I want to use the LineIterator in OpenCV 3.0 using Python, is it still available with OpenCV 3.0 built for Python? It seems that the answers on the internet are all pointing to cv.InitLineIterator
which is part of the cv
module. I've tried importing this module but it seems like it is not included with the current build. Has it been renamed or strictly just removed?
7 Answers
I've solved my own problem. Line iterator seems to be unavailable in the cv2 library. Therefore, I made my own line iterator. No loops are used, so it should be pretty fast. Here is the code if anybody needs it:
def createLineIterator(P1, P2, img):
"""
Produces and array that consists of the coordinates and intensities of each pixel in a line between two points
Parameters:
-P1: a numpy array that consists of the coordinate of the first point (x,y)
-P2: a numpy array that consists of the coordinate of the second point (x,y)
-img: the image being processed
Returns:
-it: a numpy array that consists of the coordinates and intensities of each pixel in the radii (shape: [numPixels, 3], row = [x,y,intensity])
"""
#define local variables for readability
imageH = img.shape[0]
imageW = img.shape[1]
P1X = P1[0]
P1Y = P1[1]
P2X = P2[0]
P2Y = P2[1]
#difference and absolute difference between points
#used to calculate slope and relative location between points
dX = P2X - P1X
dY = P2Y - P1Y
dXa = np.abs(dX)
dYa = np.abs(dY)
#predefine numpy array for output based on distance between points
itbuffer = np.empty(shape=(np.maximum(dYa,dXa),3),dtype=np.float32)
itbuffer.fill(np.nan)
#Obtain coordinates along the line using a form of Bresenham's algorithm
negY = P1Y > P2Y
negX = P1X > P2X
if P1X == P2X: #vertical line segment
itbuffer[:,0] = P1X
if negY:
itbuffer[:,1] = np.arange(P1Y - 1,P1Y - dYa - 1,-1)
else:
itbuffer[:,1] = np.arange(P1Y+1,P1Y+dYa+1)
elif P1Y == P2Y: #horizontal line segment
itbuffer[:,1] = P1Y
if negX:
itbuffer[:,0] = np.arange(P1X-1,P1X-dXa-1,-1)
else:
itbuffer[:,0] = np.arange(P1X+1,P1X+dXa+1)
else: #diagonal line segment
steepSlope = dYa > dXa
if steepSlope:
slope = dX.astype(np.float32)/dY.astype(np.float32)
if negY:
itbuffer[:,1] = np.arange(P1Y-1,P1Y-dYa-1,-1)
else:
itbuffer[:,1] = np.arange(P1Y+1,P1Y+dYa+1)
itbuffer[:,0] = (slope*(itbuffer[:,1]-P1Y)).astype(np.int) + P1X
else:
slope = dY.astype(np.float32)/dX.astype(np.float32)
if negX:
itbuffer[:,0] = np.arange(P1X-1,P1X-dXa-1,-1)
else:
itbuffer[:,0] = np.arange(P1X+1,P1X+dXa+1)
itbuffer[:,1] = (slope*(itbuffer[:,0]-P1X)).astype(np.int) + P1Y
#Remove points outside of image
colX = itbuffer[:,0]
colY = itbuffer[:,1]
itbuffer = itbuffer[(colX >= 0) & (colY >=0) & (colX<imageW) & (colY<imageH)]
#Get intensities from img ndarray
itbuffer[:,2] = img[itbuffer[:,1].astype(np.uint),itbuffer[:,0].astype(np.uint)]
return itbuffer
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3Thanks for sharing @mohikhsan. Just wanted to note that the line differs slightly from the one given by
cv2.drawLine()
: your line doesn't include the first pointP1
, whereascv2.drawLine()
includes it. Feb 20, 2018 at 15:34 -
1Well, with my testing i have proved that this code is not valid for any line and also as the last comment proved, the first point is not included. I am working to make a python implementation taking the c++ source because i don't think i could make something better.– ascoderAug 2, 2019 at 13:36
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Edit: The function line from scikit-image can make the same effect and it's faster than anything we could code.
from skimage.draw import line
# being start and end two points (x1,y1), (x2,y2)
discrete_line = list(zip(*line(*start, *end)))
Also the timeit result is quite faster. So, use this.
Old "deprecated" answer:
As previous answer says, it's not implemented so you must do it yourself. I didn't do it from scratch i just rewrote some parts of the function in a fancier and more modern way that should handle all cases correctly unlike the most voted answer that didn't work correctly for me. I took the example from here and did some cleanup and some styling. Feel free to comment it. Also i added the clipline test like in the source code that can be found in the drawing.cpp in the source code for OpenCv 4.x Thank you all for the references and the hard work.
def bresenham_march(img, p1, p2):
x1 = p1[0]
y1 = p1[1]
x2 = p2[0]
y2 = p2[1]
#tests if any coordinate is outside the image
if (
x1 >= img.shape[0]
or x2 >= img.shape[0]
or y1 >= img.shape[1]
or y2 >= img.shape[1]
): #tests if line is in image, necessary because some part of the line must be inside, it respects the case that the two points are outside
if not cv2.clipLine((0, 0, *img.shape), p1, p2):
print("not in region")
return
steep = math.fabs(y2 - y1) > math.fabs(x2 - x1)
if steep:
x1, y1 = y1, x1
x2, y2 = y2, x2
# takes left to right
also_steep = x1 > x2
if also_steep:
x1, x2 = x2, x1
y1, y2 = y2, y1
dx = x2 - x1
dy = math.fabs(y2 - y1)
error = 0.0
delta_error = 0.0
# Default if dx is zero
if dx != 0:
delta_error = math.fabs(dy / dx)
y_step = 1 if y1 < y2 else -1
y = y1
ret = []
for x in range(x1, x2):
p = (y, x) if steep else (x, y)
if p[0] < img.shape[0] and p[1] < img.shape[1]:
ret.append((p, img[p]))
error += delta_error
if error >= 0.5:
y += y_step
error -= 1
if also_steep: # because we took the left to right instead
ret.reverse()
return ret
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1
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I would not trust @trenixjetix code for his own solution. The original OpenCV code says this: (pt1.x >= rect.width) which he ported to this: (x1 >= img.shape[0]) which is wrong.– DavidAug 18, 2020 at 19:28
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@David you need to use numpy uint8 arrays for this code :) Not PIL images.– ascoderAug 19, 2020 at 20:59
I compared the 4 methods provided on this page:
Using python 2.7.6 and scikit-image 0.9.3 with some minor code changes.
Image input is via OpenCV.
A line segment (1, 76) to (867, 190)
Method 1: Sci-kit Image Line
Compute time: 0.568 ms
Number of pixels found: 867
Correct start pixel: yes
Correct end pixel: yes
Method 2: Code from @trenixjetix code
There seems to be a bug where the image width and height are flipped.
Compute time: 0.476 ms
Number of pixels found: 866
Correct start pixel: yes
Correct end pixel: no, off by 1
Method 3: Code from ROS.org
https://answers.ros.org/question/10160/opencv-python-lineiterator-returning-position-information/
Compute time: 0.433 ms (should be same as method 2)
Number of pixels found: 866
Correct start pixel: yes
Correct end pixel: no, off by 1
Method 4: Code from @mohikhsan
Compute time: 0.156 ms
Number of pixels found: 866
Correct start pixel: no, off by 1
Correct end pixel: yes
Summary:
Most accurate method: Sci-kit Image Line
Fastest method: Code from @mohikhsan
It could be nice to have a python implementation that matches the OpenCV C++ implementation?
https://github.com/opencv/opencv/blob/master/modules/imgproc/src/drawing.cpp
or uses a python generator:
https://wiki.python.org/moin/Generators
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1Thanks for your post, it's very informative and should be pinned or something. Just to point out, you shouldn't use python2 and old versions of scikit. That will affect the speed results of the benchmark and makes your post invalid. Also, the answer from @mohikhsan doesn't work in every angle and is quite buggy. Also the accuracy of the lines is worse.– ascoderSep 9, 2020 at 12:22
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The results are correct and valid. Many people still using python 2.x and that is clearly mentioned at the top of the post.– DavidSep 10, 2020 at 18:41
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1Ok, they are valid but i can't make a decition based on an old software, you should use 2020 versions of software for this.– ascoderSep 14, 2020 at 15:44
Not a fancy way to do this, but an effective and very very simple one-liner:
points_on_line = np.linspace(pt_a, pt_b, 100) # 100 samples on the line
If you want to approximately get each pixel along the way
points_on_line = np.linspace(pt_a, pt_b, np.linalg.norm(pt_a - pt_b))
(e.g. number of samples as the number of pixels between point A and point B)
For example:
pt_a = np.array([10, 11])
pt_b = np.array([45, 67])
im = np.zeros((80, 80, 3), np.uint8)
for p in np.linspace(pt_a, pt_b, np.linalg.norm(pt_a-pt_b)):
cv2.circle(im, tuple(np.int32(p)), 1, (255,0,0), -1)
plt.imshow(im)
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How can it get pixel values from the image, especially if point coordinate is not discrete?– AndyreyFeb 17, 2022 at 13:54
This is not exactly an answer, but I can't add comment so I write it here. The solution by trenixjetix is really great to cover the most 2 efficient ways to do this. I just want to give minor clarification for the scikit-image method he mentioned.
# being start and end two points (x1,y1), (x2,y2)
discrete_line = list(zip(*line(*start, *end)))
In scikit-image metric, starting and ending point of line is followed (row, col), while opencv use (x,y) coordinate, which is reversed in term of function parameters. Pay attention to that.
Add up the David's answer, I got the scikit execution time is faster than trenixjetix's function, using python 3.8. The result can vary, but almost every time scikit is faster.
trenixjetix time(ms) 0.22279999999996747
scikit-image time(ms) 0.13810000000002987
I got troubles running the skimage example from trenixjetix so I created a small wrapper function accepting points from numpy array slices, tuples or lists all the same:
from skimage.draw import line as skidline
def get_linepnts(p0, p1):
p0, p1 = np.array(p0).flatten(), np.array(p1).flatten()
return np.array(list(zip(*skidline(p0[0],p0[1], p1[0],p1[1]))))
The resulting array can be used to retrieve values from numpy arrays in the following way:
l0 = get_linepnts(p0, p1)
#if p0/p1 are in (x,y) format, then this needs to be swapped for retrieval:
vals = yournpmat[l0[:,1], l0[:,0]]
I implemented the Bresenham Algorithm from wikipedia:
def BresenhamLine(P1, P2, img):
P1c = P1.copy()
dx= np.abs(P2[0]-P1c[0])
dy= -np.abs(P2[1]-P1c[1])
if P1c[0]<P2[0]: sx=1
else: sx=-1
if P1c[1]<P2[1]: sy=1
else: sy=-1
error= dx+dy
lenBuffer= np.maximum(dx,abs(dy))+1
itbuffer = np.empty(shape=(lenBuffer,3),dtype=np.float32)
itbuffer.fill(np.nan)
itbuffer[0,:]= np.asarray([P1c[0],P1c[1],img[P1c[1],P1c[0],0]])
for n in range(1,lenBuffer):
e2=2*error
if e2 >= dy:
error= error+dy
P1c[0] = P1c[0]+sx
if e2 <= dx:
error = error + dx
P1c[1] = P1c[1]+sy
itbuffer[n,:]= np.asarray([P1c[0],P1c[1],img[P1c[1],P1c[0],0]])
return itbuffer
I have no idea how fast goes tho.