8233913: Remove implicit conversion from Method* to methodHandle
Summary: Fix call sites to use existing THREAD local or pass down THREAD local for shallower callsites. Make linkResolver methods return Method* for caller to handleize if needed.
Reviewed-by: iklam, thartmann, hseigel
/*
* Copyright (c) 1997, 2019, Oracle and/or its affiliates. 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#ifndef SHARE_CODE_COMPRESSEDSTREAM_HPP
#define SHARE_CODE_COMPRESSEDSTREAM_HPP
#include "memory/allocation.hpp"
// Simple interface for filing out and filing in basic types
// Used for writing out and reading in debugging information.
class CompressedStream : public ResourceObj {
friend class VMStructs;
protected:
u_char* _buffer;
int _position;
enum {
// Constants for UNSIGNED5 coding of Pack200
lg_H = 6, H = 1<<lg_H, // number of high codes (64)
L = (1<<BitsPerByte)-H, // number of low codes (192)
MAX_i = 4 // bytes are numbered in (0..4), max 5 bytes
};
// 32-bit one-to-one sign encoding taken from Pack200
// converts leading sign bits into leading zeroes with trailing sign bit
static juint encode_sign(jint value) { return (value << 1) ^ (value >> 31); }
static jint decode_sign(juint value) { return (value >> 1) ^ -(jint)(value & 1); }
static juint reverse_int(juint i); // to trim trailing float 0's
public:
CompressedStream(u_char* buffer, int position = 0) {
_buffer = buffer;
_position = position;
}
u_char* buffer() const { return _buffer; }
// Positioning
int position() const { return _position; }
void set_position(int position) { _position = position; }
};
class CompressedReadStream : public CompressedStream {
private:
inline u_char read() { return _buffer[_position++]; }
// This encoding, called UNSIGNED5, is taken from J2SE Pack200.
// It assumes that most values have lots of leading zeroes.
// Very small values, in the range [0..191], code in one byte.
// Any 32-bit value (including negatives) can be coded, in
// up to five bytes. The grammar is:
// low_byte = [0..191]
// high_byte = [192..255]
// any_byte = low_byte | high_byte
// coding = low_byte
// | high_byte low_byte
// | high_byte high_byte low_byte
// | high_byte high_byte high_byte low_byte
// | high_byte high_byte high_byte high_byte any_byte
// Each high_byte contributes six bits of payload.
// The encoding is one-to-one (except for integer overflow)
// and easy to parse and unparse.
jint read_int_mb(jint b0) {
int pos = position() - 1;
u_char* buf = buffer() + pos;
assert(buf[0] == b0 && b0 >= L, "correctly called");
jint sum = b0;
// must collect more bytes: b[1]...b[4]
int lg_H_i = lg_H;
for (int i = 0; ; ) {
jint b_i = buf[++i]; // b_i = read(); ++i;
sum += b_i << lg_H_i; // sum += b[i]*(64**i)
if (b_i < L || i == MAX_i) {
set_position(pos+i+1);
return sum;
}
lg_H_i += lg_H;
}
}
public:
CompressedReadStream(u_char* buffer, int position = 0)
: CompressedStream(buffer, position) {}
jboolean read_bool() { return (jboolean) read(); }
jbyte read_byte() { return (jbyte ) read(); }
jchar read_char() { return (jchar ) read_int(); }
jshort read_short() { return (jshort ) read_signed_int(); }
jint read_int() { jint b0 = read();
if (b0 < L) return b0;
else return read_int_mb(b0);
}
jint read_signed_int();
jfloat read_float(); // jfloat_cast(reverse_int(read_int()))
jdouble read_double(); // jdouble_cast(2*reverse_int(read_int))
jlong read_long(); // jlong_from(2*read_signed_int())
};
class CompressedWriteStream : public CompressedStream {
private:
bool full() {
return _position >= _size;
}
void store(u_char b) {
_buffer[_position++] = b;
}
void write(u_char b) {
if (full()) grow();
store(b);
}
void grow();
// UNSIGNED5 coding, 1-5 byte cases
void write_int_mb(jint value) {
juint sum = value;
for (int i = 0; ; ) {
if (sum < L || i == MAX_i) {
// remainder is either a "low code" or the 5th byte
assert(sum == (u_char)sum, "valid byte");
write((u_char)sum);
break;
}
sum -= L;
int b_i = L + (sum % H); // this is a "high code"
sum >>= lg_H; // extracted 6 bits
write(b_i); ++i;
}
}
protected:
int _size;
public:
CompressedWriteStream(int initial_size);
CompressedWriteStream(u_char* buffer, int initial_size, int position = 0)
: CompressedStream(buffer, position) { _size = initial_size; }
void write_bool(jboolean value) { write(value); }
void write_byte(jbyte value) { write(value); }
void write_char(jchar value) { write_int(value); }
void write_short(jshort value) { write_signed_int(value); }
void write_int(jint value) { if ((juint)value < L && !full())
store((u_char)value);
else write_int_mb(value); }
void write_signed_int(jint value) { write_int(encode_sign(value)); }
void write_float(jfloat value); // write_int(reverse_int(jint_cast(v)))
void write_double(jdouble value); // write_int(reverse_int(<low,high>))
void write_long(jlong value); // write_signed_int(<low,high>)
};
#endif // SHARE_CODE_COMPRESSEDSTREAM_HPP