# Как реализовать кривую Безье(B-Splines) с возможностью редактирования опорных точек?

Кортеж - это точки, которые нужно редактировать.

``````import sys
import itertools

from PyQt5.QtWidgets import QWidget, QApplication, QMainWindow, QGraphicsScene
from PyQt5.QtGui import QPainter, QPainterPath
from PyQt5.QtCore import Qt, QSize

trajectories = [
[(50, 50), (280, 175), (150, 240)],
#[(80, 80), (210, 225), (300, 300), (340, 40)],
]

class MainWindow(QMainWindow):
def __init__(self):
super().__init__()
self.widthApp, self.heightApp  = 700, 550
self.initUI()

def initUI(self):
self.setMinimumSize(QSize(200, 200))
self.setGeometry(680, 400, self.widthApp, self.heightApp)
self.setWindowTitle('Traj')
self.show()

def paintEvent(self, e):
qp = QPainter()
qp.begin(self)
qp.setRenderHint(QPainter.Antialiasing)
self.drawLine(qp)
qp.end()

def drawLine(self, qp):
path = QPainterPath()
delta_x, delta_y = None, None

for trajectory in trajectories:
for x, y in trajectory:
if (delta_x is not None) and (delta_y is not None):
delta_x = min(x, delta_x)
delta_y = min(y, delta_y)
else:
delta_x, delta_y = x, y

def draw_trajectory(trajectory):

self.k_width = 1
self.k_height = 1

first_point_x, first_point_y = trajectory[0]
first_point_y = -first_point_y + self.height()

path.moveTo(first_point_x * self.k_width - delta_x, first_point_y * self.k_height + delta_y)

for x, y in trajectory[1:]:
y = -y + self.height()
path.lineTo(x * self.k_width - delta_x, y * self.k_height + delta_y)

for trajectory in trajectories:
draw_trajectory(trajectory)
qp.drawPath(path)

if __name__ == '__main__':
app = QApplication(sys.argv)
ex = MainWindow()
sys.exit(app.exec_())
``````

Пример готового сплайна

## 1 ответ

Не знаю правильно ли я вас понял, но это надо попробовать:

``````import sys
import itertools

from PyQt5.QtWidgets import QWidget, QApplication, QMainWindow, QGraphicsScene
from PyQt5.QtGui import QPainter, QPainterPath
from PyQt5.QtCore import Qt, QSize
from PyQt5.QtCore    import *
from PyQt5.QtGui     import *
from PyQt5.QtWidgets import *

trajectories = [
[(50, 50), (280, 175), (150, 240)],
[(80, 80), (210, 225), (300, 300), (340, 40)],
]

class Widget(QWidget):                                            # +++
def __init__(self, myList):
super().__init__()
self.setMaximumWidth(170)

self.spinBox1 = QSpinBox(value=myList[0])
self.spinBox1.setRange(0, 900)
self.spinBox1.setValue(myList[0])
self.spinBox1.setPrefix(" xPosStart:   ")
self.spinBox2 = QSpinBox(value=myList[1])
self.spinBox2.setRange(0, 900)
self.spinBox2.setValue(myList[1])
self.spinBox2.setPrefix(" yPosStart:   ")
self.spinBox3 = QSpinBox(value=myList[2])
self.spinBox3.setRange(0, 900)
self.spinBox3.setValue(myList[2])
self.spinBox3.setPrefix(" controlPoint1:   ")
self.spinBox4 = QSpinBox(value=myList[3])
self.spinBox4.setRange(0, 900)
self.spinBox4.setValue(myList[3])
self.spinBox4.setPrefix(" controlPoint2:   ")
self.spinBox5 = QSpinBox(value=myList[4])
self.spinBox5.setRange(0, 900)
self.spinBox5.setValue(myList[4])
self.spinBox5.setPrefix(" controlPoint3:   ")
self.spinBox6 = QSpinBox(value=myList[5])
self.spinBox6.setRange(0, 900)
self.spinBox6.setValue(myList[5])
self.spinBox6.setPrefix(" controlPoint4:   ")
self.spinBox7 = QSpinBox(value=myList[6])
self.spinBox7.setRange(0, 900)
self.spinBox7.setValue(myList[6])
self.spinBox7.setPrefix(" xPosEnd:   ")
self.spinBox8 = QSpinBox(value=myList[7])
self.spinBox8.setRange(0, 900)
self.spinBox8.setValue(myList[7])
self.spinBox8.setPrefix(" yPosEnd:   ")

self.layout = QVBoxLayout(self)
self.layout.setContentsMargins(0, 0, 0, 0)

class PaintWidget(QWidget):
def __init__(self, x, y, c1, c2, c3, c4, c5, c6, parent=None):
super(PaintWidget, self).__init__(parent)
self.widthApp, self.heightApp  = 700, 550
self.setGeometry(580, 120, self.widthApp, self.heightApp)

self.xPosStart = x
self.yPosStart = y
self.controlPoint1 = c1
self.controlPoint2 = c2
self.controlPoint3 = c3
self.controlPoint4 = c4
self.xPosEnd = c5
self.yPosEnd = c6

def paintEvent(self, e):
qp = QPainter()
qp.begin(self)
qp.setRenderHint(QPainter.Antialiasing)
self.drawLine(qp)

self.bezierCurve(qp)                                         # <<< +++

qp.end()

def bezierCurve(self, qp):                                       # <<< +++
''' Это добавляет кубическую кривую Безье между startPoint и endPoint
используя контрольные точки, указанные controlPoint1, и controlPoint2. '''
qp.setPen(QPen(QColor("red")))

""" или так:
startPoint    = QPointF(0, 0)
controlPoint1 = QPointF(100, 300)
controlPoint2 = QPointF(200, 100)
endPoint      = QPointF(300, 300)
cubicPath = QPainterPath(startPoint)
cubicPath.cubicTo(controlPoint1, controlPoint2, endPoint)
"""
# или так:
cubicPath = QPainterPath(QPointF(self.xPosStart, self.yPosStart))
cubicPath.cubicTo(self.controlPoint1, self.controlPoint2, self.controlPoint3,
self.controlPoint4, self.xPosEnd, self.yPosEnd)
qp.drawPath(cubicPath);

def drawLine(self, qp):
path = QPainterPath()
delta_x, delta_y = None, None

for trajectory in trajectories:
for x, y in trajectory:
if (delta_x is not None) and (delta_y is not None):
delta_x = min(x, delta_x)
delta_y = min(y, delta_y)
else:
delta_x, delta_y = x, y

def draw_trajectory(trajectory):
self.k_width  = 1
self.k_height = 1
first_point_x, first_point_y = trajectory[0]
first_point_y = -first_point_y + self.height()
path.moveTo(first_point_x * self.k_width - delta_x, first_point_y * self.k_height + delta_y)
for x, y in trajectory[1:]:
y = -y + self.height()
path.lineTo(x * self.k_width - delta_x, y * self.k_height + delta_y)
for trajectory in trajectories:
draw_trajectory(trajectory)
qp.drawPath(path)

class MainWindow(QMainWindow):
def __init__(self):
super().__init__()

myList = [0, 0, 100, 200, 600, 800, 500, 100]                      # +++

centralWidget = QWidget()
self.setCentralWidget(centralWidget)

self.widget = Widget(myList)
self.widget.spinBox1.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox2.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox3.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox4.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox5.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox6.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox7.valueChanged.connect(self.spinBoxChanged)
self.widget.spinBox8.valueChanged.connect(self.spinBoxChanged)

self.paintWidget = PaintWidget(self.widget.spinBox1.value(),
self.widget.spinBox2.value(),
self.widget.spinBox3.value(),
self.widget.spinBox4.value(),
self.widget.spinBox5.value(),
self.widget.spinBox6.value(),
self.widget.spinBox7.value(),
self.widget.spinBox8.value(),
)

self.grid = QHBoxLayout(centralWidget)
self.grid.setContentsMargins(0, 0, 0, 0)

def spinBoxChanged(self, v):
if self.sender().prefix() == " xPosStart:   ":       self.paintWidget.xPosStart = v
elif self.sender().prefix() == " yPosStart:   ":     self.paintWidget.yPosStart = v
elif self.sender().prefix() == " controlPoint1:   ": self.paintWidget.controlPoint1 = v
elif self.sender().prefix() == " controlPoint2:   ": self.paintWidget.controlPoint2 = v
elif self.sender().prefix() == " controlPoint3:   ": self.paintWidget.controlPoint3 = v
elif self.sender().prefix() == " controlPoint4:   ": self.paintWidget.controlPoint4 = v
elif self.sender().prefix() == " xPosEnd:   ":       self.paintWidget.xPosEnd = v
elif self.sender().prefix() == " yPosEnd:   ":       self.paintWidget.yPosEnd = v

self.paintWidget.update()

if __name__ == '__main__':
app = QApplication(sys.argv)
ex = MainWindow()
ex.setMinimumSize(QSize(200, 200))
ex.setGeometry(580, 120, 700, 500)
ex.setWindowTitle('Traj')
ex.show()
sys.exit(app.exec_())
``````

• @Иван так правильно ли я вас понял ? 29 мая '19 в 11:01