160 lines
5.1 KiB
C
160 lines
5.1 KiB
C
/*
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* Copyright (c) Camden Dixie O'Brien
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* SPDX-License-Identifier: AGPL-3.0-only
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*/
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#include "desugar.h"
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#include "testing.h"
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#include <stddef.h>
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static void a_is_unchanged(void)
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{
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parse_term_t *terms = malloc(1 * sizeof(parse_term_t));
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terms[0].quantifier = PARSE_QUANTIFIER_NONE;
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terms[0].type = PARSE_TERM_LITERAL;
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terms[0].literal = 'a';
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parse_sequence_t *alternatives = malloc(1 * sizeof(parse_sequence_t));
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alternatives[0].len = alternatives[0].capacity = 1;
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alternatives[0].contents = terms;
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parse_tree_t t
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= { .count = 1, .capacity = 1, .alternatives = alternatives };
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desugar_regex(&t);
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ASSERT_EQ(1, t.count);
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ASSERT_NOT_NULL(t.alternatives);
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ASSERT_EQ(1, t.alternatives[0].len);
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ASSERT_NOT_NULL(t.alternatives[0].contents);
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ASSERT_EQ(
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PARSE_QUANTIFIER_NONE, t.alternatives[0].contents[0].quantifier);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[0].contents[0].type);
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ASSERT_EQ('a', t.alternatives[0].contents[0].literal);
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parse_free_tree_children(&t);
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}
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static void abc_is_unchanged(void)
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{
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parse_term_t *terms = malloc(3 * sizeof(parse_term_t));
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terms[0].type = PARSE_TERM_LITERAL;
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terms[0].literal = 'a';
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terms[1].type = PARSE_TERM_LITERAL;
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terms[1].literal = 'b';
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terms[2].type = PARSE_TERM_LITERAL;
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terms[2].literal = 'c';
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parse_sequence_t *alternatives = malloc(1 * sizeof(parse_sequence_t));
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alternatives[0].len = alternatives[0].capacity = 3;
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alternatives[0].contents = terms;
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parse_tree_t t
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= { .count = 1, .capacity = 1, .alternatives = alternatives };
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desugar_regex(&t);
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ASSERT_EQ(1, t.count);
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ASSERT_NOT_NULL(t.alternatives);
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ASSERT_EQ(3, t.alternatives[0].len);
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ASSERT_NOT_NULL(t.alternatives[0].contents);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[0].contents[0].type);
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ASSERT_EQ('a', t.alternatives[0].contents[0].literal);
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ASSERT_NOT_NULL(t.alternatives[0].contents);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[0].contents[1].type);
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ASSERT_EQ('b', t.alternatives[0].contents[1].literal);
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ASSERT_NOT_NULL(t.alternatives[0].contents);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[0].contents[2].type);
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ASSERT_EQ('c', t.alternatives[0].contents[2].literal);
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parse_free_tree_children(&t);
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}
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static void a_star_is_unchanged(void)
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{
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parse_term_t *terms = malloc(1 * sizeof(parse_term_t));
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terms[0].quantifier = PARSE_QUANTIFIER_STAR;
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terms[0].type = PARSE_TERM_LITERAL;
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terms[0].literal = 'a';
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parse_sequence_t *alternatives = malloc(1 * sizeof(parse_sequence_t));
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alternatives[0].len = alternatives[0].capacity = 1;
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alternatives[0].contents = terms;
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parse_tree_t t
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= { .count = 1, .capacity = 1, .alternatives = alternatives };
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desugar_regex(&t);
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ASSERT_EQ(1, t.count);
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ASSERT_NOT_NULL(t.alternatives);
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ASSERT_EQ(1, t.alternatives[0].len);
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ASSERT_NOT_NULL(t.alternatives[0].contents);
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ASSERT_EQ(
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PARSE_QUANTIFIER_STAR, t.alternatives[0].contents[0].quantifier);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[0].contents[0].type);
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ASSERT_EQ('a', t.alternatives[0].contents[0].literal);
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parse_free_tree_children(&t);
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}
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static void a_or_b_or_c_is_unchanged(void)
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{
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const char *literals = "abc";
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parse_sequence_t *alternatives = malloc(3 * sizeof(parse_sequence_t));
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for (int i = 0; i < 3; ++i) {
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parse_term_t *terms = malloc(1 * sizeof(parse_term_t));
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terms[0].quantifier = PARSE_QUANTIFIER_NONE;
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terms[0].type = PARSE_TERM_LITERAL;
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terms[0].literal = literals[i];
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alternatives[i].len = alternatives[i].capacity = 1;
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alternatives[i].contents = terms;
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}
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parse_tree_t t
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= { .count = 3, .capacity = 3, .alternatives = alternatives };
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desugar_regex(&t);
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ASSERT_EQ(3, t.count);
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ASSERT_NOT_NULL(t.alternatives);
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for (int i = 0; i < 3; ++i) {
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ASSERT_EQ(1, t.alternatives[i].len);
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ASSERT_NOT_NULL(t.alternatives[i].contents);
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ASSERT_EQ(
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PARSE_QUANTIFIER_NONE, t.alternatives[i].contents[0].quantifier);
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ASSERT_EQ(PARSE_TERM_LITERAL, t.alternatives[i].contents[0].type);
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ASSERT_EQ(literals[i], t.alternatives[i].contents[0].literal);
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}
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parse_free_tree_children(&t);
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}
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static void subexpr_a_is_unchanged(void)
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{
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parse_term_t *inner_terms = malloc(1 * sizeof(parse_term_t));
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inner_terms[0].quantifier = PARSE_QUANTIFIER_NONE;
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inner_terms[0].type = PARSE_TERM_LITERAL;
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inner_terms[0].literal = 'a';
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parse_sequence_t *inner_alternatives
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= malloc(1 * sizeof(parse_sequence_t));
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inner_alternatives[0].len = inner_alternatives[0].capacity = 1;
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inner_alternatives[0].contents = inner_terms;
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parse_term_t *terms = malloc(1 * sizeof(parse_term_t));
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terms[0].quantifier = PARSE_QUANTIFIER_NONE;
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terms[0].type = PARSE_TERM_SUBEXPR;
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terms[0].subexpr.count = terms[0].subexpr.capacity = 1;
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terms[0].subexpr.alternatives = inner_alternatives;
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parse_sequence_t *alternatives = malloc(1 * sizeof(parse_sequence_t));
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alternatives[0].len = alternatives[0].capacity = 1;
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alternatives[0].contents = terms;
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parse_tree_t t
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= { .count = 1, .capacity = 1, .alternatives = alternatives };
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desugar_regex(&t);
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parse_free_tree_children(&t);
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}
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int main(void)
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{
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TESTING_BEGIN();
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a_is_unchanged();
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abc_is_unchanged();
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a_star_is_unchanged();
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a_or_b_or_c_is_unchanged();
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subexpr_a_is_unchanged();
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return TESTING_END();
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}
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