Update morphocut.py

morphocut/morphocut.py

@@ -22,95 +22,148 @@ from morphocut.stat import RunningMedian
 from morphocut.str import Format
 from morphocut.stream import TQDM, Enumerate
 
-# import_path = "/data-ssd/mschroeder/Datasets/Pyrocystis_noctiluca/RAW"
-import_path = "/home/pi/Desktop/PlanktonScope_acquisition/01_16_2020/afternoon/14_1"
-export_path = "/home/pi/Desktop/PlanktonScope_acquisition/01_16_2020/14_1_export"
-archive_fn = os.path.join(export_path, "14_1_morphocut_processed.zip")
+from skimage.feature import canny
+from skimage.color import rgb2gray, label2rgb
+from skimage.morphology import disk
+from skimage.morphology import erosion, dilation, closing
+from skimage.measure import label, regionprops
+
+
+import_path = "/media/tpollina/rootfs/home/pi/Desktop/PlanktonScope_acquisition/01_17_2020/RAW"
+export_path = "/media/tpollina/rootfs/home/pi/Desktop/PlanktonScope_acquisition/01_17_2020/"
+CLEAN = os.path.join(export_path, "CLEAN")
+os.makedirs(CLEAN, exist_ok=True)
+
+
+OBJECTS = os.path.join(export_path, "OBJECTS")
+os.makedirs(OBJECTS, exist_ok=True)
+
+archive_fn = os.path.join(export_path, "ecotaxa_export.zip")
 
 # Meta data that is added to every object
 global_metadata = {
     "acq_instrument": "Planktoscope",
     "process_datetime": datetime.datetime.now(),
+    "sample_project": "PlanktonScope Villefranche",
+    "sample_ship": "Kayak de Fabien",
+    "sample_operator": "Thibaut Pollina",
+    "sample_id": "Flowcam_PlanktonScope_comparison",
+    "sample_sampling_gear": "net",
+    "sample_time":150000,
+    "sample_date":16112020,
+    "object_lat": 43.696146,
+    "object_lon": 7.308359,
+    "acq_fnumber_objective": 16,
+    "acq_celltype": 200,
+    "process_pixel": 1.19,
+    "acq_camera": "Pi Camera V2.1",
+    "acq_instrument": "PlanktonScope V2.1",
+    "acq_software": "Node-RED Dashboard and raw python",
+    "acq_instrument_ID": "copepode",
+    "acq_volume": 24,
+    "acq_flowrate": "Unknown",
+    "acq_camera.resolution" : "(3280, 2464)",
+    "acq_camera.iso" : 60,
+    "acq_camera.shutter_speed" : 100,
+    "acq_camera.exposure_mode" : 'off',
+    "acq_camera.awb_mode" : 'off',
+    "acq_nb_frames" : 1000
 }
 
-if __name__ == "__main__":
-    print("Processing images under {}...".format(import_path))
+# Define processing pipeline
+with Pipeline() as p:
+    # Recursively find .jpg files in import_path.
+    # Sort to get consective frames.
+    abs_path = Find(import_path, [".jpg"], sort=True, verbose=True)
 
-    # Create export_path in case it doesn't exist
-    os.makedirs(export_path, exist_ok=True)
+    # Extract name from abs_path
+    name = Call(lambda p: os.path.splitext(os.path.basename(p))[0], abs_path)
 
-    # Define processing pipeline
-    with Pipeline() as p:
-        # Recursively find .jpg files in import_path.
-        # Sort to get consective frames.
-        abs_path = Find(import_path, [".jpg"], sort=True, verbose=True)
+    # Read image
+    img = ImageReader(abs_path)
 
-        # Extract name from abs_path
-        name = Call(lambda p: os.path.splitext(os.path.basename(p))[0], abs_path)
+    # Apply running median to approximate the background image
+    flat_field = RunningMedian(img, 10)
+    
+    # Correct image
+    img = img / flat_field
+    
+    # Rescale intensities and convert to uint8 to speed up calculations
+    img = RescaleIntensity(img, in_range=(0, 1.1), dtype="uint8")
 
-        # Read image
-        img = ImageReader(abs_path)
+    # Convert image to uint8 gray
+    img_gray = RGB2Gray(img)
 
-        # Apply running median to approximate the background image
-        flat_field = RunningMedian(img, 10)
+    img_gray = Call(img_as_ubyte, img_gray)
 
-        # Correct image
-        img = img / flat_field
+    img_canny = Call(canny, img_gray, sigma=0.3)
 
-        # Rescale intensities and convert to uint8 to speed up calculations
-        img = RescaleIntensity(img, in_range=(0, 1.1), dtype="uint8")
+    img_dilate = Call(dilation, img_canny)
 
-        # Show progress bar for frames
-        TQDM(Format("Frame {name}", name=name))
+    img_closing = Call(closing, img_dilate)
 
-        # Convert image to uint8 gray
-        img_gray = RGB2Gray(img)
-        img_gray = Call(img_as_ubyte, img_gray)
+    mask = Call(erosion, img_closing)
 
-        # Apply threshold find objects
-        threshold = 204  # Call(skimage.filters.threshold_otsu, img_gray)
-        mask = img_gray < threshold
+    # Show progress bar for frames
+    TQDM(Format("Frame {name}", name=name))
+    
+    # Apply threshold find objects
+    #threshold = 204  # Call(skimage.filters.threshold_otsu, img_gray)
+    #mask = img_gray < threshold
 
-        # Write corrected frames
-        frame_fn = Format(os.path.join(export_path, "{name}.jpg"), name=name)
-        ImageWriter(frame_fn, img)
+    # Write corrected frames
+    frame_fn = Format(os.path.join(CLEAN, "{name}.jpg"), name=name)
+    ImageWriter(frame_fn, img)
 
-        # Find objects
-        regionprops = FindRegions(
-            mask, img_gray, min_area=100, padding=10, warn_empty=name
-        )
+    # Find objects
+    regionprops = FindRegions(
+        mask, img_gray, min_area=1000, padding=10, warn_empty=name
+    )
 
-        # For an object, extract a vignette/ROI from the image
-        roi_orig = ExtractROI(img, regionprops, bg_color=255)
-        roi_gray = ExtractROI(img_gray, regionprops, bg_color=255)
+    # For an object, extract a vignette/ROI from the image
+    roi_orig = ExtractROI(img, regionprops, bg_color=255)
 
-        # Generate an object identifier
-        i = Enumerate()
-        object_id = Format("{name}_{i:d}", name=name, i=i)
+    roi_orig
+    # Generate an object identifier
+    i = Enumerate()
+    #Call(print,i)
 
-        # Calculate features. The calculated features are added to the global_metadata.
-        # Returns a Variable representing a dict for every object in the stream.
-        meta = CalculateZooProcessFeatures(
-            regionprops, prefix="object_", meta=global_metadata
-        )
-        # If CalculateZooProcessFeatures is not used, we need to copy global_metadata into the stream:
-        # meta = Call(lambda: global_metadata.copy())
-        # https://github.com/morphocut/morphocut/issues/51
+    object_id = Format("{name}_{i:d}", name=name, i=i)
+    #Call(print,object_id)
+    
+    object_fn = Format(os.path.join(OBJECTS, "{name}.jpg"), name=object_id)
+    ImageWriter(object_fn, roi_orig)
 
-        # Add object_id to the metadata dictionary
-        meta["object_id"] = object_id
 
-        # Generate object filenames
-        orig_fn = Format("{object_id}.jpg", object_id=object_id)
-        gray_fn = Format("{object_id}-gray.jpg", object_id=object_id)
+    # Calculate features. The calculated features are added to the global_metadata.
+    # Returns a Variable representing a dict for every object in the stream.
+    meta = CalculateZooProcessFeatures(
+        regionprops, prefix="object_", meta=global_metadata
+    )
+    # If CalculateZooProcessFeatures is not used, we need to copy global_metadata into the stream:
+    # meta = Call(lambda: global_metadata.copy())
+    # https://github.com/morphocut/morphocut/issues/51
 
-        # Write objects to an EcoTaxa archive:
-        # roi image in original color, roi image in grayscale, metadata associated with each object
-        EcotaxaWriter(archive_fn, [(orig_fn, roi_orig), (gray_fn, roi_gray)], meta)
+    # Add object_id to the metadata dictionary
+    meta["object_id"] = object_id
 
-        # Progress bar for objects
-        TQDM(Format("Object {object_id}", object_id=object_id))
+    # Generate object filenames
+    orig_fn = Format("{object_id}.jpg", object_id=object_id)
 
-    # Execute pipeline
-    p.run()
+    # Write objects to an EcoTaxa archive:
+    # roi image in original color, roi image in grayscale, metadata associated with each object
+    EcotaxaWriter(archive_fn, (orig_fn, roi_orig), meta)
 
+    # Progress bar for objects
+    TQDM(Format("Object {object_id}", object_id=object_id))
+
+
+import datetime
+
+BEGIN = datetime.datetime.now()
+# Execute pipeline
+p.run() 
+
+END = datetime.datetime.now()
+
+print("MORPHOCUT    :"+str(END-BEGIN))