Tests/CMakeLib/testUTF8.cxx - third_party/cmake - Git at Google

 /* Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
    file Copyright.txt or https://cmake.org/licensing for details.  */
 #include <cm/string_view>

 #include <stdio.h>

 #include <cm_utf8.h>

 using test_utf8_char = const cm::string_view;

 static void byte_array_print(test_utf8_char s)
 {
   bool started = false;
   printf("[");
   for (char c : s) {
     if (started) {
       printf(",");
     }
     started = true;
     printf("0x%02X", static_cast<unsigned char>(c));
   }
   printf("]");
 }

 struct test_utf8_entry
 {
   test_utf8_char str;
   unsigned int chr;
 };

 static test_utf8_entry const good_entry[] = {
   { "\x20", 0x0020 },               /* Space.  */
   { "\xC2\xA9", 0x00A9 },           /* Copyright.  */
   { "\xE2\x80\x98", 0x2018 },       /* Open-single-quote.  */
   { "\xE2\x80\x99", 0x2019 },       /* Close-single-quote.  */
   { "\xF0\xA3\x8E\xB4", 0x233B4 },  /* Example from RFC 3629.  */
   { "\xED\x80\x80", 0xD000 },       /* Valid 0xED prefixed codepoint.  */
   { "\xF4\x8F\xBF\xBF", 0x10FFFF }, /* Highest valid RFC codepoint. */
   { {}, 0 }
 };

 static test_utf8_char const bad_chars[] = {
   "\x80",             /* Leading continuation byte. */
   "\xC0\x80",         /* Overlong encoding. */
   "\xC1\x80",         /* Overlong encoding. */
   "\xC2",             /* Missing continuation byte. */
   "\xE0",             /* Missing continuation bytes. */
   "\xE0\x80\x80",     /* Overlong encoding. */
   "\xF0\x80\x80\x80", /* Overlong encoding. */
   "\xED\xA0\x80",     /* UTF-16 surrogate half. */
   "\xED\xBF\xBF",     /* UTF-16 surrogate half. */
   "\xF4\x90\x80\x80", /* Lowest out-of-range codepoint. */
   "\xF5\x80\x80\x80", /* Prefix forces out-of-range codepoints. */
   {}
 };

 static char const* good_strings[] = { "", "ASCII", "\xC2\xA9 Kitware", 0 };

 static char const* bad_strings[] = {
   "\xC0\x80", /* Modified UTF-8 for embedded 0-byte. */
   0
 };

 static void report_good(bool passed, test_utf8_char c)
 {
   printf("%s: decoding good ", passed ? "pass" : "FAIL");
   byte_array_print(c);
   printf(" (%s) ", c.data());
 }

 static void report_bad(bool passed, test_utf8_char c)
 {
   printf("%s: decoding bad  ", passed ? "pass" : "FAIL");
   byte_array_print(c);
   printf(" ");
 }

 static bool decode_good(test_utf8_entry const& entry)
 {
   const auto& s = entry.str;
   unsigned int uc;
   if (const char* e =
         cm_utf8_decode_character(s.data(), s.data() + s.size(), &uc)) {
     int used = static_cast<int>(e - s.data());
     if (uc != entry.chr) {
       report_good(false, s);
       printf("expected 0x%04X, got 0x%04X\n", entry.chr, uc);
       return false;
     }
     if (used != int(s.size())) {
       report_good(false, s);
       printf("had %d bytes, used %d\n", int(s.size()), used);
       return false;
     }
     report_good(true, s);
     printf("got 0x%04X\n", uc);
     return true;
   }
   report_good(false, s);
   printf("failed\n");
   return false;
 }

 static bool decode_bad(test_utf8_char s)
 {
   unsigned int uc = 0xFFFFu;
   const char* e = cm_utf8_decode_character(s.data(), s.data() + s.size(), &uc);
   if (e) {
     report_bad(false, s);
     printf("expected failure, got 0x%04X\n", uc);
     return false;
   }
   report_bad(true, s);
   printf("failed as expected\n");
   return true;
 }

 static void report_valid(bool passed, test_utf8_char s)
 {
   printf("%s: validity good ", passed ? "pass" : "FAIL");
   byte_array_print(s);
   printf(" (%s) ", s.data());
 }

 static void report_invalid(bool passed, test_utf8_char s)
 {
   printf("%s: validity bad  ", passed ? "pass" : "FAIL");
   byte_array_print(s);
   printf(" ");
 }

 static bool is_valid(test_utf8_char s)
 {
   bool valid = cm_utf8_is_valid(s.data()) != 0;
   if (!valid) {
     report_valid(false, s);
     printf("expected valid, reported as invalid\n");
     return false;
   }
   report_valid(true, s);
   printf("valid as expected\n");
   return true;
 }

 static bool is_invalid(test_utf8_char s)
 {
   bool valid = cm_utf8_is_valid(s.data()) != 0;
   if (valid) {
     report_invalid(false, s);
     printf("expected invalid, reported as valid\n");
     return false;
   }
   report_invalid(true, s);
   printf("invalid as expected\n");
   return true;
 }

 int testUTF8(int /*unused*/, char* /*unused*/[])
 {
   int result = 0;
   for (test_utf8_entry const* e = good_entry; !e->str.empty(); ++e) {
     if (!decode_good(*e)) {
       result = 1;
     }
     if (!is_valid(e->str)) {
       result = 1;
     }
   }
   for (test_utf8_char* c = bad_chars; !(*c).empty(); ++c) {
     if (!decode_bad(*c)) {
       result = 1;
     }
     if (!is_invalid(*c)) {
       result = 1;
     }
   }
   for (char const** s = good_strings; *s; ++s) {
     if (!is_valid(*s)) {
       result = 1;
     }
   }
   for (char const** s = bad_strings; *s; ++s) {
     if (!is_invalid(*s)) {
       result = 1;
     }
   }
   return result;
 }
	/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	file Copyright.txt or https://cmake.org/licensing for details. */
	#include <cm/string_view>

	#include <stdio.h>

	#include <cm_utf8.h>

	using test_utf8_char = const cm::string_view;

	static void byte_array_print(test_utf8_char s)
	{
	bool started = false;
	printf("[");
	for (char c : s) {
	if (started) {
	printf(",");
	}
	started = true;
	printf("0x%02X", static_cast<unsigned char>(c));
	}
	printf("]");
	}

	struct test_utf8_entry
	{
	test_utf8_char str;
	unsigned int chr;
	};

	static test_utf8_entry const good_entry[] = {
	{ "\x20", 0x0020 }, /* Space. */
	{ "\xC2\xA9", 0x00A9 }, /* Copyright. */
	{ "\xE2\x80\x98", 0x2018 }, /* Open-single-quote. */
	{ "\xE2\x80\x99", 0x2019 }, /* Close-single-quote. */
	{ "\xF0\xA3\x8E\xB4", 0x233B4 }, /* Example from RFC 3629. */
	{ "\xED\x80\x80", 0xD000 }, /* Valid 0xED prefixed codepoint. */
	{ "\xF4\x8F\xBF\xBF", 0x10FFFF }, /* Highest valid RFC codepoint. */
	{ {}, 0 }
	};

	static test_utf8_char const bad_chars[] = {
	"\x80", /* Leading continuation byte. */
	"\xC0\x80", /* Overlong encoding. */
	"\xC1\x80", /* Overlong encoding. */
	"\xC2", /* Missing continuation byte. */
	"\xE0", /* Missing continuation bytes. */
	"\xE0\x80\x80", /* Overlong encoding. */
	"\xF0\x80\x80\x80", /* Overlong encoding. */
	"\xED\xA0\x80", /* UTF-16 surrogate half. */
	"\xED\xBF\xBF", /* UTF-16 surrogate half. */
	"\xF4\x90\x80\x80", /* Lowest out-of-range codepoint. */
	"\xF5\x80\x80\x80", /* Prefix forces out-of-range codepoints. */
	{}
	};

	static char const* good_strings[] = { "", "ASCII", "\xC2\xA9 Kitware", 0 };

	static char const* bad_strings[] = {
	"\xC0\x80", /* Modified UTF-8 for embedded 0-byte. */
	0
	};

	static void report_good(bool passed, test_utf8_char c)
	{
	printf("%s: decoding good ", passed ? "pass" : "FAIL");
	byte_array_print(c);
	printf(" (%s) ", c.data());
	}

	static void report_bad(bool passed, test_utf8_char c)
	{
	printf("%s: decoding bad ", passed ? "pass" : "FAIL");
	byte_array_print(c);
	printf(" ");
	}

	static bool decode_good(test_utf8_entry const& entry)
	{
	const auto& s = entry.str;
	unsigned int uc;
	if (const char* e =
	cm_utf8_decode_character(s.data(), s.data() + s.size(), &uc)) {
	int used = static_cast<int>(e - s.data());
	if (uc != entry.chr) {
	report_good(false, s);
	printf("expected 0x%04X, got 0x%04X\n", entry.chr, uc);
	return false;
	}
	if (used != int(s.size())) {
	report_good(false, s);
	printf("had %d bytes, used %d\n", int(s.size()), used);
	return false;
	}
	report_good(true, s);
	printf("got 0x%04X\n", uc);
	return true;
	}
	report_good(false, s);
	printf("failed\n");
	return false;
	}

	static bool decode_bad(test_utf8_char s)
	{
	unsigned int uc = 0xFFFFu;
	const char* e = cm_utf8_decode_character(s.data(), s.data() + s.size(), &uc);
	if (e) {
	report_bad(false, s);
	printf("expected failure, got 0x%04X\n", uc);
	return false;
	}
	report_bad(true, s);
	printf("failed as expected\n");
	return true;
	}

	static void report_valid(bool passed, test_utf8_char s)
	{
	printf("%s: validity good ", passed ? "pass" : "FAIL");
	byte_array_print(s);
	printf(" (%s) ", s.data());
	}

	static void report_invalid(bool passed, test_utf8_char s)
	{
	printf("%s: validity bad ", passed ? "pass" : "FAIL");
	byte_array_print(s);
	printf(" ");
	}

	static bool is_valid(test_utf8_char s)
	{
	bool valid = cm_utf8_is_valid(s.data()) != 0;
	if (!valid) {
	report_valid(false, s);
	printf("expected valid, reported as invalid\n");
	return false;
	}
	report_valid(true, s);
	printf("valid as expected\n");
	return true;
	}

	static bool is_invalid(test_utf8_char s)
	{
	bool valid = cm_utf8_is_valid(s.data()) != 0;
	if (valid) {
	report_invalid(false, s);
	printf("expected invalid, reported as valid\n");
	return false;
	}
	report_invalid(true, s);
	printf("invalid as expected\n");
	return true;
	}

	int testUTF8(int /unused/, char* /unused/[])
	{
	int result = 0;
	for (test_utf8_entry const* e = good_entry; !e->str.empty(); ++e) {
	if (!decode_good(*e)) {
	result = 1;
	}
	if (!is_valid(e->str)) {
	result = 1;
	}
	}
	for (test_utf8_char* c = bad_chars; !(*c).empty(); ++c) {
	if (!decode_bad(*c)) {
	result = 1;
	}
	if (!is_invalid(*c)) {
	result = 1;
	}
	}
	for (char const** s = good_strings; *s; ++s) {
	if (!is_valid(*s)) {
	result = 1;
	}
	}
	for (char const** s = bad_strings; *s; ++s) {
	if (!is_invalid(*s)) {
	result = 1;
	}
	}
	return result;
	}