gcc/libjava/java/lang/natString.cc

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1999-04-07 16:42:40 +02:00
// natString.cc - Implementation of java.lang.String native methods.
/* Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation
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This file is part of libgcj.
This software is copyrighted work licensed under the terms of the
Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
details. */
#include <config.h>
#include <string.h>
#include <stdlib.h>
#include <gcj/cni.h>
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#include <java/lang/Character.h>
#include <java/lang/CharSequence.h>
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#include <java/lang/String.h>
#include <java/lang/IndexOutOfBoundsException.h>
#include <java/lang/ArrayIndexOutOfBoundsException.h>
#include <java/lang/StringIndexOutOfBoundsException.h>
#include <java/lang/NullPointerException.h>
#include <java/lang/StringBuffer.h>
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#include <java/io/ByteArrayOutputStream.h>
#include <java/io/OutputStreamWriter.h>
#include <java/io/ByteArrayInputStream.h>
#include <java/io/InputStreamReader.h>
#include <java/util/Locale.h>
#include <gnu/gcj/convert/UnicodeToBytes.h>
#include <gnu/gcj/convert/BytesToUnicode.h>
#include <gnu/gcj/runtime/StringBuffer.h>
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#include <jvm.h>
static jstring* strhash = NULL;
static int strhash_count = 0; /* Number of slots used in strhash. */
static int strhash_size = 0; /* Number of slots available in strhash.
* Assumed be power of 2! */
// Some defines used by toUpperCase / toLowerCase.
#define ESSET 0x00df
#define CAPITAL_S 0x0053
#define SMALL_I 0x0069
#define CAPITAL_I_WITH_DOT 0x0130
#define SMALL_DOTLESS_I 0x0131
#define CAPITAL_I 0x0049
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#define DELETED_STRING ((jstring)(~0))
#define SET_STRING_IS_INTERNED(STR) /* nothing */
#define UNMASK_PTR(Ptr) (((unsigned long) (Ptr)) & ~0x01)
#define MASK_PTR(Ptr) (((unsigned long) (Ptr)) | 0x01)
#define PTR_MASKED(Ptr) (((unsigned long) (Ptr)) & 0x01)
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/* Find a slot where the string with elements DATA, length LEN,
and hash HASH should go in the strhash table of interned strings. */
jstring*
_Jv_StringFindSlot (jchar* data, jint len, jint hash)
{
JvSynchronize sync (&java::lang::String::class$);
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int start_index = hash & (strhash_size - 1);
int deleted_index = -1;
int index = start_index;
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/* step must be non-zero, and relatively prime with strhash_size. */
jint step = (hash ^ (hash >> 16)) | 1;
do
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{
jstring* ptr = &strhash[index];
jstring value = (jstring) UNMASK_PTR (*ptr);
if (value == NULL)
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{
if (deleted_index >= 0)
return (&strhash[deleted_index]);
else
return ptr;
}
else if (*ptr == DELETED_STRING)
deleted_index = index;
else if (value->length() == len
&& memcmp(JvGetStringChars(value), data, 2*len) == 0)
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return (ptr);
index = (index + step) & (strhash_size - 1);
}
while (index != start_index);
// Note that we can have INDEX == START_INDEX if the table has no
// NULL entries but does have DELETED_STRING entries.
JvAssert (deleted_index >= 0);
return &strhash[deleted_index];
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}
/* Calculate a hash code for the string starting at PTR at given LENGTH.
This uses the same formula as specified for java.lang.String.hash. */
static jint
hashChars (jchar* ptr, jint length)
{
jchar* limit = ptr + length;
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jint hash = 0;
// Updated specification from
// http://www.javasoft.com/docs/books/jls/clarify.html.
while (ptr < limit)
hash = (31 * hash) + *ptr++;
return hash;
}
jint
java::lang::String::hashCode()
{
if (cachedHashCode == 0)
cachedHashCode = hashChars(JvGetStringChars(this), length());
return cachedHashCode;
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}
jstring*
_Jv_StringGetSlot (jstring str)
{
jchar* data = JvGetStringChars(str);
int length = str->length();
return _Jv_StringFindSlot(data, length, hashChars (data, length));
}
static void
rehash ()
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{
JvSynchronize sync (&java::lang::String::class$);
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if (strhash == NULL)
{
strhash_size = 1024;
[multiple changes] 2001-05-23 Tom Tromey <tromey@redhat.com> * posix-threads.cc (_Jv_self_cache): Renamed from self_cache. * gcj/Makefile.in: Rebuilt. * gcj/Makefile.am (gcj_HEADERS): Added libgcj-config.h. * gcj/javaprims.h: Include gcj/libgcj-config.h. * gcj/libgcj-config.h.in: New file. * libgcj.spec.in (*jc1): Added @HASH_SYNC_SPEC@. * configure: Rebuilt. * configure.in: Enable hash synchronization by default on some platforms. (HASH_SYNC_SPEC): New subst. (AC_CONFIG_HEADER): Added gcj/libgcj-config.h. Correctly use `test -z' instead of `test -n' in a couple places. (JV_HASH_SYNCHRONIZATION): Use AC_DEFINE; don't add to LIBGCJ_CXXFLAGS. * configure.host (enable_java_net_default): Initialize. (enable_hash_synchronization_default): New variable. 2001-05-23 Hans Boehm <Hans_Boehm@hp.com> * boehm.cc (_Jv_MarkObj): Don't mark sync_info when hash synchronization in use. (_Jv_MarkArray): Likewise. (_Jv_AllocBytes): Don't check return result. (handle_out_of_memory): New function. (_Jv_InitGC): Set GC_oom_fn. (trace_one_vtable): New global. (_Jv_AllocTraceOne): New function. * configure.in: Added --enable-hash-synchronization. * defineclass.cc, prims.cc, resolve.cc, java/lang/natString.cc, java/net/natInetAddress.cc: Remove _Jv_AllocBytesChecked. * nogc.cc (_Jv_AllocObj): Throw out-of-memory. (_Jv_AllocArray): Likewise. (_Jv_AllocBytes): Likewise. (_Jv_AllocPtrFreeObject): New function. (_Jv_AllocTraceOne): Likewise. * posix-threads.cc (_Jv_ThreadRegister): Handle slow pthread_self(). (self_cache): New global. (_Jv_ThreadSelf_out_of_line): New function. * prims.cc (_Jv_AllocBytesChecked): Removed. (_Jv_ThrowNoMemory): New function. (_Jv_AllocObject): Don't check for null return from allocator. (_Jv_NewObjectArray): Likewise. (_Jv_AllocPtrFreeObject): New function. (_Jv_NewPrimArray): Allocate pointer-free object if possible. * include/javaprims.h (_Jv_AllocPtrFreeObject): Declare. (_Jv_MonitorEnter, _Jv_MonitorExit): Don't return value. * include/boehm-gc.h (_Jv_AllocObj): Define. (_Jv_AllocPtrFreeObj): Define. * include/jvm.h (_Jv_AllocPtrFreeObj): Declare. (_Jv_ThrowNoMemory): Declare. (_Jv_AllocTraceOne): Declare. (_Jv_AllocBytesChecked): Removed. * include/posix-threads.h (_Jv_MutexInit, _Jv_MutexLock, _Jv_MutexUnlock): Handle LOCK_DEBUG. (_Jv_ThreadSelf): Handle case where system pthread_self() is slow. * java/lang/Class.h (Class): Declare _Jv_AllocPtrFreeObj as friend. * java/lang/Object.h (sync_info): Conditional upon presence of hash synchronization. * java/lang/natObject.cc: Much new code to handle thin locks and hash synchronization. * java/lang/natString.cc (_Jv_AllocString): Allocate pointer-free object if possible. From-SVN: r42519
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strhash = (jstring *) _Jv_AllocBytes (strhash_size * sizeof (jstring));
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}
else
{
int i = strhash_size;
jstring* ptr = strhash + i;
int nsize = strhash_size * 2;
[multiple changes] 2001-05-23 Tom Tromey <tromey@redhat.com> * posix-threads.cc (_Jv_self_cache): Renamed from self_cache. * gcj/Makefile.in: Rebuilt. * gcj/Makefile.am (gcj_HEADERS): Added libgcj-config.h. * gcj/javaprims.h: Include gcj/libgcj-config.h. * gcj/libgcj-config.h.in: New file. * libgcj.spec.in (*jc1): Added @HASH_SYNC_SPEC@. * configure: Rebuilt. * configure.in: Enable hash synchronization by default on some platforms. (HASH_SYNC_SPEC): New subst. (AC_CONFIG_HEADER): Added gcj/libgcj-config.h. Correctly use `test -z' instead of `test -n' in a couple places. (JV_HASH_SYNCHRONIZATION): Use AC_DEFINE; don't add to LIBGCJ_CXXFLAGS. * configure.host (enable_java_net_default): Initialize. (enable_hash_synchronization_default): New variable. 2001-05-23 Hans Boehm <Hans_Boehm@hp.com> * boehm.cc (_Jv_MarkObj): Don't mark sync_info when hash synchronization in use. (_Jv_MarkArray): Likewise. (_Jv_AllocBytes): Don't check return result. (handle_out_of_memory): New function. (_Jv_InitGC): Set GC_oom_fn. (trace_one_vtable): New global. (_Jv_AllocTraceOne): New function. * configure.in: Added --enable-hash-synchronization. * defineclass.cc, prims.cc, resolve.cc, java/lang/natString.cc, java/net/natInetAddress.cc: Remove _Jv_AllocBytesChecked. * nogc.cc (_Jv_AllocObj): Throw out-of-memory. (_Jv_AllocArray): Likewise. (_Jv_AllocBytes): Likewise. (_Jv_AllocPtrFreeObject): New function. (_Jv_AllocTraceOne): Likewise. * posix-threads.cc (_Jv_ThreadRegister): Handle slow pthread_self(). (self_cache): New global. (_Jv_ThreadSelf_out_of_line): New function. * prims.cc (_Jv_AllocBytesChecked): Removed. (_Jv_ThrowNoMemory): New function. (_Jv_AllocObject): Don't check for null return from allocator. (_Jv_NewObjectArray): Likewise. (_Jv_AllocPtrFreeObject): New function. (_Jv_NewPrimArray): Allocate pointer-free object if possible. * include/javaprims.h (_Jv_AllocPtrFreeObject): Declare. (_Jv_MonitorEnter, _Jv_MonitorExit): Don't return value. * include/boehm-gc.h (_Jv_AllocObj): Define. (_Jv_AllocPtrFreeObj): Define. * include/jvm.h (_Jv_AllocPtrFreeObj): Declare. (_Jv_ThrowNoMemory): Declare. (_Jv_AllocTraceOne): Declare. (_Jv_AllocBytesChecked): Removed. * include/posix-threads.h (_Jv_MutexInit, _Jv_MutexLock, _Jv_MutexUnlock): Handle LOCK_DEBUG. (_Jv_ThreadSelf): Handle case where system pthread_self() is slow. * java/lang/Class.h (Class): Declare _Jv_AllocPtrFreeObj as friend. * java/lang/Object.h (sync_info): Conditional upon presence of hash synchronization. * java/lang/natObject.cc: Much new code to handle thin locks and hash synchronization. * java/lang/natString.cc (_Jv_AllocString): Allocate pointer-free object if possible. From-SVN: r42519
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jstring *next = (jstring *) _Jv_AllocBytes (nsize * sizeof (jstring));
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while (--i >= 0)
{
--ptr;
if (*ptr == NULL || *ptr == DELETED_STRING)
continue;
/* This is faster equivalent of
* *__JvGetInternSlot(*ptr) = *ptr; */
jstring val = (jstring) UNMASK_PTR (*ptr);
jint hash = val->hashCode();
jint index = hash & (nsize - 1);
jint step = (hash ^ (hash >> 16)) | 1;
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for (;;)
{
if (next[index] == NULL)
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{
next[index] = *ptr;
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break;
}
index = (index + step) & (nsize - 1);
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}
}
strhash_size = nsize;
strhash = next;
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}
}
jstring
java::lang::String::intern()
{
JvSynchronize sync (&java::lang::String::class$);
if (3 * strhash_count >= 2 * strhash_size)
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rehash();
jstring* ptr = _Jv_StringGetSlot(this);
if (*ptr != NULL && *ptr != DELETED_STRING)
{
// See description in _Jv_FinalizeString() to understand this.
*ptr = (jstring) MASK_PTR (*ptr);
return (jstring) UNMASK_PTR (*ptr);
}
jstring str = (this->data == this
? this
: _Jv_NewString(JvGetStringChars(this), this->length()));
SET_STRING_IS_INTERNED(str);
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strhash_count++;
*ptr = str;
// When string is GC'd, clear the slot in the hash table.
_Jv_RegisterStringFinalizer (str);
return str;
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}
// The fake String finalizer. This is only used when the String has
// been intern()d. However, we must check this case, as it might be
// called by the Reference code for any String.
void
_Jv_FinalizeString (jobject obj)
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{
JvSynchronize sync (&java::lang::String::class$);
// We might not actually have intern()d any strings at all, if
// we're being called from Reference.
if (! strhash)
return;
jstring str = reinterpret_cast<jstring> (obj);
jstring *ptr = _Jv_StringGetSlot(str);
if (*ptr == NULL || *ptr == DELETED_STRING
|| (jobject) UNMASK_PTR (*ptr) != obj)
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return;
// We assume the lowest bit of the pointer is free for our nefarious
// manipulations. What we do is set it to `0' (implicitly) when
// interning the String. If we subsequently re-intern the same
// String, then we set the bit. When finalizing, if the bit is set
// then we clear it and re-register the finalizer. We know this is
// a safe approach because both intern() and _Jv_FinalizeString()
// acquire the class lock; this bit can't be manipulated when the
// lock is not held. So if we are finalizing and the bit is clear
// then we know all references are gone and we can clear the entry
// in the hash table. The naive approach of simply clearing the
// pointer here fails in the case where a request to intern a new
// string with the same contents is made between the time the
// intern()d string is found to be unreachable and when the
// finalizer is actually run. In this case we could clear a pointer
// to a valid string, and future intern() calls for that particular
// value would spuriously fail.
if (PTR_MASKED (*ptr))
{
*ptr = (jstring) UNMASK_PTR (*ptr);
_Jv_RegisterStringFinalizer (obj);
}
else
{
*ptr = DELETED_STRING;
strhash_count--;
}
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}
jstring
_Jv_NewStringUTF (const char *bytes)
{
int size = strlen (bytes);
unsigned char *p = (unsigned char *) bytes;
int length = _Jv_strLengthUtf8 ((char *) p, size);
if (length < 0)
return NULL;
jstring jstr = JvAllocString (length);
jchar *chrs = JvGetStringChars (jstr);
p = (unsigned char *) bytes;
unsigned char *limit = p + size;
while (p < limit)
*chrs++ = UTF8_GET (p, limit);
return jstr;
}
jstring
_Jv_NewStringUtf8Const (Utf8Const* str)
{
jchar *chrs;
jchar buffer[100];
jstring jstr;
unsigned char* data = (unsigned char*) str->data;
unsigned char* limit = data + str->length;
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int length = _Jv_strLengthUtf8(str->data, str->length);
if (length <= (int) (sizeof(buffer) / sizeof(jchar)))
{
jstr = NULL;
chrs = buffer;
}
else
{
jstr = JvAllocString(length);
chrs = JvGetStringChars(jstr);
}
jint hash = 0;
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while (data < limit)
{
jchar ch = UTF8_GET(data, limit);
hash = (31 * hash) + ch;
*chrs++ = ch;
}
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chrs -= length;
JvSynchronize sync (&java::lang::String::class$);
if (3 * strhash_count >= 2 * strhash_size)
rehash();
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jstring* ptr = _Jv_StringFindSlot (chrs, length, hash);
if (*ptr != NULL && *ptr != DELETED_STRING)
return (jstring) UNMASK_PTR (*ptr);
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strhash_count++;
if (jstr == NULL)
{
jstr = JvAllocString(length);
chrs = JvGetStringChars(jstr);
memcpy (chrs, buffer, sizeof(jchar)*length);
}
jstr->cachedHashCode = hash;
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*ptr = jstr;
SET_STRING_IS_INTERNED(jstr);
// When string is GC'd, clear the slot in the hash table. Note that
// we don't have to call _Jv_RegisterStringFinalizer here, as we
// know the new object cannot be referred to by a Reference.
_Jv_RegisterFinalizer ((void *) jstr, _Jv_FinalizeString);
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return jstr;
}
jsize
_Jv_GetStringUTFLength (jstring string)
{
jsize len = 0;
jchar *ptr = JvGetStringChars (string);
jsize i = string->length();
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while (--i >= 0)
{
jchar ch = *ptr++;
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if (ch > 0 && ch <= 0x7F)
len += 1;
else if (ch <= 0x7FF)
len += 2;
else
len += 3;
}
return len;
}
// Not sure this quite matches GetStringUTFRegion.
// null-termination of result? len? throw exception?
jsize
_Jv_GetStringUTFRegion (jstring str, jsize start, jsize len, char *buf)
{
jchar *sptr = JvGetStringChars (str) + start;
jsize i = len;
char *dptr = buf;
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while (--i >= 0)
{
jchar ch = *sptr++;
if (ch > 0 && ch <= 0x7F)
*dptr++ = (char) ch;
else if (ch <= 0x7FF)
{
*dptr++ = (char) (0xC0 + ((ch >> 6) & 0x1F));
*dptr++ = (char) (0x80 + (ch & 0x3F));
}
else
{
*dptr++ = (char) (0xE0 + ((ch >> 12) & 0xF));
*dptr++ = (char) (0x80 + ((ch >> 6) & 0x3F));
*dptr++ = (char) (0x80 + (ch & 0x3F));
}
}
return dptr - buf;
}
/* Put printed (decimal) representation of NUM in a buffer.
BUFEND marks the end of the buffer, which must be at least 11 jchars long.
Returns the COUNT of jchars written. The result is in
(BUFEND - COUNT) (inclusive) upto (BUFEND) (exclusive). */
jint
_Jv_FormatInt (jchar* bufend, jint num)
{
register jchar* ptr = bufend;
jboolean isNeg;
if (num < 0)
{
isNeg = true;
num = -(num);
if (num < 0)
{
// Must be MIN_VALUE, so handle this special case.
// FIXME use 'unsigned jint' for num.
*--ptr = '8';
num = 214748364;
}
}
else
isNeg = false;
do
{
*--ptr = (jchar) ((int) '0' + (num % 10));
num /= 10;
}
while (num > 0);
if (isNeg)
*--ptr = '-';
return bufend - ptr;
}
jstring
java::lang::String::valueOf (jint num)
{
// Use an array large enough for "-2147483648"; i.e. 11 chars.
jchar buffer[11];
int i = _Jv_FormatInt (buffer+11, num);
return _Jv_NewString (buffer+11-i, i);
}
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jstring
_Jv_NewString(const jchar *chars, jsize len)
{
jstring str = _Jv_AllocString(len);
jchar* data = JvGetStringChars (str);
memcpy (data, chars, len * sizeof (jchar));
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return str;
}
jstring
_Jv_NewStringLatin1(const char *bytes, jsize len)
{
jstring str = JvAllocString(len);
jchar* data = JvGetStringChars (str);
while (--len >= 0)
*data++ = *(unsigned char*)bytes++;
return str;
}
void
java::lang::String::init(jcharArray chars, jint offset, jint count,
jboolean dont_copy)
{
if (! chars)
throw new NullPointerException;
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jsize data_size = JvGetArrayLength (chars);
if (offset < 0 || count < 0 || offset + count < 0
|| offset + count > data_size)
throw new ArrayIndexOutOfBoundsException;
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jcharArray array;
jchar *pdst;
if (! dont_copy)
{
array = JvNewCharArray(count);
pdst = elements (array);
memcpy (pdst, elements (chars) + offset, count * sizeof (jchar));
}
else
{
array = chars;
pdst = &(elements(array)[offset]);
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}
data = array;
boffset = (char *) pdst - (char *) array;
this->count = count;
}
void
java::lang::String::init(jbyteArray ascii, jint hibyte, jint offset,
jint count)
{
if (! ascii)
throw new NullPointerException;
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jsize data_size = JvGetArrayLength (ascii);
if (offset < 0 || count < 0 || offset + count < 0
|| offset + count > data_size)
throw new ArrayIndexOutOfBoundsException;
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jcharArray array = JvNewCharArray(count);
jbyte *psrc = elements (ascii) + offset;
jchar *pdst = elements (array);
data = array;
boffset = (char *) pdst - (char *) array;
this->count = count;
hibyte = (hibyte & 0xff) << 8;
while (-- count >= 0)
{
*pdst++ = hibyte | (*psrc++ & 0xff);
}
}
void
java::lang::String::init (jbyteArray bytes, jint offset, jint count,
jstring encoding)
{
if (! bytes)
throw new NullPointerException;
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jsize data_size = JvGetArrayLength (bytes);
if (offset < 0 || count < 0 || offset + count < 0
|| offset + count > data_size)
throw new ArrayIndexOutOfBoundsException;
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jcharArray array = JvNewCharArray (count);
gnu::gcj::convert::BytesToUnicode *converter
= gnu::gcj::convert::BytesToUnicode::getDecoder(encoding);
jint outpos = 0;
int avail = count;
converter->setInput(bytes, offset, offset+count);
while (converter->inpos < converter->inlength)
{
int done = converter->read(array, outpos, avail);
if (done == 0)
{
jint new_size = 2 * (outpos + avail);
jcharArray new_array = JvNewCharArray (new_size);
memcpy (elements (new_array), elements (array),
outpos * sizeof(jchar));
array = new_array;
avail = new_size - outpos;
}
else
{
outpos += done;
avail -= done;
}
}
converter->done ();
this->data = array;
this->boffset = (char *) elements (array) - (char *) array;
this->count = outpos;
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}
void
java::lang::String::init (gnu::gcj::runtime::StringBuffer *buffer)
{
init (buffer->value, 0, buffer->count, true);
}
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jboolean
java::lang::String::equals(jobject anObject)
{
if (anObject == NULL)
return false;
if (anObject == this)
return true;
if (anObject->getClass() != &java::lang::String::class$)
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return false;
jstring other = (jstring) anObject;
if (count != other->count)
return false;
// If both have cached hash codes, check that. If the cached hash
// codes are zero, don't bother trying to compute them.
int myHash = cachedHashCode;
int otherHash = other->cachedHashCode;
if (myHash && otherHash && myHash != otherHash)
return false;
// We could see if both are interned, and return false. But that
// seems too expensive.
jchar *xptr = JvGetStringChars (this);
jchar *yptr = JvGetStringChars (other);
return ! memcmp (xptr, yptr, count * sizeof (jchar));
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}
jboolean
java::lang::String::contentEquals(java::lang::StringBuffer* buffer)
{
if (buffer == NULL)
throw new NullPointerException;
JvSynchronize sync(buffer);
if (count != buffer->count)
return false;
if (data == buffer->value)
return true; // Possible if shared.
jchar *xptr = JvGetStringChars(this);
jchar *yptr = elements(buffer->value);
return ! memcmp (xptr, yptr, count * sizeof (jchar));
}
jboolean
java::lang::String::contentEquals(java::lang::CharSequence *seq)
{
if (seq->length() != count)
return false;
jchar *value = JvGetStringChars(this);
for (int i = 0; i < count; ++i)
if (value[i] != seq->charAt(i))
return false;
return true;
}
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jchar
java::lang::String::charAt(jint i)
{
if (i < 0 || i >= count)
throw new java::lang::StringIndexOutOfBoundsException(i);
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return JvGetStringChars(this)[i];
}
void
java::lang::String::getChars(jint srcBegin, jint srcEnd,
jcharArray dst, jint dstBegin)
{
jint dst_length = JvGetArrayLength (dst);
if (srcBegin < 0 || srcBegin > srcEnd || srcEnd > count)
throw new java::lang::StringIndexOutOfBoundsException;
// The 2nd part of the test below is equivalent to
// dstBegin + (srcEnd-srcBegin) > dst_length
// except that it does not overflow.
if (dstBegin < 0 || dstBegin > dst_length - (srcEnd-srcBegin))
throw new ArrayIndexOutOfBoundsException;
jchar *dPtr = elements (dst) + dstBegin;
jchar *sPtr = JvGetStringChars (this) + srcBegin;
jint i = srcEnd - srcBegin;
memcpy (dPtr, sPtr, i * sizeof (jchar));
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}
jbyteArray
java::lang::String::getBytes (jstring enc)
{
jint todo = length();
jint buflen = todo;
jbyteArray buffer = JvNewByteArray(todo);
jint bufpos = 0;
jint offset = 0;
gnu::gcj::convert::UnicodeToBytes *converter
= gnu::gcj::convert::UnicodeToBytes::getEncoder(enc);
while (todo > 0 || converter->havePendingBytes())
{
converter->setOutput(buffer, bufpos);
// We only really need to do a single write.
converter->setFinished();
int converted = converter->write(this, offset, todo, NULL);
bufpos = converter->count;
if (converted == 0 && bufpos == converter->count)
{
buflen *= 2;
jbyteArray newbuffer = JvNewByteArray(buflen);
memcpy (elements (newbuffer), elements (buffer), bufpos);
buffer = newbuffer;
}
else
bufpos = converter->count;
offset += converted;
todo -= converted;
}
converter->done ();
if (bufpos == buflen)
return buffer;
jbyteArray result = JvNewByteArray(bufpos);
memcpy (elements (result), elements (buffer), bufpos);
return result;
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}
void
java::lang::String::getBytes(jint srcBegin, jint srcEnd,
jbyteArray dst, jint dstBegin)
{
jint dst_length = JvGetArrayLength (dst);
if (srcBegin < 0 || srcBegin > srcEnd || srcEnd > count)
throw new java::lang::StringIndexOutOfBoundsException;
// The 2nd part of the test below is equivalent to
// dstBegin + (srcEnd-srcBegin) > dst_length
// except that it does not overflow.
if (dstBegin < 0 || dstBegin > dst_length - (srcEnd-srcBegin))
throw new ArrayIndexOutOfBoundsException;
jbyte *dPtr = elements (dst) + dstBegin;
jchar *sPtr = JvGetStringChars (this) + srcBegin;
jint i = srcEnd-srcBegin;
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while (--i >= 0)
*dPtr++ = (jbyte) *sPtr++;
}
jcharArray
java::lang::String::toCharArray()
{
jcharArray array = JvNewCharArray(count);
jchar *dPtr = elements (array);
jchar *sPtr = JvGetStringChars (this);
jint i = count;
memcpy (dPtr, sPtr, i * sizeof (jchar));
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return array;
}
jboolean
java::lang::String::equalsIgnoreCase (jstring anotherString)
{
if (anotherString == NULL || count != anotherString->count)
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return false;
jchar *tptr = JvGetStringChars (this);
jchar *optr = JvGetStringChars (anotherString);
jint i = count;
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while (--i >= 0)
{
jchar tch = *tptr++;
jchar och = *optr++;
if (tch != och
&& (java::lang::Character::toLowerCase (tch)
!= java::lang::Character::toLowerCase (och))
&& (java::lang::Character::toUpperCase (tch)
!= java::lang::Character::toUpperCase (och)))
return false;
}
return true;
}
jboolean
java::lang::String::regionMatches (jint toffset,
jstring other, jint ooffset, jint len)
{
if (toffset < 0 || ooffset < 0 || len < 0
|| toffset > count - len
|| ooffset > other->count - len)
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return false;
jchar *tptr = JvGetStringChars (this) + toffset;
jchar *optr = JvGetStringChars (other) + ooffset;
jint i = len;
return ! memcmp (tptr, optr, i * sizeof (jchar));
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}
jint
java::lang::String::compareTo (jstring anotherString)
{
jchar *tptr = JvGetStringChars (this);
jchar *optr = JvGetStringChars (anotherString);
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jint tlen = this->count;
jint olen = anotherString->count;
jint i = tlen > olen ? olen : tlen;
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while (--i >= 0)
{
jchar tch = *tptr++;
jchar och = *optr++;
if (tch != och)
return (jint) tch - (jint) och;
}
return tlen - olen;
}
jboolean
java::lang::String::regionMatches (jboolean ignoreCase, jint toffset,
jstring other, jint ooffset, jint len)
{
if (toffset < 0 || ooffset < 0 || len < 0
|| toffset > count - len
|| ooffset > other->count - len)
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return false;
jchar *tptr = JvGetStringChars (this) + toffset;
jchar *optr = JvGetStringChars (other) + ooffset;
jint i = len;
if (ignoreCase)
{
while (--i >= 0)
{
jchar tch = *tptr++;
jchar och = *optr++;
if ((java::lang::Character::toLowerCase (tch)
!= java::lang::Character::toLowerCase (och))
&& (java::lang::Character::toUpperCase (tch)
!= java::lang::Character::toUpperCase (och)))
return false;
}
return true;
}
return ! memcmp (tptr, optr, i * sizeof (jchar));
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}
jboolean
java::lang::String::startsWith (jstring prefix, jint toffset)
{
jint i = prefix->count;
if (toffset < 0 || toffset > count - i)
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return false;
jchar *xptr = JvGetStringChars (this) + toffset;
jchar *yptr = JvGetStringChars (prefix);
return ! memcmp (xptr, yptr, i * sizeof (jchar));
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}
jint
java::lang::String::indexOf (jint ch, jint fromIndex)
{
if (fromIndex < 0)
fromIndex = 0;
jchar *ptr = JvGetStringChars(this);
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for (;; ++fromIndex)
{
if (fromIndex >= count)
return -1;
if (ptr[fromIndex] == ch)
return fromIndex;
}
}
jint
java::lang::String::indexOf (jstring s, jint fromIndex)
{
const jchar *const xchars = JvGetStringChars(s);
const jchar *const ychars = JvGetStringChars(this) + fromIndex;
const int xlength = s->length ();
const int ylength = length () - fromIndex;
int i = 0;
int j = 0;
while (i < ylength && j < xlength)
{
if (xchars[j] != ychars[i])
{
i = i - j + 1;
j = 0;
}
else
i++, j++;
}
if (j >= xlength)
return fromIndex + i - xlength;
else
return -1;
}
jint
java::lang::String::lastIndexOf (jint ch, jint fromIndex)
{
if (fromIndex >= count)
fromIndex = count - 1;
jchar *ptr = JvGetStringChars(this);
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for (;; --fromIndex)
{
if (fromIndex < 0)
return -1;
if (ptr[fromIndex] == ch)
return fromIndex;
}
}
jstring
java::lang::String::substring (jint beginIndex, jint endIndex)
{
if (beginIndex < 0 || endIndex > count || beginIndex > endIndex)
throw new StringIndexOutOfBoundsException;
if (beginIndex == 0 && endIndex == count)
return this;
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jint newCount = endIndex - beginIndex;
// For very small strings, just allocate a new one. For other
// substrings, allocate a new one unless the substring is over half
// of the original string.
if (newCount <= 8 || newCount < (count >> 1))
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return JvNewString(JvGetStringChars(this) + beginIndex, newCount);
jstring s = new String();
s->data = data;
s->count = newCount;
s->boffset = boffset + sizeof(jchar) * beginIndex;
return s;
}
jstring
java::lang::String::concat(jstring str)
{
jint str_count = str->count;
if (str_count == 0)
return this;
jstring result = JvAllocString(count + str_count);
jchar *dstPtr = JvGetStringChars(result);
jchar *srcPtr = JvGetStringChars(this);
jint i = count;
memcpy (dstPtr, srcPtr, i * sizeof (jchar));
dstPtr += i;
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srcPtr = JvGetStringChars(str);
i = str->count;
memcpy (dstPtr, srcPtr, i * sizeof (jchar));
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return result;
}
jstring
java::lang::String::replace (jchar oldChar, jchar newChar)
{
jint i;
jchar* chrs = JvGetStringChars (this);
for (i = 0; ; i++)
{
if (i == count)
return this;
if (chrs[i] == oldChar)
break;
}
jstring result = JvAllocString (count);
jchar *dPtr = JvGetStringChars (result);
for (int j = 0; j < i; j++)
*dPtr++ = chrs[j];
for (; i < count; i++)
{
jchar ch = chrs[i];
if (ch == oldChar)
ch = newChar;
*dPtr++ = ch;
}
return result;
}
jstring
java::lang::String::toLowerCase (java::util::Locale *locale)
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{
jint i;
jchar* chrs = JvGetStringChars(this);
jchar ch = 0;
bool handle_tr = false;
if (locale != NULL)
{
String *lang = locale->getLanguage ();
if (lang->length () == 2
&& lang->charAt (0) == 't'
&& lang->charAt (1) == 'r')
handle_tr = true;
}
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for (i = 0; ; i++)
{
if (i == count)
return this;
jchar origChar = chrs[i];
if (handle_tr && (origChar == CAPITAL_I
|| origChar == CAPITAL_I_WITH_DOT))
break;
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ch = java::lang::Character::toLowerCase(origChar);
if (ch != origChar)
break;
}
jstring result = JvAllocString(count);
jchar *dPtr = JvGetStringChars (result);
for (int j = 0; j < i; j++)
*dPtr++ = chrs[j];
*dPtr++ = ch; i++;
for (; i < count; i++)
{
if (handle_tr && chrs[i] == CAPITAL_I)
*dPtr++ = SMALL_DOTLESS_I;
else if (handle_tr && chrs[i] == CAPITAL_I_WITH_DOT)
*dPtr++ = SMALL_I;
else
*dPtr++ = java::lang::Character::toLowerCase(chrs[i]);
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}
return result;
}
jstring
java::lang::String::toUpperCase (java::util::Locale *locale)
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{
jint i;
jchar* chrs = JvGetStringChars(this);
jchar ch;
// When handling a specific locale there might be special rules.
// Currently all existing rules are simply handled inline, as there
// are only two and they are documented in the online 1.2 docs.
bool handle_esset = locale != NULL;
bool handle_tr = false;
if (locale != NULL)
{
String *lang = locale->getLanguage ();
if (lang->length () == 2
&& lang->charAt (0) == 't'
&& lang->charAt (1) == 'r')
handle_tr = true;
}
int new_count = count;
bool new_string = false;
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for (i = 0; ; i++)
{
if (i == count)
break;
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jchar origChar = chrs[i];
if (handle_esset && origChar == ESSET)
{
++new_count;
new_string = true;
}
else if (handle_tr && (origChar == SMALL_I
|| origChar == SMALL_DOTLESS_I))
new_string = true;
else
{
ch = java::lang::Character::toUpperCase(origChar);
if (ch != origChar)
new_string = true;
}
if (new_string && ! handle_esset)
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break;
}
if (! new_string)
return this;
jstring result = JvAllocString(new_count);
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jchar *dPtr = JvGetStringChars (result);
for (i = 0; i < count; i++)
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{
if (handle_esset && chrs[i] == ESSET)
{
*dPtr++ = CAPITAL_S;
*dPtr++ = CAPITAL_S;
}
else if (handle_tr && chrs[i] == SMALL_I)
*dPtr++ = CAPITAL_I_WITH_DOT;
else if (handle_tr && chrs[i] == SMALL_DOTLESS_I)
*dPtr++ = CAPITAL_I;
else
*dPtr++ = java::lang::Character::toUpperCase(chrs[i]);
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}
return result;
}
jstring
java::lang::String::trim ()
{
jchar* chrs = JvGetStringChars(this);
if (count == 0 || (chrs[0] > ' ' && chrs[count-1] > ' '))
return this;
jint preTrim = 0;
for (;; preTrim++)
{
if (preTrim == count)
return new String();
if (chrs[preTrim] > ' ')
break;
}
jint endTrim = count;
while (chrs[endTrim-1] <= ' ')
endTrim--;
return substring(preTrim, endTrim);
}
jstring
java::lang::String::valueOf(jcharArray data, jint offset, jint count)
{
jint data_length = JvGetArrayLength (data);
if (offset < 0 || count < 0 || offset > data_length - count)
throw new ArrayIndexOutOfBoundsException;
jstring result = JvAllocString(count);
jchar *sPtr = elements (data) + offset;
jchar *dPtr = JvGetStringChars(result);
memcpy (dPtr, sPtr, count * sizeof (jchar));
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return result;
}
jstring
java::lang::String::valueOf(jchar c)
{
jstring result = JvAllocString(1);
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JvGetStringChars (result)[0] = c;
return result;
}