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A Java implementation of the Amazon Ion data notation.
/*
* Copyright 2007-2019 Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License").
* You may not use this file except in compliance with the License.
* A copy of the License is located at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* or in the "license" file accompanying this file. This file is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
package com.amazon.ion.impl;
/**
* These classes (UnifiedSavePointManager and the contained
* SavePoint) isolate the save point handing. Its effect spans
* both the input stream and the underlying buffer - so the manager
* keeps it's own reference to these. By doing so this should
* make save points easier to use. It grabs the buffer from
* the stream since it need a reference to the UnifiedInputBuffer
* on most calls and doesn't need an extra de-ref (mostly for
* code clarity)
*
* The general life time of a save point is:
* . allocate a save point
* . . start the save point, which sets the start idx and pos - and
* pins the buffer pages with a use count
* . . mark_end the save point, which sets the end idx and pos
* . . . activate the save point, which sets the input streams pos
* to the start
* . . . deactivate the save point, which pops the save point stack
* and restores the stream to its previous position
* . . clear the save point. this clears its internal values and
* releases its use counter on the buffer. As the buffers in use
* count goes to zero it may release any unnecessary pages.
* . free the save point
*
* this order of operation, as nested above, is enforced by checking
* the state of the save points and member values like the end position.
*
* if the end position is not set it is treated as "to end of file"
*
*/
final class UnifiedSavePointManagerX
{
private static final int FREE_LIST_LIMIT = 20;
UnifiedInputStreamX _stream;
UnifiedInputBufferX _buffer;
SavePoint _inuse;
SavePoint _free;
int _free_count;
SavePoint _active_stack;
int _open_save_points;
public UnifiedSavePointManagerX(UnifiedInputStreamX stream) {
_stream = stream;
_buffer = stream._buffer;
_inuse = null;
_free = null;
_active_stack = null;
}
public final boolean isSavePointOpen() {
return (_open_save_points > 0);
}
public final long lengthOf(SavePoint sp)
{
int start_idx = sp.getStartIdx();
int end_idx = sp.getEndIdx();
if (start_idx == -1 || end_idx == -1) {
return 0;
}
long len;
if (start_idx == end_idx) { // a very common case
int start_pos = sp.getStartPos();
int end_pos = sp.getEndPos();
len = end_pos - start_pos;
}
else {
UnifiedDataPageX start = _buffer.getPage(start_idx);
UnifiedDataPageX end = _buffer.getPage(end_idx);
long start_pos = start.getFilePosition(sp.getStartPos());
long end_pos = end.getFilePosition(sp.getEndPos());
len = end_pos - start_pos;
}
return len;
}
public final SavePoint savePointAllocate() {
SavePoint sp;
if (_free != null) {
sp = _free;
_free = sp._next;
_free_count--;
sp.clear();
}
else {
sp = new SavePoint(this);
}
sp._next = _inuse;
sp._prev = null;
if (_inuse != null) {
_inuse._prev = sp;
}
else {
_inuse = sp;
}
return sp;
}
public final void savePointFree(SavePoint sp)
{
assert(sp.isClear());
if (_free_count >= FREE_LIST_LIMIT) {
// by not putting this on the free list
// the GC is free to clean it up.
return;
}
if (sp._prev == null) {
sp._prev = sp._next;
}
else {
_inuse = sp._next;
}
if (sp._next != null) {
sp._next._prev = sp._prev;
}
sp._next = _free;
_free = sp;
_free_count++;
}
public final SavePoint savePointActiveTop() {
return _active_stack;
}
public final void savePointPushActive(SavePoint sp, long line_number, long line_start) {
assert(!sp.isActive());
int idx = _buffer.getCurrentPageIdx();
int pos = _stream._pos;
int limit = _stream._limit;
UnifiedDataPageX curr = _buffer.getPage(idx);
// save our current state in the Save Point so when
// we pop it off we can restore our current state
sp.set_prev_pos(idx, pos, limit, line_number, line_start);
// actually push this save point on the stack
sp._next_active = _active_stack;
_active_stack = sp;
sp.set_active();
// if the start page is also the last page we
// need set the limit to the sp end, otherwise
// we use the limit from the page and we'll
// deal with the last page when we get to it
idx = sp.getStartIdx();
pos = sp.getStartPos();
curr = _buffer.getPage(idx);
if (sp.getEndIdx() != sp.getStartIdx()) {
limit = curr.getBufferLimit();
}
else {
limit = sp.getEndPos();
}
_stream.make_page_current(curr, idx, pos, limit);
}
public final void savePointPopActive(SavePoint sp)
{
if (sp != _active_stack) {
throw new IllegalArgumentException("save point being released isn't currently active");
}
_active_stack = sp._next_active;
sp._next_active = null;
sp.set_inactive();
_stream.save_point_reset_to_prev(sp);
return;
}
private void save_point_clear(SavePoint sp)
{
if (sp.isClear()) {
return;
}
int start_idx = sp.getStartIdx();
int end_idx = sp.getEndIdx();
if (end_idx != -1 || start_idx != -1) {
if (start_idx != -1) {
_open_save_points--;
save_point_unpin(sp);
}
}
}
private final void save_point_unpin(SavePoint sp) {
if (sp.isActive()) {
throw new IllegalArgumentException("you can't release an active save point");
}
assert(sp.isDefined());
if (_buffer.decLock()) {
if (_open_save_points == 0) {
_buffer.resetToCurrentPage();
}
}
return;
}
private final SavePoint save_point_start(SavePoint sp, long line_number, long line_start) {
if (sp.isDefined()) {
throw new IllegalArgumentException("you can't start an active save point");
}
int new_pinned_idx = _buffer.getCurrentPageIdx();
_buffer.incLock();
sp.set_start_pos(new_pinned_idx,_stream._pos, line_number, line_start);
_open_save_points++;
return sp;
}
private final void save_point_mark_end(SavePoint sp, int offset) {
if (sp.isActive()) {
throw new IllegalArgumentException("you can't start an active save point");
}
UnifiedDataPageX curr = _buffer.getCurrentPage();
int curr_idx = _buffer.getCurrentPageIdx();
int curr_pos = _stream._pos + offset;
// this adjusts the current page idx and pos (in the page buffer)
// to handle the end point being offset from the current pos
// since that may result in the end mark referencing a different page
if (offset != 0) {
if (curr_pos >= curr.getBufferLimit()) {
curr_pos -= curr.getOriginalStartingOffset();
curr_idx++;
curr = _buffer.getPage(curr_idx);
}
else if (curr_pos < curr.getStartingOffset()) {
int pos_offset = curr_pos - curr.getOriginalStartingOffset();
curr_idx--;
curr = _buffer.getPage(curr_idx);
curr_pos = curr.getBufferLimit() - pos_offset;
}
if (curr == null || curr_pos >= curr.getBufferLimit() || curr_pos < curr.getStartingOffset()) {
end_point_too_far(curr_idx);
}
}
sp.set_end_pos(curr_idx, curr_pos); // we may be "re-setting" the idx (that's ok)
return;
}
private final void end_point_too_far(int curr_idx) {
String message = "end point ["
+ curr_idx
+ "] must be within 1 page of current ["
+ _buffer.getCurrentPageIdx()
+ "]";
throw new IllegalArgumentException(message);
}
public static class SavePoint
{
public enum SavePointState { CLEAR, DEFINED, ACTIVE }
private UnifiedSavePointManagerX _owner;
private SavePointState _state;
private int _start_idx, _start_pos;
private long _start_line_count;
private long _start_line_start;
private int _end_idx, _end_pos;
private int _prev_idx, _prev_pos, _prev_limit;
private long _prev_line_count;
private long _prev_line_start;
private SavePoint _next, _prev;
private SavePoint _next_active;
SavePoint(UnifiedSavePointManagerX owner) {
clear();
_owner = owner;
}
private final void set_start_pos(int idx, int pos, long line_count, long line_start) {
assert(_state == SavePointState.CLEAR);
_state = SavePointState.DEFINED;
_start_idx = idx;
_start_pos = pos;
_start_line_count = line_count;
_start_line_start = line_start;
}
private final void set_end_pos(int idx, int pos) {
assert(_state == SavePointState.DEFINED);
_end_idx = idx;
_end_pos = pos;
}
private final void set_prev_pos(int idx, int pos, int limit, long line_count, long line_start) {
assert(_state == SavePointState.DEFINED);
_prev_idx = idx;
_prev_pos = pos;
_prev_limit = limit;
_prev_line_count = line_count;
_prev_line_start = line_start;
}
public final void clear() {
assert(_state != SavePointState.ACTIVE);
if (isDefined()) {
_owner.save_point_clear(this);
}
_state = SavePointState.CLEAR;
_start_idx = -1;
_end_idx = -1;
_prev_idx = -1;
}
public final void start(long line_number, long line_start) {
_owner.save_point_start(this, line_number, line_start);
}
public final void markEnd() {
_owner.save_point_mark_end(this, 0);
}
public final void markEnd(int offset) {
_owner.save_point_mark_end(this, offset);
}
public final void free() {
_owner.savePointFree(this);
}
public final boolean isClear() {
return (_state == SavePointState.CLEAR);
}
public final boolean isDefined() {
return (_state == SavePointState.DEFINED || _state == SavePointState.ACTIVE);
}
public final boolean isActive() {
return (_state == SavePointState.ACTIVE);
}
public final void set_active() {
assert(_state == SavePointState.DEFINED);
_state = SavePointState.ACTIVE;
}
public final void set_inactive() {
assert(_state == SavePointState.ACTIVE);
_state = SavePointState.DEFINED;
}
public final long length() {
if (_start_idx == -1 || _end_idx == -1) {
return 0;
}
return _owner.lengthOf(this);
}
public final int getStartIdx() {
return _start_idx;
}
public final int getStartPos() {
assert(_state != SavePointState.CLEAR);
return _start_pos;
}
public final long getStartLineNumber() {
return _start_line_count;
}
public final long getStartLineStart() {
return _start_line_start;
}
public final long getStartFilePosition() {
if (_start_idx == -1) return -1;
UnifiedDataPageX p = _owner._buffer.getPage(_start_idx);
return p.getFilePosition(_start_pos);
}
public final int getEndIdx() {
return _end_idx;
}
public final int getEndPos() {
assert(_state != SavePointState.CLEAR);
return _end_pos;
}
public final long getEndFilePosition() {
assert(_state != SavePointState.CLEAR);
if (_end_idx == -1) return -1;
UnifiedDataPageX p = _owner._buffer.getPage(_end_idx);
return p.getFilePosition(_end_pos);
}
public final int getPrevIdx() {
return _prev_idx;
}
public final int getPrevPos() {
assert(_state != SavePointState.CLEAR);
return _prev_pos;
}
public final int getPrevLimit() {
assert(_state != SavePointState.CLEAR);
return _prev_limit;
}
public final long getPrevLineNumber() {
return _prev_line_count;
}
public final long getPrevLineStart() {
return _prev_line_start;
}
}
}