doodle/fps.go

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Go
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package doodle
import (
"fmt"
"git.kirsle.net/apps/doodle/doodads"
"git.kirsle.net/apps/doodle/render"
)
// Frames to cache for FPS calculation.
const maxSamples = 100
// Debug mode options, these can be enabled in the dev console
// like: boolProp DebugOverlay true
var (
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
DebugOverlay = true
DebugCollision = true
)
var (
fpsCurrentTicks uint32 // current time we get sdl.GetTicks()
fpsLastTime uint32 // last time we printed the fpsCurrentTicks
fpsCurrent int
fpsFrames int
fpsSkipped uint32
fpsInterval uint32 = 1000
)
// DrawDebugOverlay draws the debug FPS text on the SDL canvas.
func (d *Doodle) DrawDebugOverlay() {
if !d.Debug || !DebugOverlay {
return
}
label := fmt.Sprintf(
"FPS: %d (%dms) S:%s F12=screenshot",
fpsCurrent,
fpsSkipped,
d.Scene.Name(),
)
err := d.Engine.DrawText(
render.Text{
Text: label,
Size: 24,
Color: DebugTextColor,
Stroke: DebugTextStroke,
Shadow: DebugTextShadow,
},
render.Point{
X: DebugTextPadding,
Y: DebugTextPadding + 32, // extra padding to not overlay menu bars
},
)
if err != nil {
log.Error("DrawDebugOverlay: text error: %s", err.Error())
}
}
// DrawCollisionBox draws the collision box around a Doodad.
func (d *Doodle) DrawCollisionBox(actor doodads.Actor) {
if !d.Debug || !DebugCollision {
return
}
var (
rect = doodads.GetBoundingRect(actor)
box = doodads.GetCollisionBox(rect)
)
d.Engine.DrawLine(render.DarkGreen, box.Top[0], box.Top[1])
d.Engine.DrawLine(render.DarkBlue, box.Bottom[0], box.Bottom[1])
d.Engine.DrawLine(render.DarkYellow, box.Left[0], box.Left[1])
d.Engine.DrawLine(render.Red, box.Right[0], box.Right[1])
}
// TrackFPS shows the current FPS once per second.
func (d *Doodle) TrackFPS(skipped uint32) {
fpsFrames++
fpsCurrentTicks = d.Engine.GetTicks()
// Skip the first second.
if fpsCurrentTicks < fpsInterval {
return
}
if fpsLastTime < fpsCurrentTicks-fpsInterval {
fpsLastTime = fpsCurrentTicks
fpsCurrent = fpsFrames
fpsFrames = 0
fpsSkipped = skipped
}
}