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package com.fasterxml.jackson.databind.deser.std;

import java.io.IOException;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.HashSet;

import com.fasterxml.jackson.core.*;
import com.fasterxml.jackson.core.io.NumberInput;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.annotation.JacksonStdImpl;
import com.fasterxml.jackson.databind.jsontype.TypeDeserializer;
import com.fasterxml.jackson.databind.util.AccessPattern;

/**
 * Container class for deserializers that handle core JDK primitive
 * (and matching wrapper) types, as well as standard "big" numeric types.
 * Note that this includes types such as {@link java.lang.Boolean}
 * and {@link java.lang.Character} which are not strictly numeric,
 * but are part of primitive/wrapper types.
 */
public class NumberDeserializers
{
    private final static HashSet _classNames = new HashSet();
    static {
        // note: can skip primitive types; other ways to check them:
        Class[] numberTypes = new Class[] {
            Boolean.class,
            Byte.class,
            Short.class,
            Character.class,
            Integer.class,
            Long.class,
            Float.class,
            Double.class,
            // and more generic ones
            Number.class, BigDecimal.class, BigInteger.class
        };
        for (Class cls : numberTypes) {
            _classNames.add(cls.getName());
        }
    }

    public static JsonDeserializer find(Class rawType, String clsName) {
        if (rawType.isPrimitive()) {
            if (rawType == Integer.TYPE) {
                return IntegerDeserializer.primitiveInstance;
            }
            if (rawType == Boolean.TYPE) {
                return BooleanDeserializer.primitiveInstance;
            }
            if (rawType == Long.TYPE) {
                return LongDeserializer.primitiveInstance;
            }
            if (rawType == Double.TYPE) {
                return DoubleDeserializer.primitiveInstance;
            }
            if (rawType == Character.TYPE) {
                return CharacterDeserializer.primitiveInstance;
            }
            if (rawType == Byte.TYPE) {
                return ByteDeserializer.primitiveInstance;
            }
            if (rawType == Short.TYPE) {
                return ShortDeserializer.primitiveInstance;
            }
            if (rawType == Float.TYPE) {
                return FloatDeserializer.primitiveInstance;
            }
        } else if (_classNames.contains(clsName)) {
            // Start with most common types; int, boolean, long, double
            if (rawType == Integer.class) {
                return IntegerDeserializer.wrapperInstance;
            }
            if (rawType == Boolean.class) {
                return BooleanDeserializer.wrapperInstance;
            }
            if (rawType == Long.class) {
                return LongDeserializer.wrapperInstance;
            }
            if (rawType == Double.class) {
                return DoubleDeserializer.wrapperInstance;
            }
            if (rawType == Character.class) {
                return CharacterDeserializer.wrapperInstance;
            }
            if (rawType == Byte.class) {
                return ByteDeserializer.wrapperInstance;
            }
            if (rawType == Short.class) {
                return ShortDeserializer.wrapperInstance;
            }
            if (rawType == Float.class) {
                return FloatDeserializer.wrapperInstance;
            }
            if (rawType == Number.class) {
                return NumberDeserializer.instance;
            }
            if (rawType == BigDecimal.class) {
                return BigDecimalDeserializer.instance;
            }
            if (rawType == BigInteger.class) {
                return BigIntegerDeserializer.instance;
            }
        } else {
            return null;
        }
        // should never occur
        throw new IllegalArgumentException("Internal error: can't find deserializer for "+rawType.getName());
    }
    
    /*
    /**********************************************************
    /* Then one intermediate base class for things that have
    /* both primitive and wrapper types
    /**********************************************************
     */

    protected abstract static class PrimitiveOrWrapperDeserializer
        extends StdScalarDeserializer
    {
        private static final long serialVersionUID = 1L;

        protected final T _nullValue;

        // @since 2.9
        protected final T _emptyValue;

        protected final boolean _primitive;

        protected PrimitiveOrWrapperDeserializer(Class vc, T nvl, T empty) {
            super(vc);
            _nullValue = nvl;
            _emptyValue = empty;
            _primitive = vc.isPrimitive();
        }

        @Override
        public AccessPattern getNullAccessPattern() {
            // 02-Feb-2017, tatu: For primitives we must dynamically check (and possibly throw
            //     exception); for wrappers not.
            if (_primitive) {
                return AccessPattern.DYNAMIC;
            }
            if (_nullValue == null) {
                return AccessPattern.ALWAYS_NULL;
            }
            return AccessPattern.CONSTANT;
        }

        @Override
        public final T getNullValue(DeserializationContext ctxt) throws JsonMappingException {
            // 01-Mar-2017, tatu: Alas, not all paths lead to `_coerceNull()`, as `SettableBeanProperty`
            //    short-circuits `null` handling. Hence need this check as well.
            if (_primitive && ctxt.isEnabled(DeserializationFeature.FAIL_ON_NULL_FOR_PRIMITIVES)) {
                ctxt.reportInputMismatch(this,
                        "Cannot map `null` into type %s (set DeserializationConfig.DeserializationFeature.FAIL_ON_NULL_FOR_PRIMITIVES to 'false' to allow)",
                        handledType().toString());
            }
            return _nullValue;
        }

        @Override
        public Object getEmptyValue(DeserializationContext ctxt) throws JsonMappingException {
            return _emptyValue;
        }
    }

    /*
    /**********************************************************
    /* Then primitive/wrapper types
    /**********************************************************
     */

    @JacksonStdImpl
    public final static class BooleanDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static BooleanDeserializer primitiveInstance = new BooleanDeserializer(Boolean.TYPE, Boolean.FALSE);
        final static BooleanDeserializer wrapperInstance = new BooleanDeserializer(Boolean.class, null);

        public BooleanDeserializer(Class cls, Boolean nvl)
        {
            super(cls, nvl, Boolean.FALSE);
        }

        @Override
        public Boolean deserialize(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_TRUE) {
                return Boolean.TRUE;
            }
            if (t == JsonToken.VALUE_FALSE) {
                return Boolean.FALSE;
            }
            return _parseBoolean(p, ctxt);
        }

        // Since we can never have type info ("natural type"; String, Boolean, Integer, Double):
        // (is it an error to even call this version?)
        @Override
        public Boolean deserializeWithType(JsonParser p, DeserializationContext ctxt,
                TypeDeserializer typeDeserializer)
            throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_TRUE) {
                return Boolean.TRUE;
            }
            if (t == JsonToken.VALUE_FALSE) {
                return Boolean.FALSE;
            }
            return _parseBoolean(p, ctxt);
        }

        protected final Boolean _parseBoolean(JsonParser p, DeserializationContext ctxt)
            throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_NULL) {
                return (Boolean) _coerceNullToken(ctxt, _primitive);
            }
            if (t == JsonToken.START_ARRAY) { // unwrapping?
                return _deserializeFromArray(p, ctxt);
            }
            // should accept ints too, (0 == false, otherwise true)
            if (t == JsonToken.VALUE_NUMBER_INT) {
                return Boolean.valueOf(_parseBooleanFromInt(p, ctxt));
            }
            // And finally, let's allow Strings to be converted too
            if (t == JsonToken.VALUE_STRING) {
                String text = p.getText().trim();
                // [databind#422]: Allow aliases
                if ("true".equals(text) || "True".equals(text)) {
                    _verifyStringForScalarCoercion(ctxt, text);
                    return Boolean.TRUE;
                }
                if ("false".equals(text) || "False".equals(text)) {
                    _verifyStringForScalarCoercion(ctxt, text);
                    return Boolean.FALSE;
                }
                if (text.length() == 0) {
                    return (Boolean) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Boolean) _coerceTextualNull(ctxt, _primitive);
                }
                return (Boolean) ctxt.handleWeirdStringValue(_valueClass, text,
                        "only \"true\" or \"false\" recognized");
            }
            // usually caller should have handled but:
            if (t == JsonToken.VALUE_TRUE) {
                return Boolean.TRUE;
            }
            if (t == JsonToken.VALUE_FALSE) {
                return Boolean.FALSE;
            }
            // Otherwise, no can do:
            return (Boolean) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public static class ByteDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static ByteDeserializer primitiveInstance = new ByteDeserializer(Byte.TYPE, (byte) 0);
        final static ByteDeserializer wrapperInstance = new ByteDeserializer(Byte.class, null);
        
        public ByteDeserializer(Class cls, Byte nvl)
        {
            super(cls, nvl, (byte) 0);
        }

        @Override
        public Byte deserialize(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            if (p.hasToken(JsonToken.VALUE_NUMBER_INT)) {
                return p.getByteValue();
            }
            return _parseByte(p, ctxt);
        }

        protected Byte _parseByte(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_STRING) { // let's do implicit re-parse
                String text = p.getText().trim();
                if (_hasTextualNull(text)) {
                    return (Byte) _coerceTextualNull(ctxt, _primitive);
                }
                int len = text.length();
                if (len == 0) {
                    return (Byte) _coerceEmptyString(ctxt, _primitive);
                }
                _verifyStringForScalarCoercion(ctxt, text);
                int value;
                try {
                    value = NumberInput.parseInt(text);
                } catch (IllegalArgumentException iae) {
                    return (Byte) ctxt.handleWeirdStringValue(_valueClass, text,
                            "not a valid Byte value");
                }
                // So far so good: but does it fit?
                // as per [JACKSON-804], allow range up to 255, inclusive
                if (_byteOverflow(value)) {
                    return (Byte) ctxt.handleWeirdStringValue(_valueClass, text,
                            "overflow, value cannot be represented as 8-bit value");
                    // fall-through for deferred fails
                }
                return Byte.valueOf((byte) value);
            }
            if (t == JsonToken.VALUE_NUMBER_FLOAT) {
                if (!ctxt.isEnabled(DeserializationFeature.ACCEPT_FLOAT_AS_INT)) {
                    _failDoubleToIntCoercion(p, ctxt, "Byte");
                }
                return p.getByteValue();
            }
            if (t == JsonToken.VALUE_NULL) {
                return (Byte) _coerceNullToken(ctxt, _primitive);
            }
            // [databind#381]
            if (t == JsonToken.START_ARRAY) {
                return _deserializeFromArray(p, ctxt);
            }
            if (t == JsonToken.VALUE_NUMBER_INT) { // shouldn't usually be called with it but
                return p.getByteValue();
            }
            return (Byte) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public static class ShortDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static ShortDeserializer primitiveInstance = new ShortDeserializer(Short.TYPE, Short.valueOf((short)0));
        final static ShortDeserializer wrapperInstance = new ShortDeserializer(Short.class, null);
        
        public ShortDeserializer(Class cls, Short nvl)
        {
            super(cls, nvl, (short)0);
        }

        @Override
        public Short deserialize(JsonParser p, DeserializationContext ctxt)
            throws IOException
        {
            return _parseShort(p, ctxt);
        }

        protected Short _parseShort(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_NUMBER_INT) {
                return p.getShortValue();
            }
            if (t == JsonToken.VALUE_STRING) { // let's do implicit re-parse
                String text = p.getText().trim();
                int len = text.length();
                if (len == 0) {
                    return (Short) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Short) _coerceTextualNull(ctxt, _primitive);
                }
                _verifyStringForScalarCoercion(ctxt, text);
                int value;
                try {
                    value = NumberInput.parseInt(text);
                } catch (IllegalArgumentException iae) {
                    return (Short) ctxt.handleWeirdStringValue(_valueClass, text,
                            "not a valid Short value");
                }
                // So far so good: but does it fit?
                if (_shortOverflow(value)) {
                    return (Short) ctxt.handleWeirdStringValue(_valueClass, text,
                            "overflow, value cannot be represented as 16-bit value");
                }
                return Short.valueOf((short) value);
            }
            if (t == JsonToken.VALUE_NUMBER_FLOAT) {
                if (!ctxt.isEnabled(DeserializationFeature.ACCEPT_FLOAT_AS_INT)) {
                    _failDoubleToIntCoercion(p, ctxt, "Short");
                }
                return p.getShortValue();
            }
            if (t == JsonToken.VALUE_NULL) {
                return (Short) _coerceNullToken(ctxt, _primitive);
            }
            if (t == JsonToken.START_ARRAY) {
                return _deserializeFromArray(p, ctxt);
            }
            return (Short) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public static class CharacterDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static CharacterDeserializer primitiveInstance = new CharacterDeserializer(Character.TYPE, '\0');
        final static CharacterDeserializer wrapperInstance = new CharacterDeserializer(Character.class, null);
        
        public CharacterDeserializer(Class cls, Character nvl)
        {
            super(cls, nvl, '\0');
        }

        @Override
        public Character deserialize(JsonParser p, DeserializationContext ctxt)
            throws IOException
        {
            switch (p.getCurrentTokenId()) {
            case JsonTokenId.ID_NUMBER_INT: // ok iff ascii value
                _verifyNumberForScalarCoercion(ctxt, p);
                int value = p.getIntValue();
                if (value >= 0 && value <= 0xFFFF) {
                    return Character.valueOf((char) value);
                }
                break;
            case JsonTokenId.ID_STRING: // this is the usual type
                // But does it have to be exactly one char?
                String text = p.getText();
                if (text.length() == 1) {
                    return Character.valueOf(text.charAt(0));
                }
                // actually, empty should become null?
                if (text.length() == 0) {
                    return (Character) _coerceEmptyString(ctxt, _primitive);
                }
                break;
            case JsonTokenId.ID_NULL:
                return (Character) _coerceNullToken(ctxt, _primitive);
            case JsonTokenId.ID_START_ARRAY:
                return _deserializeFromArray(p, ctxt);
            default:
            }
            return (Character) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public final static class IntegerDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static IntegerDeserializer primitiveInstance = new IntegerDeserializer(Integer.TYPE, 0);
        final static IntegerDeserializer wrapperInstance = new IntegerDeserializer(Integer.class, null);
        
        public IntegerDeserializer(Class cls, Integer nvl) {
            super(cls, nvl, 0);
        }

        // since 2.6, slightly faster lookups for this very common type
        @Override
        public boolean isCachable() { return true; }

        @Override
        public Integer deserialize(JsonParser p, DeserializationContext ctxt) throws IOException {
            if (p.hasToken(JsonToken.VALUE_NUMBER_INT)) {
                return p.getIntValue();
            }
            return _parseInteger(p, ctxt);
        }

        // Since we can never have type info ("natural type"; String, Boolean, Integer, Double):
        // (is it an error to even call this version?)
        @Override
        public Integer deserializeWithType(JsonParser p, DeserializationContext ctxt,
                TypeDeserializer typeDeserializer) throws IOException
        {
            if (p.hasToken(JsonToken.VALUE_NUMBER_INT)) {
                return p.getIntValue();
            }
            return _parseInteger(p, ctxt);
        }

        protected final Integer _parseInteger(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            switch (p.getCurrentTokenId()) {
            // NOTE: caller assumed to usually check VALUE_NUMBER_INT in fast path
            case JsonTokenId.ID_NUMBER_INT:
                return Integer.valueOf(p.getIntValue());
            case JsonTokenId.ID_NUMBER_FLOAT: // coercing may work too
                if (!ctxt.isEnabled(DeserializationFeature.ACCEPT_FLOAT_AS_INT)) {
                    _failDoubleToIntCoercion(p, ctxt, "Integer");
                }
                return Integer.valueOf(p.getValueAsInt());
            case JsonTokenId.ID_STRING: // let's do implicit re-parse
                String text = p.getText().trim();
                int len = text.length();
                if (len == 0) {
                    return (Integer) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Integer) _coerceTextualNull(ctxt, _primitive);
                }
                _verifyStringForScalarCoercion(ctxt, text);
                try {
                    if (len > 9) {
                        long l = Long.parseLong(text);
                        if (_intOverflow(l)) {
                            return (Integer) ctxt.handleWeirdStringValue(_valueClass, text, String.format(
                                "Overflow: numeric value (%s) out of range of Integer (%d - %d)",
                                text, Integer.MIN_VALUE, Integer.MAX_VALUE));
                        }
                        return Integer.valueOf((int) l);
                    }
                    return Integer.valueOf(NumberInput.parseInt(text));
                } catch (IllegalArgumentException iae) {
                    return (Integer) ctxt.handleWeirdStringValue(_valueClass, text,
                            "not a valid Integer value");
                }
            case JsonTokenId.ID_NULL:
                return (Integer) _coerceNullToken(ctxt, _primitive);
            case JsonTokenId.ID_START_ARRAY:
                return _deserializeFromArray(p, ctxt);
            }
            // Otherwise, no can do:
            return (Integer) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public final static class LongDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static LongDeserializer primitiveInstance = new LongDeserializer(Long.TYPE, 0L);
        final static LongDeserializer wrapperInstance = new LongDeserializer(Long.class, null);
        
        public LongDeserializer(Class cls, Long nvl) {
            super(cls, nvl, 0L);
        }

        // since 2.6, slightly faster lookups for this very common type
        @Override
        public boolean isCachable() { return true; }
        
        @Override
        public Long deserialize(JsonParser p, DeserializationContext ctxt) throws IOException {
            if (p.hasToken(JsonToken.VALUE_NUMBER_INT)) {
                return p.getLongValue();
            }
            return _parseLong(p, ctxt);
        }

        protected final Long _parseLong(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            switch (p.getCurrentTokenId()) {
            // NOTE: caller assumed to usually check VALUE_NUMBER_INT in fast path
            case JsonTokenId.ID_NUMBER_INT:
                return p.getLongValue();
            case JsonTokenId.ID_NUMBER_FLOAT:
                if (!ctxt.isEnabled(DeserializationFeature.ACCEPT_FLOAT_AS_INT)) {
                    _failDoubleToIntCoercion(p, ctxt, "Long");
                }
                return p.getValueAsLong();
            case JsonTokenId.ID_STRING:
                String text = p.getText().trim();
                if (text.length() == 0) {
                    return (Long) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Long) _coerceTextualNull(ctxt, _primitive);
                }
                _verifyStringForScalarCoercion(ctxt, text);
                // let's allow Strings to be converted too
                try {
                    return Long.valueOf(NumberInput.parseLong(text));
                } catch (IllegalArgumentException iae) { }
                return (Long) ctxt.handleWeirdStringValue(_valueClass, text,
                        "not a valid Long value");
                // fall-through
            case JsonTokenId.ID_NULL:
                return (Long) _coerceNullToken(ctxt, _primitive);
            case JsonTokenId.ID_START_ARRAY:
                return _deserializeFromArray(p, ctxt);
            }
            // Otherwise, no can do:
            return (Long) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public static class FloatDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static FloatDeserializer primitiveInstance = new FloatDeserializer(Float.TYPE, 0.f);
        final static FloatDeserializer wrapperInstance = new FloatDeserializer(Float.class, null);
        
        public FloatDeserializer(Class cls, Float nvl) {
            super(cls, nvl, 0.f);
        }

        @Override
        public Float deserialize(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            return _parseFloat(p, ctxt);
        }

        protected final Float _parseFloat(JsonParser p, DeserializationContext ctxt)
            throws IOException
        {
            // We accept couple of different types; obvious ones first:
            JsonToken t = p.getCurrentToken();
            
            if (t == JsonToken.VALUE_NUMBER_FLOAT || t == JsonToken.VALUE_NUMBER_INT) { // coercing should work too
                return p.getFloatValue();
            }
            // And finally, let's allow Strings to be converted too
            if (t == JsonToken.VALUE_STRING) {
                String text = p.getText().trim();
                if ((text.length() == 0)) {
                    return (Float) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Float) _coerceTextualNull(ctxt, _primitive);
                }
                switch (text.charAt(0)) {
                case 'I':
                    if (_isPosInf(text)) {
                        return Float.POSITIVE_INFINITY;
                    }
                    break;
                case 'N':
                    if (_isNaN(text)) {
                        return Float.NaN;
                    }
                    break;
                case '-':
                    if (_isNegInf(text)) {
                        return Float.NEGATIVE_INFINITY;
                    }
                    break;
                }
                _verifyStringForScalarCoercion(ctxt, text);
                try {
                    return Float.parseFloat(text);
                } catch (IllegalArgumentException iae) { }
                return (Float) ctxt.handleWeirdStringValue(_valueClass, text,
                        "not a valid Float value");
            }
            if (t == JsonToken.VALUE_NULL) {
                return (Float) _coerceNullToken(ctxt, _primitive);
            }
            if (t == JsonToken.START_ARRAY) {
                return _deserializeFromArray(p, ctxt);
            }
            // Otherwise, no can do:
            return (Float) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    @JacksonStdImpl
    public static class DoubleDeserializer
        extends PrimitiveOrWrapperDeserializer
    {
        private static final long serialVersionUID = 1L;

        final static DoubleDeserializer primitiveInstance = new DoubleDeserializer(Double.TYPE, 0.d);
        final static DoubleDeserializer wrapperInstance = new DoubleDeserializer(Double.class, null);
        
        public DoubleDeserializer(Class cls, Double nvl) {
            super(cls, nvl, 0.d);
        }

        @Override
        public Double deserialize(JsonParser p, DeserializationContext ctxt) throws IOException {
            return _parseDouble(p, ctxt);
        }

        // Since we can never have type info ("natural type"; String, Boolean, Integer, Double):
        // (is it an error to even call this version?)
        @Override
        public Double deserializeWithType(JsonParser p, DeserializationContext ctxt,
                TypeDeserializer typeDeserializer) throws IOException
        {
            return _parseDouble(p, ctxt);
        }

        protected final Double _parseDouble(JsonParser p, DeserializationContext ctxt) throws IOException
        {
            JsonToken t = p.getCurrentToken();
            if (t == JsonToken.VALUE_NUMBER_INT || t == JsonToken.VALUE_NUMBER_FLOAT) { // coercing should work too
                return p.getDoubleValue();
            }
            if (t == JsonToken.VALUE_STRING) {
                String text = p.getText().trim();
                if ((text.length() == 0)) {
                    return (Double) _coerceEmptyString(ctxt, _primitive);
                }
                if (_hasTextualNull(text)) {
                    return (Double) _coerceTextualNull(ctxt, _primitive);
                }
                switch (text.charAt(0)) {
                case 'I':
                    if (_isPosInf(text)) {
                        return Double.POSITIVE_INFINITY;
                    }
                    break;
                case 'N':
                    if (_isNaN(text)) {
                        return Double.NaN;
                    }
                    break;
                case '-':
                    if (_isNegInf(text)) {
                        return Double.NEGATIVE_INFINITY;
                    }
                    break;
                }
                _verifyStringForScalarCoercion(ctxt, text);
                try {
                    return parseDouble(text);
                } catch (IllegalArgumentException iae) { }
                return (Double) ctxt.handleWeirdStringValue(_valueClass, text,
                        "not a valid Double value");
            }
            if (t == JsonToken.VALUE_NULL) {
                return (Double) _coerceNullToken(ctxt, _primitive);
            }
            if (t == JsonToken.START_ARRAY) {
                return _deserializeFromArray(p, ctxt);
            }
            // Otherwise, no can do:
            return (Double) ctxt.handleUnexpectedToken(_valueClass, p);
        }
    }

    /**
     * For type Number.class, we can just rely on type
     * mappings that plain {@link JsonParser#getNumberValue} returns.
     *

* There is one additional complication: some numeric * types (specifically, int/Integer and double/Double) are "non-typed"; * meaning that they will NEVER be output with type information. * But other numeric types may need such type information. * This is why {@link #deserializeWithType} must be overridden. */ @SuppressWarnings("serial") @JacksonStdImpl public static class NumberDeserializer extends StdScalarDeserializer { public final static NumberDeserializer instance = new NumberDeserializer(); public NumberDeserializer() { super(Number.class); } @Override public Object deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { switch (p.getCurrentTokenId()) { case JsonTokenId.ID_NUMBER_INT: if (ctxt.hasSomeOfFeatures(F_MASK_INT_COERCIONS)) { return _coerceIntegral(p, ctxt); } return p.getNumberValue(); case JsonTokenId.ID_NUMBER_FLOAT: if (ctxt.isEnabled(DeserializationFeature.USE_BIG_DECIMAL_FOR_FLOATS)) { // 10-Mar-2017, tatu: NaN and BigDecimal won't mix... if (!p.isNaN()) { return p.getDecimalValue(); } } return p.getNumberValue(); case JsonTokenId.ID_STRING: /* Textual values are more difficult... not parsing itself, but figuring * out 'minimal' type to use */ String text = p.getText().trim(); if ((text.length() == 0)) { // note: no need to call `coerce` as this is never primitive return getNullValue(ctxt); } if (_hasTextualNull(text)) { // note: no need to call `coerce` as this is never primitive return getNullValue(ctxt); } if (_isPosInf(text)) { return Double.POSITIVE_INFINITY; } if (_isNegInf(text)) { return Double.NEGATIVE_INFINITY; } if (_isNaN(text)) { return Double.NaN; } _verifyStringForScalarCoercion(ctxt, text); try { if (!_isIntNumber(text)) { if (ctxt.isEnabled(DeserializationFeature.USE_BIG_DECIMAL_FOR_FLOATS)) { return new BigDecimal(text); } return Double.valueOf(text); } if (ctxt.isEnabled(DeserializationFeature.USE_BIG_INTEGER_FOR_INTS)) { return new BigInteger(text); } long value = Long.parseLong(text); if (!ctxt.isEnabled(DeserializationFeature.USE_LONG_FOR_INTS)) { if (value <= Integer.MAX_VALUE && value >= Integer.MIN_VALUE) { return Integer.valueOf((int) value); } } return Long.valueOf(value); } catch (IllegalArgumentException iae) { return ctxt.handleWeirdStringValue(_valueClass, text, "not a valid number"); } case JsonTokenId.ID_START_ARRAY: return _deserializeFromArray(p, ctxt); } // Otherwise, no can do: return ctxt.handleUnexpectedToken(_valueClass, p); } /** * As mentioned in class Javadoc, there is additional complexity in * handling potentially mixed type information here. Because of this, * we must actually check for "raw" integers and doubles first, before * calling type deserializer. */ @Override public Object deserializeWithType(JsonParser p, DeserializationContext ctxt, TypeDeserializer typeDeserializer) throws IOException { switch (p.getCurrentTokenId()) { case JsonTokenId.ID_NUMBER_INT: case JsonTokenId.ID_NUMBER_FLOAT: case JsonTokenId.ID_STRING: // cannot point to type information: hence must be non-typed (int/double) return deserialize(p, ctxt); } return typeDeserializer.deserializeTypedFromScalar(p, ctxt); } } /* /********************************************************** /* And then bit more complicated (but non-structured) number /* types /********************************************************** */ /** * This is bit trickier to implement efficiently, while avoiding * overflow problems. */ @SuppressWarnings("serial") @JacksonStdImpl public static class BigIntegerDeserializer extends StdScalarDeserializer { public final static BigIntegerDeserializer instance = new BigIntegerDeserializer(); public BigIntegerDeserializer() { super(BigInteger.class); } @Override public Object getEmptyValue(DeserializationContext ctxt) { return BigInteger.ZERO; } @SuppressWarnings("incomplete-switch") @Override public BigInteger deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { switch (p.getCurrentTokenId()) { case JsonTokenId.ID_NUMBER_INT: switch (p.getNumberType()) { case INT: case LONG: case BIG_INTEGER: return p.getBigIntegerValue(); } break; case JsonTokenId.ID_NUMBER_FLOAT: if (!ctxt.isEnabled(DeserializationFeature.ACCEPT_FLOAT_AS_INT)) { _failDoubleToIntCoercion(p, ctxt, "java.math.BigInteger"); } return p.getDecimalValue().toBigInteger(); case JsonTokenId.ID_START_ARRAY: return _deserializeFromArray(p, ctxt); case JsonTokenId.ID_STRING: // let's do implicit re-parse String text = p.getText().trim(); // note: no need to call `coerce` as this is never primitive if (_isEmptyOrTextualNull(text)) { _verifyNullForScalarCoercion(ctxt, text); return getNullValue(ctxt); } _verifyStringForScalarCoercion(ctxt, text); try { return new BigInteger(text); } catch (IllegalArgumentException iae) { } return (BigInteger) ctxt.handleWeirdStringValue(_valueClass, text, "not a valid representation"); } // String is ok too, can easily convert; otherwise, no can do: return (BigInteger) ctxt.handleUnexpectedToken(_valueClass, p); } } @SuppressWarnings("serial") @JacksonStdImpl public static class BigDecimalDeserializer extends StdScalarDeserializer { public final static BigDecimalDeserializer instance = new BigDecimalDeserializer(); public BigDecimalDeserializer() { super(BigDecimal.class); } @Override public Object getEmptyValue(DeserializationContext ctxt) { return BigDecimal.ZERO; } @Override public BigDecimal deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { switch (p.getCurrentTokenId()) { case JsonTokenId.ID_NUMBER_INT: case JsonTokenId.ID_NUMBER_FLOAT: return p.getDecimalValue(); case JsonTokenId.ID_STRING: String text = p.getText().trim(); // note: no need to call `coerce` as this is never primitive if (_isEmptyOrTextualNull(text)) { _verifyNullForScalarCoercion(ctxt, text); return getNullValue(ctxt); } _verifyStringForScalarCoercion(ctxt, text); try { return new BigDecimal(text); } catch (IllegalArgumentException iae) { } return (BigDecimal) ctxt.handleWeirdStringValue(_valueClass, text, "not a valid representation"); case JsonTokenId.ID_START_ARRAY: return _deserializeFromArray(p, ctxt); } // Otherwise, no can do: return (BigDecimal) ctxt.handleUnexpectedToken(_valueClass, p); } } }