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In your example, it is because you can't have a List of a primitive type. In other words, List<int> is not possible. You can, however, have a List<Integer>. Integer[] spam = new Integer[] { 1, 2, 3 }; Arrays.asList(spam); That works as expected.


I suggest that you use a profiler to test which is faster. My personal opinion is that you should use Lists. I work on a large codebase and a previous group of developers used arrays everywhere. It made the code very inflexible. After changing large chunks of it to Lists we noticed no difference in speed.


Yes, you can use the segue to get access the child view controller (and its view and subviews). Give the segue an identifier (such as alertview_embed), using the Attributes inspector in Storyboard. Then have the parent view controller (the one housing the container view) implement a method like this: - (void) prepareForSegue:(UIStoryboardSegue *)segue ...


This cheat sheet provides a pretty good summary of the different containers. See the flowchart at the bottom as a guide on which to use in different usage scenarios: Created by David Moore and licensed CC BY-SA 3.0


The Java way is that you should consider what data abstraction most suits your needs. Remember that in Java a List is an abstract, not a concrete data type. You should declare the strings as a List, and then initialize it using the ArrayList implementation. List<String> strings = new ArrayList<String>(); This separation of Abstract Data Type ...


How do you call .begin() and .end() on a C-array ? Free-functions allow for more generic programming because they can be added afterwards, on a data-structure you cannot alter.


Here is a flowchart inspired by David Moore's version (see above) that I created, which is up-to-date (mostly) with the new standard (C++11). This is only my personal take on it, it's not indisputable, but I figured it could be valuable to this discussion:


The problem is that varargs got introduced in Java5 and unfortunately, Arrays.asList() got overloaded with a vararg version too. So Arrays.asList(spam) is understood by the Java5 compiler as a vararg parameter of int arrays :-( This problem is explained in more details in Effective Java 2nd Ed., Chapter 7, Item 42.


You should prefer generic types over arrays. As mentioned by others, arrays are inflexible and do not have the expressive power of generic types. (They do however support runtime typechecking, but that mixes badly with generic types.) But, as always, when optimizing you should always follow these steps: Don't optimize until you have a nice, clean, and ...


The standard containers define size_type as a typedef to Allocator::size_type (Allocator is a template parameter), which for std::allocator is defined to be size_t. So for the standard case, they are the same. However, if you use a custom allocator a different underlying type could be used. So container::size_type is preferable for maximum portability.


A picture is worth a thousand words. It's available from nolyc, the informative bot of ##C++ on Freenode, using the command "container choice" or "containerchoice". The link to this picture you receive in response is hosted at, which suggests we should thank Adrinael, member of Freenode's ##C++ community.


label = new JLabel("A label"); label.setFont(new Font("Serif", Font.PLAIN, 14)); taken from How to Use HTML in Swing Components


Although the answers proposing to use ArrayList do make sense in most scenario, the actual question of relative performance has not really been answered. There are a few things you can do with an array: create it set an item get an item clone/copy it General conclusion Although get and set operations are somewhat slower on an ArrayList (resp. 1 and 3 ...


Any random-access container (like std::vector) can be sorted with the standard std::sort algorithm, available in the <algorithm> header. For finding the median, it would be quicker to use std::nth_element; this does enough of a sort to put one chosen element in the correct position, but doesn't completely sort the container. So you could find the ...


As the container grows, a reallocation for a vector requires copying all the elements into the new block of memory. Growing a deque allocates a new block and links it to the list of blocks - no copies are required. Of course you can specify that a different backing container be used if you like. So if you have a stack that you know is not going to grow ...


First of all, "J2EE" is an obsolete abbreviation, it is now simply called "Java Enterprise Edition" or Java EE. Contrary to the servlet container (e.g. Tomcat), "full" Java EE application servers contain also an EJB container. EJB are Enterprise Java Beans and you can read a lot about them for example here (chapter IV). EJBs are now in version 3.2 (Java EE ...


As you have already figured out, Dependency Injection (DI) itself is only a collection of patterns and techniques. At the root of the application we wire up all necessary object graphs. This place is called the Composition Root, and we can use a DI Container to do this wiring for us, or we can do it manually (Poor Man's DI). The point is that there's only ...


Not the most pretty code, but the following will pick an appropriate font size for a JLabel called label such that the text inside will fit the interior as much as possible without overflowing the label: Font labelFont = label.getFont(); String labelText = label.getText(); int stringWidth = label.getFontMetrics(labelFont).stringWidth(labelText); int ...


You can access the container's id by calling ((ViewGroup)getView().getParent()).getId();


The main reasons not to use STL are that: Your C++ implementation is old and has horrible template support. You can't use dynamic memory allocation. Both are very uncommon requirements in practice. For a longterm project rolling your own containers that overlap in functionality with the STL is just going to increase maintenance and development costs.


Ronald Laeremans, VC++ Product Unit Manager, even said to use STL in June 2006: And frankly the team will give you the same answer. The MFC collection classes are only there for backwards compatibility. C++ has a standard for collection classes and that is the Standards C++ Library. There is no technical drawback for using any of the standard library in ...


The general design principle is to use std::find where possible, and implement find member functions when it is more efficient. The containers that do have a find member are containers which have a more efficient element look-up mechanism then the linear search performed in std::find. For example, binary search trees such as std::set and std::map, or hash ...


You could probably use std::transform for that purpose. I would maybe prefer Neils version though, depending on what is more readable. Example by xtofl (see comments): #include <map> #include <vector> #include <algorithm> #include <iostream> template< typename tPair > struct second_t { typename tPair::second_type ...


A std::map is an associative container, that allows you to have a unique key associated with your type value. For example, void someFunction() { typedef std::map<std::string, int> MapType; mapType myMap; // insertion myMap.insert(MapType::value_type("test", 42)); myMap.insert(MapType::value_type("other-test", 0)); // search ...


Speaking about conversion way, it depends on why do you need your List. If you need it just to read data. OK, here you go: Integer[] values = { 1, 3, 7 }; List<Integer> list = Arrays.asList(values); But then if you do something like this: list.add(1); you get java.lang.UnsupportedOperationException. So for some cases you even need this: ...


For space-optimization reasons, the C++ standard (as far back as C++98) explicitly calls out vector<bool> as a special standard container where each bool uses only one bit of space rather than one byte as a normal bool would (implementing a kind of "dynamic bitset"). In exchange for this optimization it doesn't offer all the capabilities and interface ...


Depends on the container. e.g. if it's a vector, after modifying the container all iterators can be invalidated. However, if it's a list, the iterators irrelevant to the modified place will remain valid. A vector's iterators are invalidated when its memory is reallocated. Additionally, inserting or deleting an element in the middle of a vector ...


A singleton bean in Spring and the singleton pattern are quite different. Singleton pattern says that one and only one instance of a particular class will ever be created per classloader. The scope of a Spring singleton is described as "per container per bean". It is the scope of bean definition to a single object instance per Spring IoC container. The ...


ContentControls & ItemsControls are good for this, you can bind them to a property of your UserControl or expose them. Using a ContentControl (for placeholders in multiple disconnected places): <UserControl x:Class="Test.UserControls.MyUserControl2" xmlns="" ...

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