class BBPainter {
constructor() {
this.color = 0x0000ffff
this.currentPixel = [-1, -1]
this.brushChanges = false
this.current = {/*texture, image*/}
this.background_color = new ColorPicker({
id: 'background_color',
label: true,
private: true,
})
}
edit(texture, cb, options) {
if (!options.noUndo) {
Undo.initEdit({textures: [texture], bitmap: true})
}
if (options.use_cache &&
texture === Painter.current.texture &&
typeof Painter.current.image === 'object'
) {
cb(Painter.current.image)
Painter.current.image.getBase64(Jimp.MIME_PNG, function(a, dataUrl){
texture.source = dataUrl
texture.updateMaterial()
main_uv.loadData()
if (open_dialog === 'uv_dialog') {
for (var editor in uv_dialog.editors) {
if (uv_dialog.editors.hasOwnProperty(editor)) {
uv_dialog.editors[editor].loadData()
}
}
}
if (!options.noUndo) {
Undo.finishEdit('edit_texture')
}
})
} else {
Painter.current.texture = texture
Jimp.read(Buffer.from(texture.source.replace('data:image/png;base64,', ''), 'base64')).then(function(image) {
cb(image)
Painter.current.image = image
image.getBase64(Jimp.MIME_PNG, function(a, dataUrl){
texture.source = dataUrl
texture.updateMaterial()
main_uv.loadData()
if (!options.noUndo) {
Undo.finishEdit('edit_texture')
}
})
})
}
}
startBrushCanvas(data, event) {
Painter.current.x = Painter.current.y = 0
var texture = getTextureById(data.cube.faces[data.face].texture)
if (!texture) {
Blockbench.showQuickMessage('message.untextured')
}
if (texture) {
var x = Math.floor( data.intersects[0].uv.x * texture.img.naturalWidth )
var y = Math.floor( (1-data.intersects[0].uv.y) * texture.img.naturalHeight )
Painter.startBrush(texture, x, y, data.cube.faces[data.face].uv, event)
}
if (event.altKey === false && texture) {
document.addEventListener('mousemove', Painter.moveBrushCanvas, false );
document.addEventListener('mouseup', Painter.stopBrushCanvas, false );
}
}
moveBrushCanvas(force) {
var data = Canvas.raycast()
if (data) {
var texture = getTextureById(data.cube.faces[data.face].texture)
if (texture) {
var x, y, new_face;
var end_x = x = Math.floor( data.intersects[0].uv.x * texture.img.naturalWidth )
var end_y = y = Math.floor( (1-data.intersects[0].uv.y) * texture.img.naturalHeight )
if (x === Painter.current.x && y === Painter.current.y) {
//return
}
if (Painter.current.face !== data.face || Painter.current.cube !== data.cube) {
Painter.current.x = x
Painter.current.y = y
Painter.current.face = data.face
Painter.current.cube = data.cube
new_face = true
}
var diff = {
x: x - (Painter.current.x||x),
y: y - (Painter.current.y||y),
}
var length = Math.sqrt(diff.x*diff.x + diff.y*diff.y)
if (new_face && !length) {
length = 1
}
var i = 0;
while (i < length) {
x = end_x - diff.x / length * i
y = end_y - diff.y / length * i
Painter.useBrush(texture, x, y, data.cube.faces[data.face].uv)
i++;
}
Painter.current.x = end_x
Painter.current.y = end_y
}
}
}
stopBrushCanvas() {
document.removeEventListener( 'mousemove', Painter.moveBrushCanvas, false );
document.removeEventListener( 'mouseup', Painter.stopBrushCanvas, false );
Painter.stopBrush()
}
startBrush(texture, x, y, uvTag, event) {
if (event.altKey === false) {
Undo.initEdit({textures: [texture], bitmap: true})
Painter.brushChanges = false
Painter.useBrush(texture, x, y, uvTag)
Painter.current.x = x;
Painter.current.y = y;
} else {
Painter.colorPicker(texture, x, y)
}
}
colorPicker(texture, x, y) {
function getPxColor(image) {
var c = image.getPixelColor(x,y)
c = tinycolor(Jimp.intToRGBA(c))
BarItems.brush_color.set(c)
}
if (texture.mode == 'bitmap') {
Jimp.read(Buffer.from(texture.source.replace('data:image/png;base64,', ''), 'base64')).then(getPxColor)
} else {
Jimp.read(texture.source).then(getPxColor)
}
}
useBrush(texture, x, y, uvTag) {
if ((Painter.currentPixel[0] !== x || Painter.currentPixel[1] !== y)) {
Painter.currentPixel = [x, y]
Painter.brushChanges = true
texture.edit(function(image) {
var color = BarItems.brush_color.get().toRgb()
var size = BarItems.slider_brush_size.get();
var softness = BarItems.slider_brush_softness.get()/100;
var b_opacity = BarItems.slider_brush_opacity.get()/100;
var brush_mode = BarItems.brush_mode.get()
if (uvTag) {
Painter.editing_area = [
uvTag[0] / 16 * texture.img.naturalWidth,
uvTag[1] / 16 * texture.img.naturalHeight,
uvTag[2] / 16 * texture.img.naturalWidth,
uvTag[3] / 16 * texture.img.naturalHeight
]
} else {
Painter.editing_area = [0, 0, texture.red, texture.red]
}
if (Painter.editing_area[0] > Painter.editing_area[2]) {
var sw = Painter.editing_area[2]
Painter.editing_area[2] = Painter.editing_area[0]
Painter.editing_area[0] = sw
}
if (Painter.editing_area[1] > Painter.editing_area[3]) {
var sw = Painter.editing_area[3]
Painter.editing_area[3] = Painter.editing_area[1]
Painter.editing_area[1] = sw
}
if (brush_mode === 'brush') {
Painter.editCircle(image, x, y, size, softness, function(pxcolor, opacity) {
var result_color = Painter.combineColors(pxcolor, color, opacity*b_opacity);
return result_color;
})
} else if (brush_mode === 'noise') {
Painter.editCircle(image, x, y, size, softness, function(pxcolor, opacity) {
var result_color = Painter.combineColors(pxcolor, color, opacity*b_opacity*Math.random());
return result_color;
})
} else if (brush_mode === 'eraser') {
Painter.editCircle(image, x, y, size, softness, function(pxcolor, opacity) {
return {r: pxcolor.r, g: pxcolor.g, b: pxcolor.b, a: pxcolor.a*(1-b_opacity*opacity)};
})
} else if (brush_mode === 'fill') {
Painter.editFace(image, x, y, function(pxcolor) {
return Painter.combineColors(pxcolor, color, 1)
})
}
Painter.editing_area = undefined
}, {noUndo: true, use_cache: true})
}
}
stopBrush() {
if (Painter.brushChanges) {
Undo.finishEdit('paint')
Painter.brushChanges = false
}
Painter.currentPixel = [-1, -1]
}
combineColors(base, added, opacity) {
if (typeof base === 'number') base = Jimp.intToRGBA(base)
if (typeof added === 'number') added = Jimp.intToRGBA(added)
var original_a = added.a
added.a = (added.a)*opacity
var mix = {};
mix.a = limitNumber(1 - (1 - added.a) * (1 - base.a), 0, 1); // alpha
mix.r = Math.round((added.r * added.a / mix.a) + (base.r * base.a * (1 - added.a) / mix.a)); // red
mix.g = Math.round((added.g * added.a / mix.a) + (base.g * base.a * (1 - added.a) / mix.a)); // green
mix.b = Math.round((added.b * added.a / mix.a) + (base.b * base.a * (1 - added.a) / mix.a)); // blue
added.a = original_a
return mix;
}
drawRectangle(image, color, rect) {
var color = Jimp.intToRGBA(color)
image.scan(rect.x, rect.y, rect.w, rect.h, function (x, y, idx) {
this.bitmap.data[idx + 0] = color.r
this.bitmap.data[idx + 1] = color.g
this.bitmap.data[idx + 2] = color.b
this.bitmap.data[idx + 3] = color.a
});
}
editFace(image, x, y, editPx) {
var x = Math.floor(Painter.editing_area[0]-0.5)
var y = Math.floor(Painter.editing_area[1]-0.5)
var width = Math.floor(Painter.editing_area[2]+1.5) - Math.floor(Painter.editing_area[0])
var height = Math.floor(Painter.editing_area[3]+1.5) - Math.floor(Painter.editing_area[1])
image.scan(x, y, width, height, function (px, py, idx) {
if (px >= this.bitmap.width ||
px < 0 ||
py >= this.bitmap.height ||
py < 0
) {
return;
}
if (
typeof Painter.editing_area === 'object' &&
(
px+0.2 < Painter.editing_area[0] ||
py+0.2 < Painter.editing_area[1] ||
px+0.2 >= Painter.editing_area[2] ||
py+0.2 >= Painter.editing_area[3]
)
) {
return;
}
var result_color = editPx({
r:this.bitmap.data[idx+0],
g:this.bitmap.data[idx+1],
b:this.bitmap.data[idx+2],
a:this.bitmap.data[idx+3]/255
})
this.bitmap.data[idx+0] = result_color.r
this.bitmap.data[idx+1] = result_color.g
this.bitmap.data[idx+2] = result_color.b
this.bitmap.data[idx+3] = result_color.a*255
});
}
editCircle(image, x, y, r, s, editPx) {
r = Math.round(r)
image.scan(x-r-1, y-r-1, 2*r+3, 2*r+3, function (px, py, idx) {
if (px >= this.bitmap.width ||
px < 0 ||
py >= this.bitmap.height ||
py < 0
) {
return;
}
if (
settings.paint_side_restrict.value &&
Painter.editing_area &&
typeof Painter.editing_area === 'object' &&
(
px+0.2 < Painter.editing_area[0] ||
py+0.2 < Painter.editing_area[1] ||
px+0.2 >= Painter.editing_area[2] ||
py+0.2 >= Painter.editing_area[3]
)
) {
return;
}
px -= x;
py -= y;
var distance = Math.sqrt(px*px + py*py)
if (s*r != 0) {
var pos_on_gradient = (distance-(1-s)*r) / (s*r)
} else {
var pos_on_gradient = Math.floor(distance/r)
}
var opacity = limitNumber(1-pos_on_gradient, 0, 1)
if (opacity > 0) {
var result_color = editPx({
r:this.bitmap.data[idx+0],
g:this.bitmap.data[idx+1],
b:this.bitmap.data[idx+2],
a:this.bitmap.data[idx+3]/255
}, opacity)
this.bitmap.data[idx+0] = result_color.r
this.bitmap.data[idx+1] = result_color.g
this.bitmap.data[idx+2] = result_color.b
this.bitmap.data[idx+3] = result_color.a*255
}
});
}
drawRotatedRectangle(image, color, rect, cx, cy, angle) {
var color = Jimp.intToRGBA(color)
var sin = Math.sin(-Math.degToRad(angle))
var cos = Math.cos(-Math.degToRad(angle))
function rotatePoint(px, py) {
px -= cx
py -= cy
return {
x: (px * cos - py * sin) + cx,
y: (px * sin + py * cos) + cy
}
}
image.scan(0, 0, 48, 48, function (px, py, idx) {
var rotated = rotatePoint(px, py)
if (
rotated.x > rect.x-1 && rotated.x < rect.x + rect.w+2 &&
rotated.y > rect.y-1 && rotated.y < rect.y + rect.h+2
) {
var opacity = limitNumber(rect.x - rotated.x, 0, 1) +
limitNumber(rotated.x - (rect.x + rect.w), 0, 1) +
limitNumber(rect.y - rotated.y, 0, 1) +
limitNumber(rotated.y - (rect.y + rect.h), 0, 1)
opacity = 1-limitNumber(opacity*1.61, 0, 1)
if (this.bitmap.data[idx + 3]) {
opacity = 1
}
this.bitmap.data[idx + 0] = color.r
this.bitmap.data[idx + 1] = color.g
this.bitmap.data[idx + 2] = color.b
this.bitmap.data[idx + 3] = color.a*opacity
}
})
}
addBitmapDialog() {
var lines = []
lines.push({label: 'dialog.create_texture.name', node: ''})
lines.push({label: 'dialog.create_texture.folder', node: ''})
if (elements.length > 0) {
lines.push({label: 'dialog.create_texture.template', node: ''})
}
lines.push({widget: Painter.background_color})
lines.push({label: 'dialog.create_texture.resolution', node: ''})
var dialog = new Dialog({
id: 'add_bitmap',
title: tl('dialog.create_texture.title'),
draggable: true,
lines: lines,
onConfirm: function() {
Painter.addBitmapFromDialog()
dialog.hide()
}
})
dialog.show()
$('.dialog#add_bitmap input#bitmap_doTemplate').click(function() {
if (Painter.background_color.get().toHex8() === 'ffffffff') {
Painter.background_color.set('#00000000')
}
})
}
testSetup() {
Painter.addBitmap()
main_uv.setFace('up')
addCube().extend({to:[16,1,16]})
elements[0].faces.up.uv = [0,0,16,16]
textures[0].apply()
Canvas.updateSelected()
updateSelection()
}
addBitmapFromDialog() {
var color = Painter.background_color.get()
Painter.addBitmap({
res: limitNumber(parseInt($('.dialog#add_bitmap input#bitmap_resolution').val()), 1, 2048),
color: color,
name: $('.dialog#add_bitmap input#bitmap_name').val(),
folder: $('.dialog#add_bitmap input#bitmap_folder').val(),
particle: 'auto',
entity_template: $('.dialog#add_bitmap input#bitmap_doTemplate').is(':checked')
})
}
addBitmap(options, after) {
if (typeof options !== 'object') {
options = {}
}
if (isNaN(options.res) || !options.res) {
options.res = 16
}
if (options.color === undefined) {
options.color = new tinycolor().toRgb()
}
var texture = new Texture({
mode: 'bitmap',
keep_size: true,
res: options.res,
name: options.name ? options.name : 'texture',
folder: options.folder ? options.folder : 'blocks'
}).add()
function makeTexture(dataUrl) {
texture.fromDataURL(dataUrl)
switch (options.particle) {
case 'auto':
texture.fillParticle();
break;
case true:
texture.enableParticle();
break;
}
if (typeof after === 'function') {
after(texture)
}
return texture;
}
if (options.entity_template === true) {
Painter.generateTemplate(options.res, options.color, makeTexture)
} else {
Painter.generateBlank(options.res, options.res, options.color, makeTexture)
}
}
generateBlank(height, width, color, cb) {
new Jimp(height, width, color.toInteger(), function(err, image) {
image.getBase64("image/png", function(a, dataUrl){
cb(dataUrl)
})
})
}
generateTemplate(res, background_color, cb) {
function cubeTempl(obj) {
this.x = obj.size(0, true)
this.y = obj.size(1, true)
this.z = obj.size(2, true)
this.obj = obj
this.height = this.z + this.y
this.width = 2* (this.x + this.z)
return this;
}
var res_multiple = (res ? res : 16) / 16
var bone_temps = []
var max_x_pos = 0
var line_y_pos = 0;
var valid_cubes = 0;
var lines = [[]]
var line_length = Math.sqrt(elements.length/2)
var o = 0
var cubes = Blockbench.entity_mode ? elements.slice() : selected.slice()
var avg_size = 0;
var i = cubes.length-1
while (i >= 0) {
let obj = cubes[i]
if (obj.visibility === false) {
cubes.splice(i,1)
} else {
obj.template_size = (obj.size(2, true) + obj.size(1, true)) + (obj.size(2, true) + obj.size(0, true))*2
//obj.template_size = (obj.size(2, true) + obj.size(0, true))
avg_size += obj.template_size
}
i--;
}
avg_size /= cubes.length
cubes.sort(function(a,b) {
return b.template_size - a.template_size
})
i = 0
var ox = 0
cubes.forEach(function(obj) {
if (ox >= line_length) {
o = 0
ox = 0
i++
lines[i] = []
}
lines[i][o] = obj
o++;
ox += obj.template_size/avg_size
})
lines.forEach(function(b) {
//Data
var temps = []
b.forEach(function(s, si) {
if (s.type === 'cube') {
temps.push(new cubeTempl(s))
valid_cubes++;
}
})
//Defaults
//Find the maximum height of the line
var max_height = 0
temps.forEach(function(t) {
max_height = Math.max(max_height, t.height)
})
var x_pos = 0
var y_pos = 0 //Y Position of current area relative to this bone
var filled_x_pos = 0;
//Algorithm
temps.forEach(function(t) {
if (y_pos > 0 && (y_pos + t.height) <= max_height) {
//same column
t.posx = x_pos
t.posy = y_pos + line_y_pos
filled_x_pos = Math.max(filled_x_pos, x_pos+t.width)
y_pos += t.height
} else {
//new column
x_pos = filled_x_pos
y_pos = t.height
t.posx = x_pos
t.posy = line_y_pos
filled_x_pos = Math.max(filled_x_pos, x_pos+t.width)
}
//size of widest bone
max_x_pos = Math.max(max_x_pos, filled_x_pos)
})
line_y_pos += max_height
bone_temps.push(temps)
})
//Cancel if no cubes
if (valid_cubes == 0) {
Blockbench.showMessage('No valid cubes', 'center')
return;
}
function getNextPower(num, min) {
var i = min ? min : 2
while (i < num && i < 4000) {
i *= 2
}
return i;
}
//Size
var max_size = Math.max(max_x_pos, line_y_pos)
max_size = Math.ceil(max_size/16)*16//getNextPower(max_size, 16)
if (background_color.getAlpha() != 0) {
background_color = background_color.toInteger()
}
function drawTemplateRectangle(image, border_color, color, coords) {
if (typeof background_color === 'number') {
border_color = background_color
color = undefined
}
Painter.drawRectangle(image, border_color, {
x: coords.x*res_multiple,
y: coords.y*res_multiple,
w: coords.w*res_multiple,
h: coords.h*res_multiple
})
if (coords.w <= 2 || coords.h <= 2 || !color) return;
Painter.drawRectangle(image, color, {
x: coords.x * res_multiple + 1,
y: coords.y * res_multiple + 1,
w: coords.w * res_multiple - 2,
h: coords.h * res_multiple - 2
})
}
//Drawing
new Jimp(max_size*res_multiple, max_size*res_multiple, 0, function(err, image) {
bone_temps.forEach(function(bt) {
bt.forEach(function(t) {
drawTemplateRectangle(image, 0xb4d4e1ff, 0xecf8fdff, {x: t.posx+t.z, y: t.posy, w: t.x, h: t.z})// up
drawTemplateRectangle(image, 0x536174ff, 0x6e788cff, {x: t.posx+t.z+t.x, y: t.posy, w: t.x, h: t.z})// down
drawTemplateRectangle(image, 0x43e88dff, 0x7BFFA3ff, {x: t.posx, y: t.posy+t.z, w: t.z, h: t.y})// east
drawTemplateRectangle(image, 0x5bbcf4ff, 0x7BD4FFff, {x: t.posx+t.z, y: t.posy+t.z, w: t.x, h: t.y})// north
drawTemplateRectangle(image, 0xf48686ff, 0xFFA7A4ff, {x: t.posx+t.z+t.x, y: t.posy+t.z, w: t.z, h: t.y})// west
drawTemplateRectangle(image, 0xf8dd72ff, 0xFFF899ff, {x: t.posx+t.z+t.x+t.z,y: t.posy+t.z, w: t.x, h: t.y})// south
let obj = t.obj
obj.uv_offset[0] = t.posx
obj.uv_offset[1] = t.posy
if (!Blockbench.entity_mode) {
var size = obj.size(undefined, true)
var face_list = [
{face: 'north', fIndex: 10, from: [size[2], size[2]], size: [size[0], size[1]]},
{face: 'east', fIndex: 0, from: [0, size[2]], size: [size[2], size[1]]},
{face: 'south', fIndex: 8, from: [size[2]*2 + size[0], size[2]], size: [size[0], size[1]]},
{face: 'west', fIndex: 2, from: [size[2] + size[0], size[2]], size: [size[2], size[1]]},
{face: 'up', fIndex: 4, from: [size[2]+size[0], size[2]], size: [-size[0], -size[2]]},
{face: 'down', fIndex: 6, from: [size[2]+size[0]*2, 0], size: [-size[0], size[2]]}
]
face_list.forEach(function(f) {
obj.faces[f.face].uv[0] = (f.from[0] + Math.floor(obj.uv_offset[0]+0.0000001)) / max_size * 16,
obj.faces[f.face].uv[1] = (f.from[1] + Math.floor(obj.uv_offset[1]+0.0000001)) / max_size * 16,
obj.faces[f.face].uv[2] = (f.from[0] + f.size[0] + Math.floor(obj.uv_offset[0]+0.0000001)) / max_size * 16,
obj.faces[f.face].uv[3] = (f.from[1] + f.size[1] + Math.floor(obj.uv_offset[1]+0.0000001)) / max_size * 16
})
}
})
})
image.getBase64("image/png", function(a, dataUrl){
var texture = cb(dataUrl)
entityMode.setResolution(max_size, max_size, true)
if (texture && !Blockbench.entity_mode) {
bone_temps.forEach(function(bt) {
bt.forEach(function(t) {
t.obj.applyTexture(texture, true)
t.obj.autouv = 0
})
})
}
})
})
}
}
var Painter = new BBPainter()
BARS.defineActions(function() {
new BarSelect({
id: 'vertex_snap_mode',
options: {
move: true,
scale: true
}
})
new ColorPicker({
id: 'brush_color',
palette: true
})
new BarSelect({
id: 'brush_mode',
options: {
brush: true,
noise: true,
eraser: true,
fill: true
}
})
new NumSlider({
id: 'slider_brush_size',
settings: {
min: 1, max: 20, step: 1, default: 1,
}
})
new NumSlider({
id: 'slider_brush_softness',
settings: {
min: 0, max: 100, default: 0,
interval: function(event) {
if (event.shiftKey && event.ctrlKey) {
return 0.25;
} else if (event.shiftKey) {
return 5;
} else if (event.ctrlKey) {
return 1;
} else {
return 10;
}
}
}
})
new NumSlider({
id: 'slider_brush_opacity',
settings: {
min: 0, max: 100, default: 100,
interval: function(event) {
if (event.shiftKey && event.ctrlKey) {
return 0.25;
} else if (event.shiftKey) {
return 5;
} else if (event.ctrlKey) {
return 1;
} else {
return 10;
}
}
}
})
})