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README-en.md edited online with Bitbucket

Jose R Ortiz Ubarri 8 yıl önce
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README-en.md Dosyayı Görüntüle

@@ -41,13 +41,13 @@ Before you get to the laboratory you should have:
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 ---
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-##Functions
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+## Functions
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 In mathematics, a function $$f$$ is a rule that is used to assign to each element $$x$$ from a set called *domain*, one (and only one) element $$y$$ from a set called *range*. This rule is commonly represented with an equation, $$y=f(x)$$. The variable $$x$$ is the parameter of the function and the variable $$y$$ will contain the result of the function. A function can have more than one parameter, but only one result. For example, a function can have the form $$y=f(x_1,x_2)$$ where there are two parameters, and for each pair $$(a,b)$$ that is used as an argument in the function, and the function will only one value of $$y=f(a,b)$$. The domain of the function tells us the type of value that the parameter should have and the range tells us the value that the returned result will have.
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 Functions in programming languages are similar. A function has a series of instructions that take the assigned values as parameters and performs a certain task. In C++ and other programming languages, functions return only one result, as it happens in mathematics. The only difference is that a *programming* function could possibly not return any value (in this case the function is declared as `void`). If the function returns a value, we use the instruction `return`. As in math, you need to specify the types of values that the function's parameters and result will have; this is done when declaring the function.
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-###Function header
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+### Function header
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 The first sentence of a function is called the *header* and its structure is as follows:
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 would be the header of the function called `example`, which returns an integer value. The function receives as arguments an integer value (and will store a copy in `var1`), a value of type `float` (and will store a copy in `var2`) and the reference to a variable of type `char` that will be stored in the reference variable `var3`. Note that `var3` has a & symbol before the name of the variable. This indicates that `var3` will contain the reference to a character.
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-###Calling
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+### Calling
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 If we want to store the value of the result of the function called `example` in a variable `result` (that would be of type integer), we call the function by passing arguments as follows:
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-###Overloaded Functions
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 Overloaded functions are functions that have the same name, but a different *signature*.
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 **Examples of Function Headers and Valid Function Calls:**
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-1. **Headers:** `int example(int var1, float var2, int var3 = 10)` Here `var3` is initialized to 10.
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+1. **Header:** `int example(int var1, float var2, int var3 = 10)` Here `var3` is initialized to 10.
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     **Calls:**
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 1. Load the project `DVDInfo` into `QtCreateor`. There are two wayss to do this: 
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-       * Using the virtual machine: Double click the file `DVDInfo.pro` located in the folder `home/eip/labs/functions-dvdinfo` of your virtual machine. 
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-   	   * Downloading the project's folder from `Bitbucket`: Use a terminal and write the command `git clone http://bitbucket.org/eip-uprrp/functions-dvdinfo` to download the folder `functions-dvdinfo` from `Bitbucket`. Double click the file `DVDInfo.pro` located in the folder that you downloaded to your computer. 
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+      * Using the virtual machine: Double click the file `DVDInfo.pro` located in the folder `home/eip/labs/functions-dvdinfo` of your virtual machine. 
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+      * Downloading the project's folder from `Bitbucket`: Use a terminal and write the command `git clone http://bitbucket.org/eip-uprrp/functions-dvdinfo` to download the folder `functions-dvdinfo` from `Bitbucket`. Double click the file `DVDInfo.pro` located in the folder that you downloaded to your computer. 
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 2. Configure the project. The file `main.cpp` has the function calls that you will use in the next exercises. The declarations and definitions of the functions that will be called can be found in the files `movie.h` and `movie.cpp`.
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