Binding.scala: Get current value of a Binding - scala

It seems it is not possible to get the current value of a Binding like we can do for a Var(using method value). I looked at the source and this method is declared as being private for Binding class, while it is public for Var or for Binding.Constant classes. Is-there any reason for making it private in the Binding case ? Do you know there is another way to achieve that for a Binding ?
Just to give a word about the context, my use-case is the following: I have a complex object within a Var and from this Var, I derive several Binding representing lists of simple objects. Then I use these Binding to render HTML tables within #dom methods. Now I would like to perform some sequential search in the data displayed in the table (without having to derive them again from the original Var object)
So, basically, I would like to get the current value of the Binding used to show my table in order to perform the search.
Currently, the only option I can think of is to use Var instead of Binding for my derived objects and then to use a watched binding expression to update the derived Var when the source Var changes. But this makes the code much less concise and I have the feeling that this would add some performance overhead. Do you have some ideas to accomplish that in a better way?
Thanks in advance for any answer!

You may need findMapM (where M is Binding, F is List or Vector) or other sequential functions in Scalaz. See Scaladoc.

Related

Sorting Generic List in C#

I have a generic List as shown in below.
List<UsrProfile> lst = GetUsers();
lst.Sort();
ddlUser1.DataSource = lst;
ddlUser1.DataBind();
Now the dropdown has both Value and Text. Now I do I sort by Text using the Generic list.
Please help.
I cannot use LinQ
If I understand the question correctly (and I may not...it's not very clear), you want to sort the list by a specific member of the UsrProfile class. Specifically, the Text property.
This is easy to do: lst.Sort((u1, u2) => u1.Text.CompareTo(u2.Text)); should do what you want.
This passes a Comparison<UsrProfile> delegate instance to the List<UsrProfile>.Sort() method, allowing it to customize the comparison logic used for the sort. In this case, rather than comparing whole UsrProfile objects against each other, it just compares the Text property between objects.

Intersystems Cache - Correct syntax for %ListOfObjects

The documentation says this is allowed:
ClassMethod GetContacts() As %ListOfObjects(ELEMENTTYPE="ContactDB.Contact")
[WebMethod]
I want to do this:
Property Permissions As %ListOfObjects(ELEMENTTYPE="MyPackage.MyClass");
I get an error:
ERROR #5480: Property parameter not declared:
MyPackage.Myclass:ELEMENTTYPE
So, do I really have to create a new class and set the ELEMENTTYPE parameter in it for each list I need?
Correct syntax for %ListOfObjects in properties is this one
Property Permissions As list of MyPackage.MyClass;
Yes, a property does sometimes work differently than a method when it comes to types. That is an issue here, in that you can set a class parameter of the return value of a method declaration in a straightforward way, but that doesn't always work for class parameters on the class of a property.
I don't think the way it does work is documented completely, but here are some of my observations:
You can put in class parameters on a property if the type of the property is a data-type (which are often treated differently than objects).
If you look at the %XML.Adaptor class it has the keyword assignment statement
PropertyClass = %XML.PropertyParameters
This appears to add its parameters to all the properties of the class that declares it as its PropertyClass. This appears to be an example of Intersystems wanting to implement something (an XML adaptor) and realizing the implementation of objects didn't provide it cleanly, so they hacked something new into the class compiler. I can't really find much documentation so it isn't clear if its considered a usable API or an implementation detail subject to breakage.
You might be able to hack something this way - I've never tried anything similar.
A possibly simpler work around might be to initialize the Permissions property in %OnNew and %OnOpen. You will probably want a zero element array at that point anyway, rather than a null.
If you look at the implementation of %ListOfObjects you can see that the class parameter which you are trying to set simply provides a default value for the ElementType property. So after you create an instance of %ListOfObjects you could just set it's ElementType property to the proper element type.
This is a bit annoying, because you have to remember to do it every time by hand, and you might forget. Or a maintainer down the road might not now to do it.
You might hope to maybe make it a little less annoying by creating a generator method that initializes all your properties that need it. This would be easy if Intersystems had some decent system of annotating properties with arbitrary values (so you could know what ElementType to use for each property). But they don't, so you would have to do something like roll your own annotations using an XData block or a class method. This probably isn't worth it unless you have more use cases for annotations than just this one, so I would just do it by hand until that happens, if it ever does.

Enumerators, iterators, IEnumerable - a bit confused

I've read through the Iterators/Enumerators section of C# 3.0 in a Nutshell several times, but I'm still having a hard time grasping it. From their names, my initial thought is that an Iterator would iterate over a group of Enumerable objects. Am I on the right track? If so, then what about common generic collections, like a List<T>? Does List create/make use of an Iterator during some of its operations? Is T automatically Enumerable? Is there a cast? Does one even have anything to do with the other?
On a somewhat related note, while learning MVC, I've seen code like so:
public Article GetArticle(int id)
{
return _siteDB.Articles.SingleOrDefault(a => a.ArticleID == id);
}
public IEnumerable<Article> GetArticle(string title)
{
return _siteDB.Articles.Where(a => a.Title.StartsWith(title)).AsEnumerable<Article>();
}
What does having a return type of IEnumerable<T> give me?
EDIT: Okay, I think I'm beginning to get it. My confusion remains with Iterators. The book describes them as producers of Enumerators. I don't see where that actually happens with yield return. Does each yield create a new Enumerator?
The type IEnumerable gives you IEnumerable :)
It is an interface defining method GetEnumerator(), which returns IEnumerator. You can call the method as many times as you like and you always obtain new instance of IEnumerator.
The IEnumerator have property Current and methods MoveNext() and Reset() allowing the collection enumeration. The enumeration itself can be done by calling MoveNext() and reading the Current property if previous call of MoveNext() returns true.
Good example of implementation and usage is in documentation: http://msdn.microsoft.com/en-us/library/system.collections.ienumerator.aspx
From their names, my initial thought is that an Iterator would iterate over a group of Enumerable objects. Am I on the right track? If so, then what about common generic collections, like a List? Does List create/make use of an Iterator during some of its operations?
An iterator is a way to implement a method returning an IEnumerable<T> - it's really an implementation detail. Instead of having to create some custom class to enumerate through a collection, you can use an iterator to implement it, and the compiler does the hard work for you.
What does having a return type of IEnumerable give me?
This basically allows you to enumerate over the type. For example, the second method (which I would personally call GetArticles), would allow you to write:
foreach(var article in GetArticle(theTitle))
{
// Do something with article
}
Lets see if I can answer this.
So a List implements IEnumerable, and its not the T that has to implement it, anything in a list can be iterated, using a forech or for loop, for example. If you use a generic list like List, this means that what you have is a list of T where T is the object type defined by you, that means you don't have to cast it, but in the other hand you can only put objects of that same type in that list.
The code you have up there, can mean a series of thing:
1 - Any variable that implements IEnumerable will be able to hold the result of GetArticle,
Ex:
List yourList = GetArticle("test");
Queue myQueue = GetArticle("test");
2 - The actual processing of the query will be delayed. If you call Count for example, after you call the method, thats when it actually get executed/resolved.
3 - Because of number 2, if you are doing that on a DB as the code suggests, then you connection has to remain open till the time where you make use of the list, otherwise you will get an exception.
I think I have answered the questions.

What is exactly the point of auto-generating getters/setters for object fields in Scala?

As we know, Scala generates getters and setters automatically for any public field and make the actual field variable private. Why is it better than just making the field public ?
For one this allows swapping a public var/val with a (couple of) def(s) and still maintain binary compatibility. Secondly it allows overriding a var/val in derived classes.
First, keeping the field public allows a client to read and write the field. Since it's beneficial to have immutable objects, I'd recommend to make the field read only (which you can achieve in Scala by declaring it as "val" rather than "var").
Now back to your actual question. Scala allows you to define your own setters and getters if you need more than the trivial versions. This is useful to maintain invariants. For setters you might want to check the value the field is set to. If you keep the field itself public, you have no chance to do so.
This is also useful for fields declared as "val". Assume you have a field of type Array[X] to represent the internal state of your class. A client could now get a reference to this array and modify it--again you have no chance to ensure the invariant is maintained. But since you can define your own getter you can return a copy of the actual array.
The same argument applies when you make a field of a reference type "final public" in Java--clients can't reset the reference but still modify the object the reference points to.
On a related note: accessing a field via getters in Scala looks like accessing the field directly. The nice thing about this is that it allows to make accessing a field and calling a method without parameters on the object look like the same thing. So if you decide you don't want to store a value in a field anymore but calculate it on the fly, the client does not have to care because it looks like the same thing to him--this is known as the Uniform Access Principle
In short: the Uniform Access Principle.
You can use a val to implement an abstract method from a superclass. Imagine the following definition from some imaginary graphics package:
abstract class circle {
def bounds: Rectangle
def centre: Point
def radius: Double
}
There are two possible subclasses, one where the circle is defined in terms of a bounding box, and one where it's defined in terms of the centre and radius. Thanks to the UAP, details of the implementation can be completely abstracted away, and easily changed.
There's also a third possibility: lazy vals. These would be very useful to avoid recalculating the bounds of our circle again and again, but it's hard to imagine how lazy vals could be implemented without the uniform access principle.

How do I use classes?

I'm fairly new to programming, and there's one thing I'm confused by. What is a class, and how do I use one? I understand a little bit, but I can't seem to find a full answer.
By the way, if this is language-specific, then I'm programming in PHP.
Edit: There's something else I forgot to say. Specifically, I meant to ask how defining functions are used in classes. I've seen examples of PHP code where functions are defined inside classes, but I can't really understand why.
To be as succinct as possible: a class describes a collection of data that can perform actions on itself.
For example, you might have a class that represents an image. An object of this class would contain all of the data necessary to describe the image, and then would also contain methods like rotate, resize, crop, etc. It would also have methods that you could use to ask the object about its own properties, like getColorPalette, or getWidth. This as opposed to being able to directly access the color pallette or width in a raw (non-object) data collection - by having data access go through class methods, the object can enforce constraints that maintain consistency (e.g. you shouldn't be able to change the width variable without actually changing the image data to be that width).
This is how object-oriented programming differs from procedural programming. In procedural programming, you have data and you have functions. The functions act on data, but there's no "ownership" of the data, and no fundamental connection between the data and the functions which make use of it.
In object-oriented programming, you have objects which are data in combination with actions. Each type of data has a defined set of actions that it can perform on itself, and a defined set of properties that it allows functions and other objects to read and write in a defined, constraint-respecting manner.
The point is to decouple parts of the program from each other. With an Image class, you can be assured that all of the code that manipulates the image data is within the Image class's methods. You can be sure that no other code is going to be mucking about with the internals of your images in unexpected ways. On the other hand, code outside your image class can know that there is a defined way to manipulate images (resize, crop, rotate methods, etc), and not have to worry about exactly how the image data is stored, or how the image functions are implemented.
Edit: And one more thing that is sometimes hard to grasp is the relationship between the terms "class" and "object". A "class" is a description of how to create a particular type of "object". An Image class would describe what variables are necessary to store image data, and give the implementation code for all of the Image methods. An Image object, called an "instance" of an image class, is a particular use of that description to store some actual data. For example, if you have five images to represent, you would have five different image "objects", all of the same Image "class".
Classes is a term used in the object oriented programming (OOP) paradigm. They provide abstraction, modularity and much more to your code. OOP is not language specific, other examples of languages supporting it are C++ and Java.
I suggest youtube to get an understanding of the basics. For instance this video and other related lectures.
Since you are using PHP I'll use it in my code examples but most everything should apply.
OOP treats everything as an object, which is a collection of methods (functions) and variables. In most languages objects are represented in code as classes.
Take the following code:
class person
{
$gender = null;
$weight = null;
$height = null;
$age = null;
$firstName = null;
$lastName = null;
function __CONSTRUCT($firstName, $lastName)
{
//__CONSTRUCT is a special method that is called when the class is initialized
$this->firstName = $firstName;
$this->lastName = $lastName;
}
}
This is a valid (if not perfect) class when you use this code you'll first have to initailize an instance of the class which is like making of copy of it in a variable:
$steve = new person('Steve', 'Jobs');
Then when you want to change some property (not technicaly the correct word as there are no properties in PHP but just bear with me in this case I mean variable). We can access them like so:
$steve->age = 54;
Note: this assumes you are a little familiar with programming, which I guess you are.
A class is like a blueprint. Let's suppose you're making a game with houses in it. You'd have a "House" class. This class describes the house and says what can it do and what can be done to it. You can have attributes, like height, width, number of rooms, city where it is located, etc. You can also have "methods" (fancy name for functions inside a class). For example, you can have a "Clean()" method, which would tell all the people inside the house to clean it.
Now suppose someone is playing your game and clicks the "make new house" button. You would then create a new object from that class. In PHP, you'd write "$house = new House;", and now $house has all the attributes and methods of a class.
You can make as many houses as you want, and they will all have the same properties, which you can then change. For example, if the people living in a house decide to add one more room, you could write "$house->numberOfRooms++;". If the default number of rooms for a house was 4, this house would have 5 rooms, and all the others would have 4. As you can see, the attributes are independent from one instance to another.
This is the basics; there is a lot more stuff about classes, like inheritance, access modifiers, etc.
Now, you may ask yourself why is this useful. Well, the point of Object Oriented Programming (OOP) is to think of all the things in the program as independent objects, trying to design them so they can be used regardless of context. For example, your house may be a standalone variable, may be inside an array of houses. If you have a "Person" class with a "residence" attribute, then your house may be that attribute.
This is the theory behind classes and objects. I suggest you look around for examples of code. If you want, you can look at the classes I made for a Pong game I programmed. It's written in Python and may use some stuff you don't understand, but you will get the basic idea. The classes are here.
A class is essentially an abstraction.
You have built-in datatypes such as "int" or "string" or "float", each of which have certain behavior, and operations that are possible.
For example, you can take the square root of a float, but not of a string. You can concatenate two strings, or you can add two integers. Each of these data types represent a general concept (integers, text or numbers with a fixed number of significant digits, which may or may not be fractional)
A class is simply a user-defined datatype that can represent some other concept, including the operations that are legal on it.
For example, we could define a "password" class which implements the behavior expected of a password. That is, we should be able to take a text string and create a password from it. (If I type 'secret02', that is a legal password). It should probably perform some verification on this input string, making sure that it is at least N characters long, and perhaps that it is not a dictionary word. And it should not allow us to read the password. (A password is usually represented as ****** on the screen). Instead, it should simply allow us to compare the password to other passwords, to see if it is identical.
If the password I just typed is the same as the one I originally signed up with, I should be allowed to log in. But what the password actually is, is not something the application I'm logging in to should know. So our password class should define a comparison function, but not a "display" function.
A class basically holds some data, and defines which operations are legal on that data. It creates an abstraction.
In the password example, the data is obviously just a text string internally, but the class allows only a few operations on this data. It prevents us from using the password as a string, and instead only allows the specific operations that would make sense for a password.
In most languages, the members of a class can be either private or public. Anything that is private can only be accessed by other members of the class. That is how we would implement the string stored inside the password class. It is private, so it is still visible to the operations we define in the class, but code outside the class can not just access the string inside a password. They can only access the public members of the class.
A class is a form of structure you could think of, such as int, string and so forth that an instance can be made from using object oriented programming language. Like a template or blueprint the class takes on the structure. You write this structure with every association to the class. Something from a class would be used as an object instance in the Main() method where all the sysync programming steps take place.
This is why you see people write code like Car car = new Car();to draw out a new object from a class. I personally do not like this type of code, its very bad and circular and does not explain which part is the class syntax (arrangement). Too bad many programmers use this syntax and it is difficult for beginners to understand what they are perceiving.
Think of this as,
CarClass theCar = new CarClass(); //
The class essentially takes on the infinitely many forms. You can write properties that describe the CarClass and every car generated will have these. To get them from the property that "gets" what (reads) and "sets" what (writes) data, you simply use the dot operator on the object instance generates in the Main() and state the descriptive property to the actual noun. The class is the noumenon (a word for something like math and numbers, you cannot perceive it to the senses but its a thought like the #1). Instead of writing each item as a variable the class enables us to write a definition of the object to use.
With the ability to write infinitely many things there is great responsibility! Like "Hello World!" how this little first statement says much about our audience as programmers.
So
CarClass theCar = new CarClass(); //In a way this says this word "car" will be a car
theCar.Color = red; //Given the instance of a car we can add that color detail.
Now these are only implementations of the CarClass, not how to build one.
You must be wondering what are some other terms, a field, constructor, and class level methods and why we use them and indexing.
A field is another modifier on a property. These tend to be written on a private class level so nothing from the outside affects it and tends to be focused on the property itself for functionality. It is in another region where you declare it usually with an underscore in front of it. The field will add constraints necessary to maintain data integrity meaning that you will prevent people from writing values that make no sense in the context. (Like real like measurements in the negative... that is just not real.)
The Constructor
The easiest way to describe a constructor is to make claims to some default values on the object properties where the constructor scope is laid. In example a car has a color, a max speed, a model and a company. But what should these values be and should some be used in millions of copies from the CarClass or just a few? The constructor enables one to do this, to generate copies by establishing a basic quality. These values are the defaults assigned to a property in a constructor block. To design a constructor block type ctor[tab][tab]. Inside this simply refer to those properties you write above and place an assigned value on it.
Color = “Red”;
If you go to the main() and now use the car.Color property in any writing output component such as a the console window or textbox you should see the word “Red”. The details are thus implicit and hidden. Instead of offering every word from a book you simply refer to the book then the computer gets the remaining information. This makes code scripts compact and easy to use.
The Class level method should explain how to do some process over and over. Typically a string or some writing you can format some written information for a class and format it with placeholders that are in the writing to display that are represented with your class properties. It makes sense when you make an object instance then need to use the object to display the details in a .ToString() form. The class object instance in a sense can also contain information like a book or box. When we write .ToString() with a ToString override method at class level it will print your custom ToString method and how it should explain the code. You can also write a property .ToString() and read it. This below being a string should read fine as it is...
Console.Writeline(theCar.Color);
Once you get many objects, one at a time you can put them in a list that allows you to add or remove them. Just wait...
Here's a good page about Classes and Objects:
http://ficl.sourceforge.net/oo_in_c.html
This is a resource which I would kindly recommend
http://www.cplusplus.com/doc/tutorial/
not sure why, but starting with C++ to apply OOP might be natural prior of any other language, the above link helped me a lot when I started at least.
Classes are a way programmers mark their territory on code.
They are supposedly necessary for writing big projects.
Linus and his team must have missed that memo developing the linux kernel.
However, they can be good for organization and categorizing code I guess.
It makes it easier to navigate code in an ide such as visual studio with the object browsers.
Here are some usage demonstrations of classes in 31 languages on rosettacode
First of all back to the definitions:
Class definition:
Abstract definition of something, an user-type, a blueprint;
Has States / Fields / Properties (what an object knows) and Methods / Behaviors / Member Functions (what an object does);
Defines objects behavior and default values;
Object definition:
Instance of a Class, Repository of data;
Has a unique identity: the property of an object that distinguishes it from other objects;
Has its own states: describes the data stored in the object;
Exhibits some well defined behavior: follows the class’s description;
Instantiation:
Is the way of instantiate a class to create an object;
Leaves the object in a valid state;
Performed by a constructor;
To use a class you must instantiate the class though a contructor. In PHP a straight-forward example could be:
<?php
class SampleClass {
function __construct() {
print "In SampleClass constructor\n";
}
}
// In SampleClass constructor
$obj = new SampleClass ();
?>