/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (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.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #ifndef jsstr_h___ #define jsstr_h___ /* * JS string type implementation. * * A JS string is a counted array of unicode characters. To support handoff * of API client memory, the chars are allocated separately from the length, * necessitating a pointer after the count, to form a separately allocated * string descriptor. String descriptors are GC'ed, while their chars are * allocated from the malloc heap. */ #include #include "jspubtd.h" #include "jsprvtd.h" JS_BEGIN_EXTERN_C /* * The GC-thing "string" type. * * When the JSSTRFLAG_DEPENDENT bit of the length field is unset, the u.chars * field points to a flat character array owned by its GC-thing descriptor. * The array is terminated at index length by a zero character and the size of * the array in bytes is (length + 1) * sizeof(jschar). The terminator is * purely a backstop, in case the chars pointer flows out to native code that * requires \u0000 termination. * * A flat string with JSSTRFLAG_MUTABLE set means the string is accessible * only from one thread and it is possible to turn it into a dependent string * of the same length to optimize js_ConcatStrings. It also possible to grow * such string but extreme care must be taken to ensure that no other code * relies on the original length of the string. * * A flat string with JSSTRFLAG_ATOMIZED set means that the string is hashed * as an atom. This flag is used to avoid re-hashing of the already-atomized * string. * * When JSSTRFLAG_DEPENDENT is set, the string depends on characters of * another string strongly referenced by the u.base field. The base member may * point to another dependent string if JSSTRING_CHARS has not been called * yet. * * JSSTRFLAG_PREFIX determines the kind of the dependent string. When the flag * is unset, the length field encodes both starting position relative to the * base string and the number of characters in the dependent string, see * JSSTRDEP_START_MASK and JSSTRDEP_LENGTH_MASK macros below for details. * * When JSSTRFLAG_PREFIX is set, the dependent string is a prefix of the base * string. The number of characters in the prefix is encoded using all * non-flag bits of the length field and spans the same 0 .. SIZE_T_MAX/4 * range as the length of the flat string. * * NB: Always use the JSSTRING_LENGTH and JSSTRING_CHARS accessor macros. */ struct JSString { size_t length; union { jschar *chars; JSString *base; } u; }; /* * Definitions for flags stored in the high order bits of JSString.length. * JSSTRFLAG_PREFIX and JSSTRFLAG_MUTABLE are two aliases for the same value. * JSSTRFLAG_PREFIX should be used only if JSSTRFLAG_DEPENDENT is set and * JSSTRFLAG_MUTABLE should be used only if the string is flat. * JSSTRFLAG_ATOMIZED is used only with the flat immutable strings. */ #define JSSTRFLAG_DEPENDENT JSSTRING_BIT(JS_BITS_PER_WORD - 1) #define JSSTRFLAG_PREFIX JSSTRING_BIT(JS_BITS_PER_WORD - 2) #define JSSTRFLAG_MUTABLE JSSTRFLAG_PREFIX #define JSSTRFLAG_ATOMIZED JSSTRING_BIT(JS_BITS_PER_WORD - 3) #define JSSTRING_LENGTH_BITS (JS_BITS_PER_WORD - 3) #define JSSTRING_LENGTH_MASK JSSTRING_BITMASK(JSSTRING_LENGTH_BITS) /* Universal JSString type inquiry and accessor macros. */ #define JSSTRING_BIT(n) ((size_t)1 << (n)) #define JSSTRING_BITMASK(n) (JSSTRING_BIT(n) - 1) #define JSSTRING_HAS_FLAG(str,flg) ((str)->length & (flg)) #define JSSTRING_IS_DEPENDENT(str) JSSTRING_HAS_FLAG(str, JSSTRFLAG_DEPENDENT) #define JSSTRING_IS_FLAT(str) (!JSSTRING_IS_DEPENDENT(str)) #define JSSTRING_IS_MUTABLE(str) (((str)->length & (JSSTRFLAG_DEPENDENT | \ JSSTRFLAG_MUTABLE)) == \ JSSTRFLAG_MUTABLE) #define JSSTRING_IS_ATOMIZED(str) (((str)->length & (JSSTRFLAG_DEPENDENT | \ JSSTRFLAG_ATOMIZED)) ==\ JSSTRFLAG_ATOMIZED) #define JSSTRING_CHARS(str) (JSSTRING_IS_DEPENDENT(str) \ ? JSSTRDEP_CHARS(str) \ : JSFLATSTR_CHARS(str)) #define JSSTRING_LENGTH(str) (JSSTRING_IS_DEPENDENT(str) \ ? JSSTRDEP_LENGTH(str) \ : JSFLATSTR_LENGTH(str)) #define JSSTRING_CHARS_AND_LENGTH(str, chars_, length_) \ ((void)(JSSTRING_IS_DEPENDENT(str) \ ? ((length_) = JSSTRDEP_LENGTH(str), \ (chars_) = JSSTRDEP_CHARS(str)) \ : ((length_) = JSFLATSTR_LENGTH(str), \ (chars_) = JSFLATSTR_CHARS(str)))) #define JSSTRING_CHARS_AND_END(str, chars_, end) \ ((void)((end) = JSSTRING_IS_DEPENDENT(str) \ ? JSSTRDEP_LENGTH(str) + ((chars_) = JSSTRDEP_CHARS(str)) \ : JSFLATSTR_LENGTH(str) + ((chars_) = JSFLATSTR_CHARS(str)))) /* Specific flat string initializer and accessor macros. */ #define JSFLATSTR_INIT(str, chars_, length_) \ ((void)(JS_ASSERT(((length_) & ~JSSTRING_LENGTH_MASK) == 0), \ (str)->length = (length_), (str)->u.chars = (chars_))) #define JSFLATSTR_LENGTH(str) \ (JS_ASSERT(JSSTRING_IS_FLAT(str)), (str)->length & JSSTRING_LENGTH_MASK) #define JSFLATSTR_CHARS(str) \ (JS_ASSERT(JSSTRING_IS_FLAT(str)), (str)->u.chars) /* * Macros to manipulate atomized and mutable flags of flat strings. It is safe * to use these without extra locking due to the following properties: * * * We do not have a macro like JSFLATSTR_CLEAR_ATOMIZED as a string * remains atomized until the GC collects it. * * * A thread may call JSFLATSTR_SET_MUTABLE only when it is the only thread * accessing the string until a later call to JSFLATSTR_CLEAR_MUTABLE. * * * Multiple threads can call JSFLATSTR_CLEAR_MUTABLE but the macro * actually clears the mutable flag only when the flag is set -- in which * case only one thread can access the string (see previous property). * * Thus, when multiple threads access the string, JSFLATSTR_SET_ATOMIZED is * the only macro that can update the length field of the string by changing * the mutable bit from 0 to 1. We call the macro only after the string has * been hashed. When some threads in js_ValueToStringId see that the flag is * set, it knows that the string was atomized. * * On the other hand, if the thread sees that the flag is unset, it could be * seeing a stale value when another thread has just atomized the string and * set the flag. But this can lead only to an extra call to js_AtomizeString. * This function would find that the string was already hashed and return it * with the atomized bit set. */ #define JSFLATSTR_SET_ATOMIZED(str) \ ((void)(JS_ASSERT(JSSTRING_IS_FLAT(str) && !JSSTRING_IS_MUTABLE(str)), \ (str)->length |= JSSTRFLAG_ATOMIZED)) #define JSFLATSTR_SET_MUTABLE(str) \ ((void)(JS_ASSERT(JSSTRING_IS_FLAT(str) && !JSSTRING_IS_ATOMIZED(str)), \ (str)->length |= JSSTRFLAG_MUTABLE)) #define JSFLATSTR_CLEAR_MUTABLE(str) \ ((void)(JS_ASSERT(JSSTRING_IS_FLAT(str)), \ JSSTRING_HAS_FLAG(str, JSSTRFLAG_MUTABLE) && \ ((str)->length &= ~JSSTRFLAG_MUTABLE))) /* Specific dependent string shift/mask accessor and mutator macros. */ #define JSSTRDEP_START_BITS (JSSTRING_LENGTH_BITS-JSSTRDEP_LENGTH_BITS) #define JSSTRDEP_START_SHIFT JSSTRDEP_LENGTH_BITS #define JSSTRDEP_START_MASK JSSTRING_BITMASK(JSSTRDEP_START_BITS) #define JSSTRDEP_LENGTH_BITS (JSSTRING_LENGTH_BITS / 2) #define JSSTRDEP_LENGTH_MASK JSSTRING_BITMASK(JSSTRDEP_LENGTH_BITS) #define JSSTRDEP_IS_PREFIX(str) JSSTRING_HAS_FLAG(str, JSSTRFLAG_PREFIX) #define JSSTRDEP_START(str) (JSSTRDEP_IS_PREFIX(str) ? 0 \ : (((str)->length \ >> JSSTRDEP_START_SHIFT) \ & JSSTRDEP_START_MASK)) #define JSSTRDEP_LENGTH(str) ((str)->length \ & (JSSTRDEP_IS_PREFIX(str) \ ? JSSTRING_LENGTH_MASK \ : JSSTRDEP_LENGTH_MASK)) #define JSSTRDEP_INIT(str,bstr,off,len) \ ((str)->length = JSSTRFLAG_DEPENDENT \ | ((off) << JSSTRDEP_START_SHIFT) \ | (len), \ (str)->u.base = (bstr)) #define JSPREFIX_INIT(str,bstr,len) \ ((str)->length = JSSTRFLAG_DEPENDENT | JSSTRFLAG_PREFIX | (len), \ (str)->u.base = (bstr)) #define JSSTRDEP_BASE(str) ((str)->u.base) #define JSPREFIX_BASE(str) JSSTRDEP_BASE(str) #define JSPREFIX_SET_BASE(str,bstr) ((str)->u.base = (bstr)) #define JSSTRDEP_CHARS(str) \ (JSSTRING_IS_DEPENDENT(JSSTRDEP_BASE(str)) \ ? js_GetDependentStringChars(str) \ : JSFLATSTR_CHARS(JSSTRDEP_BASE(str)) + JSSTRDEP_START(str)) extern size_t js_MinimizeDependentStrings(JSString *str, int level, JSString **basep); extern jschar * js_GetDependentStringChars(JSString *str); extern const jschar * js_GetStringChars(JSContext *cx, JSString *str); extern JSString * js_ConcatStrings(JSContext *cx, JSString *left, JSString *right); extern const jschar * js_UndependString(JSContext *cx, JSString *str); extern JSBool js_MakeStringImmutable(JSContext *cx, JSString *str); typedef struct JSCharBuffer { size_t length; jschar *chars; } JSCharBuffer; struct JSSubString { size_t length; const jschar *chars; }; extern jschar js_empty_ucstr[]; extern JSSubString js_EmptySubString; /* Unicode character attribute lookup tables. */ extern const uint8 js_X[]; extern const uint8 js_Y[]; extern const uint32 js_A[]; /* Enumerated Unicode general category types. */ typedef enum JSCharType { JSCT_UNASSIGNED = 0, JSCT_UPPERCASE_LETTER = 1, JSCT_LOWERCASE_LETTER = 2, JSCT_TITLECASE_LETTER = 3, JSCT_MODIFIER_LETTER = 4, JSCT_OTHER_LETTER = 5, JSCT_NON_SPACING_MARK = 6, JSCT_ENCLOSING_MARK = 7, JSCT_COMBINING_SPACING_MARK = 8, JSCT_DECIMAL_DIGIT_NUMBER = 9, JSCT_LETTER_NUMBER = 10, JSCT_OTHER_NUMBER = 11, JSCT_SPACE_SEPARATOR = 12, JSCT_LINE_SEPARATOR = 13, JSCT_PARAGRAPH_SEPARATOR = 14, JSCT_CONTROL = 15, JSCT_FORMAT = 16, JSCT_PRIVATE_USE = 18, JSCT_SURROGATE = 19, JSCT_DASH_PUNCTUATION = 20, JSCT_START_PUNCTUATION = 21, JSCT_END_PUNCTUATION = 22, JSCT_CONNECTOR_PUNCTUATION = 23, JSCT_OTHER_PUNCTUATION = 24, JSCT_MATH_SYMBOL = 25, JSCT_CURRENCY_SYMBOL = 26, JSCT_MODIFIER_SYMBOL = 27, JSCT_OTHER_SYMBOL = 28 } JSCharType; /* Character classifying and mapping macros, based on java.lang.Character. */ #define JS_CCODE(c) (js_A[js_Y[(js_X[(uint16)(c)>>6]<<6)|((c)&0x3F)]]) #define JS_CTYPE(c) (JS_CCODE(c) & 0x1F) #define JS_ISALPHA(c) ((((1 << JSCT_UPPERCASE_LETTER) | \ (1 << JSCT_LOWERCASE_LETTER) | \ (1 << JSCT_TITLECASE_LETTER) | \ (1 << JSCT_MODIFIER_LETTER) | \ (1 << JSCT_OTHER_LETTER)) \ >> JS_CTYPE(c)) & 1) #define JS_ISALNUM(c) ((((1 << JSCT_UPPERCASE_LETTER) | \ (1 << JSCT_LOWERCASE_LETTER) | \ (1 << JSCT_TITLECASE_LETTER) | \ (1 << JSCT_MODIFIER_LETTER) | \ (1 << JSCT_OTHER_LETTER) | \ (1 << JSCT_DECIMAL_DIGIT_NUMBER)) \ >> JS_CTYPE(c)) & 1) /* A unicode letter, suitable for use in an identifier. */ #define JS_ISLETTER(c) ((((1 << JSCT_UPPERCASE_LETTER) | \ (1 << JSCT_LOWERCASE_LETTER) | \ (1 << JSCT_TITLECASE_LETTER) | \ (1 << JSCT_MODIFIER_LETTER) | \ (1 << JSCT_OTHER_LETTER) | \ (1 << JSCT_LETTER_NUMBER)) \ >> JS_CTYPE(c)) & 1) /* * 'IdentifierPart' from ECMA grammar, is Unicode letter or combining mark or * digit or connector punctuation. */ #define JS_ISIDPART(c) ((((1 << JSCT_UPPERCASE_LETTER) | \ (1 << JSCT_LOWERCASE_LETTER) | \ (1 << JSCT_TITLECASE_LETTER) | \ (1 << JSCT_MODIFIER_LETTER) | \ (1 << JSCT_OTHER_LETTER) | \ (1 << JSCT_LETTER_NUMBER) | \ (1 << JSCT_NON_SPACING_MARK) | \ (1 << JSCT_COMBINING_SPACING_MARK) | \ (1 << JSCT_DECIMAL_DIGIT_NUMBER) | \ (1 << JSCT_CONNECTOR_PUNCTUATION)) \ >> JS_CTYPE(c)) & 1) /* Unicode control-format characters, ignored in input */ #define JS_ISFORMAT(c) (((1 << JSCT_FORMAT) >> JS_CTYPE(c)) & 1) /* * Per ECMA-262 15.10.2.6, these characters are the only ones that make up a * "word", as far as a RegExp is concerned. If we want a Unicode-friendlier * definition of "word", we should rename this macro to something regexp-y. */ #define JS_ISWORD(c) ((c) < 128 && (isalnum(c) || (c) == '_')) #define JS_ISIDSTART(c) (JS_ISLETTER(c) || (c) == '_' || (c) == '$') #define JS_ISIDENT(c) (JS_ISIDPART(c) || (c) == '_' || (c) == '$') #define JS_ISXMLSPACE(c) ((c) == ' ' || (c) == '\t' || (c) == '\r' || \ (c) == '\n') #define JS_ISXMLNSSTART(c) ((JS_CCODE(c) & 0x00000100) || (c) == '_') #define JS_ISXMLNS(c) ((JS_CCODE(c) & 0x00000080) || (c) == '.' || \ (c) == '-' || (c) == '_') #define JS_ISXMLNAMESTART(c) (JS_ISXMLNSSTART(c) || (c) == ':') #define JS_ISXMLNAME(c) (JS_ISXMLNS(c) || (c) == ':') #define JS_ISDIGIT(c) (JS_CTYPE(c) == JSCT_DECIMAL_DIGIT_NUMBER) /* XXXbe unify on A/X/Y tbls, avoid ctype.h? */ /* XXXbe fs, etc. ? */ #define JS_ISSPACE(c) ((JS_CCODE(c) & 0x00070000) == 0x00040000) #define JS_ISPRINT(c) ((c) < 128 && isprint(c)) #define JS_ISUPPER(c) (JS_CTYPE(c) == JSCT_UPPERCASE_LETTER) #define JS_ISLOWER(c) (JS_CTYPE(c) == JSCT_LOWERCASE_LETTER) #define JS_TOUPPER(c) ((jschar) ((JS_CCODE(c) & 0x00100000) \ ? (c) - ((int32)JS_CCODE(c) >> 22) \ : (c))) #define JS_TOLOWER(c) ((jschar) ((JS_CCODE(c) & 0x00200000) \ ? (c) + ((int32)JS_CCODE(c) >> 22) \ : (c))) /* * Shorthands for ASCII (7-bit) decimal and hex conversion. * Manually inline isdigit for performance; MSVC doesn't do this for us. */ #define JS7_ISDEC(c) ((((unsigned)(c)) - '0') <= 9) #define JS7_UNDEC(c) ((c) - '0') #define JS7_ISHEX(c) ((c) < 128 && isxdigit(c)) #define JS7_UNHEX(c) (uintN)(JS7_ISDEC(c) ? (c) - '0' : 10 + tolower(c) - 'a') #define JS7_ISLET(c) ((c) < 128 && isalpha(c)) /* Initialize per-runtime string state for the first context in the runtime. */ extern JSBool js_InitRuntimeStringState(JSContext *cx); extern JSBool js_InitDeflatedStringCache(JSRuntime *rt); /* * Maximum character code for which we will create a pinned unit string on * demand -- see JSRuntime.unitStrings in jscntxt.h. */ #define UNIT_STRING_LIMIT 256U /* * Get the independent string containing only character code at index in str * (backstopped with a zero character as usual for independent strings). */ extern JSString * js_GetUnitString(JSContext *cx, JSString *str, size_t index); extern void js_FinishUnitStrings(JSRuntime *rt); extern void js_FinishRuntimeStringState(JSContext *cx); extern void js_FinishDeflatedStringCache(JSRuntime *rt); /* Initialize the String class, returning its prototype object. */ extern JSClass js_StringClass; extern JSObject * js_InitStringClass(JSContext *cx, JSObject *obj); extern const char js_escape_str[]; extern const char js_unescape_str[]; extern const char js_uneval_str[]; extern const char js_decodeURI_str[]; extern const char js_encodeURI_str[]; extern const char js_decodeURIComponent_str[]; extern const char js_encodeURIComponent_str[]; /* GC-allocate a string descriptor for the given malloc-allocated chars. */ extern JSString * js_NewString(JSContext *cx, jschar *chars, size_t length); extern JSString * js_NewDependentString(JSContext *cx, JSString *base, size_t start, size_t length); /* Copy a counted string and GC-allocate a descriptor for it. */ extern JSString * js_NewStringCopyN(JSContext *cx, const jschar *s, size_t n); /* Copy a C string and GC-allocate a descriptor for it. */ extern JSString * js_NewStringCopyZ(JSContext *cx, const jschar *s); /* * Free the chars held by str when it is finalized by the GC. When type is * less then zero, it denotes an internal string. Otherwise it denotes the * type of the external string allocated with JS_NewExternalString. * * This function always needs rt but can live with null cx. */ extern void js_FinalizeStringRT(JSRuntime *rt, JSString *str, intN type, JSContext *cx); /* * Convert a value to a printable C string. */ typedef JSString *(*JSValueToStringFun)(JSContext *cx, jsval v); extern JS_FRIEND_API(const char *) js_ValueToPrintable(JSContext *cx, jsval v, JSValueToStringFun v2sfun); #define js_ValueToPrintableString(cx,v) \ js_ValueToPrintable(cx, v, js_ValueToString) #define js_ValueToPrintableSource(cx,v) \ js_ValueToPrintable(cx, v, js_ValueToSource) /* * Convert a value to a string, returning null after reporting an error, * otherwise returning a new string reference. */ extern JS_FRIEND_API(JSString *) js_ValueToString(JSContext *cx, jsval v); /* * Convert a value to its source expression, returning null after reporting * an error, otherwise returning a new string reference. */ extern JS_FRIEND_API(JSString *) js_ValueToSource(JSContext *cx, jsval v); /* * Compute a hash function from str. The caller can call this function even if * str is not a GC-allocated thing. */ extern uint32 js_HashString(JSString *str); /* * Test if strings are equal. The caller can call the function even if str1 * or str2 are not GC-allocated things. */ extern JSBool js_EqualStrings(JSString *str1, JSString *str2); /* * Return less than, equal to, or greater than zero depending on whether * str1 is less than, equal to, or greater than str2. */ extern intN js_CompareStrings(JSString *str1, JSString *str2); /* * Boyer-Moore-Horspool superlinear search for pat:patlen in text:textlen. * The patlen argument must be positive and no greater than BMH_PATLEN_MAX. * The start argument tells where in text to begin the search. * * Return the index of pat in text, or -1 if not found. */ #define BMH_CHARSET_SIZE 256 /* ISO-Latin-1 */ #define BMH_PATLEN_MAX 255 /* skip table element is uint8 */ #define BMH_BAD_PATTERN (-2) /* return value if pat is not ISO-Latin-1 */ extern jsint js_BoyerMooreHorspool(const jschar *text, jsint textlen, const jschar *pat, jsint patlen, jsint start); extern size_t js_strlen(const jschar *s); extern jschar * js_strchr(const jschar *s, jschar c); extern jschar * js_strchr_limit(const jschar *s, jschar c, const jschar *limit); #define js_strncpy(t, s, n) memcpy((t), (s), (n) * sizeof(jschar)) /* * Return s advanced past any Unicode white space characters. */ extern const jschar * js_SkipWhiteSpace(const jschar *s, const jschar *end); /* * Inflate bytes to JS chars and vice versa. Report out of memory via cx * and return null on error, otherwise return the jschar or byte vector that * was JS_malloc'ed. length is updated with the length of the new string in jschars. */ extern jschar * js_InflateString(JSContext *cx, const char *bytes, size_t *length); extern char * js_DeflateString(JSContext *cx, const jschar *chars, size_t length); /* * Inflate bytes to JS chars into a buffer. 'chars' must be large enough for * 'length' jschars. The buffer is NOT null-terminated. The destination length * must be be initialized with the buffer size and will contain on return the * number of copied chars. */ extern JSBool js_InflateStringToBuffer(JSContext* cx, const char *bytes, size_t length, jschar *chars, size_t* charsLength); /* * Get number of bytes in the deflated sequence of characters. */ extern size_t js_GetDeflatedStringLength(JSContext *cx, const jschar *chars, size_t charsLength); /* * Deflate JS chars to bytes into a buffer. 'bytes' must be large enough for * 'length chars. The buffer is NOT null-terminated. The destination length * must to be initialized with the buffer size and will contain on return the * number of copied bytes. */ extern JSBool js_DeflateStringToBuffer(JSContext* cx, const jschar *chars, size_t charsLength, char *bytes, size_t* length); /* * Associate bytes with str in the deflated string cache, returning true on * successful association, false on out of memory. */ extern JSBool js_SetStringBytes(JSContext *cx, JSString *str, char *bytes, size_t length); /* * Find or create a deflated string cache entry for str that contains its * characters chopped from Unicode code points into bytes. */ extern const char * js_GetStringBytes(JSContext *cx, JSString *str); /* Remove a deflated string cache entry associated with str if any. */ extern void js_PurgeDeflatedStringCache(JSRuntime *rt, JSString *str); JSBool js_str_escape(JSContext *cx, JSObject *obj, uintN argc, jsval *argv, jsval *rval); /* * Convert one UCS-4 char and write it into a UTF-8 buffer, which must be at * least 6 bytes long. Return the number of UTF-8 bytes of data written. */ extern int js_OneUcs4ToUtf8Char(uint8 *utf8Buffer, uint32 ucs4Char); /* * Write str into buffer escaping any non-printable or non-ASCII character. * Guarantees that a NUL is at the end of the buffer. Returns the length of * the written output, NOT including the NUL. If buffer is null, just returns * the length of the output. If quote is not 0, it must be a single or double * quote character that will quote the output. * * The function is only defined for debug builds. */ #define js_PutEscapedString(buffer, bufferSize, str, quote) \ js_PutEscapedStringImpl(buffer, bufferSize, NULL, str, quote) /* * Write str into file escaping any non-printable or non-ASCII character. * Returns the number of bytes written to file. If quote is not 0, it must * be a single or double quote character that will quote the output. * * The function is only defined for debug builds. */ #define js_FileEscapedString(file, str, quote) \ (JS_ASSERT(file), js_PutEscapedStringImpl(NULL, 0, file, str, quote)) extern JS_FRIEND_API(size_t) js_PutEscapedStringImpl(char *buffer, size_t bufferSize, FILE *fp, JSString *str, uint32 quote); JS_END_EXTERN_C #endif /* jsstr_h___ */