--- language: forth contributors: - ["Horse M.D.", "http://github.com/HorseMD/"] filename: learnforth.fs --- Forth was created by Charles H. Moore in the 70s. Note: This article focuses predominantly on the Gforth implementation of Forth, but most of what is written here should work elsewhere. > If Lisp is the ultimate high level language, Forth is the ultimate low level language. ```forth \ Forth is an interactive programming language which is comprised of *words*. These are \ Forth subroutines which are executed once you press , from left to right. \ ------------------------------ Precursor ------------------------------ \ It's important to know how forth processes instructions. All programming in Forth is \ done by manipulating what's known as the parameter stack (more commonly just referred \ to as "the stack"). The stack is a typical last-in-first-out (LIFO) stack. Typing: 5 2 3 56 76 23 65 \ Means 5 gets put on the stack first, then 2, then 3, etc all the way to 65, which \ is now at the top of the stack. We can see the length and contents of the stack by \ passing forth the word `.s`: .s <7> 5 2 3 56 76 23 65 \ ok \ Forth's interpreter interprets what you type in one of two ways: as *words* (i.e. the \ name of subroutines) or as *numbers*. Words are essentially "symbols that do things". \ Finally, as the stack is LIFO, we obviously must use postfix notation to manipulate \ the stack. This should become clear shortly. \ ------------------------------ Basic Arithmetic ------------------------------ \ Lets do a simple equation: adding 5 and 4. In infix notation this would be 5 + 4, \ but as forth works in postfix (see above about stack manipulation) we input it like so: 5 4 + \ ok \ However, this alone yields "ok", yet no answer. Why? The way forth interprets what \ we typed is as such: 5 gets added to the top of the stack, and then 4. Finally, \ it runs word `+` on the stack (which pops the top and second value, and adds them), \ and inserts the result at the top of the stack. Typing the word `.` will yield \ the result. . \ 9 ok \ This should illustrate the fundamentals of forth. Lets do a few more arithmetic \ tests: 6 7 * . \ 42 ok 1360 23 - . \ 1337 ok 12 12 / . \ 1 ok \ And so on. \ ------------------------------ More Advanced Stack Maniulation ------------------------------ \ Naturally, as we do so much work with the stack, we'll want some useful methods. drop \ drop (remove) the item at the top of the stack (note the difference between this and `.`) dup \ duplicate the item on top the stack rot \ rotate the top three items (third -> first, first -> second, second -> third) swap \ swaps the top item with the second item \ Examples: dup * \ square the top item 2 5 dup * swap / \ half the top item squared 6 4 5 rot * - \ sometimes we just want to reorganize 4 0 drop 2 / \ add 4 and 0, remove 0 and divide the top by 2 \ ------------------------------ Extra Stack Manipulation ------------------------------ tuck \ acts like dup, except it duplicates the top item into the 3rd* position in the stack over \ duplicate the second item to the top of the stack n roll \ where n is a number, *move* the stack item at that position to the top of the stack n pick \ where n is a number, *duplicate* the item at that position to the top of the stack \ 3rd*: when referring to stack indexes, they are zero-based - i.e. the first element is at \ position 0, the second element is at position 1, etc... Just like indexing arrays in \ most other languages. \ ------------------------------ Creating Words ------------------------------ \ Quite often one will want to write their own words. : square ( n -- n ) dup * ; \ ok \ Lets break this down. The `:` word says to Forth to enter "compile" mode. After that, \ we tell Forth what our word is called - "square". Between the parentheses we have a \ comment depicting what this word does to the stack - it takes a number and adds a \ number. Finally, we have what the word does, until we reach the `;` word which \ says that you've finished your definition, Forth will add this to the dictionary and \ switch back into interpret mode. \ We can check the definition of a word with the `see` word: see square \ dup * ; ok \ ------------------------------ Conditionals ------------------------------ \ TODO \ ------------------------------ Loops ------------------------------ \ TODO \ ------------------------------ The Return Stack ------------------------------ \ TODO \ ------------------------------ Variables and Memory ------------------------------ \ TODO \ ------------------------------ Final Notes ------------------------------ \ Booleans \ Floats \ Commenting (types) \ bye ``` ##Ready For More? * [Starting Forth](http://www.forth.com/starting-forth/) * [Thinking Forth](http://thinking-forth.sourceforge.net/)