),
|
|
[ts_aux_sym_4] = REDUCE(ts_sym_exponent, 3),
|
|
[ts_aux_sym_5] = SHIFT(23),
|
|
[ts_aux_sym_7] = REDUCE(ts_sym_exponent, 3),
|
|
},
|
|
[25] = {
|
|
[ts_aux_sym_1] = REDUCE(ts_sym_expression, 1),
|
|
[ts_aux_sym_2] = REDUCE(ts_sym_expression, 1),
|
|
[ts_aux_sym_3] = REDUCE(ts_sym_expression, 1),
|
|
[ts_aux_sym_4] = REDUCE(ts_sym_expression, 1),
|
|
[ts_aux_sym_5] = REDUCE(ts_sym_expression, 1),
|
|
[ts_aux_sym_7] = REDUCE(ts_sym_expression, 1),
|
|
},
|
|
[26] = {
|
|
[ts_sym_expression] = SHIFT(27),
|
|
[ts_sym_sum] = SHIFT(25),
|
|
[ts_sym_difference] = SHIFT(25),
|
|
[ts_sym_product] = SHIFT(25),
|
|
[ts_sym_quotient] = SHIFT(25),
|
|
[ts_sym_exponent] = SHIFT(25),
|
|
[ts_sym_group] = SHIFT(25),
|
|
[ts_builtin_sym_error] = SHIFT(29),
|
|
[ts_sym_number] = SHIFT(25),
|
|
[ts_sym_variable] = SHIFT(25),
|
|
[ts_aux_sym_6] = SHIFT(26),
|
|
},
|
|
[27] = {
|
|
[ts_aux_sym_1] = SHIFT(15),
|
|
[ts_aux_sym_2] = SHIFT(17),
|
|
[ts_aux_sym_3] = SHIFT(19),
|
|
[ts_aux_sym_4] = SHIFT(21),
|
|
[ts_aux_sym_5] = SHIFT(23),
|
|
[ts_aux_sym_7] = SHIFT(28),
|
|
},
|
|
[28] = {
|
|
[ts_aux_sym_1] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_2] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_3] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_4] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_5] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_7] = REDUCE(ts_sym_group, 3),
|
|
},
|
|
[29] = {
|
|
[ts_aux_sym_7] = SHIFT(28),
|
|
},
|
|
[30] = {
|
|
[ts_builtin_sym_end] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_1] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_2] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_3] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_4] = REDUCE(ts_sym_group, 3),
|
|
[ts_aux_sym_5] = REDUCE(ts_sym_group, 3),
|
|
},
|
|
[31] = {
|
|
[ts_aux_sym_7] = SHIFT(30),
|
|
},
|
|
};
|
|
|
|
#pragma GCC diagnostic pop
|
|
|
|
EXPORT_PARSER(ts_parser_arithmetic);
|