def segment(image, addr, extras):
log = cap.logger(extras, image)
components = findComponents(image, log)
log.log(cap.drawComponents(image, components))
angles = map(lambda comp: findAngle(comp, log), components)
angles = filter(lambda angle: angle != 0.0 and abs(angle) <= 27.0, angles)
if len(angles) != 0:
angle = fsum(angles) / len(angles)
image = cap.doRotate(image,
-angle,
fillval=255,
interpolation=cv.CV_INTER_NN)
log.log(image)
components = findComponents(image)
assert (len(components) <= nSegs)
log.log(cap.drawComponents(image, components))
#components = cap.spltCCs(components, cap.partsFromnSegs5(components), projRadius=5, thresh=2)
#components = filtCCs(components, (15, 15), 200, 0.2)
components = map(lambda comp: addBackground(comp, image, bgcolor=96),
components)
segments = map(lambda comp: comp[3], components)
segments = map(removeBadBackground, segments)
log.log(cap.joinImagesH(segments))
segments = map(lambda seg: cap.smoothNoise1(seg, bgcolor=0), segments)
log.log(cap.joinImagesH(segments))
cap.processExtras(log.steps, addr, extras, cap.CAP_STAGE_SEGMENT)
return segments
def segment(image, addr, extras):
clone = cv.CloneImage(image)
log = cap.logger(extras, image)
components = cap.findCCs(image, erasecol=255, doContinue=lambda col: col == 255, doSkip=lambda comp: comp[0] <= 20)
#components = cap.spltCCs(components, cap.partsFromSegW(components, 20), projRadius=5, thresh=1)
log.log(cap.drawComponents(clone, components))
while len(components) > nSegs:
smallest = cap.argmin(components, itemgetter(0))
del(components[smallest])
assert(len(components) == nSegs)
log.log(cap.drawComponents(clone, components))
segments = map(lambda comp: comp[3], components)
log.log(cap.joinImagesH(segments))
segments = map(deRotate, segments)
log.log(cap.joinImagesH(segments))
cap.processExtras(log.steps, addr, extras, cap.CAP_STAGE_SEGMENT)
return segments
def segment(image, addr, extras):
clone = cv.CloneImage(image)
log = cap.logger(extras, image)
components = cap.findCCs(image,
erasecol=255,
doContinue=lambda col: col == 255,
doSkip=lambda comp: comp[0] <= 20)
#components = cap.spltCCs(components, cap.partsFromSegW(components, 20), projRadius=5, thresh=1)
log.log(cap.drawComponents(clone, components))
while len(components) > nSegs:
smallest = cap.argmin(components, itemgetter(0))
del (components[smallest])
assert (len(components) == nSegs)
log.log(cap.drawComponents(clone, components))
segments = map(lambda comp: comp[3], components)
log.log(cap.joinImagesH(segments))
segments = map(deRotate, segments)
log.log(cap.joinImagesH(segments))
cap.processExtras(log.steps, addr, extras, cap.CAP_STAGE_SEGMENT)
return segments
def segment(image, addr, extras):
log = cap.logger(extras, image)
components = findComponents(image, log)
log.log(cap.drawComponents(image, components))
angles = map(lambda comp: findAngle(comp, log), components)
angles = filter(lambda angle: angle != 0.0 and abs(angle) <= 27.0, angles)
if len(angles) != 0:
angle = fsum(angles) / len(angles)
image = cap.doRotate(image, -angle, fillval=255, interpolation=cv.CV_INTER_NN)
log.log(image)
components = findComponents(image)
assert(len(components) <= nSegs)
log.log(cap.drawComponents(image, components))
#components = cap.spltCCs(components, cap.partsFromnSegs5(components), projRadius=5, thresh=2)
#components = filtCCs(components, (15, 15), 200, 0.2)
components = map(lambda comp: addBackground(comp, image, bgcolor=96), components)
segments = map(lambda comp: comp[3], components)
segments = map(removeBadBackground, segments)
log.log(cap.joinImagesH(segments))
segments = map(lambda seg: cap.smoothNoise1(seg, bgcolor=0), segments)
log.log(cap.joinImagesH(segments))
cap.processExtras(log.steps, addr, extras, cap.CAP_STAGE_SEGMENT)
return segments
def segment(image, addr, extras):
log = cap.logger(extras, image)
clone = cv.CloneImage(image)
components = cap.findCCs(image, 0, lambda col: col <= 128, lambda comp: comp[0] < 10)
log.log(cap.drawComponents(clone, components), False)
components = cap.joinCCs(components, cap.rectsIntersectH)
log.log(cap.drawComponents(clone, components), False)
assert(len(components) <= nSegs)
parts = cap.partsFromnSegs5(components)
components = cap.spltCCs(components, parts, projRadius=4, thresh=1)
log.log(cap.drawComponents(clone, components), False)
segments = map(lambda comp: comp[3], components)
log.log(cap.joinImagesH(segments), False)
cap.processExtras(log.steps, addr, extras, cap.CAP_STAGE_SEGMENT)
return segments
def recognise(segments, addr, extras):
allParts = cap.partsFromnSegs5(segments)
result = splitRecogniseAll(segments, allParts, shiftRadius=4)
cap.processExtras([cap.joinImagesH(segments)], addr, extras, cap.CAP_STAGE_RECOGNISE)
return result
def recognise(segments, addr, extras):
allParts = cap.partsFromnSegs5(segments)
result = splitRecogniseAll(segments, allParts, shiftRadius=4)
cap.processExtras([cap.joinImagesH(segments)], addr, extras,
cap.CAP_STAGE_RECOGNISE)
return result
