import math import random from PyQt4 import QtCore from colors import Colors from demoitem import DemoItem from demoitemanimation import DemoItemAnimation from guidecircle import GuideCircle from guideline import GuideLine from letteritem import LetterItem class TickerPostEffect(object): def tick(self, adjust): pass def transform(self, item, pos): pass class PostRotateXY(TickerPostEffect): def __init__(self, speedx, speedy, curvx, curvy): super(PostRotateXY, self).__init__() self.currRotX = 0.0 self.currRotY = 0.0 self.speedx = speedx self.speedy = speedy self.curvx = curvx self.curvy = curvy def tick(self, adjust): self.currRotX += self.speedx * adjust self.currRotY += self.speedy * adjust def transform(self, item, pos): parent = item.parentItem() center = parent.boundingRect().center() pos.setX(center.x() + (pos.x() - center.x()) * math.cos(self.currRotX + pos.x() * self.curvx)) pos.setY(center.y() + (pos.y() - center.y()) * math.cos(self.currRotY + pos.y() * self.curvy)) class PostRotateXYTwist(PostRotateXY): def transform(self, item, pos): parent = item.parentItem() center = parent.boundingRect().center() pos.setX(center.x() + (pos.x() - center.x()) * math.cos(self.currRotX + pos.y() * self.curvx)) pos.setY(center.y() + (pos.y() - center.y()) * math.cos(self.currRotY + pos.x() * self.curvy)) class TickerEffect(object): Normal, Intro, Outro = range(3) def __init__(self, letters): self.postEffect = TickerPostEffect() self.status = TickerEffect.Intro self.letters = letters self.morphSpeed = self.normalMorphSpeed = Colors.tickerMorphSpeed self.moveSpeed = self.normalMoveSpeed = Colors.tickerMoveSpeed self.useSheepDog = True self.morphBetweenModels = not Colors.noTickerMorph def setPostEffect(self, effect): self.postEffect = effect def slowDownAfterIntro(self, adjust): if self.morphBetweenModels: if self.status == TickerEffect.Intro: dec = 0.1 * adjust self.moveSpeed -= dec if self.moveSpeed < Colors.tickerMoveSpeed: self.moveSpeed = self.normalMoveSpeed self.morphSpeed = self.normalMorphSpeed self.status = TickerEffect.Normal def moveLetters(self, adjust): adaptedMoveSpeed = self.moveSpeed * adjust adaptedMorphSpeed = self.morphSpeed * adjust self.postEffect.tick(adjust) if self.morphBetweenModels: move_speed = adaptedMoveSpeed morph_speed = adaptedMorphSpeed else: move_speed = Colors.tickerMoveSpeed morph_speed = -1 for letter in self.letters: letter.guideAdvance(move_speed) letter.guideMove(morph_speed) pos = letter.getGuidedPos() self.postEffect.transform(letter, pos) if self.useSheepDog: letter.setPosUsingSheepDog(pos, QtCore.QRectF(0, 0, 800, 600)) else: letter.setPos(pos) def tick(self, adjust): self.slowDownAfterIntro(adjust) self.moveLetters(adjust) class EffectWhirlWind(TickerEffect): def __init__(self, letters): super(EffectWhirlWind, self).__init__(letters) self.moveSpeed = 50 for letter in self.letters: letter.setGuidedPos(QtCore.QPointF(0, 100)) class EffectSnake(TickerEffect): def __init__(self, letters): super(EffectSnake, self).__init__(letters) self.moveSpeed = 40 for i, letter in enumerate(self.letters): letter.setGuidedPos(QtCore.QPointF(0, -250 - (i * 5))) class EffectScan(TickerEffect): def __init__(self, letters): super(EffectScan, self).__init__(letters) for letter in self.letters: letter.setGuidedPos(QtCore.QPointF(100, -300)) class EffectRaindrops(TickerEffect): def __init__(self, letters): super(EffectRaindrops, self).__init__(letters) for letter in self.letters: letter.setGuidedPos(QtCore.QPointF(random.randint(-100, 100), random.randint(-200, 1100))) class EffectLine(TickerEffect): def __init__(self, letters): super(EffectLine, self).__init__(letters) for i, letter in enumerate(self.letters): letter.setGuidedPos(QtCore.QPointF(100, 500 + i * 20)) class ItemCircleAnimation(DemoItem): sscene = None def __init__(self, scene=None, parent=None): super(ItemCircleAnimation, self).__init__(scene, parent) ItemCircleAnimation.sscene = scene self.letterList = [] self.letterCount = Colors.tickerLetterCount self.scale = 1.0 self.showCount = -1 self.tickOnPaint = False self.paused = False self.doIntroTransitions = True self.setAcceptsHoverEvents(True) self.setCursor(QtCore.Qt.OpenHandCursor) self.setupGuides() self.setupLetters() self.useGuideQt() self.effect = None self.mouseMoveLastPosition = QtCore.QPointF() self.tickTimer = QtCore.QTime() def createLetter(self, c): letter = LetterItem(c, ItemCircleAnimation.sscene, self) self.letterList.append(letter) def setupLetters(self): self.letterList = [] s = Colors.tickerText tlen = len(s) room = self.letterCount while room >= tlen: for c in s: self.createLetter(c) room -= tlen # Fill in with blanks. while room > 0: self.createLetter(' ') room -= 1 def setupGuides(self): x = 0 y = 20 self.qtGuide1 = GuideCircle(QtCore.QRectF(x, y, 260, 260), -36, 342) GuideLine(QtCore.QPointF(x + 240, y + 268), self.qtGuide1) GuideLine(QtCore.QPointF(x + 265, y + 246), self.qtGuide1) GuideLine(QtCore.QPointF(x + 158, y + 134), self.qtGuide1) GuideLine(QtCore.QPointF(x + 184, y + 109), self.qtGuide1) GuideLine(QtCore.QPointF(x + 160, y + 82), self.qtGuide1) GuideLine(QtCore.QPointF(x + 77, y + 163), self.qtGuide1) GuideLine(QtCore.QPointF(x + 100, y + 190), self.qtGuide1) GuideLine(QtCore.QPointF(x + 132, y + 159), self.qtGuide1) GuideLine(QtCore.QPointF(x + 188, y + 211), self.qtGuide1) GuideCircle(QtCore.QRectF(x + 30, y + 30, 200, 200), -30, 336, GuideCircle.CW, self.qtGuide1) GuideLine(QtCore.QPointF(x + 238, y + 201), self.qtGuide1) y = 30 self.qtGuide2 = GuideCircle(QtCore.QRectF(x + 30, y + 30, 200, 200), 135, 270, GuideCircle.CCW) GuideLine(QtCore.QPointF(x + 222, y + 38), self.qtGuide2) GuideCircle(QtCore.QRectF(x, y, 260, 260), 135, 270, GuideCircle.CW, self.qtGuide2) GuideLine(QtCore.QPointF(x + 59, y + 59), self.qtGuide2) x = 115 y = 10 self.qtGuide3 = GuideLine(QtCore.QLineF(x, y, x + 30, y)) GuideLine(QtCore.QPointF(x + 30, y + 170), self.qtGuide3) GuideLine(QtCore.QPointF(x, y + 170), self.qtGuide3) GuideLine(QtCore.QPointF(x, y), self.qtGuide3) self.qtGuide1.setFence(QtCore.QRectF(0, 0, 800, 600)) self.qtGuide2.setFence(QtCore.QRectF(0, 0, 800, 600)) self.qtGuide3.setFence(QtCore.QRectF(0, 0, 800, 600)) def useGuide(self, guide, firstLetter, lastLetter): padding = guide.lengthAll() / float(lastLetter - firstLetter) for i, letter in enumerate(self.letterList[firstLetter:lastLetter]): letter.useGuide(guide, i * padding) def useGuideQt(self): if self.currGuide is not self.qtGuide1: self.useGuide(self.qtGuide1, 0, self.letterCount) self.currGuide = self.qtGuide1 def useGuideTt(self): if self.currGuide is not self.qtGuide2: split = int(self.letterCount * 5.0 / 7.0) self.useGuide(self.qtGuide2, 0, split) self.useGuide(self.qtGuide3, split, self.letterCount) self.currGuide = self.qtGuide2 def boundingRect(self): return QtCore.QRectF(0, 0, 300, 320) def prepare(self): pass def switchToNextEffect(self): self.showCount += 1 if self.showCount == 1: self.effect = EffectSnake(self.letterList) elif self.showCount == 2: self.effect = EffectLine(self.letterList) self.effect.setPostEffect(PostRotateXYTwist(0.01, 0.0, 0.003, 0.0)) elif self.showCount == 3: self.effect = EffectRaindrops(self.letterList) self.effect.setPostEffect(PostRotateXYTwist(0.01, 0.005, 0.003, 0.003)) elif self.showCount == 4: self.effect = EffectScan(self.letterList) self.effect.normalMoveSpeed = 0 self.effect.setPostEffect(PostRotateXY(0.008, 0.0, 0.005, 0.0)) else: self.showCount = 0 self.effect = EffectWhirlWind(self.letterList) def animationStarted(self, id): if id == DemoItemAnimation.ANIM_IN: if self.doIntroTransitions: # Make all letters disappear. for letter in self.letterList: letter.setPos(1000, 0) self.switchToNextEffect() self.useGuideQt() self.scale = 1.0 # The first time we run, we have a rather large delay to # perform benchmark before the ticker shows. But now, since we # are showing, use a more appropriate value. self.currentAnimation.startDelay = 1500 elif self.effect is not None: self.effect.useSheepDog = False self.tickTimer = QtCore.QTime.currentTime() def animationStopped(self, _): pass def swapModel(self): if self.currGuide is self.qtGuide2: self.useGuideQt() else: self.useGuideTt() def hoverEnterEvent(self, event): # Skip swap here to enhance ticker dragging. pass def hoverLeaveEvent(self, event): self.swapModel() def setTickerScale(self, s): self.scale = s self.qtGuide1.setScale(self.scale, self.scale) self.qtGuide2.setScale(self.scale, self.scale) self.qtGuide3.setScale(self.scale, self.scale) def mousePressEvent(self, event): self.mouseMoveLastPosition = event.scenePos(); if event.button() == QtCore.Qt.LeftButton: self.setCursor(QtCore.Qt.ClosedHandCursor) else: self.switchToNextEffect() def mouseReleaseEvent(self, event): if event.button() == QtCore.Qt.LeftButton: self.setCursor(QtCore.Qt.OpenHandCursor) def mouseMoveEvent(self, event): newPosition = event.scenePos() self.setPosUsingSheepDog(self.pos() + newPosition - self.mouseMoveLastPosition, QtCore.QRectF(-260, -280, 1350, 1160)) self.mouseMoveLastPosition = newPosition def wheelEvent(self, event): if event.delta() > 0: self.effect.moveSpeed -= 0.20 else: self.effect.moveSpeed += 0.20 if self.effect.moveSpeed < 0: self.effect.moveSpeed = 0.0 def pause(self, on): self.paused = on self.tickTimer = QtCore.QTime.currentTime() def tick(self): if self.paused or not self.effect: return t = self.tickTimer.msecsTo(QtCore.QTime.currentTime()) self.tickTimer = QtCore.QTime.currentTime() self.effect.tick(t / 10.0) def paint(self, painter, opt, widget): if self.tickOnPaint: self.tick()