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//===-- Unittests for the CharacterConverter class (utf32 -> 8) -----------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "src/__support/common.h"
#include "src/__support/wchar/character_converter.h"
#include "src/__support/wchar/mbstate.h"
#include "test/UnitTest/Test.h"
TEST(LlvmLibcCharacterConverterUTF32To8Test, OneByte) {
LIBC_NAMESPACE::internal::mbstate state;
LIBC_NAMESPACE::internal::CharacterConverter cr(&state);
cr.clear();
// utf8 1-byte encodings are identical to their utf32 representations
char32_t utf32_A = 0x41; // 'A'
cr.push(utf32_A);
ASSERT_TRUE(cr.isFull());
auto popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<char>(popped.value()), 'A');
ASSERT_TRUE(cr.isEmpty());
char32_t utf32_B = 0x42; // 'B'
cr.push(utf32_B);
ASSERT_TRUE(cr.isFull());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<char>(popped.value()), 'B');
ASSERT_TRUE(cr.isEmpty());
// should error if we try to pop another utf8 byte out
popped = cr.pop_utf8();
ASSERT_FALSE(popped.has_value());
}
TEST(LlvmLibcCharacterConverterUTF32To8Test, TwoByte) {
LIBC_NAMESPACE::internal::mbstate state;
LIBC_NAMESPACE::internal::CharacterConverter cr(&state);
cr.clear();
// testing utf32: 0xff -> utf8: 0xc3 0xbf
char32_t utf32 = 0xff;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
auto popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xc3);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xbf);
ASSERT_TRUE(cr.isEmpty());
// testing utf32: 0x58e -> utf8: 0xd6 0x8e
utf32 = 0x58e;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xd6);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x8e);
ASSERT_TRUE(cr.isEmpty());
// should error if we try to pop another utf8 byte out
popped = cr.pop_utf8();
ASSERT_FALSE(popped.has_value());
}
TEST(LlvmLibcCharacterConverterUTF32To8Test, ThreeByte) {
LIBC_NAMESPACE::internal::mbstate state;
LIBC_NAMESPACE::internal::CharacterConverter cr(&state);
cr.clear();
// testing utf32: 0xac15 -> utf8: 0xea 0xb0 0x95
char32_t utf32 = 0xac15;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
auto popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xea);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xb0);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x95);
ASSERT_TRUE(cr.isEmpty());
// testing utf32: 0x267b -> utf8: 0xe2 0x99 0xbb
utf32 = 0x267b;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xe2);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x99);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xbb);
ASSERT_TRUE(cr.isEmpty());
// should error if we try to pop another utf8 byte out
popped = cr.pop_utf8();
ASSERT_FALSE(popped.has_value());
}
TEST(LlvmLibcCharacterConverterUTF32To8Test, FourByte) {
LIBC_NAMESPACE::internal::mbstate state;
LIBC_NAMESPACE::internal::CharacterConverter cr(&state);
cr.clear();
// testing utf32: 0x1f921 -> utf8: 0xf0 0x9f 0xa4 0xa1
char32_t utf32 = 0x1f921;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
auto popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xf0);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x9f);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xa4);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xa1);
ASSERT_TRUE(cr.isEmpty());
// testing utf32: 0x12121 -> utf8: 0xf0 0x92 0x84 0xa1
utf32 = 0x12121;
cr.push(utf32);
ASSERT_TRUE(cr.isFull());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xf0);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x92);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0x84);
ASSERT_TRUE(!cr.isEmpty());
popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
ASSERT_EQ(static_cast<int>(popped.value()), 0xa1);
ASSERT_TRUE(cr.isEmpty());
// should error if we try to pop another utf8 byte out
popped = cr.pop_utf8();
ASSERT_FALSE(popped.has_value());
}
TEST(LlvmLibcCharacterConverterUTF32To8Test, CantPushMidConversion) {
LIBC_NAMESPACE::internal::mbstate state;
LIBC_NAMESPACE::internal::CharacterConverter cr(&state);
cr.clear();
// testing utf32: 0x12121 -> utf8: 0xf0 0x92 0x84 0xa1
char32_t utf32 = 0x12121;
ASSERT_EQ(cr.push(utf32), 0);
auto popped = cr.pop_utf8();
ASSERT_TRUE(popped.has_value());
// can't push a utf32 without finishing popping the utf8 bytes out
int err = cr.push(utf32);
ASSERT_EQ(err, -1);
}
TEST(LlvmLibcCharacterConverterUTF32To8Test, InvalidState) {
LIBC_NAMESPACE::internal::mbstate s1;
LIBC_NAMESPACE::internal::CharacterConverter c1(&s1);
ASSERT_TRUE(c1.isValidState());
LIBC_NAMESPACE::internal::mbstate s2{0, 2, 0};
LIBC_NAMESPACE::internal::CharacterConverter c2(&s2);
ASSERT_FALSE(c2.isValidState());
LIBC_NAMESPACE::internal::mbstate s3{0x7f, 1, 1};
LIBC_NAMESPACE::internal::CharacterConverter c3(&s3);
ASSERT_TRUE(c3.isValidState());
LIBC_NAMESPACE::internal::mbstate s4{0x80, 1, 1};
LIBC_NAMESPACE::internal::CharacterConverter c4(&s4);
ASSERT_FALSE(c4.isValidState());
LIBC_NAMESPACE::internal::mbstate s5{0x7ff, 1, 2};
LIBC_NAMESPACE::internal::CharacterConverter c5(&s5);
ASSERT_TRUE(c5.isValidState());
LIBC_NAMESPACE::internal::mbstate s6{0x800, 1, 2};
LIBC_NAMESPACE::internal::CharacterConverter c6(&s6);
ASSERT_FALSE(c6.isValidState());
LIBC_NAMESPACE::internal::mbstate s7{0xffff, 1, 3};
LIBC_NAMESPACE::internal::CharacterConverter c7(&s7);
ASSERT_TRUE(c7.isValidState());
LIBC_NAMESPACE::internal::mbstate s8{0x10000, 1, 3};
LIBC_NAMESPACE::internal::CharacterConverter c8(&s8);
ASSERT_FALSE(c8.isValidState());
LIBC_NAMESPACE::internal::mbstate s9{0x10ffff, 1, 4};
LIBC_NAMESPACE::internal::CharacterConverter c9(&s9);
ASSERT_TRUE(c9.isValidState());
LIBC_NAMESPACE::internal::mbstate s10{0x110000, 1, 2};
LIBC_NAMESPACE::internal::CharacterConverter c10(&s10);
ASSERT_FALSE(c10.isValidState());
LIBC_NAMESPACE::internal::mbstate s11{0, 0, 5};
LIBC_NAMESPACE::internal::CharacterConverter c11(&s11);
ASSERT_FALSE(c11.isValidState());
}
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