script/eiger.py

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+from ijutils import *
+from ch.psi.pshell.imaging.Overlays import *
+from ch.psi.pshell.imaging.Utils import *
+import ch.psi.pshell.imaging.Pen as Pen
+import java.awt.Rectangle as Rectangle
+import ch.psi.pshell.imaging.Data as Data
+import ch.psi.pshell.device.Camera.DataType as DataType
+import ch.psi.utils.Chrono as Chrono
+import subprocess
+import java.util.Arrays  as Arrays
+
+#GRAB_MIN_TIME = 1000
+CONTINOUS_MODE_MIN_TIME = 4000
+###############################################################################
+# ROI Integration
+###############################################################################
+
+
+def start_eiger_ioc():
+    print "IOC started"
+    
+    
+
+def stop_eiger_ioc():
+    print "IOC stopped"   
+
+
+def integrate_roi(source, x,y, w, h):
+    if source.data is None:
+        source.update()
+    rect = Rectangle(x,y, w, h)
+    roi = source.data.getRoi(rect)
+
+    outliers_mask = get_outliers_mask()
+    if outliers_mask is not None:
+        mask = outliers_mask.getRoi(rect)
+        roi.mult(mask)
+            
+    outliers_threshold = get_outliers_threshold()
+    if outliers_threshold>0:
+        roi.threshold(outliers_threshold, False, 0.0)    
+
+    return roi.integrate(False)
+
+
+class RoiIntensitySourceListener (ImageListener):
+    def __init__(self, parent):
+        self.parent = parent
+    def onImage(self, origin, image, data):
+        self.parent.update()
+    def onError(self, origin, ex):
+        pass
+        
+
+class RoiIntensity(ReadonlyRegisterBase):
+    def __init__(self, name, source, x,y, w, h):
+        ReadonlyRegisterBase.__init__(self, name)
+        self.source=source
+        self.roi = x,y, w, h
+        self.source_listener = RoiIntensitySourceListener(self)
+        
+    def doRead(self):
+        x,y, w, h = self.roi
+        
+        ret= integrate_roi(self.source, x,y, w, h)
+        print "Read " + self.name + " -> " + str(ret)
+        return ret
+
+    def doSetMonitored(self, value):
+        if value:
+            self.source.addListener(self.source_listener)
+        else:
+            self.source.removeListener(self.source_listener)
+
+    def doClose(self):
+         self.source.removeListener(self.source_listener)
+
+def create_roi_devices(roi_list, add = True):  
+    rois = []
+    for r in roi_list:
+        roi = RoiIntensity(r, image, roi_list[r][0], roi_list[r][1], roi_list[r][2], roi_list[r][3])
+        if add:
+            add_device(roi, True)
+        rois.append(roi)
+    return rois
+    
+###############################################################################
+# Frame integration
+###############################################################################
+#chrono_grab= Chrono()
+def grab_frame(source, roi=None, wait_next=False, outliers_threshold=None, outliers_mask=None, retries=None, timeout=None):  
+    global eiger_averaging_number_of_samples #, chrono_grab
+    
+    #chrono_grab.waitTimeout(GRAB_MIN_TIME)
+    if outliers_threshold is None:
+         outliers_threshold = get_outliers_threshold()
+    if outliers_mask is None:
+         outliers_mask = get_outliers_mask()
+    if wait_next:
+        if retries is None:
+            retries = 3
+        if timeout is None:
+            timeout=10.0
+        exposures = 1 if (eiger_averaging_number_of_samples is None) else eiger_averaging_number_of_samples
+        retries=max(retries,1)    
+        timeout = 5000
+        for try_count  in range(retries):                                 
+            try:
+                start =time.time()
+                id = image.take()
+                print "Waiting next " 
+                source.waitNext(timeout)
+                #det.update()
+                #time.sleep(1)
+                print "Waiting done ", str(time.time()-start), "  ", str(id), "->", str(image.take())
+                break
+            except java.util.concurrent.TimeoutException:
+                if try_count == (retries-1):
+                    raise
+                msg =  "Eiger timeout - retrying #" + str(try_count)
+                print msg
+                log(msg)
+                
+    #ret = load_image(Utils.grayscale(source.output, Rectangle(roi[0], roi[1], roi[2], roi[3]) if (roi is not None) else None))
+    time.sleep(0.01)
+    data=source.data
+    if roi is not None:
+        data = data.getRoi(Rectangle(roi[0], roi[1], roi[2], roi[3]))
+    #ret = load_image(img)
+    if outliers_mask is not None:
+        data.mult(outliers_mask)
+    if outliers_threshold>0:
+        data.threshold(outliers_threshold, False, None)
+    #chrono_grab = Chrono()
+    return data
+    
+def grab_frames(source, samples, roi=None, wait_next=False, sleep=0, outliers_threshold=None, outliers_mask=None, retries=None, timeout=None):
+    frames = []            
+    for i in range(samples):
+        if (i>0) and (sleep>0):
+            time.sleep(sleep)
+        aux = grab_frame(source, roi, wait_next, outliers_threshold, outliers_mask, retries, timeout)        
+        frames.append(aux)        
+    return frames
+    
+def integrate_frames(frames):
+    if frames is None or (len(frames)==0):
+        return None
+    ret = frames[0].copy()
+    for data in frames[1:]:
+        ret.sum(data)
+    return ret
+
+f,f1,f2=None, None, None
+def average_frames(frames):  
+    global f,f1,f2
+    f1,f2 = frames
+    ret = integrate_frames(frames)
+    if ret is not None:
+        ret.div(len(frames))    
+    f=ret    
+    return ret 
+
+
+def _timestamp(prec=0):
+    t = time.time()
+    s = time.strftime("%y/%m/%d %H:%M:%S", time.localtime(t))
+    if prec > 0:
+        s += ("%.9f" % (t % 1,))[1:2+prec]
+    return s
+
+def _save_as_tiff(data, filename, check=False, show = False, metadata={}):
+    if type(data) == Data:
+        ip = load_array(data.matrix)
+    else:
+        ip = data
+    #info = "Timestamp: " + _timestamp(3)
+    #for key,val in metadata.items():
+    #    info = info + "\n" + str(key) + ": " + str(val)
+    #print "Info:" ,info
+    #ip.setProperty("Info", info)
+    metadata["Timestamp"] = time.strftime("%y/%m/%d %H:%M:%S",time.localtime())
+    if not os.path.exists(os.path.dirname(filename)):
+        os.makedirs(os.path.dirname(filename))    
+    save_image(ip, filename,"tiff", metadata)    
+
+    #finfo = open(filename + ".info", "w")
+    #for k, v in metadata.items():
+    #    finfo.write(str(k) + ': '+ str(v) + '\n')
+    #info.close()    
+    
+    if check:        
+        data = get_ip_array(ip)
+        
+        ip=open_image(filename)
+        read = get_ip_array(ip)        
+        if not Arrays.deepEquals(read, data):
+            print  "Error checking array"  
+    
+def save_as_tiff(data, filename, check=False, show = False, parallel=True, metadata={}):
+    if parallel:
+        return fork((_save_as_tiff,(data, filename, check, show, metadata)),)
+    else:
+        _save_as_tiff(data, filename, check, show, metadata)
+
+def trigger_eiger(wait=True):
+    if wait:
+        image.waitNext(20000)
+
+def get_eiger_exposure_readback():
+    return 1.0
+            
+def set_exposure_time(value, check = True, retries=5):
+    pass
+    
+def get_eiger_number_of_frames():
+    return 1
+
+def set_eiger_number_of_frames(value, check = True):
+    pass
+        
+    #Wait for channel to chenge
+
+def stop_eiger():
+    pass
+
+chrono_eiger = Chrono()
+
+def init_eiger(exposure=None, check=True, retries=2):
+    """
+    Set Eiger scan mode
+    """
+    pass
+                
+def restore_eiger(check=True, retries=2, exposure_time = 0.2):
+    """
+    Set Eiger default mode
+    """
+    pass
+
+def is_averaging_detector():
+    return False
+
+eiger_averaging_number_of_samples=None
+
+def apply_averaging_detector(value):
+    pass
+        
+    
+def average_eiger_frames(samples, roi=None, wait_next=False, sleep=0, outliers_threshold=None, outliers_mask=None, retries=None, timeout=None):
+    global eiger_averaging_number_of_samples #, chrono_eiger
+    sample = int(samples)
+    ret = grab_frames(image, samples, roi, wait_next, sleep, outliers_threshold, outliers_mask, retries, timeout)
+    #print "Averaging frames " + str(len(ret)) + " " + str(ret[0].integrate(False)) + " " + str(ret[1].integrate(False)) + " " + str(ret[0].equals(ret[1])) 
+    print "Averaging frames " 
+              
+    av = average_frames(ret) if samples > 1 else ret[0]
+    """
+    for name,r in ROI.items():
+          s, s1, s2 =0.0, 0.0, 0.0
+          for i in range(r[2]):
+            for j in range(r[3]):
+                #s = s + d[r[0]+i][r[1]+j]
+                s = s + av.getElement(r[0]+i, r[1]+j, False)
+                s1 = s1 + ret[0].getElement(r[0]+i, r[1]+j, False)
+                s2 = s2 + ret[1].getElement(r[0]+i, r[1]+j, False)
+          
+          print "- ", name, s, s1,s2
+    """      
+    return av
+
+
+_outliers_mask_timestamp = 0
+_outliers_mask = None
+
+def get_outliers_mask(data_type='f'):
+    global _outliers_mask_timestamp, _outliers_mask
+    
+    if get_exec_pars().start == _outliers_mask_timestamp:
+        return _outliers_mask
+    _outliers_mask_timestamp = get_exec_pars().start 
+    try:        
+        _outliers_mask = None
+        filename = get_outliers_mask_file()
+        if filename:
+            ip=open_image(filename)
+            
+            #TRANSPOSE - ImageJ stores the data transposed
+            ip.getProcessor().rotate(-90)
+            ip.getProcessor().flipVertical()
+
+            array = get_ip_array(ip)
+            array = Convert.toPrimitiveArray(array, ScriptUtils.getType(data_type))
+            _outliers_mask = Data(array)
+            print "Generated outliers mask"
+    except:
+        pass
+    return _outliers_mask
+
+
+    
+
+if False:  
+    integrate_roi(image, 10, 5, 20, 10)
+            
+    add_device(RoiIntensity("Region1", image, 10, 5, 20, 10), True)
+    add_device(RoiIntensity("Region2", image, 10, 5, 40, 20), True)
+    
+    
+    import ch.psi.pshell.data.ProviderCSV as ProviderCSV 
+    ProviderCSV.setDefaultItemSeparator(" ")
+    tscan((Region1, Region2), 10, 0.1, layout="table", provider = "csv")
+    
+    ret = grab_frames(image, 10, sleep=0.1)
+    av = integrate_frames(ret)
+    save_as_tiff(av,"{images}/data.tif", True)
+
+
+    print "Success"
+    
+    
+    
+