/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License 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.android.printspooler.ui;
import android.content.Context;
import android.graphics.Bitmap;
import android.graphics.Canvas;
import android.graphics.drawable.BitmapDrawable;
import android.os.ParcelFileDescriptor;
import android.print.PageRange;
import android.print.PrintAttributes.MediaSize;
import android.print.PrintAttributes.Margins;
import android.print.PrintDocumentInfo;
import android.support.v7.widget.RecyclerView.Adapter;
import android.support.v7.widget.RecyclerView.ViewHolder;
import android.util.Log;
import android.util.SparseArray;
import android.view.LayoutInflater;
import android.view.View;
import android.view.View.OnClickListener;
import android.view.ViewGroup;
import android.view.ViewGroup.LayoutParams;
import android.view.View.MeasureSpec;
import android.widget.TextView;
import com.android.printspooler.R;
import com.android.printspooler.model.OpenDocumentCallback;
import com.android.printspooler.model.PageContentRepository;
import com.android.printspooler.model.PageContentRepository.PageContentProvider;
import com.android.printspooler.util.PageRangeUtils;
import com.android.printspooler.widget.PageContentView;
import com.android.printspooler.widget.PreviewPageFrame;
import dalvik.system.CloseGuard;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
/**
* This class represents the adapter for the pages in the print preview list.
*/
public final class PageAdapter extends Adapter {
private static final String LOG_TAG = "PageAdapter";
private static final int MAX_PREVIEW_PAGES_BATCH = 50;
private static final boolean DEBUG = false;
private static final PageRange[] ALL_PAGES_ARRAY = new PageRange[] {
PageRange.ALL_PAGES
};
private static final int INVALID_PAGE_INDEX = -1;
private static final int STATE_CLOSED = 0;
private static final int STATE_OPENED = 1;
private static final int STATE_DESTROYED = 2;
private final CloseGuard mCloseGuard = CloseGuard.get();
private final SparseArray<Void> mBoundPagesInAdapter = new SparseArray<>();
private final SparseArray<Void> mConfirmedPagesInDocument = new SparseArray<>();
private final PageClickListener mPageClickListener = new PageClickListener();
private final Context mContext;
private final LayoutInflater mLayoutInflater;
private final ContentCallbacks mCallbacks;
private final PageContentRepository mPageContentRepository;
private final PreviewArea mPreviewArea;
// Which document pages to be written.
private PageRange[] mRequestedPages;
// Pages written in the current file.
private PageRange[] mWrittenPages;
// Pages the user selected in the UI.
private PageRange[] mSelectedPages;
private BitmapDrawable mEmptyState;
private int mDocumentPageCount = PrintDocumentInfo.PAGE_COUNT_UNKNOWN;
private int mSelectedPageCount;
private int mPreviewPageMargin;
private int mPreviewPageMinWidth;
private int mPreviewListPadding;
private int mFooterHeight;
private int mColumnCount;
private MediaSize mMediaSize;
private Margins mMinMargins;
private int mState;
private int mPageContentWidth;
private int mPageContentHeight;
public interface ContentCallbacks {
public void onRequestContentUpdate();
public void onMalformedPdfFile();
public void onSecurePdfFile();
}
public interface PreviewArea {
public int getWidth();
public int getHeight();
public void setColumnCount(int columnCount);
public void setPadding(int left, int top, int right, int bottom);
}
public PageAdapter(Context context, ContentCallbacks callbacks, PreviewArea previewArea) {
mContext = context;
mCallbacks = callbacks;
mLayoutInflater = (LayoutInflater) context.getSystemService(
Context.LAYOUT_INFLATER_SERVICE);
mPageContentRepository = new PageContentRepository(context);
mPreviewPageMargin = mContext.getResources().getDimensionPixelSize(
R.dimen.preview_page_margin);
mPreviewPageMinWidth = mContext.getResources().getDimensionPixelSize(
R.dimen.preview_page_min_width);
mPreviewListPadding = mContext.getResources().getDimensionPixelSize(
R.dimen.preview_list_padding);
mColumnCount = mContext.getResources().getInteger(
R.integer.preview_page_per_row_count);
mFooterHeight = mContext.getResources().getDimensionPixelSize(
R.dimen.preview_page_footer_height);
mPreviewArea = previewArea;
mCloseGuard.open("destroy");
setHasStableIds(true);
mState = STATE_CLOSED;
if (DEBUG) {
Log.i(LOG_TAG, "STATE_CLOSED");
}
}
public void onOrientationChanged() {
mColumnCount = mContext.getResources().getInteger(
R.integer.preview_page_per_row_count);
notifyDataSetChanged();
}
public boolean isOpened() {
return mState == STATE_OPENED;
}
public int getFilePageCount() {
return mPageContentRepository.getFilePageCount();
}
public void open(ParcelFileDescriptor source, final Runnable callback) {
throwIfNotClosed();
mState = STATE_OPENED;
if (DEBUG) {
Log.i(LOG_TAG, "STATE_OPENED");
}
mPageContentRepository.open(source, new OpenDocumentCallback() {
@Override
public void onSuccess() {
notifyDataSetChanged();
callback.run();
}
@Override
public void onFailure(int error) {
switch (error) {
case OpenDocumentCallback.ERROR_MALFORMED_PDF_FILE: {
mCallbacks.onMalformedPdfFile();
} break;
case OpenDocumentCallback.ERROR_SECURE_PDF_FILE: {
mCallbacks.onSecurePdfFile();
} break;
}
}
});
}
public void update(PageRange[] writtenPages, PageRange[] selectedPages,
int documentPageCount, MediaSize mediaSize, Margins minMargins) {
boolean documentChanged = false;
boolean updatePreviewAreaAndPageSize = false;
// If the app does not tell how many pages are in the document we cannot
// optimize and ask for all pages whose count we get from the renderer.
if (documentPageCount == PrintDocumentInfo.PAGE_COUNT_UNKNOWN) {
if (writtenPages == null) {
// If we already requested all pages, just wait.
if (!Arrays.equals(ALL_PAGES_ARRAY, mRequestedPages)) {
mRequestedPages = ALL_PAGES_ARRAY;
mCallbacks.onRequestContentUpdate();
}
return;
} else {
documentPageCount = mPageContentRepository.getFilePageCount();
if (documentPageCount <= 0) {
return;
}
}
}
if (!Arrays.equals(mSelectedPages, selectedPages)) {
mSelectedPages = selectedPages;
mSelectedPageCount = PageRangeUtils.getNormalizedPageCount(
mSelectedPages, documentPageCount);
setConfirmedPages(mSelectedPages, documentPageCount);
updatePreviewAreaAndPageSize = true;
documentChanged = true;
}
if (mDocumentPageCount != documentPageCount) {
mDocumentPageCount = documentPageCount;
documentChanged = true;
}
if (mMediaSize == null || !mMediaSize.equals(mediaSize)) {
mMediaSize = mediaSize;
updatePreviewAreaAndPageSize = true;
documentChanged = true;
}
if (mMinMargins == null || !mMinMargins.equals(minMargins)) {
mMinMargins = minMargins;
updatePreviewAreaAndPageSize = true;
documentChanged = true;
}
// If *all pages* is selected we need to convert that to absolute
// range as we will be checking if some pages are written or not.
if (writtenPages != null) {
// If we get all pages, this means all pages that we requested.
if (PageRangeUtils.isAllPages(writtenPages)) {
writtenPages = mRequestedPages;
}
if (!Arrays.equals(mWrittenPages, writtenPages)) {
// TODO: Do a surgical invalidation of only written pages changed.
mWrittenPages = writtenPages;
documentChanged = true;
}
}
if (updatePreviewAreaAndPageSize) {
updatePreviewAreaPageSizeAndEmptyState();
}
if (documentChanged) {
notifyDataSetChanged();
}
}
public void close(Runnable callback) {
throwIfNotOpened();
mState = STATE_CLOSED;
if (DEBUG) {
Log.i(LOG_TAG, "STATE_CLOSED");
}
mPageContentRepository.close(callback);
}
@Override
public ViewHolder onCreateViewHolder(ViewGroup parent, int viewType) {
View page = mLayoutInflater.inflate(R.layout.preview_page, parent, false);
return new MyViewHolder(page);
}
@Override
public void onBindViewHolder(ViewHolder holder, int position) {
if (DEBUG) {
Log.i(LOG_TAG, "Binding holder: " + holder + " with id: " + getItemId(position)
+ " for position: " + position);
}
MyViewHolder myHolder = (MyViewHolder) holder;
PreviewPageFrame page = (PreviewPageFrame) holder.itemView;
page.setOnClickListener(mPageClickListener);
page.setTag(holder);
myHolder.mPageInAdapter = position;
final int pageInDocument = computePageIndexInDocument(position);
final int pageIndexInFile = computePageIndexInFile(pageInDocument);
PageContentView content = (PageContentView) page.findViewById(R.id.page_content);
LayoutParams params = content.getLayoutParams();
params.width = mPageContentWidth;
params.height = mPageContentHeight;
PageContentProvider provider = content.getPageContentProvider();
if (pageIndexInFile != INVALID_PAGE_INDEX) {
if (DEBUG) {
Log.i(LOG_TAG, "Binding provider:"
+ " pageIndexInAdapter: " + position
+ ", pageInDocument: " + pageInDocument
+ ", pageIndexInFile: " + pageIndexInFile);
}
provider = mPageContentRepository.acquirePageContentProvider(
pageIndexInFile, content);
mBoundPagesInAdapter.put(position, null);
} else {
onSelectedPageNotInFile(pageInDocument);
}
content.init(provider, mEmptyState, mMediaSize, mMinMargins);
if (mConfirmedPagesInDocument.indexOfKey(pageInDocument) >= 0) {
page.setSelected(true, false);
} else {
page.setSelected(false, false);
}
page.setContentDescription(mContext.getString(R.string.page_description_template,
pageInDocument + 1, mDocumentPageCount));
TextView pageNumberView = (TextView) page.findViewById(R.id.page_number);
String text = mContext.getString(R.string.current_page_template,
pageInDocument + 1, mDocumentPageCount);
pageNumberView.setText(text);
}
@Override
public int getItemCount() {
return mSelectedPageCount;
}
@Override
public long getItemId(int position) {
return computePageIndexInDocument(position);
}
@Override
public void onViewRecycled(ViewHolder holder) {
MyViewHolder myHolder = (MyViewHolder) holder;
PageContentView content = (PageContentView) holder.itemView
.findViewById(R.id.page_content);
recyclePageView(content, myHolder.mPageInAdapter);
myHolder.mPageInAdapter = INVALID_PAGE_INDEX;
}
public PageRange[] getRequestedPages() {
return mRequestedPages;
}
public PageRange[] getSelectedPages() {
PageRange[] selectedPages = computeSelectedPages();
if (!Arrays.equals(mSelectedPages, selectedPages)) {
mSelectedPages = selectedPages;
mSelectedPageCount = PageRangeUtils.getNormalizedPageCount(
mSelectedPages, mDocumentPageCount);
updatePreviewAreaPageSizeAndEmptyState();
notifyDataSetChanged();
}
return mSelectedPages;
}
public void onPreviewAreaSizeChanged() {
if (mMediaSize != null) {
updatePreviewAreaPageSizeAndEmptyState();
notifyDataSetChanged();
}
}
private void updatePreviewAreaPageSizeAndEmptyState() {
if (mMediaSize == null) {
return;
}
final int availableWidth = mPreviewArea.getWidth();
final int availableHeight = mPreviewArea.getHeight();
// Page aspect ratio to keep.
final float pageAspectRatio = (float) mMediaSize.getWidthMils()
/ mMediaSize.getHeightMils();
// Make sure we have no empty columns.
final int columnCount = Math.min(mSelectedPageCount, mColumnCount);
mPreviewArea.setColumnCount(columnCount);
// Compute max page width.
final int horizontalMargins = 2 * columnCount * mPreviewPageMargin;
final int horizontalPaddingAndMargins = horizontalMargins + 2 * mPreviewListPadding;
final int pageContentDesiredWidth = (int) ((((float) availableWidth
- horizontalPaddingAndMargins) / columnCount) + 0.5f);
// Compute max page height.
final int pageContentDesiredHeight = (int) (((float) pageContentDesiredWidth
/ pageAspectRatio) + 0.5f);
// If the page does not fit entirely in a vertical direction,
// we shirk it but not less than the minimal page width.
final int pageContentMinHeight = (int) (mPreviewPageMinWidth / pageAspectRatio + 0.5f);
final int pageContentMaxHeight = Math.max(pageContentMinHeight,
availableHeight - 2 * (mPreviewListPadding + mPreviewPageMargin) - mFooterHeight);
mPageContentHeight = Math.min(pageContentDesiredHeight, pageContentMaxHeight);
mPageContentWidth = (int) ((mPageContentHeight * pageAspectRatio) + 0.5f);
final int totalContentWidth = columnCount * mPageContentWidth + horizontalMargins;
final int horizontalPadding = (availableWidth - totalContentWidth) / 2;
final int rowCount = mSelectedPageCount / columnCount
+ ((mSelectedPageCount % columnCount) > 0 ? 1 : 0);
final int totalContentHeight = rowCount * (mPageContentHeight + mFooterHeight + 2
* mPreviewPageMargin);
final int verticalPadding;
if (mPageContentHeight + mFooterHeight + mPreviewListPadding
+ 2 * mPreviewPageMargin > availableHeight) {
verticalPadding = Math.max(0,
(availableHeight - mPageContentHeight - mFooterHeight) / 2
- mPreviewPageMargin);
} else {
verticalPadding = Math.max(mPreviewListPadding,
(availableHeight - totalContentHeight) / 2);
}
mPreviewArea.setPadding(horizontalPadding, verticalPadding,
horizontalPadding, verticalPadding);
// Now update the empty state drawable, as it depends on the page
// size and is reused for all views for better performance.
LayoutInflater inflater = LayoutInflater.from(mContext);
View content = inflater.inflate(R.layout.preview_page_loading, null, false);
content.measure(MeasureSpec.makeMeasureSpec(mPageContentWidth, MeasureSpec.EXACTLY),
MeasureSpec.makeMeasureSpec(mPageContentHeight, MeasureSpec.EXACTLY));
content.layout(0, 0, content.getMeasuredWidth(), content.getMeasuredHeight());
Bitmap bitmap = Bitmap.createBitmap(mPageContentWidth, mPageContentHeight,
Bitmap.Config.ARGB_8888);
Canvas canvas = new Canvas(bitmap);
content.draw(canvas);
// Do not recycle the old bitmap if such as it may be set as an empty
// state to any of the page views. Just let the GC take care of it.
mEmptyState = new BitmapDrawable(mContext.getResources(), bitmap);
}
private PageRange[] computeSelectedPages() {
ArrayList<PageRange> selectedPagesList = new ArrayList<>();
int startPageIndex = INVALID_PAGE_INDEX;
int endPageIndex = INVALID_PAGE_INDEX;
final int pageCount = mConfirmedPagesInDocument.size();
for (int i = 0; i < pageCount; i++) {
final int pageIndex = mConfirmedPagesInDocument.keyAt(i);
if (startPageIndex == INVALID_PAGE_INDEX) {
startPageIndex = endPageIndex = pageIndex;
}
if (endPageIndex + 1 < pageIndex) {
PageRange pageRange = new PageRange(startPageIndex, endPageIndex);
selectedPagesList.add(pageRange);
startPageIndex = pageIndex;
}
endPageIndex = pageIndex;
}
if (startPageIndex != INVALID_PAGE_INDEX
&& endPageIndex != INVALID_PAGE_INDEX) {
PageRange pageRange = new PageRange(startPageIndex, endPageIndex);
selectedPagesList.add(pageRange);
}
PageRange[] selectedPages = new PageRange[selectedPagesList.size()];
selectedPagesList.toArray(selectedPages);
return selectedPages;
}
public void destroy(Runnable callback) {
mCloseGuard.close();
mState = STATE_DESTROYED;
if (DEBUG) {
Log.i(LOG_TAG, "STATE_DESTROYED");
}
mPageContentRepository.destroy(callback);
}
@Override
protected void finalize() throws Throwable {
try {
if (mState != STATE_DESTROYED) {
mCloseGuard.warnIfOpen();
destroy(null);
}
} finally {
super.finalize();
}
}
private int computePageIndexInDocument(int indexInAdapter) {
int skippedAdapterPages = 0;
final int selectedPagesCount = mSelectedPages.length;
for (int i = 0; i < selectedPagesCount; i++) {
PageRange pageRange = PageRangeUtils.asAbsoluteRange(
mSelectedPages[i], mDocumentPageCount);
skippedAdapterPages += pageRange.getSize();
if (skippedAdapterPages > indexInAdapter) {
final int overshoot = skippedAdapterPages - indexInAdapter - 1;
return pageRange.getEnd() - overshoot;
}
}
return INVALID_PAGE_INDEX;
}
private int computePageIndexInFile(int pageIndexInDocument) {
if (!PageRangeUtils.contains(mSelectedPages, pageIndexInDocument)) {
return INVALID_PAGE_INDEX;
}
if (mWrittenPages == null) {
return INVALID_PAGE_INDEX;
}
int indexInFile = INVALID_PAGE_INDEX;
final int rangeCount = mWrittenPages.length;
for (int i = 0; i < rangeCount; i++) {
PageRange pageRange = mWrittenPages[i];
if (!pageRange.contains(pageIndexInDocument)) {
indexInFile += pageRange.getSize();
} else {
indexInFile += pageIndexInDocument - pageRange.getStart() + 1;
return indexInFile;
}
}
return INVALID_PAGE_INDEX;
}
private void setConfirmedPages(PageRange[] pagesInDocument, int documentPageCount) {
mConfirmedPagesInDocument.clear();
final int rangeCount = pagesInDocument.length;
for (int i = 0; i < rangeCount; i++) {
PageRange pageRange = PageRangeUtils.asAbsoluteRange(pagesInDocument[i],
documentPageCount);
for (int j = pageRange.getStart(); j <= pageRange.getEnd(); j++) {
mConfirmedPagesInDocument.put(j, null);
}
}
}
private void onSelectedPageNotInFile(int pageInDocument) {
PageRange[] requestedPages = computeRequestedPages(pageInDocument);
if (!Arrays.equals(mRequestedPages, requestedPages)) {
mRequestedPages = requestedPages;
if (DEBUG) {
Log.i(LOG_TAG, "Requesting pages: " + Arrays.toString(mRequestedPages));
}
mCallbacks.onRequestContentUpdate();
}
}
private PageRange[] computeRequestedPages(int pageInDocument) {
if (mRequestedPages != null &&
PageRangeUtils.contains(mRequestedPages, pageInDocument)) {
return mRequestedPages;
}
List<PageRange> pageRangesList = new ArrayList<>();
int remainingPagesToRequest = MAX_PREVIEW_PAGES_BATCH;
final int selectedPagesCount = mSelectedPages.length;
// We always request the pages that are bound, i.e. shown on screen.
PageRange[] boundPagesInDocument = computeBoundPagesInDocument();
final int boundRangeCount = boundPagesInDocument.length;
for (int i = 0; i < boundRangeCount; i++) {
PageRange boundRange = boundPagesInDocument[i];
pageRangesList.add(boundRange);
}
remainingPagesToRequest -= PageRangeUtils.getNormalizedPageCount(
boundPagesInDocument, mDocumentPageCount);
final boolean requestFromStart = mRequestedPages == null
|| pageInDocument > mRequestedPages[mRequestedPages.length - 1].getEnd();
if (!requestFromStart) {
if (DEBUG) {
Log.i(LOG_TAG, "Requesting from end");
}
// Reminder that ranges are always normalized.
for (int i = selectedPagesCount - 1; i >= 0; i--) {
if (remainingPagesToRequest <= 0) {
break;
}
PageRange selectedRange = PageRangeUtils.asAbsoluteRange(mSelectedPages[i],
mDocumentPageCount);
if (pageInDocument < selectedRange.getStart()) {
continue;
}
PageRange pagesInRange;
int rangeSpan;
if (selectedRange.contains(pageInDocument)) {
rangeSpan = pageInDocument - selectedRange.getStart() + 1;
rangeSpan = Math.min(rangeSpan, remainingPagesToRequest);
final int fromPage = Math.max(pageInDocument - rangeSpan - 1, 0);
rangeSpan = Math.max(rangeSpan, 0);
pagesInRange = new PageRange(fromPage, pageInDocument);
} else {
rangeSpan = selectedRange.getSize();
rangeSpan = Math.min(rangeSpan, remainingPagesToRequest);
rangeSpan = Math.max(rangeSpan, 0);
final int fromPage = Math.max(selectedRange.getEnd() - rangeSpan - 1, 0);
final int toPage = selectedRange.getEnd();
pagesInRange = new PageRange(fromPage, toPage);
}
pageRangesList.add(pagesInRange);
remainingPagesToRequest -= rangeSpan;
}
} else {
if (DEBUG) {
Log.i(LOG_TAG, "Requesting from start");
}
// Reminder that ranges are always normalized.
for (int i = 0; i < selectedPagesCount; i++) {
if (remainingPagesToRequest <= 0) {
break;
}
PageRange selectedRange = PageRangeUtils.asAbsoluteRange(mSelectedPages[i],
mDocumentPageCount);
if (pageInDocument > selectedRange.getEnd()) {
continue;
}
PageRange pagesInRange;
int rangeSpan;
if (selectedRange.contains(pageInDocument)) {
rangeSpan = selectedRange.getEnd() - pageInDocument + 1;
rangeSpan = Math.min(rangeSpan, remainingPagesToRequest);
final int toPage = Math.min(pageInDocument + rangeSpan - 1,
mDocumentPageCount - 1);
pagesInRange = new PageRange(pageInDocument, toPage);
} else {
rangeSpan = selectedRange.getSize();
rangeSpan = Math.min(rangeSpan, remainingPagesToRequest);
final int fromPage = selectedRange.getStart();
final int toPage = Math.min(selectedRange.getStart() + rangeSpan - 1,
mDocumentPageCount - 1);
pagesInRange = new PageRange(fromPage, toPage);
}
if (DEBUG) {
Log.i(LOG_TAG, "computeRequestedPages() Adding range:" + pagesInRange);
}
pageRangesList.add(pagesInRange);
remainingPagesToRequest -= rangeSpan;
}
}
PageRange[] pageRanges = new PageRange[pageRangesList.size()];
pageRangesList.toArray(pageRanges);
return PageRangeUtils.normalize(pageRanges);
}
private PageRange[] computeBoundPagesInDocument() {
List<PageRange> pagesInDocumentList = new ArrayList<>();
int fromPage = INVALID_PAGE_INDEX;
int toPage = INVALID_PAGE_INDEX;
final int boundPageCount = mBoundPagesInAdapter.size();
for (int i = 0; i < boundPageCount; i++) {
// The container is a sparse array, so keys are sorted in ascending order.
final int boundPageInAdapter = mBoundPagesInAdapter.keyAt(i);
final int boundPageInDocument = computePageIndexInDocument(boundPageInAdapter);
if (fromPage == INVALID_PAGE_INDEX) {
fromPage = boundPageInDocument;
}
if (toPage == INVALID_PAGE_INDEX) {
toPage = boundPageInDocument;
}
if (boundPageInDocument > toPage + 1) {
PageRange pageRange = new PageRange(fromPage, toPage);
pagesInDocumentList.add(pageRange);
fromPage = toPage = boundPageInDocument;
} else {
toPage = boundPageInDocument;
}
}
if (fromPage != INVALID_PAGE_INDEX && toPage != INVALID_PAGE_INDEX) {
PageRange pageRange = new PageRange(fromPage, toPage);
pagesInDocumentList.add(pageRange);
}
PageRange[] pageInDocument = new PageRange[pagesInDocumentList.size()];
pagesInDocumentList.toArray(pageInDocument);
if (DEBUG) {
Log.i(LOG_TAG, "Bound pages: " + Arrays.toString(pageInDocument));
}
return pageInDocument;
}
private void recyclePageView(PageContentView page, int pageIndexInAdapter) {
PageContentProvider provider = page.getPageContentProvider();
if (provider != null) {
page.init(null, mEmptyState, mMediaSize, mMinMargins);
mPageContentRepository.releasePageContentProvider(provider);
}
mBoundPagesInAdapter.remove(pageIndexInAdapter);
page.setTag(null);
}
public void startPreloadContent(PageRange pageRangeInAdapter) {
final int startPageInDocument = computePageIndexInDocument(pageRangeInAdapter.getStart());
final int startPageInFile = computePageIndexInFile(startPageInDocument);
final int endPageInDocument = computePageIndexInDocument(pageRangeInAdapter.getEnd());
final int endPageInFile = computePageIndexInFile(endPageInDocument);
if (startPageInDocument != INVALID_PAGE_INDEX && endPageInDocument != INVALID_PAGE_INDEX) {
mPageContentRepository.startPreload(startPageInFile, endPageInFile);
}
}
public void stopPreloadContent() {
mPageContentRepository.stopPreload();
}
private void throwIfNotOpened() {
if (mState != STATE_OPENED) {
throw new IllegalStateException("Not opened");
}
}
private void throwIfNotClosed() {
if (mState != STATE_CLOSED) {
throw new IllegalStateException("Not closed");
}
}
private final class MyViewHolder extends ViewHolder {
int mPageInAdapter;
private MyViewHolder(View itemView) {
super(itemView);
}
}
private final class PageClickListener implements OnClickListener {
@Override
public void onClick(View view) {
PreviewPageFrame page = (PreviewPageFrame) view;
MyViewHolder holder = (MyViewHolder) page.getTag();
final int pageInAdapter = holder.mPageInAdapter;
final int pageInDocument = computePageIndexInDocument(pageInAdapter);
if (mConfirmedPagesInDocument.indexOfKey(pageInDocument) < 0) {
mConfirmedPagesInDocument.put(pageInDocument, null);
page.setSelected(true, true);
} else {
if (mConfirmedPagesInDocument.size() <= 1) {
return;
}
mConfirmedPagesInDocument.remove(pageInDocument);
page.setSelected(false, true);
}
}
}
}