バイナリファイルから読み込まれた画像データを表示しようとしています(ファイルからこのデータを取得し、QImage()で使用する画像として保存するためのコードを記述しています)。スライダーをグラフィックスビューウィジェットに接続して、スライダーを移動するとフレーム内を移動し、そのフレームの画像を表示できるようにします(これらは、長さが1〜500フレームのエコーグラムです)。私はPyQtに非常に慣れていないので、どうやってこれを始められるのか興味がありましたか?
from PyQt4.QtCore import *
from PyQt4.QtGui import *
import numpy as np
class FileHeader(object):
fileheader_fields= ("filetype","fileversion","numframes","framerate","resolution","numbeams","samplerate","samplesperchannel","receivergain","windowstart","winlengthsindex","reverse","serialnumber","date","idstring","ID1","ID2","ID3","ID4","framestart","frameend","timelapse","recordInterval","radioseconds","frameinterval","userassigned")
fileheader_formats=('S3','B','i4','i4','i4','i4','f','i4','i4','i4','i4','i4','i4','S32','S256','i4','i4','i4','i4','i4','i4','i4','i4','i4','i4','S136')
def __init__(self,filename,parent=None):
a=QApplication([])
filename=str(QFileDialog.getOpenFileName(None,"open file","C:/vprice/DIDSON/DIDSON Data","*.ddf"))
self.infile=open(filename, 'rb')
dtype=dict(names=self.fileheader_fields, formats=self.fileheader_formats)
self.fileheader=np.fromfile(self.infile, dtype=dtype, count=1)
self.fileheader_length=self.infile.tell()
for field in self.fileheader_fields:
setattr(self,field,self.fileheader[field])
def get_frame_first(self):
frame=Frame(self.infile)
print self.fileheader
self.infile.seek(self.fileheader_length)
print frame.frameheader
print frame.data
def __iter__(self):
self.infile.seek(self.fileheader_length)
for _ in range(self.numframes):
yield Frame(self.infile)
#def close(self):
#self.infile.close()
def display(self):
print self.fileheader
class Frame(object):
frameheader_fields=("framenumber","frametime","version","status","year","month","day","hour","minute","second","hsecond","transmit","windowstart","index","threshold","intensity","receivergain","degc1","degc2","humidity","focus","battery","status1","status2","velocity","depth","altitude","pitch","pitchrate","roll","rollrate","heading","headingrate","sonarpan","sonartilt","sonarroll","latitude","longitude","sonarposition","configflags","userassigned")
frameheader_formats=("i4","2i4","S4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","i4","S16","S16","f","f","f","f","f","f","f","f","f","f","f","f","f8","f8","f","i4","S60")
data_format="uint8"
def __init__(self,infile):
dtype=dict(names=self.frameheader_fields,formats=self.frameheader_formats)
self.frameheader=np.fromfile(infile,dtype=dtype,count=1)
for field in self.frameheader_fields:
setattr(self,field,self.frameheader[field])
ncols,nrows=96,512
self.data=np.fromfile(infile,self.data_format,count=ncols*nrows)
self.data=self.data.reshape((nrows,ncols))
class QEchogram():
def __init__(self):
self.__colorTable=[]
self.colorTable=None
self.threshold=[50,255]
self.painter=None
self.image=None
def echogram(self):
fileheader=FileHeader(self)
frame=Frame(fileheader.infile)
echoData=frame.data
#fileName = fileName
self.size=[echoData.shape[0],echoData.shape[1]]
# define the size of the data (and resulting image)
#size = [96, 512]
# create a color table for our image
# first define the colors as RGB triplets
colorTable = [(255,255,255),
(159,159,159),
(95,95,95),
(0,0,255),
(0,0,127),
(0,191,0),
(0,127,0),
(255,255,0),
(255,127,0),
(255,0,191),
(255,0,0),
(166,83,60),
(120,60,40),
(200,200,200)]
# then create a color table for Qt - this encodes the color table
# into a list of 32bit integers (4 bytes) where each byte is the
# red, green, blue and alpha 8 bit values. In this case we don't
# set alpha so it defaults to 255 (opaque)
ctLength = len(colorTable)
self.__ctLength=ctLength
__colorTable = []
for c in colorTable:
__colorTable.append(QColor(c[0],c[1],c[2]).rgb())
echoData = np.round((echoData - self.threshold[0])*(float(self.__ctLength)/(self.threshold[1]-self.threshold[0])))
echoData[echoData < 0] = 0
echoData[echoData > self.__ctLength-1] = self.__ctLength-1
echoData = echoData.astype(np.uint8)
self.data=echoData
# create an image from our numpy data
image = QImage(echoData.data, echoData.shape[1], echoData.shape[0], echoData.shape[1],
QImage.Format_Indexed8)
image.setColorTable(__colorTable)
# convert to ARGB
image = image.convertToFormat(QImage.Format_ARGB32)
# save the image to file
image.save(fileName)
self.image=QImage(self.size[0],self.size[1],QImage.Format_ARGB32)
self.painter=QPainter(self.image)
self.painter.drawImage(QRect(0.0,0.0,self.size[0],self.size[1]),image)
def getImage(self):
self.painter.end()
return self.image
def getPixmap(self):
self.painter.end()
return QPixmap.fromImage(self.image)
if __name__=="__main__":
data=QEchogram()
fileName="horizontal.png"
data.echogram()
dataH=data.data
print "Horizontal data", dataH