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// Written in the D programming language.

/**
JavaScript Object Notation

Synopsis:
----
    //parse a file or string of json into a usable structure
    string s = "{ \"language\": \"D\", \"rating\": 3.14, \"code\": \"42\" }";
    JSONValue j = parseJSON(s);
    writeln("Language: ", j["language"].str(),
            " Rating: ", j["rating"].floating()
    );

    // j and j["language"] return JSONValue,
    // j["language"].str returns a string

    //check a type
    long x;
    if (const(JSONValue)* code = "code" in j)
    {
        if (code.type() == JSON_TYPE.INTEGER)
            x = code.integer;
        else
            x = to!int(code.str);
    }

    // create a json struct
    JSONValue jj = [ "language": "D" ];
    // rating doesnt exist yet, so use .object to assign
    jj.object["rating"] = JSONValue(3.14);
    // create an array to assign to list
    jj.object["list"] = JSONValue( ["a", "b", "c"] );
    // list already exists, so .object optional
    jj["list"].array ~= JSONValue("D");

    s = j.toString();
    writeln(s);
----

Copyright: Copyright Jeremie Pelletier 2008 - 2009.
License:   $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
Authors:   Jeremie Pelletier, David Herberth
References: $(LINK http://json.org/)
Source:    $(PHOBOSSRC std/_json.d)
*/
/*
         Copyright Jeremie Pelletier 2008 - 2009.
Distributed under the Boost Software License, Version 1.0.
   (See accompanying file LICENSE_1_0.txt or copy at
         http://www.boost.org/LICENSE_1_0.txt)
*/
module std.json;

import std.conv;
import std.range.primitives;
import std.array;
import std.traits;

/**
String literals used to represent special float values within JSON strings.
*/
enum JSONFloatLiteral : string
{
    nan         = "NaN",       /// string representation of floating-point NaN
    inf         = "Infinite",  /// string representation of floating-point Infinity
    negativeInf = "-Infinite", /// string representation of floating-point negative Infinity
}

/**
Flags that control how json is encoded and parsed.
*/
enum JSONOptions {
    none,                       /// standard parsing
    specialFloatLiterals = 0x1, /// encode NaN and Inf float values as strings
}

/**
JSON type enumeration
*/
enum JSON_TYPE : byte
{
    /// Indicates the type of a $(D JSONValue).
    NULL,
    STRING,  /// ditto
    INTEGER, /// ditto
    UINTEGER,/// ditto
    FLOAT,   /// ditto
    OBJECT,  /// ditto
    ARRAY,   /// ditto
    TRUE,    /// ditto
    FALSE    /// ditto
}

/**
JSON value node
*/
struct JSONValue
{
    import std.exception : enforceEx, enforce;

    union Store
    {
        string                          str;
        long                            integer;
        ulong                           uinteger;
        double                          floating;
        JSONValue[string]               object;
        JSONValue[]                     array;
    }
    private Store store;
    private JSON_TYPE type_tag;

    /**
      Returns the JSON_TYPE of the value stored in this structure.
    */
    @property JSON_TYPE type() const pure nothrow @safe @nogc
    {
        return type_tag;
    }
    ///
    unittest
    {
          string s = "{ \"language\": \"D\" }";
          JSONValue j = parseJSON(s);
          assert(j.type == JSON_TYPE.OBJECT);
          assert(j["language"].type == JSON_TYPE.STRING);
    }

    // Explicitly undocumented. It will be removed in June 2016. @@@DEPRECATED_2016-06@@@
    deprecated("Please assign the value with the adequate type to JSONValue directly.")
    @property JSON_TYPE type(JSON_TYPE newType)
    {
        if (type_tag != newType
         && ((type_tag != JSON_TYPE.INTEGER && type_tag != JSON_TYPE.UINTEGER)
          || (newType  != JSON_TYPE.INTEGER && newType  != JSON_TYPE.UINTEGER)))
        {
            final switch (newType)
            {
                case JSON_TYPE.STRING:
                    store.str = store.str.init;
                    break;
                case JSON_TYPE.INTEGER:
                    store.integer = store.integer.init;
                    break;
                case JSON_TYPE.UINTEGER:
                    store.uinteger = store.uinteger.init;
                    break;
                case JSON_TYPE.FLOAT:
                    store.floating = store.floating.init;
                    break;
                case JSON_TYPE.OBJECT:
                    store.object = store.object.init;
                    break;
                case JSON_TYPE.ARRAY:
                    store.array = store.array.init;
                    break;
                case JSON_TYPE.TRUE:
                case JSON_TYPE.FALSE:
                case JSON_TYPE.NULL:
                    break;
            }
        }
        return type_tag = newType;
    }

    /// Value getter/setter for $(D JSON_TYPE.STRING).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.STRING).
    @property inout(string) str() inout pure
    {
        enforce!JSONException(type == JSON_TYPE.STRING,
                                "JSONValue is not a string");
        return store.str;
    }
    /// ditto
    @property string str(string v) pure nothrow @nogc
    {
        assign(v);
        return store.str;
    }
    ///
    unittest
    {
        JSONValue j = [ "language": "D" ];

        // get value
        assert(j["language"].str == "D");

        // change existing key to new string
        j["language"].str = "Perl";
        assert(j["language"].str == "Perl");
    }

    /// Value getter/setter for $(D JSON_TYPE.INTEGER).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.INTEGER).
    @property inout(long) integer() inout pure @safe
    {
        enforce!JSONException(type == JSON_TYPE.INTEGER,
                                "JSONValue is not an integer");
        return store.integer;
    }
    /// ditto
    @property long integer(long v) pure nothrow @safe @nogc
    {
        assign(v);
        return store.integer;
    }

    /// Value getter/setter for $(D JSON_TYPE.UINTEGER).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.UINTEGER).
    @property inout(ulong) uinteger() inout pure @safe
    {
        enforce!JSONException(type == JSON_TYPE.UINTEGER,
                                "JSONValue is not an unsigned integer");
        return store.uinteger;
    }
    /// ditto
    @property ulong uinteger(ulong v) pure nothrow @safe @nogc
    {
        assign(v);
        return store.uinteger;
    }

    /// Value getter/setter for $(D JSON_TYPE.FLOAT).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.FLOAT).
    @property inout(double) floating() inout pure @safe
    {
        enforce!JSONException(type == JSON_TYPE.FLOAT,
                                "JSONValue is not a floating type");
        return store.floating;
    }
    /// ditto
    @property double floating(double v) pure nothrow @safe @nogc
    {
        assign(v);
        return store.floating;
    }

    /// Value getter/setter for $(D JSON_TYPE.OBJECT).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.OBJECT).
    @property ref inout(JSONValue[string]) object() inout pure
    {
        enforce!JSONException(type == JSON_TYPE.OBJECT,
                                "JSONValue is not an object");
        return store.object;
    }
    /// ditto
    @property JSONValue[string] object(JSONValue[string] v) pure nothrow @nogc
    {
        assign(v);
        return store.object;
    }

    /// Value getter/setter for $(D JSON_TYPE.ARRAY).
    /// Throws: $(D JSONException) for read access if $(D type) is not
    /// $(D JSON_TYPE.ARRAY).
    @property ref inout(JSONValue[]) array() inout pure
    {
        enforce!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        return store.array;
    }
    /// ditto
    @property JSONValue[] array(JSONValue[] v) pure nothrow @nogc
    {
        assign(v);
        return store.array;
    }

    /// Test whether the type is $(D JSON_TYPE.NULL)
    @property bool isNull() const pure nothrow @safe @nogc
    {
        return type == JSON_TYPE.NULL;
    }

    private void assign(T)(T arg)
    {
        static if(is(T : typeof(null)))
        {
            type_tag = JSON_TYPE.NULL;
        }
        else static if(is(T : string))
        {
            type_tag = JSON_TYPE.STRING;
            store.str = arg;
        }
        else static if(is(T : bool))
        {
            type_tag = arg ? JSON_TYPE.TRUE : JSON_TYPE.FALSE;
        }
        else static if(is(T : ulong) && isUnsigned!T)
        {
            type_tag = JSON_TYPE.UINTEGER;
            store.uinteger = arg;
        }
        else static if(is(T : long))
        {
            type_tag = JSON_TYPE.INTEGER;
            store.integer = arg;
        }
        else static if(isFloatingPoint!T)
        {
            type_tag = JSON_TYPE.FLOAT;
            store.floating = arg;
        }
        else static if(is(T : Value[Key], Key, Value))
        {
            static assert(is(Key : string), "AA key must be string");
            type_tag = JSON_TYPE.OBJECT;
            static if(is(Value : JSONValue)) {
                store.object = arg;
            }
            else
            {
                JSONValue[string] aa;
                foreach(key, value; arg)
                    aa[key] = JSONValue(value);
                store.object = aa;
            }
        }
        else static if(isArray!T)
        {
            type_tag = JSON_TYPE.ARRAY;
            static if(is(ElementEncodingType!T : JSONValue))
            {
                store.array = arg;
            }
            else
            {
                JSONValue[] new_arg = new JSONValue[arg.length];
                foreach(i, e; arg)
                    new_arg[i] = JSONValue(e);
                store.array = new_arg;
            }
        }
        else static if(is(T : JSONValue))
        {
            type_tag = arg.type;
            store = arg.store;
        }
        else
        {
            static assert(false, text(`unable to convert type "`, T.stringof, `" to json`));
        }
    }

    private void assignRef(T)(ref T arg) if(isStaticArray!T)
    {
        type_tag = JSON_TYPE.ARRAY;
        static if(is(ElementEncodingType!T : JSONValue))
        {
            store.array = arg;
        }
        else
        {
            JSONValue[] new_arg = new JSONValue[arg.length];
            foreach(i, e; arg)
                new_arg[i] = JSONValue(e);
            store.array = new_arg;
        }
    }

    /**
     * Constructor for $(D JSONValue). If $(D arg) is a $(D JSONValue)
     * its value and type will be copied to the new $(D JSONValue).
     * Note that this is a shallow copy: if type is $(D JSON_TYPE.OBJECT)
     * or $(D JSON_TYPE.ARRAY) then only the reference to the data will
     * be copied.
     * Otherwise, $(D arg) must be implicitly convertible to one of the
     * following types: $(D typeof(null)), $(D string), $(D ulong),
     * $(D long), $(D double), an associative array $(D V[K]) for any $(D V)
     * and $(D K) i.e. a JSON object, any array or $(D bool). The type will
     * be set accordingly.
    */
    this(T)(T arg) if(!isStaticArray!T)
    {
        assign(arg);
    }
    /// Ditto
    this(T)(ref T arg) if(isStaticArray!T)
    {
        assignRef(arg);
    }
    /// Ditto
    this(T : JSONValue)(inout T arg) inout
    {
        store = arg.store;
        type_tag = arg.type;
    }
    ///
    unittest
    {
        JSONValue j = JSONValue( "a string" );
        j = JSONValue(42);

        j = JSONValue( [1, 2, 3] );
        assert(j.type == JSON_TYPE.ARRAY);

        j = JSONValue( ["language": "D"] );
        assert(j.type == JSON_TYPE.OBJECT);
    }

    void opAssign(T)(T arg) if(!isStaticArray!T && !is(T : JSONValue))
    {
        assign(arg);
    }

    void opAssign(T)(ref T arg) if(isStaticArray!T)
    {
        assignRef(arg);
    }

    /// Array syntax for json arrays.
    /// Throws: $(D JSONException) if $(D type) is not $(D JSON_TYPE.ARRAY).
    ref inout(JSONValue) opIndex(size_t i) inout pure
    {
        enforce!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        enforceEx!JSONException(i < store.array.length,
                                "JSONValue array index is out of range");
        return store.array[i];
    }
    ///
    unittest
    {
        JSONValue j = JSONValue( [42, 43, 44] );
        assert( j[0].integer == 42 );
        assert( j[1].integer == 43 );
    }

    /// Hash syntax for json objects.
    /// Throws: $(D JSONException) if $(D type) is not $(D JSON_TYPE.OBJECT).
    ref inout(JSONValue) opIndex(string k) inout pure
    {
        enforce!JSONException(type == JSON_TYPE.OBJECT,
                                "JSONValue is not an object");
        return *enforce!JSONException(k in store.object,
                                        "Key not found: " ~ k);
    }
    ///
    unittest
    {
        JSONValue j = JSONValue( ["language": "D"] );
        assert( j["language"].str == "D" );
    }

    /// Operator sets $(D value) for element of JSON object by $(D key).
    ///
    /// If JSON value is null, then operator initializes it with object and then
    /// sets $(D value) for it.
    ///
    /// Throws: $(D JSONException) if $(D type) is not $(D JSON_TYPE.OBJECT)
    /// or $(D JSON_TYPE.NULL).
    void opIndexAssign(T)(auto ref T value, string key) pure
    {
        enforceEx!JSONException(type == JSON_TYPE.OBJECT || type == JSON_TYPE.NULL,
                                "JSONValue must be object or null");

        if(type == JSON_TYPE.NULL)
            this = (JSONValue[string]).init;

        store.object[key] = value;
    }
    ///
    unittest
    {
            JSONValue j = JSONValue( ["language": "D"] );
            j["language"].str = "Perl";
            assert( j["language"].str == "Perl" );
    }

    void opIndexAssign(T)(T arg, size_t i) pure
    {
        enforceEx!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        enforceEx!JSONException(i < store.array.length,
                                "JSONValue array index is out of range");
        store.array[i] = arg;
    }
    ///
    unittest
    {
            JSONValue j = JSONValue( ["Perl", "C"] );
            j[1].str = "D";
            assert( j[1].str == "D" );
    }

    JSONValue opBinary(string op : "~", T)(T arg)
    {
        enforceEx!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        static if(isArray!T)
        {
            JSONValue newArray = JSONValue(this.store.array.dup);
            newArray.store.array ~= JSONValue(arg).store.array;
            return newArray;
        }
        else static if(is(T : JSONValue))
        {
            enforceEx!JSONException(arg.type == JSON_TYPE.ARRAY,
                                    "JSONValue is not an array");
            JSONValue newArray = JSONValue(this.store.array.dup);
            newArray.store.array ~= arg.store.array;
            return newArray;
        }
        else
        {
            static assert(false, "argument is not an array or a JSONValue array");
        }
    }

    void opOpAssign(string op : "~", T)(T arg)
    {
        enforceEx!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        static if(isArray!T)
        {
            store.array ~= JSONValue(arg).store.array;
        }
        else static if(is(T : JSONValue))
        {
            enforceEx!JSONException(arg.type == JSON_TYPE.ARRAY,
                                    "JSONValue is not an array");
            store.array ~= arg.store.array;
        }
        else
        {
            static assert(false, "argument is not an array or a JSONValue array");
        }
    }

    /**
     * Support for the $(D in) operator.
     *
     * Tests wether a key can be found in an object.
     *
     * Returns:
     *      when found, the $(D const(JSONValue)*) that matches to the key,
     *      otherwise $(D null).
     *
     * Throws: $(D JSONException) if the right hand side argument $(D JSON_TYPE)
     * is not $(D OBJECT).
     */
    auto opBinaryRight(string op : "in")(string k) const
    {
        enforce!JSONException(type == JSON_TYPE.OBJECT,
                                "JSONValue is not an object");
        return k in store.object;
    }
    ///
    unittest
    {
        JSONValue j = [ "language": "D", "author": "walter" ];
        string a = ("author" in j).str;
    }

    bool opEquals(const JSONValue rhs) const pure nothrow @nogc
    {
        return opEquals(rhs);
    }

    bool opEquals(ref const JSONValue rhs) const pure nothrow @nogc
    {
        // Default doesn't work well since store is a union.  Compare only
        // what should be in store.
        if (type_tag != rhs.type_tag) return false;

        final switch (type_tag)
        {
        case JSON_TYPE.STRING:
            return store.str == rhs.store.str;
        case JSON_TYPE.INTEGER:
            return store.integer == rhs.store.integer;
        case JSON_TYPE.UINTEGER:
            return store.uinteger == rhs.store.uinteger;
        case JSON_TYPE.FLOAT:
            return store.floating == rhs.store.floating;
        case JSON_TYPE.OBJECT:
            return store.object == rhs.store.object;
        case JSON_TYPE.ARRAY:
            return store.array == rhs.store.array;
        case JSON_TYPE.TRUE:
        case JSON_TYPE.FALSE:
        case JSON_TYPE.NULL:
            return true;
        }
    }

    /// Implements the foreach $(D opApply) interface for json arrays.
    int opApply(int delegate(size_t index, ref JSONValue) dg)
    {
        enforce!JSONException(type == JSON_TYPE.ARRAY,
                                "JSONValue is not an array");
        int result;

        foreach(size_t index, ref value; store.array)
        {
            result = dg(index, value);
            if(result)
                break;
        }

        return result;
    }

    /// Implements the foreach $(D opApply) interface for json objects.
    int opApply(int delegate(string key, ref JSONValue) dg)
    {
        enforce!JSONException(type == JSON_TYPE.OBJECT,
                                "JSONValue is not an object");
        int result;

        foreach(string key, ref value; store.object)
        {
            result = dg(key, value);
            if(result)
                break;
        }

        return result;
    }

    /// Implicitly calls $(D toJSON) on this JSONValue.
    ///
    /// $(I options) can be used to tweak the conversion behavior.
    string toString(in JSONOptions options = JSONOptions.none) const
    {
        return toJSON(&this, false, options);
    }

    /// Implicitly calls $(D toJSON) on this JSONValue, like $(D toString), but
    /// also passes $(I true) as $(I pretty) argument.
    ///
    /// $(I options) can be used to tweak the conversion behavior
    string toPrettyString(in JSONOptions options = JSONOptions.none) const
    {
        return toJSON(&this, true, options);
    }
}

/**
Parses a serialized string and returns a tree of JSON values.
Throws: $(XREF json,JSONException) if the depth exceeds the max depth.
Params:
    json = json-formatted string to parse
    maxDepth = maximum depth of nesting allowed, -1 disables depth checking
    options = enable decoding string representations of NaN/Inf as float values
*/
JSONValue parseJSON(T)(T json, int maxDepth = -1, JSONOptions options = JSONOptions.none)
if(isInputRange!T)
{
    import std.ascii : isWhite, isDigit, isHexDigit, toUpper, toLower;
    import std.utf : toUTF8;

    JSONValue root = void;
    root.type_tag = JSON_TYPE.NULL;

    if(json.empty) return root;

    int depth = -1;
    dchar next = 0;
    int line = 1, pos = 0;

    void error(string msg)
    {
        throw new JSONException(msg, line, pos);
    }

    dchar popChar()
    {
        if (json.empty) error("Unexpected end of data.");
        dchar c = json.front;
        json.popFront();

        if(c == '\n')
        {
            line++;
            pos = 0;
        }
        else
        {
            pos++;
        }

        return c;
    }

    dchar peekChar()
    {
        if(!next)
        {
            if(json.empty) return '\0';
            next = popChar();
        }
        return next;
    }

    void skipWhitespace()
    {
        while(isWhite(peekChar())) next = 0;
    }

    dchar getChar(bool SkipWhitespace = false)()
    {
        static if(SkipWhitespace) skipWhitespace();

        dchar c = void;
        if(next)
        {
            c = next;
            next = 0;
        }
        else
            c = popChar();

        return c;
    }

    void checkChar(bool SkipWhitespace = true, bool CaseSensitive = true)(char c)
    {
        static if(SkipWhitespace) skipWhitespace();
        auto c2 = getChar();
        static if(!CaseSensitive) c2 = toLower(c2);

        if(c2 != c) error(text("Found '", c2, "' when expecting '", c, "'."));
    }

    bool testChar(bool SkipWhitespace = true, bool CaseSensitive = true)(char c)
    {
        static if(SkipWhitespace) skipWhitespace();
        auto c2 = peekChar();
        static if (!CaseSensitive) c2 = toLower(c2);

        if(c2 != c) return false;

        getChar();
        return true;
    }

    string parseString()
    {
        auto str = appender!string();

    Next:
        switch(peekChar())
        {
            case '"':
                getChar();
                break;

            case '\\':
                getChar();
                auto c = getChar();
                switch(c)
                {
                    case '"':       str.put('"');   break;
                    case '\\':      str.put('\\');  break;
                    case '/':       str.put('/');   break;
                    case 'b':       str.put('\b');  break;
                    case 'f':       str.put('\f');  break;
                    case 'n':       str.put('\n');  break;
                    case 'r':       str.put('\r');  break;
                    case 't':       str.put('\t');  break;
                    case 'u':
                        dchar val = 0;
                        foreach_reverse(i; 0 .. 4)
                        {
                            auto hex = toUpper(getChar());
                            if(!isHexDigit(hex)) error("Expecting hex character");
                            val += (isDigit(hex) ? hex - '0' : hex - ('A' - 10)) << (4 * i);
                        }
                        char[4] buf = void;
                        str.put(toUTF8(buf, val));
                        break;

                    default:
                        error(text("Invalid escape sequence '\\", c, "'."));
                }
                goto Next;

            default:
                auto c = getChar();
                appendJSONChar(&str, c, &error);
                goto Next;
        }

        return str.data.length ? str.data : "";
    }

    bool tryGetSpecialFloat(string str, out double val) {
        switch(str) {
            case JSONFloatLiteral.nan:
                val = double.nan;
                return true;
            case JSONFloatLiteral.inf:
                val = double.infinity;
                return true;
            case JSONFloatLiteral.negativeInf:
                val = -double.infinity;
                return true;
            default:
                return false;
        }
    }

    void parseValue(ref JSONValue value)
    {
        depth++;

        if(maxDepth != -1 && depth > maxDepth) error("Nesting too deep.");

        auto c = getChar!true();

        switch(c)
        {
            case '{':
                value.type_tag = JSON_TYPE.OBJECT;
                value.store.object = null;

                if(testChar('}')) break;

                do
                {
                    checkChar('"');
                    string name = parseString();
                    checkChar(':');
                    JSONValue member = void;
                    parseValue(member);
                    value.store.object[name] = member;
                }
                while(testChar(','));

                checkChar('}');
                break;

            case '[':
                value.type_tag = JSON_TYPE.ARRAY;

                if(testChar(']'))
                {
                    value.store.array = cast(JSONValue[]) "";
                    break;
                }

                value.store.array = null;

                do
                {
                    JSONValue element = void;
                    parseValue(element);
                    value.store.array ~= element;
                }
                while(testChar(','));

                checkChar(']');
                break;

            case '"':
                auto str = parseString();

                // if special float parsing is enabled, check if string represents NaN/Inf
                if ((options & JSONOptions.specialFloatLiterals) &&
                    tryGetSpecialFloat(str, value.store.floating))
                {
                    // found a special float, its value was placed in value.store.floating
                    value.type_tag = JSON_TYPE.FLOAT;
                    break;
                }

                value.type_tag = JSON_TYPE.STRING;
                value.store.str = str;
                break;

            case '0': .. case '9':
            case '-':
                auto number = appender!string();
                bool isFloat, isNegative;

                void readInteger()
                {
                    if(!isDigit(c)) error("Digit expected");

                Next: number.put(c);

                    if(isDigit(peekChar()))
                    {
                        c = getChar();
                        goto Next;
                    }
                }

                if(c == '-')
                {
                    number.put('-');
                    c = getChar();
                    isNegative = true;
                }

                readInteger();

                if(testChar('.'))
                {
                    isFloat = true;
                    number.put('.');
                    c = getChar();
                    readInteger();
                }
                if(testChar!(false, false)('e'))
                {
                    isFloat = true;
                    number.put('e');
                    if(testChar('+')) number.put('+');
                    else if(testChar('-')) number.put('-');
                    c = getChar();
                    readInteger();
                }

                string data = number.data;
                if(isFloat)
                {
                    value.type_tag = JSON_TYPE.FLOAT;
                    value.store.floating = parse!double(data);
                }
                else
                {
                    if (isNegative)
                        value.store.integer = parse!long(data);
                    else
                        value.store.uinteger = parse!ulong(data);

                    value.type_tag = !isNegative && value.store.uinteger & (1UL << 63) ? JSON_TYPE.UINTEGER : JSON_TYPE.INTEGER;
                }
                break;

            case 't':
            case 'T':
                value.type_tag = JSON_TYPE.TRUE;
                checkChar!(false, false)('r');
                checkChar!(false, false)('u');
                checkChar!(false, false)('e');
                break;

            case 'f':
            case 'F':
                value.type_tag = JSON_TYPE.FALSE;
                checkChar!(false, false)('a');
                checkChar!(false, false)('l');
                checkChar!(false, false)('s');
                checkChar!(false, false)('e');
                break;

            case 'n':
            case 'N':
                value.type_tag = JSON_TYPE.NULL;
                checkChar!(false, false)('u');
                checkChar!(false, false)('l');
                checkChar!(false, false)('l');
                break;

            default:
                error(text("Unexpected character '", c, "'."));
        }

        depth--;
    }

    parseValue(root);
    return root;
}

unittest
{
    enum issue15742objectOfObject = `{ "key1": { "key2": 1 }}`;
    static assert(parseJSON(issue15742objectOfObject).type == JSON_TYPE.OBJECT);

    enum issue15742arrayOfArray = `[[1]]`;
    static assert(parseJSON(issue15742arrayOfArray).type == JSON_TYPE.ARRAY);
}

/**
Parses a serialized string and returns a tree of JSON values.
Throws: $(XREF json,JSONException) if the depth exceeds the max depth.
Params:
    json = json-formatted string to parse
    options = enable decoding string representations of NaN/Inf as float values
*/
JSONValue parseJSON(T)(T json, JSONOptions options)
if(isInputRange!T)
{
    return parseJSON!T(json, -1, options);
}

/**
Takes a tree of JSON values and returns the serialized string.

Any Object types will be serialized in a key-sorted order.

If $(D pretty) is false no whitespaces are generated.
If $(D pretty) is true serialized string is formatted to be human-readable.
Set the $(specialFloatLiterals) flag is set in $(D options) to encode NaN/Infinity as strings.
*/
string toJSON(in JSONValue* root, in bool pretty = false, in JSONOptions options = JSONOptions.none)
{
    auto json = appender!string();

    void toString(string str)
    {
        json.put('"');

        foreach (dchar c; str)
        {
            switch(c)
            {
                case '"':       json.put("\\\"");       break;
                case '\\':      json.put("\\\\");       break;
                case '/':       json.put("\\/");        break;
                case '\b':      json.put("\\b");        break;
                case '\f':      json.put("\\f");        break;
                case '\n':      json.put("\\n");        break;
                case '\r':      json.put("\\r");        break;
                case '\t':      json.put("\\t");        break;
                default:
                    appendJSONChar(&json, c,
                                   (msg) { throw new JSONException(msg); });
            }
        }

        json.put('"');
    }

    void toValue(in JSONValue* value, ulong indentLevel)
    {
        void putTabs(ulong additionalIndent = 0)
        {
            if(pretty)
                foreach(i; 0 .. indentLevel + additionalIndent)
                    json.put("    ");
        }
        void putEOL()
        {
            if(pretty)
                json.put('\n');
        }
        void putCharAndEOL(char ch)
        {
            json.put(ch);
            putEOL();
        }

        final switch(value.type)
        {
            case JSON_TYPE.OBJECT:
                if(!value.store.object.length)
                {
                    json.put("{}");
                }
                else
                {
                    putCharAndEOL('{');
                    bool first = true;

                    void emit(R)(R names)
                    {
                        foreach (name; names)
                        {
                            auto member = value.store.object[name];
                            if(!first)
                                putCharAndEOL(',');
                            first = false;
                            putTabs(1);
                            toString(name);
                            json.put(':');
                            if(pretty)
                                json.put(' ');
                            toValue(&member, indentLevel + 1);
                        }
                    }

                    import std.algorithm : sort;
                    auto names = value.store.object.keys;
                    sort(names);
                    emit(names);

                    putEOL();
                    putTabs();
                    json.put('}');
                }
                break;

            case JSON_TYPE.ARRAY:
                if(value.store.array.empty)
                {
                    json.put("[]");
                }
                else
                {
                    putCharAndEOL('[');
                    foreach (i, ref el; value.store.array)
                    {
                        if(i)
                            putCharAndEOL(',');
                        putTabs(1);
                        toValue(&el, indentLevel + 1);
                    }
                    putEOL();
                    putTabs();
                    json.put(']');
                }
                break;

            case JSON_TYPE.STRING:
                toString(value.store.str);
                break;

            case JSON_TYPE.INTEGER:
                json.put(to!string(value.store.integer));
                break;

            case JSON_TYPE.UINTEGER:
                json.put(to!string(value.store.uinteger));
                break;

            case JSON_TYPE.FLOAT:
                import std.math : isNaN, isInfinity;

                auto val = value.store.floating;

                if (val.isNaN) {
                    if (options & JSONOptions.specialFloatLiterals) {
                        toString(JSONFloatLiteral.nan);
                    }
                    else {
                        throw new JSONException(
                            "Cannot encode NaN. Consider passing the specialFloatLiterals flag.");
                    }
                }
                else if (val.isInfinity) {
                    if (options & JSONOptions.specialFloatLiterals) {
                        toString((val > 0) ?  JSONFloatLiteral.inf : JSONFloatLiteral.negativeInf);
                    }
                    else {
                        throw new JSONException(
                            "Cannot encode Infinity. Consider passing the specialFloatLiterals flag.");
                    }
                }
                else {
                    json.put(to!string(val));
                }
                break;

            case JSON_TYPE.TRUE:
                json.put("true");
                break;

            case JSON_TYPE.FALSE:
                json.put("false");
                break;

            case JSON_TYPE.NULL:
                json.put("null");
                break;
        }
    }

    toValue(root, 0);
    return json.data;
}

private void appendJSONChar(Appender!string* dst, dchar c,
                            scope void delegate(string) error)
{
    import std.uni : isControl;

    if(isControl(c))
    {
        dst.put("\\u");
        foreach_reverse (i; 0 .. 4)
        {
            char ch = (c >>> (4 * i)) & 0x0f;
            ch += ch < 10 ? '0' : 'A' - 10;
            dst.put(ch);
        }
    }
    else
    {
        dst.put(c);
    }
}

/**
Exception thrown on JSON errors
*/
class JSONException : Exception
{
    this(string msg, int line = 0, int pos = 0) pure nothrow @safe
    {
        if(line)
            super(text(msg, " (Line ", line, ":", pos, ")"));
        else
            super(msg);
    }

    this(string msg, string file, size_t line) pure nothrow @safe
    {
        super(msg, file, line);
    }
}


unittest
{
    import std.exception;
    JSONValue jv = "123";
    assert(jv.type == JSON_TYPE.STRING);
    assertNotThrown(jv.str);
    assertThrown!JSONException(jv.integer);
    assertThrown!JSONException(jv.uinteger);
    assertThrown!JSONException(jv.floating);
    assertThrown!JSONException(jv.object);
    assertThrown!JSONException(jv.array);
    assertThrown!JSONException(jv["aa"]);
    assertThrown!JSONException(jv[2]);

    jv = -3;
    assert(jv.type == JSON_TYPE.INTEGER);
    assertNotThrown(jv.integer);

    jv = cast(uint)3;
    assert(jv.type == JSON_TYPE.UINTEGER);
    assertNotThrown(jv.uinteger);

    jv = 3.0f;
    assert(jv.type == JSON_TYPE.FLOAT);
    assertNotThrown(jv.floating);

    jv = ["key" : "value"];
    assert(jv.type == JSON_TYPE.OBJECT);
    assertNotThrown(jv.object);
    assertNotThrown(jv["key"]);
    assert("key" in jv);
    assert("notAnElement" !in jv);
    assertThrown!JSONException(jv["notAnElement"]);
    const cjv = jv;
    assert("key" in cjv);
    assertThrown!JSONException(cjv["notAnElement"]);

    foreach(string key, value; jv)
    {
        static assert(is(typeof(value) == JSONValue));
        assert(key == "key");
        assert(value.type == JSON_TYPE.STRING);
        assertNotThrown(value.str);
        assert(value.str == "value");
    }

    jv = [3, 4, 5];
    assert(jv.type == JSON_TYPE.ARRAY);
    assertNotThrown(jv.array);
    assertNotThrown(jv[2]);
    foreach(size_t index, value; jv)
    {
        static assert(is(typeof(value) == JSONValue));
        assert(value.type == JSON_TYPE.INTEGER);
        assertNotThrown(value.integer);
        assert(index == (value.integer-3));
    }

    jv = null;
    assert(jv.type == JSON_TYPE.NULL);
    assert(jv.isNull);
    jv = "foo";
    assert(!jv.isNull);

    jv = JSONValue("value");
    assert(jv.type == JSON_TYPE.STRING);
    assert(jv.str == "value");

    JSONValue jv2 = JSONValue("value");
    assert(jv2.type == JSON_TYPE.STRING);
    assert(jv2.str == "value");

    JSONValue jv3 = JSONValue("\u001c");
    assert(jv3.type == JSON_TYPE.STRING);
    assert(jv3.str == "\u001C");
}

unittest
{
    // Bugzilla 11504

    JSONValue jv = 1;
    assert(jv.type == JSON_TYPE.INTEGER);

    jv.str = "123";
    assert(jv.type == JSON_TYPE.STRING);
    assert(jv.str == "123");

    jv.integer = 1;
    assert(jv.type == JSON_TYPE.INTEGER);
    assert(jv.integer == 1);

    jv.uinteger = 2u;
    assert(jv.type == JSON_TYPE.UINTEGER);
    assert(jv.uinteger == 2u);

    jv.floating = 1.5f;
    assert(jv.type == JSON_TYPE.FLOAT);
    assert(jv.floating == 1.5f);

    jv.object = ["key" : JSONValue("value")];
    assert(jv.type == JSON_TYPE.OBJECT);
    assert(jv.object == ["key" : JSONValue("value")]);

    jv.array = [JSONValue(1), JSONValue(2), JSONValue(3)];
    assert(jv.type == JSON_TYPE.ARRAY);
    assert(jv.array == [JSONValue(1), JSONValue(2), JSONValue(3)]);

    jv = true;
    assert(jv.type == JSON_TYPE.TRUE);

    jv = false;
    assert(jv.type == JSON_TYPE.FALSE);

    enum E{True = true}
    jv = E.True;
    assert(jv.type == JSON_TYPE.TRUE);
}

pure unittest
{
    // Adding new json element via array() / object() directly

    JSONValue jarr = JSONValue([10]);
    foreach (i; 0..9)
        jarr.array ~= JSONValue(i);
    assert(jarr.array.length == 10);

    JSONValue jobj = JSONValue(["key" : JSONValue("value")]);
    foreach (i; 0..9)
        jobj.object[text("key", i)] = JSONValue(text("value", i));
    assert(jobj.object.length == 10);
}

pure unittest
{
    // Adding new json element without array() / object() access

    JSONValue jarr = JSONValue([10]);
    foreach (i; 0..9)
        jarr ~= [JSONValue(i)];
    assert(jarr.array.length == 10);

    JSONValue jobj = JSONValue(["key" : JSONValue("value")]);
    foreach (i; 0..9)
        jobj[text("key", i)] = JSONValue(text("value", i));
    assert(jobj.object.length == 10);

    // No array alias
    auto jarr2 = jarr ~ [1,2,3];
    jarr2[0] = 999;
    assert(jarr[0] == JSONValue(10));
}

unittest
{
    import std.exception;

    // An overly simple test suite, if it can parse a serializated string and
    // then use the resulting values tree to generate an identical
    // serialization, both the decoder and encoder works.

    auto jsons = [
        `null`,
        `true`,
        `false`,
        `0`,
        `123`,
        `-4321`,
        `0.23`,
        `-0.23`,
        `""`,
        `"hello\nworld"`,
        `"\"\\\/\b\f\n\r\t"`,
        `[]`,
        `[12,"foo",true,false]`,
        `{}`,
        `{"a":1,"b":null}`,
        `{"goodbye":[true,"or",false,["test",42,{"nested":{"a":23.54,"b":0.0012}}]],"hello":{"array":[12,null,{}],"json":"is great"}}`,
    ];

    version (MinGW)
        jsons ~= `1.223e+024`;
    else
        jsons ~= `1.223e+24`;

    JSONValue val;
    string result;
    foreach (json; jsons)
    {
        try
        {
            val = parseJSON(json);
            enum pretty = false;
            result = toJSON(&val, pretty);
            assert(result == json, text(result, " should be ", json));
        }
        catch (JSONException e)
        {
            import std.stdio : writefln;
            writefln(text(json, "\n", e.toString()));
        }
    }

    // Should be able to correctly interpret unicode entities
    val = parseJSON(`"\u003C\u003E"`);
    assert(toJSON(&val) == "\"\&lt;\&gt;\"");
    assert(val.to!string() == "\"\&lt;\&gt;\"");
    val = parseJSON(`"\u0391\u0392\u0393"`);
    assert(toJSON(&val) == "\"\&Alpha;\&Beta;\&Gamma;\"");
    assert(val.to!string() == "\"\&Alpha;\&Beta;\&Gamma;\"");
    val = parseJSON(`"\u2660\u2666"`);
    assert(toJSON(&val) == "\"\&spades;\&diams;\"");
    assert(val.to!string() == "\"\&spades;\&diams;\"");

    //0x7F is a control character (see Unicode spec)
    val = parseJSON(`"\u007F"`);
    assert(toJSON(&val) == "\"\\u007F\"");
    assert(val.to!string() == "\"\\u007F\"");

    with(parseJSON(`""`))
        assert(str == "" && str !is null);
    with(parseJSON(`[]`))
        assert(!array.length && array !is null);

    // Formatting
    val = parseJSON(`{"a":[null,{"x":1},{},[]]}`);
    assert(toJSON(&val, true) == `{
    "a": [
        null,
        {
            "x": 1
        },
        {},
        []
    ]
}`);
}

unittest {
  auto json = `"hello\nworld"`;
  const jv = parseJSON(json);
  assert(jv.toString == json);
  assert(jv.toPrettyString == json);
}

deprecated unittest
{
    // Bugzilla 12332
    import std.exception;

    JSONValue jv;
    jv.type = JSON_TYPE.INTEGER;
    jv = 1;
    assert(jv.type == JSON_TYPE.INTEGER);
    assert(jv.integer == 1);
    jv.type = JSON_TYPE.UINTEGER;
    assert(jv.uinteger == 1);

    jv.type = JSON_TYPE.STRING;
    assertThrown!JSONException(jv.integer == 1);
    assert(jv.str is null);
    jv.str = "123";
    assert(jv.str == "123");
    jv.type = JSON_TYPE.STRING;
    assert(jv.str == "123");

    jv.type = JSON_TYPE.TRUE;
    assert(jv.type == JSON_TYPE.TRUE);
}

pure unittest
{
    // Bugzilla 12969

    JSONValue jv;
    jv["int"] = 123;

    assert(jv.type == JSON_TYPE.OBJECT);
    assert("int" in jv);
    assert(jv["int"].integer == 123);

    jv["array"] = [1, 2, 3, 4, 5];

    assert(jv["array"].type == JSON_TYPE.ARRAY);
    assert(jv["array"][2].integer == 3);

    jv["str"] = "D language";
    assert(jv["str"].type == JSON_TYPE.STRING);
    assert(jv["str"].str == "D language");

    jv["bool"] = false;
    assert(jv["bool"].type == JSON_TYPE.FALSE);

    assert(jv.object.length == 4);

    jv = [5, 4, 3, 2, 1];
    assert( jv.type == JSON_TYPE.ARRAY );
    assert( jv[3].integer == 2 );
}

unittest
{
    auto s = q"EOF
[
  1,
  2,
  3,
  potato
]
EOF";

    import std.exception;

    auto e = collectException!JSONException(parseJSON(s));
    assert(e.msg == "Unexpected character 'p'. (Line 5:3)", e.msg);
}

// handling of special float values (NaN, Inf, -Inf)
unittest
{
    import std.math      : isNaN, isInfinity;
    import std.exception : assertThrown;

    // expected representations of NaN and Inf
    enum {
        nanString         = '"' ~ JSONFloatLiteral.nan         ~ '"',
        infString         = '"' ~ JSONFloatLiteral.inf         ~ '"',
        negativeInfString = '"' ~ JSONFloatLiteral.negativeInf ~ '"',
    }

    // with the specialFloatLiterals option, encode NaN/Inf as strings
    assert(JSONValue(float.nan).toString(JSONOptions.specialFloatLiterals)       == nanString);
    assert(JSONValue(double.infinity).toString(JSONOptions.specialFloatLiterals) == infString);
    assert(JSONValue(-real.infinity).toString(JSONOptions.specialFloatLiterals)  == negativeInfString);

    // without the specialFloatLiterals option, throw on encoding NaN/Inf
    assertThrown!JSONException(JSONValue(float.nan).toString);
    assertThrown!JSONException(JSONValue(double.infinity).toString);
    assertThrown!JSONException(JSONValue(-real.infinity).toString);

    // when parsing json with specialFloatLiterals option, decode special strings as floats
    JSONValue jvNan    = parseJSON(nanString, JSONOptions.specialFloatLiterals);
    JSONValue jvInf    = parseJSON(infString, JSONOptions.specialFloatLiterals);
    JSONValue jvNegInf = parseJSON(negativeInfString, JSONOptions.specialFloatLiterals);

    assert(jvNan.floating.isNaN);
    assert(jvInf.floating.isInfinity    && jvInf.floating > 0);
    assert(jvNegInf.floating.isInfinity && jvNegInf.floating < 0);

    // when parsing json without the specialFloatLiterals option, decode special strings as strings
    jvNan    = parseJSON(nanString);
    jvInf    = parseJSON(infString);
    jvNegInf = parseJSON(negativeInfString);

    assert(jvNan.str    == JSONFloatLiteral.nan);
    assert(jvInf.str    == JSONFloatLiteral.inf);
    assert(jvNegInf.str == JSONFloatLiteral.negativeInf);
}

pure nothrow @safe @nogc unittest
{
    JSONValue testVal;
    testVal = "test";
    testVal = 10;
    testVal = 10u;
    testVal = 1.0;
    testVal = (JSONValue[string]).init;
    testVal = JSONValue[].init;
    testVal = null;
    assert(testVal.isNull);
}

// comment at eof