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Example Scenes

Make It Random includes example scenes to let you explore some of the features provided by the library. These scenes are summarized below.

This topic contains the following sections:


A web demo of this example can be found here.

The "Geometry.unity" demo scene.

The geometry scene demonstrates generating random vectors and quaternions with different spatial distributions, using the functions available in RandomGeometry. Simply select any button on the left, and particles will be generated with the corresponding spatial arrangement.


A web demo of this example can be found here.

The "Colors.unity" demo scene.

The colors scene demostrate generating random colors, either from scratch or by modifying color components by varying degrees from an initial color, using the functions available in RandomColor. In addition to supporting Color, the Make It Colorful library is included, offering further color spaces beyond just RGB.

The available color space are enumerated as toggle buttons at the top of the demo. Depending on which one is selected, controls below will be adjusted, as will their behavior. For example, the distribution of colors produced by the Generate Random Colors button will be different for each color space.

Once colors are generated, you can select any color on the right and see its individual components at the top. You may also now use the controls in the third and fourth boxes on the left, treating the selected color as the basis for further modifications.

The third box of controls lets you shift the individual color components by random amounts, with the maximum amount of change dictated by the slider values. The selected color will remain the same, but all other colors in the grid will be regenerated using the random component ranges specified.

The fourth box of controls is similar, but it scales individual properties of colors in a particular color space toward their minimum or maximum value, by random amounts.


A web demo of this example can be found here.

The "Shuffle.unity" demo scene.

The shuffle scene demonstrates shuffling elements in a list, using the functions available in RandomShuffle, as well as randomly selecting items from a list using the functions available in RandomListAccess.

To use this demo, choose the number of items you want in the list, and then press one of the buttons in the first group to gerate the list of items. The list will be visualized on the right, with the upper blue bars simply indicating the value of the items in the list, while the lower red bars indicate the weight values of each one (see below).

Press the shuffle button, and you should see all the items completely shuffled, taking on random indexes.

If you press the Select Random Item button, then an item will be selected and highlighted with yellow, completely at random. The Select Weighted Random Item, on the other hand, will favor items with larger weights, selecting those more often than the items with smaller weights. This effect is more obvious if the items have not been shuffled, but remains true even after a thorough jumbling.


A web demo of this example can be found here.

The "Dice.unity" demo scene.

The dice scene demonstrates rolling a collection of dice of various sizes, and optionally keeping or dropping some of them, using the functions available in RandomDice.

If you choose to roll more than just one die, then the toggle buttons for keeping or dropping dice will be enabled. Note that keeping the highest or lowest is essentially the same as dropping the the lowest or highest, respectively, with the number to drop properly adjusted.

When you press the Roll Dice button, the dice will show up on the right. If you chose to keep some and drop others, then those that are kept will be listed first, while those that are dropped will be listed last and shaded red.


A web demo of this example can be found here.

The "Strings.unity" demo scene.

The strings scene demonstrates generating random strings based on various character sets and other patterns, using the functions available in RandomString.

The buttons at the bottom let you generate random strings, and represent the various built-in character sets and patterns (though you may supply your own character sets also).

For any character set that includes Latin alphabetic characters use the upper and lower case toggles if you wish to force only one type of casing.

Spacing represents the ability to insert a particular separator character into the random string with a certain probability, but never with two separators in a row, or at the beginning or end. (Note that identifiers use underscores instead, and alter the rules a bit at the beginning of each string.)

The "Performance.unity" demo scene.

The performance scene demonstrates the speed of various core functions of Make It Random, and offers comparisons to equivalent functions in UnityEngineRandom and SystemRandom when available.

To run performance tests, select the random engines you would like to test, and the operations which will be executed using each selected engine. If you select three engines and eight operations, then when you press the Measure Performance button, the program will do a total of 3 × 8 or 24 tests.

Each test will spend as much time as is specified by the Measurement Duration slider, attempting to execute as many iterations of the operation being tested as possible before that duration of time is used up. Before each actual measured test, it will also go through the same process for the amount of time specified by the Warmup Duration slider, but without actually measuring time. This helps to avoid any inaccuracies caused by cold caches.

Results will be listed on the right, indicating the name of the random engine, the operation that was performed, and the average number of operations per second that were able to be executed. You may cancel at any time by hitting the same button that started the testing. A progress bar below the button will show overall progress.

Note Note

Note that when executing tests of Unity's random engine, the progress bar will not update, and the user interface will not be responsive. This is because Unity's random functions must be called on the main thread, and for accuracy reasons, the test cannot be distributed over multiple frames. All other random engines are free to execute on any thread, and so performance tests are done in a background thread to keep things responsive.

Note Note

Keep the toggle to Use Native Calls When Available checked if you want to compare performance of Make It Random engines to UnityEngineRandom and SystemRandom. The performance results on the right will indicate in parentheses what actual method or property was used to generate the results. If this toggle button is unchecked, then these two engines will simply be used to (inefficiently) generate random bits which are fed to all the advanced functions to generate the final data, just like with any other random engine, and their performance will inevitably be worse.

Important note Important

Running this scene from the editor can be mildly informative, but be sure to create a full build for your target platform to get solid information, if you're looking to evaluate which random engine is best for your particular circumstances.