tests/SkUTFTest.cpp - platform/external/skia - Gitiles

 // Copyright 2018 Google LLC.
 // Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

 #include "SkUTF.h"
 #include "Test.h"

 DEF_TEST(SkUTF_UTF16, reporter) {
     // Test non-basic-multilingual-plane unicode.
     static const SkUnichar gUni[] = {
         0x10000, 0x18080, 0x20202, 0xFFFFF, 0x101234
     };
     for (SkUnichar uni : gUni) {
         uint16_t buf[2];
         size_t count = SkUTF::ToUTF16(uni, buf);
         REPORTER_ASSERT(reporter, count == 2);
         size_t count2 = SkUTF::CountUTF16(buf, sizeof(buf));
         REPORTER_ASSERT(reporter, count2 == 1);
         const uint16_t* ptr = buf;
         SkUnichar c = SkUTF::NextUTF16(&ptr, buf + SK_ARRAY_COUNT(buf));
         REPORTER_ASSERT(reporter, c == uni);
         REPORTER_ASSERT(reporter, ptr - buf == 2);
     }
 }

 DEF_TEST(SkUTF_UTF8, reporter) {
     static const struct {
         const char* fUtf8;
         SkUnichar   fUni;
     } gTest[] = {
         { "a",                  'a' },
         { "\x7f",               0x7f },
         { "\xC2\x80",           0x80 },
         { "\xC3\x83",           (3 << 6) | 3    },
         { "\xDF\xBF",           0x7ff },
         { "\xE0\xA0\x80",       0x800 },
         { "\xE0\xB0\xB8",       0xC38 },
         { "\xE3\x83\x83",       (3 << 12) | (3 << 6) | 3    },
         { "\xEF\xBF\xBF",       0xFFFF },
         { "\xF0\x90\x80\x80",   0x10000 },
         { "\xF3\x83\x83\x83",   (3 << 18) | (3 << 12) | (3 << 6) | 3    }
     };
     for (auto test : gTest) {
         const char* p = test.fUtf8;
         const char* stop = p + strlen(p);
         int         n = SkUTF::CountUTF8(p, strlen(p));
         SkUnichar   u1 = SkUTF::NextUTF8(&p, stop);

         REPORTER_ASSERT(reporter, n == 1);
         REPORTER_ASSERT(reporter, u1 == test.fUni);
         REPORTER_ASSERT(reporter, p - test.fUtf8 == (int)strlen(test.fUtf8));
     }
 }

 #define ASCII_BYTE         "X"
 #define CONTINUATION_BYTE  "\xA1"
 #define LEADING_TWO_BYTE   "\xC2"
 #define LEADING_THREE_BYTE "\xE1"
 #define LEADING_FOUR_BYTE  "\xF0"
 #define INVALID_BYTE       "\xFC"
 DEF_TEST(SkUTF_CountUTF8, r) {
     static const struct {
         int expectedCount;
         const char* utf8String;
     } testCases[] = {
         { 0, "" },
         { 1, ASCII_BYTE },
         { 2, ASCII_BYTE ASCII_BYTE },
         { 1, LEADING_TWO_BYTE CONTINUATION_BYTE },
         { 2, ASCII_BYTE LEADING_TWO_BYTE CONTINUATION_BYTE },
         { 3, ASCII_BYTE ASCII_BYTE LEADING_TWO_BYTE CONTINUATION_BYTE },
         { 1, LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 2, ASCII_BYTE LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 3, ASCII_BYTE ASCII_BYTE LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 1, LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 2, ASCII_BYTE LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 3, ASCII_BYTE ASCII_BYTE LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE
              CONTINUATION_BYTE },
         { -1, INVALID_BYTE },
         { -1, INVALID_BYTE CONTINUATION_BYTE },
         { -1, INVALID_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { -1, INVALID_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { -1, LEADING_TWO_BYTE },
         { -1, CONTINUATION_BYTE },
         { -1, CONTINUATION_BYTE CONTINUATION_BYTE },
         { -1, LEADING_THREE_BYTE CONTINUATION_BYTE },
         { -1, CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { -1, LEADING_FOUR_BYTE CONTINUATION_BYTE },
         { -1, CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
     };
     for (auto testCase : testCases) {
         const char* str = testCase.utf8String;
         REPORTER_ASSERT(r, testCase.expectedCount == SkUTF::CountUTF8(str, strlen(str)));
     }
 }

 DEF_TEST(SkUTF_NextUTF8_ToUTF8, r) {
     struct {
         SkUnichar expected;
         const char* utf8String;
     } testCases[] = {
         { -1, INVALID_BYTE },
         { -1, "" },
         { 0x0058, ASCII_BYTE },
         { 0x00A1, LEADING_TWO_BYTE CONTINUATION_BYTE },
         { 0x1861, LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
         { 0x010330, LEADING_FOUR_BYTE "\x90\x8C\xB0" },
     };
     for (auto testCase : testCases) {
         const char* str = testCase.utf8String;
         SkUnichar uni = SkUTF::NextUTF8(&str, str + strlen(str));
         REPORTER_ASSERT(r, str == testCase.utf8String + strlen(testCase.utf8String));
         REPORTER_ASSERT(r, uni == testCase.expected);
         char buff[5] = {0, 0, 0, 0, 0};
         size_t len = SkUTF::ToUTF8(uni, buff);
         if (buff[len] != 0) {
             ERRORF(r, "unexpected write");
             continue;
         }
         if (uni == -1) {
             REPORTER_ASSERT(r, len == 0);
             continue;
         }
         if (len == 0) {
            ERRORF(r, "unexpected failure.");
            continue;
         }
         if (len > 4) {
            ERRORF(r, "wrote too much");
            continue;
         }
         str = testCase.utf8String;
         REPORTER_ASSERT(r, len == strlen(buff));
         REPORTER_ASSERT(r, len == strlen(str));
         REPORTER_ASSERT(r, 0 == strcmp(str, buff));
     }
 }
 #undef ASCII_BYTE
 #undef CONTINUATION_BYTE
 #undef LEADING_TWO_BYTE
 #undef LEADING_THREE_BYTE
 #undef LEADING_FOUR_BYTE
 #undef INVALID_BYTE
	// Copyright 2018 Google LLC.
	// Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

	#include "SkUTF.h"
	#include "Test.h"

	DEF_TEST(SkUTF_UTF16, reporter) {
	// Test non-basic-multilingual-plane unicode.
	static const SkUnichar gUni[] = {
	0x10000, 0x18080, 0x20202, 0xFFFFF, 0x101234
	};
	for (SkUnichar uni : gUni) {
	uint16_t buf[2];
	size_t count = SkUTF::ToUTF16(uni, buf);
	REPORTER_ASSERT(reporter, count == 2);
	size_t count2 = SkUTF::CountUTF16(buf, sizeof(buf));
	REPORTER_ASSERT(reporter, count2 == 1);
	const uint16_t* ptr = buf;
	SkUnichar c = SkUTF::NextUTF16(&ptr, buf + SK_ARRAY_COUNT(buf));
	REPORTER_ASSERT(reporter, c == uni);
	REPORTER_ASSERT(reporter, ptr - buf == 2);
	}
	}

	DEF_TEST(SkUTF_UTF8, reporter) {
	static const struct {
	const char* fUtf8;
	SkUnichar fUni;
	} gTest[] = {
	{ "a", 'a' },
	{ "\x7f", 0x7f },
	{ "\xC2\x80", 0x80 },
	{ "\xC3\x83", (3 << 6) \| 3 },
	{ "\xDF\xBF", 0x7ff },
	{ "\xE0\xA0\x80", 0x800 },
	{ "\xE0\xB0\xB8", 0xC38 },
	{ "\xE3\x83\x83", (3 << 12) \| (3 << 6) \| 3 },
	{ "\xEF\xBF\xBF", 0xFFFF },
	{ "\xF0\x90\x80\x80", 0x10000 },
	{ "\xF3\x83\x83\x83", (3 << 18) \| (3 << 12) \| (3 << 6) \| 3 }
	};
	for (auto test : gTest) {
	const char* p = test.fUtf8;
	const char* stop = p + strlen(p);
	int n = SkUTF::CountUTF8(p, strlen(p));
	SkUnichar u1 = SkUTF::NextUTF8(&p, stop);

	REPORTER_ASSERT(reporter, n == 1);
	REPORTER_ASSERT(reporter, u1 == test.fUni);
	REPORTER_ASSERT(reporter, p - test.fUtf8 == (int)strlen(test.fUtf8));
	}
	}

	#define ASCII_BYTE "X"
	#define CONTINUATION_BYTE "\xA1"
	#define LEADING_TWO_BYTE "\xC2"
	#define LEADING_THREE_BYTE "\xE1"
	#define LEADING_FOUR_BYTE "\xF0"
	#define INVALID_BYTE "\xFC"
	DEF_TEST(SkUTF_CountUTF8, r) {
	static const struct {
	int expectedCount;
	const char* utf8String;
	} testCases[] = {
	{ 0, "" },
	{ 1, ASCII_BYTE },
	{ 2, ASCII_BYTE ASCII_BYTE },
	{ 1, LEADING_TWO_BYTE CONTINUATION_BYTE },
	{ 2, ASCII_BYTE LEADING_TWO_BYTE CONTINUATION_BYTE },
	{ 3, ASCII_BYTE ASCII_BYTE LEADING_TWO_BYTE CONTINUATION_BYTE },
	{ 1, LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 2, ASCII_BYTE LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 3, ASCII_BYTE ASCII_BYTE LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 1, LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 2, ASCII_BYTE LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 3, ASCII_BYTE ASCII_BYTE LEADING_FOUR_BYTE CONTINUATION_BYTE CONTINUATION_BYTE
	CONTINUATION_BYTE },
	{ -1, INVALID_BYTE },
	{ -1, INVALID_BYTE CONTINUATION_BYTE },
	{ -1, INVALID_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ -1, INVALID_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ -1, LEADING_TWO_BYTE },
	{ -1, CONTINUATION_BYTE },
	{ -1, CONTINUATION_BYTE CONTINUATION_BYTE },
	{ -1, LEADING_THREE_BYTE CONTINUATION_BYTE },
	{ -1, CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ -1, LEADING_FOUR_BYTE CONTINUATION_BYTE },
	{ -1, CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	};
	for (auto testCase : testCases) {
	const char* str = testCase.utf8String;
	REPORTER_ASSERT(r, testCase.expectedCount == SkUTF::CountUTF8(str, strlen(str)));
	}
	}

	DEF_TEST(SkUTF_NextUTF8_ToUTF8, r) {
	struct {
	SkUnichar expected;
	const char* utf8String;
	} testCases[] = {
	{ -1, INVALID_BYTE },
	{ -1, "" },
	{ 0x0058, ASCII_BYTE },
	{ 0x00A1, LEADING_TWO_BYTE CONTINUATION_BYTE },
	{ 0x1861, LEADING_THREE_BYTE CONTINUATION_BYTE CONTINUATION_BYTE },
	{ 0x010330, LEADING_FOUR_BYTE "\x90\x8C\xB0" },
	};
	for (auto testCase : testCases) {
	const char* str = testCase.utf8String;
	SkUnichar uni = SkUTF::NextUTF8(&str, str + strlen(str));
	REPORTER_ASSERT(r, str == testCase.utf8String + strlen(testCase.utf8String));
	REPORTER_ASSERT(r, uni == testCase.expected);
	char buff[5] = {0, 0, 0, 0, 0};
	size_t len = SkUTF::ToUTF8(uni, buff);
	if (buff[len] != 0) {
	ERRORF(r, "unexpected write");
	continue;
	}
	if (uni == -1) {
	REPORTER_ASSERT(r, len == 0);
	continue;
	}
	if (len == 0) {
	ERRORF(r, "unexpected failure.");
	continue;
	}
	if (len > 4) {
	ERRORF(r, "wrote too much");
	continue;
	}
	str = testCase.utf8String;
	REPORTER_ASSERT(r, len == strlen(buff));
	REPORTER_ASSERT(r, len == strlen(str));
	REPORTER_ASSERT(r, 0 == strcmp(str, buff));
	}
	}
	#undef ASCII_BYTE
	#undef CONTINUATION_BYTE
	#undef LEADING_TWO_BYTE
	#undef LEADING_THREE_BYTE
	#undef LEADING_FOUR_BYTE
	#undef INVALID_BYTE