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170 lines
5.1 KiB
C++
Executable File
170 lines
5.1 KiB
C++
Executable File
#include <gtest/gtest.h>
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#include <cdroid.h>
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#include <ngl_os.h>
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#include <ngl_timer.h>
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#include <cdlog.h>
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#include <animation/objectanimator.h>
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class ANIMATOR:public testing::Test{
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public :
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virtual void SetUp(){
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}
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virtual void TearDown(){
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}
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};
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TEST_F(ANIMATOR,callback){
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App app;
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ValueAnimator *anim=new ValueAnimator();
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anim->getAnimationHandler().addAnimationFrameCallback(anim,100);
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anim->getAnimationHandler().removeCallback(anim);
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app.exec();
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}
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TEST_F(ANIMATOR,ofInt1){
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ValueAnimator*anim=ValueAnimator::ofInt({0,100});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%d",anim.getAnimatedValue().get<int>());
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}));
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for(int i=0;i<=10;i++){
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anim->setCurrentFraction((float)i/10.f);
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}
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}
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TEST_F(ANIMATOR,ofInt2){
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IntPropertyValuesHolder iprop;
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iprop.setValues(std::vector<int>({0,100}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&iprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%d",anim.getAnimatedValue().get<int>());
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}));
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for(int i=0;i<=10;i++){
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anim->setCurrentFraction((float)i/10.f);
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}
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}
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TEST_F(ANIMATOR,ofFloat){
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FloatPropertyValuesHolder fprop;
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fprop.setValues(std::vector<float>({0,100}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&fprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%f",anim.getAnimatedValue().get<float>());
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}));
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for(int i=0;i<=10;i++){
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anim->setCurrentFraction((float)i/10.f);
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}
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}
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TEST_F(ANIMATOR,start){
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App app;
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FloatPropertyValuesHolder fprop;
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fprop.setValues(std::vector<float>({0,100}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&fprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%f",anim.getAnimatedValue().get<float>());
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}));
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anim->setDuration(200);
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anim->start();
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LOGD("====");
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app.exec();
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}
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TEST_F(ANIMATOR,startDelay){
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App app;
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FloatPropertyValuesHolder fprop;
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fprop.setValues(std::vector<float>({0,100}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&fprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%f",anim.getAnimatedValue().get<float>());
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}));
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anim->setDuration(200);
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anim->setStartDelay(1000);
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anim->start();
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LOGD("====");
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app.exec();
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}
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class MyProperty: public Property{
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public:
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MyProperty(const std::string&name):Property(name){
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}
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void set(void* object, float value)override{
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LOGD("value=%f",value);
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}
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};
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TEST_F(ANIMATOR,ofProperty){
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MyProperty*myprop=new MyProperty("test");
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ObjectAnimator*anim=ObjectAnimator::ofInt(nullptr,myprop,{0,100});
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for(int i=0;i<=10;i++){
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anim->setCurrentFraction((float)i/10.f);
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}
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}
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TEST_F(ANIMATOR,loopdrivered){
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App app;
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IntPropertyValuesHolder iprop;
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iprop.setValues(std::vector<int>({0,100}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&iprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([this](ValueAnimator&anim){
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LOGD("value=%d",anim.getAnimatedValue().get<int>());
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}));
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anim->setDuration(2000);
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anim->start();
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app.exec();
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}
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TEST_F(ANIMATOR,translate){
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App app;
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Window*w=new Window(0,0,800,600);
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TextView*tv=new TextView("Hello World!",120,30);
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tv->setBackgroundColor(0xFF111111);
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w->addView(tv);
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IntPropertyValuesHolder xprop;
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xprop.setPropertyName("x");
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xprop.setValues(std::vector<int>({0,100,300}));
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IntPropertyValuesHolder yprop;
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yprop.setPropertyName("y");
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yprop.setValues(std::vector<int>({0,200,200}));
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PropertyValuesHolder cprop;
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cprop.setValues(std::vector<uint32_t>({0xFF000000,0xFFFF8844}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&xprop,&yprop,&cprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([tv](ValueAnimator&anim){
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PropertyValuesHolder*xp=anim.getValues(0);
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PropertyValuesHolder*yp=anim.getValues(1);
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PropertyValuesHolder*cp=anim.getValues(2);
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tv->setPos(xp->getAnimatedValue().get<int>(),yp->getAnimatedValue().get<int>());
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tv->setBackgroundColor(cp->getAnimatedValue().get<uint32_t>());
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}));
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anim->setDuration(5000);
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anim->start();
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app.exec();
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}
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TEST_F(ANIMATOR,scale){
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App app;
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Window*w=new Window(0,0,800,600);
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TextView*tv=new TextView("Hello World!",120,30);
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tv->setBackgroundColor(0xFF111111);
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w->addView(tv);
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FloatPropertyValuesHolder fprop;
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fprop.setPropertyName("scale");
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fprop.setValues(std::vector<float>({0,2.0}));
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ValueAnimator*anim=ValueAnimator::ofPropertyValuesHolder({&fprop});
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anim->addUpdateListener(ValueAnimator::AnimatorUpdateListener([tv](ValueAnimator&anim){
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const float scale=anim.getAnimatedValue().get<float>();
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tv->setScaleX(scale);
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tv->setScaleY(scale);
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}));
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anim->setDuration(5000);
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anim->start();
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app.exec();
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}
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