ladybird/Tests/AK/TestUtf8.cpp
Timothy Flynn 87848cdf7d AK: Track byte length, rather than code point length, in Utf8View::trim
Utf8View::trim uses Utf8View::substring_view to return its result, which
requires the input to be a byte offset/length rather than code point
length.
2021-07-17 16:59:59 +01:00

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/*
* Copyright (c) 2019-2020, Sergey Bugaev <bugaevc@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibTest/TestCase.h>
#include <AK/ByteBuffer.h>
#include <AK/Utf8View.h>
TEST_CASE(decode_ascii)
{
Utf8View utf8 { "Hello World!11" };
EXPECT(utf8.validate());
u32 expected[] = { 72, 101, 108, 108, 111, 32, 87, 111, 114, 108, 100, 33, 49, 49 };
size_t expected_size = sizeof(expected) / sizeof(expected[0]);
size_t i = 0;
for (u32 code_point : utf8) {
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected[i]);
i++;
}
EXPECT_EQ(i, expected_size);
}
TEST_CASE(decode_utf8)
{
Utf8View utf8 { "Привет, мир! 😀 γειά σου κόσμος こんにちは世界" };
size_t valid_bytes;
EXPECT(utf8.validate(valid_bytes));
EXPECT(valid_bytes == (size_t)utf8.byte_length());
u32 expected[] = { 1055, 1088, 1080, 1074, 1077, 1090, 44, 32, 1084, 1080, 1088, 33, 32, 128512, 32, 947, 949, 953, 940, 32, 963, 959, 965, 32, 954, 972, 963, 956, 959, 962, 32, 12371, 12435, 12395, 12385, 12399, 19990, 30028 };
String expected_underlying_bytes[] = { "П", "р", "и", "в", "е", "т", ",", " ", "м", "и", "р", "!", " ", "😀", " ", "γ", "ε", "ι", "ά", " ", "σ", "ο", "υ", " ", "κ", "ό", "σ", "μ", "ο", "ς", " ", "", "", "", "", "", "", "" };
size_t expected_size = sizeof(expected) / sizeof(expected[0]);
size_t i = 0;
for (auto it = utf8.begin(); it != utf8.end(); ++it) {
u32 code_point = *it;
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected[i]);
EXPECT_EQ(it.underlying_code_point_bytes(), expected_underlying_bytes[i].bytes());
i++;
}
EXPECT_EQ(i, expected_size);
}
TEST_CASE(validate_invalid_ut8)
{
size_t valid_bytes;
char invalid_utf8_1[] = { 42, 35, (char)182, 9, 0 };
Utf8View utf8_1 { invalid_utf8_1 };
EXPECT(!utf8_1.validate(valid_bytes));
EXPECT(valid_bytes == 2);
char invalid_utf8_2[] = { 42, 35, (char)208, (char)208, 0 };
Utf8View utf8_2 { invalid_utf8_2 };
EXPECT(!utf8_2.validate(valid_bytes));
EXPECT(valid_bytes == 2);
char invalid_utf8_3[] = { (char)208, 0 };
Utf8View utf8_3 { invalid_utf8_3 };
EXPECT(!utf8_3.validate(valid_bytes));
EXPECT(valid_bytes == 0);
char invalid_utf8_4[] = { (char)208, 35, 0 };
Utf8View utf8_4 { invalid_utf8_4 };
EXPECT(!utf8_4.validate(valid_bytes));
EXPECT(valid_bytes == 0);
}
TEST_CASE(iterate_utf8)
{
Utf8View view("Some weird characters \u00A9\u266A\uA755");
Utf8CodePointIterator iterator = view.begin();
EXPECT(*iterator == 'S');
EXPECT(iterator.peek().has_value() && iterator.peek().value() == 'S');
EXPECT(iterator.peek(0).has_value() && iterator.peek(0).value() == 'S');
EXPECT(iterator.peek(1).has_value() && iterator.peek(1).value() == 'o');
EXPECT(iterator.peek(22).has_value() && iterator.peek(22).value() == 0x00A9);
EXPECT(iterator.peek(24).has_value() && iterator.peek(24).value() == 0xA755);
EXPECT(!iterator.peek(25).has_value());
++iterator;
EXPECT(*iterator == 'o');
EXPECT(iterator.peek(23).has_value() && iterator.peek(23).value() == 0xA755);
for (size_t i = 0; i < 23; ++i)
++iterator;
EXPECT(!iterator.done());
EXPECT(*iterator == 0xA755);
EXPECT(iterator.peek().has_value() && iterator.peek().value() == 0xA755);
EXPECT(!iterator.peek(1).has_value());
++iterator;
EXPECT(iterator.done());
EXPECT(!iterator.peek(0).has_value());
EXPECT_CRASH("Dereferencing Utf8CodePointIterator which is already done.", [&iterator] {
*iterator;
return Test::Crash::Failure::DidNotCrash;
});
}
TEST_CASE(decode_invalid_ut8)
{
// Test case 1 : Getting an extension byte as first byte of the code point
{
char raw_data[] = { 'a', 'b', (char)0xA0, 'd', 0 };
Utf8View view { raw_data };
u32 expected_characters[] = { 'a', 'b', 0xFFFD, 'd' };
String expected_underlying_bytes[] = { "a", "b", "\xA0", "d" };
size_t expected_size = sizeof(expected_characters) / sizeof(expected_characters[0]);
size_t i = 0;
for (auto it = view.begin(); it != view.end(); ++it) {
u32 code_point = *it;
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected_characters[i]);
EXPECT_EQ(it.underlying_code_point_bytes(), expected_underlying_bytes[i].bytes());
i++;
}
VERIFY(i == expected_size);
}
// Test case 2 : Getting a non-extension byte when an extension byte is expected
{
char raw_data[] = { 'a', 'b', (char)0xC0, 'd', 'e', 0 };
Utf8View view { raw_data };
u32 expected_characters[] = { 'a', 'b', 0xFFFD, 'd', 'e' };
String expected_underlying_bytes[] = { "a", "b", "\xC0", "d", "e" };
size_t expected_size = sizeof(expected_characters) / sizeof(expected_characters[0]);
size_t i = 0;
for (auto it = view.begin(); it != view.end(); ++it) {
u32 code_point = *it;
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected_characters[i]);
EXPECT_EQ(it.underlying_code_point_bytes(), expected_underlying_bytes[i].bytes());
i++;
}
VERIFY(i == expected_size);
}
// Test case 3 : Not enough bytes before the end of the string
{
char raw_data[] = { 'a', 'b', (char)0x90, 'd', 0 };
Utf8View view { raw_data };
u32 expected_characters[] = { 'a', 'b', 0xFFFD, 'd' };
String expected_underlying_bytes[] = { "a", "b", "\x90", "d" };
size_t expected_size = sizeof(expected_characters) / sizeof(expected_characters[0]);
size_t i = 0;
for (auto it = view.begin(); it != view.end(); ++it) {
u32 code_point = *it;
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected_characters[i]);
EXPECT_EQ(it.underlying_code_point_bytes(), expected_underlying_bytes[i].bytes());
i++;
}
VERIFY(i == expected_size);
}
// Test case 4 : Not enough bytes at the end of the string
{
char raw_data[] = { 'a', 'b', 'c', (char)0x90, 0 };
Utf8View view { raw_data };
u32 expected_characters[] = { 'a', 'b', 'c', 0xFFFD };
String expected_underlying_bytes[] = { "a", "b", "c", "\x90" };
size_t expected_size = sizeof(expected_characters) / sizeof(expected_characters[0]);
size_t i = 0;
for (auto it = view.begin(); it != view.end(); ++it) {
u32 code_point = *it;
VERIFY(i < expected_size);
EXPECT_EQ(code_point, expected_characters[i]);
EXPECT_EQ(it.underlying_code_point_bytes(), expected_underlying_bytes[i].bytes());
i++;
}
VERIFY(i == expected_size);
}
}
TEST_CASE(trim)
{
Utf8View whitespace { " " };
{
Utf8View view { "word" };
EXPECT_EQ(view.trim(whitespace, TrimMode::Both).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Left).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Right).as_string(), "word");
}
{
Utf8View view { " word" };
EXPECT_EQ(view.trim(whitespace, TrimMode::Both).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Left).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Right).as_string(), " word");
}
{
Utf8View view { "word " };
EXPECT_EQ(view.trim(whitespace, TrimMode::Both).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Left).as_string(), "word ");
EXPECT_EQ(view.trim(whitespace, TrimMode::Right).as_string(), "word");
}
{
Utf8View view { " word " };
EXPECT_EQ(view.trim(whitespace, TrimMode::Both).as_string(), "word");
EXPECT_EQ(view.trim(whitespace, TrimMode::Left).as_string(), "word ");
EXPECT_EQ(view.trim(whitespace, TrimMode::Right).as_string(), " word");
}
{
Utf8View view { "\u180E" };
EXPECT_EQ(view.trim(whitespace, TrimMode::Both).as_string(), "\u180E");
EXPECT_EQ(view.trim(whitespace, TrimMode::Left).as_string(), "\u180E");
EXPECT_EQ(view.trim(whitespace, TrimMode::Right).as_string(), "\u180E");
}
}