andy/python_tools
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

分析工具支持修改上下限时重绘图像

Browse Source
This commit is contained in:
ranchuan
2023-11-21 20:30:26 +08:00
parent 243650537b
commit fcfaf8864e
3 changed files with 158 additions and 55 deletions
Download Patch File Download Diff File Expand all files Collapse all files

156
analysis/analysis.py
View File

@@ -21,57 +21,101 @@ import build_html
plt.rcParams['font.sans-serif']=['SimHei']
plt.rcParams['axes.unicode_minus']=False
plt.rcParams['figure.max_open_warning'] = False
# 定义一个可以嵌入到qt的figure
class QFigure(QObject):
def __init__(self,title:str) -> None:
QObject.__init__(self)
self.__figure = plt.figure(figsize=(14,7))
self.__canvas = FigureCanvas(self.__figure)
self.__ax = self.__figure.add_axes([0.1,0.1,0.8,0.8])
self.__ax.set_title(title)
self._figure = plt.figure(figsize=(14,7))
self._canvas = FigureCanvas(self._figure)
self._ax = self._figure.add_axes([0.1,0.1,0.8,0.8])
self._ax.set_title(title)
self._title=title
self._line_min=None
self._line_max=None
self._max=0
self._min=0
def draw(self,x,y,lable:str=None,limit_max:int=None,limit_min:int=None):
line,=self.__ax.plot(x,y,)
def set_lines(self,x,y,lable:str=None,limit_max:int=None,limit_min:int=None):
line,=self._ax.plot(x,y,)
if(lable!=None):
line.set_label(lable)
self.__ax.legend()
if(limit_max!=None):
self.__ax.axhline(y=limit_max,color='g',linestyle='--')
if(limit_min!=None):
self.__ax.axhline(y=limit_min,color='r',linestyle='--')
# start, end = self.__ax.get_ylim()
# self.__ax.yaxis.set_ticks(np.arange(start, end,(end-start)/20),minor=True)
# ticks=self.__ax.yaxis.get_ticklocs()
# self.__ax.yaxis.set_ticks(minor=True)
# self.__ax.yaxis.set_ticks(ticks)
self.__ax.grid(visible=True,which="major",axis="y")
self.__canvas.draw()
self._ax.legend()
self.set_max(limit_max)
self.set_min(limit_min)
self._ax.grid(visible=True,which="major",axis="y")
def draw(self):
# start, end = self._ax.get_ylim()
start=self._min
end=self._max
step=(end-start)//20
bond=(end-start)//100+1
self._ax.set_ylim(start-bond,end+bond)
if(step>0):
ticks=np.arange(start, end,step)
self._ax.yaxis.set_ticks(ticks,minor=True)
# ticks=self._ax.yaxis.get_ticklocs()
# self._ax.yaxis.set_ticks(minor=True)
# self._ax.yaxis.set_ticks(ticks)
# self._ax.autoscale(enable=True, axis='both', tight=None)
self._canvas.draw()
def set_max(self,limit_max:int=None):
if(limit_max is not None):
if(self._line_max is not None):
self._line_max.remove()
self._line_max=None
print("remove max line")
self._line_max=self._ax.axhline(y=limit_max,color='g',linestyle='--')
self._max=limit_max
def set_min(self,limit_min:int=None):
if(limit_min is not None):
if(self._line_min is not None):
print("remove min line")
self._line_min.remove()
self._line_min=None
self._line_min=self._ax.axhline(y=limit_min,color='r',linestyle='--')
self._min=limit_min
def save(self,path:str,perfix:str):
path=os.path.join(path,"pic")
if not os.path.exists(path):
os.makedirs(path)
name=os.path.join(path,perfix+self._title)
self.__figure.savefig(name+'.png')
self._figure.savefig(name+'.png')
def lable(self,lablex,labley):
self.__ax.set_ylabel(labley)
self.__ax.set_xlabel(lablex)
self._ax.set_ylabel(labley)
self._ax.set_xlabel(lablex)
def canvas(self):
return self.__canvas
return self._canvas
# 定义一个任务需要的参数布局
class TParamLayout(QObject):
def __init__(self) -> None:
item_change_signal =pyqtSignal([int,str,str])
def __init__(self,index) -> None:
QObject.__init__(self)
self.__layout=QFormLayout()
self.__items=[]
self._layout=QFormLayout()
self._items=[]
self._index=index
def change_slot(self,text:str):
edit=self.sender()
# name=self.find_label(edit)
# print(edit.text()) 不用转换类型,直接就可以用 QLineEdit 的方法
name=edit.objectName()
# print(name,"text changed",text)
self.item_change_signal.emit(self._index,name,text)
def find_label(self,edit):
for i in self._items:
if(i[1]==edit):
return i[0].text()
return "none"
def add_item(self,name:str,value:str="",tooltip:str=None):
line_edit = QLineEdit()
line_edit.setObjectName(value)
line_edit.setObjectName(name)
line_edit.setText(value)
line_edit.textChanged.connect(self.change_slot)
line_edit_label = QLabel()
line_edit_label.setObjectName(name)
line_edit_label.setText(name)
@@ -79,20 +123,20 @@ class TParamLayout(QObject):
if(tooltip!=None):
line_edit_label.setToolTip(tooltip)
line_edit.setToolTip(tooltip)
self.__layout.addRow(line_edit_label,line_edit)
self.__items.append((line_edit_label,line_edit))
self._layout.addRow(line_edit_label,line_edit)
self._items.append((line_edit_label,line_edit))
def item_value(self,name:str):
for i in self.__items:
for i in self._items:
if(i[0].text()==name):
return i[1].text()
return None
def values(self):
vals=[]
for i in self.__items:
for i in self._items:
vals.append((i[0].text(),i[1].text()))
return vals
def layout(self):
return self.__layout
return self._layout
class Analysis(QWidget):
data_recv_end_signal =pyqtSignal([list,list])
@@ -102,18 +146,28 @@ class Analysis(QWidget):
self.setWindowTitle("检测数据分析")
self.calc_item_end_signal.connect(self.calc_item_end_slot)
self.data_recv_end_signal.connect(self.data_recv_end_slot)
self.__import_but = QPushButton("导入方案",self)
self.__import_but.clicked.connect(self.import_but_clicked)
self.__import_but.setGeometry(QRect(0,0,100,27))
self.__export_but = QPushButton("导出数据")
self.__export_but.clicked.connect(self.export_but_clicked)
self._import_but = QPushButton("导入方案",self)
self._import_but.clicked.connect(self.import_but_clicked)
self._import_but.setGeometry(QRect(0,0,100,27))
self._export_but = QPushButton("导出数据")
self._export_but.clicked.connect(self.export_but_clicked)
self.__scroll=QScrollArea(self)
self.__scroll.setGeometry(0,30,1230,700)
self._scroll=QScrollArea(self)
self._scroll.setGeometry(0,30,1230,700)
# 设置布局
self.__layout = QFormLayout()
self.__layout.addRow(' ',self.__export_but)
self.__items=[]
self._layout = QFormLayout()
self._layout.addRow(' ',self._export_but)
self._items=[]
def item_changed_slot(self,index:int,name:str,value:str):
print(index,name,value)
if(len(value)==0):
return
figure=self._items[index][0]
if(name.find("LimitMax")>=0):
figure.set_max(int(value))
if(name.find("LimitMin")>=0):
figure.set_min(int(value))
figure.draw()
def add_item(self,data_dict:dict):
data=data_dict["data"]
x=data_dict["x"]
@@ -129,7 +183,7 @@ class Analysis(QWidget):
y=data_dict["y"]
figure = QFigure(name)
figure.lable("序号","数值")
tplayout=TParamLayout()
tplayout=TParamLayout(self._item_index)
tplayout.add_item(name+":Max",str(max))
tplayout.add_item(name+":Min",str(min))
tplayout.add_item(name+":Avg",str(avg))
@@ -137,11 +191,13 @@ class Analysis(QWidget):
tplayout.add_item(name+":Std",str(std))
tplayout.add_item(name+":LimitMax",str(limit_max))
tplayout.add_item(name+":LimitMin",str(limit_min))
self.__layout.addRow(figure.canvas(),tplayout.layout())
figure.draw(range(len(data)),data,lable="原始值",limit_max=limit_max,limit_min=limit_min)
figure.draw(dat_count,y,lable="权重")
tplayout.item_change_signal.connect(self.item_changed_slot)
self._layout.addRow(figure.canvas(),tplayout.layout())
figure.set_lines(range(len(data)),data,lable="原始值",limit_max=limit_max,limit_min=limit_min)
figure.set_lines(dat_count,y,lable="权重")
figure.draw()
# figure.save(self._save_path,str(self._item_index)+".")
self.__items.append((figure,tplayout,self._item_index))
self._items.append((figure,tplayout,self._item_index))
self._item_index+=1
def calc_item_end_slot(self,data:list):
print("calc_item end.")
@@ -149,8 +205,8 @@ class Analysis(QWidget):
widget.setGeometry(QRect(0,0,1200,20000))
for i in data:
self.add_item(i)
widget.setLayout(self.__layout)
self.__scroll.setWidget(widget)
widget.setLayout(self._layout)
self._scroll.setWidget(widget)
def calc_item(self,data,name:str):
length=len(data)
@@ -188,7 +244,7 @@ class Analysis(QWidget):
# 连接的绘制的方法
def import_but_clicked(self):
self.sch_data=scheme_data.sch_data()
self.__import_but.setEnabled(False)
self._import_but.setEnabled(False)
ack=self.sch_data.select_scheme()
if(ack!=True):
return
@@ -219,7 +275,7 @@ class Analysis(QWidget):
def export_but_clicked(self):
ret_limit=[]
ret_values=[]
for i,t in zip(self.__items,self.titles):
for i,t in zip(self._items,self.titles):
max=i[1].item_value(t+":LimitMax")
min=i[1].item_value(t+":LimitMin")
ret_limit.append((max,min))

49
analysis/scheme_data.py
View File

@@ -325,5 +325,52 @@ class sch_data(object):
save_f.write(json_str.encode("utf-8"))
save_f.close()
print("scheme export end.")
# 显示所有方案文件的方案id
# 找到指定后缀的文件
def find_type(path:str,fix:str):
# path = os.getcwd()
# print("path",path)
list=os.listdir(path)
# print("list",list)
file_list=[]
for i in list:
ps=os.path.join(path, i)
if os.path.isdir(ps):
# print("path join",ps)
file_list+=find_type(ps,fix)
else:
if(ps[-len(fix):]==fix):
file_list.append(ps)
# print("file_list", file_list)
return file_list
def show_scheme_id(file_list):
id_list=[]
for i in file_list:
with open(i,"rb") as f:
json_obj=json.loads(f.read())
try:
id_list.append((i,json_obj["PlanID"]))
except Exception as e:
id_list.append((i,0))
return id_list
if __name__ == "__main__":
_main()
# _main()
file_list=find_type('./','.json')
id_list=show_scheme_id(file_list)
for i in id_list:
print(i[1],i[0])

8
updata/creat_slave_boot.py
View File

@@ -5,10 +5,10 @@ import json
import prottcp
BOOT_PATH ="file/checker_slave_boot_can.bin"
APP_PATH ="file/checker_slave_app_can.bin"
SCHEME_PATH = "file/YM硬件EX工厂注码091902--9.json"
OUT_PATH = "file/checker_slave_boot_can_.bin"
BOOT_PATH ="file/checker_slave_boot_uart--1.bin"
APP_PATH ="file/checker_slave_app_uart_20230912--2.bin"
SCHEME_PATH = "file/YM硬件EJ工厂注码103101--17.json"
OUT_PATH = "file/checker_slave_boot_uart_.bin"
# 创建离线下载器的镜像