Simple Horizontal Divider Item Decoration for RecyclerView
mRecyclerView.addItemDecoration(new SimpleDividerItemDecoration(
getApplicationContext()
));
NOTE: Add item decoration prior to setting the adapter
/** Consider the interface | |
interface Mappable<A> { | |
map: (A → B) → Mappable<B> | |
} | |
*/ | |
function Identity(value) { |
{ | |
"cmd": ["java", "-jar", "C:\/TOTVS\/command_line_tools\/tdscli.jar", "-help"], | |
"encoding": "cp1252", | |
"variants": [ | |
{ | |
"cmd": ["java", "-jar", "C:\/TOTVS\/command_line_tools\/tdscli.jar", "compile", | |
"program=$file", "includes=C:\/ambientes_protheus\/M118_SQA_VALID2\/include", | |
"server=localhost", "port=25006", "environment=M118_SQA_VALID2", "serverType=Advpl", | |
"user=admin", "psw=", |
import android.support.v7.widget.LinearLayoutManager; | |
import android.support.v7.widget.RecyclerView; | |
public abstract class EndlessRecyclerOnScrollListener extends RecyclerView.OnScrollListener { | |
public static String TAG = EndlessRecyclerOnScrollListener.class.getSimpleName(); | |
private int previousTotal = 0; // The total number of items in the dataset after the last load | |
private boolean loading = true; // True if we are still waiting for the last set of data to load. | |
private int visibleThreshold = 5; // The minimum amount of items to have below your current scroll position before loading more. | |
int firstVisibleItem, visibleItemCount, totalItemCount; |
You can use this class to realize a simple sectioned RecyclerView.Adapter
without changing your code.
The RecyclerView
should use a LinearLayoutManager
.
You can use this code also with the TwoWayView
with the ListLayoutManager
(https://github.com/lucasr/twoway-view)
This is a porting of the class SimpleSectionedListAdapter
provided by Google
Example:
Index: Zend/zend.h | |
=================================================================== | |
--- Zend/zend.h (revision 323850) | |
+++ Zend/zend.h (working copy) | |
@@ -486,6 +486,10 @@ | |
union _zend_function *__call; | |
union _zend_function *__callstatic; | |
union _zend_function *__tostring; | |
+ union _zend_function *__toint; | |
+ union _zend_function *__tofloat; |
{- | |
Zachary Weaver <zaw6@pitt.edu> | |
JSONParser.hs | |
Version 0.1.1 | |
A simple example of parsing JSON with Parsec in haskell. Note that | |
since the primary point of this excersize is demonstration, | |
Text.Parsec.Token was avoided to expose more of the grammar. Also, | |
complicated optimizations and shorcuts were avoided (mostly). |
import { __, reject, contains, either } from 'ramda' | |
const words = [ | |
'oi', 'como', 'vai', 'você', 'seu', 'idiota' | |
] | |
const blacklist = [ | |
'idiota', 'babaca', 'fdp' | |
] |
(*** Turing Machines in Coq *) | |
(** Some preliminary types we'll use *) | |
CoInductive CoList (A: Type) := CONS (a:A) (t:CoList A) | NIL. | |
Arguments CONS [A] _ _. | |
Arguments NIL [A]. | |
CoInductive Delay A := HERE (a:A) | LATER (_:Delay A). | |