This browser-based utility shuffles a bunch of integers and prints mixed values in the output. You can rearrange integers one by one or group them in pairs, triples, quadruples, or any other group size and shuffle them group by group. You can also customize the input and output integer separators and ignore duplicate integers. Created by math nerds from team Browserling.
This browser-based utility shuffles a bunch of integers and prints mixed values in the output. You can rearrange integers one by one or group them in pairs, triples, quadruples, or any other group size and shuffle them group by group. You can also customize the input and output integer separators and ignore duplicate integers. Created by math nerds from team Browserling.
With this online application, you can shuffle the positions of integers in the given sequence of integers. The randomization is performed by taking each value and dropping it in a random spot in the sequence. By default, the app mixes all integers individually but you can also permute tuples of integers. For example, you can shuffle every two or every three integers. Use the group size option and enter the number of integers in the shuffle group. When shuffling tuples of integers, the integers in a tuple maintain their positions and the shuffle is stable with respect to the group. If the list of integers contains repeated values, you can choose to delete the repeated values. To do it, activate the option "Skip Repeated Integers" and only the unique integers will be returned. The input list and the shuffled output list can use different delimiter characters. The input separator must match the symbol that separates the elements of entered sequence but the output integers can use any separator that you like. Integerabulous!
With this online application, you can shuffle the positions of integers in the given sequence of integers. The randomization is performed by taking each value and dropping it in a random spot in the sequence. By default, the app mixes all integers individually but you can also permute tuples of integers. For example, you can shuffle every two or every three integers. Use the group size option and enter the number of integers in the shuffle group. When shuffling tuples of integers, the integers in a tuple maintain their positions and the shuffle is stable with respect to the group. If the list of integers contains repeated values, you can choose to delete the repeated values. To do it, activate the option "Skip Repeated Integers" and only the unique integers will be returned. The input list and the shuffled output list can use different delimiter characters. The input separator must match the symbol that separates the elements of entered sequence but the output integers can use any separator that you like. Integerabulous!
In this example, we change the order of exactly a dozen integers that are entered in a vertical list. To correctly parse each integer, we set the "\n" symbol as the input separator. We set the delimiter for shuffled integers to the line break and the changed list is also vertical.
In this example, the input integer sequence consists of triples of ones (1, 2, 3), tens (10, 20, 30), hundreds (100, 200, 300), and thousands (1000, 2000, 3000). To shuffle the values and preserve the positions of the triples, we enter the number 3 in the "Group Size" option. The group size of 3 makes sure that the shuffling is performed with three integers locked together.
This example removes duplicate integers and mixes only the unique values. This is accomplished thru the "Skip Repeated Integers" option that deletes integer copies automatically so that we didn't have to do it manually. To make sure all integers are discovered, we enter the semicolon in the input delimiter field. The mingled output is comma-separated as we set the output delimiter to the comma.
You can pass input to this tool via ?input query argument and it will automatically compute output. Here's how to type it in your browser's address bar. Click to try!
Create a drawing that visualizes von Neumann hierarchy of sets.
Create a sudoku puzzle.
Create a list of neat-looking integers (called magic integers).
Generate a list of tuples of integers with n elements.
Quickly convert integers to base one.
Quickly convert base one to integers.
Quickly convert integers to base two.
Quickly convert base two to integers.
Quickly convert integers to base eight.
Quickly convert base eight to integers.
Quickly convert integers to base sixteen.
Quickly convert base sixteen to integers.
Quickly encode integers to base-64.
Quickly decode base-64 to integers.
Quickly convert integers to a custom base.
Quickly encode integers to HTML encoding.
Quickly decode HTML entities to integers.
Quickly encode integers to URL (percent) encoding.
Quickly decode URL-encoded integers.
Quickly convert a signed integer to an unsigned integer.
Quickly convert an unsigned integer to a signed integer.
Generate a list of random integers.
Check if the given integers are palindromes.
Create a matrix whose entries are all integers.
Create a vector with integer coefficients.
Quickly calculate the average value of integers.
Quickly calculate the average value of integer digits.
Quickly randomly select a digit from an integer.
Find which of the given integers is the biggest or smallest.
Limit integer values to a range.
Limit integer digit values to a range.
Create multiple copies of the input integers.
Create multiple copies of digits of input integers.
Rotate the digits of an integer to the left or right.
Move the digits of an integer to the left or right.
Quickly find the difference of a bunch of integers.
Quickly apply the bitwise AND operation to integers.
Quickly apply the bitwise OR operation to integers.
Quickly apply the bitwise XOR operation to integers.
Quickly apply the bitwise NOT operation to integers.
Quickly apply the bitwise NAND operation to integers.
Quickly apply the bitwise NOR operation to integers.
Quickly apply the bitwise NXOR operation to integers.
Quickly divide two or more integers.
Quickly divide the digits of an integer.
Add -st, -nd, -rd, -th suffixes to integers to make them ordinals.
Remove -st, -nd, -rd, -th suffixes from ordinals to make them ints.
Find integers that match a filter (greater, less, equal).
Add padding to integers on the left side.
Add padding to integers on the right side.
Position all integers so that they align on the right.
Position all integers so that they align in the middle.
Turn all integers into positive integers.
Turn all integers into negative integers.
Rewrite an integer in fractional form.
Extract the numerator and denominator from a fraction.
Search for all occurrences of an integer and replace it.
Create a regex that matches the given integers.
Create integers that match the given regular expression.
Create relatively tiny integers.
Create relatively huge integers.
Create a sequence of oscillating integers, such as 123212321.
Create multiple integer sequences at once.
Slightly change an integer so it has an error.
Slightly change integer digits so there are errors.
Apply fuzzing to integers and add perturbations.
Apply fuzzing to integer digits and add digit perturbations.
Add highlighting to certain integers.
Add highlighting to certain integer digits.
Add color to integers based on a condition.
Add color to individual digits in the given integers.
Quickly assign colors to integers and draw them as pixels.
Quickly assign integer values to pixel colors and print them.
Make the digits of an integer go in a spiral shape.
Make the digits of an integer go in a circle.
Make the digits of an integer go in a diamond shape.
Fill a box with certain width and height with digits.
Use ASCII art to convert integers to 2-dimensional drawings.
Use ASCII art to convert integers to 3-dimensional drawings.
Decompose an integer into ones, tens, hundreds, etc.
Generate an ordered list of increasing integers.
Generate an ordered list of decreasing integers.
Quickly find various information about the given integers.
Find hidden patterns of numbers in integers.
Find the Shannon entropy of an integer.
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We're Browserling — a friendly and fun cross-browser testing company powered by alien technology. At Browserling our mission is to make people's lives easier, so we created this collection of integer tools. Our tools have the simplest user interface that doesn't require advanced computer skills and they are used by millions of people every month. Our integer tools are actually powered by our programming tools that we created over the last couple of years. Check them out!
