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package org.json;

/*
Public Domain.
*/
import java.io.Reader;
import java.io.StringReader;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.Iterator;

/**
 *  This provides static methods to convert an XML text into a JSONObject, and to
 *  covert a JSONObject into an XML text.
 *
 *  @author JSON.org
 *  @version 2016-08-10
 *
 * @deprecated
 */
@SuppressWarnings("boxing")
@Deprecated()
public class XML {

    /**
     * The Character '&'.
     */
    public static final Character AMP = '&';

    /**
     * The Character '''.
     */
    public static final Character APOS = '\'';

    /**
     * The Character '!'.
     */
    public static final Character BANG = '!';

    /**
     * The Character '='.
     */
    public static final Character EQ = '=';

    /**
     * The Character 
{@code '>'. }
*/ public static final Character GT = '>'; /** * The Character '<'. */ public static final Character LT = '<'; /** * The Character '?'. */ public static final Character QUEST = '?'; /** * The Character '"'. */ public static final Character QUOT = '"'; /** * The Character '/'. */ public static final Character SLASH = '/'; /** * Null attribute name */ public static final String NULL_ATTR = "xsi:nil"; public static final String TYPE_ATTR = "xsi:type"; /** * Creates an iterator for navigating Code Points in a string instead of * characters. Once Java7 support is dropped, this can be replaced with * * string.codePoints() * * which is available in Java8 and above. * * @see http://stackoverflow.com/a/21791059/6030888 */ private static Iterable codePointIterator(final String string) { return new Iterable() { @Override public Iterator iterator() { return new Iterator() { private int nextIndex = 0; private int length = string.length(); @Override public boolean hasNext() { return this.nextIndex < this.length; } @Override public Integer next() { int result = string.codePointAt(this.nextIndex); this.nextIndex += Character.charCount(result); return result; } @Override public void remove() { throw new UnsupportedOperationException(); } }; } }; } /** * Replace special characters with XML escapes: * *
{@code
     * & (ampersand) is replaced by &amp;
     * < (less than) is replaced by &lt;
     * > (greater than) is replaced by &gt;
     * " (double quote) is replaced by &quot;
     * ' (single quote / apostrophe) is replaced by &apos;
     * }
* * @param string * The string to be escaped. * @return The escaped string. */ public static String escape(String string) { StringBuilder sb = new StringBuilder(string.length()); for (final int cp : codePointIterator(string)) { switch(cp) { case '&': sb.append("&"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; default: if (mustEscape(cp)) { sb.append("&#x"); sb.append(Integer.toHexString(cp)); sb.append(';'); } else { sb.appendCodePoint(cp); } } } return sb.toString(); } /** * @param cp code point to test * @return true if the code point is not valid for an XML */ private static boolean mustEscape(int cp) { /* Valid range from https://www.w3.org/TR/REC-xml/#charsets * * #x9 | #xA | #xD | [#x20-#xD7FF] | [#xE000-#xFFFD] | [#x10000-#x10FFFF] * * any Unicode character, excluding the surrogate blocks, FFFE, and FFFF. */ // isISOControl is true when (cp >= 0 && cp <= 0x1F) || (cp >= 0x7F && cp <= 0x9F) // all ISO control characters are out of range except tabs and new lines return (Character.isISOControl(cp) && cp != 0x9 && cp != 0xA && cp != 0xD) || !(// valid the range of acceptable characters that aren't control (cp >= 0x20 && cp <= 0xD7FF) || (cp >= 0xE000 && cp <= 0xFFFD) || (cp >= 0x10000 && cp <= 0x10FFFF)); } /** * Removes XML escapes from the string. * * @param string * string to remove escapes from * @return string with converted entities */ public static String unescape(String string) { StringBuilder sb = new StringBuilder(string.length()); for (int i = 0, length = string.length(); i < length; i++) { char c = string.charAt(i); if (c == '&') { final int semic = string.indexOf(';', i); if (semic > i) { final String entity = string.substring(i + 1, semic); sb.append(XMLTokener.unescapeEntity(entity)); // skip past the entity we just parsed. i += entity.length() + 1; } else { // this shouldn't happen in most cases since the parser // errors on unclosed entries. sb.append(c); } } else { // not part of an entity sb.append(c); } } return sb.toString(); } /** * Throw an exception if the string contains whitespace. Whitespace is not * allowed in tagNames and attributes. * * @param string * A string. * @throws JSONException Thrown if the string contains whitespace or is empty. */ public static void noSpace(String string) throws JSONException { int i, length = string.length(); if (length == 0) { throw new JSONException("Empty string."); } for (i = 0; i < length; i += 1) { if (Character.isWhitespace(string.charAt(i))) { throw new JSONException("'" + string + "' contains a space character."); } } } /** * Scan the content following the named tag, attaching it to the context. * * @param x * The XMLTokener containing the source string. * @param context * The JSONObject that will include the new material. * @param name * The tag name. * @param config * The XML parser configuration. * @param currentNestingDepth * The current nesting depth. * @return true if the close tag is processed. * @throws JSONException Thrown if any parsing error occurs. */ private static boolean parse(XMLTokener x, JSONObject context, String name, XMLParserConfiguration config, int currentNestingDepth) throws JSONException { char c; int i; JSONObject jsonObject = null; String string; String tagName; Object token; XMLXsiTypeConverter xmlXsiTypeConverter; // Test for and skip past these forms: // // // // // Report errors for these forms: // <> // <= // << token = x.nextToken(); // "); return false; } x.back(); } else if (c == '[') { token = x.nextToken(); if ("CDATA".equals(token)) { if (x.next() == '[') { string = x.nextCDATA(); if (string.length() > 0) { context.accumulate(config.getcDataTagName(), string); } return false; } } throw x.syntaxError("Expected 'CDATA['"); } i = 1; do { token = x.nextMeta(); if (token == null) { throw x.syntaxError("Missing '>' after ' 0); return false; } else if (token == QUEST) { // "); return false; } else if (token == SLASH) { // Close tag if (x.nextToken() != GT) { throw x.syntaxError("Misshaped tag"); } if (config.getForceList().contains(tagName)) { // Force the value to be an array if (nilAttributeFound) { context.append(tagName, JSONObject.NULL); } else if (jsonObject.length() > 0) { context.append(tagName, jsonObject); } else { context.put(tagName, new JSONArray()); } } else { if (nilAttributeFound) { context.accumulate(tagName, JSONObject.NULL); } else if (jsonObject.length() > 0) { context.accumulate(tagName, jsonObject); } else { context.accumulate(tagName, ""); } } return false; } else if (token == GT) { // Content, between <...> and for (; ; ) { token = x.nextContent(); if (token == null) { if (tagName != null) { throw x.syntaxError("Unclosed tag " + tagName); } return false; } else if (token instanceof String) { string = (String) token; if (string.length() > 0) { if (xmlXsiTypeConverter != null) { jsonObject.accumulate(config.getcDataTagName(), stringToValue(string, xmlXsiTypeConverter)); } else { jsonObject.accumulate(config.getcDataTagName(), config.isKeepStrings() ? string : stringToValue(string)); } } } else if (token == LT) { // Nested element if (currentNestingDepth == config.getMaxNestingDepth()) { throw x.syntaxError("Maximum nesting depth of " + config.getMaxNestingDepth() + " reached"); } if (parse(x, jsonObject, tagName, config, currentNestingDepth + 1)) { if (config.getForceList().contains(tagName)) { // Force the value to be an array if (jsonObject.length() == 0) { context.put(tagName, new JSONArray()); } else if (jsonObject.length() == 1 && jsonObject.opt(config.getcDataTagName()) != null) { context.append(tagName, jsonObject.opt(config.getcDataTagName())); } else { context.append(tagName, jsonObject); } } else { if (jsonObject.length() == 0) { context.accumulate(tagName, ""); } else if (jsonObject.length() == 1 && jsonObject.opt(config.getcDataTagName()) != null) { context.accumulate(tagName, jsonObject.opt(config.getcDataTagName())); } else { context.accumulate(tagName, jsonObject); } } return false; } } } } else { throw x.syntaxError("Misshaped tag"); } } } } /** * This method tries to convert the given string value to the target object * @param string String to convert * @param typeConverter value converter to convert string to integer, boolean e.t.c * @return JSON value of this string or the string */ public static Object stringToValue(String string, XMLXsiTypeConverter typeConverter) { if (typeConverter != null) { return typeConverter.convert(string); } return stringToValue(string); } /** * This method is the same as {@link JSONObject#stringToValue(String)}. * * @param string String to convert * @return JSON value of this string or the string */ // To maintain compatibility with the Android API, this method is a direct copy of // the one in JSONObject. Changes made here should be reflected there. // This method should not make calls out of the XML object. public static Object stringToValue(String string) { if ("".equals(string)) { return string; } // check JSON key words true/false/null if ("true".equalsIgnoreCase(string)) { return Boolean.TRUE; } if ("false".equalsIgnoreCase(string)) { return Boolean.FALSE; } if ("null".equalsIgnoreCase(string)) { return JSONObject.NULL; } /* * If it might be a number, try converting it. If a number cannot be * produced, then the value will just be a string. */ char initial = string.charAt(0); if ((initial >= '0' && initial <= '9') || initial == '-') { try { return stringToNumber(string); } catch (Exception ignore) { } } return string; } /** * direct copy of {@link JSONObject#stringToNumber(String)} to maintain Android support. */ private static Number stringToNumber(final String val) throws NumberFormatException { char initial = val.charAt(0); if ((initial >= '0' && initial <= '9') || initial == '-') { // decimal representation if (isDecimalNotation(val)) { // Use a BigDecimal all the time so we keep the original // representation. BigDecimal doesn't support -0.0, ensure we // keep that by forcing a decimal. try { BigDecimal bd = new BigDecimal(val); if (initial == '-' && BigDecimal.ZERO.compareTo(bd) == 0) { return Double.valueOf(-0.0); } return bd; } catch (NumberFormatException retryAsDouble) { // this is to support "Hex Floats" like this: 0x1.0P-1074 try { Double d = Double.valueOf(val); if (d.isNaN() || d.isInfinite()) { throw new NumberFormatException("val [" + val + "] is not a valid number."); } return d; } catch (NumberFormatException ignore) { throw new NumberFormatException("val [" + val + "] is not a valid number."); } } } // block items like 00 01 etc. Java number parsers treat these as Octal. if (initial == '0' && val.length() > 1) { char at1 = val.charAt(1); if (at1 >= '0' && at1 <= '9') { throw new NumberFormatException("val [" + val + "] is not a valid number."); } } else if (initial == '-' && val.length() > 2) { char at1 = val.charAt(1); char at2 = val.charAt(2); if (at1 == '0' && at2 >= '0' && at2 <= '9') { throw new NumberFormatException("val [" + val + "] is not a valid number."); } } // integer representation. // This will narrow any values to the smallest reasonable Object representation // (Integer, Long, or BigInteger) // BigInteger down conversion: We use a similar bitLength compare as // BigInteger#intValueExact uses. Increases GC, but objects hold // only what they need. i.e. Less runtime overhead if the value is // long lived. BigInteger bi = new BigInteger(val); if (bi.bitLength() <= 31) { return Integer.valueOf(bi.intValue()); } if (bi.bitLength() <= 63) { return Long.valueOf(bi.longValue()); } return bi; } throw new NumberFormatException("val [" + val + "] is not a valid number."); } /** * direct copy of {@link JSONObject#isDecimalNotation(String)} to maintain Android support. */ private static boolean isDecimalNotation(final String val) { return val.indexOf('.') > -1 || val.indexOf('e') > -1 || val.indexOf('E') > -1 || "-0".equals(val); } /** * Convert a well-formed (but not necessarily valid) XML string into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * @param string * The source string. * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(String string) throws JSONException { return toJSONObject(string, XMLParserConfiguration.ORIGINAL); } /** * Convert a well-formed (but not necessarily valid) XML into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * @param reader The XML source reader. * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(Reader reader) throws JSONException { return toJSONObject(reader, XMLParserConfiguration.ORIGINAL); } /** * Convert a well-formed (but not necessarily valid) XML into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * All values are converted as strings, for 1, 01, 29.0 will not be coerced to * numbers but will instead be the exact value as seen in the XML document. * * @param reader The XML source reader. * @param keepStrings If true, then values will not be coerced into boolean * or numeric values and will instead be left as strings * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(Reader reader, boolean keepStrings) throws JSONException { if (keepStrings) { return toJSONObject(reader, XMLParserConfiguration.KEEP_STRINGS); } return toJSONObject(reader, XMLParserConfiguration.ORIGINAL); } /** * Convert a well-formed (but not necessarily valid) XML into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * All values are converted as strings, for 1, 01, 29.0 will not be coerced to * numbers but will instead be the exact value as seen in the XML document. * * @param reader The XML source reader. * @param config Configuration options for the parser * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(Reader reader, XMLParserConfiguration config) throws JSONException { JSONObject jo = new JSONObject(); XMLTokener x = new XMLTokener(reader); while (x.more()) { x.skipPast("<"); if (x.more()) { parse(x, jo, null, config, 0); } } return jo; } /** * Convert a well-formed (but not necessarily valid) XML string into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * All values are converted as strings, for 1, 01, 29.0 will not be coerced to * numbers but will instead be the exact value as seen in the XML document. * * @param string * The source string. * @param keepStrings If true, then values will not be coerced into boolean * or numeric values and will instead be left as strings * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(String string, boolean keepStrings) throws JSONException { return toJSONObject(new StringReader(string), keepStrings); } /** * Convert a well-formed (but not necessarily valid) XML string into a * JSONObject. Some information may be lost in this transformation because * JSON is a data format and XML is a document format. XML uses elements, * attributes, and content text, while JSON uses unordered collections of * name/value pairs and arrays of values. JSON does not does not like to * distinguish between elements and attributes. Sequences of similar * elements are represented as JSONArrays. Content text may be placed in a * "content" member. Comments, prologs, DTDs, and
{@code
     * <[ [ ]]>}
* are ignored. * * All values are converted as strings, for 1, 01, 29.0 will not be coerced to * numbers but will instead be the exact value as seen in the XML document. * * @param string * The source string. * @param config Configuration options for the parser. * @return A JSONObject containing the structured data from the XML string. * @throws JSONException Thrown if there is an errors while parsing the string */ public static JSONObject toJSONObject(String string, XMLParserConfiguration config) throws JSONException { return toJSONObject(new StringReader(string), config); } /** * Convert a JSONObject into a well-formed, element-normal XML string. * * @param object * A JSONObject. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(Object object) throws JSONException { return toString(object, null, XMLParserConfiguration.ORIGINAL); } /** * Convert a JSONObject into a well-formed, element-normal XML string. * * @param object * A JSONObject. * @param tagName * The optional name of the enclosing tag. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(final Object object, final String tagName) { return toString(object, tagName, XMLParserConfiguration.ORIGINAL); } /** * Convert a JSONObject into a well-formed, element-normal XML string. * * @param object * A JSONObject. * @param tagName * The optional name of the enclosing tag. * @param config * Configuration that can control output to XML. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(final Object object, final String tagName, final XMLParserConfiguration config) throws JSONException { return toString(object, tagName, config, 0, 0); } /** * Convert a JSONObject into a well-formed, element-normal XML string, * either pretty print or single-lined depending on indent factor. * * @param object * A JSONObject. * @param tagName * The optional name of the enclosing tag. * @param config * Configuration that can control output to XML. * @param indentFactor * The number of spaces to add to each level of indentation. * @param indent * The current ident level in spaces. * @return * @throws JSONException */ private static String toString(final Object object, final String tagName, final XMLParserConfiguration config, int indentFactor, int indent) throws JSONException { StringBuilder sb = new StringBuilder(); JSONArray ja; JSONObject jo; String string; if (object instanceof JSONObject) { // Emit if (tagName != null) { sb.append(indent(indent)); sb.append('<'); sb.append(tagName); sb.append('>'); if (indentFactor > 0) { sb.append("\n"); indent += indentFactor; } } // Loop thru the keys. // don't use the new entrySet accessor to maintain Android Support jo = (JSONObject) object; for (final String key : jo.keySet()) { Object value = jo.opt(key); if (value == null) { value = ""; } else if (value.getClass().isArray()) { value = new JSONArray(value); } // Emit content in body if (key.equals(config.getcDataTagName())) { if (value instanceof JSONArray) { ja = (JSONArray) value; int jaLength = ja.length(); // don't use the new iterator API to maintain support for Android for (int i = 0; i < jaLength; i++) { if (i > 0) { sb.append('\n'); } Object val = ja.opt(i); sb.append(escape(val.toString())); } } else { sb.append(escape(value.toString())); } // Emit an array of similar keys } else if (value instanceof JSONArray) { ja = (JSONArray) value; int jaLength = ja.length(); // don't use the new iterator API to maintain support for Android for (int i = 0; i < jaLength; i++) { Object val = ja.opt(i); if (val instanceof JSONArray) { sb.append('<'); sb.append(key); sb.append('>'); sb.append(toString(val, null, config, indentFactor, indent)); sb.append("'); } else { sb.append(toString(val, key, config, indentFactor, indent)); } } } else if ("".equals(value)) { sb.append(indent(indent)); sb.append('<'); sb.append(key); sb.append("/>"); if (indentFactor > 0) { sb.append("\n"); } // Emit a new tag } else { sb.append(toString(value, key, config, indentFactor, indent)); } } if (tagName != null) { // Emit the close tag sb.append(indent(indent - indentFactor)); sb.append("'); if (indentFactor > 0) { sb.append("\n"); } } return sb.toString(); } if (object != null && (object instanceof JSONArray || object.getClass().isArray())) { if (object.getClass().isArray()) { ja = new JSONArray(object); } else { ja = (JSONArray) object; } int jaLength = ja.length(); // don't use the new iterator API to maintain support for Android for (int i = 0; i < jaLength; i++) { Object val = ja.opt(i); // XML does not have good support for arrays. If an array // appears in a place where XML is lacking, synthesize an // element. sb.append(toString(val, tagName == null ? "array" : tagName, config, indentFactor, indent)); } return sb.toString(); } string = (object == null) ? "null" : escape(object.toString()); if (tagName == null) { return indent(indent) + "\"" + string + "\"" + ((indentFactor > 0) ? "\n" : ""); } else if (string.length() == 0) { return indent(indent) + "<" + tagName + "/>" + ((indentFactor > 0) ? "\n" : ""); } else { return indent(indent) + "<" + tagName + ">" + string + "" + ((indentFactor > 0) ? "\n" : ""); } } /** * Convert a JSONObject into a well-formed, pretty printed element-normal XML string. * * @param object * A JSONObject. * @param indentFactor * The number of spaces to add to each level of indentation. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(Object object, int indentFactor) { return toString(object, null, XMLParserConfiguration.ORIGINAL, indentFactor); } /** * Convert a JSONObject into a well-formed, pretty printed element-normal XML string. * * @param object * A JSONObject. * @param tagName * The optional name of the enclosing tag. * @param indentFactor * The number of spaces to add to each level of indentation. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(final Object object, final String tagName, int indentFactor) { return toString(object, tagName, XMLParserConfiguration.ORIGINAL, indentFactor); } /** * Convert a JSONObject into a well-formed, pretty printed element-normal XML string. * * @param object * A JSONObject. * @param tagName * The optional name of the enclosing tag. * @param config * Configuration that can control output to XML. * @param indentFactor * The number of spaces to add to each level of indentation. * @return A string. * @throws JSONException Thrown if there is an error parsing the string */ public static String toString(final Object object, final String tagName, final XMLParserConfiguration config, int indentFactor) throws JSONException { return toString(object, tagName, config, indentFactor, 0); } /** * Return a String consisting of a number of space characters specified by indent * * @param indent * The number of spaces to be appended to the String. * @return */ private static final String indent(int indent) { StringBuilder sb = new StringBuilder(); for (int i = 0; i < indent; i++) { sb.append(' '); } return sb.toString(); } }




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