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99eab19c5b
doodle/pkg/level/chunk.go

350 lines
8.4 KiB
Go
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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
package level
import (
"encoding/json"
"fmt"
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
"image"
"math"
"os"
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
Code Layout Refactor * All private Doodle source code into the pkg/ folder. * Potentially public code into the lib/ folder. * Centralize the logger into a subpackage.
2019-04-10 00:35:44 +00:00
"git.kirsle.net/apps/doodle/lib/render"
"git.kirsle.net/apps/doodle/pkg/balance"
"git.kirsle.net/apps/doodle/pkg/log"
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
"git.kirsle.net/apps/doodle/pkg/userdir"
"github.com/satori/go.uuid"
WIP: MsgPack stubs, Level Filesystem Module * Add some encoding/decoding functions for binary msgpack format for levels and doodads. Currently it writes msgpack files that can be decoded and printed by Python (mp2json.py) but it can't re-read from the binary format. For now, levels will continue to write in JSON format. * Add filesystem abstraction functions to the balance/ package to search multiple paths to find Levels and Doodads, to make way for system-level doodads.
2019-05-05 21:03:20 +00:00
"github.com/vmihailenco/msgpack"
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
"golang.org/x/image/bmp"
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
)
// Types of chunks.
const (
MapType int = iota
GridType
)
// Chunk holds a single portion of the pixel canvas.
type Chunk struct {
Type int // map vs. 2D array.
Accessor
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
// Values told to it from higher up, not stored in JSON.
Point render.Point
Size int
// Texture cache properties so we don't redraw pixel-by-pixel every frame.
Add JavaScript panic catcher to doodads * Add example mischievous doodad script that alters the logger date format and animates its canvas's mask color.
2019-04-19 05:02:59 +00:00
uuid uuid.UUID
texture render.Texturer
textureMasked render.Texturer
textureMaskedColor render.Color
dirty bool
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
}
// JSONChunk holds a lightweight (interface-free) copy of the Chunk for
// unmarshalling JSON files from disk.
type JSONChunk struct {
WIP: MsgPack stubs, Level Filesystem Module * Add some encoding/decoding functions for binary msgpack format for levels and doodads. Currently it writes msgpack files that can be decoded and printed by Python (mp2json.py) but it can't re-read from the binary format. For now, levels will continue to write in JSON format. * Add filesystem abstraction functions to the balance/ package to search multiple paths to find Levels and Doodads, to make way for system-level doodads.
2019-05-05 21:03:20 +00:00
Type int `json:"type" msgpack:"0"`
Data json.RawMessage `json:"data" msgpack:"-"`
BinData interface{} `json:"-" msgpack:"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
}
// Accessor provides a high-level API to interact with absolute pixel coordinates
// while abstracting away the details of how they're stored.
type Accessor interface {
Inflate(*Palette) error
Iter() <-chan Pixel
IterViewport(viewport render.Rect) <-chan Pixel
Get(render.Point) (*Swatch, error)
Set(render.Point, *Swatch) error
Delete(render.Point) error
Len() int
MarshalJSON() ([]byte, error)
UnmarshalJSON([]byte) error
WIP: MsgPack stubs, Level Filesystem Module * Add some encoding/decoding functions for binary msgpack format for levels and doodads. Currently it writes msgpack files that can be decoded and printed by Python (mp2json.py) but it can't re-read from the binary format. For now, levels will continue to write in JSON format. * Add filesystem abstraction functions to the balance/ package to search multiple paths to find Levels and Doodads, to make way for system-level doodads.
2019-05-05 21:03:20 +00:00
// MarshalMsgpack() ([]byte, error)
// UnmarshalMsgpack([]byte) error
// Serialize() interface{}
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
}
// NewChunk creates a new chunk.
func NewChunk() *Chunk {
return &Chunk{
Type: MapType,
Accessor: NewMapAccessor(),
}
}
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
// Texture will return a cached texture for the rendering engine for this
// chunk's pixel data. If the cache is dirty it will be rebuilt in this func.
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
func (c *Chunk) Texture(e render.Engine) render.Texturer {
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
if c.texture == nil || c.dirty {
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
// Generate the normal bitmap and one with a color mask if applicable.
bitmap := c.toBitmap(render.Invisible)
defer os.Remove(bitmap)
tex, err := e.NewBitmap(bitmap)
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
if err != nil {
log.Error("Texture: %s", err)
}
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
c.texture = tex
c.textureMasked = nil // invalidate until next call
c.dirty = false
}
return c.texture
}
// TextureMasked returns a cached texture with the ColorMask applied.
func (c *Chunk) TextureMasked(e render.Engine, mask render.Color) render.Texturer {
Add JavaScript panic catcher to doodads * Add example mischievous doodad script that alters the logger date format and animates its canvas's mask color.
2019-04-19 05:02:59 +00:00
if c.textureMasked == nil || c.textureMaskedColor != mask {
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
// Generate the normal bitmap and one with a color mask if applicable.
bitmap := c.toBitmap(mask)
defer os.Remove(bitmap)
tex, err := e.NewBitmap(bitmap)
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
if err != nil {
log.Error("Texture: %s", err)
}
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
c.textureMasked = tex
Add JavaScript panic catcher to doodads * Add example mischievous doodad script that alters the logger date format and animates its canvas's mask color.
2019-04-19 05:02:59 +00:00
c.textureMaskedColor = mask
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
}
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
return c.textureMasked
}
// toBitmap puts the texture in a well named bitmap path in the cache folder.
func (c *Chunk) toBitmap(mask render.Color) string {
// Generate a unique filename for this chunk cache.
var filename string
if c.uuid == uuid.Nil {
c.uuid = uuid.Must(uuid.NewV4())
}
filename = c.uuid.String()
if mask != render.Invisible {
filename += fmt.Sprintf("-%02x%02x%02x%02x",
mask.Red, mask.Green, mask.Blue, mask.Alpha,
)
}
Mobile Enemy Doodad Test * Add a Red Azulian as a test for mobile enemies. * Its A.I. has it walk back and forth, changing directions when it comes up against an obstacle for a few moments. * It plays walking animations and can trigger collision events with other Doodads, such as the Electric Door and Trapdoor. * Move Gravity responsibility to the doodad scripts themselves. * Call `Self.SetGravity(true)` to opt the Doodad in to gravity. * The canvas.Loop() adds gravity to any doodad that has it enabled.
2019-05-06 02:04:02 +00:00
log.Info("Chunk<%d>.toBitmap() called", c.Size)
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
// Get the temp bitmap image.
bitmap := userdir.CacheFilename("chunk", filename+".bmp")
err := c.ToBitmap(bitmap, mask)
if err != nil {
log.Error("Texture: %s", err)
}
return bitmap
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
}
// ToBitmap exports the chunk's pixels as a bitmap image.
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
func (c *Chunk) ToBitmap(filename string, mask render.Color) error {
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
canvas := c.SizePositive()
imgSize := image.Rectangle{
Min: image.Point{},
Max: image.Point{
X: c.Size,
Y: c.Size,
},
}
if imgSize.Max.X == 0 {
imgSize.Max.X = int(canvas.W)
}
if imgSize.Max.Y == 0 {
imgSize.Max.Y = int(canvas.H)
}
img := image.NewRGBA(imgSize)
// Blank out the pixels.
for x := 0; x < img.Bounds().Max.X; x++ {
for y := 0; y < img.Bounds().Max.Y; y++ {
WIP Finishing Up Texture Caching System Apart from putting the cached bitmaps in a better place, this about finishes up the texture caching optimization and IT IS FAST! When I spam drag a lot of pixels around the FPS may drop to the 40's but once the caches are warmed up the FPS returns to 60 and stays there, even if the screen is very busy with pixels. An undocumented debug feature: set the environment variable DEBUG_CHUNK_COLOR='#00FFFF' to set a bitmap background color besides white to be used when caching the chunks. It helps to visualize where on the screen the bitmaps are being used. May go away in the future. Changes: - Found that the old default chunk size of 1000 was slow to generate bitmap images to cache. The 100px test size was fast and 128 sounds like a good middle ground number to pick for now. - Fixed all the problems with scroll behavior and offset by inverting the sign of the scroll behavior. Scrolling to the Right and Down actually subtracts X,Y values instead of adds them.
2018-10-18 06:01:21 +00:00
img.Set(x, y, balance.DebugChunkBitmapBackground.ToColor())
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
}
}
// Pixel coordinate offset to map the Chunk World Position to the
// smaller image boundaries.
pointOffset := render.Point{
WIP Finishing Up Texture Caching System Apart from putting the cached bitmaps in a better place, this about finishes up the texture caching optimization and IT IS FAST! When I spam drag a lot of pixels around the FPS may drop to the 40's but once the caches are warmed up the FPS returns to 60 and stays there, even if the screen is very busy with pixels. An undocumented debug feature: set the environment variable DEBUG_CHUNK_COLOR='#00FFFF' to set a bitmap background color besides white to be used when caching the chunks. It helps to visualize where on the screen the bitmaps are being used. May go away in the future. Changes: - Found that the old default chunk size of 1000 was slow to generate bitmap images to cache. The 100px test size was fast and 128 sounds like a good middle ground number to pick for now. - Fixed all the problems with scroll behavior and offset by inverting the sign of the scroll behavior. Scrolling to the Right and Down actually subtracts X,Y values instead of adds them.
2018-10-18 06:01:21 +00:00
X: int32(c.Point.X * int32(c.Size)),
Y: int32(c.Point.Y * int32(c.Size)),
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
}
// Blot all the pixels onto it.
for px := range c.Iter() {
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
var color = px.Swatch.Color
if mask != render.Invisible {
color = mask
}
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
img.Set(
int(px.X-pointOffset.X),
int(px.Y-pointOffset.Y),
Drag Doodads Onto Levels in Edit Mode Add the ability to drag and drop Doodads onto the level. The Doodad buttons on the palette now trigger a Drag/Drop behavior when clicked, and a "blueprint colored" version of the Doodad follows your cursor, centered on it. Actors are assigned a random UUID ID when they are placed into a level. The Canvas gained a MaskColor property that forces all pixels in the drawing to render as the same color. This is a visual-only effect, and is used when dragging Doodads in so they render as "blueprints" instead of their actual colors until they are dropped. Fix the chunk bitmap cache system so it saves in the $XDG_CACHE_FOLDER instead of /tmp and has better names. They go into `~/.config/doodle/chunks/` and have UUID file names -- but they disappear quickly! As soon as they are cached into SDL2 they are removed from disk. Other changes: - UI: Add Hovering() method that returns the widgets that are beneath a point (your cursor) and those that are not, for easy querying for event propagation. - UI: Add ability to return an ErrStopPropagation to tell the master Scene (outside the UI) not to continue sending events to other parts of the code, so that you don't draw pixels during a drag event.
2018-10-20 22:42:49 +00:00
color.ToColor(),
WIP Texture Caching NOTICE: Chunk size set to 100 for visual testing! NOTICE: guitest references a bmp file that isn't checked in! BUGS REMAINING: - When scrolling the level in Edit Mode, some of the chunks will pop out of existence randomly. - When clicking-dragging to draw in Edit Mode, if the scroll position is not at 0,0 then the pixels drawn will be offset from the cursor. - These are to do with the Scroll position and chunk coordinate calc functions probably. Implements a texture caching interface to stop redrawing everything pixel by pixel on every frame. The texture caching workflow is briefly: - The uix.Canvas widget's Present() function iterates over the list of Chunk Coordinates that are visible inside of the current viewport (i.e. viewable on screen) - For each Chunk: - Make it render and/or return its cached Texture object. - Work out how much of the Chunk will be visible and how to crop the boxes for the Copy() - Copy the cached Texture instead of drawing all the pixels every time like we were doing before. - The Chunk.Texture() function that returns said Texture: - It calls Chunk.ToBitmap() to save a bitmap on disk. - It calls Engine.NewBitmap() to get a Texture it can hang onto. - It hangs onto the Texture and returns it on future calls. - Any call to Set() or Delete() a pixel will invalidate the cache (mark the Chunk "dirty") and Texture() will rebuild next call. The interface `render.Texturer` provides a way for rendering backends (SDL2, OpenGL) to transport a "texture" of their own kind without exposing the type details to the user. The interface `render.Engine` adds two new methods: * NewBitmap(filename string) (Texturer, error) * Copy(t Texturer, src, dst Rect) NewBitmap should open a bitmap image on disk and return it wrapped in a Texturer (really it's an SDL2 Texture). This is for caching purposes. Next the Copy() function blits the texture onto the screen renderer using the source and destination rectangles. The uix.Canvas widget orchestrates the caching for the drawing it's responsible for. It queries which chunks are viewable in the Canvas viewport (scroll and bounding boxes), has each chunk render out their entire bitmap image to then cache them as SDL textures and then only _those_ need to be copied out to the renderer each frame. The frame rate now sits at a decent 60 FPS even when the drawing gets messy and full of lines. Each unique version of each chunk needs to render only one time and then it's a fast copy operation for future ticks. Other changes: - Chunker now assigns each Chunk what their coordinate and size are, so that the chunk can self reference that information. This info is considered read-only but that isn't really enforced. - Add Chunker.IterViewportChunks() that returns a channel of Chunk Coordinates that are visible in your viewport, rather than iterating over all of the pixels in all of those chunks. - Add Chunk.ToBitmap(filename) that causes a Chunk to render its pixels to a bitmap image on disk. SDL2 can natively speak Bitmaps for texture caching. Currently these go to files in /tmp but will soon go into your $XDG_CACHE_FOLDER instead. - Add Chunk.Texture() that causes a Chunk to render and then return a cached bitmap texture of the pixels it's responsible for. The texture is cached until the Chunk is next modified with Set() or Delete(). - UI: add an Image widget that currently just shows a bitmap image. It was the first test for caching bitmap images for efficiency. Can show any *.bmp file on disk! - Editor UI: make the StatusBar boxes dynamically build from an array of string pointers to make it SUPER EASY to add/remove labels.
2018-10-18 03:52:14 +00:00
)
}
fh, err := os.Create(filename)
if err != nil {
return err
}
defer fh.Close()
return bmp.Encode(fh, img)
}
// Set proxies to the accessor and flags the texture as dirty.
func (c *Chunk) Set(p render.Point, sw *Swatch) error {
c.dirty = true
return c.Accessor.Set(p, sw)
}
// Delete proxies to the accessor and flags the texture as dirty.
func (c *Chunk) Delete(p render.Point) error {
c.dirty = true
return c.Accessor.Delete(p)
}
// Rect returns the bounding coordinates that the Chunk has pixels for.
func (c *Chunk) Rect() render.Rect {
// Lowest and highest chunks.
var (
lowest render.Point
highest render.Point
)
for coord := range c.Iter() {
if coord.X < lowest.X {
lowest.X = coord.X
}
if coord.Y < lowest.Y {
lowest.Y = coord.Y
}
if coord.X > highest.X {
highest.X = coord.X
}
if coord.Y > highest.Y {
highest.Y = coord.Y
}
}
return render.Rect{
X: lowest.X,
Y: lowest.Y,
W: highest.X,
H: highest.Y,
}
}
// SizePositive returns the Size anchored to 0,0 with only positive
// coordinates.
func (c *Chunk) SizePositive() render.Rect {
S := c.Rect()
return render.Rect{
W: int32(math.Abs(float64(S.X))) + S.W,
H: int32(math.Abs(float64(S.Y))) + S.H,
}
}
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
// Usage returns the percent of free space vs. allocated pixels in the chunk.
func (c *Chunk) Usage(size int) float64 {
return float64(c.Len()) / float64(size)
}
// MarshalJSON writes the chunk to JSON.
func (c *Chunk) MarshalJSON() ([]byte, error) {
data, err := c.Accessor.MarshalJSON()
if err != nil {
return []byte{}, err
}
generic := &JSONChunk{
Type: c.Type,
Data: data,
}
b, err := json.Marshal(generic)
return b, err
}
// UnmarshalJSON loads the chunk from JSON and uses the correct accessor to
// parse the inner details.
func (c *Chunk) UnmarshalJSON(b []byte) error {
// Parse it generically so we can hand off the inner "data" object to the
// right accessor for unmarshalling.
generic := &JSONChunk{}
err := json.Unmarshal(b, generic)
if err != nil {
return fmt.Errorf("Chunk.UnmarshalJSON: failed to unmarshal into generic JSONChunk type: %s", err)
}
switch c.Type {
case MapType:
c.Accessor = NewMapAccessor()
return c.Accessor.UnmarshalJSON(generic.Data)
default:
return fmt.Errorf("Chunk.UnmarshalJSON: unsupported chunk type '%d'", c.Type)
}
}
WIP: MsgPack stubs, Level Filesystem Module * Add some encoding/decoding functions for binary msgpack format for levels and doodads. Currently it writes msgpack files that can be decoded and printed by Python (mp2json.py) but it can't re-read from the binary format. For now, levels will continue to write in JSON format. * Add filesystem abstraction functions to the balance/ package to search multiple paths to find Levels and Doodads, to make way for system-level doodads.
2019-05-05 21:03:20 +00:00
func (c *Chunk) EncodeMsgpack(enc *msgpack.Encoder) error {
data := c.Accessor
generic := &JSONChunk{
Type: c.Type,
BinData: data,
}
return enc.Encode(generic)
}
func (c *Chunk) DecodeMsgpack(dec *msgpack.Decoder) error {
generic := &JSONChunk{}
err := dec.Decode(generic)
if err != nil {
return fmt.Errorf("Chunk.DecodeMsgpack: %s", err)
}
switch c.Type {
case MapType:
c.Accessor = generic.BinData.(MapAccessor)
default:
return fmt.Errorf("Chunk.DecodeMsgpack: unsupported chunk type '%d'", c.Type)
}
return nil
}
// // MarshalMsgpack writes the chunk to msgpack format.
// func (c *Chunk) MarshalMsgpack() ([]byte, error) {
// // data, err := c.Accessor.MarshalMsgpack()
// // if err != nil {
// // return []byte{}, err
// // }
// data := c.Accessor
//
// generic := &JSONChunk{
// Type: c.Type,
// BinData: data,
// }
// b, err := msgpack.Marshal(generic)
// return b, err
// }
//
// // UnmarshalMsgpack loads the chunk from msgpack format.
// func (c *Chunk) UnmarshalMsgpack(b []byte) error {
// // Parse it generically so we can hand off the inner "data" object to the
// // right accessor for unmarshalling.
// generic := &JSONChunk{}
// err := msgpack.Unmarshal(b, generic)
// if err != nil {
// return fmt.Errorf("Chunk.UnmarshalMsgpack: failed to unmarshal into generic JSONChunk type: %s", err)
// }
//
// switch c.Type {
// case MapType:
// c.Accessor = NewMapAccessor()
// return c.Accessor.UnmarshalMsgpack(generic.Data)
// default:
// return fmt.Errorf("Chunk.UnmarshalMsgpack: unsupported chunk type '%d'", c.Type)
// }
// }
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