/* * boxes - Command line filter to draw/remove ASCII boxes around text * Copyright (c) 1999-2023 Thomas Jensen and the boxes contributors * * This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public * License, version 3, as published by the Free Software Foundation. * This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * You should have received a copy of the GNU General Public License along with this program. * If not, see . * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* * Unit tests of the 'remove' module */ #include "config.h" #include #include #include #include #include #include "boxes.h" #include "unicode.h" #include "tools.h" #include "remove_test.h" #include "global_mock.h" #include "utest_tools.h" void test_match_outer_shape_null(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" xx "); match_result_t *actual = match_outer_shape(BLEF, NULL, shape_line); assert_null(actual); actual = match_outer_shape(BLEF, input_line, NULL); assert_null(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_anchored(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" xx "); match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); uint32_t *expected_p = bxs_first_char_ptr(input_line, 3); assert_non_null(actual); assert_int_equal(3, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(expected_p, actual->p)); assert_int_equal(4, actual->len); assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_shiftable(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" "); match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); assert_non_null(actual); assert_int_equal(0, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(input_line->memory, actual->p)); assert_int_equal(0, actual->len); assert_int_equal(1, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_shortened(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" xx"); /* length 6 */ match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); assert_non_null(actual); assert_int_equal(0, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(input_line->memory, actual->p)); assert_int_equal(4, actual->len); /* only 4 characters matched */ assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_not_found(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" ---"); match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); assert_null(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_too_far_in(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx M xx "); bxstr_t *shape_line = bxs_from_ascii("x M"); match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); assert_null(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_left_edge(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" x yy"); bxstr_t *shape_line = bxs_from_ascii("x"); match_result_t *actual = match_outer_shape(BLEF, input_line, shape_line); uint32_t *expected_p = bxs_first_char_ptr(input_line, 3); assert_non_null(actual); assert_int_equal(3, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(expected_p, actual->p)); assert_int_equal(1, actual->len); assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_anchored(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" xx "); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); uint32_t *expected_p = bxs_first_char_ptr(input_line, 8); assert_non_null(actual); assert_int_equal(8, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(expected_p, actual->p)); assert_int_equal(4, actual->len); assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_shiftable(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii(" "); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); assert_non_null(actual); assert_int_equal(15, (int) actual->p_idx); assert_int_equal(1, is_char_at(actual->p, 0, char_nul)); assert_int_equal(0, actual->len); assert_int_equal(1, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_shortened(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii("xx "); /* length 6 */ match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); uint32_t *expected_p = bxs_first_char_ptr(input_line, 7); assert_non_null(actual); assert_int_equal(7, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(expected_p, actual->p)); assert_int_equal(4, actual->len); /* only 4 characters matched */ assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_not_found(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx x xx "); bxstr_t *shape_line = bxs_from_ascii("--- "); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); assert_null(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_too_far_in(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" xx M xx "); bxstr_t *shape_line = bxs_from_ascii("M x"); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); assert_null(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_shortened2(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii(" x Y"); bxstr_t *shape_line = bxs_from_ascii("Y "); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); uint32_t *expected_p = bxs_first_char_ptr(input_line, 4); assert_non_null(actual); assert_int_equal(4, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(expected_p, actual->p)); assert_int_equal(1, actual->len); assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_match_outer_shape_right_edge(void **state) { UNUSED(state); bxstr_t *input_line = bxs_from_ascii("x"); bxstr_t *shape_line = bxs_from_ascii("x"); match_result_t *actual = match_outer_shape(BRIG, input_line, shape_line); assert_non_null(actual); assert_int_equal(0, (int) actual->p_idx); assert_int_equal(0, u32_strcmp(input_line->memory, actual->p)); assert_int_equal(1, actual->len); assert_int_equal(0, actual->shiftable); BFREE(actual); bxs_free(input_line); bxs_free(shape_line); } void test_shorten_preferleft_allowall(void **state) { UNUSED(state); shape_line_ctx_t *shape_line_ctx = (shape_line_ctx_t *) calloc(1, sizeof(shape_line_ctx_t)); shape_line_ctx->text = bxs_from_ascii(" abc "); size_t quality = shape_line_ctx->text->num_chars; uint32_t *actual = shorten(shape_line_ctx, &quality, 1, 1, 1); uint32_t *expected = u32_strconv_from_arg(" abc ", "ASCII"); assert_int_equal(6, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 1); expected = u32_strconv_from_arg("abc ", "ASCII"); assert_int_equal(5, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 1); expected = u32_strconv_from_arg("abc ", "ASCII"); assert_int_equal(4, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 1); expected = u32_strconv_from_arg("abc", "ASCII"); assert_int_equal(3, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 1); assert_int_equal(3, (int) quality); assert_null(actual); BFREE(actual); bxs_free(shape_line_ctx->text); BFREE(shape_line_ctx); } void test_shorten_preferleft_allowright(void **state) { UNUSED(state); shape_line_ctx_t *shape_line_ctx = (shape_line_ctx_t *) calloc(1, sizeof(shape_line_ctx_t)); shape_line_ctx->text = bxs_from_ascii(" abc "); size_t quality = shape_line_ctx->text->num_chars; uint32_t *actual = shorten(shape_line_ctx, &quality, 1, 0, 1); uint32_t *expected = u32_strconv_from_arg(" abc ", "ASCII"); assert_int_equal(6, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 0, 1); expected = u32_strconv_from_arg(" abc", "ASCII"); assert_int_equal(5, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 0, 1); assert_int_equal(5, (int) quality); assert_null(actual); BFREE(actual); bxs_free(shape_line_ctx->text); BFREE(shape_line_ctx); } void test_shorten_preferleft_allowleft(void **state) { UNUSED(state); shape_line_ctx_t *shape_line_ctx = (shape_line_ctx_t *) calloc(1, sizeof(shape_line_ctx_t)); shape_line_ctx->text = bxs_from_ascii(" abc "); size_t quality = shape_line_ctx->text->num_chars; uint32_t *actual = shorten(shape_line_ctx, &quality, 1, 1, 0); uint32_t *expected = u32_strconv_from_arg(" abc ", "ASCII"); assert_int_equal(6, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 0); expected = u32_strconv_from_arg("abc ", "ASCII"); assert_int_equal(5, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 1, 1, 0); assert_int_equal(5, (int) quality); assert_null(actual); BFREE(actual); bxs_free(shape_line_ctx->text); BFREE(shape_line_ctx); } void test_shorten_preferright_allowall(void **state) { UNUSED(state); shape_line_ctx_t *shape_line_ctx = (shape_line_ctx_t *) calloc(1, sizeof(shape_line_ctx_t)); shape_line_ctx->text = bxs_from_ascii(" abc "); size_t quality = shape_line_ctx->text->num_chars; uint32_t *actual = shorten(shape_line_ctx, &quality, 0, 1, 1); uint32_t *expected = u32_strconv_from_arg(" abc ", "ASCII"); assert_int_equal(6, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 0, 1, 1); expected = u32_strconv_from_arg(" abc", "ASCII"); assert_int_equal(5, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 0, 1, 1); expected = u32_strconv_from_arg(" abc", "ASCII"); assert_int_equal(4, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 0, 1, 1); expected = u32_strconv_from_arg("abc", "ASCII"); assert_int_equal(3, (int) quality); assert_int_equal(0, u32_strcmp(expected, actual)); BFREE(actual); BFREE(expected); actual = shorten(shape_line_ctx, &quality, 0, 1, 1); assert_int_equal(3, (int) quality); assert_null(actual); BFREE(actual); bxs_free(shape_line_ctx->text); BFREE(shape_line_ctx); } void test_shorten_corner_cases(void **state) { UNUSED(state); shape_line_ctx_t *shape_line_ctx = (shape_line_ctx_t *) calloc(1, sizeof(shape_line_ctx_t)); shape_line_ctx->text = bxs_from_ascii(" abc "); size_t quality = shape_line_ctx->text->num_chars; uint32_t *actual = shorten(shape_line_ctx, &quality, 0, 0, 0); assert_int_equal(7, (int) quality); assert_null(actual); actual = shorten(NULL, &quality, 1, 1, 0); assert_int_equal(7, (int) quality); assert_null(actual); quality = 100; /* > 7 */ actual = shorten(shape_line_ctx, &quality, 0, 0, 0); assert_int_equal(100, (int) quality); assert_null(actual); actual = shorten(shape_line_ctx, NULL, 0, 0, 1); assert_null(actual); /* quality == NULL */ quality = 7; bxs_free(shape_line_ctx->text); shape_line_ctx->text = NULL; actual = shorten(shape_line_ctx, &quality, 0, 0, 1); assert_null(actual); /* text == NULL */ BFREE(shape_line_ctx); } static shape_line_ctx_t *build_shapes_relevant_sunny() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; shapes_relevant[0].text = bxs_from_ascii("WCORNER"); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 0; shapes_relevant[1].text = bxs_from_ascii("-"); shapes_relevant[1].elastic = 1; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii("middle"); shapes_relevant[2].elastic = 0; shapes_relevant[3].empty = 0; shapes_relevant[3].text = bxs_from_ascii("-"); shapes_relevant[3].elastic = 1; shapes_relevant[4].empty = 0; shapes_relevant[4].text = bxs_from_ascii("ECORNER"); shapes_relevant[4].elastic = 0; return shapes_relevant; } static void free_shapes_relevant(shape_line_ctx_t *shapes_relevant) { for (size_t i = 0; i < SHAPES_PER_SIDE; i++) { bxs_free(shapes_relevant[i].text); } BFREE(shapes_relevant); } void test_hmm_sunny_day(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_sunny(); uint32_t *input_line = u32_strconv_from_arg(" WCORNER-----middle-----ECORNER ", "ASCII"); uint32_t *cur_pos = input_line + 9; /* '-' after WCORNER */ uint32_t *end_pos = input_line + 25; /* 'E' of ECORNER */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(1, actual); free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_sunny_day_short(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_sunny(); uint32_t *input_line = u32_strconv_from_arg("WCORNER-middle-", "ASCII"); uint32_t *cur_pos = input_line + 7; /* '-' after WCORNER */ uint32_t *end_pos = input_line + 15; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 0); assert_int_equal(1, actual); free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_missing_elastic_nne(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_sunny(); uint32_t *input_line = u32_strconv_from_arg("WCORNER---middleECORNER", "ASCII"); uint32_t *cur_pos = input_line + 7; /* '-' after WCORNER */ uint32_t *end_pos = input_line + 16; /* 'E' of ECORNER */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(0, actual); /* should fail because NNE shape is not present */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_invalid_input(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_sunny(); uint32_t *input_line = u32_strconv_from_arg("not_used", "ASCII"); uint32_t *cur_pos = input_line + 5; uint32_t *end_pos = input_line + 2; /* before cur_pos, which is an error */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(0, actual); /* should fail because cur_pos > end_pos */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } static shape_line_ctx_t *build_shapes_relevant_empty_r() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; shapes_relevant[0].text = bxs_from_ascii("WCORNER"); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 1; shapes_relevant[1].text = NULL; shapes_relevant[1].elastic = 0; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii("xx"); shapes_relevant[2].elastic = 1; shapes_relevant[3].empty = 1; shapes_relevant[3].text = NULL; shapes_relevant[3].elastic = 0; shapes_relevant[4].empty = 1; shapes_relevant[4].text = NULL; shapes_relevant[4].elastic = 0; return shapes_relevant; } void test_hmm_empty_shapes_success(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_empty_r(); uint32_t *input_line = u32_strconv_from_arg(" WCORNERxxxxxxxx", "ASCII"); uint32_t *cur_pos = input_line + 8; /* first 'x' */ uint32_t *end_pos = input_line + 16; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(1, actual); /* matches */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } static shape_line_ctx_t *build_shapes_relevant_backtrack() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; shapes_relevant[0].text = bxs_from_ascii("WCORNER"); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 0; shapes_relevant[1].text = bxs_from_ascii("-"); shapes_relevant[1].elastic = 1; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii("--middle--"); shapes_relevant[2].elastic = 0; shapes_relevant[3].empty = 0; shapes_relevant[3].text = bxs_from_ascii("-"); shapes_relevant[3].elastic = 1; shapes_relevant[4].empty = 1; shapes_relevant[4].text = NULL; shapes_relevant[4].elastic = 0; return shapes_relevant; } void test_hmm_backtracking(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_backtrack(); uint32_t *input_line = u32_strconv_from_arg(" WCORNER-----middle-----", "ASCII"); uint32_t *cur_pos = input_line + 8; /* first '-' */ uint32_t *end_pos = input_line + 24; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(1, actual); /* matches, elastic NNW doesn't eat part of N shape */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } static shape_line_ctx_t *build_shapes_relevant_shiftable() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; /* maybe there is text in a different shape line */ shapes_relevant[0].text = bxs_from_ascii(" "); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 1; shapes_relevant[1].text = bxs_from_ascii(" "); shapes_relevant[1].elastic = 1; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii(" NORTH "); shapes_relevant[2].elastic = 0; shapes_relevant[3].empty = 1; shapes_relevant[3].text = NULL; shapes_relevant[3].elastic = 1; shapes_relevant[4].empty = 1; shapes_relevant[4].text = NULL; shapes_relevant[4].elastic = 0; return shapes_relevant; } void test_hmm_shiftable(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_shiftable(); uint32_t *input_line = u32_strconv_from_arg(" NORTH ", "ASCII"); uint32_t *cur_pos = input_line; /* first character */ uint32_t *end_pos = input_line + 17; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 0, 0); assert_int_equal(1, actual); /* matches */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_shortened(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_shiftable(); uint32_t *input_line = u32_strconv_from_arg("NORTH", "ASCII"); uint32_t *cur_pos = input_line; /* first character */ uint32_t *end_pos = input_line + 5; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 0, 0); assert_int_equal(1, actual); /* matches, because " NORTH " can be shortened because shiftable */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } static shape_line_ctx_t *build_shapes_relevant_shiftable_left() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; /* maybe there is text in a different shape line */ shapes_relevant[0].text = bxs_from_ascii(" "); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 1; shapes_relevant[1].text = bxs_from_ascii(" "); shapes_relevant[1].elastic = 1; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii(" NORTH "); shapes_relevant[2].elastic = 0; shapes_relevant[3].empty = 1; shapes_relevant[3].text = NULL; shapes_relevant[3].elastic = 1; shapes_relevant[4].empty = 0; shapes_relevant[4].text = bxs_from_ascii("ECORNER "); shapes_relevant[4].elastic = 0; return shapes_relevant; } void test_hmm_shortened_right_fail(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_shiftable_left(); uint32_t *input_line = u32_strconv_from_arg("NORTH ECORNER ", "ASCII"); uint32_t *cur_pos = input_line; /* first character */ uint32_t *end_pos = input_line + 6; /* 'E' of "ECORNER" */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 0, 1); assert_int_equal(0, actual); /* does not match */ /* because " NORTH " cannot be shortened right b/c right not shiftable */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_shortened_right(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_shiftable_left(); uint32_t *input_line = u32_strconv_from_arg("NORTH ECORNER", "ASCII"); uint32_t *cur_pos = input_line; /* first character */ uint32_t *end_pos = input_line + 7; /* 'E' of "ECORNER" */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 0, 1); assert_int_equal(1, actual); /* matches */ /* because " NORTH " can be shortened left, and ECORNER can be shortened right */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } static shape_line_ctx_t *build_shapes_relevant_blank() { shape_line_ctx_t *shapes_relevant = (shape_line_ctx_t *) calloc(SHAPES_PER_SIDE, sizeof(shape_line_ctx_t)); shapes_relevant[0].empty = 0; /* maybe there is text in a different shape line */ shapes_relevant[0].text = bxs_from_ascii(" "); shapes_relevant[0].elastic = 0; shapes_relevant[1].empty = 0; shapes_relevant[1].text = bxs_from_ascii(" "); shapes_relevant[1].elastic = 1; shapes_relevant[2].empty = 0; shapes_relevant[2].text = bxs_from_ascii(" "); shapes_relevant[2].elastic = 0; shapes_relevant[3].empty = 1; shapes_relevant[3].text = bxs_from_ascii(" "); shapes_relevant[3].elastic = 1; shapes_relevant[4].empty = 1; shapes_relevant[4].text = NULL; shapes_relevant[4].elastic = 0; return shapes_relevant; } void test_hmm_blank_shiftable(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_blank(); uint32_t *input_line = u32_strconv_from_arg(" ", "ASCII"); uint32_t *cur_pos = input_line; /* first character */ uint32_t *end_pos = input_line + 6; /* NUL */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 0, 0); assert_int_equal(1, actual); /* matches */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } void test_hmm_blank(void **state) { UNUSED(state); shape_line_ctx_t *shapes_relevant = build_shapes_relevant_blank(); uint32_t *input_line = u32_strconv_from_arg("WCORNER ECORNER", "ASCII"); uint32_t *cur_pos = input_line + 7; /* first blank */ uint32_t *end_pos = input_line + 14; /* 'E' of "ECORNER" */ int actual = hmm(shapes_relevant, cur_pos, 1, end_pos, 1, 1); assert_int_equal(1, actual); /* matches */ free_shapes_relevant(shapes_relevant); BFREE(input_line); } /* vim: set cindent sw=4: */