1 //=== JSON.cpp - JSON value, parsing and serialization - C++ -----------*-===//
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
7 //===---------------------------------------------------------------------===//
9 #include "llvm/Support/JSON.h"
10 #include "llvm/Support/ConvertUTF.h"
11 #include "llvm/Support/Format.h"
17 Value &Object::operator[](const ObjectKey &K) {
18 return try_emplace(K, nullptr).first->getSecond();
20 Value &Object::operator[](ObjectKey &&K) {
21 return try_emplace(std::move(K), nullptr).first->getSecond();
23 Value *Object::get(StringRef K) {
29 const Value *Object::get(StringRef K) const {
35 llvm::Optional<std::nullptr_t> Object::getNull(StringRef K) const {
37 return V->getAsNull();
40 llvm::Optional<bool> Object::getBoolean(StringRef K) const {
42 return V->getAsBoolean();
45 llvm::Optional<double> Object::getNumber(StringRef K) const {
47 return V->getAsNumber();
50 llvm::Optional<int64_t> Object::getInteger(StringRef K) const {
52 return V->getAsInteger();
55 llvm::Optional<llvm::StringRef> Object::getString(StringRef K) const {
57 return V->getAsString();
60 const json::Object *Object::getObject(StringRef K) const {
62 return V->getAsObject();
65 json::Object *Object::getObject(StringRef K) {
67 return V->getAsObject();
70 const json::Array *Object::getArray(StringRef K) const {
72 return V->getAsArray();
75 json::Array *Object::getArray(StringRef K) {
77 return V->getAsArray();
80 bool operator==(const Object &LHS, const Object &RHS) {
81 if (LHS.size() != RHS.size())
83 for (const auto &L : LHS) {
84 auto R = RHS.find(L.first);
85 if (R == RHS.end() || L.second != R->second)
91 Array::Array(std::initializer_list<Value> Elements) {
92 V.reserve(Elements.size());
93 for (const Value &V : Elements) {
94 emplace_back(nullptr);
95 back().moveFrom(std::move(V));
99 Value::Value(std::initializer_list<Value> Elements)
100 : Value(json::Array(Elements)) {}
102 void Value::copyFrom(const Value &M) {
109 memcpy(Union.buffer, M.Union.buffer, sizeof(Union.buffer));
112 create<StringRef>(M.as<StringRef>());
115 create<std::string>(M.as<std::string>());
118 create<json::Object>(M.as<json::Object>());
121 create<json::Array>(M.as<json::Array>());
126 void Value::moveFrom(const Value &&M) {
133 memcpy(Union.buffer, M.Union.buffer, sizeof(Union.buffer));
136 create<StringRef>(M.as<StringRef>());
139 create<std::string>(std::move(M.as<std::string>()));
143 create<json::Object>(std::move(M.as<json::Object>()));
147 create<json::Array>(std::move(M.as<json::Array>()));
153 void Value::destroy() {
161 as<StringRef>().~StringRef();
164 as<std::string>().~basic_string();
167 as<json::Object>().~Object();
170 as<json::Array>().~Array();
175 bool operator==(const Value &L, const Value &R) {
176 if (L.kind() != R.kind())
180 return *L.getAsNull() == *R.getAsNull();
182 return *L.getAsBoolean() == *R.getAsBoolean();
184 // Workaround for https://gcc.gnu.org/bugzilla/show_bug.cgi?id=323
185 // The same integer must convert to the same double, per the standard.
186 // However we see 64-vs-80-bit precision comparisons with gcc-7 -O3 -m32.
187 // So we avoid floating point promotion for exact comparisons.
188 if (L.Type == Value::T_Integer || R.Type == Value::T_Integer)
189 return L.getAsInteger() == R.getAsInteger();
190 return *L.getAsNumber() == *R.getAsNumber();
192 return *L.getAsString() == *R.getAsString();
194 return *L.getAsArray() == *R.getAsArray();
196 return *L.getAsObject() == *R.getAsObject();
198 llvm_unreachable("Unknown value kind");
202 // Simple recursive-descent JSON parser.
205 Parser(StringRef JSON)
206 : Start(JSON.begin()), P(JSON.begin()), End(JSON.end()) {}
210 if (isUTF8(StringRef(Start, End - Start), &ErrOffset))
212 P = Start + ErrOffset; // For line/column calculation.
213 return parseError("Invalid UTF-8 sequence");
216 bool parseValue(Value &Out);
222 return parseError("Text after end of document");
227 return std::move(*Err);
231 void eatWhitespace() {
232 while (P != End && (*P == ' ' || *P == '\r' || *P == '\n' || *P == '\t'))
236 // On invalid syntax, parseX() functions return false and set Err.
237 bool parseNumber(char First, Value &Out);
238 bool parseString(std::string &Out);
239 bool parseUnicode(std::string &Out);
240 bool parseError(const char *Msg); // always returns false
242 char next() { return P == End ? 0 : *P++; }
243 char peek() { return P == End ? 0 : *P; }
244 static bool isNumber(char C) {
245 return C == '0' || C == '1' || C == '2' || C == '3' || C == '4' ||
246 C == '5' || C == '6' || C == '7' || C == '8' || C == '9' ||
247 C == 'e' || C == 'E' || C == '+' || C == '-' || C == '.';
251 const char *Start, *P, *End;
254 bool Parser::parseValue(Value &Out) {
257 return parseError("Unexpected EOF");
258 switch (char C = next()) {
259 // Bare null/true/false are easy - first char identifies them.
262 return (next() == 'u' && next() == 'l' && next() == 'l') ||
263 parseError("Invalid JSON value (null?)");
266 return (next() == 'r' && next() == 'u' && next() == 'e') ||
267 parseError("Invalid JSON value (true?)");
270 return (next() == 'a' && next() == 'l' && next() == 's' && next() == 'e') ||
271 parseError("Invalid JSON value (false?)");
274 if (parseString(S)) {
282 Array &A = *Out.getAsArray();
289 A.emplace_back(nullptr);
290 if (!parseValue(A.back()))
300 return parseError("Expected , or ] after array element");
306 Object &O = *Out.getAsObject();
314 return parseError("Expected object key");
320 return parseError("Expected : after object key");
322 if (!parseValue(O[std::move(K)]))
332 return parseError("Expected , or } after object property");
338 return parseNumber(C, Out);
339 return parseError("Invalid JSON value");
343 bool Parser::parseNumber(char First, Value &Out) {
344 // Read the number into a string. (Must be null-terminated for strto*).
347 while (isNumber(peek()))
350 // Try first to parse as integer, and if so preserve full 64 bits.
351 // strtoll returns long long >= 64 bits, so check it's in range too.
352 auto I = std::strtoll(S.c_str(), &End, 10);
353 if (End == S.end() && I >= std::numeric_limits<int64_t>::min() &&
354 I <= std::numeric_limits<int64_t>::max()) {
358 // If it's not an integer
359 Out = std::strtod(S.c_str(), &End);
360 return End == S.end() || parseError("Invalid JSON value (number?)");
363 bool Parser::parseString(std::string &Out) {
364 // leading quote was already consumed.
365 for (char C = next(); C != '"'; C = next()) {
366 if (LLVM_UNLIKELY(P == End))
367 return parseError("Unterminated string");
368 if (LLVM_UNLIKELY((C & 0x1f) == C))
369 return parseError("Control character in string");
370 if (LLVM_LIKELY(C != '\\')) {
374 // Handle escape sequence.
375 switch (C = next()) {
397 if (!parseUnicode(Out))
401 return parseError("Invalid escape sequence");
407 static void encodeUtf8(uint32_t Rune, std::string &Out) {
409 Out.push_back(Rune & 0x7F);
410 } else if (Rune < 0x800) {
411 uint8_t FirstByte = 0xC0 | ((Rune & 0x7C0) >> 6);
412 uint8_t SecondByte = 0x80 | (Rune & 0x3F);
413 Out.push_back(FirstByte);
414 Out.push_back(SecondByte);
415 } else if (Rune < 0x10000) {
416 uint8_t FirstByte = 0xE0 | ((Rune & 0xF000) >> 12);
417 uint8_t SecondByte = 0x80 | ((Rune & 0xFC0) >> 6);
418 uint8_t ThirdByte = 0x80 | (Rune & 0x3F);
419 Out.push_back(FirstByte);
420 Out.push_back(SecondByte);
421 Out.push_back(ThirdByte);
422 } else if (Rune < 0x110000) {
423 uint8_t FirstByte = 0xF0 | ((Rune & 0x1F0000) >> 18);
424 uint8_t SecondByte = 0x80 | ((Rune & 0x3F000) >> 12);
425 uint8_t ThirdByte = 0x80 | ((Rune & 0xFC0) >> 6);
426 uint8_t FourthByte = 0x80 | (Rune & 0x3F);
427 Out.push_back(FirstByte);
428 Out.push_back(SecondByte);
429 Out.push_back(ThirdByte);
430 Out.push_back(FourthByte);
432 llvm_unreachable("Invalid codepoint");
436 // Parse a UTF-16 \uNNNN escape sequence. "\u" has already been consumed.
437 // May parse several sequential escapes to ensure proper surrogate handling.
438 // We do not use ConvertUTF.h, it can't accept and replace unpaired surrogates.
439 // These are invalid Unicode but valid JSON (RFC 8259, section 8.2).
440 bool Parser::parseUnicode(std::string &Out) {
441 // Invalid UTF is not a JSON error (RFC 8529§8.2). It gets replaced by U+FFFD.
442 auto Invalid = [&] { Out.append(/* UTF-8 */ {'\xef', '\xbf', '\xbd'}); };
443 // Decodes 4 hex digits from the stream into Out, returns false on error.
444 auto Parse4Hex = [this](uint16_t &Out) -> bool {
446 char Bytes[] = {next(), next(), next(), next()};
447 for (unsigned char C : Bytes) {
448 if (!std::isxdigit(C))
449 return parseError("Invalid \\u escape sequence");
451 Out |= (C > '9') ? (C & ~0x20) - 'A' + 10 : (C - '0');
455 uint16_t First; // UTF-16 code unit from the first \u escape.
456 if (!Parse4Hex(First))
459 // We loop to allow proper surrogate-pair error handling.
461 // Case 1: the UTF-16 code unit is already a codepoint in the BMP.
462 if (LLVM_LIKELY(First < 0xD800 || First >= 0xE000)) {
463 encodeUtf8(First, Out);
467 // Case 2: it's an (unpaired) trailing surrogate.
468 if (LLVM_UNLIKELY(First >= 0xDC00)) {
473 // Case 3: it's a leading surrogate. We expect a trailing one next.
474 // Case 3a: there's no trailing \u escape. Don't advance in the stream.
475 if (LLVM_UNLIKELY(P + 2 > End || *P != '\\' || *(P + 1) != 'u')) {
476 Invalid(); // Leading surrogate was unpaired.
481 if (!Parse4Hex(Second))
483 // Case 3b: there was another \u escape, but it wasn't a trailing surrogate.
484 if (LLVM_UNLIKELY(Second < 0xDC00 || Second >= 0xE000)) {
485 Invalid(); // Leading surrogate was unpaired.
486 First = Second; // Second escape still needs to be processed.
489 // Case 3c: a valid surrogate pair encoding an astral codepoint.
490 encodeUtf8(0x10000 | ((First - 0xD800) << 10) | (Second - 0xDC00), Out);
495 bool Parser::parseError(const char *Msg) {
497 const char *StartOfLine = Start;
498 for (const char *X = Start; X < P; ++X) {
505 llvm::make_unique<ParseError>(Msg, Line, P - StartOfLine, P - Start));
510 Expected<Value> parse(StringRef JSON) {
517 return P.takeError();
519 char ParseError::ID = 0;
521 static std::vector<const Object::value_type *> sortedElements(const Object &O) {
522 std::vector<const Object::value_type *> Elements;
523 for (const auto &E : O)
524 Elements.push_back(&E);
526 [](const Object::value_type *L, const Object::value_type *R) {
527 return L->first < R->first;
532 bool isUTF8(llvm::StringRef S, size_t *ErrOffset) {
533 // Fast-path for ASCII, which is valid UTF-8.
534 if (LLVM_LIKELY(isASCII(S)))
537 const UTF8 *Data = reinterpret_cast<const UTF8 *>(S.data()), *Rest = Data;
538 if (LLVM_LIKELY(isLegalUTF8String(&Rest, Data + S.size())))
542 *ErrOffset = Rest - Data;
546 std::string fixUTF8(llvm::StringRef S) {
547 // This isn't particularly efficient, but is only for error-recovery.
548 std::vector<UTF32> Codepoints(S.size()); // 1 codepoint per byte suffices.
549 const UTF8 *In8 = reinterpret_cast<const UTF8 *>(S.data());
550 UTF32 *Out32 = Codepoints.data();
551 ConvertUTF8toUTF32(&In8, In8 + S.size(), &Out32, Out32 + Codepoints.size(),
553 Codepoints.resize(Out32 - Codepoints.data());
554 std::string Res(4 * Codepoints.size(), 0); // 4 bytes per codepoint suffice
555 const UTF32 *In32 = Codepoints.data();
556 UTF8 *Out8 = reinterpret_cast<UTF8 *>(&Res[0]);
557 ConvertUTF32toUTF8(&In32, In32 + Codepoints.size(), &Out8, Out8 + Res.size(),
559 Res.resize(reinterpret_cast<char *>(Out8) - Res.data());
563 static void quote(llvm::raw_ostream &OS, llvm::StringRef S) {
565 for (unsigned char C : S) {
566 if (C == 0x22 || C == 0x5C)
574 // A few characters are common enough to make short escapes worthwhile.
586 llvm::write_hex(OS, C, llvm::HexPrintStyle::Lower, 4);
593 void llvm::json::OStream::value(const Value &V) {
601 OS << (*V.getAsBoolean() ? "true" : "false");
605 if (V.Type == Value::T_Integer)
606 OS << *V.getAsInteger();
608 OS << format("%.*g", std::numeric_limits<double>::max_digits10,
613 quote(OS, *V.getAsString());
617 for (const Value &E : *V.getAsArray())
622 for (const Object::value_type *E : sortedElements(*V.getAsObject()))
623 attribute(E->first, E->second);
628 void llvm::json::OStream::valueBegin() {
629 assert(Stack.back().Ctx != Object && "Only attributes allowed here");
630 if (Stack.back().HasValue) {
631 assert(Stack.back().Ctx != Singleton && "Only one value allowed here");
634 if (Stack.back().Ctx == Array)
636 Stack.back().HasValue = true;
639 void llvm::json::OStream::newline() {
646 void llvm::json::OStream::arrayBegin() {
648 Stack.emplace_back();
649 Stack.back().Ctx = Array;
650 Indent += IndentSize;
654 void llvm::json::OStream::arrayEnd() {
655 assert(Stack.back().Ctx == Array);
656 Indent -= IndentSize;
657 if (Stack.back().HasValue)
661 assert(!Stack.empty());
664 void llvm::json::OStream::objectBegin() {
666 Stack.emplace_back();
667 Stack.back().Ctx = Object;
668 Indent += IndentSize;
672 void llvm::json::OStream::objectEnd() {
673 assert(Stack.back().Ctx == Object);
674 Indent -= IndentSize;
675 if (Stack.back().HasValue)
679 assert(!Stack.empty());
682 void llvm::json::OStream::attributeBegin(llvm::StringRef Key) {
683 assert(Stack.back().Ctx == Object);
684 if (Stack.back().HasValue)
687 Stack.back().HasValue = true;
688 Stack.emplace_back();
689 Stack.back().Ctx = Singleton;
690 if (LLVM_LIKELY(isUTF8(Key))) {
693 assert(false && "Invalid UTF-8 in attribute key");
694 quote(OS, fixUTF8(Key));
701 void llvm::json::OStream::attributeEnd() {
702 assert(Stack.back().Ctx == Singleton);
703 assert(Stack.back().HasValue && "Attribute must have a value");
705 assert(Stack.back().Ctx == Object);
711 void llvm::format_provider<llvm::json::Value>::format(
712 const llvm::json::Value &E, raw_ostream &OS, StringRef Options) {
713 unsigned IndentAmount = 0;
714 if (!Options.empty() && Options.getAsInteger(/*Radix=*/10, IndentAmount))
715 llvm_unreachable("json::Value format options should be an integer");
716 json::OStream(OS, IndentAmount).value(E);
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