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DirectFloatBufferU.java
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DirectFloatBufferU.java
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/*
* Copyright (c) 2000, 2018, 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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.
*/
package java.nio;
import jdk.internal.ref.Cleaner;
import sun.nio.ch.DirectBuffer;
import java.lang.ref.Reference;
// 可读写、直接缓冲区,采用与平台字节顺序相同的字节序,其他部分与DirectFloatBufferS相同
class DirectFloatBufferU extends FloatBuffer implements DirectBuffer {
// Cached unaligned-access capability
protected static final boolean UNALIGNED = Bits.unaligned();
// Cached array base offset
private static final long ARRAY_BASE_OFFSET = UNSAFE.arrayBaseOffset(float[].class);
// Base address, used in all indexing calculations
// NOTE: moved up to Buffer.java for speed in JNI GetDirectBufferAddress
// protected long address;
// An object attached to this buffer. If this buffer is a view of another
// buffer then we use this field to keep a reference to that buffer to
// ensure that its memory isn't freed before we are done with it.
private final Object att;
/*▼ 构造器 ████████████████████████████████████████████████████████████████████████████████┓ */
// For duplicates and slices
DirectFloatBufferU(DirectBuffer db, int mark, int pos, int lim, int cap, int off) {
super(mark, pos, lim, cap);
address = db.address() + off;
att = db;
}
/*▲ 构造器 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ 可读写/直接 ████████████████████████████████████████████████████████████████████████████████┓ */
// 只读/可读写
public boolean isReadOnly() {
return false;
}
// 直接缓冲区/非直接缓冲区
public boolean isDirect() {
return true;
}
/*▲ 可读写/直接 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ 创建新缓冲区,新旧缓冲区共享内部的存储容器 ████████████████████████████████████████████████████████████████████████████████┓ */
// 切片,截取旧缓冲区的【活跃区域】,作为新缓冲区的【原始区域】。两个缓冲区标记独立
public FloatBuffer slice() {
int pos = this.position();
int lim = this.limit();
assert (pos<=lim);
int rem = (pos<=lim ? lim - pos : 0);
int off = (pos << 2);
assert (off >= 0);
return new DirectFloatBufferU(this, -1, 0, rem, rem, off);
}
// 副本,新缓冲区共享旧缓冲区的【原始区域】,且新旧缓冲区【活跃区域】一致。两个缓冲区标记独立。
public FloatBuffer duplicate() {
return new DirectFloatBufferU(this, this.markValue(), this.position(), this.limit(), this.capacity(), 0);
}
// 只读副本,新缓冲区共享旧缓冲区的【原始区域】,且新旧缓冲区【活跃区域】一致。两个缓冲区标记独立
public FloatBuffer asReadOnlyBuffer() {
return new DirectFloatBufferRU(this, this.markValue(), this.position(), this.limit(), this.capacity(), 0);
}
/*▲ 创建新缓冲区,新旧缓冲区共享内部的存储容器 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ get/读取 ████████████████████████████████████████████████████████████████████████████████┓ */
// 读取position处(可能需要加offset)的float,然后递增position。
public float get() {
try {
return ((UNSAFE.getFloat(ix(nextGetIndex()))));
} finally {
Reference.reachabilityFence(this);
}
}
// 读取i处(可能需要加offset)的float(有越界检查)
public float get(int i) {
try {
return ((UNSAFE.getFloat(ix(checkIndex(i)))));
} finally {
Reference.reachabilityFence(this);
}
}
// 复制源缓存区的length个元素到dst数组offset索引处
public FloatBuffer get(float[] dst, int offset, int length) {
if(((long) length << 2)>Bits.JNI_COPY_TO_ARRAY_THRESHOLD) {
checkBounds(offset, length, dst.length);
int pos = position();
int lim = limit();
assert (pos<=lim);
int rem = (pos<=lim ? lim - pos : 0);
if(length>rem)
throw new BufferUnderflowException();
long dstOffset = ARRAY_BASE_OFFSET + ((long) offset << 2);
try {
if(order() != ByteOrder.nativeOrder())
UNSAFE.copySwapMemory(null, ix(pos), dst, dstOffset, (long) length << 2, (long) 1 << 2);
else
UNSAFE.copyMemory(null, ix(pos), dst, dstOffset, (long) length << 2);
} finally {
Reference.reachabilityFence(this);
}
position(pos + length);
} else {
super.get(dst, offset, length);
}
return this;
}
/*▲ get/读取 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ put/写入 ████████████████████████████████████████████████████████████████████████████████┓ */
// 向position处(可能需要加offset)写入float,并将position递增
public FloatBuffer put(float x) {
try {
UNSAFE.putFloat(ix(nextPutIndex()), ((x)));
} finally {
Reference.reachabilityFence(this);
}
return this;
}
// 向i处(可能需要加offset)写入float
public FloatBuffer put(int i, float x) {
try {
UNSAFE.putFloat(ix(checkIndex(i)), ((x)));
} finally {
Reference.reachabilityFence(this);
}
return this;
}
// 将源缓冲区src的内容全部写入到当前缓冲区
public FloatBuffer put(FloatBuffer src) {
if(src instanceof DirectFloatBufferU) {
if(src == this)
throw createSameBufferException();
DirectFloatBufferU sb = (DirectFloatBufferU) src;
int spos = sb.position();
int slim = sb.limit();
assert (spos<=slim);
int srem = (spos<=slim ? slim - spos : 0);
int pos = position();
int lim = limit();
assert (pos<=lim);
int rem = (pos<=lim ? lim - pos : 0);
if(srem>rem)
throw new BufferOverflowException();
try {
UNSAFE.copyMemory(sb.ix(spos), ix(pos), (long) srem << 2);
} finally {
Reference.reachabilityFence(sb);
Reference.reachabilityFence(this);
}
sb.position(spos + srem);
position(pos + srem);
} else if(src.hb != null) {
int spos = src.position();
int slim = src.limit();
assert (spos<=slim);
int srem = (spos<=slim ? slim - spos : 0);
put(src.hb, src.offset + spos, srem);
src.position(spos + srem);
} else {
super.put(src);
}
return this;
}
// 从源字节数组src的offset处开始,复制length个元素,写入到当前缓冲区
public FloatBuffer put(float[] src, int offset, int length) {
if(((long) length << 2)>Bits.JNI_COPY_FROM_ARRAY_THRESHOLD) {
checkBounds(offset, length, src.length);
int pos = position();
int lim = limit();
assert (pos<=lim);
int rem = (pos<=lim ? lim - pos : 0);
if(length>rem)
throw new BufferOverflowException();
long srcOffset = ARRAY_BASE_OFFSET + ((long) offset << 2);
try {
if(order() != ByteOrder.nativeOrder())
UNSAFE.copySwapMemory(src, srcOffset, null, ix(pos), (long) length << 2, (long) 1 << 2);
else
UNSAFE.copyMemory(src, srcOffset, null, ix(pos), (long) length << 2);
} finally {
Reference.reachabilityFence(this);
}
position(pos + length);
} else {
super.put(src, offset, length);
}
return this;
}
/*▲ put/写入 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ 压缩 ████████████████████████████████████████████████████████████████████████████████┓ */
// 压缩缓冲区,将当前未读完的数据挪到容器起始处,可用于读模式到写模式的切换,但又不丢失之前读入的数据。
public FloatBuffer compact() {
int pos = position();
int lim = limit();
assert (pos<=lim);
int rem = (pos<=lim ? lim - pos : 0);
try {
UNSAFE.copyMemory(ix(pos), ix(0), (long) rem << 2);
} finally {
Reference.reachabilityFence(this);
}
position(rem);
limit(capacity());
discardMark();
return this;
}
/*▲ 压缩 ████████████████████████████████████████████████████████████████████████████████┛ */
/*▼ 字节顺序 ████████████████████████████████████████████████████████████████████████████████┓ */
// 返回该缓冲区的字节序(大端还是小端)
public ByteOrder order() {
return ((ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN) ? ByteOrder.LITTLE_ENDIAN : ByteOrder.BIG_ENDIAN);
}
/*▲ 字节顺序 ████████████████████████████████████████████████████████████████████████████████┛ */
// 返回内部存储结构的引用(一般用于非直接缓存区)
@Override
Object base() {
return null;
}
private long ix(int i) {
return address + ((long) i << 2);
}
/*▼ 实现DirectBuffer接口 ████████████████████████████████████████████████████████████████████████████████┓ */
// 返回直接缓冲区的【绝对】起始<地址>
public long address() {
return address;
}
// 返回附件,一般是指母体缓冲区的引用
public Object attachment() {
return att;
}
// 返回该缓冲区的清理器
public Cleaner cleaner() {
return null;
}
/*▲ 实现DirectBuffer接口 ████████████████████████████████████████████████████████████████████████████████┛ */
}