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Recognize text from picture
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I gather they are looking for words you'd find in an English dictionary. So perhaps façade, or tête-à-tête might recognize, while other examples wouldn't? mobdro apk tubemate
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@sodoku
See https://developer.apple.com/documentation/vision/vnrequesttextrecognitionlevel/fastTry
req.recognitionLevel=1
for fast, or 0 for accurate.Re fixing characters... I gather you might set
req.usesLanguageCorrection=False
(or maybe 0), then make your own replacement map and use str.translate.Custom words is handled by
req.customWords = ['customword1', 'etc']
See apple docs for VNRecognizeTextRequest
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ive seen the apple documentation coding on Vision Framework I just dont know how to convert it to python
Question 1
What about the setting the minimum text height how do you translate either of these codes to python????
@property(readwrite, nonatomic, assign) float minimumTextHeight;
written in objective-c
var minimumTextHeight: Float { get set }
written in SwiftQuestion 2
I was also interested in learning how to recognize the individual boxes from a sudoku puzzle to extract the numbers is there a way to do that possibly with
VNRecognizedTextObservation A request that detects and recognizes regions of text in an image.
or possibly with the bounding box technique show in the video https://developer.apple.com/videos/play/wwdc2019/234 , also can you put multiple bounding boxes to recognize text from a sudoku cardthis is Mikeals code i am trying to insert the code into but dont know how to convert the code shown in the apple documentation into python
language_preference = ['fi','en','se'] import photos, ui, dialogs import io from objc_util import * load_framework('Vision') VNRecognizeTextRequest = ObjCClass('VNRecognizeTextRequest') VNImageRequestHandler = ObjCClass('VNImageRequestHandler') def pil2ui(pil_image): buffer = io.BytesIO() pil_image.save(buffer, format='PNG') return ui.Image.from_data(buffer.getvalue()) selection = dialogs.alert('Get pic', button1='Camera', button2='Photos') ui_image = None if selection == 1: pil_image = photos.capture_image() if pil_image is not None: ui_image = pil2ui(pil_image) elif selection == 2: ui_image = photos.pick_asset().get_ui_image() if ui_image is not None: print('Recognizing...\n') req = VNRecognizeTextRequest.alloc().init().autorelease() req.recognitionLevel=1 req.setRecognitionLanguages_(language_preference) handler = VNImageRequestHandler.alloc().initWithData_options_(ui_image.to_png(), None).autorelease() success = handler.performRequests_error_([req], None) if success: for result in req.results(): print(result.text()) else: print('Problem recognizing anything')
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@sodoku For things like enumerations, you can usually check the swift version of docs, which tells you the value. Otherwise, you can often look up source code.
For minimumTextHeight, both swift and ObjC say this is a float. The fact that it is readwrite/nonatomic/assign is not important.
So, usually this would just be
req.minimumTextHeight = 32.5
or whatever you want...It is often helpful to explore objects in the console, since this can tell you what you're working with. For instance, if you type
req.
in the console, you will see autocomplete of all known attributes. Usually you need to treat objc properties as function calls -- so to check minimumTextHeight, you'd usereq.minimumTextHeight()
. But to set, you can treat the property as a python attribute and assign directly. In some cases, you may need to use the set_propertyName_(value) convention.Where things get tricky is where the declared type is another object (in which case you have to provide the right type of object), or a structure. Structures can be tricky because objc_util often screws up the type encodings, and you have to manually override. Structures get turned into python STRUCTUREs, and you access fields normally like you would with a python object (no () needed).
Re question 2:
Per the docs, theresults
of a request will be VNRecognizedTextObservation objects. This is a subclass of VNRectangleObservation.@interface VNRecognizedTextObservation : VNRectangleObservation
<-- colon here means inherits fromIf you look up VNRectangleObservation, you will see it has the following attributes
bottomLeft
bottomRight
topLeft
topRight
Which are declared asCGPoint
, which is a structure that has an.x
and.y
fields.for result in req.results(): x = result.bottomLeft().x y = result.bottomLeft().y w = result.topRight().x-x h = result.topRight().y-y print('({},{},{},{}) {}'.format(x,y,w,h, result.text())
You could draw the image into an image context, and then also stroke a rectangle.. something like this...(not tried).
with ui.ImageContext(ui_image.size()) as ctx: ui_image.draw() for result in req.results(): vertecies = [(p.x, p.y) for p in [result.bottomLeft() result.TopLeft() result.TopRight() result.BottomRight() result.bottomLeft()] pth = ui.Path.moveTo(*vertecies[0]) %initial point for p in vertecies[1:]: pth.line_to(*p) ui.set_color('red') pth.stroke() x,y = vertecies[0] w,h =(vertecies[2].x-x), (vertecies[2].y-y) ui.draw_string(result.text(), rect=(x,y,w,h), font=('<system>', 12), color='red') marked_img = ctx.get_image() marked_img.show()
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I realized that
result
will also have a.boundingBox()
attribute which would make some of this a little simpler.
That is a CGrect, consisting of.origin
(in turn consisting of.x
and.y
and.size
containing.w
and.h
.
In that case you could use ui.Path.rect. -
Okay, my previous reply was full of errors... here is a working version, which adds red boxes around each result, along with the text
language_preference = ['fi','en','se'] import photos, ui, dialogs import io from objc_util import * load_framework('Vision') VNRecognizeTextRequest = ObjCClass('VNRecognizeTextRequest') VNImageRequestHandler = ObjCClass('VNImageRequestHandler') ACCURATE=0 FAST=1 def pil2ui(pil_image): buffer = io.BytesIO() pil_image.save(buffer, format='PNG') return ui.Image.from_data(buffer.getvalue()) selection = dialogs.alert('Get pic', button1='Camera', button2='Photos') ui_image = None if selection == 1: pil_image = photos.capture_image() if pil_image is not None: ui_image = pil2ui(pil_image) elif selection == 2: ui_image = photos.pick_asset().get_ui_image() if ui_image is not None: print('Recognizing...\n') req = VNRecognizeTextRequest.alloc().init().autorelease() req.recognitionLevel= ACCURATE# accurate req.setRecognitionLanguages_(language_preference) handler = VNImageRequestHandler.alloc().initWithData_options_(ui_image.to_png(), None).autorelease() success = handler.performRequests_error_([req], None) if success: for result in req.results(): print(result.text()) else: print('Problem recognizing anything') with ui.ImageContext(*tuple(ui_image.size) ) as ctx: ui_image.draw() for result in req.results(): cgpts=[ result.bottomLeft(), result.topLeft(), result.topRight(), result.bottomRight(), result.bottomLeft() ] vertecies = [(p.x*ui_image.size.w, (1-p.y)*ui_image.size.h) for p in cgpts] pth = ui.Path() pth.move_to(*vertecies[0]) for p in vertecies[1:]: pth.line_to(*p) ui.set_color('red') pth.stroke() x,y = vertecies[0] w,h =(vertecies[2][0]-x), (vertecies[2][1]-y) ui.draw_string(str(result.text()), rect=(x,y,w,h), font=('<system>', 12), color='red') marked_img = ctx.get_image() marked_img.show()
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Here is another solution... I use a rectangle detection and a perspective correction to crop the puzzle. This gives much better detection, though not perfect. The recognition is pretty good, though it has troubles with 1’s on their own.... turn into Ts of all things. Some additional work in the clean function might fix common problems.
I’m using images from https://github.com/prajwalkr/SnapSudoku/tree/master/train
I suspect doing some CIFiltering first will probably improve things.
from objc_util import * import ui VNImagePointForNormalizedPoint=c.VNImagePointForNormalizedPoint VNImagePointForNormalizedPoint.argTypes=[CGPoint, c_int, c_int] VNImagePointForNormalizedPoint.restype=CGPoint ui_image=ui.Image.named('image2.jpg') ui_image.show() CIImage=ObjCClass('CIImage') ci_image=CIImage.imageWithCGImage_(ui_image.objc_instance.CGImage()) CIPerspectiveCorrection=ObjCClass('CIPerspectiveCorrection') f=CIPerspectiveCorrection.perspectiveCorrectionFilter() f.inputImage=ci_image o=f.outputImage() load_framework('Vision') VNRecognizeTextRequest = ObjCClass('VNRecognizeTextRequest') VNDetectRectanglesRequest = ObjCClass('VNDetectRectanglesRequest') VNImageRequestHandler = ObjCClass('VNImageRequestHandler') req=VNDetectRectanglesRequest.alloc().init().autorelease() req.maximumObservations=2 req.minimumSize=0.5 req.minimumAspectRatio=0.7 req.quadratureTolerance=30 handler = VNImageRequestHandler.alloc().initWithData_options_(ui_image.to_png(), None).autorelease() success = handler.performRequests_error_([req], None) try: result=req.results()[0] nm=lambda p :VNImagePointForNormalizedPoint(p,int(ui_image.size.w),int(ui_image.size.h)) f.topLeft = nm(result.topLeft()) f.topRight = nm(result.topRight()) f.bottomLeft = nm(result.bottomLeft()) f.bottomRight = nm(result.bottomRight()) o=f.outputImage() with ui.ImageContext(o.extent().size.width, o.extent().size.height) as ctx: UIImage.imageWithCIImage_(o).drawAtPoint_( CGPoint(0,0)) ui_image2=ctx.get_image() ui_image2.show() except: print('bounding rec not found...results wont work') ui_image2=ui_image '''now, detect rectangles again...''' handler = VNImageRequestHandler.alloc().initWithData_options_(ui_image2.to_png(), None).autorelease() req0 = VNRecognizeTextRequest.alloc().init().autorelease() req0.recognitionLevel= 0# accurate req0.usesLanguageCorrection=True req0.customWords=[str(a) for a in range(10)] #req0.maximumObservations=81 #req0.minimumSize=.1 success = handler.performRequests_error_([req0], None) with ui.ImageContext(*tuple(ui_image2.size) ) as ctx: ui_image2.draw() for result in req0.results(): cgpts=[result.bottomLeft(), result.topLeft(), result.topRight(), result.bottomRight(), result.bottomLeft()] vertecies = [(p.x*ui_image2.size.w, (1-p.y)*ui_image2.size.h) for p in cgpts] pth = ui.Path() pth.move_to(*vertecies[0]) for p in vertecies[1:]: pth.line_to(*p) ui.set_color('red') pth.stroke() x,y = vertecies[0] w,h =(vertecies[2][0]-x), (vertecies[2][1]-y) ui.draw_string(str(result.text()), rect=(x,y,w,h), font=('<system>', 12), color='red') marked_img = ctx.get_image() marked_img.show() def bbcenter(bb): return((9*(bb.origin.x+bb.size.width/2)-0.5), (9*(bb.origin.y+bb.size.height/2)-0.5) ) def clean(results): cleaned=[] for r in results: col,row=bbcenter(r.boundingBox()) approx_num_ch=(r.boundingBox().size.width*9) txt=str(r.text()).replace(' ','') if approx_num_ch<=1: if len(txt) == 1: cleaned.append(((round(col),round(row)),txt)) else: cleaned.append(((round(col),round(row)),'-1')) else: #more than one char col-=(len(txt)-1)/2 col=round(col) row=round(row) for ch in txt: if ch in [str(a) for a in range(10)]: cleaned.append(((col,row),ch)) else: cleaned.append(((col,row),'-1')) col+=1 return cleaned import numpy as np puzzle=np.zeros([9,9]) for c,v in clean(req0.results()): puzzle[c]=int(v) print(np.flipud(puzzle.T))
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@JonB, thanks, very nice. I have noted and wondered about how difficult number 1 is to recognize... Not very exotic, is it? But in my experiments it looked like the simple heuristic of ”if the result is something else than 1-9, assume it is a 1” would work pretty well for Sudoku.
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@JonB, can you open up this one a little bit?
approx_num_ch=(r.boundingBox().size.width*9)
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The *9 is because if the initial rectangle detection and crop works, then each square is approx 1/9 width. So the approx number of squares a rectangle covers tells us how many characters it should have... I was getting many cases where 1 got read as Te, or some other two character value, even though the width was less than one box... so I wanted to have special handling for narrow boxes, as that is probably a 1, while wide boxes could have multiple characters because the bounding box legitimately spans adjacent boxes.
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@JonB, there’s something in the math here I do not quite get. I would expect something like:
num_char = r.bbox/(full_bbox/9) = r.bbox * 9 / full_bbox
Thus looks like you are missing the division?
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The results of vision are always provided as normalized coordinates — meaning the full box is always 1.
For drawing, you have to then multiply by image width/height.Since the perspective correction both fixes perspective and crops — 1/9 is the size, roughly, of a single cell.
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@JonB, now I understand, thank you.
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I have a quick question in regards to the original ocr post how do I print the text as one single csv list, I tried but I have been getting a list of lists instead of one single list
This is a snippet of the code example I think needs to be altered
success = handler.performRequests_error_([req], None) if success: for result in req.results(): print(result.text()) else: print('Problem recognizing anything')
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results=[str(result.text()) for result in req.results()] print(results)
Or maybe
print(','.join(results))
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There is a lot of good code here... It would be really awesome if there was a
GitHub repo
to stitch it all together into an app. -
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Hi,
I'm aware that this thread is about a year old. But maybe someone can nevertheless alighten me. I'm trying to do a similar thing in JavaScript for Automation (JXA), and I see this line in your example:for result in req.results(): print(result.text())
translated to JavaScript, that's
results.forEach(r => { console.log(r.text); })
and that works like a charm. I'm just wondering why, since according to Apple's documentation, the
results
object doesn't even have atext
property, onlystring
(cf. https://developer.apple.com/documentation/vision/vnrecognizedtext?language=objc)I was first wondering if
text
is perhaps a nice Python thing, but since the same works in JavaScript, I'm sure that I'm missing something obvious in Apple's documentation. Does anyone know what (and where I should be looking)?Thanks a lot in advance
Christian -
Does
string
not work?Often there are undocumented or decrecates features available in objc objects. Often we just poke around using autocomplete (which ultimately uses some of the introspection objc features of the objc runtime (which let you get a list of methods or instance vars, etc)