Note: If you do not know how the grouping was created or mapped to the array, please refer to the source array structure and compare it to the output that is shown here. For example, address data contains the first_name, the last_name and the country. The data is logically grouped, and the data depth is indicated by the number of full stops in front of each entry. The output from displayArrayData is written to the LiveCode Message Box and is structured as follows: Information grouping is implicitly generated as a result of depth-first search exploration of the array data structure. The level of indentation and its formatting is explicitly controlled by output lines in the function. NOTE: Go to the Intel driver console choose Advanced mode > Display > Multiple Displays > on the right make sure Active Displays is set to 3 (Figure 3). Or you can display on 3 external monitors (one will replace your laptop display) (Figure 1). I guess you can add more figures and it places them automatically in another row or you may have to use vspace and hspace a couple of places. Add 2 more figures to get 4 figures in a row. Put format ( "%s => %s\n", pIndent, tKey, displayArrayData (pArray, pIndent)) after it For example, you can display graphics on your laptop screen and 2 external monitors. to 0.25textwidth and you should get the 2 figures consuming 1/4 of the available horizontal space. # call displayArrayData with a nested array # print full stops that allow the reader to track the depth of an element # print information to indicate that we are entering a new nested level of the array Incredible responsiveness turns your iOS or Android device into a true extra display. # create the variable that loops through the keys in the array function displayArrayData pArray, pIndent Group information together depending on how close it lies together in the array structure. Indent the data from left to right, depending on the depth at which the data is stored in the array.ΔΆ. The code in this lesson is generic and can be used on a large range of arrays. There are potentially many ways of decomposing array data into a human readable form, and the representation chosen depends on personal preference and the data structure that is to be displayed. This array represents the information of four customers and their purchases. Put "Ice Hotels DIY" into tCustomerDataArray ![]() Put "Meat Ball Recipes" into tCustomerDataArray Put "Makeup and Fashion" into tCustomerDataArray Put "Kilts and Stuff" into tCustomerDataArray Put "The Great Outdoors" into tCustomerDataArray Put "Walking in Scotland" into tCustomerDataArray # declare the variable that stores the array In this example, the book seller allows for books to be paid for in instalments. The data stored contains: The first name, the last name, the country in which the customer lives, the books a customer purchased, the currency in which the books were paid for and the payments that were made for each book. In the following example, the data represents an arrangement that may be present in an application that is used to process purchases of online book orders. ![]() The structure and depth of the array can be chosen freely to meet the requirements of the data that is to be stored.
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