# “How much math do I need to know to program?” Not That Much, Actually.

Here are some posts I’ve seen on the r/learnprogramming subreddit forum:

Math and programming have a somewhat misunderstood relationship. Many people think that you have to be good at math or made good grades in math class before you can even begin to learn programming. But how much math does a person need to know in order to program?

Not that much actually. This article will go into detail about the kinds of math you should know for programming. You probably know it already.

For general programming, you should know the following:

• Addition, subtraction, division, and multiplication – And really, the computer will be doing the adding, subtracting, dividing, and multiplying for you anyway. You just have to know when you need to do these operations.
• Mod – The mod operation is the “remainder” and its sign is usually the % percent sign. So 23 divided by 7 is 3 with a remainder of 2. But 23 mod 7 is 2.
• The even/odd mod test trick – If you want to know if a number is odd or even, mod it by 2. If the result is 0, the number is even. If the result is 1, the number is odd. 23 mod 2 is 1, so you know 23 is odd. 24 mod 2 is 0, so you know 24 is even. If x mod 2 is 0, you know that whatever number is stored in the variable x is even.
• To get a percentage of a number, multiply that number by the percent number with the decimal point in front of it. So to get 54% of 279, multiple 0.54 * 279. This is why 1.0 often means 100% and 0.0 means 0%.
• Know what negative numbers are. A negative number times a negative number is a positive. A negative times a positive is negative. That’s about it.
• Know what a Cartesian coordinate system is. In programming, the (0, 0) origin is the top left corner of the screen or window, and the Y axis increases going down.
• Know the Pythagorean theorem, and that it can be used to find the distance between two points on a Cartesian coordinate system. The Pythagorean theorem is a^2 + b^2 = c^2. What this usually means in programming is the distance between coordinate (x1, y1) and (x2, y2) will just be sqrt( (x1 – x2)^2 + (y1 – y2)^2 ).
• Know what decimal, binary, and hexadecimal numbering systems are. Decimal numbers are the numbers we’re used to that have ten digits: 0 to 9. It’s commonly thought that humans develop this system because we have ten fingers and counted on our fingers.

Computers work with binary data, which is a number system with only two digits: 0 and 1. This is because we build computers out of electronics components where it’s cheaper to make them only recognize two different states (one state to represent 0 and the other to represent 1).

The numbers are still the exact same, but they are written out differently because there are a different number of digits in each system. Because hex has 6 more digits than the 0-9 numerals can provide, we use the letters A through F for the digits above 9. The easiest way to show these number systems is with an odometer. The following three odometers always show the same number, but they are written out differently in different number systems:

See the Odometer Number Systems page in a new window.

You don’t even have to know the math of converting a number from one number system to another. Every programming language has functions that can do this for you.

(On a side note, hexadecimal is used because one hexadecimal digit can represent exactly four binary digits. So since 3 in hex represents 0011 in binary and A in hex represents 1010. This has the nice effect that the hex number 3A (which is 58 in decimal) is written in binary as 00111010. Hex is used in programming because it is a shorthand for binary. Nobody likes writing out all those ones and zeros.)

And that’s about it. Other than the number system stuff, you probably already knew all the math you needed to know to do programming. Despite the popular conception, math isn’t really used that much in programming. You would need to know math in order to write programs that do, say, earthquake simulators. But that’s more about needing to know math for earthquakes rather than needing to know math for programming an earthquake simulator.

## Advanced Mathematics in Some Areas of Programming

There’s a few areas of programming where some additional math knowledge might be needed (but for 95% of the software you’ll write, you don’t need to know it.)

3D games and 3D graphics – 3D stuff will usually involve knowing trigonometry and linear algebra (that is, math dealing with matrices). Of course, there are many 3D graphics libraries that implement all this math programming for you, so you don’t need to know the math.

2D physics (like Angry Birds) and 3D physics (like many popular 3D games use) – To do programming that involves physics, you’ll need to learn some physics equations and formulas (specifically mechanics, which is the type of physics with springs, gravity, and balls rolling down inclined planes.) However, there are several physics engines and software libraries that implement this stuff for you, so you really don’t need to know the physics equations to make a game like Angry Birds.

Cryptography – And really, by cryptography, I just mean RSA. In which case, you’d have to learn some math about how prime numbers work and doing the Greatest Common Divisor (which is a dead simple algorithm, although plenty of programming languages have gcd() function that does this for you.) Other encryption ciphers are mostly moving data around in specific steps. For example, this Flash animation shows the steps in the AES “Rijndael” cipher. All the steps are basically substituting numbers for other numbers, shifting rows of numbers over, mixing up columns of numbers, and doing basic addition with numbers.

And that’s just if you want to write your own encryption ciphers (which you shouldn’t do, because there are already plenty of good ones and without expertise your cipher will probably suck and be easily cracked.) If you just want to write a program that encrypts data, there are software libraries that implement encryption and decryption functions already.

So even for the above situations, you don’t need to know the math to make programs with 3D graphics, physics, or encryption. Just learn to use the libraries.

## What You Do Need to Learn to Do Programming

What you do need to learn is how to model data and devise algorithms. This basically means, how to take some real-world calculation or some data processing, and write out code that makes the computer do it. For example, in the game Dungeons and Dragons the characters and monsters have several different statistics for combat:

• HP, or hit points, is the amount of damage a person can take before dying. More HP means you can take more damage before dying.
• AC, or armor class, is a measure of the chance your armor has of blocking an attack. The lower the AC, the more protective the armor is.
• THAC0 (pronounced “thay-co”), or “To Hit Armor Class 0”, is a measure of how skillful the person is at making a successful hit on an opponent. The lower the THAC0, the more accurate the person’s attack is.
• The damage of the weapon is written out as something like 1d6+2. This means the damage is the amount from rolling 1 six-sided dice, and then adding 2 to it. A damage stat of 2d4 would be rolling 2 four-sided dice and adding them together. (Dungeons and Dragons uses 4, 6, 8, 10, 12, and 20-sided dice.)

To see if an attacker hits a defender, the attacker rolls a twenty-sided die. If this number is equal to or greater than the attacker’s THAC0 minus the defender’s AC, then the hit is successful and the defender takes damage. Otherwise, the defender has either dodged or blocked the attack and takes no damage.

Let’s take two Dungeon and Dragons characters, Alice and Bob, with the following stats:

• Alice: HP 14, AC 5, THAC0 18, DAMAGE 1d6
• Bob: HP 12, AC 7, THAC0 16, DAMAGE 2d4

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