class ChartView(QChartView, QChart):
def __init__(self, *args, **kwargs):
super(ChartView, self).__init__(*args, **kwargs)
self.resize(800, 600)
self.setRenderHint(QPainter.Antialiasing) # 抗锯齿
self.chart_init()
self.timer_init()
def timer_init(self):
#使用QTimer,2秒触发一次,更新数据
self.timer = QTimer(self)
self.timer.timeout.connect(self.drawLine)
self.timer.start(200)
def chart_init(self):
self.chart = QChart()
self.series = QSplineSeries()
#设置曲线名称
self.series.setName("实时数据")
#把曲线添加到QChart的实例中
self.chart.addSeries(self.series)
#声明并初始化X轴,Y轴
self.dtaxisX = QDateTimeAxis()
self.vlaxisY = QValueAxis()
#设置坐标轴显示范围
self.dtaxisX.setMin(QDateTime.currentDateTime().addSecs(-300 * 1))
self.dtaxisX.setMax(QDateTime.currentDateTime().addSecs(0))
self.vlaxisY.setMin(0)
self.vlaxisY.setMax(1500)
#设置X轴时间样式
self.dtaxisX.setFormat("MM月dd hh:mm:ss")
#设置坐标轴上的格点
self.dtaxisX.setTickCount(6)
self.vlaxisY.setTickCount(11)
#设置坐标轴名称
self.dtaxisX.setTitleText("时间")
self.vlaxisY.setTitleText("量程")
#设置网格不显示
self.vlaxisY.setGridLineVisible(False)
#把坐标轴添加到chart中
self.chart.addAxis(self.dtaxisX, Qt.AlignBottom)
self.chart.addAxis(self.vlaxisY, Qt.AlignLeft)
#把曲线关联到坐标轴
self.series.attachAxis(self.dtaxisX)
self.series.attachAxis(self.vlaxisY)
self.setChart(self.chart)
def drawLine(self):
#获取当前时间
bjtime = QDateTime.currentDateTime()
#更新X轴坐标
self.dtaxisX.setMin(QDateTime.currentDateTime().addSecs(-300 * 1))
self.dtaxisX.setMax(QDateTime.currentDateTime().addSecs(0))
#当曲线上的点超出X轴的范围时,移除最早的点
if (self.series.count() > 149):
self.series.removePoints(0, self.series.count() - 149)
#产生随即数
yint = random.randint(0, 1500)
#添加数据到曲线末端
self.series.append(bjtime.toMSecsSinceEpoch(), yint)
class MainWindow(QMainWindow, Ui_MainWindow):
def __init__(self, weight_path, out_file_path, parent=None):
super(MainWindow, self).__init__(parent)
self.setupUi(self)
self.setWindowTitle("VAT ROLL COMPARE LABEL TOOL" + " " + CODE_VER)
self.showMaximized()
'''按键绑定'''
# 输入媒体
self.import_media_pushButton.clicked.connect(self.import_media) # 导入
self.start_predict_pushButton.clicked.connect(
self.predict_button_click) # 开始推理
# 输出媒体
self.open_predict_file_pushButton.clicked.connect(
self.open_file_in_browser) # 文件中显示推理视频
# 下方
self.play_pushButton.clicked.connect(
self.play_pause_button_click) # 播放
self.pause_pushButton.clicked.connect(
self.play_pause_button_click) # 暂停
self.button_dict = dict()
self.button_dict.update({
"import_media_pushButton": self.import_media_pushButton,
"start_predict_pushButton": self.start_predict_pushButton,
"open_predict_file_pushButton": self.open_predict_file_pushButton,
"play_pushButton": self.play_pushButton,
"pause_pushButton": self.pause_pushButton,
})
'''媒体流绑定输出'''
self.input_player = QMediaPlayer() # 媒体输入的widget
self.input_player.setVideoOutput(self.input_video_widget)
self.input_player.positionChanged.connect(
self.change_slide_bar) # 播放进度条
self.output_player = QMediaPlayer() # 媒体输出的widget
self.output_player.setVideoOutput(self.output_video_widget)
'''初始化GPU chart'''
self.series = QSplineSeries()
self.chart_init()
'''初始化GPU定时查询定时器'''
# 使用QTimer,0.5秒触发一次,更新数据
self.timer = QTimer(self)
self.timer.timeout.connect(self.draw_gpu_info_chart)
self.timer.start(500)
# 播放时长, 以 input 的时长为准
self.video_length = 0
self.out_file_path = out_file_path
# 推理使用另外一线程
self.predict_handler_thread = PredictHandlerThread(
self.output_player, self.out_file_path, weight_path,
self.predict_info_plainTextEdit, self.predict_progressBar,
self.fps_label, self.button_dict)
# 界面美化
self.gen_better_gui()
def gen_better_gui(self):
"""
美化界面
:return:
"""
# Play 按钮
play_icon = QIcon()
play_icon.addPixmap(QPixmap("./UI/icon/play.png"), QIcon.Normal,
QIcon.Off)
self.play_pushButton.setIcon(play_icon)
# Pause 按钮
play_icon = QIcon()
play_icon.addPixmap(QPixmap("./UI/icon/pause.png"), QIcon.Normal,
QIcon.Off)
self.pause_pushButton.setIcon(play_icon)
def chart_init(self):
"""
初始化 GPU 折线图
:return:
"""
# self.gpu_info_chart._chart = QChart(title="折线图堆叠") # 创建折线视图
self.gpu_info_chart._chart = QChart() # 创建折线视图
# chart._chart.setBackgroundVisible(visible=False) # 背景色透明
self.gpu_info_chart._chart.setBackgroundBrush(QBrush(
QColor("#FFFFFF"))) # 改变图背景色
# 设置曲线名称
self.series.setName("GPU Utilization")
# 把曲线添加到QChart的实例中
self.gpu_info_chart._chart.addSeries(self.series)
# 声明并初始化X轴,Y轴
self.dtaxisX = QDateTimeAxis()
self.vlaxisY = QValueAxis()
# 设置坐标轴显示范围
self.dtaxisX.setMin(QDateTime.currentDateTime().addSecs(-300 * 1))
self.dtaxisX.setMax(QDateTime.currentDateTime().addSecs(0))
self.vlaxisY.setMin(0)
self.vlaxisY.setMax(100)
# 设置X轴时间样式
self.dtaxisX.setFormat("hh:mm:ss")
# 设置坐标轴上的格点
self.dtaxisX.setTickCount(5)
self.vlaxisY.setTickCount(10)
# 设置坐标轴名称
self.dtaxisX.setTitleText("Time")
self.vlaxisY.setTitleText("Percent")
# 设置网格不显示
self.vlaxisY.setGridLineVisible(False)
# 把坐标轴添加到chart中
self.gpu_info_chart._chart.addAxis(self.dtaxisX, Qt.AlignBottom)
self.gpu_info_chart._chart.addAxis(self.vlaxisY, Qt.AlignLeft)
# 把曲线关联到坐标轴
self.series.attachAxis(self.dtaxisX)
self.series.attachAxis(self.vlaxisY)
# 生成 折线图
self.gpu_info_chart.setChart(self.gpu_info_chart._chart)
def draw_gpu_info_chart(self):
"""
绘制 GPU 折线图
:return:
"""
# 获取当前时间
time_current = QDateTime.currentDateTime()
# 更新X轴坐标
self.dtaxisX.setMin(QDateTime.currentDateTime().addSecs(-300 * 1))
self.dtaxisX.setMax(QDateTime.currentDateTime().addSecs(0))
# 当曲线上的点超出X轴的范围时,移除最早的点
remove_count = 600
if self.series.count() > remove_count:
self.series.removePoints(0, self.series.count() - remove_count)
# 对 y 赋值
# yint = random.randint(0, 100)
gpu_info = get_gpu_info()
yint = gpu_info[0].get("gpu_load")
# 添加数据到曲线末端
self.series.append(time_current.toMSecsSinceEpoch(), yint)
def import_media(self):
"""
导入媒体文件
:return:
"""
self.parameter_source = QFileDialog.getOpenFileUrl()[0]
self.input_player.setMedia(QMediaContent(
self.parameter_source)) # 选取视频文件
# 设置 output 为一张图片,防止资源被占用
path_current = str(Path.cwd().joinpath("area_dangerous\1.jpg"))
self.output_player.setMedia(
QMediaContent(QUrl.fromLocalFile(path_current)))
# 将 QUrl 路径转为 本地路径str
self.predict_handler_thread.parameter_source = self.parameter_source.toLocalFile(
)
self.input_player.pause() # 显示媒体
image_flag = os.path.splitext(
self.predict_handler_thread.parameter_source)[-1].lower(
) in img_formats
for item, button in self.button_dict.items():
if image_flag and item in ['play_pushButton', 'pause_pushButton']:
button.setEnabled(False)
else:
button.setEnabled(True)
# self.output_player.setMedia(QMediaContent(QFileDialog.getOpenFileUrl()[0])) # 选取视频文件
def predict_button_click(self):
"""
推理按钮
:return:
"""
# 启动线程去调用
self.predict_handler_thread.start()
def change_slide_bar(self, position):
"""
进度条移动
:param position:
:return:
"""
self.video_length = self.input_player.duration() + 0.1
self.video_horizontalSlider.setValue(
round((position / self.video_length) * 100))
self.video_percent_label.setText(
str(round((position / self.video_length) * 100, 2)) + '%')
@pyqtSlot()
def play_pause_button_click(self):
"""
播放、暂停按钮回调事件
:return:
"""
name = self.sender().objectName()
if self.parameter_source == "":
return
if name == "play_pushButton":
print("play")
self.input_player.play()
self.output_player.play()
elif name == "pause_pushButton":
self.input_player.pause()
self.output_player.pause()
@pyqtSlot()
def open_file_in_browser(self):
os.system(f"start explorer {self.out_file_path}")
@pyqtSlot()
def closeEvent(self, *args, **kwargs):
"""
重写关闭事件
:param args:
:param kwargs:
:return:
"""
print("Close")