Difference between revisions of "Lua"
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− | There's 11 display modes, detailed here [[https://github.com/ | + | There's 11 display modes, detailed here [[https://github.com/ThePowderToy/The-Powder-Toy/blob/f54189a97f6d80181deb4f6d952ccf10f0e59ccf/src/graphics/Renderer.cpp#L2587-L2644]], but I'll provide a reference below: |
'''Display Modes''' | '''Display Modes''' |
Revision as of 01:08, 3 June 2017
You may open the Lua Console by hitting the [`] key. (Also known as the tilde [~] key, or the [¬] key) click here to view key
You may be used to this style of console commands: !set type dust metl. This can be useful, but Lua is an entire programming language that can do much more powerful things. The equivalent command in TPT's Lua is tpt.set_property("type", "metl", "dust") (see Lua#tpt.set_property )
This page describes the TPT Lua API, not the Lua language itself. But, you may research Lua on your own. If you're a beginner, look at this: http://www.lua.org/pil/ . If more advanced, a list of all the functions is here: http://www.lua.org/manual/5.1/
Also, FeynmanTechnologies has written a tutorial on some of the most basic Lua features here: https://powdertoy.co.uk/Discussions/Thread/View.html?Thread=17801
The Lua Console provides the ability to create scripts using Lua, a very simple scripting language. With the ability to script with Lua, users are now able to create simple modifications to the game without editing source code. For information on how to run scripts, see Running Lua Scripts
Contents
- 1 Lua API
- 1.1 Game
- 1.1.1 tpt.set_pause
- 1.1.2 tpt.set_console
- 1.1.3 tpt.set_shortcuts
- 1.1.4 tpt.set_gravity
- 1.1.5 tpt.reset_gravity_field
- 1.1.6 tpt.set_pressure
- 1.1.7 tpt.reset_velocity
- 1.1.8 tpt.hud
- 1.1.9 tpt.newtonian_gravity
- 1.1.10 tpt.ambient_heat
- 1.1.11 tpt.decorations_enable
- 1.1.12 tpt.heat
- 1.1.13 tpt.active_menu
- 1.1.14 tpt.display_mode
- 1.1.15 tpt.setfpscap
- 1.1.16 tpt.setfire
- 1.1.17 tpt.setwindowsize
- 1.1.18 tpt.toggle_pause
- 1.2 Particles
- 1.3 Drawing
- 1.4 Input/Output
- 1.5 Events
- 1.6 Misc
- 1.1 Game
- 2 Simple Example Code
Lua API
The Powder Toy exposes the following methods to the Lua API:
Game
tpt.set_pause
tpt.set_pause(number state)
Sets the paused state of the game.
The number argument is either 0 or 1, where 1 means the game will be paused, and 0 will unpause the game. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether the game is currently paused.
Examples:
Pause the game: tpt.set_pause(1)
Get if the game is paused currently: tpt.set_pause() == 1
tpt.set_console
tpt.set_console(number state)
Set the visibility state of the console.
The number argument can be either 0 or 1, where 1 means the console will be opened, and 0 will close the console. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether the console is currently opened.
Examples:
Open the console: tpt.set_console(1)
Get if the console is currently open: tpt.set_console() == 1
tpt.set_shortcuts
tpt.set_shortcuts(number state)
Set whether one can use keyboard shortcuts such as making a stamp or opening the console or changing view modes.
The number argument can be either 0 or 1, where 1 means keys will be enabled, and 0 will disable key shortcuts. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether key shortcuts are enabled right now.
When you want to make a key command which uses some other key, don't use this, rather disable default behavior for that one key only by returning false from inside your callback.
Examples:
Disable keyboard shortcuts: tpt.set_shortcuts(0)
Get if keyboard shortcuts are currently disabled: tpt.set_shortcuts(-1) == 1
tpt.set_gravity
tpt.set_gravity(number x, number y, number width, number height, number value)
Sets Newtonian Gravity at a position or area to some value.
Default values:
x = 0
y = 0
width = XRES/CELL = 612 / 4 = 153
height = YRES/CELL = 384 / 4 = 96
value = 0
Examples:
Reset gravity at point (150, 150): tpt.set_gravity(150, 150)
Reset gravity from (100,100) to (300,300): tpt.set_gravity(100, 100, 200, 200)
Set the entire stage's gravity to 1000: tpt.set_gravity(nil, nil, nil, nil, 1000)
tpt.reset_gravity_field
tpt.reset_gravity_field(number x, number y, number width, number height)
Thoroughly resets Newtonian gravity on a given point.
Instead of tpt.set_gravity which only modifies sim->gravmap
, this code modifies sim->gravp
,sim->gravx
and sim->gravy
. Mmm, gravy.
Default values:
x = 0
y = 0
width = XRES/CELL = 612 / 4 = 153
height = YRES/CELL = 384 / 4 = 96
Examples:
Thoroughly reset gravity at point (150, 150): tpt.reset_gravity_field(150, 150)
Reset gravity from (100,100) to (300,300): tpt.reset_gravity_field(100, 100, 200, 200)
tpt.set_pressure
tpt.set_pressure(number x, number y, number width, number height, number value)
Sets or resets pressure in the pressure map to some pressure. I sometimes imagine how much I can repeat the word "pressure" inside a sentence before it becomes gibberish.
Default values:
x = 0
y = 0
width = XRES/CELL = 612 / 4 = 153
height = YRES/CELL = 384 / 4 = 96
value = 0
Examples:
Reset pressure everywhere: tpt.set_pressure()
Set pressure at (100,100) (for a 1x1 rectangle to only use one wallpixel) to 200: tpt.set_pressure(100,100,1,1,200)
Set pressure everywhere to 200: tpt.set_pressure(nil,nil,nil,nil,200)
tpt.reset_velocity
tpt.reset_velocity(number x, number y, number width, number height)
Sets velocity (both x and y) in a given region or point to 0.
Default values:
x = 0
y = 0
width = XRES/CELL = 612 / 4 = 153
height = YRES/CELL = 384 / 4 = 96
Examples:
Reset velocity everywhere: tpt.reset_velocity()
Reset velocity in the point (100,100): tpt.reset_velocity(100,100,1,1)
tpt.hud
tpt.hud(number state)
Set HUD visibility.
Does the same thing as pressing the H key normally. The number argument can be either 0 or 1, where 1 will show the HUD, and 0 will hide the HUD. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether the HUD is visible right now.
tpt.newtonian_gravity
tpt.newtonian_gravity(number state)
Sets Newtonian Gravity on and off.
Does the same thing as Ctrl+N in normal gameplay.
The number argument can be either 0 or 1, where 1 will enable Newtonian Gravity, and 0 will disable Newtonian Gravity. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether Newtonian Gravity is turned on at the given moment.
tpt.ambient_heat
tpt.ambient_heat(number state)
Toggles Ambient Heat state.
The number argument can be either 0 or 1, where 1 will enable Ambient Heat, 0 will disable it. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether Ambient Heat is turned on at the given moment.
tpt.decorations_enable
tpt.decorations_enable(number state)
Toggle drawing decorations.
The number argument can be either 0 or 1, where 1 will enable decorations, and 0 will disable them. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether decorations are turned on at the given moment.
tpt.heat
tpt.heat(number state)
Toggles Heat Simulation.
The number argument can be either 0 or 1, where 1 will enable heat, and 0 will disable it. If you don't pass in any arguments, the command will return an integer, either 0 or 1, about whether heat is turned on at the given moment.
It's usually wise not to disable this, as there are practically no saves left that need the compatibility mode in order to work. Nevertheless this option exists.
tpt.active_menu(number menu)
Changes activated menu. If you don't pass in any arguments, the command will return the currently active menu.
The menu IDs are detailed here: Element_Properties#Menu_sections
Example: tpt.active_menu(elem.SC_EXPLOSIVE)
tpt.display_mode
tpt.display_mode(number display)
Changes activated display mode.
There's 11 display modes, detailed here [[1]], but I'll provide a reference below:
Display Modes
0 = Alternate Velocity
1 = Velocity
2 = Pressure
3 = Persistent
4 = Fire
5 = Blob
6 = Heat
7 = Fancy
8 = Nothing
9 = Heat Gradient
10 = Life Gradient
tpt.setfpscap
tpt.setfpscap(number fpscap)
Changes the upper FPS limit the program will run at. This value is 60 by default.
Don't set it too high, it'll eat all your CPU speed and make the game too responsive! Don't also set it too low, since UI and everything related to it uses the same FPS, so you'll find buttons and stuff not working.
If you don't pass in any arguments, it will return the current fps cap.
tpt.setfire
Changes the strength of the games glowing effects. tpt.setfire(1) is default.
tpt.setfire(number strength)
tpt.setwindowsize
tpt.setwindowsize(number scale, number fullscreen)
Changes a few special properties as to what size the game renders at.
Scale is a multiplier by which every pixel shall get multiplied at, currently it can either be 1 (612x384) or 2 (1224x768).
Full screen is a toggle (0 or 1) that enables "kiosk mode", which basically scales the game up to fill the screen and makes the rest of the edge black.
tpt.toggle_pause
Toggle pause.
tpt.toggle_pause()
Particles
tpt.reset_spark
Removes electrified wires from the simulation, resetting to the original material
tpt.reset_spark()
tpt.set_property
Set various properties of particles for given criteria, 8 overloads
tpt.set_property(string property, object value)
tpt.set_property(string property, object value, string type)
tpt.set_property(string property, object value, number index)
tpt.set_property(string property, object value, number index, string type)
tpt.set_property(string property, object value, number x, number y)
tpt.set_property(string property, object value, number x, number y, string type)
tpt.set_property(string property, object value, number x, number y, number width, number height)
tpt.set_property(string property, object value, number x, number y, number width, number height, string type)
tpt.get_property
Returns various properties of a particle.
tpt.get_property(string property, number index)
tpt.get_property(string property, number x, number y)
tpt.create
Create a particle at location.
tpt.create(number x, number y, string type)
Returns the index of the newly created particle.
tpt.delete
Delete a specific particle, or location.
tpt.delete(number index)
tpt.delete(number x, number y)
tpt.start_getPartIndex
Start the iterator for receiving all indices of the particles. (Used to help get particle indices, see tpt.next_getPartIndex)
tpt.start_getPartIndex()
tpt.next_getPartIndex
Jump to the next available particle index. Returns false if the iterator has reached the end of all particle indecies. Returns true if a new index was available. (Used to help get particle indecies, see tpt.getPartIndex)
tpt.next_getPartIndex()
tpt.getPartIndex
Get the current index iterator.
tpt.getPartIndex()
index code example:
tpt.start_getPartIndex() while tpt.next_getPartIndex() do local index = tpt.getPartIndex() if tpt.get_property("ctype",index) == 21 then tpt.set_property("ctype","sing",index) end end
These functions are made obsolete by the function sim.parts(). That allows you to use Lua's iterators.
tpt.get_numOfParts
Returns the number of particles currently on the screen.
tpt.get_numOfParts()
A newer way to get this is the variable sim.NUM_PARTS
Drawing
tpt.textwidth
Measures (in pixels) the width of a given string. Returns a number.
tpt.textwidth(string text)
tpt.drawtext
Draw text to the screen (for one frame, only useful in scripts), 3 overloads
tpt.drawtext(number x, number y, string text)
tpt.drawtext(number x, number y, string text, number red, number green, number blue)
tpt.drawtext(number x, number y, string text, number red, number green, number blue, number alpha)
tpt.drawpixel
Draws a pixel on the screen (for one frame, only useful in scripts), 3 overloads
tpt.drawpixel(number x, number y)
tpt.drawpixel(number x, number y, number red, number green, number blue)
tpt.drawpixel(number x, number y, number red, number green, number blue, number alpha)
tpt.drawline
Draws a line on the screen (for one frame, only useful in scripts), 3 overloads. The line starts at point (x1, y1) and ends at point (x2,y2).
tpt.drawline(number x1, number y1, number x2, number y2)
tpt.drawline(number x1, number y1, number x2, number y2, number red, number green, number blue)
tpt.drawline(number x1, number y1, number x2, number y2, number red, number green, number blue, number alpha)
tpt.drawrect
Draws a rectangle on the screen (for one frame, only useful in scripts), 3 overloads
tpt.drawrect(number x, number y, number width, number height)
tpt.drawrect(number x, number y, number width, number height, number red, number green, number blue)
tpt.drawrect(number x, number y, number width, number height, number red, number green, number blue, number alpha)
tpt.fillrect
Draws a filled in rectangle on the screen (for one frame, only useful in scripts), 3 overloads
tpt.fillrect(number x, number y, number width, number height)
tpt.fillrect(number x, number y, number width, number height, number red, number green, number blue)
tpt.fillrect(number x, number y, number width, number height, number red, number green, number blue, number alpha)
Because tpt.fillrect is slightly broken in tpt, the coordinates will be off. It fills the rectangle from (x+1, y+1) to (x+w-1, y+h-1)
Input/Output
tpt.log
Log a message to the console
tpt.log(string text)
tpt.message_box
Display an OK-Only message box with a title and message.
tpt.message_box(string title, string message)
tpt.input
Ask the user to input some text. Returns a string of what ever the user says. The argument "text" is pre-entered text (optional).
tpt.input(string title, string message)
tpt.input(string title, string message, string text)
tpt.throw_error
Displays an error message box.
tpt.throw_error(string text)
Events
tpt.register_step
Register a function to be run on every frame
tpt.register_step(function func)
tpt.unregister_step
Unregister a previously registered function
tpt.unregister_step(function func)
tpt.register_mouseclick
Register a function to be run every time the mouse clicks.
Your function will also be called when the mouse is released or held, or when the mouse wheel is used. Event equals 1 when the mouse gets pressed, 2 when the mouse gets released, and 3 if it is held. If your function returns false, mouse events in the normal Powder Toy will be ignored.
Function arguments: mousex, mousey, button, event
tpt.register_mouseclick(function func)
tpt.unregister_mouseclick
Unregister a previously registered function
tpt.unregister_mouseclick(function func)
tpt.register_keypress
Register a function to be run every time a key is pressed.
Your function will also be called when a key is released. Event equals 1 when a key is pressed, and 2 when it gets released. If your function returns false, key presses in the normal Powder Toy will be ignored.
Function arguments: key, nkey, modifier, event
tpt.register_keypress(function func)
tpt.unregister_keypress
Unregister a previously registered function
tpt.unregister_keypress(function func)
Misc
tpt.get_name
Returns the current username.
tpt.get_name()
tpt.setdebug
Sets the "debug mode". It works using bitmasks, so you can turn on multiple debug features at the same time. Setting 0x1 will display info on the number of particles on the screen. Setting 0x2 will draw a graph showing the percentages of each type of element on the screen. Setting 0x4 will display useful information when you draw lines using shift. Depreciated. No longer works.
tpt.setdebug(number mode)
tpt.element
Returns an element's number. For example, it would return 28 for dmnd. If passed a number it will return the name instead.
tpt.element(string elementname)
tpt.element(number elementid)
tpt.element_func
allows you to replace or add on to an element's update function. Write a function like normal, and then put its name into this command. Use tpt.element("...") or tpt.el.dust.id for el_number, and make replace true if you want to overwrite the previous function, or false instead.
Function arguments: index, x, y, surround_space, nt
Returns: return 1 from your function if the particle is killed.
tpt.element_func(function newfunction, number el_number)
tpt.element_func(function newfunction, number el_number, boolean replace)
tpt.graphics_func
Allows you to replace an element's graphics function. Write a function like normal, and then put its name into this command. Use tpt.el.(name of element to change).id for el_number.
Function arguments: index, colr, colg, colb
Returns: cache, pixel_mode, cola, colr, colg, colb, firea, firer, fireg, and fireb.
Set cache to 1 if you don't want the function to ever be called again, preventing lag. Don't do this if you need the way your element looks to change depending on its properties.
colr/g/b are the red, green, and blue colors of your element. firea/r/g/b set the fire colors, but pixel_mode needs to be set to 0x00022000 for them to work.
tpt.graphics_func(function newfunction, number el_number)
The pixel mode values you can use are:
PMODE_NONE 0x00000000 --prevents anything from being drawn PMODE_FLAT 0x00000001 --draw a basic pixel, overwriting the color under it. Doesn't support cola. PMODE_BLOB 0x00000002 --adds a blobby effect, like you were using blob (5) display mode PMODE_BLUR 0x00000004 --used in liquids in fancy display mode PMODE_GLOW 0x00000008 --Glow effect, used in elements like DEUT and TRON in fancy display mode PMODE_SPARK 0x00000010 -- used for things such as GBMB at first, dimmer than other modes PMODE_FLARE 0x00000020 --BOMB and other similar elements, brighter than PMODE_SPARK PMODE_LFLARE 0x00000040 --brightest spark mode, used when DEST hits something PMODE_ADD 0x00000080 --like PMODE_FLAT, but adds color to a pixel, instead of overwriting it. PMODE_BLEND 0x00000100 --basically the same thing as PMODE_ADD, but has better OpenGL support PSPEC_STICKMAN 0x00000200 --does nothing, because the stickmen won't get drawn unless it actually is one NO_DECO 0x00001000 --prevents decoration from showing on the element (used in LCRY) DECO_FIRE 0x00002000 --Allow decoration to be drawn on using the fire effect (gasses have this set) FIRE_ADD 0x00010000 --adds a weak fire effect around the element (ex. LAVA/LIGH) FIRE_BLEND 0x00020000 --adds a stronger fire effect around the element, default for gasses EFFECT_GRAVIN 0x01000000 --adds a PRTI effect. Might take some coding in an update function to get it to work properly, PRTI uses life and ctype to create the effects EFFECT_GRAVOUT 0x02000000 --adds a PRTO effect. Might take some coding in an update function to get it to work properly, PRTI uses life and ctype to create the effects
You can combine them in any way you want, you probably need more than one anyway. Radioactive elements default to PMODE_FLAT+PMODE_GLOW, liquids to PMODE_FLAT+PMODE_BLUR, and gasses to FIRE_BLEND+DECO_FIRE, with a firea of 125 and firer/g/b of colr/g/b divided by 2
See this for a picture of what they look like: https://powdertoy.co.uk/Wiki/W/File:Particle_Drawing_Modes.png.html
tpt.screenshot
Takes a screenshot of the current screen, minus the menu and HUD.
tpt.screenshot()
tpt.screenshot(boolean fullscreen,number screenshot format)
Screenshot format:
0 - png
1 - bmp
2 - ppm
Examples:
tpt.screenshot(1,1) - take fullscreen screenshot in bmp format
tpt.screenshot(1,2) - take fullscreen screenshot in ppm format
tpt.get_clipboard
Returns contents of the clipboard.
tpt.get_clipboard()
tpt.set_clipboard
Copy to clipboard.
tpt.set_clipboard(string text)
Simple Example Code
-- This line is a comment. Anything written after the -- is considered a Comment and will not be read by Lua. -- Comment can be multiline, for this you should write it in --[[ and ]]-- -- Set the console's state to 0. This will hide the console. tpt.set_console(0) -- Here we define our main function for the script local function ClassicPowder() local ox = 125 -- This will be our offset for the different elements we will create. local y = 4 -- where on the y (vertical) axis where we will create our elements. local x = ox -- where on the x (horizontal) axis where we will create our elements. we will start the x value with what ever ox is above. for i=0, 10 do -- this is a for loop. everything between the do and end will loop until i hits 10. i increases by 1 every loop. tpt.create(x + i, y, "STNE") --create a dust particle end x = x + ox -- increase the x axis value by the offset x (ox) value above for i=0, 10 do tpt.create(x + i, y, "WATR") --create a water particle end x = x + ox for i=0, 10 do tpt.create(x + i, y, "SALT") end x = x + ox for i=0, 10 do tpt.create(x + i, y, "OIL") end return false end -- Register the step function ClassicPowder. This will make the ClassicPowder function run every tick of Powder Toy. tpt.register_step(ClassicPowder)