Pixilang/Printable version
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Definitions
Definitions
[edit | edit source]The basic thing in Pixilang is the pixi-container. A Pixi-container can contain a text-string, image, link to another pixi-container with alpha-channel, or a numeric array. You can use different pixi-containers as simple arrays. Remember: In Pixilang "image", "text-string", "numeric array" are ID-numbers: image - ID-number of pixi-container with image; text-string - ID-number of pixi-container with text-string; numeric array - ID-number of pixi-container with numeric array.
Example:
//How to access a second pixel in some image? pixel_value = some_image[ 2 ]
The Pixilang window looks like this:
Configuration
Configuration
[edit | edit source]Pixilang can use a configuration file - config.ini. In the configuration file you can set the size of the window, the length (in samples) of the sound buffer, name of the window and other window properties. Example:
width 320 height 240 noborder windowname "Alternative name of the window" buffer 4096
Elements of the language
Elements of the language
[edit | edit source]Comments
[edit | edit source]// - comments. Example: //blah blah blah
/* */ - Multiline comments. Example:
/* blah blah blah blah blah blah */
Text strings
[edit | edit source]Example:
a = "text string"
You can put the numerical values of a variable to any string, when this string is used as a parameter for some command (except make_pixi). Example:
blahblah = 34 video_export_gif( "VIDEO$blahblah.gif" ) //Save video to the VIDEO34.gif
ASCII codes
[edit | edit source]ASCII codes (max 4 symbols): 'A','B','ABC'... Example:
ascii_code = 'E'
Variables
[edit | edit source]a,b,c,d... and other alphabet symbols - used for creating your own variables. Example myvar = 4 //put 4 to variable "myvar"
Math operations
[edit | edit source]-,+,*,/,% - math operations. Example: a = b + 4
Conditional operations
[edit | edit source]- < - less
- > - greater
- <= - less or equal
- >= - greater or equal
- = - equal (after if operator)
- != - not equal
Binary logic operations
[edit | edit source]- ^ - xor
- & - and
- | - or
Numbers
[edit | edit source]Numbers (for example: -1234) - decimal numbers :)
Some commands (transformations, for example) need numbers in the fixed point format 24.8. Fixed point numbers are decimal numbers, multiplied by 256. Examples:
1 will be 256 (1*256) in the fixed point format; 2 will be 512 (2*256) in the fixed point format; 0.5 will be 128 (0.5*256) in the fixed point format;
Numbers in the form #XXXXXXXX (for example: #80EFB434) can be used as color values for some graphics commands in standard HTML color format: #RRGGBB, where RR - red, GG - greed, BB - blue. For example: #FF0000 - it's a red; #00FF00 - green; #0000FF - blue.
Predefined colors: ORANGE, BLACK, WHITE, RED, GREEN, BLUE, YELLOW.
User defined commands
[edit | edit source]You can define your own commands (subprogramms). Let's see an example:
//here our main program starts print("Hello world!",0,0) myfunc1 //here we execute our own command, which is defined at the end of our main program stop //stop main program myfunc: //here is the body of our command (named "myfunc1") ret //Return from subprogram. Don't forget this word!
So user defined commands look like this: COMMAND_NAME: BODY OF YOUR COMMAND (SOME PIECE OF PROGRAM) ret.
Also you can create your commands on the fly:
//Create user defined command: user_command = { print("hello1") print("hello2") } //And run it: user_command //user_command - it's address of created subprogram.
"goto" command
[edit | edit source]You can jump from one part of a program to another part. Here is an example:
marker1: blah blah goto marker1 #here you go to the marker1, that was declared above.
Example2:
my_cool_marker: dot(1,1,#FF0000) go my_cool_marker
"while" command
[edit | edit source]"while" command is for conditional loops: while( condition ) { actions }. Example:
a = 0 while( a < 8 ) { print( "$a", a * 8, 0, WHITE ) a + 1 } //Show "a" variable eight times
Commands
[edit | edit source]Commands have the following syntax: COMMAND_NAME (PARAMETER1, PARAMETER2,...) For example, let's execute the "dot" command: dot(1,1,#FF0000) If there are no parameters, then you must write the command name only. For example: frame. Some commands can return a value. Example: x = get_dot( 10, 10 )
Detailed list of commands
Detailed list of commands
[edit | edit source](parameters are in a brackets)
Graphics
[edit | edit source]dot (x,y,color) - draw a dot. Example: dot(10,20,#FFFF00)
get_dot (x,y) - get the color of the pixel at coordinates x,y
fps - get the current number of frames per second
frame (delay,clip_x,clip_y,clip_xsize,clip_ysize) - redraw the screen and pause, especially for frame changing. 1000 - one second, 500 - half of second, 0 - no pause. Note that nothing shows on the screen before the first call to frame(). Examples:
frame(500) //Full screen redraw after 0.5 seconds frame(500,10,10,32,32) //Redraw region with coordinates x=10,y=10,xsize=32,ysize=32
clear (color) - clear screen. Example: clear(#FFFF00)
print (text,x,y,color) - print text on x, y coordinates. Example: print("HELLO!",10,10,#ffffff) You can print the values of variables also. Just write a $X in your string, where X is a variable's name. For example: print("VALUE OF b=$b",10,10,#ffffff)
line (x1,y1,x2,y2,color) - draw a line. Example: line(0,0,10,10,#FFFF00)
box (x1,y1,xsize,ysize,color) - draw a rectangle. Example: box(0,0,10,10,#FFFF00)
fbox (x1,y1,xsize,ysize,color) - draw a filled rectangle. Example: box(0,0,10,10,#FFFF00)
triangle (x1,y1,x2,y2,x3,y3,color) - draw a filled triangle
pixi_triangle (x1,y1,tx1,ty1,x2,y2,tx2,ty2,x3,y3,tx3,ty3,image,frame) - draw a textured triangle. Texture coordinates: tx1, ty1, tx2, ty2, tx3, ty3. Texture source is the "image" parameter.
triangles3d (vertexes,triangles), pixi_triangles3d (vertexes,triangles,pixi,frame) - draw color or pixi-textured triangles from numeric arrays vertexes and triangles.
//structure of array "vertexes": X, Y, Z, texture_X, texture_Y, 0, 0, 0, X, Y, Z, texture_X, texture_Y, 0, 0, 0, ... //structure of array "triangles": V1, V2, V3, COLOR, TRANSPARENCY, 0, 0, ORDER, V1, V2, V3, COLOR, TRANSPARENCY, 0, 0, ORDER, ... //V1..V3 - numbers of vertexes. ORDER - number of triangle (use sort_triangles for automatic fill this value) //X,Y,Z - fixed point integers
sort_triangles (vertexes,triangles) - sort triangles (fill ORDER values in triangles array) by Z coordinate.
save_screen(filename,x,y,xsize,ysize) - save part of the screen to a text file
set_screen (some_image) - set screen buffer to selected image. 0 - default screen
make_pixi (text_source,alpha_pixi,transparent_color) - convert text string to the color image with the selected transparent color and alpha-channel.
Warning: this command converts black pixels to dark-dark-blue (we see it as black).
Symbols of the input text string:
0,1,2,3,4,5,6,7,8,9 - grayscale;
. (dot) - transparent color;
other symbols - names of a variables with colors
make_ascii_pixi (text_source,color_pixi) - same as the previous command, but the image will be shown in ASCII text mode. Colors of each symbol are in the color_pixi. Example:
text = "Hello World!" text_color = "123456789123" make_ascii_pixi( text, text_color )
new_pixi (xsize,ysize,frames) - create a new image with the selected size and number of frames. Example: bird = new_pixi( 32, 32, 4 )
load_pixi (filename) - load image from GIF or JPG file
remove_pixi (pixi) - remove pixi-container
resize_pixi (pixi,xsize,ysize,mode) - resize graphics pixi-container; xsize,ysize - new size in pixels. mode: 0 - clear pixi after resizing.
clone_pixi (pixi,clone_alpha) - clone pixi-container. clone_alpha values: 0 - don't clone alpha-channel image; 1 - clone alpha channel image. Example: new_image = clone_pixi( dog, 1 )
get_pixi_xsize (image) - get width of image (in pixels). Example: xsize = get_pixi_xsize( dog )
get_pixi_ysize (image) - get height of image (in pixels). Example: ysize = get_pixi_ysize( dog )
get_pixi_frames (image) - get number of frames in image. Example: frames = get_pixi_frames( dog )
get_pixi_alpha (image) - get image that used as alpha-channel of selected image. Example: alpha = get_pixi_alpha( dog ) pixi( alpha, 10, 10, 1 )
pixi_alpha (image,new_alpha) - set alpha-channel (new_alpha) image for selected image
pixi_transp (image,transp,transp_color) - set transparent color of selected image. transp - transparency ON/OFF (1/0). transp_color - transparent color
pixi (image,x,y,pixel_size,pixel_size_correction), fpixi (image,x,y,pixel_size,pixel_size_correction,frame) - draw an image. frame - frame number (0 is the first frame). in the "pixi" command frame number calculating automatically. pixels - it's text string, that will be recognized as array of pixels. pixel_size - size of the pixel (1,2,3,4,5...). pixel_size_correction - fixed point (1=256) addition to pixel_size. Warning: text string with array of pixels will be converted to special format, that more convenient for the pixi/fpixi command. Lets see the example:
//LETS CREATE AN ANIMATION THAT CONTAINS 5 FRAMES. SOMETHING LIKE A SMALL FLYING BIRD :) //FRAMES MUST BE DIVIDED BY "+" SYMBOL //SYMBOL "." - TRANSPARENT PIXEL //OTHER SYMBOLS - NAMES OF VARIABLES WITH COLORS //OK. NOW ASSIGN RED COLOR TO THE "B" VARIABLE: B = #FF0000 //BIRD: t = " B......B .B....B. ..BBBB.. + ........ BB....BB ..BBBB.. + ........ ........ BBBBBBBB + ........ ........ ...BB... BBB..BBB + ........ BB....BB ..BBBB.. " //CONVERT IT TO IMAGE: make_pixi( t ) //AND DRAW RESULTING THING TO THE SCREEN: loop_marker: clear(BLACK) pixi(t,10,10) frame(100) go loop_marker
get_window_xsize - get user window width (in pixels)
get_window_ysize - get user window height (in pixels)
get_color (r,g,b) - return color value converted from r,g,b (red,green,blue) values
get_red (color) - get red component (0..255) of selected color
get_green (color) - get green component (0..255) of selected color
get_blue (color) - get blue component (0..255) of selected color
get_blend (color1,color2,val) - get a new color, that is between color1 and color2. val - proximity to color1 and color2: 0 - max proximity to color1; 256 - max proximity to color2
transp (value) - set transparency of a next following commands. Value can be from 0 to 255; 0 - invisible ... 255 - visible
effector (color,power,type,x,y,xsize,ysize,xadd) - command for using standard graphics effects. color - color of effect. power - power of effect (from 0 o 256). type: 0 - noise; 1 - horizontal blur; 2 - vertical blur. x,y,xsize,ysize - working region. xadd - distance between a points.
pixel_shader (pixel_shader_subprogram) - enable software pixel-shader (version PS1) for all pixi and textured triangles. pixel_shader_subprogram - used-defined subprogram. Input parameters for pixel_shader_subprogram: PS_T - number of pixi container with texture; PS_TX - current X coordinate on texture (fixed point); PS_TY - current Y coordinate on texture (fixed point); PS_TP - current pointer in texture; PS_P - current pointer on screen. Output parameters: PS_R - resulted color.
Example:
pixel_shader( GLASS_PIXEL_SHADER ) //Enable glass pixel shader ... pixel_shader( -1 ) //Disable pixel shaders GLASS_PIXEL_SHADER: v = get_red( PS_T[ PS_TP - 1 ] ) - get_red( PS_T[ PS_TP + 1 ] ) PS_R = get_blend( scr0[ PS_P + get_red( PS_T[ PS_TP ] ) / 8 ], WHITE, v ) ret
Fonts
[edit | edit source]pixi_font (image) - set new font-image (animated pixi-container). Font is monospaced. Each symbol in font - frame in animated pixi-container.
get_pixi_font - get current font-image
Transformations
[edit | edit source]t_reset - reset transformation
t_rotate_x (angle,x,y,z), t_rotate_y (angle,x,y,z), t_rotate_z (angle,x,y,z) - add rotate transformation (around the X, Y or Z axis). Angle is integer: 512 = 2*PI. Rotation center is x,y,z
t_translate (x,y,z) - add translate transformation. x,y,z are fixed point integers.
t_scale (x,y,z) - add scale transformation. x,y,z are fixed-point integers: 256 = 1.0 (normal scale); 512 = 2.0 (2x zoom)
t_get_matrix (m), t_set_matrix (m), t_mul_matrix (m) - actions with transformation matrix (4x4 cells - array of 16 integers). t_get_matrix - get matrix to array m. t_set_matrix - set matrix from array m. t_mul_matrix - multiple current matrix with matrix in array m.
t_get_x (x,y,z), t_get_y (x,y,z), t_get_z (x,y,z) - transform point with coordinates x,y,z (fixed point integers) and return new coordinate x, y or z.
Strings
[edit | edit source]new_string (size) - create empty string. size - number of symbols in this string. Example: str = new_string( 10 )
get_string_size (string) - get size of a string (in chars). Example: strsize = get_string_size( "nothing but here" )
Arrays
[edit | edit source]An array is any data-storage (pixi-container). Examples of arrays:
- image - storage of pixels;
- string - storage of symbols;
- numbers - storage of numbers.
new_array (len) - create new array of 32-bit numbers (numeric pixi-container). len - amount of numbers. Note that if you try to use an array before creating it first with new_array pixilang will not complain, but you will get garbage. Example: array = new_array( 256 )
get_array_size (array) - get numeric array size (amount of numbers)
Time
[edit | edit source]start_timer (t) - start timer t. Example: start_timer(3)
get_timer (t) - get value of timer t. Example: get_timer(3) Example values: 1000 - one second, 500 - half of second.
get_seconds - get current seconds
get_minutes - get current minutes
get_hours - get current hours
Interaction with the user
[edit | edit source]handle_pen_keys (button_down_handler,pen_move_handler,button_up_handler), handle_keys (...) - handle all mouse (stylus) events that happen in a current frame. Parameters of these commands are user-defined programs (subprograms) - handlers.
Example: handle_pen_keys( {x=get_pen_x}, 0, 0 )
get_pen_x, gpx - get current x-coordinate of mouse (or stylus)
get_pen_y, gpy - get current y-coordinate of mouse (or stylus)
get_pen_region (x,y,xsize,ysize), gpr (x,y,xsize,ysize) - return 1 if mouse (or stylus) pointer is inside of selected region
get_pen_key, gpk - get current key status of mouse (or stylus); 1 - key was pressed, or 0 - key not pressed
handle_hard_keys (button_down_handler,button_up_handler) - handle all keyboard events that happens in a current frame. Working like the handle_pen_keys. Use get_hard_key (or ghk) to get current button code.
Example: handle_hard_keys( {key_code=get_hard_key}, 0, 0 )
get_hard_key, ghk - get current key code. Key code is a standard ASCII code or one of the following:
256: F1 257: F2 258: F3 259: F4 260: F5 261: F6 262: F7 263: F8 264: UP 265: DOWN 266: LEFT 267: RIGHT 268: INSERT 269: DELETE 270: HOME 271: END 272: PAGEUP 273: PAGEDOWN 274: CAPS
If SHIFT is pressed, then 512 is added to the key code. If CTRL is pressed, then 1024 is added to the key code.
Video export
[edit | edit source]video_export_gif (filename,x,y,xsize,ysize), video_export_avi (filename,x,y,xsize,ysize) - turn on the export of all frames to selected anim. GIF-file or AVI-file (at the moment AVI working on the Windows only).
Examples:
//Save full screen: video_export_gif("my_video.gif") //Save selected region: video_export_gif("my_video.gif",-10,-10,32,32)
Frame will be saved to GIF-file after each "frame" command.
pause_video_export - make pause of video export.
resume_video_export - resume video export.
stop_video_export - stop video export and save it to file.
video_export_fps (fps) - set number of frames per second during export to AVI file (default FPS is 30).
video_export_realtime (rt) - set realtime AVI export mode.
Examples:
video_export_realtime( 1 ) //Set realtime export mode. AVI file will be without sound video_export_realtime( 0 ) //Set non-realtime export mode. AVI file will be with sound
video_export_dither (dither) - turn on/off dithering during video export. Example of turn on: video_export_dither(1) Example of turn off: video_export_dither(0)
video_export_hq (highquality) - turn on/off high quality video export to GIF. Example of turn on: video_export_hq(1) Example of turn off: video_export_hq(0)
Music
[edit | edit source]load_music (filenamem,slot) - load music in XM or MOD format. slot - slot number (from 0 to 15) for simultaneous music playing.
play_music (slot)
stop_music (slot)
music_volume (volume,slot) - set music volume (from 0 to 255)
get_music_pattern (slot)
get_music_position (slot)
Sound
[edit | edit source]send_sound (sound_pixi,freq,channels,loop) - send sound_pixi (pixi-container with some piece of sound) to global sound buffer. freq - sampling frequency of selected piece of sound. channels - number of channels (1 - mono, 2 - stereo). loop - remove selected piece of sound from global sound buffer after playing or not? If loop = 1, then selected piece of sound will be playing infinitely. Return value of this command is the ID of selected piece of sound in the glabal sound buffer. send_sound_to (sound_id, sound_pixi, freq, channels, loop) - the same as previous command, but position (buffer_id) in the global sound buffer setting manually.
Example:
sound_id = send_sound( some_sound, 44100, 2, 0 ) send_sound_to( sound_id, new_sound, 44100, 2, 0 ) //Overwrite some_sound with new_sound
get_sound_status (sound_id) - get current playing position in selected sound.
Example:
sound_id = send_sound(sound,44100,2,0) position = get_sound_status( sound_id )
sound_volume (volume) - set sound volume (from 0 to 256)
Examples. Creation of 8-bit sound:
snd = new_string( 256 ) //Sound size is 256 samples //Amplitude in 8bit sound is a value from -127 to 127 send_sound( snd, 44100, 1, 1 )
Creation of 32-bit sound:
snd = new_array( 256 ) //Amplitude in 32bit sound is a value from -32767 to 32767 send_sound( snd, 44100, 1, 1 )
Files
[edit | edit source]fopen, fclose, fgetc, fputc, fseek, ftell, feof - Standart POSIX functions for working with files. See any C/C++ manual for more info.
set_disk0 (TAR_file_name) - set name of the TAR-archive, that will be loaded as virtual disk 0.
Example:
set_disk0( "archive.tar" ) //archive.tar contains some files and PIC.JPG img = load_pixi( "0:/PIC.JPG" ); //Load PIC.JPG from the virtual disk 0
file_dialog (filename,dialogname,mask,id) - open file selection dialog. filename - destination container for selected file name. dialogname - dialog name. mask - file type mask (example: "gif/jpg"). id - name of the file for saving the current dialog state. Return values: 1 - file selected successful; 0 - file not selected.
Example:
filename = "................................" if( file_dialog( filename, "Select graphics file", "jpg/gif", "gfx_files_dialog" ) ) { /* file selected. Name in the filename variable now*/ } else { /* file not selected */ }
Math
[edit | edit source]sin (angle) - get integer sine value. Value for angle: 512 = 2*PI. Return values: -256...0...256
cos (angle) - get integer cosine value. Value for angle: 512 = 2*PI. Return values: -256...0...256
csin (angle), ccos (angle) - same as sin and cos, but with less precision. Value for angle: 256 = 2*PI. Return values: -128...0...128
rand - get random number (from 0 to 32768)
rand_seed (seed) - set random seed
System
[edit | edit source]stop - stop program execution :(
halt - the same as stop.
exit (exit_code) - exit to OS; exit(1) - exit to OS with exit-code 1.
noesc (no) - enable/disable exit on ESC; noesc(0) - exit on ESC; noesc(1) - no exit on ESC.
Programming techniques
Programming techniques
[edit | edit source]Getting started
[edit | edit source]Create file (f.e. MY_PROGRAM.TXT) with following text inside:
a = 2 * 2 marker1: print("HELLO PIXEL! $a",-20,10,#FFFFFF) frame a = a + 1 goto marker1
And now you must execute this file with the pixilang enterpreter. After starting you will get simple animation with a text string "HELLO PIXEL" and incrementing number.
Math operations
[edit | edit source]In Pixilang all numbers are signed 32-bit integers.
It's possible to use operations without the "=" symbol. Examples:
a+1 //increment variable a
a+1*2 //add (1*2) to a
Conditional operations
[edit | edit source]Conditional operations have the following format: if SOME CONDITION { PIECE OF PROGRAM, THAT WILL BE EXECUTED IF CONDITION IS TRUE }
Examples:
//If a > 4, then save 2 to variable b if a > 4 { b = 2 }
//If a equal to 4, then save 1 to variable b if a = 1 { b = 1 }
//If b not equal to 1, then put "HELLO" string to the screen if b != 1 { print("HELLO",1,1) }
//If b not equal to 1, then put "HELLO" string to the screen, else draw a dot if b != 1 { print("HELLO",1,1) } else { dot(10,10) }
Including external files
[edit | edit source]You can include external TXT files (user libraries for example). Example:
INCLUDE "external filename"
External files will be included during compilation.
Program optimization
[edit | edit source]Pixilang has great methods for optimization. Lets see an example.
This is the program:
pixi( t, 44, 44 ) pixi( a, 44, 44 ) pixi( b, 44, 44 )
As you can see, there is a recurring command name (pixi) and recurring parameters (44,44). In this case you can use following optimization:
pixi( t, 44, 44 ) .( a ) .( b )
WTF? :) It's simple. If the command name is ".", then the last executed command will be executed. If some parameters are missing, then they will be taken from the last executed command too.
Links
Links
[edit | edit source]- project site
- alternative site (examples, history)
- community of users and developers
- Russian Pixilang Wikibook