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package com.fitbur.jackson.core.json;

import java.io.*;

import com.fitbur.jackson.core.*;
import com.fitbur.jackson.core.base.ParserBase;
import com.fitbur.jackson.core.io.CharTypes;
import com.fitbur.jackson.core.io.IOContext;
import com.fitbur.jackson.core.sym.CharsToNameCanonicalizer;
import com.fitbur.jackson.core.util.*;

import static com.fitbur.jackson.core.JsonTokenId.*;

/**
 * This is a concrete implementation of {@link JsonParser}, which is
 * based on a {@link java.io.Reader} to handle low-level character
 * conversion tasks.
 */
public class ReaderBasedJsonParser // final in 2.3, earlier
    extends ParserBase
{
    // Latin1 encoding is not supported, but we do use 8-bit subset for
    // pre-processing task, to simplify first pass, keep it fast.
    protected final static int[] _icLatin1 = CharTypes.getInputCodeLatin1();

    /*
    /**********************************************************
    /* Input configuration
    /**********************************************************
     */

    /**
     * Reader that can be used for reading more content, if one
     * buffer from input source, but in some cases pre-loaded buffer
     * is handed to the parser.
     */
    protected Reader _reader;

    /**
     * Current buffer from which data is read; generally data is read into
     * buffer from input source.
     */
    protected char[] _inputBuffer;

    /**
     * Flag that indicates whether the input buffer is recycable (and
     * needs to be returned to recycler once we are done) or not.
     *

* If it is not, it also means that parser can NOT modify underlying * buffer. */ protected boolean _bufferRecyclable; /* /********************************************************** /* Configuration /********************************************************** */ protected ObjectCodec _objectCodec; final protected CharsToNameCanonicalizer _symbols; final protected int _hashSeed; /* /********************************************************** /* Parsing state /********************************************************** */ /** * Flag that indicates that the current token has not yet * been fully processed, and needs to be finished for * some access (or skipped to obtain the next token) */ protected boolean _tokenIncomplete; /** * Value of {@link #_inputPtr} at the time when the first character of * name token was read. Used for calculating token location when requested; * combined with {@link #_currInputProcessed}, may be updated appropriately * as needed. * * @since 2.7 */ protected long _nameStartOffset; /** * @since 2.7 */ protected int _nameStartRow; /** * @since 2.7 */ protected int _nameStartCol; /* /********************************************************** /* Life-cycle /********************************************************** */ /** * Method called when caller wants to provide input buffer directly, * and it may or may not be recyclable use standard recycle context. * * @since 2.4 */ public ReaderBasedJsonParser(IOContext ctxt, int features, Reader r, ObjectCodec codec, CharsToNameCanonicalizer st, char[] inputBuffer, int start, int end, boolean bufferRecyclable) { super(ctxt, features); _reader = r; _inputBuffer = inputBuffer; _inputPtr = start; _inputEnd = end; _objectCodec = codec; _symbols = st; _hashSeed = st.hashSeed(); _bufferRecyclable = bufferRecyclable; } /** * Method called when input comes as a {@link java.io.Reader}, and buffer allocation * can be done using default mechanism. */ public ReaderBasedJsonParser(IOContext ctxt, int features, Reader r, ObjectCodec codec, CharsToNameCanonicalizer st) { super(ctxt, features); _reader = r; _inputBuffer = ctxt.allocTokenBuffer(); _inputPtr = 0; _inputEnd = 0; _objectCodec = codec; _symbols = st; _hashSeed = st.hashSeed(); _bufferRecyclable = true; } /* /********************************************************** /* Base method defs, overrides /********************************************************** */ @Override public ObjectCodec getCodec() { return _objectCodec; } @Override public void setCodec(ObjectCodec c) { _objectCodec = c; } @Override public int releaseBuffered(Writer w) throws IOException { int count = _inputEnd - _inputPtr; if (count < 1) { return 0; } // let's just advance ptr to end int origPtr = _inputPtr; w.write(_inputBuffer, origPtr, count); return count; } @Override public Object getInputSource() { return _reader; } @Override protected boolean loadMore() throws IOException { final int bufSize = _inputEnd; _currInputProcessed += bufSize; _currInputRowStart -= bufSize; // 26-Nov-2015, tatu: Since name-offset requires it too, must offset // this increase to avoid "moving" name-offset, resulting most likely // in negative value, which is fine as combine value remains unchanged. _nameStartOffset -= bufSize; if (_reader != null) { int count = _reader.read(_inputBuffer, 0, _inputBuffer.length); if (count > 0) { _inputPtr = 0; _inputEnd = count; return true; } // End of input _closeInput(); // Should never return 0, so let's fail if (count == 0) { throw new IOException("Reader returned 0 characters when trying to read "+_inputEnd); } } return false; } protected char getNextChar(String eofMsg) throws IOException { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(eofMsg); } } return _inputBuffer[_inputPtr++]; } @Override protected void _closeInput() throws IOException { /* 25-Nov-2008, tatus: As per [JACKSON-16] we are not to call close() * on the underlying Reader, unless we "own" it, or auto-closing * feature is enabled. * One downside is that when using our optimized * Reader (granted, we only do that for UTF-32...) this * means that buffer recycling won't work correctly. */ if (_reader != null) { if (_ioContext.isResourceManaged() || isEnabled(Feature.AUTO_CLOSE_SOURCE)) { _reader.close(); } _reader = null; } } /** * 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). */ @Override protected void _releaseBuffers() throws IOException { super._releaseBuffers(); // merge new symbols, if any _symbols.release(); // and release buffers, if they are recyclable ones if (_bufferRecyclable) { char[] buf = _inputBuffer; if (buf != null) { _inputBuffer = null; _ioContext.releaseTokenBuffer(buf); } } } /* /********************************************************** /* Public API, data access /********************************************************** */ /** * Method for accessing textual representation of the current event; * if no current event (before first call to {@link #nextToken}, or * after encountering end-of-input), returns null. * Method can be called for any event. */ @Override public final String getText() throws IOException { JsonToken t = _currToken; if (t == JsonToken.VALUE_STRING) { if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } return _textBuffer.contentsAsString(); } return _getText2(t); } // // // Let's override default impls for improved performance // @since 2.1 @Override public final String getValueAsString() throws IOException { if (_currToken == JsonToken.VALUE_STRING) { if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } return _textBuffer.contentsAsString(); } if (_currToken == JsonToken.FIELD_NAME) { return getCurrentName(); } return super.getValueAsString(null); } // @since 2.1 @Override public final String getValueAsString(String defValue) throws IOException { if (_currToken == JsonToken.VALUE_STRING) { if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } return _textBuffer.contentsAsString(); } if (_currToken == JsonToken.FIELD_NAME) { return getCurrentName(); } return super.getValueAsString(defValue); } protected final String _getText2(JsonToken t) { if (t == null) { return null; } switch (t.id()) { case ID_FIELD_NAME: return _parsingContext.getCurrentName(); case ID_STRING: // fall through case ID_NUMBER_INT: case ID_NUMBER_FLOAT: return _textBuffer.contentsAsString(); default: return t.asString(); } } @Override public final char[] getTextCharacters() throws IOException { if (_currToken != null) { // null only before/after document switch (_currToken.id()) { case ID_FIELD_NAME: if (!_nameCopied) { String name = _parsingContext.getCurrentName(); int nameLen = name.length(); if (_nameCopyBuffer == null) { _nameCopyBuffer = _ioContext.allocNameCopyBuffer(nameLen); } else if (_nameCopyBuffer.length < nameLen) { _nameCopyBuffer = new char[nameLen]; } name.getChars(0, nameLen, _nameCopyBuffer, 0); _nameCopied = true; } return _nameCopyBuffer; case ID_STRING: if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } // fall through case ID_NUMBER_INT: case ID_NUMBER_FLOAT: return _textBuffer.getTextBuffer(); default: return _currToken.asCharArray(); } } return null; } @Override public final int getTextLength() throws IOException { if (_currToken != null) { // null only before/after document switch (_currToken.id()) { case ID_FIELD_NAME: return _parsingContext.getCurrentName().length(); case ID_STRING: if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } // fall through case ID_NUMBER_INT: case ID_NUMBER_FLOAT: return _textBuffer.size(); default: return _currToken.asCharArray().length; } } return 0; } @Override public final int getTextOffset() throws IOException { // Most have offset of 0, only some may have other values: if (_currToken != null) { switch (_currToken.id()) { case ID_FIELD_NAME: return 0; case ID_STRING: if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); // only strings can be incomplete } // fall through case ID_NUMBER_INT: case ID_NUMBER_FLOAT: return _textBuffer.getTextOffset(); default: } } return 0; } @Override public byte[] getBinaryValue(Base64Variant b64variant) throws IOException { if (_currToken != JsonToken.VALUE_STRING && (_currToken != JsonToken.VALUE_EMBEDDED_OBJECT || _binaryValue == null)) { _reportError("Current token ("+_currToken+") not VALUE_STRING or VALUE_EMBEDDED_OBJECT, can not access as binary"); } /* To ensure that we won't see inconsistent data, better clear up * state... */ if (_tokenIncomplete) { try { _binaryValue = _decodeBase64(b64variant); } catch (IllegalArgumentException iae) { throw _constructError("Failed to decode VALUE_STRING as base64 ("+b64variant+"): "+iae.getMessage()); } /* let's clear incomplete only now; allows for accessing other * textual content in error cases */ _tokenIncomplete = false; } else { // may actually require conversion... if (_binaryValue == null) { @SuppressWarnings("resource") ByteArrayBuilder builder = _getByteArrayBuilder(); _decodeBase64(getText(), builder, b64variant); _binaryValue = builder.toByteArray(); } } return _binaryValue; } @Override public int readBinaryValue(Base64Variant b64variant, OutputStream out) throws IOException { // if we have already read the token, just use whatever we may have if (!_tokenIncomplete || _currToken != JsonToken.VALUE_STRING) { byte[] b = getBinaryValue(b64variant); out.write(b); return b.length; } // otherwise do "real" incremental parsing... byte[] buf = _ioContext.allocBase64Buffer(); try { return _readBinary(b64variant, out, buf); } finally { _ioContext.releaseBase64Buffer(buf); } } protected int _readBinary(Base64Variant b64variant, OutputStream out, byte[] buffer) throws IOException { int outputPtr = 0; final int outputEnd = buffer.length - 3; int outputCount = 0; while (true) { // first, we'll skip preceding white space, if any char ch; do { if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; } while (ch <= INT_SPACE); int bits = b64variant.decodeBase64Char(ch); if (bits < 0) { // reached the end, fair and square? if (ch == '"') { break; } bits = _decodeBase64Escape(b64variant, ch, 0); if (bits < 0) { // white space to skip continue; } } // enough room? If not, flush if (outputPtr > outputEnd) { outputCount += outputPtr; out.write(buffer, 0, outputPtr); outputPtr = 0; } int decodedData = bits; // then second base64 char; can't get padding yet, nor ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); if (bits < 0) { bits = _decodeBase64Escape(b64variant, ch, 1); } decodedData = (decodedData << 6) | bits; // third base64 char; can be padding, but not ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); // First branch: can get padding (-> 1 byte) if (bits < 0) { if (bits != Base64Variant.BASE64_VALUE_PADDING) { // as per [JACKSON-631], could also just be 'missing' padding if (ch == '"' && !b64variant.usesPadding()) { decodedData >>= 4; buffer[outputPtr++] = (byte) decodedData; break; } bits = _decodeBase64Escape(b64variant, ch, 2); } if (bits == Base64Variant.BASE64_VALUE_PADDING) { // Ok, must get padding if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; if (!b64variant.usesPaddingChar(ch)) { throw reportInvalidBase64Char(b64variant, ch, 3, "expected padding character '"+b64variant.getPaddingChar()+"'"); } // Got 12 bits, only need 8, need to shift decodedData >>= 4; buffer[outputPtr++] = (byte) decodedData; continue; } } // Nope, 2 or 3 bytes decodedData = (decodedData << 6) | bits; // fourth and last base64 char; can be padding, but not ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); if (bits < 0) { if (bits != Base64Variant.BASE64_VALUE_PADDING) { // as per [JACKSON-631], could also just be 'missing' padding if (ch == '"' && !b64variant.usesPadding()) { decodedData >>= 2; buffer[outputPtr++] = (byte) (decodedData >> 8); buffer[outputPtr++] = (byte) decodedData; break; } bits = _decodeBase64Escape(b64variant, ch, 3); } if (bits == Base64Variant.BASE64_VALUE_PADDING) { /* With padding we only get 2 bytes; but we have * to shift it a bit so it is identical to triplet * case with partial output. * 3 chars gives 3x6 == 18 bits, of which 2 are * dummies, need to discard: */ decodedData >>= 2; buffer[outputPtr++] = (byte) (decodedData >> 8); buffer[outputPtr++] = (byte) decodedData; continue; } } // otherwise, our triplet is now complete decodedData = (decodedData << 6) | bits; buffer[outputPtr++] = (byte) (decodedData >> 16); buffer[outputPtr++] = (byte) (decodedData >> 8); buffer[outputPtr++] = (byte) decodedData; } _tokenIncomplete = false; if (outputPtr > 0) { outputCount += outputPtr; out.write(buffer, 0, outputPtr); } return outputCount; } /* /********************************************************** /* Public API, traversal /********************************************************** */ /** * @return Next token from the stream, if any found, or null * to indicate end-of-input */ @Override public final JsonToken nextToken() throws IOException { /* First: field names are special -- we will always tokenize * (part of) value along with field name to simplify * state handling. If so, can and need to use secondary token: */ if (_currToken == JsonToken.FIELD_NAME) { return _nextAfterName(); } // But if we didn't already have a name, and (partially?) decode number, // need to ensure no numeric information is leaked _numTypesValid = NR_UNKNOWN; if (_tokenIncomplete) { _skipString(); // only strings can be partial } int i = _skipWSOrEnd(); if (i < 0) { // end-of-input /* 19-Feb-2009, tatu: Should actually close/release things * like input source, symbol table and recyclable buffers now. */ close(); return (_currToken = null); } // clear any data retained so far _binaryValue = null; // Closing scope? if (i == INT_RBRACKET) { _updateLocation(); if (!_parsingContext.inArray()) { _reportMismatchedEndMarker(i, '}'); } _parsingContext = _parsingContext.clearAndGetParent(); return (_currToken = JsonToken.END_ARRAY); } if (i == INT_RCURLY) { _updateLocation(); if (!_parsingContext.inObject()) { _reportMismatchedEndMarker(i, ']'); } _parsingContext = _parsingContext.clearAndGetParent(); return (_currToken = JsonToken.END_OBJECT); } // Nope: do we then expect a comma? if (_parsingContext.expectComma()) { i = _skipComma(i); } /* And should we now have a name? Always true for Object contexts, since * the intermediate 'expect-value' state is never retained. */ boolean inObject = _parsingContext.inObject(); if (inObject) { // First, field name itself: _updateNameLocation(); String name = (i == INT_QUOTE) ? _parseName() : _handleOddName(i); _parsingContext.setCurrentName(name); _currToken = JsonToken.FIELD_NAME; i = _skipColon(); } _updateLocation(); // Ok: we must have a value... what is it? JsonToken t; switch (i) { case '"': _tokenIncomplete = true; t = JsonToken.VALUE_STRING; break; case '[': if (!inObject) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } t = JsonToken.START_ARRAY; break; case '{': if (!inObject) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } t = JsonToken.START_OBJECT; break; case ']': case '}': // Error: neither is valid at this point; valid closers have // been handled earlier _reportUnexpectedChar(i, "expected a value"); case 't': _matchTrue(); t = JsonToken.VALUE_TRUE; break; case 'f': _matchFalse(); t = JsonToken.VALUE_FALSE; break; case 'n': _matchNull(); t = JsonToken.VALUE_NULL; break; case '-': /* Should we have separate handling for plus? Although * it is not allowed per se, it may be erroneously used, * and could be indicate by a more specific error message. */ t = _parseNegNumber(); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': t = _parsePosNumber(i); break; default: t = _handleOddValue(i); break; } if (inObject) { _nextToken = t; return _currToken; } _currToken = t; return t; } private final JsonToken _nextAfterName() { _nameCopied = false; // need to invalidate if it was copied JsonToken t = _nextToken; _nextToken = null; // !!! 16-Nov-2015, tatu: TODO: fix [databind#37], copy next location to current here // Also: may need to start new context? if (t == JsonToken.START_ARRAY) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } else if (t == JsonToken.START_OBJECT) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } return (_currToken = t); } /* /********************************************************** /* Public API, nextXxx() overrides /********************************************************** */ // Implemented since 2.7 @Override public boolean nextFieldName(SerializableString sstr) throws IOException { // // // Note: most of code below is copied from nextToken() _numTypesValid = NR_UNKNOWN; if (_currToken == JsonToken.FIELD_NAME) { _nextAfterName(); return false; } if (_tokenIncomplete) { _skipString(); } int i = _skipWSOrEnd(); if (i < 0) { close(); _currToken = null; return false; } _binaryValue = null; if (i == INT_RBRACKET) { _updateLocation(); if (!_parsingContext.inArray()) { _reportMismatchedEndMarker(i, '}'); } _parsingContext = _parsingContext.clearAndGetParent(); _currToken = JsonToken.END_ARRAY; return false; } if (i == INT_RCURLY) { _updateLocation(); if (!_parsingContext.inObject()) { _reportMismatchedEndMarker(i, ']'); } _parsingContext = _parsingContext.clearAndGetParent(); _currToken = JsonToken.END_OBJECT; return false; } if (_parsingContext.expectComma()) { i = _skipComma(i); } if (!_parsingContext.inObject()) { _updateLocation(); _nextTokenNotInObject(i); return false; } _updateNameLocation(); if (i == INT_QUOTE) { // when doing literal match, must consider escaping: char[] nameChars = sstr.asQuotedChars(); final int len = nameChars.length; // Require 4 more bytes for faster skipping of colon that follows name if ((_inputPtr + len + 4) < _inputEnd) { // maybe... // first check length match by final int end = _inputPtr+len; if (_inputBuffer[end] == '"') { int offset = 0; int ptr = _inputPtr; while (true) { if (ptr == end) { // yes, match! _parsingContext.setCurrentName(sstr.getValue()); _isNextTokenNameYes(_skipColonFast(ptr+1)); return true; } if (nameChars[offset] != _inputBuffer[ptr]) { break; } ++offset; ++ptr; } } } } return _isNextTokenNameMaybe(i, sstr.getValue()); } @Override public String nextFieldName() throws IOException { // // // Note: this is almost a verbatim copy of nextToken() (minus comments) _numTypesValid = NR_UNKNOWN; if (_currToken == JsonToken.FIELD_NAME) { _nextAfterName(); return null; } if (_tokenIncomplete) { _skipString(); } int i = _skipWSOrEnd(); if (i < 0) { close(); _currToken = null; return null; } _binaryValue = null; if (i == INT_RBRACKET) { _updateLocation(); if (!_parsingContext.inArray()) { _reportMismatchedEndMarker(i, '}'); } _parsingContext = _parsingContext.clearAndGetParent(); _currToken = JsonToken.END_ARRAY; return null; } if (i == INT_RCURLY) { _updateLocation(); if (!_parsingContext.inObject()) { _reportMismatchedEndMarker(i, ']'); } _parsingContext = _parsingContext.clearAndGetParent(); _currToken = JsonToken.END_OBJECT; return null; } if (_parsingContext.expectComma()) { i = _skipComma(i); } if (!_parsingContext.inObject()) { _updateLocation(); _nextTokenNotInObject(i); return null; } _updateNameLocation(); String name = (i == INT_QUOTE) ? _parseName() : _handleOddName(i); _parsingContext.setCurrentName(name); _currToken = JsonToken.FIELD_NAME; i = _skipColon(); _updateLocation(); if (i == INT_QUOTE) { _tokenIncomplete = true; _nextToken = JsonToken.VALUE_STRING; return name; } // Ok: we must have a value... what is it? JsonToken t; switch (i) { case '-': t = _parseNegNumber(); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': t = _parsePosNumber(i); break; case 'f': _matchFalse(); t = JsonToken.VALUE_FALSE; break; case 'n': _matchNull(); t = JsonToken.VALUE_NULL; break; case 't': _matchTrue(); t = JsonToken.VALUE_TRUE; break; case '[': t = JsonToken.START_ARRAY; break; case '{': t = JsonToken.START_OBJECT; break; default: t = _handleOddValue(i); break; } _nextToken = t; return name; } private final void _isNextTokenNameYes(int i) throws IOException { _currToken = JsonToken.FIELD_NAME; _updateLocation(); switch (i) { case '"': _tokenIncomplete = true; _nextToken = JsonToken.VALUE_STRING; return; case '[': _nextToken = JsonToken.START_ARRAY; return; case '{': _nextToken = JsonToken.START_OBJECT; return; case 't': _matchToken("true", 1); _nextToken = JsonToken.VALUE_TRUE; return; case 'f': _matchToken("false", 1); _nextToken = JsonToken.VALUE_FALSE; return; case 'n': _matchToken("null", 1); _nextToken = JsonToken.VALUE_NULL; return; case '-': _nextToken = _parseNegNumber(); return; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': _nextToken = _parsePosNumber(i); return; } _nextToken = _handleOddValue(i); } protected boolean _isNextTokenNameMaybe(int i, String nameToMatch) throws IOException { // // // and this is back to standard nextToken() String name = (i == INT_QUOTE) ? _parseName() : _handleOddName(i); _parsingContext.setCurrentName(name); _currToken = JsonToken.FIELD_NAME; i = _skipColon(); _updateLocation(); if (i == INT_QUOTE) { _tokenIncomplete = true; _nextToken = JsonToken.VALUE_STRING; return nameToMatch.equals(name); } // Ok: we must have a value... what is it? JsonToken t; switch (i) { case '-': t = _parseNegNumber(); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': t = _parsePosNumber(i); break; case 'f': _matchFalse(); t = JsonToken.VALUE_FALSE; break; case 'n': _matchNull(); t = JsonToken.VALUE_NULL; break; case 't': _matchTrue(); t = JsonToken.VALUE_TRUE; break; case '[': t = JsonToken.START_ARRAY; break; case '{': t = JsonToken.START_OBJECT; break; default: t = _handleOddValue(i); break; } _nextToken = t; return nameToMatch.equals(name); } private final JsonToken _nextTokenNotInObject(int i) throws IOException { if (i == INT_QUOTE) { _tokenIncomplete = true; return (_currToken = JsonToken.VALUE_STRING); } switch (i) { case '[': _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); return (_currToken = JsonToken.START_ARRAY); case '{': _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); return (_currToken = JsonToken.START_OBJECT); case 't': _matchToken("true", 1); return (_currToken = JsonToken.VALUE_TRUE); case 'f': _matchToken("false", 1); return (_currToken = JsonToken.VALUE_FALSE); case 'n': _matchToken("null", 1); return (_currToken = JsonToken.VALUE_NULL); case '-': return (_currToken = _parseNegNumber()); /* Should we have separate handling for plus? Although * it is not allowed per se, it may be erroneously used, * and could be indicated by a more specific error message. */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': return (_currToken = _parsePosNumber(i)); } return (_currToken = _handleOddValue(i)); } // note: identical to one in UTF8StreamJsonParser @Override public final String nextTextValue() throws IOException { if (_currToken == JsonToken.FIELD_NAME) { // mostly copied from '_nextAfterName' _nameCopied = false; JsonToken t = _nextToken; _nextToken = null; _currToken = t; if (t == JsonToken.VALUE_STRING) { if (_tokenIncomplete) { _tokenIncomplete = false; _finishString(); } return _textBuffer.contentsAsString(); } if (t == JsonToken.START_ARRAY) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } else if (t == JsonToken.START_OBJECT) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } return null; } // !!! TODO: optimize this case as well return (nextToken() == JsonToken.VALUE_STRING) ? getText() : null; } // note: identical to one in Utf8StreamParser @Override public final int nextIntValue(int defaultValue) throws IOException { if (_currToken == JsonToken.FIELD_NAME) { _nameCopied = false; JsonToken t = _nextToken; _nextToken = null; _currToken = t; if (t == JsonToken.VALUE_NUMBER_INT) { return getIntValue(); } if (t == JsonToken.START_ARRAY) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } else if (t == JsonToken.START_OBJECT) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } return defaultValue; } // !!! TODO: optimize this case as well return (nextToken() == JsonToken.VALUE_NUMBER_INT) ? getIntValue() : defaultValue; } // note: identical to one in Utf8StreamParser @Override public final long nextLongValue(long defaultValue) throws IOException { if (_currToken == JsonToken.FIELD_NAME) { // mostly copied from '_nextAfterName' _nameCopied = false; JsonToken t = _nextToken; _nextToken = null; _currToken = t; if (t == JsonToken.VALUE_NUMBER_INT) { return getLongValue(); } if (t == JsonToken.START_ARRAY) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } else if (t == JsonToken.START_OBJECT) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } return defaultValue; } // !!! TODO: optimize this case as well return (nextToken() == JsonToken.VALUE_NUMBER_INT) ? getLongValue() : defaultValue; } // note: identical to one in UTF8StreamJsonParser @Override public final Boolean nextBooleanValue() throws IOException { if (_currToken == JsonToken.FIELD_NAME) { // mostly copied from '_nextAfterName' _nameCopied = false; JsonToken t = _nextToken; _nextToken = null; _currToken = t; if (t == JsonToken.VALUE_TRUE) { return Boolean.TRUE; } if (t == JsonToken.VALUE_FALSE) { return Boolean.FALSE; } if (t == JsonToken.START_ARRAY) { _parsingContext = _parsingContext.createChildArrayContext(_tokenInputRow, _tokenInputCol); } else if (t == JsonToken.START_OBJECT) { _parsingContext = _parsingContext.createChildObjectContext(_tokenInputRow, _tokenInputCol); } return null; } JsonToken t = nextToken(); if (t != null) { int id = t.id(); if (id == ID_TRUE) return Boolean.TRUE; if (id == ID_FALSE) return Boolean.FALSE; } return null; } /* /********************************************************** /* Internal methods, number parsing /********************************************************** */ /** * Initial parsing method for number values. It needs to be able * to parse enough input to be able to determine whether the * value is to be considered a simple integer value, or a more * generic decimal value: latter of which needs to be expressed * as a floating point number. The basic rule is that if the number * has no fractional or exponential part, it is an integer; otherwise * a floating point number. *

* Because much of input has to be processed in any case, no partial * parsing is done: all input text will be stored for further * processing. However, actual numeric value conversion will be * deferred, since it is usually the most complicated and costliest * part of processing. */ protected final JsonToken _parsePosNumber(int ch) throws IOException { /* Although we will always be complete with respect to textual * representation (that is, all characters will be parsed), * actual conversion to a number is deferred. Thus, need to * note that no representations are valid yet */ int ptr = _inputPtr; int startPtr = ptr-1; // to include digit already read final int inputLen = _inputEnd; // One special case, leading zero(es): if (ch == INT_0) { return _parseNumber2(false, startPtr); } /* First, let's see if the whole number is contained within * the input buffer unsplit. This should be the common case; * and to simplify processing, we will just reparse contents * in the alternative case (number split on buffer boundary) */ int intLen = 1; // already got one // First let's get the obligatory integer part: int_loop: while (true) { if (ptr >= inputLen) { _inputPtr = startPtr; return _parseNumber2(false, startPtr); } ch = (int) _inputBuffer[ptr++]; if (ch < INT_0 || ch > INT_9) { break int_loop; } ++intLen; } if (ch == INT_PERIOD || ch == INT_e || ch == INT_E) { _inputPtr = ptr; return _parseFloat(ch, startPtr, ptr, false, intLen); } // Got it all: let's add to text buffer for parsing, access --ptr; // need to push back following separator _inputPtr = ptr; // As per #105, need separating space between root values; check here if (_parsingContext.inRoot()) { _verifyRootSpace(ch); } int len = ptr-startPtr; _textBuffer.resetWithShared(_inputBuffer, startPtr, len); return resetInt(false, intLen); } private final JsonToken _parseFloat(int ch, int startPtr, int ptr, boolean neg, int intLen) throws IOException { final int inputLen = _inputEnd; int fractLen = 0; // And then see if we get other parts if (ch == '.') { // yes, fraction fract_loop: while (true) { if (ptr >= inputLen) { return _parseNumber2(neg, startPtr); } ch = (int) _inputBuffer[ptr++]; if (ch < INT_0 || ch > INT_9) { break fract_loop; } ++fractLen; } // must be followed by sequence of ints, one minimum if (fractLen == 0) { reportUnexpectedNumberChar(ch, "Decimal point not followed by a digit"); } } int expLen = 0; if (ch == 'e' || ch == 'E') { // and/or exponent if (ptr >= inputLen) { _inputPtr = startPtr; return _parseNumber2(neg, startPtr); } // Sign indicator? ch = (int) _inputBuffer[ptr++]; if (ch == INT_MINUS || ch == INT_PLUS) { // yup, skip for now if (ptr >= inputLen) { _inputPtr = startPtr; return _parseNumber2(neg, startPtr); } ch = (int) _inputBuffer[ptr++]; } while (ch <= INT_9 && ch >= INT_0) { ++expLen; if (ptr >= inputLen) { _inputPtr = startPtr; return _parseNumber2(neg, startPtr); } ch = (int) _inputBuffer[ptr++]; } // must be followed by sequence of ints, one minimum if (expLen == 0) { reportUnexpectedNumberChar(ch, "Exponent indicator not followed by a digit"); } } --ptr; // need to push back following separator _inputPtr = ptr; // As per #105, need separating space between root values; check here if (_parsingContext.inRoot()) { _verifyRootSpace(ch); } int len = ptr-startPtr; _textBuffer.resetWithShared(_inputBuffer, startPtr, len); // And there we have it! return resetFloat(neg, intLen, fractLen, expLen); } protected final JsonToken _parseNegNumber() throws IOException { int ptr = _inputPtr; int startPtr = ptr-1; // to include sign/digit already read final int inputLen = _inputEnd; if (ptr >= inputLen) { return _parseNumber2(true, startPtr); } int ch = _inputBuffer[ptr++]; // First check: must have a digit to follow minus sign if (ch > INT_9 || ch < INT_0) { _inputPtr = ptr; return _handleInvalidNumberStart(ch, true); } // One special case, leading zero(es): if (ch == INT_0) { return _parseNumber2(true, startPtr); } int intLen = 1; // already got one // First let's get the obligatory integer part: int_loop: while (true) { if (ptr >= inputLen) { return _parseNumber2(true, startPtr); } ch = (int) _inputBuffer[ptr++]; if (ch < INT_0 || ch > INT_9) { break int_loop; } ++intLen; } if (ch == INT_PERIOD || ch == INT_e || ch == INT_E) { _inputPtr = ptr; return _parseFloat(ch, startPtr, ptr, true, intLen); } --ptr; _inputPtr = ptr; if (_parsingContext.inRoot()) { _verifyRootSpace(ch); } int len = ptr-startPtr; _textBuffer.resetWithShared(_inputBuffer, startPtr, len); return resetInt(true, intLen); } /** * Method called to parse a number, when the primary parse * method has failed to parse it, due to it being split on * buffer boundary. As a result code is very similar, except * that it has to explicitly copy contents to the text buffer * instead of just sharing the main input buffer. */ private final JsonToken _parseNumber2(boolean neg, int startPtr) throws IOException { _inputPtr = neg ? (startPtr+1) : startPtr; char[] outBuf = _textBuffer.emptyAndGetCurrentSegment(); int outPtr = 0; // Need to prepend sign? if (neg) { outBuf[outPtr++] = '-'; } // This is the place to do leading-zero check(s) too: int intLen = 0; char c = (_inputPtr < _inputEnd) ? _inputBuffer[_inputPtr++] : getNextChar("No digit following minus sign"); if (c == '0') { c = _verifyNoLeadingZeroes(); } boolean eof = false; // Ok, first the obligatory integer part: int_loop: while (c >= '0' && c <= '9') { ++intLen; if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; if (_inputPtr >= _inputEnd && !loadMore()) { // EOF is legal for main level int values c = CHAR_NULL; eof = true; break int_loop; } c = _inputBuffer[_inputPtr++]; } // Also, integer part is not optional if (intLen == 0) { return _handleInvalidNumberStart(c, neg); } int fractLen = 0; // And then see if we get other parts if (c == '.') { // yes, fraction outBuf[outPtr++] = c; fract_loop: while (true) { if (_inputPtr >= _inputEnd && !loadMore()) { eof = true; break fract_loop; } c = _inputBuffer[_inputPtr++]; if (c < INT_0 || c > INT_9) { break fract_loop; } ++fractLen; if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; } // must be followed by sequence of ints, one minimum if (fractLen == 0) { reportUnexpectedNumberChar(c, "Decimal point not followed by a digit"); } } int expLen = 0; if (c == 'e' || c == 'E') { // exponent? if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; // Not optional, can require that we get one more char c = (_inputPtr < _inputEnd) ? _inputBuffer[_inputPtr++] : getNextChar("expected a digit for number exponent"); // Sign indicator? if (c == '-' || c == '+') { if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; // Likewise, non optional: c = (_inputPtr < _inputEnd) ? _inputBuffer[_inputPtr++] : getNextChar("expected a digit for number exponent"); } exp_loop: while (c <= INT_9 && c >= INT_0) { ++expLen; if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; if (_inputPtr >= _inputEnd && !loadMore()) { eof = true; break exp_loop; } c = _inputBuffer[_inputPtr++]; } // must be followed by sequence of ints, one minimum if (expLen == 0) { reportUnexpectedNumberChar(c, "Exponent indicator not followed by a digit"); } } // Ok; unless we hit end-of-input, need to push last char read back if (!eof) { --_inputPtr; if (_parsingContext.inRoot()) { _verifyRootSpace(c); } } _textBuffer.setCurrentLength(outPtr); // And there we have it! return reset(neg, intLen, fractLen, expLen); } /** * Method called when we have seen one zero, and want to ensure * it is not followed by another */ private final char _verifyNoLeadingZeroes() throws IOException { // Fast case first: if (_inputPtr < _inputEnd) { char ch = _inputBuffer[_inputPtr]; // if not followed by a number (probably '.'); return zero as is, to be included if (ch < '0' || ch > '9') { return '0'; } } // and offline the less common case return _verifyNLZ2(); } private char _verifyNLZ2() throws IOException { if (_inputPtr >= _inputEnd && !loadMore()) { return '0'; } char ch = _inputBuffer[_inputPtr]; if (ch < '0' || ch > '9') { return '0'; } if (!isEnabled(Feature.ALLOW_NUMERIC_LEADING_ZEROS)) { reportInvalidNumber("Leading zeroes not allowed"); } // if so, just need to skip either all zeroes (if followed by number); or all but one (if non-number) ++_inputPtr; // Leading zero to be skipped if (ch == INT_0) { while (_inputPtr < _inputEnd || loadMore()) { ch = _inputBuffer[_inputPtr]; if (ch < '0' || ch > '9') { // followed by non-number; retain one zero return '0'; } ++_inputPtr; // skip previous zero if (ch != '0') { // followed by other number; return break; } } } return ch; } /** * Method called if expected numeric value (due to leading sign) does not * look like a number */ protected JsonToken _handleInvalidNumberStart(int ch, boolean negative) throws IOException { if (ch == 'I') { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOFInValue(); } } ch = _inputBuffer[_inputPtr++]; if (ch == 'N') { String match = negative ? "-INF" :"+INF"; _matchToken(match, 3); if (isEnabled(Feature.ALLOW_NON_NUMERIC_NUMBERS)) { return resetAsNaN(match, negative ? Double.NEGATIVE_INFINITY : Double.POSITIVE_INFINITY); } _reportError("Non-standard token '"+match+"': enable JsonParser.Feature.ALLOW_NON_NUMERIC_NUMBERS to allow"); } else if (ch == 'n') { String match = negative ? "-Infinity" :"+Infinity"; _matchToken(match, 3); if (isEnabled(Feature.ALLOW_NON_NUMERIC_NUMBERS)) { return resetAsNaN(match, negative ? Double.NEGATIVE_INFINITY : Double.POSITIVE_INFINITY); } _reportError("Non-standard token '"+match+"': enable JsonParser.Feature.ALLOW_NON_NUMERIC_NUMBERS to allow"); } } reportUnexpectedNumberChar(ch, "expected digit (0-9) to follow minus sign, for valid numeric value"); return null; } /** * Method called to ensure that a root-value is followed by a space * token. *

* NOTE: caller MUST ensure there is at least one character available; * and that input pointer is AT given char (not past) */ private final void _verifyRootSpace(int ch) throws IOException { // caller had pushed it back, before calling; reset ++_inputPtr; switch (ch) { case ' ': case '\t': return; case '\r': _skipCR(); return; case '\n': ++_currInputRow; _currInputRowStart = _inputPtr; return; } _reportMissingRootWS(ch); } /* /********************************************************** /* Internal methods, secondary parsing /********************************************************** */ protected final String _parseName() throws IOException { // First: let's try to see if we have a simple name: one that does // not cross input buffer boundary, and does not contain escape sequences. int ptr = _inputPtr; int hash = _hashSeed; final int[] codes = _icLatin1; while (ptr < _inputEnd) { int ch = _inputBuffer[ptr]; if (ch < codes.length && codes[ch] != 0) { if (ch == '"') { int start = _inputPtr; _inputPtr = ptr+1; // to skip the quote return _symbols.findSymbol(_inputBuffer, start, ptr - start, hash); } break; } hash = (hash * CharsToNameCanonicalizer.HASH_MULT) + ch; ++ptr; } int start = _inputPtr; _inputPtr = ptr; return _parseName2(start, hash, INT_QUOTE); } private String _parseName2(int startPtr, int hash, int endChar) throws IOException { _textBuffer.resetWithShared(_inputBuffer, startPtr, (_inputPtr - startPtr)); /* Output pointers; calls will also ensure that the buffer is * not shared and has room for at least one more char. */ char[] outBuf = _textBuffer.getCurrentSegment(); int outPtr = _textBuffer.getCurrentSegmentSize(); while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(": was expecting closing '"+((char) endChar)+"' for name"); } } char c = _inputBuffer[_inputPtr++]; int i = (int) c; if (i <= INT_BACKSLASH) { if (i == INT_BACKSLASH) { /* Although chars outside of BMP are to be escaped as * an UTF-16 surrogate pair, does that affect decoding? * For now let's assume it does not. */ c = _decodeEscaped(); } else if (i <= endChar) { if (i == endChar) { break; } if (i < INT_SPACE) { _throwUnquotedSpace(i, "name"); } } } hash = (hash * CharsToNameCanonicalizer.HASH_MULT) + c; // Ok, let's add char to output: outBuf[outPtr++] = c; // Need more room? if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } } _textBuffer.setCurrentLength(outPtr); { TextBuffer tb = _textBuffer; char[] buf = tb.getTextBuffer(); int start = tb.getTextOffset(); int len = tb.size(); return _symbols.findSymbol(buf, start, len, hash); } } /** * Method called when we see non-white space character other * than double quote, when expecting a field name. * In standard mode will just throw an expection; but * in non-standard modes may be able to parse name. */ protected String _handleOddName(int i) throws IOException { // [JACKSON-173]: allow single quotes if (i == '\'' && isEnabled(Feature.ALLOW_SINGLE_QUOTES)) { return _parseAposName(); } // [JACKSON-69]: allow unquoted names if feature enabled: if (!isEnabled(Feature.ALLOW_UNQUOTED_FIELD_NAMES)) { _reportUnexpectedChar(i, "was expecting double-quote to start field name"); } final int[] codes = CharTypes.getInputCodeLatin1JsNames(); final int maxCode = codes.length; // Also: first char must be a valid name char, but NOT be number boolean firstOk; if (i < maxCode) { // identifier, or a number ([Issue#102]) firstOk = (codes[i] == 0); } else { firstOk = Character.isJavaIdentifierPart((char) i); } if (!firstOk) { _reportUnexpectedChar(i, "was expecting either valid name character (for unquoted name) or double-quote (for quoted) to start field name"); } int ptr = _inputPtr; int hash = _hashSeed; final int inputLen = _inputEnd; if (ptr < inputLen) { do { int ch = _inputBuffer[ptr]; if (ch < maxCode) { if (codes[ch] != 0) { int start = _inputPtr-1; // -1 to bring back first char _inputPtr = ptr; return _symbols.findSymbol(_inputBuffer, start, ptr - start, hash); } } else if (!Character.isJavaIdentifierPart((char) ch)) { int start = _inputPtr-1; // -1 to bring back first char _inputPtr = ptr; return _symbols.findSymbol(_inputBuffer, start, ptr - start, hash); } hash = (hash * CharsToNameCanonicalizer.HASH_MULT) + ch; ++ptr; } while (ptr < inputLen); } int start = _inputPtr-1; _inputPtr = ptr; return _handleOddName2(start, hash, codes); } protected String _parseAposName() throws IOException { // Note: mostly copy of_parseFieldName int ptr = _inputPtr; int hash = _hashSeed; final int inputLen = _inputEnd; if (ptr < inputLen) { final int[] codes = _icLatin1; final int maxCode = codes.length; do { int ch = _inputBuffer[ptr]; if (ch == '\'') { int start = _inputPtr; _inputPtr = ptr+1; // to skip the quote return _symbols.findSymbol(_inputBuffer, start, ptr - start, hash); } if (ch < maxCode && codes[ch] != 0) { break; } hash = (hash * CharsToNameCanonicalizer.HASH_MULT) + ch; ++ptr; } while (ptr < inputLen); } int start = _inputPtr; _inputPtr = ptr; return _parseName2(start, hash, '\''); } /** * Method for handling cases where first non-space character * of an expected value token is not legal for standard JSON content. */ protected JsonToken _handleOddValue(int i) throws IOException { // Most likely an error, unless we are to allow single-quote-strings switch (i) { case '\'': /* [JACKSON-173]: allow single quotes. Unlike with regular * Strings, we'll eagerly parse contents; this so that there's * no need to store information on quote char used. * * Also, no separation to fast/slow parsing; we'll just do * one regular (~= slowish) parsing, to keep code simple */ if (isEnabled(Feature.ALLOW_SINGLE_QUOTES)) { return _handleApos(); } break; case 'N': _matchToken("NaN", 1); if (isEnabled(Feature.ALLOW_NON_NUMERIC_NUMBERS)) { return resetAsNaN("NaN", Double.NaN); } _reportError("Non-standard token 'NaN': enable JsonParser.Feature.ALLOW_NON_NUMERIC_NUMBERS to allow"); break; case 'I': _matchToken("Infinity", 1); if (isEnabled(Feature.ALLOW_NON_NUMERIC_NUMBERS)) { return resetAsNaN("Infinity", Double.POSITIVE_INFINITY); } _reportError("Non-standard token 'Infinity': enable JsonParser.Feature.ALLOW_NON_NUMERIC_NUMBERS to allow"); break; case '+': // note: '-' is taken as number if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOFInValue(); } } return _handleInvalidNumberStart(_inputBuffer[_inputPtr++], false); } // [Issue#77] Try to decode most likely token if (Character.isJavaIdentifierStart(i)) { _reportInvalidToken(""+((char) i), "('true', 'false' or 'null')"); } // but if it doesn't look like a token: _reportUnexpectedChar(i, "expected a valid value (number, String, array, object, 'true', 'false' or 'null')"); return null; } protected JsonToken _handleApos() throws IOException { char[] outBuf = _textBuffer.emptyAndGetCurrentSegment(); int outPtr = _textBuffer.getCurrentSegmentSize(); while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(": was expecting closing quote for a string value"); } } char c = _inputBuffer[_inputPtr++]; int i = (int) c; if (i <= '\\') { if (i == '\\') { /* Although chars outside of BMP are to be escaped as * an UTF-16 surrogate pair, does that affect decoding? * For now let's assume it does not. */ c = _decodeEscaped(); } else if (i <= '\'') { if (i == '\'') { break; } if (i < INT_SPACE) { _throwUnquotedSpace(i, "string value"); } } } // Need more room? if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } // Ok, let's add char to output: outBuf[outPtr++] = c; } _textBuffer.setCurrentLength(outPtr); return JsonToken.VALUE_STRING; } private String _handleOddName2(int startPtr, int hash, int[] codes) throws IOException { _textBuffer.resetWithShared(_inputBuffer, startPtr, (_inputPtr - startPtr)); char[] outBuf = _textBuffer.getCurrentSegment(); int outPtr = _textBuffer.getCurrentSegmentSize(); final int maxCode = codes.length; while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { // acceptable for now (will error out later) break; } } char c = _inputBuffer[_inputPtr]; int i = (int) c; if (i <= maxCode) { if (codes[i] != 0) { break; } } else if (!Character.isJavaIdentifierPart(c)) { break; } ++_inputPtr; hash = (hash * CharsToNameCanonicalizer.HASH_MULT) + i; // Ok, let's add char to output: outBuf[outPtr++] = c; // Need more room? if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } } _textBuffer.setCurrentLength(outPtr); { TextBuffer tb = _textBuffer; char[] buf = tb.getTextBuffer(); int start = tb.getTextOffset(); int len = tb.size(); return _symbols.findSymbol(buf, start, len, hash); } } @Override protected final void _finishString() throws IOException { /* First: let's try to see if we have simple String value: one * that does not cross input buffer boundary, and does not * contain escape sequences. */ int ptr = _inputPtr; final int inputLen = _inputEnd; if (ptr < inputLen) { final int[] codes = _icLatin1; final int maxCode = codes.length; do { int ch = _inputBuffer[ptr]; if (ch < maxCode && codes[ch] != 0) { if (ch == '"') { _textBuffer.resetWithShared(_inputBuffer, _inputPtr, (ptr-_inputPtr)); _inputPtr = ptr+1; // Yes, we got it all return; } break; } ++ptr; } while (ptr < inputLen); } /* Either ran out of input, or bumped into an escape * sequence... */ _textBuffer.resetWithCopy(_inputBuffer, _inputPtr, (ptr-_inputPtr)); _inputPtr = ptr; _finishString2(); } protected void _finishString2() throws IOException { char[] outBuf = _textBuffer.getCurrentSegment(); int outPtr = _textBuffer.getCurrentSegmentSize(); final int[] codes = _icLatin1; final int maxCode = codes.length; while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(": was expecting closing quote for a string value"); } } char c = _inputBuffer[_inputPtr++]; int i = (int) c; if (i < maxCode && codes[i] != 0) { if (i == INT_QUOTE) { break; } else if (i == INT_BACKSLASH) { /* Although chars outside of BMP are to be escaped as * an UTF-16 surrogate pair, does that affect decoding? * For now let's assume it does not. */ c = _decodeEscaped(); } else if (i < INT_SPACE) { _throwUnquotedSpace(i, "string value"); } // anything else? } // Need more room? if (outPtr >= outBuf.length) { outBuf = _textBuffer.finishCurrentSegment(); outPtr = 0; } // Ok, let's add char to output: outBuf[outPtr++] = c; } _textBuffer.setCurrentLength(outPtr); } /** * Method called to skim through rest of unparsed String value, * if it is not needed. This can be done bit faster if contents * need not be stored for future access. */ protected final void _skipString() throws IOException { _tokenIncomplete = false; int inPtr = _inputPtr; int inLen = _inputEnd; char[] inBuf = _inputBuffer; while (true) { if (inPtr >= inLen) { _inputPtr = inPtr; if (!loadMore()) { _reportInvalidEOF(": was expecting closing quote for a string value"); } inPtr = _inputPtr; inLen = _inputEnd; } char c = inBuf[inPtr++]; int i = (int) c; if (i <= INT_BACKSLASH) { if (i == INT_BACKSLASH) { /* Although chars outside of BMP are to be escaped as * an UTF-16 surrogate pair, does that affect decoding? * For now let's assume it does not. */ _inputPtr = inPtr; c = _decodeEscaped(); inPtr = _inputPtr; inLen = _inputEnd; } else if (i <= INT_QUOTE) { if (i == INT_QUOTE) { _inputPtr = inPtr; break; } if (i < INT_SPACE) { _inputPtr = inPtr; _throwUnquotedSpace(i, "string value"); } } } } } /* /********************************************************** /* Internal methods, other parsing /********************************************************** */ /** * We actually need to check the character value here * (to see if we have \n following \r). */ protected final void _skipCR() throws IOException { if (_inputPtr < _inputEnd || loadMore()) { if (_inputBuffer[_inputPtr] == '\n') { ++_inputPtr; } } ++_currInputRow; _currInputRowStart = _inputPtr; } private final int _skipColon() throws IOException { if ((_inputPtr + 4) >= _inputEnd) { return _skipColon2(false); } char c = _inputBuffer[_inputPtr]; if (c == ':') { // common case, no leading space int i = _inputBuffer[++_inputPtr]; if (i > INT_SPACE) { // nor trailing if (i == INT_SLASH || i == INT_HASH) { return _skipColon2(true); } ++_inputPtr; return i; } if (i == INT_SPACE || i == INT_TAB) { i = (int) _inputBuffer[++_inputPtr]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { return _skipColon2(true); } ++_inputPtr; return i; } } return _skipColon2(true); // true -> skipped colon } if (c == ' ' || c == '\t') { c = _inputBuffer[++_inputPtr]; } if (c == ':') { int i = _inputBuffer[++_inputPtr]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { return _skipColon2(true); } ++_inputPtr; return i; } if (i == INT_SPACE || i == INT_TAB) { i = (int) _inputBuffer[++_inputPtr]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { return _skipColon2(true); } ++_inputPtr; return i; } } return _skipColon2(true); } return _skipColon2(false); } private final int _skipColon2(boolean gotColon) throws IOException { while (true) { if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } int i = (int) _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH) { _skipComment(); continue; } if (i == INT_HASH) { if (_skipYAMLComment()) { continue; } } if (gotColon) { return i; } if (i != INT_COLON) { if (i < INT_SPACE) { _throwInvalidSpace(i); } _reportUnexpectedChar(i, "was expecting a colon to separate field name and value"); } gotColon = true; continue; } if (i < INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } } // Variant called when we know there's at least 4 more bytes available private final int _skipColonFast(int ptr) throws IOException { int i = (int) _inputBuffer[ptr++]; if (i == INT_COLON) { // common case, no leading space i = _inputBuffer[ptr++]; if (i > INT_SPACE) { // nor trailing if (i != INT_SLASH && i != INT_HASH) { _inputPtr = ptr; return i; } } else if (i == INT_SPACE || i == INT_TAB) { i = (int) _inputBuffer[ptr++]; if (i > INT_SPACE) { if (i != INT_SLASH && i != INT_HASH) { _inputPtr = ptr; return i; } } } _inputPtr = ptr-1; return _skipColon2(true); // true -> skipped colon } if (i == INT_SPACE || i == INT_TAB) { i = _inputBuffer[ptr++]; } boolean gotColon = (i == INT_COLON); if (gotColon) { i = _inputBuffer[ptr++]; if (i > INT_SPACE) { if (i != INT_SLASH && i != INT_HASH) { _inputPtr = ptr; return i; } } else if (i == INT_SPACE || i == INT_TAB) { i = (int) _inputBuffer[ptr++]; if (i > INT_SPACE) { if (i != INT_SLASH && i != INT_HASH) { _inputPtr = ptr; return i; } } } } _inputPtr = ptr-1; return _skipColon2(gotColon); } // Primary loop: no reloading, comment handling private final int _skipComma(int i) throws IOException { if (i != INT_COMMA) { _reportUnexpectedChar(i, "was expecting comma to separate "+_parsingContext.getTypeDesc()+" entries"); } while (_inputPtr < _inputEnd) { i = (int) _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { --_inputPtr; return _skipAfterComma2(); } return i; } if (i < INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } return _skipAfterComma2(); } private final int _skipAfterComma2() throws IOException { while (_inputPtr < _inputEnd || loadMore()) { int i = (int) _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH) { _skipComment(); continue; } if (i == INT_HASH) { if (_skipYAMLComment()) { continue; } } return i; } if (i < INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } throw _constructError("Unexpected end-of-input within/between "+_parsingContext.getTypeDesc()+" entries"); } private final int _skipWSOrEnd() throws IOException { // Let's handle first character separately since it is likely that // it is either non-whitespace; or we have longer run of white space if (_inputPtr >= _inputEnd) { if (!loadMore()) { return _eofAsNextChar(); } } int i = _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { --_inputPtr; return _skipWSOrEnd2(); } return i; } if (i != INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } while (_inputPtr < _inputEnd) { i = (int) _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH || i == INT_HASH) { --_inputPtr; return _skipWSOrEnd2(); } return i; } if (i != INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } return _skipWSOrEnd2(); } private int _skipWSOrEnd2() throws IOException { while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { // We ran out of input... return _eofAsNextChar(); } } int i = (int) _inputBuffer[_inputPtr++]; if (i > INT_SPACE) { if (i == INT_SLASH) { _skipComment(); continue; } if (i == INT_HASH) { if (_skipYAMLComment()) { continue; } } return i; } else if (i != INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } } private void _skipComment() throws IOException { if (!isEnabled(Feature.ALLOW_COMMENTS)) { _reportUnexpectedChar('/', "maybe a (non-standard) comment? (not recognized as one since Feature 'ALLOW_COMMENTS' not enabled for parser)"); } // First: check which comment (if either) it is: if (_inputPtr >= _inputEnd && !loadMore()) { _reportInvalidEOF(" in a comment"); } char c = _inputBuffer[_inputPtr++]; if (c == '/') { _skipLine(); } else if (c == '*') { _skipCComment(); } else { _reportUnexpectedChar(c, "was expecting either '*' or '/' for a comment"); } } private void _skipCComment() throws IOException { // Ok: need the matching '*/' while ((_inputPtr < _inputEnd) || loadMore()) { int i = (int) _inputBuffer[_inputPtr++]; if (i <= '*') { if (i == '*') { // end? if ((_inputPtr >= _inputEnd) && !loadMore()) { break; } if (_inputBuffer[_inputPtr] == INT_SLASH) { ++_inputPtr; return; } continue; } if (i < INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; } else if (i == INT_CR) { _skipCR(); } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } } _reportInvalidEOF(" in a comment"); } private boolean _skipYAMLComment() throws IOException { if (!isEnabled(Feature.ALLOW_YAML_COMMENTS)) { return false; } _skipLine(); return true; } private void _skipLine() throws IOException { // Ok: need to find EOF or linefeed while ((_inputPtr < _inputEnd) || loadMore()) { int i = (int) _inputBuffer[_inputPtr++]; if (i < INT_SPACE) { if (i == INT_LF) { ++_currInputRow; _currInputRowStart = _inputPtr; break; } else if (i == INT_CR) { _skipCR(); break; } else if (i != INT_TAB) { _throwInvalidSpace(i); } } } } @Override protected char _decodeEscaped() throws IOException { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(" in character escape sequence"); } } char c = _inputBuffer[_inputPtr++]; switch ((int) c) { // First, ones that are mapped case 'b': return '\b'; case 't': return '\t'; case 'n': return '\n'; case 'f': return '\f'; case 'r': return '\r'; // And these are to be returned as they are case '"': case '/': case '\\': return c; case 'u': // and finally hex-escaped break; default: return _handleUnrecognizedCharacterEscape(c); } // Ok, a hex escape. Need 4 characters int value = 0; for (int i = 0; i < 4; ++i) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidEOF(" in character escape sequence"); } } int ch = (int) _inputBuffer[_inputPtr++]; int digit = CharTypes.charToHex(ch); if (digit < 0) { _reportUnexpectedChar(ch, "expected a hex-digit for character escape sequence"); } value = (value << 4) | digit; } return (char) value; } private final void _matchTrue() throws IOException { int ptr = _inputPtr; if ((ptr + 3) < _inputEnd) { final char[] b = _inputBuffer; if (b[ptr] == 'r' && b[++ptr] == 'u' && b[++ptr] == 'e') { char c = b[++ptr]; if (c < '0' || c == ']' || c == '}') { // expected/allowed chars _inputPtr = ptr; return; } } } // buffer boundary, or problem, offline _matchToken("true", 1); } private final void _matchFalse() throws IOException { int ptr = _inputPtr; if ((ptr + 4) < _inputEnd) { final char[] b = _inputBuffer; if (b[ptr] == 'a' && b[++ptr] == 'l' && b[++ptr] == 's' && b[++ptr] == 'e') { char c = b[++ptr]; if (c < '0' || c == ']' || c == '}') { // expected/allowed chars _inputPtr = ptr; return; } } } // buffer boundary, or problem, offline _matchToken("false", 1); } private final void _matchNull() throws IOException { int ptr = _inputPtr; if ((ptr + 3) < _inputEnd) { final char[] b = _inputBuffer; if (b[ptr] == 'u' && b[++ptr] == 'l' && b[++ptr] == 'l') { char c = b[++ptr]; if (c < '0' || c == ']' || c == '}') { // expected/allowed chars _inputPtr = ptr; return; } } } // buffer boundary, or problem, offline _matchToken("null", 1); } /** * Helper method for checking whether input matches expected token */ protected final void _matchToken(String matchStr, int i) throws IOException { final int len = matchStr.length(); do { if (_inputPtr >= _inputEnd) { if (!loadMore()) { _reportInvalidToken(matchStr.substring(0, i)); } } if (_inputBuffer[_inputPtr] != matchStr.charAt(i)) { _reportInvalidToken(matchStr.substring(0, i)); } ++_inputPtr; } while (++i < len); // but let's also ensure we either get EOF, or non-alphanum char... if (_inputPtr >= _inputEnd) { if (!loadMore()) { return; } } char c = _inputBuffer[_inputPtr]; if (c < '0' || c == ']' || c == '}') { // expected/allowed chars return; } // if Java letter, it's a problem tho if (Character.isJavaIdentifierPart(c)) { _reportInvalidToken(matchStr.substring(0, i)); } return; } /* /********************************************************** /* Binary access /********************************************************** */ /** * Efficient handling for incremental parsing of base64-encoded * textual content. */ @SuppressWarnings("resource") protected byte[] _decodeBase64(Base64Variant b64variant) throws IOException { ByteArrayBuilder builder = _getByteArrayBuilder(); //main_loop: while (true) { // first, we'll skip preceding white space, if any char ch; do { if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; } while (ch <= INT_SPACE); int bits = b64variant.decodeBase64Char(ch); if (bits < 0) { if (ch == '"') { // reached the end, fair and square? return builder.toByteArray(); } bits = _decodeBase64Escape(b64variant, ch, 0); if (bits < 0) { // white space to skip continue; } } int decodedData = bits; // then second base64 char; can't get padding yet, nor ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); if (bits < 0) { bits = _decodeBase64Escape(b64variant, ch, 1); } decodedData = (decodedData << 6) | bits; // third base64 char; can be padding, but not ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); // First branch: can get padding (-> 1 byte) if (bits < 0) { if (bits != Base64Variant.BASE64_VALUE_PADDING) { // as per [JACKSON-631], could also just be 'missing' padding if (ch == '"' && !b64variant.usesPadding()) { decodedData >>= 4; builder.append(decodedData); return builder.toByteArray(); } bits = _decodeBase64Escape(b64variant, ch, 2); } if (bits == Base64Variant.BASE64_VALUE_PADDING) { // Ok, must get more padding chars, then if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; if (!b64variant.usesPaddingChar(ch)) { throw reportInvalidBase64Char(b64variant, ch, 3, "expected padding character '"+b64variant.getPaddingChar()+"'"); } // Got 12 bits, only need 8, need to shift decodedData >>= 4; builder.append(decodedData); continue; } // otherwise we got escaped other char, to be processed below } // Nope, 2 or 3 bytes decodedData = (decodedData << 6) | bits; // fourth and last base64 char; can be padding, but not ws if (_inputPtr >= _inputEnd) { loadMoreGuaranteed(); } ch = _inputBuffer[_inputPtr++]; bits = b64variant.decodeBase64Char(ch); if (bits < 0) { if (bits != Base64Variant.BASE64_VALUE_PADDING) { // as per [JACKSON-631], could also just be 'missing' padding if (ch == '"' && !b64variant.usesPadding()) { decodedData >>= 2; builder.appendTwoBytes(decodedData); return builder.toByteArray(); } bits = _decodeBase64Escape(b64variant, ch, 3); } if (bits == Base64Variant.BASE64_VALUE_PADDING) { // With padding we only get 2 bytes; but we have // to shift it a bit so it is identical to triplet // case with partial output. // 3 chars gives 3x6 == 18 bits, of which 2 are // dummies, need to discard: decodedData >>= 2; builder.appendTwoBytes(decodedData); continue; } // otherwise we got escaped other char, to be processed below } // otherwise, our triplet is now complete decodedData = (decodedData << 6) | bits; builder.appendThreeBytes(decodedData); } } /* /********************************************************** /* Internal methods, location updating (refactored in 2.7) /********************************************************** */ @Override public JsonLocation getTokenLocation() { final Object src = _ioContext.getSourceReference(); if (_currToken == JsonToken.FIELD_NAME) { long total = _currInputProcessed + (_nameStartOffset-1); return new JsonLocation(src, -1L, total, _nameStartRow, _nameStartCol); } return new JsonLocation(src, -1L, _tokenInputTotal-1, _tokenInputRow, _tokenInputCol); } @Override public JsonLocation getCurrentLocation() { int col = _inputPtr - _currInputRowStart + 1; // 1-based return new JsonLocation(_ioContext.getSourceReference(), -1L, _currInputProcessed + _inputPtr, _currInputRow, col); } // @since 2.7 private final void _updateLocation() { int ptr = _inputPtr; _tokenInputTotal = _currInputProcessed + ptr; _tokenInputRow = _currInputRow; _tokenInputCol = ptr - _currInputRowStart; } // @since 2.7 private final void _updateNameLocation() { int ptr = _inputPtr; _nameStartOffset = ptr; _nameStartRow = _currInputRow; _nameStartCol = ptr - _currInputRowStart; } /* /********************************************************** /* Error reporting /********************************************************** */ protected void _reportInvalidToken(String matchedPart) throws IOException { _reportInvalidToken(matchedPart, "'null', 'true', 'false' or NaN"); } protected void _reportInvalidToken(String matchedPart, String msg) throws IOException { StringBuilder sb = new StringBuilder(matchedPart); /* Let's just try to find what appears to be the token, using * regular Java identifier character rules. It's just a heuristic, * nothing fancy here. */ while (true) { if (_inputPtr >= _inputEnd) { if (!loadMore()) { break; } } char c = _inputBuffer[_inputPtr]; if (!Character.isJavaIdentifierPart(c)) { break; } ++_inputPtr; sb.append(c); } _reportError("Unrecognized token '"+sb.toString()+"': was expecting "+msg); } }





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