如何在OpenCV Python中加入附近的边界框
我正在做一个关于图像处理的大学课程项目。这是我的原始图片:
我想在单个文本行图像上加入附近/重叠的边界框,但是我不知道如何。到目前为止,我的代码看起来像这样(感谢@HansHirse的帮助):
import os
import cv2
import numpy as np
from scipy import stats
image = cv2.imread('example.png')
gray = cv2.cvtColor(image,cv2.COLOR_BGR2GRAY)
ret,thresh = cv2.threshold(gray,127,255,cv2.THRESH_BINARY_INV+cv2.THRESH_OTSU)
#dilation
kernel = np.ones((5,5), np.uint8)
img_dilation = cv2.dilate(thresh, kernel, iterations=1)
#find contours
ctrs, hier = cv2.findContours(img_dilation.copy(), cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)
# https://www.pyimagesearch.com/2015/04/20/sorting-contours-using-python-and-opencv/
def sort_contours(cnts, method="left-to-right"):
# initialize the reverse flag and sort index
reverse = False
i = 0
# handle if we need to sort in reverse
if method == "right-to-left" or method == "bottom-to-top":
reverse = True
# handle if we are sorting against the y-coordinate rather than
# the x-coordinate of the bounding box
if method == "top-to-bottom" or method == "bottom-to-top":
i = 1
# construct the list of bounding boxes and sort them from top to
# bottom
boundingBoxes = [cv2.boundingRect(c) for c in cnts]
(cnts, boundingBoxes) = zip(*sorted(zip(cnts, boundingBoxes),
key=lambda b: b[1][i], reverse=reverse))
# return the list of sorted contours and bounding boxes
return (cnts, boundingBoxes)
sortedctrs,sortedbbs=sort_contours(ctrs)
xyminmax=[]
for cnt in sortedctrs:
x, y, w, h = cv2.boundingRect(cnt)
xyminmax.append([x,y,x+w,y+h])
distances=[]
for i in range(len(xyminmax)):
try:
first_xmax = xyminmax[i][2]
second_xmin = xyminmax[i + 1][0]
distance=abs(second_xmin-first_xmax)
distances.append(distance)
except IndexError:
pass
THRESHOLD=stats.mode(distances, axis=None)[0][0]
new_rects=[]
for i in range(len(xyminmax)):
try:
# [xmin,ymin,xmax,ymax]
first_ymin=xyminmax[i][1]
first_ymax=xyminmax[i][3]
second_ymin=xyminmax[i+1][1]
second_ymax=xyminmax[i+1][3]
first_xmax = xyminmax[i][2]
second_xmin = xyminmax[i+1][0]
firstheight=abs(first_ymax-first_ymin)
secondheight=abs(second_ymax-second_ymin)
distance=abs(second_xmin-first_xmax)
if distance<THRESHOLD:
new_xmin=xyminmax[i][0]
new_xmax=xyminmax[i+1][2]
if first_ymin>second_ymin:
new_ymin=second_ymin
else:
new_ymin = first_ymin
if firstheight>secondheight:
new_ymax = first_ymax
else:
new_ymax = second_ymax
new_rects.append([new_xmin,new_ymin,new_xmax,new_ymax])
else:
new_rects.append(xyminmax[i])
except IndexError:
pass
for rect in new_rects:
cv2.rectangle(image, (rect[0], rect[1]), (rect[2], rect[3]), (121, 11, 189), 2)
cv2.imwrite("result.png",image)
产生以下图像:
我想加入非常接近或重叠的边界框
放入单个边界框,这样公式就不会分成单个字符。我尝试使用cv2.groupRectangles,但print的结果仅为NULL。
3 个答案:
答案 0 :(得分:1)
因此,这是我的解决方案。我将您的(初始)代码部分修改为我的首选命名,等等。此外,我还对所有内容进行了评论。
import cv2
import numpy as np
image = cv2.imread('images/example.png')
gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
_, thresh = cv2.threshold(gray, 127, 255, cv2.THRESH_BINARY_INV + cv2.THRESH_OTSU)
kernel = np.ones((5, 5), np.uint8)
img_dilated = cv2.dilate(thresh, kernel, iterations = 1)
cnts, _ = cv2.findContours(img_dilated.copy(), cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)
# Array of initial bounding rects
rects = []
# Bool array indicating which initial bounding rect has
# already been used
rectsUsed = []
# Just initialize bounding rects and set all bools to false
for cnt in cnts:
rects.append(cv2.boundingRect(cnt))
rectsUsed.append(False)
# Sort bounding rects by x coordinate
def getXFromRect(item):
return item[0]
rects.sort(key = getXFromRect)
# Array of accepted rects
acceptedRects = []
# Merge threshold for x coordinate distance
xThr = 5
# Iterate all initial bounding rects
for supIdx, supVal in enumerate(rects):
if (rectsUsed[supIdx] == False):
# Initialize current rect
currxMin = supVal[0]
currxMax = supVal[0] + supVal[2]
curryMin = supVal[1]
curryMax = supVal[1] + supVal[3]
# This bounding rect is used
rectsUsed[supIdx] = True
# Iterate all initial bounding rects
# starting from the next
for subIdx, subVal in enumerate(rects[(supIdx+1):], start = (supIdx+1)):
# Initialize merge candidate
candxMin = subVal[0]
candxMax = subVal[0] + subVal[2]
candyMin = subVal[1]
candyMax = subVal[1] + subVal[3]
# Check if x distance between current rect
# and merge candidate is small enough
if (candxMin <= currxMax + xThr):
# Reset coordinates of current rect
currxMax = candxMax
curryMin = min(curryMin, candyMin)
curryMax = max(curryMax, candyMax)
# Merge candidate (bounding rect) is used
rectsUsed[subIdx] = True
else:
break
# No more merge candidates possible, accept current rect
acceptedRects.append([currxMin, curryMin, currxMax - currxMin, curryMax - curryMin])
for rect in acceptedRects:
img = cv2.rectangle(image, (rect[0], rect[1]), (rect[0] + rect[2], rect[1] + rect[3]), (121, 11, 189), 2)
cv2.imwrite("images/result.png", image)
以您为例
我得到以下输出
现在,您必须找到合适的阈值来满足您的期望。也许,还有更多的工作要做,特别是要获得整个公式,因为距离不会有太大变化。
免责声明:我是Python的新手,尤其是OpenCV(胜利的C ++)的Python API。非常欢迎评论,改进,强调Python的执行!!
答案 1 :(得分:1)
使用OpenCV Wrapper library的方法稍有不同。
import cv2
import opencv_wrapper as cvw
image = cv2.imread("example.png")
gray = cvw.bgr2gray(image)
thresh = cvw.threshold_otsu(gray, inverse=True)
# dilation
img_dilation = cvw.dilate(thresh, 5)
# Find contours
contours = cvw.find_external_contours(img_dilation)
# Map contours to bounding rectangles, using bounding_rect property
rects = map(lambda c: c.bounding_rect, contours)
# Sort rects by top-left x (rect.x == rect.tl.x)
sorted_rects = sorted(rects, key=lambda r: r.x)
# Distance threshold
dt = 5
# List of final, joined rectangles
final_rects = [sorted_rects[0]]
for rect in sorted_rects[1:]:
prev_rect = final_rects[-1]
# Shift rectangle `dt` back, to find out if they overlap
shifted_rect = cvw.Rect(rect.tl.x - dt, rect.tl.y, rect.width, rect.height)
intersection = cvw.rect_intersection(prev_rect, shifted_rect)
if intersection is not None:
# Join the two rectangles
min_y = min((prev_rect.tl.y, rect.tl.y))
max_y = max((prev_rect.bl.y, rect.bl.y))
max_x = max((prev_rect.br.x, rect.br.x))
width = max_x - prev_rect.tl.x
height = max_y - min_y
new_rect = cvw.Rect(prev_rect.tl.x, min_y, width, height)
# Add new rectangle to final list, making it the new prev_rect
# in the next iteration
final_rects[-1] = new_rect
else:
# If no intersection, add the box
final_rects.append(rect)
for rect in sorted_rects:
cvw.rectangle(image, rect, cvw.Color.MAGENTA, line_style=cvw.LineStyle.DASHED)
for rect in final_rects:
cvw.rectangle(image, rect, cvw.Color.GREEN, thickness=2)
cv2.imwrite("result.png", image)
结果
绿色框是最终结果,而洋红色框是原始结果。
我使用了与@HansHirse相同的阈值。
等号仍然需要一些工作。较高的膨胀内核大小或垂直使用相同的技术。
披露:我是OpenCV Wrapper的作者。
答案 2 :(得分:0)
--> 如果您有边界框并想沿 X 和 Y 方向合并,请使用此代码段
--> 根据您的喜好调整 x_pixel_value 和 y_pixel_value
--> 但是为此,您需要有边界框
import cv2
img = cv2.imread(your image path)
x_pixel_value = 5
y_pixel_value = 6
bboxes_list = [] # your bounding boxes list
rects_used = []
for i in bboxes_list:
rects_used.append(False)
end_bboxes_list = []
for enum,i in enumerate(bboxes_list):
if rects_used[enum] == True:
continue
xmin = i[0]
xmax = i[2]
ymin = i[1]
ymax = i[3]
for enum1,j in enumerate(bboxes_list[(enum+1):], start = (enum+1)):
i_xmin = j[0]
i_xmax = j[2]
i_ymin = j[1]
i_ymax = j[3]
if rects_used[enum1] == False:
if abs(ymin - i_ymin) < x_pixel_value:
if abs(xmin-i_xmax) < y_pixel_value or abs(xmax-i_xmin) < y_pixel_value:
rects_used[enum1] = True
xmin = min(xmin,i_xmin)
xmax = max(xmax,i_xmax)
ymin = min(ymin,i_ymin)
ymax = max(ymax,i_ymax)
final_box = [xmin,ymin,xmax,ymax]
end_bboxes_list.append(final_box)
for i in end_bboxes_list:
cv2.rectangle(img,(i[0],i[1]),(i[2],i[3]), color = [0,255,0], thickness = 2)
cv2.imshow("Image",img)
cv2.waitKey(10000)
cv2.destroyAllWindows()
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