tests/fuzzer/flatbuffers_scalar_fuzzer.cc - external/github.com/google/flatbuffers - Git at Google

 #include <assert.h>
 #include <stddef.h>
 #include <stdint.h>
 #include <algorithm>
 #include <clocale>
 #include <memory>
 #include <regex>
 #include <string>

 #include "flatbuffers/idl.h"
 #include "test_init.h"

 static constexpr uint8_t flags_scalar_type = 0x0F;  // type of scalar value
 static constexpr uint8_t flags_quotes_kind = 0x10;  // quote " or '
 // reserved for future: json {named} or [unnamed]
 // static constexpr uint8_t flags_json_bracer = 0x20;

 // Find all 'subj' sub-strings and replace first character of sub-string.
 // BreakSequence("testest","tes", 'X') -> "XesXest".
 // BreakSequence("xxx","xx", 'Y') -> "YYx".
 static void BreakSequence(std::string &s, const char *subj, char repl) {
   size_t pos = 0;
   while (pos = s.find(subj, pos), pos != std::string::npos) {
     s.at(pos) = repl;
     pos++;
   }
 }

 // Remove all leading and trailing symbols matched with pattern set.
 // StripString("xy{xy}y", "xy") -> "{xy}"
 static std::string StripString(const std::string &s, const char *pattern,
                                size_t *pos = nullptr) {
   if (pos) *pos = 0;
   // leading
   auto first = s.find_first_not_of(pattern);
   if (std::string::npos == first) return "";
   if (pos) *pos = first;
   // trailing
   auto last = s.find_last_not_of(pattern);
   assert(last < s.length());
   assert(first <= last);
   return s.substr(first, last - first + 1);
 }

 class RegexMatcher {
  protected:
   virtual bool MatchNumber(const std::string &input) const = 0;

  public:
   virtual ~RegexMatcher() = default;

   struct MatchResult {
     size_t pos{ 0 };
     size_t len{ 0 };
     bool res{ false };
     bool quoted{ false };
   };

   MatchResult Match(const std::string &input) const {
     MatchResult r;
     // strip leading and trailing "spaces" accepted by flatbuffer
     auto test = StripString(input, "\t\r\n ", &r.pos);
     r.len = test.size();
     // check quotes
     if (test.size() >= 2) {
       auto fch = test.front();
       auto lch = test.back();
       r.quoted = (fch == lch) && (fch == '\'' || fch == '\"');
       if (r.quoted) {
         // remove quotes for regex test
         test = test.substr(1, test.size() - 2);
       }
     }
     // Fast check:
     if (test.empty()) return r;
     // A string with a valid scalar shouldn't have non-ascii or non-printable
     // symbols.
     for (auto c : test) {
       if ((c < ' ') || (c > '~')) return r;
     }
     // Check with regex
     r.res = MatchNumber(test);
     return r;
   }

   bool MatchRegexList(const std::string &input,
                       const std::vector<std::regex> &re_list) const {
     auto str = StripString(input, " ");
     if (str.empty()) return false;
     for (auto &re : re_list) {
       std::smatch match;
       if (std::regex_match(str, match, re)) return true;
     }
     return false;
   }
 };

 class IntegerRegex : public RegexMatcher {
  protected:
   bool MatchNumber(const std::string &input) const override {
     static const std::vector<std::regex> re_list = {
       std::regex{ R"(^[-+]?[0-9]+$)", std::regex_constants::optimize },

       std::regex{
           R"(^[-+]?0[xX][0-9a-fA-F]+$)", std::regex_constants::optimize }
     };
     return MatchRegexList(input, re_list);
   }

  public:
   IntegerRegex() = default;
   virtual ~IntegerRegex() = default;
 };

 class UIntegerRegex : public RegexMatcher {
  protected:
   bool MatchNumber(const std::string &input) const override {
     static const std::vector<std::regex> re_list = {
       std::regex{ R"(^[+]?[0-9]+$)", std::regex_constants::optimize },
       std::regex{
           R"(^[+]?0[xX][0-9a-fA-F]+$)", std::regex_constants::optimize },
       // accept -0 number
       std::regex{ R"(^[-](?:0[xX])?0+$)", std::regex_constants::optimize }
     };
     return MatchRegexList(input, re_list);
   }

  public:
   UIntegerRegex() = default;
   virtual ~UIntegerRegex() = default;
 };

 class BooleanRegex : public IntegerRegex {
  protected:
   bool MatchNumber(const std::string &input) const override {
     if (input == "true" || input == "false") return true;
     return IntegerRegex::MatchNumber(input);
   }

  public:
   BooleanRegex() = default;
   virtual ~BooleanRegex() = default;
 };

 class FloatRegex : public RegexMatcher {
  protected:
   bool MatchNumber(const std::string &input) const override {
     static const std::vector<std::regex> re_list = {
       // hex-float
       std::regex{
           R"(^[-+]?0[xX](?:(?:[.][0-9a-fA-F]+)|(?:[0-9a-fA-F]+[.][0-9a-fA-F]*)|(?:[0-9a-fA-F]+))[pP][-+]?[0-9]+$)",
           std::regex_constants::optimize },
       // dec-float
       std::regex{
           R"(^[-+]?(?:(?:[.][0-9]+)|(?:[0-9]+[.][0-9]*)|(?:[0-9]+))(?:[eE][-+]?[0-9]+)?$)",
           std::regex_constants::optimize },

       std::regex{ R"(^[-+]?(?:nan|inf|infinity)$)",
                   std::regex_constants::optimize | std::regex_constants::icase }
     };
     return MatchRegexList(input, re_list);
   }

  public:
   FloatRegex() = default;
   virtual ~FloatRegex() = default;
 };

 class ScalarReferenceResult {
  private:
   ScalarReferenceResult(const char *_type, RegexMatcher::MatchResult _matched)
       : type(_type), matched(_matched) {}

  public:
   // Decode scalar type and check if the input string satisfies the scalar type.
   static ScalarReferenceResult Check(uint8_t code, const std::string &input) {
     switch (code) {
       case 0x0: return { "double", FloatRegex().Match(input) };
       case 0x1: return { "float", FloatRegex().Match(input) };
       case 0x2: return { "int8", IntegerRegex().Match(input) };
       case 0x3: return { "int16", IntegerRegex().Match(input) };
       case 0x4: return { "int32", IntegerRegex().Match(input) };
       case 0x5: return { "int64", IntegerRegex().Match(input) };
       case 0x6: return { "uint8", UIntegerRegex().Match(input) };
       case 0x7: return { "uint16", UIntegerRegex().Match(input) };
       case 0x8: return { "uint32", UIntegerRegex().Match(input) };
       case 0x9: return { "uint64", UIntegerRegex().Match(input) };
       case 0xA: return { "bool", BooleanRegex().Match(input) };
       default: return { "float", FloatRegex().Match(input) };
     };
   }

   const char *type;
   const RegexMatcher::MatchResult matched;
 };

 bool Parse(flatbuffers::Parser &parser, const std::string &json,
            std::string *_text) {
   auto done = parser.Parse(json.c_str());
   if (done) {
     TEST_EQ(GenerateText(parser, parser.builder_.GetBufferPointer(), _text),
             true);
   } else {
     *_text = parser.error_;
   }
   return done;
 }

 // Utility for test run.
 OneTimeTestInit OneTimeTestInit::one_time_init_;

 // llvm std::regex have problem with stack overflow, limit maximum length.
 // ./scalar_fuzzer -max_len=3000
 extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) {
   // Reserve one byte for Parser flags and one byte for repetition counter.
   if (size < 3) return 0;
   const uint8_t flags = data[0];
   // normalize to ascii alphabet
   const int extra_rep_number = data[1] >= '0' ? (data[1] - '0') : 0;
   data += 2;
   size -= 2;  // bypass

   // Guarantee 0-termination.
   const std::string original(reinterpret_cast<const char *>(data), size);
   auto input = std::string(original.c_str());  // until '\0'
   if (input.empty()) return 0;

   // Break comments in json to avoid complexity with regex matcher.
   // The string " 12345 /* text */" will be accepted if insert it to string
   // expression: "table X { Y: " + " 12345 /* text */" + "; }.
   // But strings like this will complicate regex matcher.
   // We reject this by transform "/* text */ 12345" to "@* text */ 12345".
   BreakSequence(input, "//", '@');  // "//" -> "@/"
   BreakSequence(input, "/*", '@');  // "/*" -> "@*"
   // Break all known scalar functions (todo: add them to regex?):
   for (auto f : { "deg", "rad", "sin", "cos", "tan", "asin", "acos", "atan" }) {
     BreakSequence(input, f, '_');  // ident -> ident
   }

   // Extract type of scalar from 'flags' and check if the input string satisfies
   // the scalar type.
   const auto ref_res =
       ScalarReferenceResult::Check(flags & flags_scalar_type, input);
   auto &recheck = ref_res.matched;

   // Create parser
   flatbuffers::IDLOptions opts;
   opts.force_defaults = true;
   opts.output_default_scalars_in_json = true;
   opts.indent_step = -1;
   opts.strict_json = true;

   flatbuffers::Parser parser(opts);
   auto schema =
       "table X { Y: " + std::string(ref_res.type) + "; } root_type X;";
   TEST_EQ_FUNC(parser.Parse(schema.c_str()), true);

   // The fuzzer can adjust the number repetition if a side-effects have found.
   // Each test should pass at least two times to ensure that the parser doesn't
   // have any hidden-states or locale-depended effects.
   for (auto cnt = 0; cnt < (extra_rep_number + 2); cnt++) {
     // Each even run (0,2,4..) will test locale independed code.
     auto use_locale = !!OneTimeTestInit::test_locale() && (0 == (cnt % 2));
     // Set new locale.
     if (use_locale) {
       FLATBUFFERS_ASSERT(setlocale(LC_ALL, OneTimeTestInit::test_locale()));
     }

     // Parse original input as-is.
     auto orig_scalar = "{ \"Y\" : " + input + " }";
     std::string orig_back;
     auto orig_done = Parse(parser, orig_scalar, &orig_back);

     if (recheck.res != orig_done) {
       // look for "does not fit" or "doesn't fit" or "out of range"
       auto not_fit =
           (true == recheck.res)
               ? ((orig_back.find("does not fit") != std::string::npos) ||
                  (orig_back.find("out of range") != std::string::npos))
               : false;

       if (false == not_fit) {
         TEST_OUTPUT_LINE("Stage 1 failed: Parser(%d) != Regex(%d)", orig_done,
                          recheck.res);
         TEST_EQ_STR(orig_back.c_str(),
                     input.substr(recheck.pos, recheck.len).c_str());
         TEST_EQ_FUNC(orig_done, recheck.res);
       }
     }

     // Try to make quoted string and test it.
     std::string qouted_input;
     if (true == recheck.quoted) {
       // we can't simply remove quotes, they may be nested "'12'".
       // Original string "\'12\'" converted to "'12'".
       // The string can be an invalid string by JSON rules, but after quotes
       // removed can transform to valid.
       assert(recheck.len >= 2);
     } else {
       const auto quote = (flags & flags_quotes_kind) ? '\"' : '\'';
       qouted_input = input;  // copy
       qouted_input.insert(recheck.pos + recheck.len, 1, quote);
       qouted_input.insert(recheck.pos, 1, quote);
     }

     // Test quoted version of the string
     if (!qouted_input.empty()) {
       auto fix_scalar = "{ \"Y\" : " + qouted_input + " }";
       std::string fix_back;
       auto fix_done = Parse(parser, fix_scalar, &fix_back);

       if (orig_done != fix_done) {
         TEST_OUTPUT_LINE("Stage 2 failed: Parser(%d) != Regex(%d)", fix_done,
                          orig_done);
         TEST_EQ_STR(fix_back.c_str(), orig_back.c_str());
       }
       if (orig_done) { TEST_EQ_STR(fix_back.c_str(), orig_back.c_str()); }
       TEST_EQ_FUNC(fix_done, orig_done);
     }

     // Create new parser and test default value
     if (true == orig_done) {
       flatbuffers::Parser def_parser(opts);  // re-use options
       auto def_schema = "table X { Y: " + std::string(ref_res.type) + " = " +
                         input + "; } root_type X;" +
                         "{}";  // <- with empty json {}!

       auto def_done = def_parser.Parse(def_schema.c_str());
       if (false == def_done) {
         TEST_OUTPUT_LINE("Stage 3.1 failed with _error = %s",
                          def_parser.error_.c_str());
         FLATBUFFERS_ASSERT(false);
       }
       // Compare with print.
       std::string ref_string, def_string;
       FLATBUFFERS_ASSERT(GenerateText(
           parser, parser.builder_.GetBufferPointer(), &ref_string));
       FLATBUFFERS_ASSERT(GenerateText(
           def_parser, def_parser.builder_.GetBufferPointer(), &def_string));
       if (ref_string != def_string) {
         TEST_OUTPUT_LINE("Stage 3.2 failed: '%s' != '%s'", def_string.c_str(),
                          ref_string.c_str());
         FLATBUFFERS_ASSERT(false);
       }
     }

     // Restore locale.
     if (use_locale) { FLATBUFFERS_ASSERT(setlocale(LC_ALL, "C")); }
   }
   return 0;
 }
	#include <assert.h>
	#include <stddef.h>
	#include <stdint.h>
	#include <algorithm>
	#include <clocale>
	#include <memory>
	#include <regex>
	#include <string>

	#include "flatbuffers/idl.h"
	#include "test_init.h"

	static constexpr uint8_t flags_scalar_type = 0x0F; // type of scalar value
	static constexpr uint8_t flags_quotes_kind = 0x10; // quote " or '
	// reserved for future: json {named} or [unnamed]
	// static constexpr uint8_t flags_json_bracer = 0x20;

	// Find all 'subj' sub-strings and replace first character of sub-string.
	// BreakSequence("testest","tes", 'X') -> "XesXest".
	// BreakSequence("xxx","xx", 'Y') -> "YYx".
	static void BreakSequence(std::string &s, const char *subj, char repl) {
	size_t pos = 0;
	while (pos = s.find(subj, pos), pos != std::string::npos) {
	s.at(pos) = repl;
	pos++;
	}
	}

	// Remove all leading and trailing symbols matched with pattern set.
	// StripString("xy{xy}y", "xy") -> "{xy}"
	static std::string StripString(const std::string &s, const char *pattern,
	size_t *pos = nullptr) {
	if (pos) *pos = 0;
	// leading
	auto first = s.find_first_not_of(pattern);
	if (std::string::npos == first) return "";
	if (pos) *pos = first;
	// trailing
	auto last = s.find_last_not_of(pattern);
	assert(last < s.length());
	assert(first <= last);
	return s.substr(first, last - first + 1);
	}

	class RegexMatcher {
	protected:
	virtual bool MatchNumber(const std::string &input) const = 0;

	public:
	virtual ~RegexMatcher() = default;

	struct MatchResult {
	size_t pos{ 0 };
	size_t len{ 0 };
	bool res{ false };
	bool quoted{ false };
	};

	MatchResult Match(const std::string &input) const {
	MatchResult r;
	// strip leading and trailing "spaces" accepted by flatbuffer
	auto test = StripString(input, "\t\r\n ", &r.pos);
	r.len = test.size();
	// check quotes
	if (test.size() >= 2) {
	auto fch = test.front();
	auto lch = test.back();
	r.quoted = (fch == lch) && (fch == '\'' \|\| fch == '\"');
	if (r.quoted) {
	// remove quotes for regex test
	test = test.substr(1, test.size() - 2);
	}
	}
	// Fast check:
	if (test.empty()) return r;
	// A string with a valid scalar shouldn't have non-ascii or non-printable
	// symbols.
	for (auto c : test) {
	if ((c < ' ') \|\| (c > '~')) return r;
	}
	// Check with regex
	r.res = MatchNumber(test);
	return r;
	}

	bool MatchRegexList(const std::string &input,
	const std::vector<std::regex> &re_list) const {
	auto str = StripString(input, " ");
	if (str.empty()) return false;
	for (auto &re : re_list) {
	std::smatch match;
	if (std::regex_match(str, match, re)) return true;
	}
	return false;
	}
	};

	class IntegerRegex : public RegexMatcher {
	protected:
	bool MatchNumber(const std::string &input) const override {
	static const std::vector<std::regex> re_list = {
	std::regex{ R"(^[-+]?[0-9]+$)", std::regex_constants::optimize },

	std::regex{
	R"(^[-+]?0[xX][0-9a-fA-F]+$)", std::regex_constants::optimize }
	};
	return MatchRegexList(input, re_list);
	}

	public:
	IntegerRegex() = default;
	virtual ~IntegerRegex() = default;
	};

	class UIntegerRegex : public RegexMatcher {
	protected:
	bool MatchNumber(const std::string &input) const override {
	static const std::vector<std::regex> re_list = {
	std::regex{ R"(^[+]?[0-9]+$)", std::regex_constants::optimize },
	std::regex{
	R"(^[+]?0[xX][0-9a-fA-F]+$)", std::regex_constants::optimize },
	// accept -0 number
	std::regex{ R"(^[-](?:0[xX])?0+$)", std::regex_constants::optimize }
	};
	return MatchRegexList(input, re_list);
	}

	public:
	UIntegerRegex() = default;
	virtual ~UIntegerRegex() = default;
	};

	class BooleanRegex : public IntegerRegex {
	protected:
	bool MatchNumber(const std::string &input) const override {
	if (input == "true" \|\| input == "false") return true;
	return IntegerRegex::MatchNumber(input);
	}

	public:
	BooleanRegex() = default;
	virtual ~BooleanRegex() = default;
	};

	class FloatRegex : public RegexMatcher {
	protected:
	bool MatchNumber(const std::string &input) const override {
	static const std::vector<std::regex> re_list = {
	// hex-float
	std::regex{
	R"(^[-+]?0[xX](?:(?:[.][0-9a-fA-F]+)\|(?:[0-9a-fA-F]+[.][0-9a-fA-F]*)\|(?:[0-9a-fA-F]+))[pP][-+]?[0-9]+$)",
	std::regex_constants::optimize },
	// dec-float
	std::regex{
	R"(^[-+]?(?:(?:[.][0-9]+)\|(?:[0-9]+[.][0-9]*)\|(?:[0-9]+))(?:[eE][-+]?[0-9]+)?$)",
	std::regex_constants::optimize },

	std::regex{ R"(^[-+]?(?:nan\|inf\|infinity)$)",
	std::regex_constants::optimize \| std::regex_constants::icase }
	};
	return MatchRegexList(input, re_list);
	}

	public:
	FloatRegex() = default;
	virtual ~FloatRegex() = default;
	};

	class ScalarReferenceResult {
	private:
	ScalarReferenceResult(const char *_type, RegexMatcher::MatchResult _matched)
	: type(_type), matched(_matched) {}

	public:
	// Decode scalar type and check if the input string satisfies the scalar type.
	static ScalarReferenceResult Check(uint8_t code, const std::string &input) {
	switch (code) {
	case 0x0: return { "double", FloatRegex().Match(input) };
	case 0x1: return { "float", FloatRegex().Match(input) };
	case 0x2: return { "int8", IntegerRegex().Match(input) };
	case 0x3: return { "int16", IntegerRegex().Match(input) };
	case 0x4: return { "int32", IntegerRegex().Match(input) };
	case 0x5: return { "int64", IntegerRegex().Match(input) };
	case 0x6: return { "uint8", UIntegerRegex().Match(input) };
	case 0x7: return { "uint16", UIntegerRegex().Match(input) };
	case 0x8: return { "uint32", UIntegerRegex().Match(input) };
	case 0x9: return { "uint64", UIntegerRegex().Match(input) };
	case 0xA: return { "bool", BooleanRegex().Match(input) };
	default: return { "float", FloatRegex().Match(input) };
	};
	}

	const char *type;
	const RegexMatcher::MatchResult matched;
	};

	bool Parse(flatbuffers::Parser &parser, const std::string &json,
	std::string *_text) {
	auto done = parser.Parse(json.c_str());
	if (done) {
	TEST_EQ(GenerateText(parser, parser.builder_.GetBufferPointer(), _text),
	true);
	} else {
	*_text = parser.error_;
	}
	return done;
	}

	// Utility for test run.
	OneTimeTestInit OneTimeTestInit::one_time_init_;

	// llvm std::regex have problem with stack overflow, limit maximum length.
	// ./scalar_fuzzer -max_len=3000
	extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) {
	// Reserve one byte for Parser flags and one byte for repetition counter.
	if (size < 3) return 0;
	const uint8_t flags = data[0];
	// normalize to ascii alphabet
	const int extra_rep_number = data[1] >= '0' ? (data[1] - '0') : 0;
	data += 2;
	size -= 2; // bypass

	// Guarantee 0-termination.
	const std::string original(reinterpret_cast<const char *>(data), size);
	auto input = std::string(original.c_str()); // until '\0'
	if (input.empty()) return 0;

	// Break comments in json to avoid complexity with regex matcher.
	// The string " 12345 /* text */" will be accepted if insert it to string
	// expression: "table X { Y: " + " 12345 /* text */" + "; }.
	// But strings like this will complicate regex matcher.
	// We reject this by transform "/* text / 12345" to "@ text */ 12345".
	BreakSequence(input, "//", '@'); // "//" -> "@/"
	BreakSequence(input, "/", '@'); // "/" -> "@*"
	// Break all known scalar functions (todo: add them to regex?):
	for (auto f : { "deg", "rad", "sin", "cos", "tan", "asin", "acos", "atan" }) {
	BreakSequence(input, f, '_'); // ident -> ident
	}

	// Extract type of scalar from 'flags' and check if the input string satisfies
	// the scalar type.
	const auto ref_res =
	ScalarReferenceResult::Check(flags & flags_scalar_type, input);
	auto &recheck = ref_res.matched;

	// Create parser
	flatbuffers::IDLOptions opts;
	opts.force_defaults = true;
	opts.output_default_scalars_in_json = true;
	opts.indent_step = -1;
	opts.strict_json = true;

	flatbuffers::Parser parser(opts);
	auto schema =
	"table X { Y: " + std::string(ref_res.type) + "; } root_type X;";
	TEST_EQ_FUNC(parser.Parse(schema.c_str()), true);

	// The fuzzer can adjust the number repetition if a side-effects have found.
	// Each test should pass at least two times to ensure that the parser doesn't
	// have any hidden-states or locale-depended effects.
	for (auto cnt = 0; cnt < (extra_rep_number + 2); cnt++) {
	// Each even run (0,2,4..) will test locale independed code.
	auto use_locale = !!OneTimeTestInit::test_locale() && (0 == (cnt % 2));
	// Set new locale.
	if (use_locale) {
	FLATBUFFERS_ASSERT(setlocale(LC_ALL, OneTimeTestInit::test_locale()));
	}

	// Parse original input as-is.
	auto orig_scalar = "{ \"Y\" : " + input + " }";
	std::string orig_back;
	auto orig_done = Parse(parser, orig_scalar, &orig_back);

	if (recheck.res != orig_done) {
	// look for "does not fit" or "doesn't fit" or "out of range"
	auto not_fit =
	(true == recheck.res)
	? ((orig_back.find("does not fit") != std::string::npos) \|\|
	(orig_back.find("out of range") != std::string::npos))
	: false;

	if (false == not_fit) {
	TEST_OUTPUT_LINE("Stage 1 failed: Parser(%d) != Regex(%d)", orig_done,
	recheck.res);
	TEST_EQ_STR(orig_back.c_str(),
	input.substr(recheck.pos, recheck.len).c_str());
	TEST_EQ_FUNC(orig_done, recheck.res);
	}
	}

	// Try to make quoted string and test it.
	std::string qouted_input;
	if (true == recheck.quoted) {
	// we can't simply remove quotes, they may be nested "'12'".
	// Original string "\'12\'" converted to "'12'".
	// The string can be an invalid string by JSON rules, but after quotes
	// removed can transform to valid.
	assert(recheck.len >= 2);
	} else {
	const auto quote = (flags & flags_quotes_kind) ? '\"' : '\'';
	qouted_input = input; // copy
	qouted_input.insert(recheck.pos + recheck.len, 1, quote);
	qouted_input.insert(recheck.pos, 1, quote);
	}

	// Test quoted version of the string
	if (!qouted_input.empty()) {
	auto fix_scalar = "{ \"Y\" : " + qouted_input + " }";
	std::string fix_back;
	auto fix_done = Parse(parser, fix_scalar, &fix_back);

	if (orig_done != fix_done) {
	TEST_OUTPUT_LINE("Stage 2 failed: Parser(%d) != Regex(%d)", fix_done,
	orig_done);
	TEST_EQ_STR(fix_back.c_str(), orig_back.c_str());
	}
	if (orig_done) { TEST_EQ_STR(fix_back.c_str(), orig_back.c_str()); }
	TEST_EQ_FUNC(fix_done, orig_done);
	}

	// Create new parser and test default value
	if (true == orig_done) {
	flatbuffers::Parser def_parser(opts); // re-use options
	auto def_schema = "table X { Y: " + std::string(ref_res.type) + " = " +
	input + "; } root_type X;" +
	"{}"; // <- with empty json {}!

	auto def_done = def_parser.Parse(def_schema.c_str());
	if (false == def_done) {
	TEST_OUTPUT_LINE("Stage 3.1 failed with _error = %s",
	def_parser.error_.c_str());
	FLATBUFFERS_ASSERT(false);
	}
	// Compare with print.
	std::string ref_string, def_string;
	FLATBUFFERS_ASSERT(GenerateText(
	parser, parser.builder_.GetBufferPointer(), &ref_string));
	FLATBUFFERS_ASSERT(GenerateText(
	def_parser, def_parser.builder_.GetBufferPointer(), &def_string));
	if (ref_string != def_string) {
	TEST_OUTPUT_LINE("Stage 3.2 failed: '%s' != '%s'", def_string.c_str(),
	ref_string.c_str());
	FLATBUFFERS_ASSERT(false);
	}
	}

	// Restore locale.
	if (use_locale) { FLATBUFFERS_ASSERT(setlocale(LC_ALL, "C")); }
	}
	return 0;
	}