package sh.calaba.org.codehaus.jackson.util; import java.util.Arrays; import sh.calaba.org.codehaus.jackson.io.CharacterEscapes; public final class CharTypes { private final static char[] HEX_CHARS = "0123456789ABCDEF".toCharArray(); private final static byte[] HEX_BYTES; static { int len = HEX_CHARS.length; HEX_BYTES = new byte[len]; for (int i = 0; i < len; ++i) { HEX_BYTES[i] = (byte) HEX_CHARS[i]; } } /** * Lookup table used for determining which input characters * need special handling when contained in text segment. */ final static int[] sInputCodes; static { /* 96 would do for most cases (backslash is ascii 94) * but if we want to do lookups by raw bytes it's better * to have full table */ int[] table = new int[256]; // Control chars and non-space white space are not allowed unquoted for (int i = 0; i < 32; ++i) { table[i] = -1; } // And then string end and quote markers are special too table['"'] = 1; table['\\'] = 1; sInputCodes = table; } /** * Additionally we can combine UTF-8 decoding info into similar * data table. */ final static int[] sInputCodesUtf8; static { int[] table = new int[sInputCodes.length]; System.arraycopy(sInputCodes, 0, table, 0, sInputCodes.length); for (int c = 128; c < 256; ++c) { int code; // We'll add number of bytes needed for decoding if ((c & 0xE0) == 0xC0) { // 2 bytes (0x0080 - 0x07FF) code = 2; } else if ((c & 0xF0) == 0xE0) { // 3 bytes (0x0800 - 0xFFFF) code = 3; } else if ((c & 0xF8) == 0xF0) { // 4 bytes; double-char with surrogates and all... code = 4; } else { // And -1 seems like a good "universal" error marker... code = -1; } table[c] = code; } sInputCodesUtf8 = table; } /** * To support non-default (and -standard) unquoted field names mode, * need to have alternate checking. * Basically this is list of 8-bit ASCII characters that are legal * as part of Javascript identifier * * @since 1.2 */ final static int[] sInputCodesJsNames; static { int[] table = new int[256]; // Default is "not a name char", mark ones that are Arrays.fill(table, -1); // Assume rules with JS same as Java (change if/as needed) for (int i = 33; i < 256; ++i) { if (Character.isJavaIdentifierPart((char) i)) { table[i] = 0; } } /* As per [JACKSON-267], '@', '#' and '*' are also to be accepted as well. * And '-' (for hyphenated names); and '+' for sake of symmetricity... */ table['@'] = 0; table['#'] = 0; table['*'] = 0; table['-'] = 0; table['+'] = 0; sInputCodesJsNames = table; } /** * This table is similar to Latin-1, except that it marks all "high-bit" * code as ok. They will be validated at a later point, when decoding * name */ final static int[] sInputCodesUtf8JsNames; static { int[] table = new int[256]; // start with 8-bit JS names System.arraycopy(sInputCodesJsNames, 0, table, 0, sInputCodesJsNames.length); Arrays.fill(table, 128, 128, 0); sInputCodesUtf8JsNames = table; } /** * Decoding table used to quickly determine characters that are * relevant within comment content */ final static int[] sInputCodesComment = new int[256]; static { // but first: let's start with UTF-8 multi-byte markers: System.arraycopy(sInputCodesUtf8, 128, sInputCodesComment, 128, 128); // default (0) means "ok" (skip); -1 invalid, others marked by char itself Arrays.fill(sInputCodesComment, 0, 32, -1); // invalid white space sInputCodesComment['\t'] = 0; // tab is still fine sInputCodesComment['\n'] = '\n'; // lf/cr need to be observed, ends cpp comment sInputCodesComment['\r'] = '\r'; sInputCodesComment['*'] = '*'; // end marker for c-style comments } /** * Lookup table used for determining which output characters in * 7-bit ASCII range need to be quoted. */ final static int[] sOutputEscapes128; static { int[] table = new int[128]; // Control chars need generic escape sequence for (int i = 0; i < 32; ++i) { // 04-Mar-2011, tatu: Used to use "-(i + 1)", replaced with constants table[i] = CharacterEscapes.ESCAPE_STANDARD; } /* Others (and some within that range too) have explicit shorter * sequences */ table['"'] = '"'; table['\\'] = '\\'; // Escaping of slash is optional, so let's not add it table[0x08] = 'b'; table[0x09] = 't'; table[0x0C] = 'f'; table[0x0A] = 'n'; table[0x0D] = 'r'; sOutputEscapes128 = table; } /** * Lookup table for the first 128 Unicode characters (7-bit ASCII) * range. For actual hex digits, contains corresponding value; * for others -1. */ final static int[] sHexValues = new int[128]; static { Arrays.fill(sHexValues, -1); for (int i = 0; i < 10; ++i) { sHexValues['0' + i] = i; } for (int i = 0; i < 6; ++i) { sHexValues['a' + i] = 10 + i; sHexValues['A' + i] = 10 + i; } } public final static int[] getInputCodeLatin1() { return sInputCodes; } public final static int[] getInputCodeUtf8() { return sInputCodesUtf8; } public final static int[] getInputCodeLatin1JsNames() { return sInputCodesJsNames; } public final static int[] getInputCodeUtf8JsNames() { return sInputCodesUtf8JsNames; } public final static int[] getInputCodeComment() { return sInputCodesComment; } /** * Accessor for getting a read-only encoding table for first 128 Unicode * code points (single-byte UTF-8 characters). * Value of 0 means "no escaping"; other positive values that value is character * to use after backslash; and negative values that generic (backslash - u) * escaping is to be used. */ public final static int[] get7BitOutputEscapes() { return sOutputEscapes128; } public static int charToHex(int ch) { return (ch > 127) ? -1 : sHexValues[ch]; } public static void appendQuoted(StringBuilder sb, String content) { final int[] escCodes = sOutputEscapes128; int escLen = escCodes.length; for (int i = 0, len = content.length(); i < len; ++i) { char c = content.charAt(i); if (c >= escLen || escCodes[c] == 0) { sb.append(c); continue; } sb.append('\\'); int escCode = escCodes[c]; if (escCode < 0) { // generic quoting (hex value) // We know that it has to fit in just 2 hex chars sb.append('u'); sb.append('0'); sb.append('0'); int value = -(escCode + 1); sb.append(HEX_CHARS[value >> 4]); sb.append(HEX_CHARS[value & 0xF]); } else { // "named", i.e. prepend with slash sb.append((char) escCode); } } } /** * @since 1.6 */ public static char[] copyHexChars() { return (char[]) HEX_CHARS.clone(); } /** * @since 1.6 */ public static byte[] copyHexBytes() { return (byte[]) HEX_BYTES.clone(); } }