Features

General

Cross-platform
Compilers: Visual Studio, gcc, clang, etc.
Architectures: x86, x64, ARM, etc.
Operating systems: Windows, Mac OS X, Linux, iOS, Android, etc.
Easy installation
Header files only library. Just copy the headers to your project.
Self-contained, minimal dependences
No STL, BOOST, etc.
Only included <cstdio>, <cstdlib>, <cstring>, <inttypes.h>, <new>, <stdint.h>.
Without C++ exception, RTTI
High performance
Use template and inline functions to reduce function call overheads.
Internal optimized Grisu2 and floating point parsing implementations.
Optional SSE2/SSE4.2 support.

RapidJSON should be fully RFC4627/ECMA-404 compliance.
Support JSON Pointer (RFC6901).
Support JSON Schema Draft v4.
Support Unicode surrogate.
Support null character ("\u0000")
For example, ["Hello\u0000World"] can be parsed and handled gracefully. There is API for getting/setting lengths of string.
Support optional relaxed syntax.
Single line (// ...) and multiple line (/* ... */) comments (kParseCommentsFlag).
Trailing commas at the end of objects and arrays (kParseTrailingCommasFlag).
NaN, Inf, Infinity, -Inf and -Infinity as double values (kParseNanAndInfFlag)
NPM compliant.

Support UTF-8, UTF-16, UTF-32 encodings, including little endian and big endian.
These encodings are used in input/output streams and in-memory representation.
Support automatic detection of encodings in input stream.
Support transcoding between encodings internally.
For example, you can read a UTF-8 file and let RapidJSON transcode the JSON strings into UTF-16 in the DOM.
Support encoding validation internally.
For example, you can read a UTF-8 file, and let RapidJSON check whether all JSON strings are valid UTF-8 byte sequence.
Support custom character types.
By default the character types are char for UTF8, wchar_t for UTF16, uint32_t for UTF32.
Support custom encodings.

SAX (Simple API for XML) style API
Similar to SAX, RapidJSON provides a event sequential access parser API (rapidjson::GenericReader). It also provides a generator API (rapidjson::Writer) which consumes the same set of events.
DOM (Document Object Model) style API
Similar to DOM for HTML/XML, RapidJSON can parse JSON into a DOM representation (rapidjson::GenericDocument), for easy manipulation, and finally stringify back to JSON if needed.
The DOM style API (rapidjson::GenericDocument) is actually implemented with SAX style API (rapidjson::GenericReader). SAX is faster but sometimes DOM is easier. Users can pick their choices according to scenarios.

Recursive (default) and iterative parser
Recursive parser is faster but prone to stack overflow in extreme cases.
Iterative parser use custom stack to keep parsing state.
Support in situ parsing.
Parse JSON string values in-place at the source JSON, and then the DOM points to addresses of those strings.
Faster than convention parsing: no allocation for strings, no copy (if string does not contain escapes), cache-friendly.
Support 32-bit/64-bit signed/unsigned integer and double for JSON number type.
Support parsing multiple JSONs in input stream (kParseStopWhenDoneFlag).
Error Handling
Support comprehensive error code if parsing failed.
Support error message localization.

RapidJSON checks range of numerical values for conversions.
Optimization for string literal
Only store pointer instead of copying
Optimization for “short” strings
Store short string in Value internally without additional allocation.
For UTF-8 string: maximum 11 characters in 32-bit, 21 characters in 64-bit (13 characters in x86-64).
Optionally support std::string (define RAPIDJSON_HAS_STDSTRING=1)

Support rapidjson::GenericStringBuffer for storing the output JSON as string.
Support rapidjson::FileReadStream and rapidjson::FileWriteStream for input/output FILE object.
Support custom streams.

Minimize memory overheads for DOM.
Each JSON value occupies exactly 16/20 bytes for most 32/64-bit machines (excluding text string).
Support fast default allocator.
A stack-based allocator (allocate sequentially, prohibit to free individual allocations, suitable for parsing).
User can provide a pre-allocated buffer. (Possible to parse a number of JSONs without any CRT allocation)
Support standard CRT(C-runtime) allocator.
Support custom allocators.