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[Show comments] [Show snapshots] [Show videos] [Show content] [Replace file] This is an implementation of the language BASIC I made to expose my kids to programming. You should be able to build under linux if you have SDL installed, just do make ./basic There are a number of sample basic programs included. Within basic just do load cool run or load cool2 run etc. cool9 is an "asteroids" game. Arrow keys work for moving within the typed line, and through a line history. The page up and down keys, or shifted page up and down keys, scroll through a text history. **** BUILDING ON MAC OSX: If the SDL framework is installed in /Library/Frameworks/SDL.framework you should be able to build by just doing make -f Makefile.osx Basic interpreter commands. Commands can be shortened edit # = edit line, arrow keys, delete, backspace, always in insert mode ren [#[,#]] = renumber lines, first number is step count, 2nd start # save filename = save out program to file (appends .bas automatically) load filename = load program from file (appends .bas automatically) run = Initialize everything run program exit = Exit the program <statement> = Can execute any statement list [#[-#]] = list program or parts of it new = Delete program + all variables scr = same as new info = Print out info on current program parse = Parse the basic program and dump the virtual machine code help --- prints out help, more detail than this file Multiple statements can be on a line, separated by ':'. Variables are any string starting with a-z. Case is not sensitive. Can contain numbers. Up to 16 characters. Might not be able to start with a keyword. [let] variable = expression goto # gosub # return on expr goto #, ... ;one based rem <comment> dim variable(#[,...]) ; arrays are one based for variable = expression to espression [step expression] next [variable] print string|expression[,|;][...][,|;] color <r>,<g>,<b>[,<alpha>] ; range 0-255 each cls ; clear screen to black fill ; fill screen with current pen color pen <diameter> ; always circular for now, defaults to '1' move <x>,<y> spot line <x>,<y> NOT IMPLEMENTED:flood <x>,<y> ; does flood fill NOT IMPLEMENTED:arc <radius>,<start>,<end> ; in radians NOT IMPLEMENTED: curve <cx>,<cy>,<x>,<y> ; bezier curve rectangle <x1>,<y1>,<width>,<height> box <x1>,<y1>,<1/2 width>,<1/2 height> rect <x1>,<y1>,<1/2 width>,<1/2 height> circle <x1>,<y1>,<radius> disc <x1>,<y1>,<radius> NOT IMPLEMENTED:text <x1>,<y1>,<string> NOT IMPLEMENTED:randomize input variable|string sleep <time> ; in seconds if ifexpr then statement|# data expression[,...] read variable[,...] end if <condition> then statements if <condition> then statements else statements tone #, freq #, dur #, wsqr|wsin|wsaw|wtri, fmul #, vol # See the "help tone" within basic itself... quiet [voice #] Functions: int(expr) = round down to next lowest integer. int(-.5) = -1 fix(expr) = round to integer closest to 0. fix(-.5) is 0 abs(expr) = absolute value sgn(expr) = sgn(0) is 0. sgn(5) is 1. sgn(-10) is -1. sqr(expr) = square root of the expr. sqr(9) is 3 sin(expr) = sine cos(expr) = cosine log(expr) = log base e exp(expr) = e raised to the power of the expr pow(expr,expr) (pow(x,y) = x raised to the power of y. pow(2,3) is 8 rnd(expr) (if expr<>0, random number between 1 and expr) if expr=0, random number between 0 and 1. atn(expr) = atan -- inverse tangent atn2(expr1, expr2) = atan2 -- expr1 is the Y and expr2 is the X tan(expr) = sin(expr)/cos(expr) sleep(expr) = sleep for some number of seconds -- returns actual time slept key(expr) = 1 if keyboard key is pressed, 0 otherwise len(string_expr) = length of the string val(string_expr) = decimal value of the string. val("1.23") is 1.23 asc(string_expr) = ascii value of first character of string note(expr) = Frequency in HZ of midi note number of expr. note(69) is 440.0 Useful for Expression operators, from lowest priority to highest OR As in if j=1 or k=2 ... AND As in if j=1 and k=2 ... =, <>, <, >, <=, >= Comparisons |, ^ Logical or and xor & Logical and <<, >> Logical left and right shift +, - Plus, minus *, / Multiply, divide ~ Power -- 2~3 is 8 (expr) func(expr[,...]) String expressions: variable$ variable$ + variable$ mid$(variable$, start, length) = interior part of string. mid$("abcdef", 3, 2) is "cd" left$(variable$, length) = left part of string. left$("abcdef", 3) is "abc" right$(variable$, length) right$(abcdef", 3) is "def" chr$(expr) = Make a string with one character using the ascii code of the expr. chr$(48) is "0" str$(expr) = Make a string containing the ascii representation of the expr. str$(1.23) is "1.23" string$(expr, string_expr) = Make a string using the first character of the string expression argument, of length of the first expression. string$(8, "x") is "xxxxxxxx" SPECIAL variables mousex = mouse x position mousey = mouse y position mouseb = state of mouse buttons xsize = x size in pixels of BASIC window ysize = y size in pixels of BASIC window ticks = # of ticks (thousdandths of a second) since the program started keycode = keycode of next key pressed, or -1. Figure out the codes on your own: 10 k=keycode 20 if k=-1 then 10 30 print k 40 goto 10 inkey$ = ascii code of next key pressed, or an empty string. Not as useful as keycode since you only get 8 bits... --------------------------------------------------------------------- THEORY SDL_basic is divided into these pieces main.c = opens the SDL library and initializes a basic context basic.c = interprets commands grammar.y = a bison grammar and tokenizer for BASIC. vmachine.c = a virtual stack based machine, similiar to FORTH vdis.c = a disassembler for the virtual machine code misc.h = catch all header file keyboard.c = Deals with user input font.c = Deals with text rendering and the scrollback feature sound.c = Handles the sound system help.c = All the online help ftgrays.c = Rasterizing engine from the freetype library. Used for graphics. render.c = All the graphics rendering functions When you type "run" the bison parser is invoked. It parses the program and converts it to virtual machine instructions. These are then executed by the virtual machine. In order to add a new command to the language, you need to do these steps: 1) Add appropriate grammar to grammar.y, plus code to emit the correct virtual machine instructions (steps) 1a) That might require adding a new TOKEN up at the top part of grammar.y 1b) Plus add to the yylex function the ability to recognize the new token. 2) Add to the vdis.c so the new code(s) can be disassembled correctly 3) Add to misc.h any new functions in vmachine.c that need to be added 4) Add new functions to vmachine.c 5) Add to help.c describing the new command(s) ------------------------------------------- Compiling for AROS, Miloslav Martinka. ------------------------------------------- |
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