423 lines
21 KiB
Markdown
423 lines
21 KiB
Markdown
# Ideas
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## Table of Contents
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* [Major Milestones](#major-milestones)
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* [Release Modes](#release-modes)
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* [File Formats](#file-formats)
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* [Text Console](#text-console)
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* [Doodads](#doodads)
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# Major Milestones
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The major milestones of the game are roughly:
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* [x] Prototype: make a simple SDL painting program that does nothing special.
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* [x] Simple Platformer: be able to toggle between "edit mode" and "play mode"
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and control a character who can walk around your level and bump into the
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solid geometry you've drawn (no objects yet, just the basics here).
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* [ ] Add Doodads (buttons, doors, the player character themself, enemies, ...)
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* Share a lot in common with map drawings, in that they're hand-drawn, will
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share a similar file format.
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* Available doodads can be dragged/dropped into maps.
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* The player character should be a Doodad under the hood to keep it from
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becoming too special (read: easier to make the game multiplayer in the
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future by putting a "networked user" in control of a doodad instead of
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the keyboard/mouse).
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* [ ] **Version 1:** Single Player Campaign and Editor. This is the minimum
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feature set for a first public release of the game. Required features:
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* The game should ship with a single-player "campaign mode" of pre-made maps
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that link to one another in sequence. i.e. 100 levels that the player can
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play through in a certain order.
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* It must include the level editor feature so players can create and share
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their own maps.
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* Dev tools may be clunky to use at this stage; i.e. players creating custom
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Doodads will need to use external tools outside the game (i.e. code editors
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to program the JavaScript logic of the doodad), but everything should be
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available and possible for modders to extend the game with custom features.
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* Game should have a good mixture of doodads and features: doors, buttons,
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switches, etc. and make a usable single player experience.
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* World sizes might be limited in dimension.
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* [ ] **Version 2:** Multiplayer Collaborative World Builder. This is a
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"pie in the sky" long-term vision for the game, to make it multiplayer,
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hopefully addicting, and possibly slightly Minecraft-like. Some ideas:
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* Players can self-host their own multiplayer servers to draw worlds with
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friends.
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* A new server would initialize as a blank white level with maybe a single
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platform (a line) for players to spawn on.
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* Gameplay is a mixture of players drawing the world and playing on it.
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* i.e.: one player could be drawing himself a castle and, as he's drawing,
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another player could be walking on the lines being laid down, etc.
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* World size should be infinite.
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* Version 1 can have limited world sizes as it will probably be easier,
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but this should be opened up eventually.
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* Besides creative mode, other game modes should be explored eventually...
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* Automatically-spawning enemy doodads that you have to fight?
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* Procedurally generated default maps? Having a blank white canvas is
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sorta like Superflat worlds in Minecraft, whereas normal Minecraft worlds
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come with randomly generated terrain to start from.
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* Find a way to incorporate drawing into a survival mode game? i.e. instead
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of a "Creative Mode" style, "unlimited ink to draw as much as you want,"
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have some natural limiter where players have to spend time in Play Mode
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to be able to change the map.
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# Edit Mode Features
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* [ ] A menu bar along the top of the screen with normal drop-down menus.
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UI toolkit widgets needed:
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* [ ] Menu: a pop-up menu, like one summoned by a right-click action.
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* [ ] MenuButton: a Button widget that opens a Menu when clicked.
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* [ ] MenuBar: a Frame widget that automatically finds the top of your
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window and makes it easy to fill it with MenuButtons.
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* [x] A status bar that shows your cursor position and other useful details.
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* [x] A palette window that shows you your current palette as a series of
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radio buttons, and you can toggle between the palette choices.
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* Palettes are saved with the level file and the list is dynamic.
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* Colors are not tied to behaviors. Each "Swatch" on the palette has its own
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color and a set of boolean flags for `solid`, `fire` and `water` behaviors.
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* [ ] User interface to edit (add/remove) swatches from the palette.
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* [ ] A Toolbox window with radio buttons to select between various drawing tools.
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* [x] Pencil (the default) draws single pixels on the level.
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* [ ] Rectangle would draw a rectangular outline.
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* [ ] Line would draw a line from point to point.
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* [ ] A way to adjust brush properties:
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* [ ] Brush size, shape (round or square).
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* [ ] Tools to toggle "layers" of visibility into your level:
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* A drop-down menu with options like "Show all solid", "Show all fire",
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"Show all decoration", etc.
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* When layers are applied, adjust the way the pixels in the Grid are drawn on
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screen. Any pixel that doesn't fit the layers requested should draw in a
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muted color like light grey, and the layers requested should show in a
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vibrant color.
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* Use case: a full-color level can have _many_ solid pixels (grass, dirt,
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walls) rendering in all kinds of colors. But you want to see how the collision
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burden will be for the level and you can toggle on "Show all solid pixels"
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and every solid pixel becomes bright red and all the non-solid pixels turn a
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muted grey. This way I can easily see the difference between the colors and
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behaviors of the pixels in my level.
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For creating Doodads in particular:
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* [ ] Make a way to enter Edit Mode in either "Level Mode" or "Doodad Mode",
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i.e. by a "New Level" or "New Doodad" button.
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* [ ] Create a "frame manager" window to see and page between the frames of the
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drawing.
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* [ ] Ability to work on canvases with constrained size (including smaller than
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your window). This will use a Canvas widget in the UI toolkit as an abstraction
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layer. Small canvases will be useful for drawing doodads of a fixed size.
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# Release Modes
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## Shareware/Demo Version
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This would be a free version with some limitations. Early public alpha releases
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would be built with this release mode.
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* Optional expiration date after which the game WILL NOT run.
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* Can play the built-in maps and create your own custom maps.
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* No support for Custom Doodads. The game will have the code to read Doodads from
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disk dummied out/not compiled in, and any third-party map that embeds or
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references custom Doodads will not be allowed to run.
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* Custom maps created in a demo version will have some feature limitations:
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* Infinite map sizes not allowed, only bounded ones with a fixed size.
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* No custom wallpaper images, only built-in ones.
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* No custom palette for new maps, only the default standard palette.
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* No features for drawing doodad graphics (multiple frames, etc.)
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As an end user, it means basically:
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* You are limited to built-in doodads but you can make (and share) and play
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other users' custom maps that only use the built-in doodads.
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## Release Version
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TBD.
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Probably mostly DRM free. Will want some sort of account server early-on though.
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# File Formats
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* The file formats should eventually have a **Protocol Buffers** binary
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representation before we go live. JSON support shall remain, but the
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production application will not _write_ JSON files, only read them.
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(This way we can ship drawings in the git repo as text files).
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* The app will support reading three types of files:
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* `.canvas` files are the lowest common denominator, raw drawing data. It
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contains a Palette and a pixel grid and nothing more.
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* `.map` files are level maps. They include a Canvas along with level
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metadata, Doodad array, attached files, etc.
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* `.doodad` files are for doodads. They include a Canvas along with
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metadata, embedded JavaScript, attached files, etc.
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* JSON versions will have `.json.<ext>` file suffixes, like `.json.canvas`
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or `.json.map`
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* The **production** app will be only be able to read the binary format of
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the files. The JSON reading code is for dev builds only.
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* Shareware/Demo builds will have even more restrictions on supported file
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types. For example it won't be built with the code that allows it to
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read _or_ write a Doodad from disk, as it will be limited only to built-in
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Doodads and won't support authoring custom ones.
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## Common Drawing Files
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* A common base format should be shared between Levels and Doodads. You should
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be able to use the Editor mode and draw a map *or* draw a doodad like a
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button. The drawing data should be a common structure between Level and
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Doodad files.
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* The drawing is separated between a **Palette** and the **Pixels**
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themselves. The Pixels reference the Palette values and their X,Y
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coordinate.
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* The _color_ and the _behavior_ of the palette are decoupled.
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* In the base game, all the solid lines you draw may be black and red
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lines are fire, but these aren't hard and fast rules. You could hack a
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custom map file that makes black lines fire and red lines water if
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you wanted.
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* The Palette in the map file stores the attributes and colors of each
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distinct type of pixel used in the map. Here it says "color 0 is
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black and is solid", "color 1 is red and is fire and is not solid",
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etc.
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* A mod tool could be written to produce a full-color pixel art level
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that still behaves and follows the normal rules of the Doodle game
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with regards to geometry and collisions.
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* Ideas for pixel attributes:
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* Brush: what shape brush to draw the pixel with.
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* Solid: can't collide with other solid pixels.
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* Fire: applies fire damage to doodads that intersect with it.
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* Water: If a doodad passes through a blue pixel, they toggle their
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underwater physics. This way pools can be entered from ANY side (top,
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bottom, sides) and the physics should toggle on and off.
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* Slippery: when a doodad is standing on a slippery pixel, do some extra
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checks to find a slope and slide the doodad down it. Makes the pixels
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act like ice.
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* Standard palette:
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* The base game's map editor will tend toward hand-drawn style, at least
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at first.
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* Black lines are solid.
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* Dashed black lines are slippery.
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* Red lines are fire.
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* Blue lines are water.
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* Light grey lines are decoration (non solid, background geometry)
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* May make it possible to choose arbitrary colors separately from the
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type of pixel. A palette manager UX would be great.
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## Level Files
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* In the level file, store the `pixelHistory` as the definitive source
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of pixels rather than the grid of pixels. Let the grid be populated when
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the level is being inflated. The grid should have `json:"-"` so it doesn't
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serialize to the JSON.
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* This makes it possible to animate levels as they load -- by
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fast-tracing the original lines that the mapper drew, watching them draw
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the map before you play it.
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* Makes the file _slightly_ lighter weight because a lot of lines will have
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delta positions in the pixelHistory so we don't need to store the middle
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pixels.
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* It should have space to store copies of any custom Doodads that the user
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wants to export with the level file itself, for easy sharing.
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* It should have space to store a custom background image.
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## Wallpaper Images
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* Levels can pick a "wallpaper image" to go behind their pixels. One example of
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a wallpaper would be a sheet of standard ruled notebook paper.
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* The texture file will be a square (rectangular maybe ok) with four quadrants
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from which the textures will be extracted. For example if the overall image
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size was 100x100 pixels, it will be divided into the four 50x50 quadrants.
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1. `Corner`: Top left corner is the top left edge of the "page" the level is on
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2. `Top`: Top right corner is the repeated "top of page" texture.
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3. `Left`: Bottom left corner is the repeated "left of page" texture.
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4. `Repeat`: Bottom right corner is the repeated background texture that extends
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infinitely in all directions.
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* The Repeat texture is used all the time, and the other three are used when the
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level type has boundaries (on the top and left edges in particular) to draw
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decorative borders instead of the Repeat texture.
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* Levels will be able to choose a "page type" which controls how the wallpaper
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will be drawn and how the level boundaries may be constrained. There will be
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four options:
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1. **Unbounded:** The map can freely grow in any direction, including into the
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negative X/Y coordinates. The map author will not run up against a boundary
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as the level grows in any direction.
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2. **No Negative Space:** The map coordinates can not dip below `(0,0)`, the
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origin at the top-left edge of the map. The map can grow infinitely in the
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positive X and Y directions (to the right and down) but is constrained on
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the left and right edges. The game engine will stop scrolling the map when
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the top or left edges are reached, and those edges will behave like a solid
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wall.
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3. **Bounded:** The map has a fixed width and height and is bounded on all
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four edges.
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4. **Bordered:** same as Bounded but with a different wallpaper behavior.
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The bottom and right edges are covered with mirror images of the top and
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left edges.
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* The page types will have their own behaviors with how wallpapers are drawn:
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* **Unbounded:** only the `BR` texture from the wallpaper is used, repeated
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infinitely in the X and Y directions. The top-left, top, and left edge
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textures are not used.
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* **No Negative Space:** the `TL` texture is drawn at coordinate `(0,0)`.
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To its right, the `TR` texture is repeated forever in the X direction, and
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along the left edge of the page, the `BL` texture is repeated in the Y
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direction. The remaining whitespace on the page repeats the `BR` texture
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infinitely.
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* **Bounded:** same as No Negative Space.
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* **Bounded, Mirrored Wallpaper:** same as No Negative Space, but all of the
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_other_ corners and edges are textured too, with mirror images of the Top,
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Top Left, and Left textures. This would look silly on the "ruled notebook"
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texture, but could be useful to emborder the level with a fancy texture.
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* The game will come with a few built-in textures for levels to refer to by
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name. These textures don't need to be distributed with the map files themselves,
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as every copy of the game should include these (or a sensible fallback would
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be used).
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* The map author can also attach their own custom texture that will be included
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inside the map file.
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### Default Wallpapers
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**notebook**: standard ruled notebook paper with a red line alone the Left
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dge and a blank margin along the Top, with a Corner and the blue lines
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aking up the Repeat in all directions.
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![notebook.png](../assets/wallpapers/notebook.png)
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**graph**: graph paper made up of a grid of light grey or blue lines.
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**dots**: graph paper made of dots at the intersections but not the lines in
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between.
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**legal**: yellow lined notebook paper (legal pad).
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**placemat**: a placemat texture with a wavy outline that emborders the map
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on all four sides. To be used with the Bordered level type.
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# Text Console
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* Create a rudimentary dev console for entering text commands in-game. It
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will be helpful until we get a proper UI developed.
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* The `~` key would open the console.
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* Draw the console on the bottom of the screen. Show maybe 6 lines of
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output history (a `[]string` slice) and the command prompt on the
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bottom.
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* Ideas for console commands:
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* `save <filename.json>` to save the drawing to disk.
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* `open <filename.json>`
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* `clear` to clear the drawing.
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* Make the console scriptable so it can be used as a prompt, in the mean
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time before we get a UI.
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* Example: the key binding `Ctrl-S` would be used to save the current
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drawing, and we want to ask the user for a file name. There is no UI
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toolkit yet to draw a popup window or anything.
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* It could be like `console.Prompt("Filename:")` and it would force open
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the text console (if it wasn't already open) and the command prompt would
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have that question... and have a callback command to run, like
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`save <filename.json>` using their answer.
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# Doodads
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Doodads will be the draggable, droppable, scriptable assets that make the
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mazes interactive.
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* They'll need to store multiple frames, for animations or varying states.
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Example: door opening, button being pressed, switch toggled on or off.
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* They'll need a scripting engine to make them interactive. Authoring the
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scripts can be done externally of the game itself.
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* The built-in doodads should be scripted the same way as custom doodads,
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dogfooding the system.
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* Custom doodads will be allowed to bundle with a level file for easy
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shipping.
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* Installing new doodads from a level file could be possible too.
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* Doodads within a level file all have a unique ID, probably just an
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integer. Could be just their array index even.
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Some ideas for doodad attributes:
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* Name (string)
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* Frames (drawings, like levels)
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Doodad instances in level files would have these attributes:
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* ID (int)
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* X,Y coordinates
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* Target (optional int; doodad ID):
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* For buttons and switches and things. The target would be another
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doodad that can be interacted with.
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* Self-contained doodads, like trapdoors, won't have a Target.
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* Powered (bool)
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* Default `false` and most things won't care.
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* A Button would be default `false` until pressed, then it's `true`
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* A Switch is `true` if On or `false` if Off
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* A Door is `true` if Open and `false` if Closed
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* So when a switch is turned on and it opens a door by pushing a `true`
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state to the door... this is the underlying system.
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## Scripting
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* Probably use Otto for a pure Go JavaScript runtime, to avoid a whole world
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of hurt.
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* Be able to register basic event callbacks like:
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* On load (to initialize any state if needed)
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* On visible (for when we support scrolling levels)
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* On collision with another doodad or the player character
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* On interaction (player hits a "Use" button, as if to toggle a switch)
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* Doodads should be able to pass each other messages by ID.
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* Example: a Button should be able to tell a Door to open because the
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button has been pressed by another doodad or the player character.
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Some ideas for API features that should be available to scripts:
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* Change the direction and strength of gravity (i.e. Antigravity Boots).
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* Teleport the player doodad to an absolute or relative coordinate.
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* Summon additional doodads at some coordinate.
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* Add and remove items from the player's inventory.
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## Ideas for Doodads
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Some specific ideas for doodads that should be in the maze game, and what
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sorts of scripting features they might need:
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* Items (class)
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* A class of doodad that is "picked up" when touched by the player
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character and placed into their inventory.
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* Scriptable hooks can still apply, callback ideas:
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* On enter inventory
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* On leave inventory
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* Example: Gravity Boots could be scripted to invert the global gravity
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when the item enters your inventory until you drop the boots.
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* Some attribute ideas:
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* Undroppable: player can't remove the item from their inventory.
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* Item ideas to start with:
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* Keys to open doors (these would just be mere collectables)
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* Antigravity Boots (scripted to mess with gravity)
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* Buttons
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* At least 2 frames: pressed and not pressed.
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* Needs to associate with a door or something that works with buttons.
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* On collision with a doodad or player character: send a notification to
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its associated Door that it should open. (`Powered: true`)
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* When collision ends, button and its door become unpowered.
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* Sticky Buttons
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* Buttons that only become `true` once. They stick "On" when activated
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for the first time.
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* Once pressed they can't be unpressed. However, there's nothing stopping
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a switch from targeting a sticky button, so when the switch is turned off
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the sticky button turns off too.
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* Switches
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* Like a button. On=`true` and Off=`false`
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* 2 frames for the On and Off position.
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* On "use" by the player, toggle the switch and notify the door of the new
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boolean value.
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* It would invert the value of the target, not just make it match the
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value of the switch. i.e. if the switch is `false` and the door is
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already open (`true`), making the switch `true` closes the door.
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* Powered Doors
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* Can only be opened when powered.
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* 2 frames of animation: open and closed.
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* A switch or button must target the door as a way to open/close it.
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* Locked Doors
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* Requires a key item to be in the player's inventory.
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* On collision with the player: if they have the key, the door toggles to
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its `true` powered state (open) and stays open.
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* The door takes the key from the player's inventory when opened.
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* Trapdoors
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* One-way doors that close behind you.
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* Can be placed horizontally: a doodad falling from above should cause
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the door to swing open (provided it's a downward-only door) and fall
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through.
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* Can be placed vertically and acts as a one-way door.
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* Needs several frames of animation.
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