Doodle is the game engine for Sketchy Maze written in Go.
https://www.sketchymaze.com/
balance | ||
cmd | ||
docs | ||
doodads | ||
draw | ||
enum | ||
events | ||
level | ||
lib/debugging | ||
pkg/userdir | ||
render | ||
types | ||
ui | ||
uix | ||
.editorconfig | ||
.gitignore | ||
Changes.md | ||
commands.go | ||
config.go | ||
Debug Notes.md | ||
doodle.go | ||
editor_scene_debug.go | ||
editor_scene.go | ||
editor_ui_doodad.go | ||
editor_ui_palette.go | ||
editor_ui.go | ||
fps.go | ||
guitest_scene.go | ||
Ideas.md | ||
kirsle.env | ||
log.go | ||
main_scene.go | ||
Makefile | ||
play_scene.go | ||
README.md | ||
scene.go | ||
shell.go |
Doodle
Doodle is a drawing-based maze game written in Go.
Features
(Eventually), the high-level, user-facing features for the game are:
- Draw your own levels freehand and then play them like a 2D platformer game.
- In Adventure Mode you can play through a series of official example levels that ship with the game.
- In Edit Mode you can draw a map freehand-style and lay down physical geometry, and mark which lines are solid or which ones behave like fire.
- Drag and drop Doodads like buttons, doors and keys into your level and link them together so that buttons open doors and levers activate devices.
- In Play Mode you can play your level as a 2D platformer game where you collect keys, watch out for enemies, and solve puzzles to get to the exit.
- Easily Share your custom maps with friends.
Mod-friendly
- Users can create Custom Doodads to extend the game with a scripting language like JavaScript. The sprites and animations are edited in-game in Edit Mode, but the scripting is done in your text editor.
- In Edit Mode you can drag custom doodads into your maps.
- To Share your maps, you can choose to bundle the custom doodads inside your map file itself, so that other players can play the map without needing to install the doodads separately.
- If you receive a map with custom doodads, you can install the doodads into your copy of the game and use them in your own maps.
Keybindings
Global Keybindings:
Escape
Close the developer console if open, without running any commands.
Exit the program otherwise.
Enter
Open and close the developer console, and run commands while the console
is open.
In Play Mode:
Cursor Keys
Move the player around.
In Edit Mode:
F12
Take a screenshot (generate a PNG based on level data)
Developer Console
Press Enter
at any time to open the developer console.
Commands supported:
new
Create a new map in Edit Mode.
save [filename.json]
Save the current map in Edit Mode. The filename is required if the map has
not been saved yet.
edit [filename.json]
Open a map in Edit Mode.
play [filename.json]
Open a map in Play Mode.
echo <text>
Flash a message to the console.
clear
Clear the console output history.
exit
quit
Close the developer console.
Milestones
As a rough idea of the milestones needed for this game to work:
SDL Paint Program
- Create a basic SDL window that you can click on to color pixels.
- Connect the pixels while the mouse is down to cover gaps.
- Implement a "screenshot" button that translates the canvas to a PNG
image on disk.
F12
key to take a screenshot of your drawing.- It reproduces a PNG image using its in-memory knowledge of the pixels you have drawn, not by reading the SDL canvas. This will be important for making the custom level format later.
- The PNG I draw looks slightly different to what you see on the SDL canvas;
maybe difference between
Renderer.DrawLine()
and my own algorithm or the anti-aliasing.
- Create a custom map file format (protobufs maybe) and "screenshot" the canvas into this custom file format.
- Make the program able to read this file format and reproduce the same pixels on the canvas.
- Abstract away SDL logic into a small corner so it can be replaced with OpenGL or something later on.
- Implement a command line shell in-game to ease development before a user
interface is created.
- Add support for the shell to pop itself open and ask the user for input prompts.
Alpha Platformer
- Inflate the pixel history from the map file into a full lookup grid
of
(X,Y)
coordinates. This will be useful for collision detection. - Create a dummy player character sprite, probably just a
render.Circle()
. In Play Mode run collision checks and gravity on the player sprite.- Create the concept of the Doodad and make the player character implement one.
- Get basic movement and collision working. With a cleanup this can
make a workable ALPHA RELEASE
- Ability to move laterally along the ground.
- Ability to walk up reasonable size slopes but be stopped when running against a steeper wall.
- Basic gravity
UI Overhaul
- Create a user interface toolkit which will be TREMENDOUSLY helpful
for the rest of this program.
- Labels
- Buttons (text only is OK)
- Buttons wrap their Label and dynamically compute their size based on how wide the label will render, plus padding and border.
- Border colors and widths and paddings are all configurable.
- Buttons should interact with the cursor and be hoverable and clickable.
- UI Manager that will keep track of buttons to know when the mouse is interacting with them.
- Frames
- Like Buttons, can have border (raised, sunken or solid), padding and background color.
- Should be able to size themselves dynamically based on child widgets.
- Windows (fixed, non-draggable is OK)
- Title bar with label
- Window body implements a Frame that contains child widgets.
- Window can resize itself dynamically based on the Frame.
- Create a "Main Menu" scene with buttons to enter a new Edit Mode, play an existing map from disk, etc.
- Add user interface Frames or Windows to the Edit Mode.
- A toolbar of buttons (New, Save, Open, Play) can be drawn at the top before the UI toolkit gains a proper MenuBar widget.
- Expand the Palette support in levels for solid vs. transparent, fire, etc. with UI toolbar to choose palettes.
- Add a "Canvas" widget that will hold level drawing data and abstract it out such that the Canvas can have a constrained width and height, position, and "scrollable" viewport area that determines rendered pixels. Will be VERY useful for Doodads and working on levels smaller than your window size (like doodads).
Lesser important UI features that can come at any later time:
- MenuBar widget with drop-down menu support.
- Checkbox and Radiobox widgets.
- Text Entry widgets (in the meantime use the Developer Shell to prompt for text input questions)
Doodad Editor
- The Edit Mode should support creating drawings for Doodads.
- It should know whether you're drawing a Map or a Doodad as some behaviors may need to be different between the two.
- Compress the coordinates down toward
(0,0)
when saving a Doodad, by finding the toppest, leftest point and making that(0,0)
and adjusting the rest accordingly. This will help trim down Doodads into the smallest possible space for easy collision detection. - Add a UX to edit multiple frames for a Doodad.
- Edit Mode should be able to fully save the drawings and frames, and an external CLI tool can install the JavaScript into them.
- Possible UX to toggle Doodad options, like its collision rules and whether the Doodad is continued to be "mobile" (i.e. doors and buttons won't move, but items and enemies may be able to; and non-mobile Doodads don't need to collision check against level geometry).
- Edit Mode should have a Doodad Palette (Frame or Window) to drag Doodads into the map.
- ???
Building
Fedora dependencies:
$ sudo dnf install SDL2-devel SDL2_ttf-devel
Fonts
The fonts/
folder is git-ignored. The app currently uses font files here
named:
DejaVuSans.ttf
for sans-serif font.DejaVuSans-Bold.ttf
for bold sans-serif font.DejaVuSansMono.ttf
for monospace font.
These are the open source DejaVu Sans [Mono] fonts, so copy them in from
your /usr/share/fonts/dejavu
folder or provide alternative fonts.
mkdir fonts
cp /usr/share/fonts/dejavu/{DejaVuSans.ttf,DejaVuSans-Bold.ttf,DejaVuSansMono.ttf} fonts/