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doodle/level/types.go

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Save and restore maps as JSON files First pass at a level storage format to save and restore maps. To save a map: press F12. It takes a screenshot PNG into the screenshots/ folder and outputs a map JSON in the working directory. To restore a map: "go run cmd/doodle/main.go map.json"
2018-06-17 17:29:57 +00:00
package level
Marshall map pixels more compactly
2018-06-17 17:40:41 +00:00
import (
"encoding/json"
"fmt"
Implement Chunk System for Pixel Data Starts the implementation of the chunk-based pixel storage system for levels and drawings. Previously the levels had a Pixels structure which was just an array of X,Y and palette index triplets. The new chunk system divides the map up into square chunks, and lets each chunk manage its own memory layout. The "MapAccessor" layout is implemented first which is a map of X,Y coordinates to their Swatches (pointer to an index of the palette). When serialized the MapAccessor maps the "X,Y": "index" similarly to the old Pixels array. The object hierarchy for the chunk system is like: * Chunker: the manager of the chunks who keeps track of the ChunkSize and a map of "chunk coordinates" to the chunk in charge of it. * Chunk: a part of the drawing ChunkSize length square. A chunk has a Type (of how it stores its data, 0 being a map[Point]Swatch and 1 being a [][]Swatch 2D array), and the chunk has an Accessor which implements the underlying type. * Accessor: an interface for a Chunk to provide access to its pixels. * MapAccessor: a "sparse map" of coordinates to their Swatches. * GridAccessor: TBD, will be a "dense" 2D grid of Swatches. The JSON files are loaded in two passes: 1. The chunks only load their swatch indexes from disk. 2. With the palette also loaded, the chunks are "inflated" and linked to their swatch pointers. Misc changes: * The `level.Canvas` UI widget switches from the old Grid data type to being able to directly use a `level.Chunker` * The Chunker is a shared data type between the on-disk level format and the actual renderer (level.Canvas), so saving the level is easy because you can just pull the Chunker out from the canvas. * ChunkSize is stored inside the level file and the default value is at balance/numbers.go: 1000
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"git.kirsle.net/apps/doodle/balance"
"git.kirsle.net/apps/doodle/render"
Marshall map pixels more compactly
2018-06-17 17:40:41 +00:00
)
Doodad Edit Mode: Saving and Loading From Disk Adds the first features to Edit Mode to support creation of Doodad files! The "New Doodad" button pops up a prompt for a Doodad size (default 100px) and configures the Canvas widget and makes a Doodad struct instead of a Level to manage. * Move the custom Canvas widget from `level.Canvas` to `uix.Canvas` (the uix package is for our custom UI widgets now) * Rename the `doodads.Doodad` interface (for runtime instances of Doodads) to `doodads.Actor` and make `doodads.Doodad` describe the file format and JSON schema instead. * Rename the `EditLevel()` method to `EditDrawing()` and it inspects the file extension to know whether to launch the Edit Mode for a Level or for a Doodad drawing. * Doodads can be edited by using the `-edit` CLI flag or using the in-game file open features (including `edit` command of dev console). * Add a `Scrollable` boolean to uix.Canvas to restrict the keyboard being able to scroll the level, for editing Doodads which have a fixed size.
2018-09-26 17:04:46 +00:00
// Base provides the common struct keys that are shared between Levels and
// Doodads.
type Base struct {
Implement Chunk System for Pixel Data Starts the implementation of the chunk-based pixel storage system for levels and drawings. Previously the levels had a Pixels structure which was just an array of X,Y and palette index triplets. The new chunk system divides the map up into square chunks, and lets each chunk manage its own memory layout. The "MapAccessor" layout is implemented first which is a map of X,Y coordinates to their Swatches (pointer to an index of the palette). When serialized the MapAccessor maps the "X,Y": "index" similarly to the old Pixels array. The object hierarchy for the chunk system is like: * Chunker: the manager of the chunks who keeps track of the ChunkSize and a map of "chunk coordinates" to the chunk in charge of it. * Chunk: a part of the drawing ChunkSize length square. A chunk has a Type (of how it stores its data, 0 being a map[Point]Swatch and 1 being a [][]Swatch 2D array), and the chunk has an Accessor which implements the underlying type. * Accessor: an interface for a Chunk to provide access to its pixels. * MapAccessor: a "sparse map" of coordinates to their Swatches. * GridAccessor: TBD, will be a "dense" 2D grid of Swatches. The JSON files are loaded in two passes: 1. The chunks only load their swatch indexes from disk. 2. With the palette also loaded, the chunks are "inflated" and linked to their swatch pointers. Misc changes: * The `level.Canvas` UI widget switches from the old Grid data type to being able to directly use a `level.Chunker` * The Chunker is a shared data type between the on-disk level format and the actual renderer (level.Canvas), so saving the level is easy because you can just pull the Chunker out from the canvas. * ChunkSize is stored inside the level file and the default value is at balance/numbers.go: 1000
2018-09-23 22:20:45 +00:00
Version int `json:"version"` // File format version spec.
Basic Collision Detection, Toggle Between Play/Edit Known bugs: * The Pixel format in the Grid has DX and DY attributes and it wreaks havoc on collision detection in Play Mode when you come straight from the editor. Reloading the map from disk to play is OK cuz it lacks these attrs.
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GameVersion string `json:"gameVersion"` // Game version that created the level.
Title string `json:"title"`
Author string `json:"author"`
Doodad Edit Mode: Saving and Loading From Disk Adds the first features to Edit Mode to support creation of Doodad files! The "New Doodad" button pops up a prompt for a Doodad size (default 100px) and configures the Canvas widget and makes a Doodad struct instead of a Level to manage. * Move the custom Canvas widget from `level.Canvas` to `uix.Canvas` (the uix package is for our custom UI widgets now) * Rename the `doodads.Doodad` interface (for runtime instances of Doodads) to `doodads.Actor` and make `doodads.Doodad` describe the file format and JSON schema instead. * Rename the `EditLevel()` method to `EditDrawing()` and it inspects the file extension to know whether to launch the Edit Mode for a Level or for a Doodad drawing. * Doodads can be edited by using the `-edit` CLI flag or using the in-game file open features (including `edit` command of dev console). * Add a `Scrollable` boolean to uix.Canvas to restrict the keyboard being able to scroll the level, for editing Doodads which have a fixed size.
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}
// Level is the container format for Doodle map drawings.
type Level struct {
Base
Password string `json:"passwd"`
Locked bool `json:"locked"`
Save and restore maps as JSON files First pass at a level storage format to save and restore maps. To save a map: press F12. It takes a screenshot PNG into the screenshots/ folder and outputs a map JSON in the working directory. To restore a map: "go run cmd/doodle/main.go map.json"
2018-06-17 17:29:57 +00:00
Implement Chunk System for Pixel Data Starts the implementation of the chunk-based pixel storage system for levels and drawings. Previously the levels had a Pixels structure which was just an array of X,Y and palette index triplets. The new chunk system divides the map up into square chunks, and lets each chunk manage its own memory layout. The "MapAccessor" layout is implemented first which is a map of X,Y coordinates to their Swatches (pointer to an index of the palette). When serialized the MapAccessor maps the "X,Y": "index" similarly to the old Pixels array. The object hierarchy for the chunk system is like: * Chunker: the manager of the chunks who keeps track of the ChunkSize and a map of "chunk coordinates" to the chunk in charge of it. * Chunk: a part of the drawing ChunkSize length square. A chunk has a Type (of how it stores its data, 0 being a map[Point]Swatch and 1 being a [][]Swatch 2D array), and the chunk has an Accessor which implements the underlying type. * Accessor: an interface for a Chunk to provide access to its pixels. * MapAccessor: a "sparse map" of coordinates to their Swatches. * GridAccessor: TBD, will be a "dense" 2D grid of Swatches. The JSON files are loaded in two passes: 1. The chunks only load their swatch indexes from disk. 2. With the palette also loaded, the chunks are "inflated" and linked to their swatch pointers. Misc changes: * The `level.Canvas` UI widget switches from the old Grid data type to being able to directly use a `level.Chunker` * The Chunker is a shared data type between the on-disk level format and the actual renderer (level.Canvas), so saving the level is easy because you can just pull the Chunker out from the canvas. * ChunkSize is stored inside the level file and the default value is at balance/numbers.go: 1000
2018-09-23 22:20:45 +00:00
// Chunked pixel data.
Chunker *Chunker `json:"chunks"`
Save and restore maps as JSON files First pass at a level storage format to save and restore maps. To save a map: press F12. It takes a screenshot PNG into the screenshots/ folder and outputs a map JSON in the working directory. To restore a map: "go run cmd/doodle/main.go map.json"
2018-06-17 17:29:57 +00:00
// The Palette holds the unique "colors" used in this map file, and their
// properties (solid, fire, slippery, etc.)
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
Palette *Palette `json:"palette"`
}
// New creates a blank level object with all its members initialized.
func New() *Level {
return &Level{
Doodad Edit Mode: Saving and Loading From Disk Adds the first features to Edit Mode to support creation of Doodad files! The "New Doodad" button pops up a prompt for a Doodad size (default 100px) and configures the Canvas widget and makes a Doodad struct instead of a Level to manage. * Move the custom Canvas widget from `level.Canvas` to `uix.Canvas` (the uix package is for our custom UI widgets now) * Rename the `doodads.Doodad` interface (for runtime instances of Doodads) to `doodads.Actor` and make `doodads.Doodad` describe the file format and JSON schema instead. * Rename the `EditLevel()` method to `EditDrawing()` and it inspects the file extension to know whether to launch the Edit Mode for a Level or for a Doodad drawing. * Doodads can be edited by using the `-edit` CLI flag or using the in-game file open features (including `edit` command of dev console). * Add a `Scrollable` boolean to uix.Canvas to restrict the keyboard being able to scroll the level, for editing Doodads which have a fixed size.
2018-09-26 17:04:46 +00:00
Base: Base{
Version: 1,
},
Implement Chunk System for Pixel Data Starts the implementation of the chunk-based pixel storage system for levels and drawings. Previously the levels had a Pixels structure which was just an array of X,Y and palette index triplets. The new chunk system divides the map up into square chunks, and lets each chunk manage its own memory layout. The "MapAccessor" layout is implemented first which is a map of X,Y coordinates to their Swatches (pointer to an index of the palette). When serialized the MapAccessor maps the "X,Y": "index" similarly to the old Pixels array. The object hierarchy for the chunk system is like: * Chunker: the manager of the chunks who keeps track of the ChunkSize and a map of "chunk coordinates" to the chunk in charge of it. * Chunk: a part of the drawing ChunkSize length square. A chunk has a Type (of how it stores its data, 0 being a map[Point]Swatch and 1 being a [][]Swatch 2D array), and the chunk has an Accessor which implements the underlying type. * Accessor: an interface for a Chunk to provide access to its pixels. * MapAccessor: a "sparse map" of coordinates to their Swatches. * GridAccessor: TBD, will be a "dense" 2D grid of Swatches. The JSON files are loaded in two passes: 1. The chunks only load their swatch indexes from disk. 2. With the palette also loaded, the chunks are "inflated" and linked to their swatch pointers. Misc changes: * The `level.Canvas` UI widget switches from the old Grid data type to being able to directly use a `level.Chunker` * The Chunker is a shared data type between the on-disk level format and the actual renderer (level.Canvas), so saving the level is easy because you can just pull the Chunker out from the canvas. * ChunkSize is stored inside the level file and the default value is at balance/numbers.go: 1000
2018-09-23 22:20:45 +00:00
Chunker: NewChunker(balance.ChunkSize),
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
Palette: &Palette{},
}
Save and restore maps as JSON files First pass at a level storage format to save and restore maps. To save a map: press F12. It takes a screenshot PNG into the screenshots/ folder and outputs a map JSON in the working directory. To restore a map: "go run cmd/doodle/main.go map.json"
2018-06-17 17:29:57 +00:00
}
// Pixel associates a coordinate with a palette index.
type Pixel struct {
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
X int32 `json:"x"`
Y int32 `json:"y"`
PaletteIndex int32 `json:"p"`
// Private runtime values.
Fix Play Mode, Level Handover & Collision Detection * Edit Mode now uses the Level object itself to keep the drawing data rather than pull its Palette and Chunks out, so it can hang on to more information. The Canvas widget is given references to the Level.Palette and Level.Chunker via Canvas.LoadLevel() * Fix the handoff between Edit Mode and Play Mode. They pass the Level object back and forth and the Filename, because it's not part of the Level. You can save the map with its original settings after returning from Play Mode. * Fix the collision detection in Play Mode. It broke previously when palettes were added because of the difference between a render.Point and a level.Pixel and it couldn't easily look up coordinates. The new Chunker system provides a render.Point lookup API. * All pixels are solid for collision right now, TODO is to return Swatch information from the pixels touching the player character and react accordingly (non-solid, fire flag, etc.) * Remove the level.Grid type as it has been replaced by the Chunker. * Clean up some unused variables and functions.
2018-09-25 16:40:34 +00:00
Swatch *Swatch `json:"-"` // pointer to its swatch, for when rendered.
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
}
func (p Pixel) String() string {
return fmt.Sprintf("Pixel<%s '%s' (%d,%d)>", p.Swatch.Color, p.Swatch.Name, p.X, p.Y)
Save and restore maps as JSON files First pass at a level storage format to save and restore maps. To save a map: press F12. It takes a screenshot PNG into the screenshots/ folder and outputs a map JSON in the working directory. To restore a map: "go run cmd/doodle/main.go map.json"
2018-06-17 17:29:57 +00:00
}
Implement Chunk System for Pixel Data Starts the implementation of the chunk-based pixel storage system for levels and drawings. Previously the levels had a Pixels structure which was just an array of X,Y and palette index triplets. The new chunk system divides the map up into square chunks, and lets each chunk manage its own memory layout. The "MapAccessor" layout is implemented first which is a map of X,Y coordinates to their Swatches (pointer to an index of the palette). When serialized the MapAccessor maps the "X,Y": "index" similarly to the old Pixels array. The object hierarchy for the chunk system is like: * Chunker: the manager of the chunks who keeps track of the ChunkSize and a map of "chunk coordinates" to the chunk in charge of it. * Chunk: a part of the drawing ChunkSize length square. A chunk has a Type (of how it stores its data, 0 being a map[Point]Swatch and 1 being a [][]Swatch 2D array), and the chunk has an Accessor which implements the underlying type. * Accessor: an interface for a Chunk to provide access to its pixels. * MapAccessor: a "sparse map" of coordinates to their Swatches. * GridAccessor: TBD, will be a "dense" 2D grid of Swatches. The JSON files are loaded in two passes: 1. The chunks only load their swatch indexes from disk. 2. With the palette also loaded, the chunks are "inflated" and linked to their swatch pointers. Misc changes: * The `level.Canvas` UI widget switches from the old Grid data type to being able to directly use a `level.Chunker` * The Chunker is a shared data type between the on-disk level format and the actual renderer (level.Canvas), so saving the level is easy because you can just pull the Chunker out from the canvas. * ChunkSize is stored inside the level file and the default value is at balance/numbers.go: 1000
2018-09-23 22:20:45 +00:00
// Point returns the pixel's point.
func (p Pixel) Point() render.Point {
return render.Point{
X: p.X,
Y: p.Y,
}
}
Marshall map pixels more compactly
2018-06-17 17:40:41 +00:00
// MarshalJSON serializes a Pixel compactly as a simple list.
func (p Pixel) MarshalJSON() ([]byte, error) {
return []byte(fmt.Sprintf(
`[%d, %d, %d]`,
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
p.X, p.Y, p.PaletteIndex,
Marshall map pixels more compactly
2018-06-17 17:40:41 +00:00
)), nil
}
// UnmarshalJSON loads a Pixel from JSON again.
func (p *Pixel) UnmarshalJSON(text []byte) error {
var triplet []int32
err := json.Unmarshal(text, &triplet)
if err != nil {
return err
}
p.X = triplet[0]
p.Y = triplet[1]
Add Palette Window and Palette Support to Edit Mode * Add ui.Window to easily create reusable windows with titles. * Add a palette window (panel) to the right edge of the Edit Mode. * Has Radio Buttons listing the colors available in the palette. * Add palette support to Edit Mode so when you draw pixels, they take on the color and attributes of the currently selected Swatch in your palette. * Revise the on-disk format to better serialize the Palette object to JSON. * Break Play Mode: collision detection fails because the Grid key elements are now full Pixel objects (which retain their Palette and Swatch properties). * The Grid will need to be re-worked to separate X,Y coordinates from the Pixel metadata to just test "is something there, and what is it?"
2018-08-11 00:19:47 +00:00
if len(triplet) > 2 {
p.PaletteIndex = triplet[2]
}
Marshall map pixels more compactly
2018-06-17 17:40:41 +00:00
return nil
}