Patch from SF49 to SF50. Only notiable change is the addition of the "Sharpest Angle" setting.
This commit is contained in:
parent
53c39d5b4f
commit
c9746b95b9
17 changed files with 142 additions and 109 deletions
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@ -1,2 +1,2 @@
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This SkeinPyPy version is based in Skeinforge: 49
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This SkeinPyPy version is based in Skeinforge: 50
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@ -363,41 +363,41 @@ def compareSegmentLength( endpoint, otherEndpoint ):
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return - 1
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return 0
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def concatenateRemovePath( connectedPaths, pathIndex, paths, pixelDictionary, segments, width ):
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def concatenateRemovePath(connectedPaths, pathIndex, paths, pixelDictionary, segments, sharpestProduct, width):
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'Get connected paths from paths.'
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bottomSegment = segments[ pathIndex ]
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path = paths[ pathIndex ]
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bottomSegment = segments[pathIndex]
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path = paths[pathIndex]
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if bottomSegment == None:
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connectedPaths.append(path)
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return
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endpoints = getEndpointsFromSegments( segments[ pathIndex + 1 : ] )
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endpoints = getEndpointsFromSegments(segments[pathIndex + 1 :])
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bottomSegmentEndpoint = bottomSegment[0]
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nextEndpoint = bottomSegmentEndpoint.getClosestMissCheckEndpointPath( endpoints, bottomSegmentEndpoint.path, pixelDictionary, width )
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nextEndpoint = bottomSegmentEndpoint.getClosestMissCheckEndpointPath(endpoints, bottomSegmentEndpoint.path, pixelDictionary, sharpestProduct, width)
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if nextEndpoint == None:
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bottomSegmentEndpoint = bottomSegment[1]
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nextEndpoint = bottomSegmentEndpoint.getClosestMissCheckEndpointPath( endpoints, bottomSegmentEndpoint.path, pixelDictionary, width )
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nextEndpoint = bottomSegmentEndpoint.getClosestMissCheckEndpointPath(endpoints, bottomSegmentEndpoint.path, pixelDictionary, sharpestProduct, width)
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if nextEndpoint == None:
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connectedPaths.append(path)
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return
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if len( bottomSegmentEndpoint.path ) > 0 and len( nextEndpoint.path ) > 0:
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if len(bottomSegmentEndpoint.path) > 0 and len(nextEndpoint.path) > 0:
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bottomEnd = bottomSegmentEndpoint.path[-1]
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nextBegin = nextEndpoint.path[-1]
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nextMinusBottomNormalized = getNormalized( nextBegin - bottomEnd )
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nextMinusBottomNormalized = getNormalized(nextBegin - bottomEnd)
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if len( bottomSegmentEndpoint.path ) > 1:
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bottomPenultimate = bottomSegmentEndpoint.path[-2]
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if getDotProduct( getNormalized( bottomPenultimate - bottomEnd ), nextMinusBottomNormalized ) > 0.9:
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if getDotProduct(getNormalized(bottomPenultimate - bottomEnd), nextMinusBottomNormalized) > 0.99:
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connectedPaths.append(path)
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return
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if len( nextEndpoint.path ) > 1:
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nextPenultimate = nextEndpoint.path[-2]
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if getDotProduct( getNormalized( nextPenultimate - nextBegin ), - nextMinusBottomNormalized ) > 0.9:
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if getDotProduct(getNormalized(nextPenultimate - nextBegin), - nextMinusBottomNormalized) > 0.99:
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connectedPaths.append(path)
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return
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nextEndpoint.path.reverse()
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concatenatedPath = bottomSegmentEndpoint.path + nextEndpoint.path
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paths[ nextEndpoint.pathIndex ] = concatenatedPath
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segments[ nextEndpoint.pathIndex ] = getSegmentFromPath( concatenatedPath, nextEndpoint.pathIndex )
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addValueSegmentToPixelTable( bottomSegmentEndpoint.point, nextEndpoint.point, pixelDictionary, None, width )
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paths[nextEndpoint.pathIndex] = concatenatedPath
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segments[nextEndpoint.pathIndex] = getSegmentFromPath(concatenatedPath, nextEndpoint.pathIndex)
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addValueSegmentToPixelTable(bottomSegmentEndpoint.point, nextEndpoint.point, pixelDictionary, None, width)
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def getAngleAroundZAxisDifference( subtractFromVec3, subtractVec3 ):
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'Get the angle around the Z axis difference between a pair of Vector3s.'
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@ -668,18 +668,18 @@ def getConcatenatedList(originalLists):
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concatenatedList += originalList
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return concatenatedList
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def getConnectedPaths( paths, pixelDictionary, width ):
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def getConnectedPaths(paths, pixelDictionary, sharpestProduct, width):
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'Get connected paths from paths.'
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if len(paths) < 2:
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return paths
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connectedPaths = []
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segments = []
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for pathIndex in xrange( len(paths) ):
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path = paths[ pathIndex ]
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segments.append( getSegmentFromPath( path, pathIndex ) )
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for pathIndex in xrange( 0, len(paths) - 1 ):
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concatenateRemovePath( connectedPaths, pathIndex, paths, pixelDictionary, segments, width )
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connectedPaths.append( paths[-1] )
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for pathIndex in xrange(len(paths)):
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path = paths[pathIndex]
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segments.append(getSegmentFromPath(path, pathIndex))
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for pathIndex in xrange(0, len(paths) - 1):
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concatenateRemovePath(connectedPaths, pathIndex, paths, pixelDictionary, segments, sharpestProduct, width)
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connectedPaths.append(paths[-1])
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return connectedPaths
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def getCrossProduct(firstComplex, secondComplex):
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@ -1327,7 +1327,7 @@ def getPathLength(path):
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pathLength += abs(firstPoint - secondPoint)
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return pathLength
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def getPathsFromEndpoints(endpoints, maximumConnectionLength, pixelDictionary, width):
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def getPathsFromEndpoints(endpoints, maximumConnectionLength, pixelDictionary, sharpestProduct, width):
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'Get paths from endpoints.'
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if len(endpoints) < 2:
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return []
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@ -1343,7 +1343,7 @@ def getPathsFromEndpoints(endpoints, maximumConnectionLength, pixelDictionary, w
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path = []
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paths = [path]
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if len(endpoints) > 1:
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nextEndpoint = otherEndpoint.getClosestMiss(endpoints, path, pixelDictionary, width)
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nextEndpoint = otherEndpoint.getClosestMiss(endpoints, path, pixelDictionary, sharpestProduct, width)
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if nextEndpoint != None:
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if abs(nextEndpoint.point - endpointFirst.point) < abs(nextEndpoint.point - otherEndpoint.point):
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endpointFirst = endpointFirst.otherEndpoint
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@ -1359,7 +1359,7 @@ def getPathsFromEndpoints(endpoints, maximumConnectionLength, pixelDictionary, w
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if len(endpointTable.values()[0]) < 2:
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return []
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endpoints = getSquareValuesFromPoint(endpointTable, otherEndpoint.point * oneOverEndpointWidth)
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nextEndpoint = otherEndpoint.getClosestMiss(endpoints, path, pixelDictionary, width)
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nextEndpoint = otherEndpoint.getClosestMiss(endpoints, path, pixelDictionary, sharpestProduct, width)
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if nextEndpoint == None:
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path = []
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paths.append(path)
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@ -2096,7 +2096,7 @@ class Endpoint:
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closestEndpoint = endpoint
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return closestEndpoint
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def getClosestMiss(self, endpoints, path, pixelDictionary, width):
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def getClosestMiss(self, endpoints, path, pixelDictionary, sharpestProduct, width):
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'Get the closest endpoint which the segment to that endpoint misses the other extrusions.'
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pathMaskTable = {}
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smallestDistance = 987654321.0
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@ -2115,7 +2115,7 @@ class Endpoint:
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endpoints.sort(compareSegmentLength)
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for endpoint in endpoints[: 15]: # increasing the number of searched endpoints increases the search time, with 20 fill took 600 seconds for cilinder.gts, with 10 fill took 533 seconds
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normalizedSegment = endpoint.segment / endpoint.segmentLength
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isOverlappingSelf = getDotProduct(penultimateMinusPoint, normalizedSegment) > 0.9
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isOverlappingSelf = getDotProduct(penultimateMinusPoint, normalizedSegment) > sharpestProduct
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if not isOverlappingSelf:
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if len(path) > 2:
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segmentYMirror = complex(normalizedSegment.real, -normalizedSegment.imag)
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@ -2132,14 +2132,14 @@ class Endpoint:
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return endpoint
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return None
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def getClosestMissCheckEndpointPath( self, endpoints, path, pixelDictionary, width ):
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def getClosestMissCheckEndpointPath(self, endpoints, path, pixelDictionary, sharpestProduct, width):
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'Get the closest endpoint which the segment to that endpoint misses the other extrusions, also checking the path of the endpoint.'
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pathMaskTable = {}
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smallestDistance = 987654321.0
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penultimateMinusPoint = complex(0.0, 0.0)
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if len(path) > 1:
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penultimatePoint = path[-2]
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addSegmentToPixelTable( penultimatePoint, self.point, pathMaskTable, 0, 0, width )
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addSegmentToPixelTable(penultimatePoint, self.point, pathMaskTable, 0, 0, width)
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penultimateMinusPoint = penultimatePoint - self.point
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if abs(penultimateMinusPoint) > 0.0:
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penultimateMinusPoint /= abs(penultimateMinusPoint)
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@ -2151,27 +2151,27 @@ class Endpoint:
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endpoints.sort( compareSegmentLength )
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for endpoint in endpoints[ : 15 ]: # increasing the number of searched endpoints increases the search time, with 20 fill took 600 seconds for cilinder.gts, with 10 fill took 533 seconds
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normalizedSegment = endpoint.segment / endpoint.segmentLength
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isOverlappingSelf = getDotProduct( penultimateMinusPoint, normalizedSegment ) > 0.9
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isOverlappingSelf = getDotProduct(penultimateMinusPoint, normalizedSegment) > sharpestProduct
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if not isOverlappingSelf:
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if len(path) > 2:
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segmentYMirror = complex(normalizedSegment.real, -normalizedSegment.imag)
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pointRotated = segmentYMirror * self.point
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endpointPointRotated = segmentYMirror * endpoint.point
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if isXSegmentIntersectingPath( path[ max( 0, len(path) - 21 ) : - 1 ], pointRotated.real, endpointPointRotated.real, segmentYMirror, pointRotated.imag ):
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if isXSegmentIntersectingPath(path[ max(0, len(path) - 21) : -1], pointRotated.real, endpointPointRotated.real, segmentYMirror, pointRotated.imag):
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isOverlappingSelf = True
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endpointPath = endpoint.path
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if len( endpointPath ) > 2:
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if len(endpointPath) > 2:
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segmentYMirror = complex(normalizedSegment.real, -normalizedSegment.imag)
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pointRotated = segmentYMirror * self.point
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endpointPointRotated = segmentYMirror * endpoint.point
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if isXSegmentIntersectingPath( endpointPath, pointRotated.real, endpointPointRotated.real, segmentYMirror, pointRotated.imag ):
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if isXSegmentIntersectingPath(endpointPath, pointRotated.real, endpointPointRotated.real, segmentYMirror, pointRotated.imag):
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isOverlappingSelf = True
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if not isOverlappingSelf:
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totalMaskTable = pathMaskTable.copy()
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addSegmentToPixelTable( endpoint.point, endpoint.otherEndpoint.point, totalMaskTable, 0, 0, width )
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addSegmentToPixelTable(endpoint.point, endpoint.otherEndpoint.point, totalMaskTable, 0, 0, width)
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segmentTable = {}
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addSegmentToPixelTable( self.point, endpoint.point, segmentTable, 0, 0, width )
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if not isPixelTableIntersecting( pixelDictionary, segmentTable, totalMaskTable ):
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addSegmentToPixelTable(self.point, endpoint.point, segmentTable, 0, 0, width)
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if not isPixelTableIntersecting(pixelDictionary, segmentTable, totalMaskTable):
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return endpoint
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return None
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@ -311,7 +311,7 @@ def getDescendingAreaLoops(allPoints, corners, importRadius):
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sortLoopsInOrderOfArea(True, loops)
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pointDictionary = {}
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for loop in loops:
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if len(loop) > 2 and getOverlapRatio(loop, pointDictionary) < 0.3:
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if len(loop) > 2 and getOverlapRatio(loop, pointDictionary) < 0.3 and intercircle.getIsLarge(loop, importRadius):
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intercircle.directLoop(not euclidean.getIsInFilledRegion(descendingAreaLoops, loop[0]), loop)
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descendingAreaLoops.append(loop)
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addLoopToPointTable(loop, pointDictionary)
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@ -427,7 +427,7 @@ def getLargestInsetLoopFromLoopRegardless( loop, radius ):
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largestInsetLoop = getLargestInsetLoopFromLoop( loop, decreasingRadius )
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if len( largestInsetLoop ) > 0:
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return largestInsetLoop
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print('This should never happen, there should always be a largestInsetLoop in getLargestInsetLoopFromLoopRegardless in intercircle.')
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print('Warning, there should always be a largestInsetLoop in getLargestInsetLoopFromLoopRegardless in intercircle.')
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print(loop)
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return loop
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@ -218,9 +218,7 @@ class SVGWriter:
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self.setTexts('volume', 'Volume: %s cm3' % self.getRounded(volume))
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if not self.addLayerTemplateToSVG:
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self.svgElement.getFirstChildByLocalName('script').removeFromIDNameParent()
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self.svgElement.getElementNodeByID('isoControlBox').removeFromIDNameParent()
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self.svgElement.getElementNodeByID('layerControlBox').removeFromIDNameParent()
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self.svgElement.getElementNodeByID('scrollControlBox').removeFromIDNameParent()
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self.svgElement.getElementNodeByID('controls').removeFromIDNameParent()
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self.graphicsElementNode.removeFromIDNameParent()
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self.addOriginalAsComment(elementNode)
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return documentNode.__repr__()
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@ -1 +1 @@
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12.02.10
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12.03.14
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@ -17,6 +17,9 @@ The default 'Activate Chamber' checkbox is on. When it is on, the functions des
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===Bed===
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The initial bed temperature is defined by 'Bed Temperature'. If the 'Bed Temperature End Change Height' is greater or equal to the 'Bed Temperature Begin Change Height' and the 'Bed Temperature Begin Change Height' is greater or equal to zero, then the temperature will be ramped toward the 'Bed Temperature End'. The ramp will start once the extruder reaches the 'Bed Temperature Begin Change Height', then the bed temperature will approach the 'Bed Temperature End' as the extruder reaches the 'Bed Temperature End Change Height', finally the bed temperature will stay at the 'Bed Temperature End' for the remainder of the build.
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The idea is described at:
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http://www.makerbot.com/blog/2011/03/17/if-you-cant-stand-the-heat/
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====Bed Temperature====
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Default: 60C
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@ -174,7 +174,6 @@ class CombSkein:
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"A class to comb a skein of extrusions."
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def __init__(self):
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'Initialize'
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# self.betweenTable = {}
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self.boundaryLoop = None
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self.distanceFeedRate = gcodec.DistanceFeedRate()
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self.extruderActive = False
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def getAroundBetweenPath(self, begin, end):
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'Get the path around the loops in the way of the original line segment.'
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aroundBetweenPath = []
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# betweens = self.getBetweens()
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boundaries = self.getBoundaries()
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boundarySegments = self.getBoundarySegments(begin, boundaries, end)
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for boundarySegmentIndex, boundarySegment in enumerate(boundarySegments):
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del aroundBetweenPath[pointIndex]
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return aroundBetweenPath
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# def getBetweens(self):
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# 'Get betweens for the layer.'
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# if not self.layerZ in self.betweenTable:
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# self.betweenTable[self.layerZ] = []
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# for boundary in self.getBoundaries():
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# self.betweenTable[self.layerZ] += intercircle.getInsetLoopsFromLoop(boundary, self.betweenInset)
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# return self.betweenTable[self.layerZ]
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#
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def getBoundaries(self):
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"Get boundaries for the layer."
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if self.layerZ in self.layerTable:
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return
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elif firstWord == '(<edgeWidth>':
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self.edgeWidth = float(splitLine[1])
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# self.betweenInset = 0.7 * self.edgeWidth
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self.doubleEdgeWidth = self.edgeWidth + self.edgeWidth
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self.halfEdgeWidth = 0.5 * self.edgeWidth
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self.quadrupleEdgeWidth = self.doubleEdgeWidth + self.doubleEdgeWidth
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def addFlowRate(self, flowRate):
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'Add a multipled line of flow rate if different.'
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self.distanceFeedRate.addLine('M108 S' + euclidean.getFourSignificantFigures(flowRate))
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if flowRate != None:
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self.distanceFeedRate.addLine('M108 S' + euclidean.getFourSignificantFigures(flowRate))
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def addGcodeFromFeedRateMovementZ(self, feedRateMinute, point, z):
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'Add a movement to the output.'
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@ -1,8 +1,6 @@
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"""
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This page is in the table of contents.
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Dwindle is a plugin to smooth the surface dwindle of an object by replacing the edge surface with a surface printed at a fraction of the carve
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height. This gives the impression that the object was carved at a much thinner height giving a high-quality finish, but still prints
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in a relatively short time. The latest process has some similarities with a description at:
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Dwindle is a plugin to reduce the feed rate and flow rate at the end of the thread, in order to reduce the ooze when traveling. It reduces the flow rate by a bit more than the feed rate, in order to use up the pent up plastic in the thread so that there is less remaining in the ooze.
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The dwindle manual page is at:
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http://fabmetheus.crsndoo.com/wiki/index.php/Skeinforge_Dwindle
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The default 'Activate Dwindle' checkbox is off. When it is on, the functions described below will work, when it is off, nothing will be done.
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==Settings==
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====Vertical Divisions====
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Default: 2
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===End Rate Multiplier===
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Default: 0.5
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Defines the number of times the dwindle infill and edges are divided vertically.
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Defines the ratio of the feed and flow rate at the end over the feed and flow rate of the rest of the thread. With reasonable values for the 'Pent Up Volume' and 'Slowdown Volume', the amount of ooze should be roughly proportional to the square of the 'End Rate Multiplier'. If the 'End Rate Multiplier' is too low, the printing will be very slow because the feed rate will be lower. If the 'End Rate Multiplier' is too high, there will still be a lot of ooze.
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===Pent Up Volume===
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Default: 0.4 mm3
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When the filament is stopped, there is a pent up volume of plastic that comes out afterwards. For best results, the 'Pent Up Volume' in dwindle should be set to that amount. If the 'Pent Up Volume' is too small, there will still be a lot of ooze. If the 'Pent Up Volume' is too large, the end of the thread will be thinner than the rest of the thread.
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===Slowdown Steps===
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Default: 3
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Dwindle reduces the feed rate and flow rate in steps so the thread will remain at roughly the same thickness until the end. The "Slowdown Steps" setting is the number of steps, the more steps the smaller the variation in the thread thickness, but the larger the size of the resulting gcode file and the more time spent pausing between segments.
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===Slowdown Volume===
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Default: 5 mm3
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The 'Slowdown Volume' is the volume of the end of the thread where the feed and flow rates will be decreased. If the 'Slowdown Volume' is too small, there won't be enough time to get rid of the pent up plastic, so there will still be a lot of ooze. If the 'Slowdown Volume' is too large, a bit of time will be wasted because for a large portion of the thread, the feed rate will be slow. Overall, it is best to err on being too large, because too large would only waste machine time in production, rather than the more important string removal labor time.
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==Examples==
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The following examples dwindle the file Screw Holder Bottom.stl. The examples are run in a terminal in the folder which contains Screw Holder Bottom.stl and dwindle.py.
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@ -80,15 +93,15 @@ class DwindleRepository:
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'A class to handle the dwindle settings.'
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def __init__(self):
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'Set the default settings, execute title & settings fileName.'
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skeinforge_profile.addListsToCraftTypeRepository('skeinforge_application.skeinforge_plugins.craft_plugins.dwindle.html', self )
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self.fileNameInput = settings.FileNameInput().getFromFileName( fabmetheus_interpret.getGNUTranslatorGcodeFileTypeTuples(), 'Open File for Dwindle', self, '')
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skeinforge_profile.addListsToCraftTypeRepository('skeinforge_application.skeinforge_plugins.craft_plugins.dwindle.html', self)
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self.fileNameInput = settings.FileNameInput().getFromFileName(fabmetheus_interpret.getGNUTranslatorGcodeFileTypeTuples(), 'Open File for Dwindle', self, '')
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self.openWikiManualHelpPage = settings.HelpPage().getOpenFromAbsolute('http://fabmetheus.crsndoo.com/wiki/index.php/Skeinforge_Dwindle')
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self.activateDwindle = settings.BooleanSetting().getFromValue('Activate Dwindle', self, False)
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settings.LabelSeparator().getFromRepository(self)
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self.endRateMultiplier = settings.FloatSpin().getFromValue(0.4, 'End Rate Multiplier (ratio):', self, 0.8, 0.5)
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self.pentUpVolume = settings.FloatSpin().getFromValue(0.1, 'Pent Up Volume (cubic millimeters):', self, 1.0, 0.4)
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self.slowdownSteps = settings.IntSpin().getFromValue(2, 'Slowdown Steps (positive integer):', self, 10, 3)
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self.slowdownVolume = settings.FloatSpin().getFromValue(0.4, 'Slowdown Volume (cubic millimeters):', self, 4.0, 2.0)
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self.slowdownVolume = settings.FloatSpin().getFromValue(1.0, 'Slowdown Volume (cubic millimeters):', self, 10.0, 5.0)
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self.executeTitle = 'Dwindle'
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def execute(self):
|
||||
|
@ -110,6 +123,7 @@ class DwindleSkein:
|
|||
self.lines = None
|
||||
self.oldFlowRate = None
|
||||
self.oldLocation = None
|
||||
self.operatingFlowRate = None
|
||||
self.threadSections = []
|
||||
|
||||
def addThread(self):
|
||||
|
@ -138,7 +152,10 @@ class DwindleSkein:
|
|||
self.lines = archive.getTextLines(gcodeText)
|
||||
self.repository = repository
|
||||
self.parseInitialization()
|
||||
self.area = self.infillWidth * self.layerHeight
|
||||
if self.operatingFlowRate == None:
|
||||
print('Warning, there is no operatingFlowRate so dwindle will do nothing.')
|
||||
return gcodeText
|
||||
self.area = self.infillWidth * self.layerHeight * self.volumeFraction
|
||||
self.oneOverSteps = 1.0 / float(repository.slowdownSteps.value)
|
||||
self.halfOverSteps = 0.5 * self.oneOverSteps
|
||||
for self.lineIndex in xrange(self.lineIndex, len(self.lines)):
|
||||
|
@ -165,6 +182,8 @@ class DwindleSkein:
|
|||
elif firstWord == '(<operatingFlowRate>':
|
||||
self.operatingFlowRate = float(splitLine[1])
|
||||
self.oldFlowRate = self.operatingFlowRate
|
||||
elif firstWord == '(<volumeFraction>':
|
||||
self.volumeFraction = float(splitLine[1])
|
||||
self.distanceFeedRate.addLine(line)
|
||||
|
||||
def parseLine(self, line):
|
||||
|
|
|
@ -118,6 +118,13 @@ Default is 1.5.
|
|||
|
||||
Defines the ratio of the infill width over the layer height. The higher the value the wider apart the infill will be and therefore the sparser the infill will be.
|
||||
|
||||
===Sharpest Angle===
|
||||
Default: 60 degrees
|
||||
|
||||
Defines the sharpest angle that a thread is allowed to make before it is separated into two threads. If 'Sharpest Angle' is too low, the extruder will stop and start often, slowing printing and putting more wear and tear on the extruder. If 'Sharpest Angle' is too high, then threads will almost double back on themselves, leading to bumps in the fill, and sometimes filament being dragged by the nozzle.
|
||||
|
||||
This parameter is used in fill, raft and skin.
|
||||
|
||||
===Solid Surface Thickness===
|
||||
Default is three.
|
||||
|
||||
|
@ -791,7 +798,7 @@ class FillRepository:
|
|||
settings.LabelDisplay().getFromName('- Infill -', self )
|
||||
self.infillBeginRotation = settings.FloatSpin().getFromValue( 0.0, 'Infill Begin Rotation (degrees):', self, 90.0, 45.0 )
|
||||
self.infillBeginRotationRepeat = settings.IntSpin().getFromValue( 0, 'Infill Begin Rotation Repeat (layers):', self, 3, 1 )
|
||||
self.infillOddLayerExtraRotation = settings.FloatSpin().getFromValue( 30.0, 'Infill Odd Layer Extra Rotation (degrees):', self, 90.0, 90.0 )
|
||||
self.infillOddLayerExtraRotation = settings.FloatSpin().getFromValue(30.0, 'Infill Odd Layer Extra Rotation (degrees):', self, 90.0, 90.0)
|
||||
self.infillPatternLabel = settings.LabelDisplay().getFromName('Infill Pattern:', self )
|
||||
infillLatentStringVar = settings.LatentStringVar()
|
||||
self.infillPatternGridCircular = settings.Radio().getFromRadio( infillLatentStringVar, 'Grid Circular', self, False )
|
||||
|
@ -800,8 +807,8 @@ class FillRepository:
|
|||
self.infillPatternLine = settings.Radio().getFromRadio( infillLatentStringVar, 'Line', self, True )
|
||||
self.infillPerimeterOverlap = settings.FloatSpin().getFromValue( 0.0, 'Infill Perimeter Overlap (ratio):', self, 0.4, 0.15 )
|
||||
self.infillSolidity = settings.FloatSpin().getFromValue( 0.04, 'Infill Solidity (ratio):', self, 0.3, 0.2 )
|
||||
self.infillWidth = settings.FloatSpin().getFromValue( 0.1, 'Infill Width:', self, 1.7, 0.4 )
|
||||
settings.LabelSeparator().getFromRepository(self)
|
||||
self.sharpestAngle = settings.FloatSpin().getFromValue(50.0, 'Sharpest Angle (degrees):', self, 70.0, 60.0)
|
||||
self.solidSurfaceThickness = settings.IntSpin().getFromValue(0, 'Solid Surface Thickness (layers):', self, 5, 3)
|
||||
self.startFromChoice = settings.MenuButtonDisplay().getFromName('Start From Choice:', self)
|
||||
self.startFromLowerLeft = settings.MenuRadio().getFromMenuButtonDisplay(self.startFromChoice, 'Lower Left', self, True)
|
||||
|
@ -878,7 +885,8 @@ class FillSkein:
|
|||
extraShells = 0
|
||||
self.distanceFeedRate.addLine('(<bridgeRotation> %s )' % layerRotation)
|
||||
self.distanceFeedRate.addLine('(<rotation> %s )' % layerRotation)
|
||||
aroundWidth = 0.34321 * self.infillWidth
|
||||
# aroundWidth = 0.34321 * self.infillWidth
|
||||
aroundWidth = 0.24321 * self.infillWidth
|
||||
doubleInfillWidth = 2.0 * self.infillWidth
|
||||
gridPointInsetX = 0.5 * self.fillInset
|
||||
self.lastExtraShells = extraShells
|
||||
|
@ -929,7 +937,7 @@ class FillSkein:
|
|||
for segments in self.horizontalSegmentsDictionary.values():
|
||||
for segment in segments:
|
||||
endpoints += segment
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.infillWidth, pixelTable, aroundWidth)
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.infillWidth, pixelTable, self.sharpestProduct, aroundWidth)
|
||||
if gridCircular:
|
||||
startAngle = euclidean.globalGoldenAngle * float(layerIndex)
|
||||
for gridPoint in self.getGridPoints(fillLoops, reverseRotation):
|
||||
|
@ -942,7 +950,7 @@ class FillSkein:
|
|||
while oldRemovedEndpointLength - len(removedEndpoints) > 0:
|
||||
oldRemovedEndpointLength = len(removedEndpoints)
|
||||
removeEndpoints(self.infillWidth, paths, pixelTable, removedEndpoints, aroundWidth)
|
||||
paths = euclidean.getConnectedPaths(paths, pixelTable, aroundWidth)
|
||||
paths = euclidean.getConnectedPaths(paths, pixelTable, self.sharpestProduct, aroundWidth)
|
||||
for path in paths:
|
||||
addPath(self.infillWidth, infillPaths, path, layerRotation)
|
||||
euclidean.transferPathsToNestedRings(nestedRings, infillPaths)
|
||||
|
@ -1118,6 +1126,7 @@ class FillSkein:
|
|||
'Parse gcode text and store the bevel gcode.'
|
||||
self.repository = repository
|
||||
self.lines = archive.getTextLines(gcodeText)
|
||||
self.sharpestProduct = math.sin(math.radians(repository.sharpestAngle.value))
|
||||
self.threadSequence = None
|
||||
if repository.threadSequenceInfillLoops.value:
|
||||
self.threadSequence = ['infill', 'loops', 'edge']
|
||||
|
@ -1251,12 +1260,13 @@ class FillSkein:
|
|||
if firstWord == '(<crafting>)':
|
||||
self.distanceFeedRate.addLine(line)
|
||||
return
|
||||
elif firstWord == '(<infillWidth>':
|
||||
self.infillWidth = float(splitLine[1])
|
||||
elif firstWord == '(<layerHeight>':
|
||||
self.layerHeight = float(splitLine[1])
|
||||
self.infillWidth = self.repository.infillWidth.value
|
||||
self.surroundingSlope = math.tan(math.radians(min(self.repository.surroundingAngle.value, 80.0)))
|
||||
self.distanceFeedRate.addTagRoundedLine('infillPerimeterOverlap', self.repository.infillPerimeterOverlap.value)
|
||||
self.distanceFeedRate.addTagRoundedLine('infillWidth', self.infillWidth)
|
||||
self.distanceFeedRate.addTagRoundedLine('sharpestProduct', self.sharpestProduct)
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
threadSequenceString = ' '.join( self.threadSequence )
|
||||
|
|
|
@ -38,6 +38,11 @@ Default is on.
|
|||
|
||||
When selected, the M104 S0 gcode line will be added to the end of the file to turn the extruder heater off by setting the extruder heater temperature to 0.
|
||||
|
||||
===Volume Fraction===
|
||||
Default: 0.82
|
||||
|
||||
The 'Volume Fraction' is the estimated volume of the thread compared to the box defined by the layer height and infill width. This is used in dwindle, splodge, and statistic. It is in inset because inset is a required extrusion tool, earlier in the chain than dwindle and splodge. In dwindle and splodge it is used to determine the filament volume, in statistic it is used to determine the extrusion diameter.
|
||||
|
||||
==Examples==
|
||||
The following examples inset the file Screw Holder Bottom.stl. The examples are run in a terminal in the folder which contains Screw Holder Bottom.stl and inset.py.
|
||||
|
||||
|
|
|
@ -200,7 +200,7 @@ class MillSkein:
|
|||
endpoints = euclidean.getEndpointsFromSegmentTable( boundaryLayer.segmentTable )
|
||||
if len(endpoints) < 1:
|
||||
return
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.millWidth, self.aroundPixelTable, self.aroundWidth)
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.millWidth, self.aroundPixelTable, 1.0, self.aroundWidth)
|
||||
averageZ = self.average.getAverage()
|
||||
if self.repository.addInnerLoops.value:
|
||||
self.addGcodeFromLoops( boundaryLayer.innerLoops, averageZ )
|
||||
|
|
|
@ -443,6 +443,7 @@ class RaftSkein:
|
|||
self.operatingLayerEndLine = '(<operatingLayerEnd> </operatingLayerEnd>)'
|
||||
self.operatingJump = None
|
||||
self.orbitalFeedRatePerSecond = 2.01
|
||||
self.sharpestProduct = 0.94
|
||||
self.supportFlowRate = None
|
||||
self.supportLayers = []
|
||||
self.supportLayersTemperature = None
|
||||
|
@ -547,7 +548,7 @@ class RaftSkein:
|
|||
return
|
||||
aroundPixelTable = {}
|
||||
aroundWidth = 0.34321 * step
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 1.5 * step, aroundPixelTable, aroundWidth)
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 1.5 * step, aroundPixelTable, self.sharpestProduct, aroundWidth)
|
||||
self.addLayerLine(z)
|
||||
if self.operatingFlowRate != None:
|
||||
self.addFlowRate(flowRateMultiplier * self.operatingFlowRate)
|
||||
|
@ -704,7 +705,7 @@ class RaftSkein:
|
|||
aroundBoundaryLoops = intercircle.getAroundsFromLoops(boundaryLoops, halfSupportOutset)
|
||||
for aroundBoundaryLoop in aroundBoundaryLoops:
|
||||
euclidean.addLoopToPixelTable(aroundBoundaryLoop, aroundPixelTable, aroundWidth)
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 1.5 * self.interfaceStep, aroundPixelTable, aroundWidth)
|
||||
paths = euclidean.getPathsFromEndpoints(endpoints, 1.5 * self.interfaceStep, aroundPixelTable, self.sharpestProduct, aroundWidth)
|
||||
feedRateMinuteMultiplied = self.operatingFeedRateMinute
|
||||
supportFlowRateMultiplied = self.supportFlowRate
|
||||
if self.layerIndex == 0:
|
||||
|
@ -894,6 +895,11 @@ class RaftSkein:
|
|||
self.baseTemperature = float(splitLine[1])
|
||||
elif firstWord == '(<coolingRate>':
|
||||
self.coolingRate = float(splitLine[1])
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
self.halfEdgeWidth = 0.5 * self.edgeWidth
|
||||
self.quarterEdgeWidth = 0.25 * self.edgeWidth
|
||||
self.supportOutset = self.edgeWidth + self.edgeWidth * self.repository.supportGapOverPerimeterExtrusionWidth.value
|
||||
elif firstWord == '(</extruderInitialization>)':
|
||||
self.distanceFeedRate.addTagBracketedProcedure('raft')
|
||||
elif firstWord == '(<heatingRate>':
|
||||
|
@ -925,11 +931,8 @@ class RaftSkein:
|
|||
self.operatingFlowRate = float(splitLine[1])
|
||||
self.oldFlowRate = self.operatingFlowRate
|
||||
self.supportFlowRate = self.operatingFlowRate * self.repository.supportFlowRateOverOperatingFlowRate.value
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
self.halfEdgeWidth = 0.5 * self.edgeWidth
|
||||
self.quarterEdgeWidth = 0.25 * self.edgeWidth
|
||||
self.supportOutset = self.edgeWidth + self.edgeWidth * self.repository.supportGapOverPerimeterExtrusionWidth.value
|
||||
elif firstWord == '(<sharpestProduct>':
|
||||
self.sharpestProduct = float(splitLine[1])
|
||||
elif firstWord == '(<supportLayersTemperature>':
|
||||
self.supportLayersTemperature = float(splitLine[1])
|
||||
elif firstWord == '(<supportedLayersTemperature>':
|
||||
|
|
|
@ -154,11 +154,13 @@ class SkinSkein:
|
|||
self.maximumZFeedRateMinute = 60.0
|
||||
self.oldFlowRate = None
|
||||
self.oldLocation = None
|
||||
self.sharpestProduct = 0.94
|
||||
self.travelFeedRateMinute = 957.0
|
||||
|
||||
def addFlowRateLine(self, flowRate):
|
||||
'Add a flow rate line.'
|
||||
self.distanceFeedRate.addLine('M108 S' + euclidean.getFourSignificantFigures(flowRate))
|
||||
if flowRate != None:
|
||||
self.distanceFeedRate.addLine('M108 S' + euclidean.getFourSignificantFigures(flowRate))
|
||||
|
||||
def addPerimeterLoop(self, thread, z):
|
||||
'Add the edge loop to the gcode.'
|
||||
|
@ -170,7 +172,8 @@ class SkinSkein:
|
|||
return
|
||||
bottomZ = self.oldLocation.z + self.layerHeight / self.verticalDivisionsFloat - self.layerHeight
|
||||
offsetY = 0.5 * self.skinInfillWidth
|
||||
self.addFlowRateLine(self.oldFlowRate / self.verticalDivisionsFloat / self.horizontalInfillDivisionsFloat)
|
||||
if self.oldFlowRate != None:
|
||||
self.addFlowRateLine(self.oldFlowRate / self.verticalDivisionsFloat / self.horizontalInfillDivisionsFloat)
|
||||
for verticalDivisionIndex in xrange(self.verticalDivisions):
|
||||
z = bottomZ + self.layerHeight / self.verticalDivisionsFloat * float(verticalDivisionIndex)
|
||||
self.addSkinnedInfillBoundary(self.infillBoundaries, offsetY * (verticalDivisionIndex % 2 == 0), self.oldLocation.z, z)
|
||||
|
@ -199,7 +202,7 @@ class SkinSkein:
|
|||
for endpoint in segment:
|
||||
endpoint.point = complex(endpoint.point.real, endpoint.point.imag + offsetY)
|
||||
endpoints.append(endpoint)
|
||||
infillPaths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.skinInfillWidth, pixelTable, aroundWidth)
|
||||
infillPaths = euclidean.getPathsFromEndpoints(endpoints, 5.0 * self.skinInfillWidth, pixelTable, self.sharpestProduct, aroundWidth)
|
||||
for infillPath in infillPaths:
|
||||
addPointBeforeThread = True
|
||||
infillRotated = euclidean.getRotatedComplexes(self.rotation, infillPath)
|
||||
|
@ -239,9 +242,12 @@ class SkinSkein:
|
|||
for division in xrange(self.repository.horizontalPerimeterDivisions.value):
|
||||
edges.append(self.getClippedSimplifiedLoopPathByLoop(intercircle.getLargestInsetLoopFromLoop(edgeThread, radius)))
|
||||
radius += radiusAddition
|
||||
skinnedPerimeterFlowRate = self.oldFlowRate / self.verticalDivisionsFloat
|
||||
skinnedPerimeterFlowRate = None
|
||||
if self.oldFlowRate != None:
|
||||
skinnedPerimeterFlowRate = self.oldFlowRate / self.verticalDivisionsFloat
|
||||
if getIsMinimumSides(edges):
|
||||
self.addFlowRateLine(skinnedPerimeterFlowRate / self.horizontalPerimeterDivisionsFloat)
|
||||
if self.oldFlowRate != None:
|
||||
self.addFlowRateLine(skinnedPerimeterFlowRate / self.horizontalPerimeterDivisionsFloat)
|
||||
for verticalDivisionIndex in xrange(self.verticalDivisions):
|
||||
z = bottomZ + self.layerHeight / self.verticalDivisionsFloat * float(verticalDivisionIndex)
|
||||
for edge in edges:
|
||||
|
@ -314,6 +320,9 @@ class SkinSkein:
|
|||
self.distanceFeedRate.parseSplitLine(firstWord, splitLine)
|
||||
if firstWord == '(<clipOverEdgeWidth>':
|
||||
self.clipOverEdgeWidth = float(splitLine[1])
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
self.halfEdgeWidth = 0.5 * self.edgeWidth
|
||||
elif firstWord == '(</extruderInitialization>)':
|
||||
self.distanceFeedRate.addTagBracketedProcedure('skin')
|
||||
return
|
||||
|
@ -328,9 +337,8 @@ class SkinSkein:
|
|||
self.maximumZFeedRateMinute = 60.0 * float(splitLine[1])
|
||||
elif firstWord == '(<operatingFlowRate>':
|
||||
self.oldFlowRate = float(splitLine[1])
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
self.halfEdgeWidth = 0.5 * self.edgeWidth
|
||||
elif firstWord == '(<sharpestProduct>':
|
||||
self.sharpestProduct = float(splitLine[1])
|
||||
elif firstWord == '(<travelFeedRatePerSecond>':
|
||||
self.travelFeedRateMinute = 60.0 * float(splitLine[1])
|
||||
self.distanceFeedRate.addLine(line)
|
||||
|
|
|
@ -96,15 +96,15 @@ def getNewRepository():
|
|||
'Get new repository.'
|
||||
return WidenRepository()
|
||||
|
||||
def getWidenedLoop(loop, loopList, outsetLoop, radius):
|
||||
def getWidenedLoops(loop, loopList, outsetLoop, radius):
|
||||
'Get the widened loop.'
|
||||
intersectingWithinLoops = getIntersectingWithinLoops(loop, loopList, outsetLoop)
|
||||
if len(intersectingWithinLoops) < 1:
|
||||
return loop
|
||||
return [loop]
|
||||
loopsUnified = boolean_solid.getLoopsUnion(radius, [[loop], intersectingWithinLoops])
|
||||
if len(loopsUnified) < 1:
|
||||
return loop
|
||||
return euclidean.getLargestLoop(loopsUnified)
|
||||
return [loop]
|
||||
return loopsUnified
|
||||
|
||||
def writeOutput(fileName, shouldAnalyze=True):
|
||||
'Widen the carving of a gcode file.'
|
||||
|
@ -121,6 +121,7 @@ class WidenRepository:
|
|||
self.openWikiManualHelpPage = settings.HelpPage().getOpenFromAbsolute(
|
||||
'http://fabmetheus.crsndoo.com/wiki/index.php/Skeinforge_Widen')
|
||||
self.activateWiden = settings.BooleanSetting().getFromValue('Activate Widen', self, False)
|
||||
self.widenWidthOverEdgeWidth = settings.IntSpin().getFromValue(2, 'Widen Width over Edge Width (ratio):', self, 4, 2)
|
||||
self.executeTitle = 'Widen'
|
||||
|
||||
def execute(self):
|
||||
|
@ -155,15 +156,15 @@ class WidenSkein:
|
|||
else:
|
||||
widdershinsLoops.append(loop)
|
||||
else:
|
||||
# clockwiseInsetLoop = intercircle.getLargestInsetLoopFromLoop(loop, self.doubleEdgeWidth)
|
||||
# clockwiseInsetLoop = intercircle.getLargestInsetLoopFromLoop(loop, self.widenEdgeWidth)
|
||||
# clockwiseInsetLoop.reverse()
|
||||
# clockwiseInsetLoops.append(clockwiseInsetLoop)
|
||||
clockwiseInsetLoops += intercircle.getInsetLoopsFromLoop(loop, self.doubleEdgeWidth)
|
||||
clockwiseInsetLoops += intercircle.getInsetLoopsFromLoop(loop, self.widenEdgeWidth)
|
||||
self.distanceFeedRate.addGcodeFromLoop(loop, loopLayer.z)
|
||||
for widdershinsLoop in widdershinsLoops:
|
||||
outsetLoop = intercircle.getLargestInsetLoopFromLoop(widdershinsLoop, -self.doubleEdgeWidth)
|
||||
widenedLoop = getWidenedLoop(widdershinsLoop, clockwiseInsetLoops, outsetLoop, self.edgeWidth)
|
||||
self.distanceFeedRate.addGcodeFromLoop(widenedLoop, loopLayer.z)
|
||||
outsetLoop = intercircle.getLargestInsetLoopFromLoop(widdershinsLoop, -self.widenEdgeWidth)
|
||||
for widenedLoop in getWidenedLoops(widdershinsLoop, clockwiseInsetLoops, outsetLoop, self.lessThanHalfEdgeWidth):
|
||||
self.distanceFeedRate.addGcodeFromLoop(widenedLoop, loopLayer.z)
|
||||
|
||||
def getCraftedGcode(self, gcodeText, repository):
|
||||
'Parse gcode text and store the widen gcode.'
|
||||
|
@ -188,7 +189,8 @@ class WidenSkein:
|
|||
return
|
||||
elif firstWord == '(<edgeWidth>':
|
||||
self.edgeWidth = float(splitLine[1])
|
||||
self.doubleEdgeWidth = 2.0 * self.edgeWidth
|
||||
self.widenEdgeWidth = float(self.repository.widenWidthOverEdgeWidth.value) * self.edgeWidth
|
||||
self.lessThanHalfEdgeWidth = 0.49 * self.edgeWidth
|
||||
self.distanceFeedRate.addLine(line)
|
||||
|
||||
def parseLine(self, line):
|
||||
|
|
|
@ -87,28 +87,23 @@ def getPluginsDirectoryPath():
|
|||
"Get the plugins directory path."
|
||||
return archive.getCraftPluginsDirectoryPath()
|
||||
|
||||
def getProcedures( procedure, text ):
|
||||
"Get the procedures up to and including the given procedure."
|
||||
def getProcedures(procedure, text):
|
||||
'Get the procedures up to and including the given procedure.'
|
||||
craftSequence = getReadCraftSequence()
|
||||
sequenceIndexFromProcedure = 0
|
||||
if procedure in craftSequence:
|
||||
sequenceIndexFromProcedure = craftSequence.index(procedure)
|
||||
sequenceIndexPlusOneFromText = getSequenceIndexPlusOneFromText(text)
|
||||
return craftSequence[ sequenceIndexPlusOneFromText : sequenceIndexFromProcedure + 1 ]
|
||||
craftSequence = craftSequence[: sequenceIndexFromProcedure + 1]
|
||||
for craftSequenceIndex in xrange(len(craftSequence) - 1, -1, -1):
|
||||
procedure = craftSequence[craftSequenceIndex]
|
||||
if gcodec.isProcedureDone(text, procedure):
|
||||
return craftSequence[craftSequenceIndex + 1 :]
|
||||
return craftSequence
|
||||
|
||||
def getReadCraftSequence():
|
||||
"Get profile sequence."
|
||||
return skeinforge_profile.getCraftTypePluginModule().getCraftSequence()
|
||||
|
||||
def getSequenceIndexPlusOneFromText(fileText):
|
||||
"Get the profile sequence index of the file plus one. Return zero if the procedure is not in the file"
|
||||
craftSequence = getReadCraftSequence()
|
||||
for craftSequenceIndex in xrange( len( craftSequence ) - 1, - 1, - 1 ):
|
||||
procedure = craftSequence[ craftSequenceIndex ]
|
||||
if gcodec.isProcedureDone( fileText, procedure ):
|
||||
return craftSequenceIndex + 1
|
||||
return 0
|
||||
|
||||
def writeChainTextWithNounMessage(fileName, procedure, shouldAnalyze=True):
|
||||
'Get and write a crafted shape file.'
|
||||
print('')
|
||||
|
|
Loading…
Reference in a new issue