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|
package main
import (
"fmt"
"github.com/kch42/gomcmap/mcmap"
"github.com/mattn/go-gtk/gdk"
"github.com/mattn/go-gtk/glib"
"github.com/mattn/go-gtk/gtk"
"math"
"unsafe"
)
const (
zoom = 2
tileSize = zoom * mcmap.ChunkSizeXZ
cacheSize = 4
)
type tileCmd int
const (
cmdUpdateTiles tileCmd = iota
cmdFlushTiles
cmdSave
)
func renderTile(chunk *mcmap.Chunk) (maptile, biotile *gdk.Pixmap, biocache []mcmap.Biome) {
maptile = emptyPixmap(tileSize, tileSize, 24)
mtDrawable := maptile.GetDrawable()
mtGC := gdk.NewGC(mtDrawable)
biotile = emptyPixmap(tileSize, tileSize, 24)
btDrawable := biotile.GetDrawable()
btGC := gdk.NewGC(btDrawable)
biocache = make([]mcmap.Biome, mcmap.ChunkRectXZ)
i := 0
for z := 0; z < mcmap.ChunkSizeXZ; z++ {
scanX:
for x := 0; x < mcmap.ChunkSizeXZ; x++ {
bio := chunk.Biome(x, z)
btGC.SetRgbFgColor(bioColors[bio])
btDrawable.DrawRectangle(btGC, true, x*zoom, z*zoom, zoom, zoom)
biocache[i] = bio
i++
for y := chunk.Height(x, z); y >= 0; y-- {
if col, ok := blockColors[chunk.Block(x, y, z).ID]; ok {
mtGC.SetRgbFgColor(col)
mtDrawable.DrawRectangle(mtGC, true, x*zoom, z*zoom, zoom, zoom)
continue scanX
}
}
mtGC.SetRgbFgColor(gdk.NewColor("#ffffff"))
mtDrawable.DrawRectangle(mtGC, true, x*zoom, z*zoom, zoom, zoom)
}
}
return
}
type MapWidget struct {
dArea *gtk.DrawingArea
w, h int
reportFail func(msg string)
updateInfo func(x, z int, bio mcmap.Biome)
setBusy func(bool)
toolsEnabled bool
isInit bool
showBiomes, fixSnowIce bool
offX, offZ int
mx1, mx2, my1, my2 int
continueTool, panning bool
pixmap *gdk.Pixmap
pixmapGC *gdk.GC
gdkwin *gdk.Window
bg *gdk.Pixmap
region *CachedRegion
maptiles map[XZPos]*gdk.Pixmap
biotiles map[XZPos]*gdk.Pixmap
bioCache map[XZPos][]mcmap.Biome
redraw chan bool
tileCmds chan tileCmd
tool Tool
bio mcmap.Biome
}
var (
checker1 = gdk.NewColor("#222222")
checker2 = gdk.NewColor("#444444")
)
func emptyPixmap(w, h, depth int) *gdk.Pixmap {
return gdk.NewPixmap(new(gdk.Drawable), w, h, depth)
}
func (mw *MapWidget) SetShowBiomes(b bool) {
mw.showBiomes = b
mw.redraw <- true
}
func (mw *MapWidget) SetFixSnowIce(b bool) {
mw.fixSnowIce = b
}
func (mw *MapWidget) SetTool(t Tool) {
mw.tool = t
}
func (mw *MapWidget) SetBiome(bio mcmap.Biome) {
mw.bio = bio
}
func (mw *MapWidget) DArea() *gtk.DrawingArea { return mw.dArea }
func (mw *MapWidget) doTileCmds() {
for cmd := range mw.tileCmds {
switch cmd {
case cmdSave:
if err := mw.region.Flush(); err != nil {
mw.reportFail(fmt.Sprintf("Error while flushing cache: %s", err))
return
}
if err := mw.region.Region.Save(); err != nil {
mw.reportFail(fmt.Sprintf("Error while saving: %s", err))
return
}
case cmdFlushTiles:
if err := mw.region.Flush(); err != nil {
mw.reportFail(fmt.Sprintf("Error while flushing cache: %s", err))
return
}
gdk.ThreadsEnter()
for _, mt := range mw.maptiles {
mt.Unref()
}
for _, bt := range mw.biotiles {
bt.Unref()
}
gdk.ThreadsLeave()
mw.maptiles = make(map[XZPos]*gdk.Pixmap)
mw.biotiles = make(map[XZPos]*gdk.Pixmap)
mw.bioCache = make(map[XZPos][]mcmap.Biome)
case cmdUpdateTiles:
todelete := make(map[XZPos]bool)
startX := int(math.Floor(float64(mw.offX) / tileSize))
startZ := int(math.Floor(float64(mw.offZ) / tileSize))
endX := int(math.Ceil(float64(mw.offX+mw.w) / tileSize))
endZ := int(math.Ceil(float64(mw.offZ+mw.h) / tileSize))
for pos := range mw.maptiles {
if (pos.X < startX) || (pos.Z < startZ) || (pos.X >= endX) || (pos.Z >= endZ) {
todelete[pos] = true
}
}
gdk.ThreadsEnter()
for pos := range todelete {
if tile, ok := mw.maptiles[pos]; ok {
tile.Unref()
delete(mw.maptiles, pos)
}
if tile, ok := mw.biotiles[pos]; ok {
tile.Unref()
delete(mw.biotiles, pos)
}
if _, ok := mw.bioCache[pos]; ok {
delete(mw.bioCache, pos)
}
}
if mw.region != nil {
for z := startZ; z < endZ; z++ {
scanX:
for x := startX; x < endX; x++ {
pos := XZPos{x, z}
if _, ok := mw.biotiles[pos]; ok {
continue scanX
}
chunk, err := mw.region.Chunk(x, z)
switch err {
case nil:
case mcmap.NotAvailable:
continue scanX
default:
mw.reportFail(fmt.Sprintf("Could not get chunk %d, %d: %s", x, z, err))
return
}
mw.maptiles[pos], mw.biotiles[pos], mw.bioCache[pos] = renderTile(chunk)
chunk.MarkUnused()
gdk.ThreadsLeave()
mw.redraw <- true
gdk.ThreadsEnter()
}
}
}
gdk.ThreadsLeave()
}
}
}
func (mw *MapWidget) configure() {
if mw.pixmap != nil {
mw.pixmap.Unref()
}
alloc := mw.dArea.GetAllocation()
mw.w = alloc.Width
mw.h = alloc.Height
if !mw.isInit {
mw.offX = -(mw.w / 2)
mw.offZ = -(mw.h / 2)
mw.isInit = true
}
mw.pixmap = gdk.NewPixmap(mw.dArea.GetWindow().GetDrawable(), mw.w, mw.h, 24)
mw.pixmapGC = gdk.NewGC(mw.pixmap.GetDrawable())
mw.drawBg()
gdk.ThreadsLeave()
mw.redraw <- true
gdk.ThreadsEnter()
}
func (mw *MapWidget) drawBg() {
if mw.bg != nil {
mw.bg.Unref()
}
mw.bg = emptyPixmap(mw.w, mw.h, 24)
drawable := mw.bg.GetDrawable()
gc := gdk.NewGC(drawable)
w := int(math.Ceil(float64(mw.w) / 32))
h := int(math.Ceil(float64(mw.h) / 32))
for y := 0; y < h; y++ {
for x := 0; x < w; x++ {
if (x % 2) == (y % 2) {
gc.SetRgbFgColor(checker1)
} else {
gc.SetRgbFgColor(checker2)
}
drawable.DrawRectangle(gc, true, x*32, y*32, 32, 32)
}
}
}
func (mw *MapWidget) compose() {
drawable := mw.pixmap.GetDrawable()
gc := mw.pixmapGC
drawable.DrawDrawable(gc, mw.bg.GetDrawable(), 0, 0, 0, 0, -1, -1)
var tiles map[XZPos]*gdk.Pixmap
if mw.showBiomes {
tiles = mw.biotiles
} else {
tiles = mw.maptiles
}
for pos, tile := range tiles {
x := (pos.X * tileSize) - mw.offX
y := (pos.Z * tileSize) - mw.offZ
drawable.DrawDrawable(gc, tile.GetDrawable(), 0, 0, x, y, tileSize, tileSize)
}
}
func (mw *MapWidget) useTool(x, z int) {
gdk.ThreadsLeave()
defer gdk.ThreadsEnter()
if !mw.toolsEnabled {
return
}
if mw.tool.IsSlow() {
mw.toolsEnabled = false
mw.setBusy(true)
go func() {
mw.tool.Do(mw.bio, mw, x, z)
mw.setBusy(false)
mw.toolsEnabled = true
mw.redraw <- true
}()
} else {
mw.tool.Do(mw.bio, mw, x, z)
}
}
func (mw *MapWidget) movement(ctx *glib.CallbackContext) {
if mw.gdkwin == nil {
mw.gdkwin = mw.dArea.GetWindow()
}
arg := ctx.Args(0)
mev := *(**gdk.EventMotion)(unsafe.Pointer(&arg))
var mt gdk.ModifierType
if mev.IsHint != 0 {
mw.gdkwin.GetPointer(&(mw.mx2), &(mw.my2), &mt)
} else {
mw.mx2, mw.my2 = int(mev.X), int(mev.Y)
}
x := (mw.offX + mw.mx2) / zoom
z := (mw.offZ + mw.my2) / zoom
cx, cz, cbx, cbz := mcmap.BlockToChunk(x, z)
bio := mcmap.Biome(mcmap.BioUncalculated)
if bc, ok := mw.bioCache[XZPos{cx, cz}]; ok {
bio = bc[cbz*mcmap.ChunkSizeXZ+cbx]
}
mw.updateInfo(x, z, bio)
if mw.panning {
if (mw.mx1 != -1) && (mw.my1 != -1) {
mw.offX += mw.mx1 - mw.mx2
mw.offZ += mw.my1 - mw.my2
gdk.ThreadsLeave()
mw.redraw <- true
gdk.ThreadsEnter()
}
}
if mw.continueTool {
mw.useTool(x, z)
gdk.ThreadsLeave()
mw.redraw <- true
gdk.ThreadsEnter()
}
mw.mx1, mw.my1 = mw.mx2, mw.my2
}
func (mw *MapWidget) Save() {
mw.tileCmds <- cmdSave
}
func (mw *MapWidget) buttonChanged(ctx *glib.CallbackContext) {
arg := ctx.Args(0)
bev := *(**gdk.EventButton)(unsafe.Pointer(&arg))
switch gdk.EventType(bev.Type) {
case gdk.BUTTON_RELEASE:
if mw.panning {
mw.panning = false
gdk.ThreadsLeave()
mw.tileCmds <- cmdUpdateTiles
gdk.ThreadsEnter()
}
mw.continueTool = false
case gdk.BUTTON_PRESS:
switch bev.Button {
case 1:
if mw.region == nil {
return
}
x := (mw.offX + int(bev.X)) / zoom
z := (mw.offZ + int(bev.Y)) / zoom
mw.useTool(x, z)
gdk.ThreadsLeave()
mw.redraw <- true
gdk.ThreadsEnter()
if !mw.tool.SingleClick() {
mw.continueTool = true
}
case 2:
mw.panning = true
}
}
}
func (mw *MapWidget) expose() {
mw.dArea.GetWindow().GetDrawable().DrawDrawable(mw.pixmapGC, mw.pixmap.GetDrawable(), 0, 0, 0, 0, -1, -1)
}
func (mw *MapWidget) guiUpdater() {
for _ = range mw.redraw {
gdk.ThreadsEnter()
mw.compose()
mw.expose()
mw.dArea.GetWindow().Invalidate(nil, false)
gdk.ThreadsLeave()
}
}
func (mw *MapWidget) init() {
mw.redraw = make(chan bool)
mw.tileCmds = make(chan tileCmd)
mw.maptiles = make(map[XZPos]*gdk.Pixmap)
mw.biotiles = make(map[XZPos]*gdk.Pixmap)
mw.bioCache = make(map[XZPos][]mcmap.Biome)
mw.showBiomes = true
mw.mx1, mw.my1 = -1, -1
go mw.doTileCmds()
go mw.guiUpdater()
mw.dArea = gtk.NewDrawingArea()
mw.dArea.Connect("configure-event", mw.configure)
mw.dArea.Connect("expose-event", mw.expose)
mw.dArea.Connect("motion-notify-event", mw.movement)
mw.dArea.Connect("button-press-event", mw.buttonChanged)
mw.dArea.Connect("button-release-event", mw.buttonChanged)
mw.dArea.SetEvents(int(gdk.POINTER_MOTION_MASK | gdk.POINTER_MOTION_HINT_MASK | gdk.BUTTON_PRESS_MASK | gdk.BUTTON_RELEASE_MASK))
}
func (mw *MapWidget) setRegion(region *mcmap.Region) {
mw.tileCmds <- cmdFlushTiles
mw.region = NewCachedRegion(region, cacheSize)
mw.tileCmds <- cmdUpdateTiles
}
func (mw *MapWidget) GetBiomeAt(x, z int) (mcmap.Biome, bool) {
cx, cz, bx, bz := mcmap.BlockToChunk(x, z)
pos := XZPos{cx, cz}
if bc, ok := mw.bioCache[pos]; ok {
return bc[bz*mcmap.ChunkSizeXZ+bx], true
}
chunk, err := mw.region.Chunk(cx, cz)
switch err {
case nil:
case mcmap.NotAvailable:
return mcmap.BioUncalculated, false
default:
mw.reportFail(fmt.Sprintf("Error while getting chunk %d, %d: %s", cx, cz, err))
return mcmap.BioUncalculated, false
}
bc := make([]mcmap.Biome, mcmap.ChunkRectXZ)
i := 0
for z := 0; z < mcmap.ChunkSizeXZ; z++ {
for x := 0; x < mcmap.ChunkSizeXZ; x++ {
bc[i] = chunk.Biome(x, z)
i++
}
}
mw.bioCache[pos] = bc
return chunk.Biome(bx, bz), true
}
func (mw *MapWidget) SetBiomeAt(x, z int, bio mcmap.Biome) {
cx, cz, bx, bz := mcmap.BlockToChunk(x, z)
pos := XZPos{cx, cz}
chunk, err := mw.region.Chunk(cx, cz)
switch err {
case nil:
case mcmap.NotAvailable:
return
default:
mw.reportFail(fmt.Sprintf("Error while getting chunk %d, %d: %s", cx, cz, err))
return
}
chunk.SetBiome(bx, bz, bio)
var newcol *gdk.Color
if mw.fixSnowIce {
for y := chunk.Height(bx, bz); y >= 0; y-- {
if blk := chunk.Block(bx, y, bz); blk.ID != mcmap.BlkAir {
if coldBiome[bio] {
if (blk.ID == mcmap.BlkStationaryWater) || (blk.ID == mcmap.BlkWater) {
blk.ID = mcmap.BlkIce
newcol = blockColors[mcmap.BlkIce]
} else if blockCanSnowIn[blk.ID] {
if yFix := y + 1; yFix < mcmap.ChunkSizeY {
blkFix := chunk.Block(bx, yFix, bz)
blkFix.ID = mcmap.BlkSnow
blkFix.Data = 0x0
newcol = blockColors[mcmap.BlkSnow]
}
}
} else {
if blk.ID == mcmap.BlkIce {
blk.ID = mcmap.BlkStationaryWater
blk.Data = 0x0
newcol = blockColors[mcmap.BlkStationaryWater]
} else if blk.ID == mcmap.BlkSnow {
blk.ID = mcmap.BlkAir
for y2 := y - 1; y2 >= 0; y2-- {
if col, ok := blockColors[chunk.Block(bx, y2, bz).ID]; ok {
newcol = col
break
}
}
}
}
break
}
}
}
chunk.MarkModified()
// Update cache
if bc, ok := mw.bioCache[pos]; ok {
bc[bz*mcmap.ChunkSizeXZ+bx] = bio
}
// Update tile
if biotile, ok := mw.biotiles[pos]; ok {
gdk.ThreadsEnter()
drawable := biotile.GetDrawable()
gc := gdk.NewGC(drawable)
gc.SetRgbFgColor(bioColors[bio])
drawable.DrawRectangle(gc, true, bx*zoom, bz*zoom, zoom, zoom)
if newcol != nil {
drawable = mw.maptiles[pos].GetDrawable()
gc = gdk.NewGC(drawable)
gc.SetRgbFgColor(newcol)
drawable.DrawRectangle(gc, true, bx*zoom, bz*zoom, zoom, zoom)
}
gdk.ThreadsLeave()
}
}
func NewMapWidget(reportFail func(msg string), updateInfo func(x, z int, bio mcmap.Biome), setBusy func(bool)) *MapWidget {
mw := &MapWidget{reportFail: reportFail, updateInfo: updateInfo, setBusy: setBusy, toolsEnabled: true}
mw.init()
return mw
}
|
