added function for detecting external edges

2022-02-01 19:25:05 +01:00 · 2022-02-01 19:25:05 +01:00 · bb5083d419
commit bb5083d419
parent a68f89af03
1 changed files with 56 additions and 27 deletions
--- a/table_parsing/table_parsig.py
+++ b/table_parsing/table_parsig.py
@ -6,6 +6,7 @@ import pdf2image
 from matplotlib import pyplot as plt
 from timeit import timeit

+
 def parse(image: np.array):
    gray_scale = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
    th1, img_bin = cv2.threshold(gray_scale, 200, 255, cv2.THRESH_BINARY)
@ -17,26 +18,40 @@ def parse(image: np.array):

    img_bin_h = cv2.morphologyEx(img_bin, cv2.MORPH_OPEN, kernel_h)
    img_bin_v = cv2.morphologyEx(img_bin, cv2.MORPH_OPEN, kernel_v)
+    # print([cv2.countNonZero(row) for row in img_bin_v])

    img_bin_final = img_bin_h | img_bin_v

-    _, labels, stats, _ = cv2.connectedComponentsWithStats(~img_bin_final, connectivity=8, ltype=cv2.CV_32S)
+    find_and_close_edges(img_bin_final)

+    _, labels, stats, _ = cv2.connectedComponentsWithStats(~img_bin_final, connectivity=8, ltype=cv2.CV_32S)
    return labels, stats


 # def filter_unconnected_cells(stats):
 #     filtered_cells = []
-#     for i, val in enumerate(stats[2:]):
-#         x, y, w, h, area = stats[i][0], stats[i][1], stats[i][2], stats[i][3], stats[i][4]
+#     for left, middle, right in zip(stats[0:], stats[1:], list(stats[2:])+[None]):
+#         x, y, w, h, area = middle
 #         if w > 35 and h > 13 and area > 500:
-#             # print(stats[i])
-#             if y == stats[i - 1][1] or y == stats[i + 1][1]:
-#                 filtered_cells.append(stats[i])
+#             if y == left[1] or y == right[1]:
+#                 filtered_cells.append(middle)
 #     return filtered_cells
-#
-#
-#
+
+def filter_unconnected_cells(stats):
+    filtered_cells = []
+    # print(stats)
+    for left, middle, right in zip(stats[0:], stats[1:], list(stats[2:]) + [np.array([None, None, None, None, None])]):
+        x, y, w, h, area = middle
+        if w > 35 and h > 13 and area > 500:
+            if right[1] is None:
+                if y == left[1] or x == left[0]:
+                    filtered_cells.append(middle)
+            else:
+                if y == left[1] or y == right[1] or x == left[0] or x == right[0]:
+                    filtered_cells.append(middle)
+    return filtered_cells
+
+
 # def annotate_image(image, stats):
 #     stats = filter_unconnected_cells(stats)
 #     for i,val in enumerate(stats):
@ -50,30 +65,47 @@ def parse(image: np.array):
 #             cv2.putText(image, anno, (xann, yann), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (255, 0, 255), 2)
 #
 #     return image
-
 def annotate_image(image, stats):
-    print(stats.shape)
-    for i in range(2, len(stats)):
-        x, y, w, h, area = stats[i][0], stats[i][1], stats[i][2], stats[i][3], stats[i][4]
-        if w > 35 and h > 13 and area > 500:
-            # print(stats[i])
-            if y == stats[i - 1][1] or y == stats[i + 1][1]:
-                cv2.rectangle(image, (x, y), (x + w, y + h), (255, 0, 255), 2)
-
-                for i, (s, v) in enumerate(zip(["x", "y", "w", "h"], [x, y, w, h])):
-                    anno = f"{s} = {v}"
-                    xann = int(x + 5)
-                    yann = int(y + h - (20 * (i + 1)))
-                    cv2.putText(image, anno, (xann, yann), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (255, 0, 255), 2)
+    stats = filter_unconnected_cells(stats)
+    for stat in stats:
+        x, y, w, h, area = stat
+        cv2.rectangle(image, (x, y), (x + w, y + h), (255, 0, 255), 2)
+        for i, (s, v) in enumerate(zip(["x", "y", "w", "h"], [x, y, w, h])):
+            anno = f"{s} = {v}"
+            xann = int(x + 5)
+            yann = int(y + h - (20 * (i + 1)))
+            cv2.putText(image, anno, (xann, yann), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (255, 0, 255), 2)

    return image


+def find_and_close_edges(img_bin_final):
+    contours, hierarchy = cv2.findContours(img_bin_final, cv2.RETR_TREE, cv2.CHAIN_APPROX_SIMPLE)
+    # contoured_img = cv2.drawContours(img_bin_final,contours, -1,(255,255,255),2)
+    for cnt in contours:
+        missing_external_edges = True
+        left = tuple(cnt[cnt[:, :, 0].argmin()][0])
+        right = tuple(cnt[cnt[:, :, 0].argmax()][0])
+        top = tuple(cnt[cnt[:, :, 1].argmin()][0])
+        bottom = tuple(cnt[cnt[:, :, 1].argmax()][0])
+        topleft = [left[0] + 1, top[1]]
+        bottomright = [right[0] - 1, bottom[1]]
+
+        for arr in cnt:
+            if np.array_equal(arr, np.array([bottomright])) or np.array_equal(arr, np.array([topleft])):
+                missing_external_edges = False
+                break
+
+        if missing_external_edges:
+            cv2.rectangle(img_bin_final, tuple(topleft), tuple(bottomright), (255,255,255) , 2)
+
+    return img_bin_final
+
+
 def parse_tables_in_pdf(pages):
    return zip(map(parse, pages), count())


-
 def annotate_tables_in_pdf(pdf_path, page_index=1):
    timeit()
    page = pdf2image.convert_from_path(pdf_path, first_page=page_index + 1, last_page=page_index + 1)[0]
@ -86,6 +118,3 @@ def annotate_tables_in_pdf(pdf_path, page_index=1):
    fig.set_size_inches(20, 20)
    ax.imshow(page)
    plt.show()
-
-
-