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package com.fasterxml.jackson.core.base;

import java.io.*;
import java.math.BigDecimal;
import java.math.BigInteger;

import com.fasterxml.jackson.core.*;
import com.fasterxml.jackson.core.io.IOContext;
import com.fasterxml.jackson.core.io.NumberInput;
import com.fasterxml.jackson.core.json.DupDetector;
import com.fasterxml.jackson.core.json.JsonReadContext;
import com.fasterxml.jackson.core.json.PackageVersion;
import com.fasterxml.jackson.core.util.ByteArrayBuilder;
import com.fasterxml.jackson.core.util.TextBuffer;

/**
 * Intermediate base class used by all Jackson {@link JsonParser}
 * implementations. Contains most common things that are independent
 * of actual underlying input source.
 */
public abstract class ParserBase extends ParserMinimalBase
{
    /*
    /**********************************************************
    /* Generic I/O state
    /**********************************************************
     */

    /**
     * I/O context for this reader. It handles buffer allocation
     * for the reader.
     */
    final protected IOContext _ioContext;

    /**
     * Flag that indicates whether parser is closed or not. Gets
     * set when parser is either closed by explicit call
     * ({@link #close}) or when end-of-input is reached.
     */
    protected boolean _closed;

    /*
    /**********************************************************
    /* Current input data
    /**********************************************************
     */

    // Note: type of actual buffer depends on sub-class, can't include

    /**
     * Pointer to next available character in buffer
     */
    protected int _inputPtr = 0;

    /**
     * Index of character after last available one in the buffer.
     */
    protected int _inputEnd = 0;

    /*
    /**********************************************************
    /* Current input location information
    /**********************************************************
     */

    /**
     * Number of characters/bytes that were contained in previous blocks
     * (blocks that were already processed prior to the current buffer).
     */
    protected long _currInputProcessed = 0L;

    /**
     * Current row location of current point in input buffer, starting
     * from 1, if available.
     */
    protected int _currInputRow = 1;

    /**
     * Current index of the first character of the current row in input
     * buffer. Needed to calculate column position, if necessary; benefit
     * of not having column itself is that this only has to be updated
     * once per line.
     */
    protected int _currInputRowStart = 0;

    /*
    /**********************************************************
    /* Information about starting location of event
    /* Reader is pointing to; updated on-demand
    /**********************************************************
     */

    // // // Location info at point when current token was started

    /**
     * Total number of bytes/characters read before start of current token.
     * For big (gigabyte-sized) sizes are possible, needs to be long,
     * unlike pointers and sizes related to in-memory buffers.
     */
    protected long _tokenInputTotal = 0; 

    /**
     * Input row on which current token starts, 1-based
     */
    protected int _tokenInputRow = 1;

    /**
     * Column on input row that current token starts; 0-based (although
     * in the end it'll be converted to 1-based)
     */
    protected int _tokenInputCol = 0;

    /*
    /**********************************************************
    /* Parsing state
    /**********************************************************
     */

    /**
     * Information about parser context, context in which
     * the next token is to be parsed (root, array, object).
     */
    protected JsonReadContext _parsingContext;
    
    /**
     * Secondary token related to the next token after current one;
     * used if its type is known. This may be value token that
     * follows FIELD_NAME, for example.
     */
    protected JsonToken _nextToken;

    /*
    /**********************************************************
    /* Buffer(s) for local name(s) and text content
    /**********************************************************
     */

    /**
     * Buffer that contains contents of String values, including
     * field names if necessary (name split across boundary,
     * contains escape sequence, or access needed to char array)
     */
    protected final TextBuffer _textBuffer;

    /**
     * Temporary buffer that is needed if field name is accessed
     * using {@link #getTextCharacters} method (instead of String
     * returning alternatives)
     */
    protected char[] _nameCopyBuffer = null;

    /**
     * Flag set to indicate whether the field name is available
     * from the name copy buffer or not (in addition to its String
     * representation  being available via read context)
     */
    protected boolean _nameCopied = false;

    /**
     * ByteArrayBuilder is needed if 'getBinaryValue' is called. If so,
     * we better reuse it for remainder of content.
     */
    protected ByteArrayBuilder _byteArrayBuilder = null;

    /**
     * We will hold on to decoded binary data, for duration of
     * current event, so that multiple calls to
     * {@link #getBinaryValue} will not need to decode data more
     * than once.
     */
    protected byte[] _binaryValue;

    /*
    /**********************************************************
    /* Constants and fields of former 'JsonNumericParserBase'
    /**********************************************************
     */

    final protected static int NR_UNKNOWN = 0;

    // First, integer types

    final protected static int NR_INT = 0x0001;
    final protected static int NR_LONG = 0x0002;
    final protected static int NR_BIGINT = 0x0004;

    // And then floating point types

    final protected static int NR_DOUBLE = 0x008;
    final protected static int NR_BIGDECIMAL = 0x0010;

    // Also, we need some numeric constants

    final static BigInteger BI_MIN_INT = BigInteger.valueOf(Integer.MIN_VALUE);
    final static BigInteger BI_MAX_INT = BigInteger.valueOf(Integer.MAX_VALUE);

    final static BigInteger BI_MIN_LONG = BigInteger.valueOf(Long.MIN_VALUE);
    final static BigInteger BI_MAX_LONG = BigInteger.valueOf(Long.MAX_VALUE);
    
    final static BigDecimal BD_MIN_LONG = new BigDecimal(BI_MIN_LONG);
    final static BigDecimal BD_MAX_LONG = new BigDecimal(BI_MAX_LONG);

    final static BigDecimal BD_MIN_INT = new BigDecimal(BI_MIN_INT);
    final static BigDecimal BD_MAX_INT = new BigDecimal(BI_MAX_INT);

    final static long MIN_INT_L = (long) Integer.MIN_VALUE;
    final static long MAX_INT_L = (long) Integer.MAX_VALUE;

    // These are not very accurate, but have to do... (for bounds checks)

    final static double MIN_LONG_D = (double) Long.MIN_VALUE;
    final static double MAX_LONG_D = (double) Long.MAX_VALUE;

    final static double MIN_INT_D = (double) Integer.MIN_VALUE;
    final static double MAX_INT_D = (double) Integer.MAX_VALUE;

    // Digits, numeric
    final protected static int INT_0 = '0';
    final protected static int INT_9 = '9';

    final protected static int INT_MINUS = '-';
    final protected static int INT_PLUS = '+';

    final protected static char CHAR_NULL = '\0';
    
    // Numeric value holders: multiple fields used for
    // for efficiency

    /**
     * Bitfield that indicates which numeric representations
     * have been calculated for the current type
     */
    protected int _numTypesValid = NR_UNKNOWN;

    // First primitives

    protected int _numberInt;

    protected long _numberLong;

    protected double _numberDouble;

    // And then object types

    protected BigInteger _numberBigInt;

    protected BigDecimal _numberBigDecimal;

    // And then other information about value itself

    /**
     * Flag that indicates whether numeric value has a negative
     * value. That is, whether its textual representation starts
     * with minus character.
     */
    protected boolean _numberNegative;

    /**
     * Length of integer part of the number, in characters
     */
    protected int _intLength;

    /**
     * Length of the fractional part (not including decimal
     * point or exponent), in characters.
     * Not used for  pure integer values.
     */
    protected int _fractLength;

    /**
     * Length of the exponent part of the number, if any, not
     * including 'e' marker or sign, just digits. 
     * Not used for  pure integer values.
     */
    protected int _expLength;

    /*
    /**********************************************************
    /* Life-cycle
    /**********************************************************
     */

    protected ParserBase(IOContext ctxt, int features) {
        super();
        _features = features;
        _ioContext = ctxt;
        _textBuffer = ctxt.constructTextBuffer();
        DupDetector dups = Feature.STRICT_DUPLICATE_DETECTION.enabledIn(features)
                ? DupDetector.rootDetector(this) : null;
        _parsingContext = JsonReadContext.createRootContext(dups);
    }

    @Override public Version version() { return PackageVersion.VERSION; }

    /*
    /**********************************************************
    /* JsonParser impl
    /**********************************************************
     */
    
    /**
     * Method that can be called to get the name associated with
     * the current event.
     */
    @Override public String getCurrentName() throws IOException {
        // [JACKSON-395]: start markers require information from parent
        if (_currToken == JsonToken.START_OBJECT || _currToken == JsonToken.START_ARRAY) {
            JsonReadContext parent = _parsingContext.getParent();
            return parent.getCurrentName();
        }
        return _parsingContext.getCurrentName();
    }

    @Override public void overrideCurrentName(String name) {
        // Simple, but need to look for START_OBJECT/ARRAY's "off-by-one" thing:
        JsonReadContext ctxt = _parsingContext;
        if (_currToken == JsonToken.START_OBJECT || _currToken == JsonToken.START_ARRAY) {
            ctxt = ctxt.getParent();
        }
        /* 24-Sep-2013, tatu: Unfortunate, but since we did not expose exceptions,
         *   need to wrap this here
         */
        try {
            ctxt.setCurrentName(name);
        } catch (IOException e) {
            throw new IllegalStateException(e);
        }
    }
    
    @Override public void close() throws IOException {
        if (!_closed) {
            _closed = true;
            try {
                _closeInput();
            } finally {
                // as per [JACKSON-324], do in finally block
                // Also, internal buffer(s) can now be released as well
                _releaseBuffers();
            }
        }
    }

    @Override public boolean isClosed() { return _closed; }
    @Override public JsonReadContext getParsingContext() { return _parsingContext; }

    /**
     * Method that return the starting location of the current
     * token; that is, position of the first character from input
     * that starts the current token.
     */
    @Override
    public JsonLocation getTokenLocation() {
        return new JsonLocation(_ioContext.getSourceReference(),
                -1L, getTokenCharacterOffset(), // bytes, chars
                getTokenLineNr(),
                getTokenColumnNr());
    }

    /**
     * Method that returns location of the last processed character;
     * usually for error reporting purposes
     */
    @Override
    public JsonLocation getCurrentLocation() {
        int col = _inputPtr - _currInputRowStart + 1; // 1-based
        return new JsonLocation(_ioContext.getSourceReference(),
                -1L, _currInputProcessed + _inputPtr, // bytes, chars
                _currInputRow, col);
    }

    /*
    /**********************************************************
    /* Public API, access to token information, text and similar
    /**********************************************************
     */

    @Override
    public boolean hasTextCharacters() {
        if (_currToken == JsonToken.VALUE_STRING) { return true; } // usually true        
        if (_currToken == JsonToken.FIELD_NAME) { return _nameCopied; }
        return false;
    }

    // No embedded objects with base impl...
    @Override public Object getEmbeddedObject() throws IOException { return null; }
    
    /*
    /**********************************************************
    /* Public low-level accessors
    /**********************************************************
     */

    public long getTokenCharacterOffset() { return _tokenInputTotal; }
    public int getTokenLineNr() { return _tokenInputRow; }
    public int getTokenColumnNr() {
        // note: value of -1 means "not available"; otherwise convert from 0-based to 1-based
        int col = _tokenInputCol;
        return (col < 0) ? col : (col + 1);
    }

    /*
    /**********************************************************
    /* Low-level reading, other
    /**********************************************************
     */

    protected final void loadMoreGuaranteed() throws IOException {
        if (!loadMore()) { _reportInvalidEOF(); }
    }
    
    /*
    /**********************************************************
    /* Abstract methods needed from sub-classes
    /**********************************************************
     */

    protected abstract boolean loadMore() throws IOException;
    protected abstract void _finishString() throws IOException;
    protected abstract void _closeInput() throws IOException;
    
    /*
    /**********************************************************
    /* Low-level reading, other
    /**********************************************************
     */

    /**
     * Method called to release internal buffers owned by the base
     * reader. This may be called along with {@link #_closeInput} (for
     * example, when explicitly closing this reader instance), or
     * separately (if need be).
     */
    protected void _releaseBuffers() throws IOException {
        _textBuffer.releaseBuffers();
        char[] buf = _nameCopyBuffer;
        if (buf != null) {
            _nameCopyBuffer = null;
            _ioContext.releaseNameCopyBuffer(buf);
        }
    }
    
    /**
     * Method called when an EOF is encountered between tokens.
     * If so, it may be a legitimate EOF, but only iff there
     * is no open non-root context.
     */
    @Override
    protected void _handleEOF() throws JsonParseException {
        if (!_parsingContext.inRoot()) {
            _reportInvalidEOF(": expected close marker for "+_parsingContext.getTypeDesc()+" (from "+_parsingContext.getStartLocation(_ioContext.getSourceReference())+")");
        }
    }

    /**
     * @since 2.4
     */
    protected final int _eofAsNextChar() throws JsonParseException {
        _handleEOF();
        return -1;
    }
    
    /*
    /**********************************************************
    /* Internal/package methods: Error reporting
    /**********************************************************
     */
    
    protected void _reportMismatchedEndMarker(int actCh, char expCh) throws JsonParseException {
        String startDesc = ""+_parsingContext.getStartLocation(_ioContext.getSourceReference());
        _reportError("Unexpected close marker '"+((char) actCh)+"': expected '"+expCh+"' (for "+_parsingContext.getTypeDesc()+" starting at "+startDesc+")");
    }

    /*
    /**********************************************************
    /* Internal/package methods: shared/reusable builders
    /**********************************************************
     */
    
    public ByteArrayBuilder _getByteArrayBuilder()
    {
        if (_byteArrayBuilder == null) {
            _byteArrayBuilder = new ByteArrayBuilder();
        } else {
            _byteArrayBuilder.reset();
        }
        return _byteArrayBuilder;
    }

    /*
    /**********************************************************
    /* Methods from former JsonNumericParserBase
    /**********************************************************
     */

    // // // Life-cycle of number-parsing
    
    protected final JsonToken reset(boolean negative, int intLen, int fractLen, int expLen)
    {
        if (fractLen < 1 && expLen < 1) { // integer
            return resetInt(negative, intLen);
        }
        return resetFloat(negative, intLen, fractLen, expLen);
    }
        
    protected final JsonToken resetInt(boolean negative, int intLen)
    {
        _numberNegative = negative;
        _intLength = intLen;
        _fractLength = 0;
        _expLength = 0;
        _numTypesValid = NR_UNKNOWN; // to force parsing
        return JsonToken.VALUE_NUMBER_INT;
    }
    
    protected final JsonToken resetFloat(boolean negative, int intLen, int fractLen, int expLen)
    {
        _numberNegative = negative;
        _intLength = intLen;
        _fractLength = fractLen;
        _expLength = expLen;
        _numTypesValid = NR_UNKNOWN; // to force parsing
        return JsonToken.VALUE_NUMBER_FLOAT;
    }
    
    protected final JsonToken resetAsNaN(String valueStr, double value)
    {
        _textBuffer.resetWithString(valueStr);
        _numberDouble = value;
        _numTypesValid = NR_DOUBLE;
        return JsonToken.VALUE_NUMBER_FLOAT;
    }
    
    /*
    /**********************************************************
    /* Numeric accessors of public API
    /**********************************************************
     */
    
    @Override
    public Number getNumberValue() throws IOException
    {
        if (_numTypesValid == NR_UNKNOWN) {
            _parseNumericValue(NR_UNKNOWN); // will also check event type
        }
        // Separate types for int types
        if (_currToken == JsonToken.VALUE_NUMBER_INT) {
            if ((_numTypesValid & NR_INT) != 0) {
                return _numberInt;
            }
            if ((_numTypesValid & NR_LONG) != 0) {
                return _numberLong;
            }
            if ((_numTypesValid & NR_BIGINT) != 0) {
                return _numberBigInt;
            }
            // Shouldn't get this far but if we do
            return _numberBigDecimal;
        }
    
        /* And then floating point types. But here optimal type
         * needs to be big decimal, to avoid losing any data?
         */
        if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            return _numberBigDecimal;
        }
        if ((_numTypesValid & NR_DOUBLE) == 0) { // sanity check
            _throwInternal();
        }
        return _numberDouble;
    }
    
    @Override
    public NumberType getNumberType() throws IOException
    {
        if (_numTypesValid == NR_UNKNOWN) {
            _parseNumericValue(NR_UNKNOWN); // will also check event type
        }
        if (_currToken == JsonToken.VALUE_NUMBER_INT) {
            if ((_numTypesValid & NR_INT) != 0) {
                return NumberType.INT;
            }
            if ((_numTypesValid & NR_LONG) != 0) {
                return NumberType.LONG;
            }
            return NumberType.BIG_INTEGER;
        }
    
        /* And then floating point types. Here optimal type
         * needs to be big decimal, to avoid losing any data?
         * However... using BD is slow, so let's allow returning
         * double as type if no explicit call has been made to access
         * data as BD?
         */
        if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            return NumberType.BIG_DECIMAL;
        }
        return NumberType.DOUBLE;
    }
    
    @Override
    public int getIntValue() throws IOException
    {
        if ((_numTypesValid & NR_INT) == 0) {
            if (_numTypesValid == NR_UNKNOWN) { // not parsed at all
                _parseNumericValue(NR_INT); // will also check event type
            }
            if ((_numTypesValid & NR_INT) == 0) { // wasn't an int natively?
                convertNumberToInt(); // let's make it so, if possible
            }
        }
        return _numberInt;
    }
    
    @Override
    public long getLongValue() throws IOException
    {
        if ((_numTypesValid & NR_LONG) == 0) {
            if (_numTypesValid == NR_UNKNOWN) {
                _parseNumericValue(NR_LONG);
            }
            if ((_numTypesValid & NR_LONG) == 0) {
                convertNumberToLong();
            }
        }
        return _numberLong;
    }
    
    @Override
    public BigInteger getBigIntegerValue() throws IOException
    {
        if ((_numTypesValid & NR_BIGINT) == 0) {
            if (_numTypesValid == NR_UNKNOWN) {
                _parseNumericValue(NR_BIGINT);
            }
            if ((_numTypesValid & NR_BIGINT) == 0) {
                convertNumberToBigInteger();
            }
        }
        return _numberBigInt;
    }
    
    @Override
    public float getFloatValue() throws IOException
    {
        double value = getDoubleValue();
        /* 22-Jan-2009, tatu: Bounds/range checks would be tricky
         *   here, so let's not bother even trying...
         */
        /*
        if (value < -Float.MAX_VALUE || value > MAX_FLOAT_D) {
            _reportError("Numeric value ("+getText()+") out of range of Java float");
        }
        */
        return (float) value;
    }
    
    @Override
    public double getDoubleValue() throws IOException
    {
        if ((_numTypesValid & NR_DOUBLE) == 0) {
            if (_numTypesValid == NR_UNKNOWN) {
                _parseNumericValue(NR_DOUBLE);
            }
            if ((_numTypesValid & NR_DOUBLE) == 0) {
                convertNumberToDouble();
            }
        }
        return _numberDouble;
    }
    
    @Override
    public BigDecimal getDecimalValue() throws IOException
    {
        if ((_numTypesValid & NR_BIGDECIMAL) == 0) {
            if (_numTypesValid == NR_UNKNOWN) {
                _parseNumericValue(NR_BIGDECIMAL);
            }
            if ((_numTypesValid & NR_BIGDECIMAL) == 0) {
                convertNumberToBigDecimal();
            }
        }
        return _numberBigDecimal;
    }

    /*
    /**********************************************************
    /* Conversion from textual to numeric representation
    /**********************************************************
     */
    
    /**
     * Method that will parse actual numeric value out of a syntactically
     * valid number value. Type it will parse into depends on whether
     * it is a floating point number, as well as its magnitude: smallest
     * legal type (of ones available) is used for efficiency.
     *
     * @param expType Numeric type that we will immediately need, if any;
     *   mostly necessary to optimize handling of floating point numbers
     */
    protected void _parseNumericValue(int expType) throws IOException
    {
        // Int or float?
        if (_currToken == JsonToken.VALUE_NUMBER_INT) {
            char[] buf = _textBuffer.getTextBuffer();
            int offset = _textBuffer.getTextOffset();
            int len = _intLength;
            if (_numberNegative) {
                ++offset;
            }
            if (len <= 9) { // definitely fits in int
                int i = NumberInput.parseInt(buf, offset, len);
                _numberInt = _numberNegative ? -i : i;
                _numTypesValid = NR_INT;
                return;
            }
            if (len <= 18) { // definitely fits AND is easy to parse using 2 int parse calls
                long l = NumberInput.parseLong(buf, offset, len);
                if (_numberNegative) {
                    l = -l;
                }
                // [JACKSON-230] Could still fit in int, need to check
                if (len == 10) {
                    if (_numberNegative) {
                        if (l >= MIN_INT_L) {
                            _numberInt = (int) l;
                            _numTypesValid = NR_INT;
                            return;
                        }
                    } else {
                        if (l <= MAX_INT_L) {
                            _numberInt = (int) l;
                            _numTypesValid = NR_INT;
                            return;
                        }
                    }
                }
                _numberLong = l;
                _numTypesValid = NR_LONG;
                return;
            }
            _parseSlowInt(expType, buf, offset, len);
            return;
        }
        if (_currToken == JsonToken.VALUE_NUMBER_FLOAT) {
            _parseSlowFloat(expType);
            return;
        }
        _reportError("Current token ("+_currToken+") not numeric, can not use numeric value accessors");
    }
    
    private void _parseSlowFloat(int expType) throws IOException
    {
        /* Nope: floating point. Here we need to be careful to get
         * optimal parsing strategy: choice is between accurate but
         * slow (BigDecimal) and lossy but fast (Double). For now
         * let's only use BD when explicitly requested -- it can
         * still be constructed correctly at any point since we do
         * retain textual representation
         */
        try {
            if (expType == NR_BIGDECIMAL) {
                _numberBigDecimal = _textBuffer.contentsAsDecimal();
                _numTypesValid = NR_BIGDECIMAL;
            } else {
                // Otherwise double has to do
                _numberDouble = _textBuffer.contentsAsDouble();
                _numTypesValid = NR_DOUBLE;
            }
        } catch (NumberFormatException nex) {
            // Can this ever occur? Due to overflow, maybe?
            _wrapError("Malformed numeric value '"+_textBuffer.contentsAsString()+"'", nex);
        }
    }
    
    private void _parseSlowInt(int expType, char[] buf, int offset, int len) throws IOException
    {
        String numStr = _textBuffer.contentsAsString();
        try {
            // [JACKSON-230] Some long cases still...
            if (NumberInput.inLongRange(buf, offset, len, _numberNegative)) {
                // Probably faster to construct a String, call parse, than to use BigInteger
                _numberLong = Long.parseLong(numStr);
                _numTypesValid = NR_LONG;
            } else {
                // nope, need the heavy guns... (rare case)
                _numberBigInt = new BigInteger(numStr);
                _numTypesValid = NR_BIGINT;
            }
        } catch (NumberFormatException nex) {
            // Can this ever occur? Due to overflow, maybe?
            _wrapError("Malformed numeric value '"+numStr+"'", nex);
        }
    }
    
    /*
    /**********************************************************
    /* Numeric conversions
    /**********************************************************
     */    
    
    protected void convertNumberToInt() throws IOException
    {
        // First, converting from long ought to be easy
        if ((_numTypesValid & NR_LONG) != 0) {
            // Let's verify it's lossless conversion by simple roundtrip
            int result = (int) _numberLong;
            if (((long) result) != _numberLong) {
                _reportError("Numeric value ("+getText()+") out of range of int");
            }
            _numberInt = result;
        } else if ((_numTypesValid & NR_BIGINT) != 0) {
            if (BI_MIN_INT.compareTo(_numberBigInt) > 0 
                    || BI_MAX_INT.compareTo(_numberBigInt) < 0) {
                reportOverflowInt();
            }
            _numberInt = _numberBigInt.intValue();
        } else if ((_numTypesValid & NR_DOUBLE) != 0) {
            // Need to check boundaries
            if (_numberDouble < MIN_INT_D || _numberDouble > MAX_INT_D) {
                reportOverflowInt();
            }
            _numberInt = (int) _numberDouble;
        } else if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            if (BD_MIN_INT.compareTo(_numberBigDecimal) > 0 
                || BD_MAX_INT.compareTo(_numberBigDecimal) < 0) {
                reportOverflowInt();
            }
            _numberInt = _numberBigDecimal.intValue();
        } else {
            _throwInternal();
        }
        _numTypesValid |= NR_INT;
    }
    
    protected void convertNumberToLong() throws IOException
    {
        if ((_numTypesValid & NR_INT) != 0) {
            _numberLong = (long) _numberInt;
        } else if ((_numTypesValid & NR_BIGINT) != 0) {
            if (BI_MIN_LONG.compareTo(_numberBigInt) > 0 
                    || BI_MAX_LONG.compareTo(_numberBigInt) < 0) {
                reportOverflowLong();
            }
            _numberLong = _numberBigInt.longValue();
        } else if ((_numTypesValid & NR_DOUBLE) != 0) {
            // Need to check boundaries
            if (_numberDouble < MIN_LONG_D || _numberDouble > MAX_LONG_D) {
                reportOverflowLong();
            }
            _numberLong = (long) _numberDouble;
        } else if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            if (BD_MIN_LONG.compareTo(_numberBigDecimal) > 0 
                || BD_MAX_LONG.compareTo(_numberBigDecimal) < 0) {
                reportOverflowLong();
            }
            _numberLong = _numberBigDecimal.longValue();
        } else {
            _throwInternal();
        }
        _numTypesValid |= NR_LONG;
    }
    
    protected void convertNumberToBigInteger() throws IOException
    {
        if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            // here it'll just get truncated, no exceptions thrown
            _numberBigInt = _numberBigDecimal.toBigInteger();
        } else if ((_numTypesValid & NR_LONG) != 0) {
            _numberBigInt = BigInteger.valueOf(_numberLong);
        } else if ((_numTypesValid & NR_INT) != 0) {
            _numberBigInt = BigInteger.valueOf(_numberInt);
        } else if ((_numTypesValid & NR_DOUBLE) != 0) {
            _numberBigInt = BigDecimal.valueOf(_numberDouble).toBigInteger();
        } else {
            _throwInternal();
        }
        _numTypesValid |= NR_BIGINT;
    }
    
    protected void convertNumberToDouble() throws IOException
    {
        /* 05-Aug-2008, tatus: Important note: this MUST start with
         *   more accurate representations, since we don't know which
         *   value is the original one (others get generated when
         *   requested)
         */
    
        if ((_numTypesValid & NR_BIGDECIMAL) != 0) {
            _numberDouble = _numberBigDecimal.doubleValue();
        } else if ((_numTypesValid & NR_BIGINT) != 0) {
            _numberDouble = _numberBigInt.doubleValue();
        } else if ((_numTypesValid & NR_LONG) != 0) {
            _numberDouble = (double) _numberLong;
        } else if ((_numTypesValid & NR_INT) != 0) {
            _numberDouble = (double) _numberInt;
        } else {
            _throwInternal();
        }
        _numTypesValid |= NR_DOUBLE;
    }
    
    protected void convertNumberToBigDecimal() throws IOException
    {
        /* 05-Aug-2008, tatus: Important note: this MUST start with
         *   more accurate representations, since we don't know which
         *   value is the original one (others get generated when
         *   requested)
         */
    
        if ((_numTypesValid & NR_DOUBLE) != 0) {
            /* Let's actually parse from String representation,
             * to avoid rounding errors that non-decimal floating operations
             * would incur
             */
            _numberBigDecimal = NumberInput.parseBigDecimal(getText());
        } else if ((_numTypesValid & NR_BIGINT) != 0) {
            _numberBigDecimal = new BigDecimal(_numberBigInt);
        } else if ((_numTypesValid & NR_LONG) != 0) {
            _numberBigDecimal = BigDecimal.valueOf(_numberLong);
        } else if ((_numTypesValid & NR_INT) != 0) {
            _numberBigDecimal = BigDecimal.valueOf(_numberInt);
        } else {
            _throwInternal();
        }
        _numTypesValid |= NR_BIGDECIMAL;
    }
    
    /*
    /**********************************************************
    /* Number handling exceptions
    /**********************************************************
     */    
    
    protected void reportUnexpectedNumberChar(int ch, String comment) throws JsonParseException {
        String msg = "Unexpected character ("+_getCharDesc(ch)+") in numeric value";
        if (comment != null) {
            msg += ": "+comment;
        }
        _reportError(msg);
    }
    
    protected void reportInvalidNumber(String msg) throws JsonParseException {
        _reportError("Invalid numeric value: "+msg);
    }

    protected void reportOverflowInt() throws IOException {
        _reportError("Numeric value ("+getText()+") out of range of int ("+Integer.MIN_VALUE+" - "+Integer.MAX_VALUE+")");
    }
    
    protected void reportOverflowLong() throws IOException {
        _reportError("Numeric value ("+getText()+") out of range of long ("+Long.MIN_VALUE+" - "+Long.MAX_VALUE+")");
    }    

    /*
    /**********************************************************
    /* Base64 handling support
    /**********************************************************
     */

    /**
     * Method that sub-classes must implement to support escaped sequences
     * in base64-encoded sections.
     * Sub-classes that do not need base64 support can leave this as is
     */
    protected char _decodeEscaped() throws IOException {
        throw new UnsupportedOperationException();
    }
    
    protected final int _decodeBase64Escape(Base64Variant b64variant, int ch, int index) throws IOException
    {
        // 17-May-2011, tatu: As per [JACKSON-xxx], need to handle escaped chars
        if (ch != '\\') {
            throw reportInvalidBase64Char(b64variant, ch, index);
        }
        int unescaped = _decodeEscaped();
        // if white space, skip if first triplet; otherwise errors
        if (unescaped <= INT_SPACE) {
            if (index == 0) { // whitespace only allowed to be skipped between triplets
                return -1;
            }
        }
        // otherwise try to find actual triplet value
        int bits = b64variant.decodeBase64Char(unescaped);
        if (bits < 0) {
            throw reportInvalidBase64Char(b64variant, unescaped, index);
        }
        return bits;
    }
    
    protected final int _decodeBase64Escape(Base64Variant b64variant, char ch, int index) throws IOException
    {
        // 17-May-2011, tatu: As per [JACKSON-xxx], need to handle escaped chars
        if (ch != '\\') {
            throw reportInvalidBase64Char(b64variant, ch, index);
        }
        char unescaped = _decodeEscaped();
        // if white space, skip if first triplet; otherwise errors
        if (unescaped <= INT_SPACE) {
            if (index == 0) { // whitespace only allowed to be skipped between triplets
                return -1;
            }
        }
        // otherwise try to find actual triplet value
        int bits = b64variant.decodeBase64Char(unescaped);
        if (bits < 0) {
            throw reportInvalidBase64Char(b64variant, unescaped, index);
        }
        return bits;
    }
    
    protected IllegalArgumentException reportInvalidBase64Char(Base64Variant b64variant, int ch, int bindex) throws IllegalArgumentException {
        return reportInvalidBase64Char(b64variant, ch, bindex, null);
    }

    /**
     * @param bindex Relative index within base64 character unit; between 0
     *   and 3 (as unit has exactly 4 characters)
     */
    protected IllegalArgumentException reportInvalidBase64Char(Base64Variant b64variant, int ch, int bindex, String msg) throws IllegalArgumentException {
        String base;
        if (ch <= INT_SPACE) {
            base = "Illegal white space character (code 0x"+Integer.toHexString(ch)+") as character #"+(bindex+1)+" of 4-char base64 unit: can only used between units";
        } else if (b64variant.usesPaddingChar(ch)) {
            base = "Unexpected padding character ('"+b64variant.getPaddingChar()+"') as character #"+(bindex+1)+" of 4-char base64 unit: padding only legal as 3rd or 4th character";
        } else if (!Character.isDefined(ch) || Character.isISOControl(ch)) {
            // Not sure if we can really get here... ? (most illegal xml chars are caught at lower level)
            base = "Illegal character (code 0x"+Integer.toHexString(ch)+") in base64 content";
        } else {
            base = "Illegal character '"+((char)ch)+"' (code 0x"+Integer.toHexString(ch)+") in base64 content";
        }
        if (msg != null) {
            base = base + ": " + msg;
        }
        return new IllegalArgumentException(base);
    }
}




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