jsuarez/extra/embyr_deprecated/embyr/oldtrans.py (109 lines of code) (raw):

from pdb import set_trace as T import numpy as np import time from kivy.uix.widget import Widget from kivy.config import Config rad = 80 sz = 500 pi = 3.14159265 class Transform(Widget): def __init__(self, **kwargs): super().__init__(**kwargs) self.zoom = Zoom() self.pan = Pan('left', self.zoom) self.rotate = Rotate('right', self.pan) self.t = 0 self.vInit = np.array([0, 0, 1]) self.add_widget(self.pan) self.add_widget(self.zoom) self.add_widget(self.rotate) self.button = None def update(self, dt): self.t += dt rot_xz, xz_vec, xz_norm, vec = self.rotate(self.vInit) vec = self.zoom(vec) pos, lookvec = self.pan(vec, rot_xz, xz_vec) return lookvec, pos class TouchWidget(Widget): def __init__(self, button, **kwargs): super().__init__(**kwargs) self.x, self.y, self.xVol, self.yVol = 0, 0, 0, 0 self.button = button self.reset = True #Currently broken due to race condition? #def on_touch_down(self, touch): # if touch.button == self.button: # self.xStart, self.yStart = touch.pos def on_touch_up(self, touch): if touch.button == self.button: self.x += self.xVol self.y += self.yVol self.xVol, self.yVol= 0, 0 self.reset = True def on_touch_move(self, touch): if self.reset: self.xStart, self.yStart = touch.pos self.reset = False if touch.button == self.button: xEnd, yEnd = touch.pos self.xVol = xEnd - self.xStart self.yVol = yEnd - self.yStart class Zoom(Widget): def __init__(self, **kwargs): super().__init__(**kwargs) self.zoom, self.delta = 1, 0.2 def clip(self, zoom, exprange=2): return np.clip(zoom, 0.5**exprange, 2**exprange) def on_touch_down(self, touch): if touch.button == 'scrollup': self.zoom = self.clip(self.zoom + self.delta) elif touch.button == 'scrolldown': self.zoom = self.clip(self.zoom - self.delta) def __call__(self, vec): return vec * self.zoom class Pan(TouchWidget): def __init__(self, button, zoom, **kwargs): super().__init__(button, **kwargs) self.x, self.y, self.xVol, self.yVol = 0, 0, 0, 0 self.zoom = zoom def on_touch_move(self, touch): super().on_touch_move(touch) self.xVol = int(self.xVol * self.zoom.zoom) self.yVol = int(self.yVol * self.zoom.zoom) def __call__(self, vec, rot_xz, xz_vec): x = 10 * (self.x + self.xVol) / sz z = -10 * (self.y + self.yVol) / sz #Horizontal component unit_y = np.array([0, 1, 0]) xx, _, zz = np.cross(rot_xz, unit_y) norm = np.sqrt(xx**2 + zz**2) xh, zh = x*xx/norm, x*zz/norm #Depth component xx, _, zz = -xz_vec norm = np.sqrt(xx**2 + zz**2) xd, zd = z*xx/norm, z*zz/norm xx, yy, zz = vec vec = [xx+xh+xd, yy, zz+zh+zd] lookvec = [-xh-xd, 0, -zh-zd] return vec, lookvec class Rotate(TouchWidget): def __init__(self, button, pan, **kwargs): super().__init__(button, **kwargs) self.pan = pan def __call__(self, vec): x = (self.x + self.xVol) / sz y = (self.y + self.yVol) / sz yclip = np.clip(y, -pi/2, 0) xz_x = np.cos(x) xz_z = np.sin(x) yz_y = np.cos(yclip) yz_z = np.sin(yclip) xz = np.array([ [xz_x, 0, -xz_z], [0 , 1, 0 ], [xz_z, 0, xz_x]]) yz = np.array([ [1, 0, 0 ], [0, yz_y, -yz_z], [0, yz_z, yz_y]]) #Find cylindrical xz plane rotation rot_xz = rad*np.dot(xz, vec) xx, _, zz = rot_xz xz_vec = np.array([xx, 0, zz]) #Find spherical yz plane rotation _, yy, zn = np.dot(yz, vec) xz_norm = zn #For x, z: shrink to position of spherical rotation #For y: use height from spherical rotation vec = np.array([xx*xz_norm, -rad*yy, zz*xz_norm]) return rot_xz, xz_vec, xz_norm, vec