Kivy 自定义着色器触摸事件
问题描述
我在我的游戏中使用自定义着色器,我必须因为性能.现在我想将触摸事件绑定到我的粒子/不明飞行物,以便我可以决定当有人触摸它们时该怎么做,但我不知道如何计算它们的宽度和高度.我目前能够判断触摸事件发生的位置,但我的 collide_point
函数总是返回 False
因为我没有正确的 Width
和 <我的游戏粒子的代码>高度代码>.collide_point
函数需要粒子的right
和top
,粒子的right和top需要粒子的width
和height代码> 工作.在文档中说
Am using custom shader on my game, and i must because of performance. Now i am at the point where i want to bind touch events to my particles/Ufo so that i can decide what to do when someone touches them, but i don't know how i can calculate their width and height. I am currently able to tell where a touch event happened but my collide_point
function always return False
because i don't have the correct Width
and Height
of my game particle's. collide_point
function require particle's right
and top
and particle's right and top requires particle's width
and height
to work. In the documentation it is said that
width
和 height
属性受布局逻辑影响
the
width
and theheight
property is subject to layout logic
但我没有使用任何 Layout
,而是使用 Widget
.如何计算我的游戏粒子的宽度和高度.下面是代码
but am not using any Layout
, am using Widget
instead. How can i calculate my game particle's width and height. Below is the code
from __future__ import division
from collections import namedtuple
import json
import math
import random
from kivy import platform
from kivy.app import App
from kivy.base import EventLoop
from kivy.clock import Clock
from kivy.core.image import Image
from kivy.core.window import Window
from kivy.graphics import Mesh
from kivy.graphics.instructions import RenderContext
from kivy.uix.widget import Widget
from kivy.utils import get_color_from_hex
import base64
UVMapping = namedtuple('UVMapping', 'u0 v0 u1 v1 su sv')
GLSL = """
---vertex
$HEADER$
attribute vec2 vCenter;
attribute float vScale;
void main(void)
{
tex_coord0 = vTexCoords0;
mat4 move_mat = mat4
(1.0, 0.0, 0.0, vCenter.x,
0.0, 1.0, 0.0, vCenter.y,
0.0, 0.0, 1.0, 0.0,
0.0, 0.0, 0.0, 1.0);
vec4 pos = vec4(vPosition.xy * vScale, 0.0, 1.0)
* move_mat;
gl_Position = projection_mat * modelview_mat * pos;
}
---fragment
$HEADER$
void main(void)
{
gl_FragColor = texture2D(texture0, tex_coord0);
}
"""
with open("game.glsl", "wb") as glslc:
glslc.write(GLSL)
def load_atlas():
atlas = json.loads('''{"game-0.png": {"Elien": [2, 26, 100, 100]}}''')
tex_name, mapping = atlas.popitem()
data = '''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'''
with open(tex_name, "wb") as co:
co.write(base64.b64decode(data))
tex = Image(tex_name).texture
tex_width, tex_height = tex.size
uvmap = {}
for name, val in mapping.items():
x0, y0, w, h = val
x1, y1 = x0 + w, y0 + h
uvmap[name] = UVMapping(
x0 / tex_width, 1 - y1 / tex_height,
x1 / tex_width, 1 - y0 / tex_height,
0.5 * w, 0.5 * h)
return tex, uvmap
class Particle:
x = 0
y = 0
size = 1
def __init__(self, parent, i):
self.parent = parent
self.vsize = parent.vsize
self.base_i = 4 * i * self.vsize
self.reset(created=True)
def update(self):
for i in range(self.base_i,
self.base_i + 4 * self.vsize,
self.vsize):
self.parent.vertices[i:i + 3] = (
self.x, self.y, self.size)
def reset(self, created=False):
raise NotImplementedError()
def advance(self, nap):
raise NotImplementedError()
class GameScreen(Widget):
indices = []
vertices = []
particles = []
def __init__(self, **kwargs):
Widget.__init__(self, **kwargs)
self.canvas = RenderContext(use_parent_projection=True)
self.canvas.shader.source = "game.glsl"
self.vfmt = (
(b'vCenter', 2, 'float'),
(b'vScale', 1, 'float'),
(b'vPosition', 2, 'float'),
(b'vTexCoords0', 2, 'float'),
)
self.vsize = sum(attr[1] for attr in self.vfmt)
self.texture, self.uvmap = load_atlas()
def on_touch_down(self, touch):
for w in self.particles:
if w.collide_point(*touch.pos):
w.reset() #Not Working
return super(GameScreen, self).on_touch_down(touch)
def on_touch_move(self, touch):
for w in self.particles:
if w.collide_point(*touch.pos):
w.reset() #Not Working
return super(GameScreen, self).on_touch_move(touch)
def make_particles(self, Ap, num):
count = len(self.particles)
uv = self.uvmap[Ap.tex_name]
for i in range(count, count + num):
j = 4 * i
self.indices.extend((
j, j + 1, j + 2, j + 2, j + 3, j))
self.vertices.extend((
0, 0, 1, -uv.su, -uv.sv, uv.u0, uv.v1,
0, 0, 1, uv.su, -uv.sv, uv.u1, uv.v1,
0, 0, 1, uv.su, uv.sv, uv.u1, uv.v0,
0, 0, 1, -uv.su, uv.sv, uv.u0, uv.v0,
))
p = Ap(self, i)
self.particles.append(p)
def update_glsl(self, nap):
for p in self.particles:
p.advance(nap)
p.update()
self.canvas.clear()
with self.canvas:
Mesh(fmt=self.vfmt, mode='triangles',
indices=self.indices, vertices=self.vertices,
texture=self.texture)
class Ufo(Particle):
plane = 2.0
tex_name = 'Elien'
texture_size = 129
right = top = 129
def reset(self, created=False):
self.plane = random.uniform(2.0, 2.8)
self.x = random.randint(15, self.parent.right-15)
self.y = self.parent.top+random.randint(100, 2500)
self.size = random.uniform(0.5, 1.0) #every particle must have a random size
self.top = self.size * self.texture_size
self.right = self.size * self.texture_size
def collide_point(self, x, y):
'''Check if a point (x, y) is inside the Ufo's axis aligned bounding box.'''
with open('TouchFeedback.txt', 'wb') as c:
c.write(str(x)+', '+str(y))
return self.x <= x <= self.right and self.y <= y <= self.top
def advance(self, nap):
self.y -= 100 * self.plane * nap
if self.y < 0:
self.reset()
class Game(GameScreen):
def initialize(self):
self.make_particles(Ufo, 20)
def update_glsl(self, nap):
GameScreen.update_glsl(self, nap)
class GameApp(App):
def build(self):
EventLoop.ensure_window()
return Game()
def on_start(self):
self.root.initialize()
Clock.schedule_interval(self.root.update_glsl, 60 ** -1)
if __name__ == '__main__':
Window.clearcolor = get_color_from_hex('111110')
GameApp().run()
解决方案
我认为你没有计算/更新 Ufo 的
对象.此外,由于您的 top
和 right
属性GL
代码将 (x,y)
视为您的圆心,但 Kivy
认为 (x,y)
要成为对象的左下角,您需要牢记这一点.为了正确计算 collide_point()
,我在您的 Ufo
中添加了 left
和 bottom
属性,并使用这些属性来计算碰撞.以下是包含这些更改的代码的更新版本:
I think you are not calculating/updating your top
and right
properties of your Ufo
objects. Also, since your GL
code considers (x,y)
to be the center of your circle, but Kivy
considers (x,y)
to be the lower left corner of an object, you need to keep that in mind. In order to correctly calculate collide_point()
, I have added left
and bottom
properties to your Ufo
, and use those properties to calculate collisions. Here is an updated version of your code with those changes:
from __future__ import division
import kivy
from kivy.config import Config
from kivy.graphics.context_instructions import Color
from kivy.graphics.vertex_instructions import Rectangle
from kivy.lang import Builder
Config.set('modules', 'monitor', '')
from collections import namedtuple
import json
import math
import random
from kivy import platform
from kivy.app import App
from kivy.base import EventLoop
from kivy.clock import Clock
from kivy.core.image import Image
from kivy.core.window import Window
from kivy.event import EventDispatcher
from kivy.graphics import Mesh
from kivy.graphics.instructions import RenderContext
from kivy.properties import NumericProperty
from kivy.uix.widget import Widget
from kivy.utils import get_color_from_hex
import base64
UVMapping = namedtuple('UVMapping', 'u0 v0 u1 v1 su sv')
GLSL = """
---vertex
$HEADER$
attribute vec2 vCenter;
attribute float vScale;
void main(void)
{
tex_coord0 = vTexCoords0;
mat4 move_mat = mat4
(1.0, 0.0, 0.0, vCenter.x,
0.0, 1.0, 0.0, vCenter.y,
0.0, 0.0, 1.0, 0.0,
0.0, 0.0, 0.0, 1.0);
vec4 pos = vec4(vPosition.xy * vScale, 0.0, 1.0)
* move_mat;
gl_Position = projection_mat * modelview_mat * pos;
}
---fragment
$HEADER$
void main(void)
{
gl_FragColor = texture2D(texture0, tex_coord0);
}
"""
with open("game.glsl", "wb") as glslc:
glslc.write(GLSL.encode())
def load_atlas():
atlas = json.loads('''{"game-0.png": {"Elien": [2, 26, 100, 100]}}''')
tex_name, mapping = atlas.popitem()
data = '''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'''
with open(tex_name, "wb") as co:
co.write(base64.b64decode(data))
tex = Image(tex_name).texture
tex_width, tex_height = tex.size
uvmap = {}
for name, val in mapping.items():
x0, y0, w, h = val
x1, y1 = x0 + w, y0 + h
uvmap[name] = UVMapping(
x0 / tex_width, 1 - y1 / tex_height,
x1 / tex_width, 1 - y0 / tex_height,
0.5 * w, 0.5 * h)
return tex, uvmap
class Particle(EventDispatcher):
# x = 0
# y = 0
x = NumericProperty(0)
y = NumericProperty(0)
size = 1
def __init__(self, parent, i):
super(Particle, self).__init__()
self.parent = parent
self.vsize = parent.vsize
self.base_i = 4 * i * self.vsize
self.reset(created=True)
def update(self):
for i in range(self.base_i,
self.base_i + 4 * self.vsize,
self.vsize):
self.parent.vertices[i:i + 3] = (
self.x, self.y, self.size)
def reset(self, created=False):
raise NotImplementedError()
def advance(self, nap):
raise NotImplementedError()
class GameScreen(Widget):
indices = []
vertices = []
particles = []
def __init__(self, **kwargs):
Widget.__init__(self, **kwargs)
self.canvas = RenderContext(use_parent_projection=True)
self.canvas.shader.source = "game.glsl"
self.vfmt = (
(b'vCenter', 2, 'float'),
(b'vScale', 1, 'float'),
(b'vPosition', 2, 'float'),
(b'vTexCoords0', 2, 'float'),
)
self.vsize = sum(attr[1] for attr in self.vfmt)
self.texture, self.uvmap = load_atlas()
def on_touch_down(self, touch):
for w in self.particles:
if w.collide_point(*touch.pos):
w.reset() #Not Working
return super(GameScreen, self).on_touch_down(touch)
def on_touch_move(self, touch):
for w in self.particles:
if w.collide_point(*touch.pos):
w.reset() #Not Working
return super(GameScreen, self).on_touch_move(touch)
def make_particles(self, Ap, num):
count = len(self.particles)
uv = self.uvmap[Ap.tex_name]
for i in range(count, count + num):
j = 4 * i
self.indices.extend((
j, j + 1, j + 2, j + 2, j + 3, j))
self.vertices.extend((
0, 0, 1, -uv.su, -uv.sv, uv.u0, uv.v1,
0, 0, 1, uv.su, -uv.sv, uv.u1, uv.v1,
0, 0, 1, uv.su, uv.sv, uv.u1, uv.v0,
0, 0, 1, -uv.su, uv.sv, uv.u0, uv.v0,
))
p = Ap(self, i)
self.particles.append(p)
def update_glsl(self, nap):
for p in self.particles:
p.advance(nap)
p.update()
self.canvas.clear()
self.canvas.before.clear() # temporary
with self.canvas.before: # temporary code block
for p in self.particles:
Rectangle(pos=(p.left, p.bottom), size=(p.size*p.texture_size, p.size*p.texture_size))
with self.canvas:
Mesh(fmt=self.vfmt, mode='triangles',
indices=self.indices, vertices=self.vertices,
texture=self.texture)
class Ufo(Particle):
plane = 2.0
tex_name = 'Elien'
texture_size = 129
right = NumericProperty(129)
top = NumericProperty(129)
left = NumericProperty(0)
bottom = NumericProperty(0)
def reset(self, created=False):
self.plane = random.uniform(2.0, 2.8)
self.size = random.uniform(0.5, 1.0) #every particle must have a random size
self.x = random.randint(15, self.parent.right-15)
self.y = self.parent.top+random.randint(100, 2500)
def collide_point(self, x, y):
'''Check if a point (x, y) is inside the Ufo's axis aligned bounding box.'''
return self.left <= x <= self.right and self.bottom <= y <= self.top
def advance(self, nap):
self.y -= 100 * self.plane * nap
if self.y < 0:
self.reset()
def on_x(self, instance, new_x):
self.right = new_x + self.size * self.texture_size / 2.0
self.left = new_x - self.size * self.texture_size / 2.0
def on_y(self, instance, new_y):
self.top = new_y + self.size * self.texture_size / 2.0
self.bottom = new_y - self.size * self.texture_size / 2.0
class Game(GameScreen):
def initialize(self):
self.make_particles(Ufo, 20)
def update_glsl(self, nap):
GameScreen.update_glsl(self, nap)
class GameApp(App):
def build(self):
EventLoop.ensure_window()
return Game()
def on_start(self):
self.root.initialize()
Clock.schedule_interval(self.root.update_glsl, 60 ** -1)
if __name__ == '__main__':
Window.clearcolor = get_color_from_hex('111110')
GameApp().run()
我还添加了使用 canvas.before
绘制 Ufo
边界框.这只是为了可视化每个 Ufo
的 clickable
区域,并且可以轻松移除.
I have also adding drawing the Ufo
bounding box using canvas.before
. This is just to visualize the clickable
area for each Ufo
, and can be easily removed.
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