/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.util; import java.io.Closeable; import java.io.EOFException; import java.io.IOException; import java.io.Reader; import java.util.ArrayList; import java.util.List; import libcore.internal.StringPool; /** * Reads a JSON (RFC 4627) * encoded value as a stream of tokens. This stream includes both literal * values (strings, numbers, booleans, and nulls) as well as the begin and * end delimiters of objects and arrays. The tokens are traversed in * depth-first order, the same order that they appear in the JSON document. * Within JSON objects, name/value pairs are represented by a single token. * *

Parsing JSON

* To create a recursive descent parser for your own JSON streams, first create * an entry point method that creates a {@code JsonReader}. * *

Next, create handler methods for each structure in your JSON text. You'll * need a method for each object type and for each array type. *

Within array handling methods, first call {@link * #beginArray} to consume the array's opening bracket. Then create a * while loop that accumulates values, terminating when {@link #hasNext} * is false. Finally, read the array's closing bracket by calling {@link * #endArray}. *
Within object handling methods, first call {@link * #beginObject} to consume the object's opening brace. Then create a * while loop that assigns values to local variables based on their name. * This loop should terminate when {@link #hasNext} is false. Finally, * read the object's closing brace by calling {@link #endObject}. *

When a nested object or array is encountered, delegate to the * corresponding handler method. * *

When an unknown name is encountered, strict parsers should fail with an * exception. Lenient parsers should call {@link #skipValue()} to recursively * skip the value's nested tokens, which may otherwise conflict. * *

If a value may be null, you should first check using {@link #peek()}. * Null literals can be consumed using either {@link #nextNull()} or {@link * #skipValue()}. * *

Example

* Suppose we'd like to parse a stream of messages such as the following:

 {@code
 * [
 *   {
 *     "id": 912345678901,
 *     "text": "How do I read JSON on Android?",
 *     "geo": null,
 *     "user": {
 *       "name": "android_newb",
 *       "followers_count": 41
 *      }
 *   },
 *   {
 *     "id": 912345678902,
 *     "text": "@android_newb just use android.util.JsonReader!",
 *     "geo": [50.454722, -104.606667],
 *     "user": {
 *       "name": "jesse",
 *       "followers_count": 2
 *     }
 *   }
 * ]}

* This code implements the parser for the above structure:

   {@code
 *
 *   public List readJsonStream(InputStream in) throws IOException {
 *     JsonReader reader = new JsonReader(new InputStreamReader(in, "UTF-8"));
 *     try {
 *       return readMessagesArray(reader);
 *     } finally {
 *       reader.close();
 *     }
 *   }
 *
 *   public List readMessagesArray(JsonReader reader) throws IOException {
 *     List messages = new ArrayList();
 *
 *     reader.beginArray();
 *     while (reader.hasNext()) {
 *       messages.add(readMessage(reader));
 *     }
 *     reader.endArray();
 *     return messages;
 *   }
 *
 *   public Message readMessage(JsonReader reader) throws IOException {
 *     long id = -1;
 *     String text = null;
 *     User user = null;
 *     List geo = null;
 *
 *     reader.beginObject();
 *     while (reader.hasNext()) {
 *       String name = reader.nextName();
 *       if (name.equals("id")) {
 *         id = reader.nextLong();
 *       } else if (name.equals("text")) {
 *         text = reader.nextString();
 *       } else if (name.equals("geo") && reader.peek() != JsonToken.NULL) {
 *         geo = readDoublesArray(reader);
 *       } else if (name.equals("user")) {
 *         user = readUser(reader);
 *       } else {
 *         reader.skipValue();
 *       }
 *     }
 *     reader.endObject();
 *     return new Message(id, text, user, geo);
 *   }
 *
 *   public List readDoublesArray(JsonReader reader) throws IOException {
 *     List doubles = new ArrayList();
 *
 *     reader.beginArray();
 *     while (reader.hasNext()) {
 *       doubles.add(reader.nextDouble());
 *     }
 *     reader.endArray();
 *     return doubles;
 *   }
 *
 *   public User readUser(JsonReader reader) throws IOException {
 *     String username = null;
 *     int followersCount = -1;
 *
 *     reader.beginObject();
 *     while (reader.hasNext()) {
 *       String name = reader.nextName();
 *       if (name.equals("name")) {
 *         username = reader.nextString();
 *       } else if (name.equals("followers_count")) {
 *         followersCount = reader.nextInt();
 *       } else {
 *         reader.skipValue();
 *       }
 *     }
 *     reader.endObject();
 *     return new User(username, followersCount);
 *   }}

* *

Number Handling

* This reader permits numeric values to be read as strings and string values to * be read as numbers. For example, both elements of the JSON array {@code * [1, "1"]} may be read using either {@link #nextInt} or {@link #nextString}. * This behavior is intended to prevent lossy numeric conversions: double is * JavaScript's only numeric type and very large values like {@code * 9007199254740993} cannot be represented exactly on that platform. To minimize * precision loss, extremely large values should be written and read as strings * in JSON. * *

Each {@code JsonReader} may be used to read a single JSON stream. Instances * of this class are not thread safe. */ public final class JsonReader implements Closeable { private static final String TRUE = "true"; private static final String FALSE = "false"; private final StringPool stringPool = new StringPool(); /** The input JSON. */ private final Reader in; /** True to accept non-spec compliant JSON */ private boolean lenient = false; /** * Use a manual buffer to easily read and unread upcoming characters, and * also so we can create strings without an intermediate StringBuilder. * We decode literals directly out of this buffer, so it must be at least as * long as the longest token that can be reported as a number. */ private final char[] buffer = new char[1024]; private int pos = 0; private int limit = 0; /* * The offset of the first character in the buffer. */ private int bufferStartLine = 1; private int bufferStartColumn = 1; private final List stack = new ArrayList(); { push(JsonScope.EMPTY_DOCUMENT); } /** * The type of the next token to be returned by {@link #peek} and {@link * #advance}. If null, peek() will assign a value. */ private JsonToken token; /** The text of the next name. */ private String name; /* * For the next literal value, we may have the text value, or the position * and length in the buffer. */ private String value; private int valuePos; private int valueLength; /** True if we're currently handling a skipValue() call. */ private boolean skipping = false; /** * Creates a new instance that reads a JSON-encoded stream from {@code in}. */ public JsonReader(Reader in) { if (in == null) { throw new NullPointerException("in == null"); } this.in = in; } /** * Configure this parser to be be liberal in what it accepts. By default, * this parser is strict and only accepts JSON as specified by RFC 4627. Setting the * parser to lenient causes it to ignore the following syntax errors: * *

End of line comments starting with {@code //} or {@code #} and * ending with a newline character. *
C-style comments starting with {@code /*} and ending with * {@code *}{@code /}. Such comments may not be nested. *
Names that are unquoted or {@code 'single quoted'}. *
Strings that are unquoted or {@code 'single quoted'}. *
Array elements separated by {@code ;} instead of {@code ,}. *
Unnecessary array separators. These are interpreted as if null * was the omitted value. *
Names and values separated by {@code =} or {@code =>} instead of * {@code :}. *
Name/value pairs separated by {@code ;} instead of {@code ,}. *

*/ public void setLenient(boolean lenient) { this.lenient = lenient; } /** * Returns true if this parser is liberal in what it accepts. */ public boolean isLenient() { return lenient; } /** * Consumes the next token from the JSON stream and asserts that it is the * beginning of a new array. */ public void beginArray() throws IOException { expect(JsonToken.BEGIN_ARRAY); } /** * Consumes the next token from the JSON stream and asserts that it is the * end of the current array. */ public void endArray() throws IOException { expect(JsonToken.END_ARRAY); } /** * Consumes the next token from the JSON stream and asserts that it is the * beginning of a new object. */ public void beginObject() throws IOException { expect(JsonToken.BEGIN_OBJECT); } /** * Consumes the next token from the JSON stream and asserts that it is the * end of the current array. */ public void endObject() throws IOException { expect(JsonToken.END_OBJECT); } /** * Consumes {@code expected}. */ private void expect(JsonToken expected) throws IOException { peek(); if (token != expected) { throw new IllegalStateException("Expected " + expected + " but was " + peek()); } advance(); } /** * Returns true if the current array or object has another element. */ public boolean hasNext() throws IOException { peek(); return token != JsonToken.END_OBJECT && token != JsonToken.END_ARRAY; } /** * Returns the type of the next token without consuming it. */ public JsonToken peek() throws IOException { if (token != null) { return token; } switch (peekStack()) { case EMPTY_DOCUMENT: replaceTop(JsonScope.NONEMPTY_DOCUMENT); JsonToken firstToken = nextValue(); if (!lenient && token != JsonToken.BEGIN_ARRAY && token != JsonToken.BEGIN_OBJECT) { throw new IOException( "Expected JSON document to start with '[' or '{' but was " + token); } return firstToken; case EMPTY_ARRAY: return nextInArray(true); case NONEMPTY_ARRAY: return nextInArray(false); case EMPTY_OBJECT: return nextInObject(true); case DANGLING_NAME: return objectValue(); case NONEMPTY_OBJECT: return nextInObject(false); case NONEMPTY_DOCUMENT: try { JsonToken token = nextValue(); if (lenient) { return token; } throw syntaxError("Expected EOF"); } catch (EOFException e) { return token = JsonToken.END_DOCUMENT; // TODO: avoid throwing here? } case CLOSED: throw new IllegalStateException("JsonReader is closed"); default: throw new AssertionError(); } } /** * Advances the cursor in the JSON stream to the next token. */ private JsonToken advance() throws IOException { peek(); JsonToken result = token; token = null; value = null; name = null; return result; } /** * Returns the next token, a {@link JsonToken#NAME property name}, and * consumes it. * * @throws IOException if the next token in the stream is not a property * name. */ public String nextName() throws IOException { peek(); if (token != JsonToken.NAME) { throw new IllegalStateException("Expected a name but was " + peek()); } String result = name; advance(); return result; } /** * Returns the {@link JsonToken#STRING string} value of the next token, * consuming it. If the next token is a number, this method will return its * string form. * * @throws IllegalStateException if the next token is not a string or if * this reader is closed. */ public String nextString() throws IOException { peek(); if (token != JsonToken.STRING && token != JsonToken.NUMBER) { throw new IllegalStateException("Expected a string but was " + peek()); } String result = value; advance(); return result; } /** * Returns the {@link JsonToken#BOOLEAN boolean} value of the next token, * consuming it. * * @throws IllegalStateException if the next token is not a boolean or if * this reader is closed. */ public boolean nextBoolean() throws IOException { peek(); if (token != JsonToken.BOOLEAN) { throw new IllegalStateException("Expected a boolean but was " + token); } boolean result = (value == TRUE); advance(); return result; } /** * Consumes the next token from the JSON stream and asserts that it is a * literal null. * * @throws IllegalStateException if the next token is not null or if this * reader is closed. */ public void nextNull() throws IOException { peek(); if (token != JsonToken.NULL) { throw new IllegalStateException("Expected null but was " + token); } advance(); } /** * Returns the {@link JsonToken#NUMBER double} value of the next token, * consuming it. If the next token is a string, this method will attempt to * parse it as a double using {@link Double#parseDouble(String)}. * * @throws IllegalStateException if the next token is not a literal value. */ public double nextDouble() throws IOException { peek(); if (token != JsonToken.STRING && token != JsonToken.NUMBER) { throw new IllegalStateException("Expected a double but was " + token); } double result = Double.parseDouble(value); advance(); return result; } /** * Returns the {@link JsonToken#NUMBER long} value of the next token, * consuming it. If the next token is a string, this method will attempt to * parse it as a long. If the next token's numeric value cannot be exactly * represented by a Java {@code long}, this method throws. * * @throws IllegalStateException if the next token is not a literal value. * @throws NumberFormatException if the next literal value cannot be parsed * as a number, or exactly represented as a long. */ public long nextLong() throws IOException { peek(); if (token != JsonToken.STRING && token != JsonToken.NUMBER) { throw new IllegalStateException("Expected a long but was " + token); } long result; try { result = Long.parseLong(value); } catch (NumberFormatException ignored) { double asDouble = Double.parseDouble(value); // don't catch this NumberFormatException result = (long) asDouble; if ((double) result != asDouble) { throw new NumberFormatException(value); } } advance(); return result; } /** * Returns the {@link JsonToken#NUMBER int} value of the next token, * consuming it. If the next token is a string, this method will attempt to * parse it as an int. If the next token's numeric value cannot be exactly * represented by a Java {@code int}, this method throws. * * @throws IllegalStateException if the next token is not a literal value. * @throws NumberFormatException if the next literal value cannot be parsed * as a number, or exactly represented as an int. */ public int nextInt() throws IOException { peek(); if (token != JsonToken.STRING && token != JsonToken.NUMBER) { throw new IllegalStateException("Expected an int but was " + token); } int result; try { result = Integer.parseInt(value); } catch (NumberFormatException ignored) { double asDouble = Double.parseDouble(value); // don't catch this NumberFormatException result = (int) asDouble; if ((double) result != asDouble) { throw new NumberFormatException(value); } } advance(); return result; } /** * Closes this JSON reader and the underlying {@link Reader}. */ public void close() throws IOException { value = null; token = null; stack.clear(); stack.add(JsonScope.CLOSED); in.close(); } /** * Skips the next value recursively. If it is an object or array, all nested * elements are skipped. This method is intended for use when the JSON token * stream contains unrecognized or unhandled values. */ public void skipValue() throws IOException { skipping = true; try { int count = 0; do { JsonToken token = advance(); if (token == JsonToken.BEGIN_ARRAY || token == JsonToken.BEGIN_OBJECT) { count++; } else if (token == JsonToken.END_ARRAY || token == JsonToken.END_OBJECT) { count--; } } while (count != 0); } finally { skipping = false; } } private JsonScope peekStack() { return stack.get(stack.size() - 1); } private JsonScope pop() { return stack.remove(stack.size() - 1); } private void push(JsonScope newTop) { stack.add(newTop); } /** * Replace the value on the top of the stack with the given value. */ private void replaceTop(JsonScope newTop) { stack.set(stack.size() - 1, newTop); } private JsonToken nextInArray(boolean firstElement) throws IOException { if (firstElement) { replaceTop(JsonScope.NONEMPTY_ARRAY); } else { /* Look for a comma before each element after the first element. */ switch (nextNonWhitespace()) { case ']': pop(); return token = JsonToken.END_ARRAY; case ';': checkLenient(); // fall-through case ',': break; default: throw syntaxError("Unterminated array"); } } switch (nextNonWhitespace()) { case ']': if (firstElement) { pop(); return token = JsonToken.END_ARRAY; } // fall-through to handle ",]" case ';': case ',': /* In lenient mode, a 0-length literal means 'null' */ checkLenient(); pos--; value = "null"; return token = JsonToken.NULL; default: pos--; return nextValue(); } } private JsonToken nextInObject(boolean firstElement) throws IOException { /* * Read delimiters. Either a comma/semicolon separating this and the * previous name-value pair, or a close brace to denote the end of the * object. */ if (firstElement) { /* Peek to see if this is the empty object. */ switch (nextNonWhitespace()) { case '}': pop(); return token = JsonToken.END_OBJECT; default: pos--; } } else { switch (nextNonWhitespace()) { case '}': pop(); return token = JsonToken.END_OBJECT; case ';': case ',': break; default: throw syntaxError("Unterminated object"); } } /* Read the name. */ int quote = nextNonWhitespace(); switch (quote) { case '\'': checkLenient(); // fall-through case '"': name = nextString((char) quote); break; default: checkLenient(); pos--; name = nextLiteral(false); if (name.isEmpty()) { throw syntaxError("Expected name"); } } replaceTop(JsonScope.DANGLING_NAME); return token = JsonToken.NAME; } private JsonToken objectValue() throws IOException { /* * Read the name/value separator. Usually a colon ':'. In lenient mode * we also accept an equals sign '=', or an arrow "=>". */ switch (nextNonWhitespace()) { case ':': break; case '=': checkLenient(); if ((pos < limit || fillBuffer(1)) && buffer[pos] == '>') { pos++; } break; default: throw syntaxError("Expected ':'"); } replaceTop(JsonScope.NONEMPTY_OBJECT); return nextValue(); } private JsonToken nextValue() throws IOException { int c = nextNonWhitespace(); switch (c) { case '{': push(JsonScope.EMPTY_OBJECT); return token = JsonToken.BEGIN_OBJECT; case '[': push(JsonScope.EMPTY_ARRAY); return token = JsonToken.BEGIN_ARRAY; case '\'': checkLenient(); // fall-through case '"': value = nextString((char) c); return token = JsonToken.STRING; default: pos--; return readLiteral(); } } /** * Returns true once {@code limit - pos >= minimum}. If the data is * exhausted before that many characters are available, this returns * false. */ private boolean fillBuffer(int minimum) throws IOException { // Before clobbering the old characters, update where buffer starts for (int i = 0; i < pos; i++) { if (buffer[i] == '\n') { bufferStartLine++; bufferStartColumn = 1; } else { bufferStartColumn++; } } if (limit != pos) { limit -= pos; System.arraycopy(buffer, pos, buffer, 0, limit); } else { limit = 0; } pos = 0; int total; while ((total = in.read(buffer, limit, buffer.length - limit)) != -1) { limit += total; // if this is the first read, consume an optional byte order mark (BOM) if it exists if (bufferStartLine == 1 && bufferStartColumn == 1 && limit > 0 && buffer[0] == '\ufeff') { pos++; bufferStartColumn--; } if (limit >= minimum) { return true; } } return false; } private int getLineNumber() { int result = bufferStartLine; for (int i = 0; i < pos; i++) { if (buffer[i] == '\n') { result++; } } return result; } private int getColumnNumber() { int result = bufferStartColumn; for (int i = 0; i < pos; i++) { if (buffer[i] == '\n') { result = 1; } else { result++; } } return result; } private int nextNonWhitespace() throws IOException { while (pos < limit || fillBuffer(1)) { int c = buffer[pos++]; switch (c) { case '\t': case ' ': case '\n': case '\r': continue; case '/': if (pos == limit && !fillBuffer(1)) { return c; } checkLenient(); char peek = buffer[pos]; switch (peek) { case '*': // skip a /* c-style comment */ pos++; if (!skipTo("*/")) { throw syntaxError("Unterminated comment"); } pos += 2; continue; case '/': // skip a // end-of-line comment pos++; skipToEndOfLine(); continue; default: return c; } case '#': /* * Skip a # hash end-of-line comment. The JSON RFC doesn't * specify this behaviour, but it's required to parse * existing documents. See http://b/2571423. */ checkLenient(); skipToEndOfLine(); continue; default: return c; } } throw new EOFException("End of input"); } private void checkLenient() throws IOException { if (!lenient) { throw syntaxError("Use JsonReader.setLenient(true) to accept malformed JSON"); } } /** * Advances the position until after the next newline character. If the line * is terminated by "\r\n", the '\n' must be consumed as whitespace by the * caller. */ private void skipToEndOfLine() throws IOException { while (pos < limit || fillBuffer(1)) { char c = buffer[pos++]; if (c == '\r' || c == '\n') { break; } } } private boolean skipTo(String toFind) throws IOException { outer: for (; pos + toFind.length() <= limit || fillBuffer(toFind.length()); pos++) { for (int c = 0; c < toFind.length(); c++) { if (buffer[pos + c] != toFind.charAt(c)) { continue outer; } } return true; } return false; } /** * Returns the string up to but not including {@code quote}, unescaping any * character escape sequences encountered along the way. The opening quote * should have already been read. This consumes the closing quote, but does * not include it in the returned string. * * @param quote either ' or ". * @throws NumberFormatException if any unicode escape sequences are * malformed. */ private String nextString(char quote) throws IOException { StringBuilder builder = null; do { /* the index of the first character not yet appended to the builder. */ int start = pos; while (pos < limit) { int c = buffer[pos++]; if (c == quote) { if (skipping) { return "skipped!"; } else if (builder == null) { return stringPool.get(buffer, start, pos - start - 1); } else { builder.append(buffer, start, pos - start - 1); return builder.toString(); } } else if (c == '\\') { if (builder == null) { builder = new StringBuilder(); } builder.append(buffer, start, pos - start - 1); builder.append(readEscapeCharacter()); start = pos; } } if (builder == null) { builder = new StringBuilder(); } builder.append(buffer, start, pos - start); } while (fillBuffer(1)); throw syntaxError("Unterminated string"); } /** * Reads the value up to but not including any delimiter characters. This * does not consume the delimiter character. * * @param assignOffsetsOnly true for this method to only set the valuePos * and valueLength fields and return a null result. This only works if * the literal is short; a string is returned otherwise. */ private String nextLiteral(boolean assignOffsetsOnly) throws IOException { StringBuilder builder = null; valuePos = -1; valueLength = 0; int i = 0; findNonLiteralCharacter: while (true) { for (; pos + i < limit; i++) { switch (buffer[pos + i]) { case '/': case '\\': case ';': case '#': case '=': checkLenient(); // fall-through case '{': case '}': case '[': case ']': case ':': case ',': case ' ': case '\t': case '\f': case '\r': case '\n': break findNonLiteralCharacter; } } /* * Attempt to load the entire literal into the buffer at once. If * we run out of input, add a non-literal character at the end so * that decoding doesn't need to do bounds checks. */ if (i < buffer.length) { if (fillBuffer(i + 1)) { continue; } else { buffer[limit] = '\0'; break; } } // use a StringBuilder when the value is too long. It must be an unquoted string. if (builder == null) { builder = new StringBuilder(); } builder.append(buffer, pos, i); valueLength += i; pos += i; i = 0; if (!fillBuffer(1)) { break; } } String result; if (assignOffsetsOnly && builder == null) { valuePos = pos; result = null; } else if (skipping) { result = "skipped!"; } else if (builder == null) { result = stringPool.get(buffer, pos, i); } else { builder.append(buffer, pos, i); result = builder.toString(); } valueLength += i; pos += i; return result; } @Override public String toString() { return getClass().getSimpleName() + " near " + getSnippet(); } /** * Unescapes the character identified by the character or characters that * immediately follow a backslash. The backslash '\' should have already * been read. This supports both unicode escapes "u000A" and two-character * escapes "\n". * * @throws NumberFormatException if any unicode escape sequences are * malformed. */ private char readEscapeCharacter() throws IOException { if (pos == limit && !fillBuffer(1)) { throw syntaxError("Unterminated escape sequence"); } char escaped = buffer[pos++]; switch (escaped) { case 'u': if (pos + 4 > limit && !fillBuffer(4)) { throw syntaxError("Unterminated escape sequence"); } String hex = stringPool.get(buffer, pos, 4); pos += 4; return (char) Integer.parseInt(hex, 16); case 't': return '\t'; case 'b': return '\b'; case 'n': return '\n'; case 'r': return '\r'; case 'f': return '\f'; case '\'': case '"': case '\\': default: return escaped; } } /** * Reads a null, boolean, numeric or unquoted string literal value. */ private JsonToken readLiteral() throws IOException { value = nextLiteral(true); if (valueLength == 0) { throw syntaxError("Expected literal value"); } token = decodeLiteral(); if (token == JsonToken.STRING) { checkLenient(); } return token; } /** * Assigns {@code nextToken} based on the value of {@code nextValue}. */ private JsonToken decodeLiteral() throws IOException { if (valuePos == -1) { // it was too long to fit in the buffer so it can only be a string return JsonToken.STRING; } else if (valueLength == 4 && ('n' == buffer[valuePos ] || 'N' == buffer[valuePos ]) && ('u' == buffer[valuePos + 1] || 'U' == buffer[valuePos + 1]) && ('l' == buffer[valuePos + 2] || 'L' == buffer[valuePos + 2]) && ('l' == buffer[valuePos + 3] || 'L' == buffer[valuePos + 3])) { value = "null"; return JsonToken.NULL; } else if (valueLength == 4 && ('t' == buffer[valuePos ] || 'T' == buffer[valuePos ]) && ('r' == buffer[valuePos + 1] || 'R' == buffer[valuePos + 1]) && ('u' == buffer[valuePos + 2] || 'U' == buffer[valuePos + 2]) && ('e' == buffer[valuePos + 3] || 'E' == buffer[valuePos + 3])) { value = TRUE; return JsonToken.BOOLEAN; } else if (valueLength == 5 && ('f' == buffer[valuePos ] || 'F' == buffer[valuePos ]) && ('a' == buffer[valuePos + 1] || 'A' == buffer[valuePos + 1]) && ('l' == buffer[valuePos + 2] || 'L' == buffer[valuePos + 2]) && ('s' == buffer[valuePos + 3] || 'S' == buffer[valuePos + 3]) && ('e' == buffer[valuePos + 4] || 'E' == buffer[valuePos + 4])) { value = FALSE; return JsonToken.BOOLEAN; } else { value = stringPool.get(buffer, valuePos, valueLength); return decodeNumber(buffer, valuePos, valueLength); } } /** * Determine whether the characters is a JSON number. Numbers are of the * form -12.34e+56. Fractional and exponential parts are optional. Leading * zeroes are not allowed in the value or exponential part, but are allowed * in the fraction. */ private JsonToken decodeNumber(char[] chars, int offset, int length) { int i = offset; int c = chars[i]; if (c == '-') { c = chars[++i]; } if (c == '0') { c = chars[++i]; } else if (c >= '1' && c <= '9') { c = chars[++i]; while (c >= '0' && c <= '9') { c = chars[++i]; } } else { return JsonToken.STRING; } if (c == '.') { c = chars[++i]; while (c >= '0' && c <= '9') { c = chars[++i]; } } if (c == 'e' || c == 'E') { c = chars[++i]; if (c == '+' || c == '-') { c = chars[++i]; } if (c >= '0' && c <= '9') { c = chars[++i]; while (c >= '0' && c <= '9') { c = chars[++i]; } } else { return JsonToken.STRING; } } if (i == offset + length) { return JsonToken.NUMBER; } else { return JsonToken.STRING; } } /** * Throws a new IO exception with the given message and a context snippet * with this reader's content. */ private IOException syntaxError(String message) throws IOException { throw new MalformedJsonException(message + " at line " + getLineNumber() + " column " + getColumnNumber()); } private CharSequence getSnippet() { StringBuilder snippet = new StringBuilder(); int beforePos = Math.min(pos, 20); snippet.append(buffer, pos - beforePos, beforePos); int afterPos = Math.min(limit - pos, 20); snippet.append(buffer, pos, afterPos); return snippet; } }