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pyganim.py
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# Pyganim (pyganim.py, ver 1)
# A sprite animation module for Pygame.
#
# By Al Sweigart [email protected]
# http://inventwithpython.com/pyganim
# Released under a "Simplified BSD" license
#
# There's a tutorial (and sample code) on how to use this library at http://inventwithpython.com/pyganim
# NOTE: This module requires Pygame to be installed to use. Download it from http://pygame.org
#
# This should be compatible with both Python 2 and Python 3. Please email any
# bug reports to Al at [email protected]
#
# TODO: Feature idea: if the same image file is specified, re-use the Surface object. (Make this optional though.)
import pygame, time
# setting up constants
PLAYING = 'playing'
PAUSED = 'paused'
STOPPED = 'stopped'
# These values are used in the anchor() method.
NORTHWEST = 'northwest'
NORTH = 'north'
NORTHEAST = 'northeast'
WEST = 'west'
CENTER = 'center'
EAST = 'east'
SOUTHWEST = 'southwest'
SOUTH = 'south'
SOUTHEAST = 'southeast'
class PygAnimation(object):
def __init__(self, frames, loop=True):
# Constructor function for the animation object. Starts off in the STOPPED state.
#
# @param frames
# A list of tuples for each frame of animation, in one of the following format:
# (image_of_frame<pygame.Surface>, duration_in_seconds<int>)
# (filename_of_image<str>, duration_in_seconds<int>)
# Note that the images and duration cannot be changed. A new PygAnimation object
# will have to be created.
# @param loop Tells the animation object to keep playing in a loop.
# _images stores the pygame.Surface objects of each frame
self._images = []
# _durations stores the durations (in seconds) of each frame.
# e.g. [1, 1, 2.5] means the first and second frames last one second,
# and the third frame lasts for two and half seconds.
self._durations = []
# _startTimes shows when each frame begins. len(self._startTimes) will
# always be one more than len(self._images), because the last number
# will be when the last frame ends, rather than when it starts.
# The values are in seconds.
# So self._startTimes[-1] tells you the length of the entire animation.
# e.g. if _durations is [1, 1, 2.5], then _startTimes will be [0, 1, 2, 4.5]
self._startTimes = None
# if the sprites are transformed, the originals are kept in _images
# and the transformed sprites are kept in _transformedImages.
self._transformedImages = []
self._state = STOPPED # The state is always either PLAYING, PAUSED, or STOPPED
self._loop = loop # If True, the animation will keep looping. If False, the animation stops after playing once.
self._rate = 1.0 # 2.0 means play the animation twice as fast, 0.5 means twice as slow
self._visibility = True # If False, then nothing is drawn when the blit() methods are called
self._playingStartTime = 0 # the time that the play() function was last called.
self._pausedStartTime = 0 # the time that the pause() function was last called.
if frames != '_copy': # ('_copy' is passed for frames by the getCopies() method)
self.numFrames = len(frames)
assert self.numFrames > 0, 'Must contain at least one frame.'
for i in range(self.numFrames):
# load each frame of animation into _images
frame = frames[i]
assert type(frame) in (list, tuple) and len(frame) == 2, 'Frame %s has incorrect format.' % (i)
assert type(frame[0]) in (str, pygame.Surface), 'Frame %s image must be a string filename or a pygame.Surface' % (i)
assert frame[1] > 0, 'Frame %s duration must be greater than zero.' % (i)
if type(frame[0]) == str:
frame = (pygame.image.load(frame[0]), frame[1])
self._images.append(frame[0])
self._durations.append(frame[1])
self._startTimes = self._getStartTimes()
def _getStartTimes(self):
# Internal method to get the start times based off of the _durations list.
# Don't call this method.
startTimes = [0]
for i in range(self.numFrames):
startTimes.append(startTimes[-1] + self._durations[i])
return startTimes
def reverse(self):
# Reverses the order of the animations.
self.elapsed = self._startTimes[-1] - self.elapsed
self._images.reverse()
self._transformedImages.reverse()
self._durations.reverse()
def getCopy(self):
# Returns a copy of this PygAnimation object, but one that refers to the
# Surface objects of the original so it efficiently uses memory.
#
# NOTE: Messing around with the original Surface objects will affect all
# the copies. If you want to modify the Surface objects, then just make
# copies using constructor function instead.
return self.getCopies(1)[0]
def getCopies(self, numCopies=1):
# Returns a list of copies of this PygAnimation object, but one that refers to the
# Surface objects of the original so it efficiently uses memory.
#
# NOTE: Messing around with the original Surface objects will affect all
# the copies. If you want to modify the Surface objects, then just make
# copies using constructor function instead.
retval = []
for i in range(numCopies):
newAnim = PygAnimation('_copy', loop=self.loop)
newAnim._images = self._images[:]
newAnim._transformedImages = self._transformedImages[:]
newAnim._durations = self._durations[:]
newAnim._startTimes = self._startTimes[:]
newAnim.numFrames = self.numFrames
retval.append(newAnim)
return retval
def blit(self, destSurface, dest):
# Draws the appropriate frame of the animation to the destination Surface
# at the specified position.
#
# NOTE: If the visibility attribute is False, then nothing will be drawn.
#
# @param destSurface
# The Surface object to draw the frame
# @param dest
# The position to draw the frame. This is passed to Pygame's Surface's
# blit() function, so it can be either a (top, left) tuple or a Rect
# object.
if self.isFinished():
self.state = STOPPED
if not self.visibility or self.state == STOPPED:
return
frameNum = findStartTime(self._startTimes, self.elapsed)
destSurface.blit(self.getFrame(frameNum), dest)
def getFrame(self, frameNum):
# Returns the pygame.Surface object of the frameNum-th frame in this
# animation object. If there is a transformed version of the frame,
# it will return that one.
if self._transformedImages == []:
return self._images[frameNum]
else:
return self._transformedImages[frameNum]
def getCurrentFrame(self):
# Returns the pygame.Surface object of the frame that would be drawn
# if the blit() method were called right now. If there is a transformed
# version of the frame, it will return that one.
return self.getFrame(self.currentFrameNum)
def clearTransforms(self):
# Deletes all the transformed frames so that the animation object
# displays the original Surfaces/images as they were before
# transformation functions were called on them.
#
# This is handy to do for multiple transformation, where calling
# the rotation or scaling functions multiple times results in
# degraded/noisy images.
self._transformedImages = []
def makeTransformsPermanent(self):
self._images = [pygame.Surface(surfObj.get_size(), 0, surfObj) for surfObj in self._transformedImages]
for i in range(len(self._transformedImages)):
self._images[i].blit(self._transformedImages[i], (0,0))
def blitFrameNum(self, frameNum, destSurface, dest):
# Draws the specified frame of the animation object. This ignores the
# current playing state.
#
# NOTE: If the visibility attribute is False, then nothing will be drawn.
#
# @param frameNum
# The frame to draw (the first frame is 0, not 1)
# @param destSurface
# The Surface object to draw the frame
# @param dest
# The position to draw the frame. This is passed to Pygame's Surface's
# blit() function, so it can be either a (top, left) tuple or a Rect
# object.
if self.isFinished():
self.state = STOPPED
if not self.visibility or self.state == STOPPED:
return
destSurface.blit(self.getFrame(frameNum), dest)
def blitFrameAtTime(self, elapsed, destSurface, dest):
# Draws the frame the is "elapsed" number of seconds into the animation,
# rather than the time the animation actually started playing.
#
# NOTE: If the visibility attribute is False, then nothing will be drawn.
#
# @param elapsed
# The amount of time into an animation to use when determining which
# frame to draw. blitFrameAtTime() uses this parameter rather than
# the actual time that the animation started playing. (In seconds)
# @param destSurface
# The Surface object to draw the frame
# @param dest
# The position to draw the frame. This is passed to Pygame's Surface's
# blit() function, so it can be either a (top, left) tuple or a Rect
# object. elapsed = int(elapsed * self.rate)
if self.isFinished():
self.state = STOPPED
if not self.visibility or self.state == STOPPED:
return
frameNum = findStartTime(self._startTimes, elapsed)
destSurface.blit(self.getFrame(frameNum), dest)
def isFinished(self):
# Returns True if this animation doesn't loop and has finished playing
# all the frames it has.
return not self.loop and self.elapsed >= self._startTimes[-1]
def play(self, startTime=None):
# Start playing the animation.
# play() is essentially a setter function for self._state
# NOTE: Don't adjust the self.state property, only self._state
if startTime is None:
startTime = time.time()
if self._state == PLAYING:
if self.isFinished():
# if the animation doesn't loop and has already finished, then
# calling play() causes it to replay from the beginning.
self._playingStartTime = startTime
elif self._state == STOPPED:
# if animation was stopped, start playing from the beginning
self._playingStartTime = startTime
elif self._state == PAUSED:
# if animation was paused, start playing from where it was paused
self._playingStartTime = startTime - (self._pausedStartTime - self._playingStartTime)
self._state = PLAYING
def pause(self, startTime=None):
# Stop having the animation progress, and keep it at the current frame.
# pause() is essentially a setter function for self._state
# NOTE: Don't adjust the self.state property, only self._state
if startTime is None:
startTime = time.time()
if self._state == PAUSED:
return # do nothing
elif self._state == PLAYING:
self._pausedStartTime = startTime
elif self._state == STOPPED:
rightNow = time.time()
self._playingStartTime = rightNow
self._pausedStartTime = rightNow
self._state = PAUSED
def stop(self):
# Reset the animation to the beginning frame, and do not continue playing
# stop() is essentially a setter function for self._state
# NOTE: Don't adjust the self.state property, only self._state
if self._state == STOPPED:
return # do nothing
self._state = STOPPED
def togglePause(self):
# If paused, start playing. If playing, then pause.
# togglePause() is essentially a setter function for self._state
# NOTE: Don't adjust the self.state property, only self._state
if self._state == PLAYING:
if self.isFinished():
# the one exception: if this animation doesn't loop and it
# has finished playing, then toggling the pause will cause
# the animation to replay from the beginning.
#self._playingStartTime = time.time() # effectively the same as calling play()
self.play()
else:
self.pause()
elif self._state in (PAUSED, STOPPED):
self.play()
def areFramesSameSize(self):
# Returns True if all the Surface objects in this animation object
# have the same width and height. Otherwise, returns False
width, height = self.getFrame(0).get_size()
for i in range(len(self._images)):
if self.getFrame(i).get_size() != (width, height):
return False
return True
def getMaxSize(self):
# Goes through all the Surface objects in this animation object
# and returns the max width and max height that it finds. (These
# widths and heights may be on different Surface objects.)
frameWidths = []
frameHeights = []
for i in range(len(self._images)):
frameWidth, frameHeight = self._images[i].get_size()
frameWidths.append(frameWidth)
frameHeights.append(frameHeight)
maxWidth = max(frameWidths)
maxHeight = max(frameHeights)
return (maxWidth, maxHeight)
def getRect(self):
# Returns a pygame.Rect object for this animation object.
# The top and left will be set to 0, 0, and the width and height
# will be set to what is returned by getMaxSize().
maxWidth, maxHeight = self.getMaxSize()
return pygame.Rect(0, 0, maxWidth, maxHeight)
def anchor(self, anchorPoint=NORTHWEST):
# If the Surface objects are of different sizes, align them all to a
# specific "anchor point" (one of the NORTH, SOUTH, SOUTHEAST, etc. constants)
#
# By default, they are all anchored to the NORTHWEST corner.
if self.areFramesSameSize():
return # nothing needs to be anchored
# This check also prevents additional calls to anchor() from doing
# anything, since anchor() sets all the image to the same size.
# The lesson is, you can only effectively call anchor() once.
self.clearTransforms() # clears transforms since this method anchors the original images.
maxWidth, maxHeight = self.getMaxSize()
halfMaxWidth = int(maxWidth / 2)
halfMaxHeight = int(maxHeight / 2)
for i in range(len(self._images)):
# go through and copy all frames to a max-sized Surface object
# NOTE: This makes changes to the original images in self._images, not the transformed images in self._transformedImages
newSurf = pygame.Surface((maxWidth, maxHeight)) # TODO: this is probably going to have errors since I'm using the default depth.
# set the expanded areas to be transparent
newSurf = newSurf.convert_alpha()
newSurf.fill((0,0,0,0))
frameWidth, frameHeight = self._images[i].get_size()
halfFrameWidth = int(frameWidth / 2)
halfFrameHeight = int(frameHeight / 2)
# position the Surface objects to the specified anchor point
if anchorPoint == NORTHWEST:
newSurf.blit(self._images[i], (0, 0))
elif anchorPoint == NORTH:
newSurf.blit(self._images[i], (halfMaxWidth - halfFrameWidth, 0))
elif anchorPoint == NORTHEAST:
newSurf.blit(self._images[i], (maxWidth - frameWidth, 0))
elif anchorPoint == WEST:
newSurf.blit(self._images[i], (0, halfMaxHeight - halfFrameHeight))
elif anchorPoint == CENTER:
newSurf.blit(self._images[i], (halfMaxWidth - halfFrameWidth, halfMaxHeight - halfFrameHeight))
elif anchorPoint == EAST:
newSurf.blit(self._images[i], (maxWidth - frameWidth, halfMaxHeight - halfFrameHeight))
elif anchorPoint == SOUTHWEST:
newSurf.blit(self._images[i], (0, maxHeight - frameHeight))
elif anchorPoint == SOUTH:
newSurf.blit(self._images[i], (halfMaxWidth - halfFrameWidth, maxHeight - frameHeight))
elif anchorPoint == SOUTHEAST:
newSurf.blit(self._images[i], (maxWidth - frameWidth, maxHeight - frameHeight))
self._images[i] = newSurf
def nextFrame(self, jump=1):
# Set the elapsed time to the beginning of the next frame.
# You can jump ahead by multiple frames by specifying a different
# argument for jump.
# Negative values have the same effect as calling prevFrame()
self.currentFrameNum += int(jump)
def prevFrame(self, jump=1):
# Set the elapsed time to the beginning of the previous frame.
# You can jump ahead by multiple frames by specifying a different
# argument for jump.
# Negative values have the same effect as calling nextFrame()
self.currentFrameNum -= int(jump)
def rewind(self, seconds=None):
# Set the elapsed time back relative to the current elapsed time.
if seconds is None:
self.elapsed = 0.0
else:
self.elapsed -= seconds
def fastForward(self, seconds=None):
# Set the elapsed time forward relative to the current elapsed time.
if seconds is None:
self.elapsed = self._startTimes[-1] - 0.00002 # done to compensate for rounding errors
else:
self.elapsed += seconds
def _makeTransformedSurfacesIfNeeded(self):
# Internal-method. Creates the Surface objects for the _transformedImages list.
# Don't call this method.
if self._transformedImages == []:
self._transformedImages = [surf.copy() for surf in self._images]
# Transformation methods.
# (These are analogous to the pygame.transform.* functions, except they
# are applied to all frames of the animation object.
def flip(self, xbool, ybool):
# Flips the image horizontally, vertically, or both.
# See http://pygame.org/docs/ref/transform.html#pygame.transform.flip
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.flip(self.getFrame(i), xbool, ybool)
def scale(self, width_height):
# NOTE: Does not support the DestSurface parameter
# Increases or decreases the size of the images.
# See http://pygame.org/docs/ref/transform.html#pygame.transform.scale
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.scale(self.getFrame(i), width_height)
def rotate(self, angle):
# Rotates the image.
# See http://pygame.org/docs/ref/transform.html#pygame.transform.rotate
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.rotate(self.getFrame(i), angle)
def rotozoom(self, angle, scale):
# Rotates and scales the image simultaneously.
# See http://pygame.org/docs/ref/transform.html#pygame.transform.rotozoom
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.rotozoom(self.getFrame(i), angle, scale)
def scale2x(self):
# NOTE: Does not support the DestSurface parameter
# Double the size of the image using an efficient algorithm.
# See http://pygame.org/docs/ref/transform.html#pygame.transform.scale2x
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.scale2x(self.getFrame(i))
def smoothscale(self, width_height):
# NOTE: Does not support the DestSurface parameter
# Scales the image smoothly. (Computationally more expensive and
# slower but produces a better scaled image.)
# See http://pygame.org/docs/ref/transform.html#pygame.transform.smoothscale
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
self._transformedImages[i] = pygame.transform.smoothscale(self.getFrame(i), width_height)
# pygame.Surface method wrappers
# These wrappers call their analogous pygame.Surface methods on all Surface objects in this animation.
# They are here for the convenience of the module user. These calls will apply to the transform images,
# and can have their effects undone by called clearTransforms()
#
# It is not advisable to call these methods on the individual Surface objects in self._images.
def _surfaceMethodWrapper(self, wrappedMethodName, *args, **kwargs):
self._makeTransformedSurfacesIfNeeded()
for i in range(len(self._images)):
methodToCall = getattr(self._transformedImages[i], wrappedMethodName)
methodToCall(*args, **kwargs)
# There's probably a more terse way to generate the following methods,
# but I don't want to make the code even more unreadable.
def convert(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.convert
self._surfaceMethodWrapper('convert', *args, **kwargs)
def convert_alpha(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.convert_alpha
self._surfaceMethodWrapper('convert_alpha', *args, **kwargs)
def set_alpha(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.set_alpha
self._surfaceMethodWrapper('set_alpha', *args, **kwargs)
def scroll(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.scroll
self._surfaceMethodWrapper('scroll', *args, **kwargs)
def set_clip(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.set_clip
self._surfaceMethodWrapper('set_clip', *args, **kwargs)
def set_colorkey(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.set_colorkey
self._surfaceMethodWrapper('set_colorkey', *args, **kwargs)
def lock(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.unlock
self._surfaceMethodWrapper('lock', *args, **kwargs)
def unlock(self, *args, **kwargs):
# See http://pygame.org/docs/ref/surface.html#Surface.lock
self._surfaceMethodWrapper('unlock', *args, **kwargs)
# Getter and setter methods for properties
def _propGetRate(self):
return self._rate
def _propSetRate(self, rate):
rate = float(rate)
if rate < 0:
raise ValueError('rate must be greater than 0.')
self._rate = rate
rate = property(_propGetRate, _propSetRate)
def _propGetLoop(self):
return self._loop
def _propSetLoop(self, loop):
if self.state == PLAYING and self._loop and not loop:
# if we are turning off looping while the animation is playing,
# we need to modify the _playingStartTime so that the rest of
# the animation will play, and then stop. (Otherwise, the
# animation will immediately stop playing if it has already looped.)
self._playingStartTime = time.time() - self.elapsed
self._loop = bool(loop)
loop = property(_propGetLoop, _propSetLoop)
def _propGetState(self):
if self.isFinished():
self._state = STOPPED # if finished playing, then set state to STOPPED.
return self._state
def _propSetState(self, state):
if state not in (PLAYING, PAUSED, STOPPED):
raise ValueError('state must be one of pyganim.PLAYING, pyganim.PAUSED, or pyganim.STOPPED')
if state == PLAYING:
self.play()
elif state == PAUSED:
self.pause()
elif state == STOPPED:
self.stop()
state = property(_propGetState, _propSetState)
def _propGetVisibility(self):
return self._visibility
def _propSetVisibility(self, visibility):
self._visibility = bool(visibility)
visibility = property(_propGetVisibility, _propSetVisibility)
def _propSetElapsed(self, elapsed):
# NOTE: Do to floating point rounding errors, this doesn't work precisely.
elapsed += 0.00001 # done to compensate for rounding errors
# TODO - I really need to find a better way to handle the floating point thing.
# Set the elapsed time to a specific value.
if self._loop:
elapsed = elapsed % self._startTimes[-1]
else:
elapsed = getInBetweenValue(0, elapsed, self._startTimes[-1])
rightNow = time.time()
self._playingStartTime = rightNow - (elapsed * self.rate)
if self.state in (PAUSED, STOPPED):
self.state = PAUSED # if stopped, then set to paused
self._pausedStartTime = rightNow
def _propGetElapsed(self):
# NOTE: Do to floating point rounding errors, this doesn't work precisely.
# To prevent infinite recursion, don't use the self.state property,
# just read/set self._state directly because the state getter calls
# this method.
# Find out how long ago the play()/pause() functions were called.
if self._state == STOPPED:
# if stopped, then just return 0
return 0
if self._state == PLAYING:
# if playing, then draw the current frame (based on when the animation
# started playing). If not looping and the animation has gone through
# all the frames already, then draw the last frame.
elapsed = (time.time() - self._playingStartTime) * self.rate
elif self._state == PAUSED:
# if paused, then draw the frame that was playing at the time the
# PygAnimation object was paused
elapsed = (self._pausedStartTime - self._playingStartTime) * self.rate
if self._loop:
elapsed = elapsed % self._startTimes[-1]
else:
elapsed = getInBetweenValue(0, elapsed, self._startTimes[-1])
elapsed += 0.00001 # done to compensate for rounding errors
return elapsed
elapsed = property(_propGetElapsed, _propSetElapsed)
def _propGetCurrentFrameNum(self):
# Return the frame number of the frame that will be currently
# displayed if the animation object were drawn right now.
return findStartTime(self._startTimes, self.elapsed)
def _propSetCurrentFrameNum(self, frameNum):
# Change the elapsed time to the beginning of a specific frame.
if self.loop:
frameNum = frameNum % len(self._images)
else:
frameNum = getInBetweenValue(0, frameNum, len(self._images)-1)
self.elapsed = self._startTimes[frameNum]
currentFrameNum = property(_propGetCurrentFrameNum, _propSetCurrentFrameNum)
class PygConductor(object):
def __init__(self, *animations):
assert len(animations) > 0, 'at least one PygAnimation object is required'
self._animations = []
self.add(*animations)
def add(self, *animations):
if type(animations[0]) == dict:
for k in animations[0].keys():
self._animations.append(animations[0][k])
elif type(animations[0]) in (tuple, list):
for i in range(len(animations[0])):
self._animations.append(animations[0][i])
else:
for i in range(len(animations)):
self._animations.append(animations[i])
def _propGetAnimations(self):
return self._animations
def _propSetAnimations(self, val):
self._animations = val
animations = property(_propGetAnimations, _propSetAnimations)
def play(self, startTime=None):
if startTime is None:
startTime = time.time()
for animObj in self._animations:
animObj.play(startTime)
def pause(self, startTime=None):
if startTime is None:
startTime = time.time()
for animObj in self._animations:
animObj.pause(startTime)
def stop(self):
for animObj in self._animations:
animObj.stop()
def reverse(self):
for animObj in self._animations:
animObj.reverse()
def clearTransforms(self):
for animObj in self._animations:
animObj.clearTransforms()
def makeTransformsPermanent(self):
for animObj in self._animations:
animObj.makeTransformsPermanent()
def togglePause(self):
for animObj in self._animations:
animObj.togglePause()
def nextFrame(self, jump=1):
for animObj in self._animations:
animObj.nextFrame(jump)
def prevFrame(self, jump=1):
for animObj in self._animations:
animObj.prevFrame(jump)
def rewind(self, seconds=None):
for animObj in self._animations:
animObj.rewind(seconds)
def fastForward(self, seconds=None):
for animObj in self._animations:
animObj.fastForward(seconds)
def flip(self, xbool, ybool):
for animObj in self._animations:
animObj.flip(xbool, ybool)
def scale(self, width_height):
for animObj in self._animations:
animObj.scale(width_height)
def rotate(self, angle):
for animObj in self._animations:
animObj.rotate(angle)
def rotozoom(self, angle, scale):
for animObj in self._animations:
animObj.rotozoom(angle, scale)
def scale2x(self):
for animObj in self._animations:
animObj.scale2x()
def smoothscale(self, width_height):
for animObj in self._animations:
animObj.smoothscale(width_height)
def convert(self):
for animObj in self._animations:
animObj.convert()
def convert_alpha(self):
for animObj in self._animations:
animObj.convert_alpha()
def set_alpha(self, *args, **kwargs):
for animObj in self._animations:
animObj.set_alpha(*args, **kwargs)
def scroll(self, dx=0, dy=0):
for animObj in self._animations:
animObj.scroll(dx, dy)
def set_clip(self, *args, **kwargs):
for animObj in self._animations:
animObj.set_clip(*args, **kwargs)
def set_colorkey(self, *args, **kwargs):
for animObj in self._animations:
animObj.set_colorkey(*args, **kwargs)
def lock(self):
for animObj in self._animations:
animObj.lock()
def unlock(self):
for animObj in self._animations:
animObj.unlock()
def getInBetweenValue(lowerBound, value, upperBound):
# Returns the value within the bounds of the lower and upper bound parameters.
# If value is less than lowerBound, then return lowerBound.
# If value is greater than upperBound, then return upperBound.
# Otherwise, just return value as it is.
if value < lowerBound:
return lowerBound
elif value > upperBound:
return upperBound
return value
def findStartTime(startTimes, target):
# With startTimes as a list of sequential numbers and target as a number,
# returns the index of the number in startTimes that preceeds target.
#
# For example, if startTimes was [0, 2, 4.5, 7.3, 10] and target was 6,
# then findStartTime() would return 2. If target was 12, returns 4.
assert startTimes[0] == 0
lb = 0 # "lb" is lower bound
ub = len(startTimes) - 1 # "ub" is upper bound
# handle special cases:
if len(startTimes) == 0:
return 0
if target >= startTimes[-1]:
return ub - 1
# perform binary search:
while True:
i = int((ub - lb) / 2) + lb
if startTimes[i] == target or (startTimes[i] < target and startTimes[i+1] > target):
if i == len(startTimes):
return i - 1
else:
return i
if startTimes[i] < target:
lb = i
elif startTimes[i] > target:
ub = i