/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* A JSON pretty-printer class. */ // A typical JSON-writing library requires you to first build up a data // structure that represents a JSON object and then serialize it (to file, or // somewhere else). This approach makes for a clean API, but building the data // structure takes up memory. Sometimes that isn't desirable, such as when the // JSON data is produced for memory reporting. // // The JSONWriter class instead allows JSON data to be written out // incrementally without building up large data structures. // // The API is slightly uglier than you would see in a typical JSON-writing // library, but still fairly easy to use. It's possible to generate invalid // JSON with JSONWriter, but typically the most basic testing will identify any // such problems. // // Similarly, there are no RAII facilities for automatically closing objects // and arrays. These would be nice if you are generating all your code within // nested functions, but in other cases you'd have to maintain an explicit // stack of RAII objects and manually unwind it, which is no better than just // calling "end" functions. Furthermore, the consequences of forgetting to // close an object or array are obvious and, again, will be identified via // basic testing, unlike other cases where RAII is typically used (e.g. smart // pointers) and the consequences of defects are more subtle. // // Importantly, the class does solve the two hard problems of JSON // pretty-printing, which are (a) correctly escaping strings, and (b) adding // appropriate indentation and commas between items. // // By default, every property is placed on its own line. However, it is // possible to request that objects and arrays be placed entirely on a single // line, which can reduce output size significantly in some cases. // // Strings used (for property names and string property values) are |const // char*| throughout, and can be ASCII or UTF-8. // // EXAMPLE // ------- // Assume that |MyWriteFunc| is a class that implements |JSONWriteFunc|. The // following code: // // JSONWriter w(MakeUnique()); // w.Start(); // { // w.NullProperty("null"); // w.BoolProperty("bool", true); // w.IntProperty("int", 1); // w.StartArrayProperty("array"); // { // w.StringElement("string"); // w.StartObjectElement(); // { // w.DoubleProperty("double", 3.4); // w.StartArrayProperty("single-line array", w.SingleLineStyle); // { // w.IntElement(1); // w.StartObjectElement(); // SingleLineStyle is inherited from // w.EndObjectElement(); // above for this collection // } // w.EndArray(); // } // w.EndObjectElement(); // } // w.EndArrayProperty(); // } // w.End(); // // will produce pretty-printed output for the following JSON object: // // { // "null": null, // "bool": true, // "int": 1, // "array": [ // "string", // { // "double": 3.4, // "single-line array": [1, {}] // } // ] // } // // The nesting in the example code is obviously optional, but can aid // readability. #ifndef mozilla_JSONWriter_h #define mozilla_JSONWriter_h #include "mozilla/double-conversion.h" #include "mozilla/IntegerPrintfMacros.h" #include "mozilla/PodOperations.h" #include "mozilla/Snprintf.h" #include "mozilla/UniquePtr.h" #include "mozilla/Vector.h" #include namespace mozilla { // A quasi-functor for JSONWriter. We don't use a true functor because that // requires templatizing JSONWriter, and the templatization seeps to lots of // places we don't want it to. class JSONWriteFunc { public: virtual void Write(const char* aStr) = 0; virtual ~JSONWriteFunc() {} }; // Ideally this would be within |EscapedString| but when compiling with GCC // on Linux that caused link errors, whereas this formulation didn't. namespace detail { extern MFBT_DATA const char gTwoCharEscapes[256]; } // namespace detail class JSONWriter { // From http://www.ietf.org/rfc/rfc4627.txt: // // "All Unicode characters may be placed within the quotation marks except // for the characters that must be escaped: quotation mark, reverse // solidus, and the control characters (U+0000 through U+001F)." // // This implementation uses two-char escape sequences where possible, namely: // // \", \\, \b, \f, \n, \r, \t // // All control characters not in the above list are represented with a // six-char escape sequence, e.g. '\u000b' (a.k.a. '\v'). // class EscapedString { // Only one of |mUnownedStr| and |mOwnedStr| are ever non-null. |mIsOwned| // indicates which one is in use. They're not within a union because that // wouldn't work with UniquePtr. bool mIsOwned; const char* mUnownedStr; UniquePtr mOwnedStr; void SanityCheck() const { MOZ_ASSERT_IF( mIsOwned, mOwnedStr.get() && !mUnownedStr); MOZ_ASSERT_IF(!mIsOwned, !mOwnedStr.get() && mUnownedStr); } static char hexDigitToAsciiChar(uint8_t u) { u = u & 0xf; return u < 10 ? '0' + u : 'a' + (u - 10); } public: explicit EscapedString(const char* aStr) : mUnownedStr(nullptr) , mOwnedStr(nullptr) { const char* p; // First, see if we need to modify the string. size_t nExtra = 0; p = aStr; while (true) { uint8_t u = *p; // ensure it can't be interpreted as negative if (u == 0) { break; } if (detail::gTwoCharEscapes[u]) { nExtra += 1; } else if (u <= 0x1f) { nExtra += 5; } p++; } if (nExtra == 0) { // No escapes needed. Easy. mIsOwned = false; mUnownedStr = aStr; return; } // Escapes are needed. We'll create a new string. mIsOwned = true; size_t len = (p - aStr) + nExtra; mOwnedStr = MakeUnique(len + 1); p = aStr; size_t i = 0; while (true) { uint8_t u = *p; // ensure it can't be interpreted as negative if (u == 0) { mOwnedStr[i] = 0; break; } if (detail::gTwoCharEscapes[u]) { mOwnedStr[i++] = '\\'; mOwnedStr[i++] = detail::gTwoCharEscapes[u]; } else if (u <= 0x1f) { mOwnedStr[i++] = '\\'; mOwnedStr[i++] = 'u'; mOwnedStr[i++] = '0'; mOwnedStr[i++] = '0'; mOwnedStr[i++] = hexDigitToAsciiChar((u & 0x00f0) >> 4); mOwnedStr[i++] = hexDigitToAsciiChar(u & 0x000f); } else { mOwnedStr[i++] = u; } p++; } } ~EscapedString() { SanityCheck(); } const char* get() const { SanityCheck(); return mIsOwned ? mOwnedStr.get() : mUnownedStr; } }; public: // Collections (objects and arrays) are printed in a multi-line style by // default. This can be changed to a single-line style if SingleLineStyle is // specified. If a collection is printed in single-line style, every nested // collection within it is also printed in single-line style, even if // multi-line style is requested. enum CollectionStyle { MultiLineStyle, // the default SingleLineStyle }; protected: const UniquePtr mWriter; Vector mNeedComma; // do we need a comma at depth N? Vector mNeedNewlines; // do we need newlines at depth N? size_t mDepth; // the current nesting depth void Indent() { for (size_t i = 0; i < mDepth; i++) { mWriter->Write(" "); } } // Adds whatever is necessary (maybe a comma, and then a newline and // whitespace) to separate an item (property or element) from what's come // before. void Separator() { if (mNeedComma[mDepth]) { mWriter->Write(","); } if (mDepth > 0 && mNeedNewlines[mDepth]) { mWriter->Write("\n"); Indent(); } else if (mNeedComma[mDepth]) { mWriter->Write(" "); } } void PropertyNameAndColon(const char* aName) { EscapedString escapedName(aName); mWriter->Write("\""); mWriter->Write(escapedName.get()); mWriter->Write("\": "); } void Scalar(const char* aMaybePropertyName, const char* aStringValue) { Separator(); if (aMaybePropertyName) { PropertyNameAndColon(aMaybePropertyName); } mWriter->Write(aStringValue); mNeedComma[mDepth] = true; } void QuotedScalar(const char* aMaybePropertyName, const char* aStringValue) { Separator(); if (aMaybePropertyName) { PropertyNameAndColon(aMaybePropertyName); } mWriter->Write("\""); mWriter->Write(aStringValue); mWriter->Write("\""); mNeedComma[mDepth] = true; } void NewVectorEntries() { // If these tiny allocations OOM we might as well just crash because we // must be in serious memory trouble. MOZ_RELEASE_ASSERT(mNeedComma.resizeUninitialized(mDepth + 1)); MOZ_RELEASE_ASSERT(mNeedNewlines.resizeUninitialized(mDepth + 1)); mNeedComma[mDepth] = false; mNeedNewlines[mDepth] = true; } void StartCollection(const char* aMaybePropertyName, const char* aStartChar, CollectionStyle aStyle = MultiLineStyle) { Separator(); if (aMaybePropertyName) { mWriter->Write("\""); mWriter->Write(aMaybePropertyName); mWriter->Write("\": "); } mWriter->Write(aStartChar); mNeedComma[mDepth] = true; mDepth++; NewVectorEntries(); mNeedNewlines[mDepth] = mNeedNewlines[mDepth - 1] && aStyle == MultiLineStyle; } // Adds the whitespace and closing char necessary to end a collection. void EndCollection(const char* aEndChar) { if (mNeedNewlines[mDepth]) { mWriter->Write("\n"); mDepth--; Indent(); } else { mDepth--; } mWriter->Write(aEndChar); } public: explicit JSONWriter(UniquePtr aWriter) : mWriter(Move(aWriter)) , mNeedComma() , mNeedNewlines() , mDepth(0) { NewVectorEntries(); } // Returns the JSONWriteFunc passed in at creation, for temporary use. The // JSONWriter object still owns the JSONWriteFunc. JSONWriteFunc* WriteFunc() const { return mWriter.get(); } // For all the following functions, the "Prints:" comment indicates what the // basic output looks like. However, it doesn't indicate the whitespace and // trailing commas, which are automatically added as required. // // All property names and string properties are escaped as necessary. // Prints: { void Start(CollectionStyle aStyle = MultiLineStyle) { StartCollection(nullptr, "{", aStyle); } // Prints: } void End() { EndCollection("}\n"); } // Prints: "": null void NullProperty(const char* aName) { Scalar(aName, "null"); } // Prints: null void NullElement() { NullProperty(nullptr); } // Prints: "": void BoolProperty(const char* aName, bool aBool) { Scalar(aName, aBool ? "true" : "false"); } // Prints: void BoolElement(bool aBool) { BoolProperty(nullptr, aBool); } // Prints: "": void IntProperty(const char* aName, int64_t aInt) { char buf[64]; snprintf_literal(buf, "%" PRId64, aInt); Scalar(aName, buf); } // Prints: void IntElement(int64_t aInt) { IntProperty(nullptr, aInt); } // Prints: "": void DoubleProperty(const char* aName, double aDouble) { static const size_t buflen = 64; char buf[buflen]; const double_conversion::DoubleToStringConverter &converter = double_conversion::DoubleToStringConverter::EcmaScriptConverter(); double_conversion::StringBuilder builder(buf, buflen); converter.ToShortest(aDouble, &builder); Scalar(aName, builder.Finalize()); } // Prints: void DoubleElement(double aDouble) { DoubleProperty(nullptr, aDouble); } // Prints: "": "" void StringProperty(const char* aName, const char* aStr) { EscapedString escapedStr(aStr); QuotedScalar(aName, escapedStr.get()); } // Prints: "" void StringElement(const char* aStr) { StringProperty(nullptr, aStr); } // Prints: "": [ void StartArrayProperty(const char* aName, CollectionStyle aStyle = MultiLineStyle) { StartCollection(aName, "[", aStyle); } // Prints: [ void StartArrayElement(CollectionStyle aStyle = MultiLineStyle) { StartArrayProperty(nullptr, aStyle); } // Prints: ] void EndArray() { EndCollection("]"); } // Prints: "": { void StartObjectProperty(const char* aName, CollectionStyle aStyle = MultiLineStyle) { StartCollection(aName, "{", aStyle); } // Prints: { void StartObjectElement(CollectionStyle aStyle = MultiLineStyle) { StartObjectProperty(nullptr, aStyle); } // Prints: } void EndObject() { EndCollection("}"); } }; } // namespace mozilla #endif /* mozilla_JSONWriter_h */