Pyqt5 关于流式布局和滚动条的综合使用示例代码
(编辑:jimmy 日期: 2024/11/19 浏览:3 次 )
流式布局
所谓流式布局指的是容器中的元素像流水一样,是可以浮动的,当元素一行或者一列占满的时候,它会自动流入到下一行或者下一列。
pyqt5流式布局
pyqt中采用流式布局的方法原理是,通过contentsMargins获取到子元素距离布局的上下左右宽度,然后我们将所有子元素进行遍历,如果它加上边距可以在一行放入的话,那么就放在一行内,如果不能,就放入到下一行,具体代码如下:
m = self.contentsMargins()
effective_rect = rect.adjusted(+m.left(), +m.top(), -m.right(), -m.bottom())
x = effective_rect.x()
y = effective_rect.y()
line_height = 0
for item in self._item_list:
wid = item.widget()
space_x = self.spacing()
space_y = self.spacing()
if wid is not None:
space_x += wid.style().layoutSpacing(
QSizePolicy.PushButton, QSizePolicy.PushButton, Qt.Horizontal)
space_y += wid.style().layoutSpacing(
QSizePolicy.PushButton, QSizePolicy.PushButton, Qt.Vertical)
next_x = x + item.sizeHint().width() + space_x
if next_x - space_x > effective_rect.right() and line_height > 0:
x = effective_rect.x()
y = y + line_height + space_y
next_x = x + item.sizeHint().width() + space_x
line_height = 0
if not test_only:
item.setGeometry(QRect(QPoint(x, y), item.sizeHint()))
x = next_x
line_height = max(line_height, item.sizeHint().height())
滚动条的设置
pyqt中有专门的滚动条组件QScrollBar,这个组件需要配合其他组件使用,我们这里使用QScrollArea这个组件进行滚动条的设置。
滚动条的使用方法
首先,我们需要声明QScrollArea
然后,我们需要设置QScrollArea的位置大小
最后,我们将需要产生滚动条的元素放入它的内部。
q = QWidget() qscrollarea = QtWidgets.QScrollArea(q) qscrollarea.setGeometry(QRect(50,100,600,500)) qscrollarea.setWidgetResizable(True) listWidget = QtWidgets.QListWidget() qscrollarea.setWidget(listWidget)
流式布局和滚动条的结合案例:
在文件当前目录创建一个images文件夹,然后放入想要展示的多张图片,然后执行当前程序,就会看到带有滚动条的流式布局界面。
运行程序,需要安装pyqt5
from PyQt5.QtCore import QPoint, QRect, QSize, Qt,pyqtSignal
import os
from PyQt5 import QtCore, QtGui, QtWidgets
from PyQt5.QtWidgets import (
QApplication, QLayout, QPushButton, QSizePolicy, QWidget, QGridLayout)
import sys
class Window(QWidget):
def __init__(self):
self.imageheight = 100
super(Window, self).__init__()
self.resize(800, 600)
#self.listwidget = QtWidgets.QListWidget(self)
#self.listwidget.resize(400,300)
#self.listwidget.setGeometry(QtCore.QRect(0, 0, 300, 200))
#self.listwidget.addItem("test")
highlight_dir = r"./images"
self.files_it = iter([os.path.join(highlight_dir, file)
for file in os.listdir(highlight_dir)])
# self.centralwidget = QtWidgets.QWidget(MainWindow)
# self.gongzuomoshi = QtWidgets.QGroupBox(self.centralwidget)
self.listWidget = QtWidgets.QListWidget(self)
#self.listWidget.setFixedWidth(600)
container_layout = QtWidgets.QVBoxLayout()
g = QtWidgets.QGroupBox('')
l = FlowLayout()
g.setLayout(l)
for file in iter(self.files_it):
pixmap = QtGui.QPixmap(file)
if not pixmap.isNull():
autoWidth = pixmap.width()*self.imageheight/pixmap.height()
label = QtWidgets.QLabel(pixmap=pixmap)
label.setScaledContents(True)
label.setFixedHeight(self.imageheight)
label.setFixedWidth(autoWidth)
l.addWidget(label)
container_layout.addWidget(g)
container_layout.addStretch()
self.listWidget.setLayout(container_layout)
self.qscrollarea = QtWidgets.QScrollArea(self)
self.qscrollarea.setGeometry(QRect(50,100,600,500))
self.qscrollarea.setWidgetResizable(True)
self.qscrollarea.setWidget(self.listWidget)
self.setWindowTitle("Flow Layout Scroll")
class FlowLayout(QLayout):
"""流式布局,使用说明
1.声明流式布局 layout = FlowLayout
2.将元素放入流式布局中
3.将QGroupBox应用流式布局
4.如果期望水平流式,将QGroupBox放入到QHBoxLayout,如果期望垂直布局,将QGroupBox放入到QVBoxLayout
"""
heightChanged = pyqtSignal(int)
def __init__(self, parent=None, margin=0, spacing=-1):
super().__init__(parent)
if parent is not None:
self.setContentsMargins(margin, margin, margin, margin)
self.setSpacing(spacing)
self._item_list = []
def __del__(self):
while self.count():
self.takeAt(0)
def addItem(self, item): # pylint: disable=invalid-name
self._item_list.append(item)
def addSpacing(self, size): # pylint: disable=invalid-name
self.addItem(QSpacerItem(size, 0, QSizePolicy.Fixed, QSizePolicy.Minimum))
def count(self):
return len(self._item_list)
def itemAt(self, index): # pylint: disable=invalid-name
if 0 <= index < len(self._item_list):
return self._item_list[index]
return None
def takeAt(self, index): # pylint: disable=invalid-name
if 0 <= index < len(self._item_list):
return self._item_list.pop(index)
return None
def expandingDirections(self): # pylint: disable=invalid-name,no-self-use
return Qt.Orientations(Qt.Orientation(0))
def hasHeightForWidth(self): # pylint: disable=invalid-name,no-self-use
return True
def heightForWidth(self, width): # pylint: disable=invalid-name
height = self._do_layout(QRect(0, 0, width, 0), True)
return height
def setGeometry(self, rect): # pylint: disable=invalid-name
super().setGeometry(rect)
self._do_layout(rect, False)
def sizeHint(self): # pylint: disable=invalid-name
return self.minimumSize()
def minimumSize(self): # pylint: disable=invalid-name
size = QSize()
for item in self._item_list:
minsize = item.minimumSize()
extent = item.geometry().bottomRight()
size = size.expandedTo(QSize(minsize.width(), extent.y()))
margin = self.contentsMargins().left()
size += QSize(2 * margin, 2 * margin)
return size
def _do_layout(self, rect, test_only=False):
m = self.contentsMargins()
effective_rect = rect.adjusted(+m.left(), +m.top(), -m.right(), -m.bottom())
x = effective_rect.x()
y = effective_rect.y()
line_height = 0
for item in self._item_list:
wid = item.widget()
space_x = self.spacing()
space_y = self.spacing()
if wid is not None:
space_x += wid.style().layoutSpacing(
QSizePolicy.PushButton, QSizePolicy.PushButton, Qt.Horizontal)
space_y += wid.style().layoutSpacing(
QSizePolicy.PushButton, QSizePolicy.PushButton, Qt.Vertical)
next_x = x + item.sizeHint().width() + space_x
if next_x - space_x > effective_rect.right() and line_height > 0:
x = effective_rect.x()
y = y + line_height + space_y
next_x = x + item.sizeHint().width() + space_x
line_height = 0
if not test_only:
item.setGeometry(QRect(QPoint(x, y), item.sizeHint()))
x = next_x
line_height = max(line_height, item.sizeHint().height())
new_height = y + line_height - rect.y()
self.heightChanged.emit(new_height)
return new_height
if __name__ == '__main__':
app = QApplication(sys.argv)
mainWin = Window()
mainWin.show()
sys.exit(app.exec_())
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