6395208: Elide autoboxing for calls to HashMap.get(int) and HashMap.get(long)
Reviewed-by: kvn, rasbold
/*
* Copyright 1997-2006 Sun Microsystems, Inc. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*
*/
# include "incls/_precompiled.incl"
# include "incls/_symbolTable.cpp.incl"
// --------------------------------------------------------------------------
SymbolTable* SymbolTable::_the_table = NULL;
// Lookup a symbol in a bucket.
symbolOop SymbolTable::lookup(int index, const char* name,
int len, unsigned int hash) {
for (HashtableEntry* e = bucket(index); e != NULL; e = e->next()) {
if (e->hash() == hash) {
symbolOop sym = symbolOop(e->literal());
if (sym->equals(name, len)) {
return sym;
}
}
}
return NULL;
}
// We take care not to be blocking while holding the
// SymbolTable_lock. Otherwise, the system might deadlock, since the
// symboltable is used during compilation (VM_thread) The lock free
// synchronization is simplified by the fact that we do not delete
// entries in the symbol table during normal execution (only during
// safepoints).
symbolOop SymbolTable::lookup(const char* name, int len, TRAPS) {
unsigned int hashValue = hash_symbol(name, len);
int index = the_table()->hash_to_index(hashValue);
symbolOop s = the_table()->lookup(index, name, len, hashValue);
// Found
if (s != NULL) return s;
// Otherwise, add to symbol to table
return the_table()->basic_add(index, (u1*)name, len, hashValue, CHECK_NULL);
}
symbolOop SymbolTable::lookup(symbolHandle sym, int begin, int end, TRAPS) {
char* buffer;
int index, len;
unsigned int hashValue;
char* name;
{
debug_only(No_Safepoint_Verifier nsv;)
name = (char*)sym->base() + begin;
len = end - begin;
hashValue = hash_symbol(name, len);
index = the_table()->hash_to_index(hashValue);
symbolOop s = the_table()->lookup(index, name, len, hashValue);
// Found
if (s != NULL) return s;
}
// Otherwise, add to symbol to table. Copy to a C string first.
char stack_buf[128];
ResourceMark rm(THREAD);
if (len <= 128) {
buffer = stack_buf;
} else {
buffer = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, char, len);
}
for (int i=0; i<len; i++) {
buffer[i] = name[i];
}
// Make sure there is no safepoint in the code above since name can't move.
// We can't include the code in No_Safepoint_Verifier because of the
// ResourceMark.
return the_table()->basic_add(index, (u1*)buffer, len, hashValue, CHECK_NULL);
}
symbolOop SymbolTable::lookup_only(const char* name, int len,
unsigned int& hash) {
hash = hash_symbol(name, len);
int index = the_table()->hash_to_index(hash);
return the_table()->lookup(index, name, len, hash);
}
void SymbolTable::add(constantPoolHandle cp, int names_count,
const char** names, int* lengths, int* cp_indices,
unsigned int* hashValues, TRAPS) {
SymbolTable* table = the_table();
bool added = table->basic_add(cp, names_count, names, lengths,
cp_indices, hashValues, CHECK);
if (!added) {
// do it the hard way
for (int i=0; i<names_count; i++) {
int index = table->hash_to_index(hashValues[i]);
symbolOop sym = table->basic_add(index, (u1*)names[i], lengths[i],
hashValues[i], CHECK);
cp->symbol_at_put(cp_indices[i], sym);
}
}
}
// Needed for preloading classes in signatures when compiling.
symbolOop SymbolTable::probe(const char* name, int len) {
unsigned int hashValue = hash_symbol(name, len);
int index = the_table()->hash_to_index(hashValue);
return the_table()->lookup(index, name, len, hashValue);
}
symbolOop SymbolTable::basic_add(int index, u1 *name, int len,
unsigned int hashValue, TRAPS) {
assert(!Universe::heap()->is_in_reserved(name) || GC_locker::is_active(),
"proposed name of symbol must be stable");
// We assume that lookup() has been called already, that it failed,
// and symbol was not found. We create the symbol here.
symbolKlass* sk = (symbolKlass*) Universe::symbolKlassObj()->klass_part();
symbolOop s_oop = sk->allocate_symbol(name, len, CHECK_NULL);
symbolHandle sym (THREAD, s_oop);
// Allocation must be done before grapping the SymbolTable_lock lock
MutexLocker ml(SymbolTable_lock, THREAD);
assert(sym->equals((char*)name, len), "symbol must be properly initialized");
// Since look-up was done lock-free, we need to check if another
// thread beat us in the race to insert the symbol.
symbolOop test = lookup(index, (char*)name, len, hashValue);
if (test != NULL) {
// A race occured and another thread introduced the symbol, this one
// will be dropped and collected.
return test;
}
HashtableEntry* entry = new_entry(hashValue, sym());
add_entry(index, entry);
return sym();
}
bool SymbolTable::basic_add(constantPoolHandle cp, int names_count,
const char** names, int* lengths,
int* cp_indices, unsigned int* hashValues,
TRAPS) {
symbolKlass* sk = (symbolKlass*) Universe::symbolKlassObj()->klass_part();
symbolOop sym_oops[symbol_alloc_batch_size];
bool allocated = sk->allocate_symbols(names_count, names, lengths,
sym_oops, CHECK_false);
if (!allocated) {
return false;
}
symbolHandle syms[symbol_alloc_batch_size];
int i;
for (i=0; i<names_count; i++) {
syms[i] = symbolHandle(THREAD, sym_oops[i]);
}
// Allocation must be done before grabbing the SymbolTable_lock lock
MutexLocker ml(SymbolTable_lock, THREAD);
for (i=0; i<names_count; i++) {
assert(syms[i]->equals(names[i], lengths[i]), "symbol must be properly initialized");
// Since look-up was done lock-free, we need to check if another
// thread beat us in the race to insert the symbol.
int index = hash_to_index(hashValues[i]);
symbolOop test = lookup(index, names[i], lengths[i], hashValues[i]);
if (test != NULL) {
// A race occured and another thread introduced the symbol, this one
// will be dropped and collected. Use test instead.
cp->symbol_at_put(cp_indices[i], test);
} else {
symbolOop sym = syms[i]();
HashtableEntry* entry = new_entry(hashValues[i], sym);
add_entry(index, entry);
cp->symbol_at_put(cp_indices[i], sym);
}
}
return true;
}
void SymbolTable::verify() {
for (int i = 0; i < the_table()->table_size(); ++i) {
HashtableEntry* p = the_table()->bucket(i);
for ( ; p != NULL; p = p->next()) {
symbolOop s = symbolOop(p->literal());
guarantee(s != NULL, "symbol is NULL");
s->verify();
guarantee(s->is_perm(), "symbol not in permspace");
unsigned int h = hash_symbol((char*)s->bytes(), s->utf8_length());
guarantee(p->hash() == h, "broken hash in symbol table entry");
guarantee(the_table()->hash_to_index(h) == i,
"wrong index in symbol table");
}
}
}
//---------------------------------------------------------------------------
// Non-product code
#ifndef PRODUCT
void SymbolTable::print_histogram() {
MutexLocker ml(SymbolTable_lock);
const int results_length = 100;
int results[results_length];
int i,j;
// initialize results to zero
for (j = 0; j < results_length; j++) {
results[j] = 0;
}
int total = 0;
int max_symbols = 0;
int out_of_range = 0;
for (i = 0; i < the_table()->table_size(); i++) {
HashtableEntry* p = the_table()->bucket(i);
for ( ; p != NULL; p = p->next()) {
int counter = symbolOop(p->literal())->utf8_length();
total += counter;
if (counter < results_length) {
results[counter]++;
} else {
out_of_range++;
}
max_symbols = MAX2(max_symbols, counter);
}
}
tty->print_cr("Symbol Table:");
tty->print_cr("%8s %5d", "Total ", total);
tty->print_cr("%8s %5d", "Maximum", max_symbols);
tty->print_cr("%8s %3.2f", "Average",
((float) total / (float) the_table()->table_size()));
tty->print_cr("%s", "Histogram:");
tty->print_cr(" %s %29s", "Length", "Number chains that length");
for (i = 0; i < results_length; i++) {
if (results[i] > 0) {
tty->print_cr("%6d %10d", i, results[i]);
}
}
int line_length = 70;
tty->print_cr("%s %30s", " Length", "Number chains that length");
for (i = 0; i < results_length; i++) {
if (results[i] > 0) {
tty->print("%4d", i);
for (j = 0; (j < results[i]) && (j < line_length); j++) {
tty->print("%1s", "*");
}
if (j == line_length) {
tty->print("%1s", "+");
}
tty->cr();
}
}
tty->print_cr(" %s %d: %d\n", "Number chains longer than",
results_length, out_of_range);
}
#endif // PRODUCT
// --------------------------------------------------------------------------
#ifdef ASSERT
class StableMemoryChecker : public StackObj {
enum { _bufsize = wordSize*4 };
address _region;
jint _size;
u1 _save_buf[_bufsize];
int sample(u1* save_buf) {
if (_size <= _bufsize) {
memcpy(save_buf, _region, _size);
return _size;
} else {
// copy head and tail
memcpy(&save_buf[0], _region, _bufsize/2);
memcpy(&save_buf[_bufsize/2], _region + _size - _bufsize/2, _bufsize/2);
return (_bufsize/2)*2;
}
}
public:
StableMemoryChecker(const void* region, jint size) {
_region = (address) region;
_size = size;
sample(_save_buf);
}
bool verify() {
u1 check_buf[sizeof(_save_buf)];
int check_size = sample(check_buf);
return (0 == memcmp(_save_buf, check_buf, check_size));
}
void set_region(const void* region) { _region = (address) region; }
};
#endif
// --------------------------------------------------------------------------
// Compute the hash value for a java.lang.String object which would
// contain the characters passed in. This hash value is used for at
// least two purposes.
//
// (a) As the hash value used by the StringTable for bucket selection
// and comparison (stored in the HashtableEntry structures). This
// is used in the String.intern() method.
//
// (b) As the hash value used by the String object itself, in
// String.hashCode(). This value is normally calculate in Java code
// in the String.hashCode method(), but is precomputed for String
// objects in the shared archive file.
//
// For this reason, THIS ALGORITHM MUST MATCH String.hashCode().
int StringTable::hash_string(jchar* s, int len) {
unsigned h = 0;
while (len-- > 0) {
h = 31*h + (unsigned) *s;
s++;
}
return h;
}
StringTable* StringTable::_the_table = NULL;
oop StringTable::lookup(int index, jchar* name,
int len, unsigned int hash) {
for (HashtableEntry* l = bucket(index); l != NULL; l = l->next()) {
if (l->hash() == hash) {
if (java_lang_String::equals(l->literal(), name, len)) {
return l->literal();
}
}
}
return NULL;
}
oop StringTable::basic_add(int index, Handle string_or_null, jchar* name,
int len, unsigned int hashValue, TRAPS) {
debug_only(StableMemoryChecker smc(name, len * sizeof(name[0])));
assert(!Universe::heap()->is_in_reserved(name) || GC_locker::is_active(),
"proposed name of symbol must be stable");
Handle string;
// try to reuse the string if possible
if (!string_or_null.is_null() && string_or_null()->is_perm()) {
string = string_or_null;
} else {
string = java_lang_String::create_tenured_from_unicode(name, len, CHECK_NULL);
}
// Allocation must be done before grapping the SymbolTable_lock lock
MutexLocker ml(StringTable_lock, THREAD);
assert(java_lang_String::equals(string(), name, len),
"string must be properly initialized");
// Since look-up was done lock-free, we need to check if another
// thread beat us in the race to insert the symbol.
oop test = lookup(index, name, len, hashValue); // calls lookup(u1*, int)
if (test != NULL) {
// Entry already added
return test;
}
HashtableEntry* entry = new_entry(hashValue, string());
add_entry(index, entry);
return string();
}
oop StringTable::lookup(symbolOop symbol) {
ResourceMark rm;
int length;
jchar* chars = symbol->as_unicode(length);
unsigned int hashValue = hash_string(chars, length);
int index = the_table()->hash_to_index(hashValue);
return the_table()->lookup(index, chars, length, hashValue);
}
oop StringTable::intern(Handle string_or_null, jchar* name,
int len, TRAPS) {
unsigned int hashValue = hash_string(name, len);
int index = the_table()->hash_to_index(hashValue);
oop string = the_table()->lookup(index, name, len, hashValue);
// Found
if (string != NULL) return string;
// Otherwise, add to symbol to table
return the_table()->basic_add(index, string_or_null, name, len,
hashValue, CHECK_NULL);
}
oop StringTable::intern(symbolOop symbol, TRAPS) {
if (symbol == NULL) return NULL;
ResourceMark rm(THREAD);
int length;
jchar* chars = symbol->as_unicode(length);
Handle string;
oop result = intern(string, chars, length, CHECK_NULL);
return result;
}
oop StringTable::intern(oop string, TRAPS)
{
if (string == NULL) return NULL;
ResourceMark rm(THREAD);
int length;
Handle h_string (THREAD, string);
jchar* chars = java_lang_String::as_unicode_string(string, length);
oop result = intern(h_string, chars, length, CHECK_NULL);
return result;
}
oop StringTable::intern(const char* utf8_string, TRAPS) {
if (utf8_string == NULL) return NULL;
ResourceMark rm(THREAD);
int length = UTF8::unicode_length(utf8_string);
jchar* chars = NEW_RESOURCE_ARRAY(jchar, length);
UTF8::convert_to_unicode(utf8_string, chars, length);
Handle string;
oop result = intern(string, chars, length, CHECK_NULL);
return result;
}
void StringTable::verify() {
for (int i = 0; i < the_table()->table_size(); ++i) {
HashtableEntry* p = the_table()->bucket(i);
for ( ; p != NULL; p = p->next()) {
oop s = p->literal();
guarantee(s != NULL, "interned string is NULL");
guarantee(s->is_perm(), "interned string not in permspace");
int length;
jchar* chars = java_lang_String::as_unicode_string(s, length);
unsigned int h = hash_string(chars, length);
guarantee(p->hash() == h, "broken hash in string table entry");
guarantee(the_table()->hash_to_index(h) == i,
"wrong index in string table");
}
}
}