1# FAQ
2
3[TOC]
4
5## General
6
71. What is RapidJSON?
8
9   RapidJSON is a C++ library for parsing and generating JSON. You may check all [features](doc/features.md) of it.
10
112. Why is RapidJSON named so?
12
13   It is inspired by [RapidXML](http://rapidxml.sourceforge.net/), which is a fast XML DOM parser.
14
153. Is RapidJSON similar to RapidXML?
16
17   RapidJSON borrowed some designs of RapidXML, including *in situ* parsing, header-only library. But the two APIs are completely different. Also RapidJSON provide many features that are not in RapidXML.
18
194. Is RapidJSON free?
20
21   Yes, it is free under MIT license. It can be used in commercial applications. Please check the details in [license.txt](https://github.com/miloyip/rapidjson/blob/master/license.txt).
22
235. Is RapidJSON small? What are its dependencies?
24
25   Yes. A simple executable which parses a JSON and prints its statistics is less than 30KB on Windows.
26
27   RapidJSON depends on C++ standard library only.
28
296. How to install RapidJSON?
30
31   Check [Installation section](https://miloyip.github.io/rapidjson/).
32
337. Can RapidJSON run on my platform?
34
35   RapidJSON has been tested in many combinations of operating systems, compilers and CPU architecture by the community. But we cannot ensure that it can be run on your particular platform. Building and running the unit test suite will give you the answer.
36
378. Does RapidJSON support C++03? C++11?
38
39   RapidJSON was firstly implemented for C++03. Later it added optional support of some C++11 features (e.g., move constructor, `noexcept`). RapidJSON shall be compatible with C++03 or C++11 compliant compilers.
40
419. Does RapidJSON really work in real applications?
42
43   Yes. It is deployed in both client and server real applications. A community member reported that RapidJSON in their system parses 50 million JSONs daily.
44
4510. How RapidJSON is tested?
46
47   RapidJSON contains a unit test suite for automatic testing. [Travis](https://travis-ci.org/miloyip/rapidjson/)(for Linux) and [AppVeyor](https://ci.appveyor.com/project/miloyip/rapidjson/)(for Windows) will compile and run the unit test suite for all modifications. The test process also uses Valgrind (in Linux) to detect memory leaks.
48
4911. Is RapidJSON well documented?
50
51   RapidJSON provides user guide and API documentationn.
52
5312. Are there alternatives?
54
55   Yes, there are a lot alternatives. For example, [nativejson-benchmark](https://github.com/miloyip/nativejson-benchmark) has a listing of open-source C/C++ JSON libraries. [json.org](http://www.json.org/) also has a list.
56
57## JSON
58
591. What is JSON?
60
61   JSON (JavaScript Object Notation) is a lightweight data-interchange format. It uses human readable text format. More details of JSON can be referred to [RFC7159](http://www.ietf.org/rfc/rfc7159.txt) and [ECMA-404](http://www.ecma-international.org/publications/standards/Ecma-404.htm).
62
632. What are applications of JSON?
64
65   JSON are commonly used in web applications for transferring structured data. It is also used as a file format for data persistence.
66
672. Does RapidJSON conform to the JSON standard?
68
69   Yes. RapidJSON is fully compliance with [RFC7159](http://www.ietf.org/rfc/rfc7159.txt) and [ECMA-404](http://www.ecma-international.org/publications/standards/Ecma-404.htm). It can handle corner cases, such as supporting null character and surrogate pairs in JSON strings.
70
713. Does RapidJSON support relaxed syntax?
72
73   Currently no. RapidJSON only support the strict standardized format. Support on related syntax is under discussion in this [issue](https://github.com/miloyip/rapidjson/issues/36).
74
75## DOM and SAX
76
771. What is DOM style API?
78
79   Document Object Model (DOM) is an in-memory representation of JSON for query and manipulation.
80
812. What is SAX style API?
82
83   SAX is an event-driven API for parsing and generation.
84
853. Should I choose DOM or SAX?
86
87   DOM is easy for query and manipulation. SAX is very fast and memory-saving but often more difficult to be applied.
88
894. What is *in situ* parsing?
90
91   *in situ* parsing decodes the JSON strings directly into the input JSON. This is an optimization which can reduce memory consumption and improve performance, but the input JSON will be modified. Check [in-situ parsing](doc/dom.md) for details.
92
935. When does parsing generate an error?
94
95   The parser generates an error when the input JSON contains invalid syntax, or a value can not be represented (a number is too big), or the handler of parsers terminate the parsing. Check [parse error](doc/dom.md) for details.
96
976. What error information is provided?
98
99   The error is stored in `ParseResult`, which includes the error code and offset (number of characters from the beginning of JSON). The error code can be translated into human-readable error message.
100
1017. Why not just using `double` to represent JSON number?
102
103   Some applications use 64-bit unsigned/signed integers. And these integers cannot be converted into `double` without loss of precision. So the parsers detects whether a JSON number is convertible to different types of integers and/or `double`.
104
1058. How to clear-and-minimize a document or value?
106
107   Call one of the `SetXXX()` methods - they call destructor which deallocates DOM data:
108
109   ```
110   Document d;
111   ...
112   d.SetObject();  // clear and minimize
113   ```
114
115   Alternatively, use equivalent of the [C++ swap with temporary idiom](https://en.wikibooks.org/wiki/More_C%2B%2B_Idioms/Clear-and-minimize):
116   ```
117   Value(kObjectType).Swap(d);
118   ```
119   or equivalent, but sightly longer to type:
120   ```
121   d.Swap(Value(kObjectType).Move());
122   ```
123
1249. How to insert a document node into another document?
125
126   Let's take the following two DOM trees represented as JSON documents:
127   ```
128   Document person;
129   person.Parse("{\"person\":{\"name\":{\"first\":\"Adam\",\"last\":\"Thomas\"}}}");
130
131   Document address;
132   address.Parse("{\"address\":{\"city\":\"Moscow\",\"street\":\"Quiet\"}}");
133   ```
134   Let's assume we want to merge them in such way that the whole `address` document becomes a node of the `person`:
135   ```
136   { "person": {
137      "name": { "first": "Adam", "last": "Thomas" },
138      "address": { "city": "Moscow", "street": "Quiet" }
139      }
140   }
141   ```
142
143   The most important requirement to take care of document and value life-cycle as well as consistent memory managent using the right allocator during the value transfer.
144
145   Simple yet most efficient way to achieve that is to modify the `address` definition above to initialize it with allocator of the `person` document, then we just add the root nenber of the value:
146   ```
147   Documnet address(person.GetAllocator());
148   ...
149   person["person"].AddMember("address", address["address"], person.GetAllocator());
150   ```
151Alternatively, if we don't want to explicitly refer to the root value of `address` by name, we can refer to it via iterator:
152   ```
153   auto addressRoot = address.MemberBegin();
154   person["person"].AddMember(addressRoot->name, addressRoot->value, person.GetAllocator());
155   ```
156
157   Second way is to deep-clone the value from the address document:
158   ```
159   Value addressValue = Value(address["address"], person.GetAllocator());
160   person["person"].AddMember("address", addressValue, person.GetAllocator());
161   ```
162
163## Document/Value (DOM)
164
1651. What is move semantics? Why?
166
167   Instead of copy semantics, move semantics is used in `Value`. That means, when assigning a source value to a target value, the ownership of source value is moved to the target value.
168
169   Since moving is faster than copying, this design decision forces user to aware of the copying overhead.
170
1712. How to copy a value?
172
173   There are two APIs: constructor with allocator, and `CopyFrom()`. See [Deep Copy Value](doc/tutorial.md) for an example.
174
1753. Why do I need to provide the length of string?
176
177   Since C string is null-terminated, the length of string needs to be computed via `strlen()`, with linear runtime complexity. This incurs an unncessary overhead of many operations, if the user already knows the length of string.
178
179   Also, RapidJSON can handle `\u0000` (null character) within a string. If a string contains null characters, `strlen()` cannot return the true length of it. In such case user must provide the length of string explicitly.
180
1814. Why do I need to provide allocator parameter in many DOM manipulation API?
182
183   Since the APIs are member functions of `Value`, we do not want to save an allocator pointer in every `Value`.
184
1855. Does it convert between numerical types?
186
187   When using `GetInt()`, `GetUint()`, ... conversion may occur. For integer-to-integer conversion, it only convert when it is safe (otherwise it will assert). However, when converting a 64-bit signed/unsigned integer to double, it will convert but be aware that it may lose precision. A number with fraction, or an integer larger than 64-bit, can only be obtained by `GetDouble()`.
188
189## Reader/Writer (SAX)
190
1911. Why don't we just `printf` a JSON? Why do we need a `Writer`?
192
193   Most importantly, `Writer` will ensure the output JSON is well-formed. Calling SAX events incorrectly (e.g. `StartObject()` pairing with `EndArray()`) will assert. Besides, `Writer` will escapes strings (e.g., `\n`). Finally, the numeric output of `printf()` may not be a valid JSON number, especially in some locale with digit delimiters. And the number-to-string conversion in `Writer` is implemented with very fast algorithms, which outperforms than `printf()` or `iostream`.
194
1952. Can I pause the parsing process and resume it later?
196
197   This is not directly supported in the current version due to performance consideration. However, if the execution environment supports multi-threading, user can parse a JSON in a separate thread, and pause it by blocking in the input stream.
198
199## Unicode
200
2011. Does it support UTF-8, UTF-16 and other format?
202
203   Yes. It fully support UTF-8, UTF-16 (LE/BE), UTF-32 (LE/BE) and ASCII.
204
2052. Can it validate the encoding?
206
207   Yes, just pass `kParseValidateEncodingFlag` to `Parse()`. If there is invalid encoding in the stream, it wil generate `kParseErrorStringInvalidEncoding` error.
208
2093. What is surrogate pair? Does RapidJSON support it?
210
211   JSON uses UTF-16 encoding when escaping unicode character, e.g. `\u5927` representing Chinese character "big". To handle characters other than those in basic multilingual plane (BMP), UTF-16 encodes those characters with two 16-bit values, which is called UTF-16 surrogate pair. For example, the Emoji character U+1F602 can be encoded as `\uD83D\uDE02` in JSON.
212
213   RapidJSON fully support parsing/generating UTF-16 surrogates.
214
2154. Can it handle `\u0000` (null character) in JSON string?
216
217   Yes. RapidJSON fully support null character in JSON string. However, user need to be aware of it and using `GetStringLength()` and related APIs to obtain the true length of string.
218
2195. Can I output `\uxxxx` for all non-ASCII character?
220
221   Yes, use `ASCII<>` as output encoding template parameter in `Writer` can enforce escaping those characters.
222
223## Stream
224
2251. I have a big JSON file. Should I load the whole file to memory?
226
227   User can use `FileReadStream` to read the file chunk-by-chunk. But for *in situ* parsing, the whole file must be loaded.
228
2292. Can I parse JSON while it is streamed from network?
230
231   Yes. User can implement a custom stream for this. Please refer to the implementation of `FileReadStream`.
232
2333. I don't know what encoding will the JSON be. How to handle them?
234
235   You may use `AutoUTFInputStream` which detects the encoding of input stream automatically. However, it will incur some performance overhead.
236
2374. What is BOM? How RapidJSON handle it?
238
239   [Byte order mark (BOM)](http://en.wikipedia.org/wiki/Byte_order_mark) sometimes reside at the beginning of file/stream to indiciate the UTF encoding type of it.
240
241   RapidJSON's `EncodedInputStream` can detect/consume BOM. `EncodedOutputStream` can optionally write a BOM. See [Encoded Streams](doc/stream.md) for example.
242
2435. Why little/big endian is related?
244
245   little/big endian of stream is an issue for UTF-16 and UTF-32 streams, but not UTF-8 stream.
246
247## Performance
248
2491. Is RapidJSON really fast?
250
251   Yes. It may be the fastest open source JSON library. There is a [benchmark](https://github.com/miloyip/nativejson-benchmark) for evaluating performance of C/C++ JSON libaries.
252
2532. Why is it fast?
254
255   Many design decisions of RapidJSON is aimed at time/space performance. These may reduce user-friendliness of APIs. Besides, it also employs low-level optimizations (intrinsics, SIMD) and special algorithms (custom double-to-string, string-to-double conversions).
256
2573. What is SIMD? How it is applied in RapidJSON?
258
259   [SIMD](http://en.wikipedia.org/wiki/SIMD) instructions can perform parallel computation in modern CPUs. RapidJSON support Intel's SSE2/SSE4.2 to accelerate whitespace skipping. This improves performance of parsing indent formatted JSON. Define `RAPIDJSON_SSE2` or `RAPIDJSON_SSE42` macro to enable this feature. However, running the executable on a machine without such instruction set support will make it crash.
260
2614. Does it consume a lot of memory?
262
263   The design of RapidJSON aims at reducing memory footprint.
264
265   In the SAX API, `Reader` consumes memory portional to maximum depth of JSON tree, plus maximum length of JSON string.
266
267   In the DOM API, each `Value` consumes exactly 16/24 bytes for 32/64-bit architecture respectively. RapidJSON also uses a special memory allocator to minimize overhead of allocations.
268
2695. What is the purpose of being high performance?
270
271   Some applications need to process very large JSON files. Some server-side applications need to process huge amount of JSONs. Being high performance can improve both latency and throuput. In a broad sense, it will also save energy.
272
273## Gossip
274
2751. Who are the developers of RapidJSON?
276
277   Milo Yip ([miloyip](https://github.com/miloyip)) is the original author of RapidJSON. Many contributors from the world have improved RapidJSON.  Philipp A. Hartmann ([pah](https://github.com/pah)) has implemented a lot of improvements, setting up automatic testing and also involves in a lot of discussions for the community. Don Ding ([thebusytypist](https://github.com/thebusytypist)) implemented the iterative parser. Andrii Senkovych ([jollyroger](https://github.com/jollyroger)) completed the CMake migration. Kosta ([Kosta-Github](https://github.com/Kosta-Github)) provided a very neat short-string optimization. Thank you for all other contributors and community members as well.
278
2792. Why do you develop RapidJSON?
280
281   It was just a hobby project initially in 2011. Milo Yip is a game programmer and he just knew about JSON at that time and would like to apply JSON in future projects. As JSON seems very simple he would like to write a header-only and fast library.
282
2833. Why there is a long empty period of development?
284
285   It is basically due to personal issues, such as getting new family members. Also, Milo Yip has spent a lot of spare time on translating "Game Engine Architecture" by Jason Gregory into Chinese.
286
2874. Why did the repository move from Google Code to GitHub?
288
289   This is the trend. And GitHub is much more powerful and convenient.
290