use of siena.core.options.QueryOptionOffset in project siena by mandubian.
the class GaePersistenceManagerAsync method doFetchIterable.
private <T> SienaFuture<Iterable<T>> doFetchIterable(QueryAsync<T> query, int limit, int offset) {
QueryOptionGaeContext gaeCtx = (QueryOptionGaeContext) query.option(QueryOptionGaeContext.ID);
QueryOptionState state = (QueryOptionState) query.option(QueryOptionState.ID);
QueryOptionFetchType fetchType = (QueryOptionFetchType) query.option(QueryOptionFetchType.ID);
if (gaeCtx == null) {
gaeCtx = new QueryOptionGaeContext();
query.customize(gaeCtx);
}
FetchOptions fetchOptions = FetchOptions.Builder.withDefaults();
QueryOptionPage pag = (QueryOptionPage) query.option(QueryOptionPage.ID);
if (!pag.isPaginating()) {
// no pagination but pageOption active
if (pag.isActive()) {
// if local limit is set, it overrides the pageOption.pageSize
if (limit != Integer.MAX_VALUE) {
gaeCtx.realPageSize = limit;
fetchOptions.limit(gaeCtx.realPageSize);
// pageOption is passivated to be sure it is not reused
pag.passivate();
} else // using pageOption.pageSize
{
gaeCtx.realPageSize = pag.pageSize;
fetchOptions.limit(gaeCtx.realPageSize);
// passivates the pageOption in stateless mode not to keep anything between 2 requests
if (state.isStateless()) {
pag.passivate();
}
}
} else {
if (limit != Integer.MAX_VALUE) {
gaeCtx.realPageSize = limit;
fetchOptions.limit(gaeCtx.realPageSize);
}
}
} else {
// paginating so use the pagesize and don't passivate pageOption
// local limit is not taken into account
gaeCtx.realPageSize = pag.pageSize;
fetchOptions.limit(gaeCtx.realPageSize);
}
QueryOptionOffset off = (QueryOptionOffset) query.option(QueryOptionOffset.ID);
// if local offset has been set, uses it
if (offset != 0) {
off.activate();
off.offset = offset;
}
// if previousPage has detected there is no more data, simply returns an empty list
if (gaeCtx.noMoreDataBefore) {
return new SienaFutureMock<Iterable<T>>(new ArrayList<T>());
}
if (state.isStateless()) {
if (pag.isPaginating()) {
if (off.isActive()) {
gaeCtx.realOffset += off.offset;
fetchOptions.offset(gaeCtx.realOffset);
off.passivate();
} else {
fetchOptions.offset(gaeCtx.realOffset);
}
} else {
// if stateless and not paginating, resets the realoffset to 0
gaeCtx.realOffset = off.offset;
if (off.isActive()) {
fetchOptions.offset(gaeCtx.realOffset);
off.passivate();
}
}
switch(fetchType.fetchType) {
case ITER:
default:
{
// uses iterable as it is the only async request for prepared query for the time being
Iterable<Entity> entities = prepare(query).asIterable(fetchOptions);
return new GaeSienaFutureIterableMapper<T>(this, entities, query);
}
}
} else {
if (off.isActive()) {
// by default, we add the offset but it can be added with the realoffset
// in case of cursor desactivated
fetchOptions.offset(off.offset);
gaeCtx.realOffset += off.offset;
off.passivate();
}
// manages cursor limitations for IN and != operators
if (!gaeCtx.isActive()) {
// cursor not yet created
switch(fetchType.fetchType) {
case ITER:
default:
{
PreparedQuery pq = prepare(query);
if (pag.isPaginating()) {
// in case of pagination, we need to allow asynchronous calls such as:
// QueryAsync<MyClass> query = pm.createQuery(MyClass).paginate(5).stateful().order("name");
// SienaFuture<Iterable<MyClass>> future1 = query.iter();
// SienaFuture<Iterable<MyClass>> future2 = query.nextPage().iter();
// Iterable<MyClass> it = future1.get().iterator();
// while(it.hasNext()) { // do it }
// it = future2.get().iterator();
// while(it.hasNext()) { // do it }
// so we can't use the asQueryResultIterable as the cursor is not moved to the end of the current page
// but moved at each call of iterable.iterator().next()
// thus we use the List in this case to be able to move directly to the next page with cursors
QueryResultList<Entity> entities = pq.asQueryResultList(fetchOptions);
// activates the GaeCtx now that it is initialised
gaeCtx.activate();
// sets the current cursor (in stateful mode, cursor is always kept for further use)
//if(gaeCtx.useCursor){
Cursor cursor = entities.getCursor();
if (cursor != null) {
gaeCtx.addCursor(cursor.toWebSafeString());
}
return new GaeSienaFutureIterableMapper<T>(this, entities, query);
} else {
// if not paginating, we simply use the queryresultiterable and moves the current cursor
// while iterating
QueryResultIterable<Entity> entities = pq.asQueryResultIterable(fetchOptions);
// activates the GaeCtx now that it is initialised
gaeCtx.activate();
return new GaeSienaFutureIterableMapperWithCursor<T>(this, entities, query);
}
}
}
} else {
switch(fetchType.fetchType) {
case ITER:
default:
{
PreparedQuery pq = prepare(query);
if (pag.isPaginating()) {
// in case of pagination, we need to allow asynchronous calls such as:
// QueryAsync<MyClass> query = pm.createQuery(MyClass).paginate(5).stateful().order("name");
// SienaFuture<Iterable<MyClass>> future1 = query.iter();
// SienaFuture<Iterable<MyClass>> future2 = query.nextPage().iter();
// Iterable<MyClass> it = future1.get().iterator();
// while(it.hasNext()) { // do it }
// it = future2.get().iterator();
// while(it.hasNext()) { // do it }
// so we can't use the asQueryResultIterable as the cursor is not moved to the end of the current page
// but moved at each call of iterable.iterator().next()
// thus we use the List in this case to be able to move directly to the next page with cursors
QueryResultList<Entity> entities;
if (!gaeCtx.useCursor) {
// then uses offset (in case of IN or != operators)
//if(offset.isActive()){
// fetchOptions.offset(offset.offset);
//}
fetchOptions.offset(gaeCtx.realOffset);
entities = pq.asQueryResultList(fetchOptions);
} else {
String cursor = gaeCtx.currentCursor();
if (cursor != null) {
entities = pq.asQueryResultList(fetchOptions.startCursor(Cursor.fromWebSafeString(cursor)));
} else {
entities = pq.asQueryResultList(fetchOptions);
}
// sets the current cursor (in stateful mode, cursor is always kept for further use)
//if(gaeCtx.useCursor){
gaeCtx.addCursor(entities.getCursor().toWebSafeString());
//}
}
return new GaeSienaFutureIterableMapper<T>(this, entities, query);
} else {
// if not paginating, we simply use the queryresultiterable and moves the current cursor
// while iterating
QueryResultIterable<Entity> entities;
if (!gaeCtx.useCursor) {
// then uses offset (in case of IN or != operators)
//if(offset.isActive()){
// fetchOptions.offset(offset.offset);
//}
fetchOptions.offset(gaeCtx.realOffset);
entities = pq.asQueryResultIterable(fetchOptions);
} else {
String cursor = gaeCtx.currentCursor();
if (cursor != null) {
entities = pq.asQueryResultIterable(fetchOptions.startCursor(Cursor.fromWebSafeString(gaeCtx.currentCursor())));
} else {
entities = pq.asQueryResultIterable(fetchOptions);
}
}
return new GaeSienaFutureIterableMapperWithCursor<T>(this, entities, query);
}
}
}
}
}
}
use of siena.core.options.QueryOptionOffset in project siena by mandubian.
the class BaseQueryData method defaultOptions.
public static Map<Integer, QueryOption> defaultOptions() {
return new HashMap<Integer, QueryOption>() {
private static final long serialVersionUID = -7438657296637379900L;
{
put(QueryOptionPage.ID, new QueryOptionPage(0));
put(QueryOptionOffset.ID, new QueryOptionOffset(0));
put(QueryOptionState.ID, new QueryOptionState());
//the fetch type is activated by default and set to NORMAL
put(QueryOptionFetchType.ID, (new QueryOptionFetchType()).activate());
}
};
}
use of siena.core.options.QueryOptionOffset in project siena by mandubian.
the class BaseQueryData method optionOffset.
protected void optionOffset(int offset) {
QueryOptionPage pagOpt = (QueryOptionPage) (options.get(QueryOptionPage.ID));
QueryOptionOffset offOpt = (QueryOptionOffset) options.get(QueryOptionOffset.ID);
//QueryOptionState stateOpt = (QueryOptionState)(options.get(QueryOptionState.ID));
offOpt.activate();
offOpt.offsetType = QueryOptionOffset.OffsetType.MANUAL;
offOpt.offset = offset;
// deactivates the pagination in any case
pagOpt.pageType = QueryOptionPage.PageType.MANUAL;
//if(offset!=0){
// if stateful mode, adds the offset to current offset
//if(stateOpt.isStateful()){
// offOpt.offset += offset;
//}
// if stateless mode, simply replaces the offset
// else {
// offOpt.offset = offset;
//if(!pagOpt.isManual()){
// pagOpt.pageSize = 0;
//}
//}
//}
}
use of siena.core.options.QueryOptionOffset in project siena by mandubian.
the class BaseQueryData method optionPaginate.
protected void optionPaginate(int pageSize) {
// sets the pagination
QueryOptionPage opt = (QueryOptionPage) (options.get(QueryOptionPage.ID));
QueryOptionOffset offOpt = (QueryOptionOffset) options.get(QueryOptionOffset.ID);
//QueryOptionState stateOpt = (QueryOptionState)(options.get(QueryOptionState.ID)).activate();
// can't change pagination after it has been initialized because it breaks all the cursor mechanism
/*if(opt.isActive() && opt.isPaginating()){
throw new SienaException("Can't change pagination after it has been initialized...");
}*/
opt.activate();
opt.pageSize = pageSize;
opt.pageType = QueryOptionPage.PageType.PAGINATING;
// resets offset to be sure nothing changes the pagination mechanism
offOpt.offsetType = QueryOptionOffset.OffsetType.PAGINATING;
//offOpt.offset = 0;
/*if(stateOpt.isStateful()){
offOpt.passivate();
}else {
offOpt.activate();
}*/
}
use of siena.core.options.QueryOptionOffset in project siena by mandubian.
the class AbstractPersistenceManagerAsync method release.
public <T> void release(QueryAsync<T> query) {
QueryOptionOffset offset = (QueryOptionOffset) query.option(QueryOptionOffset.ID);
QueryOption reuse = query.option(QueryOptionState.ID);
// resets offset
if (offset.isActive())
offset.offset = 0;
// disables reusable and cludge
if (reuse.isActive()) {
reuse.passivate();
}
}
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