Mercurial > repos > yufei-luo > s_mart
view commons/core/coord/Range.py @ 38:2c0c0a89fad7
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author | m-zytnicki |
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date | Thu, 02 May 2013 09:56:47 -0400 |
parents | 769e306b7933 |
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# Copyright INRA (Institut National de la Recherche Agronomique) # http://www.inra.fr # http://urgi.versailles.inra.fr # # This software is governed by the CeCILL license under French law and # abiding by the rules of distribution of free software. You can use, # modify and/ or redistribute the software under the terms of the CeCILL # license as circulated by CEA, CNRS and INRIA at the following URL # "http://www.cecill.info". # # As a counterpart to the access to the source code and rights to copy, # modify and redistribute granted by the license, users are provided only # with a limited warranty and the software's author, the holder of the # economic rights, and the successive licensors have only limited # liability. # # In this respect, the user's attention is drawn to the risks associated # with loading, using, modifying and/or developing or reproducing the # software by the user in light of its specific status of free software, # that may mean that it is complicated to manipulate, and that also # therefore means that it is reserved for developers and experienced # professionals having in-depth computer knowledge. Users are therefore # encouraged to load and test the software's suitability as regards their # requirements in conditions enabling the security of their systems and/or # data to be ensured and, more generally, to use and operate it in the # same conditions as regards security. # # The fact that you are presently reading this means that you have had # knowledge of the CeCILL license and that you accept its terms. ## Record a region on a given sequence # class Range( object ): ## Constructor # # @param seqname the name of the sequence # @param start the start coordinate # @param end the end coordinate # def __init__(self, seqname="", start=-1, end=-1): self.seqname = seqname self.start = int(start) self.end = int(end) ## Equal operator # # @param o a Range instance # def __eq__(self, o): if self.seqname == o.seqname and self.start == o.start and self.end == o.end: return True return False ## Unequal operator # # @param o a Range instance # def __ne__(self, o): return not self.__eq__(o) ## Convert the object into a string # # @note used in 'print myObject' # def __str__( self ): return self.toString() ## Convert the object into a string # # @note used in 'repr(myObject)' for debugging # def __repr__( self ): return self.toString().replace("\t",";") def setStart(self, start): self.start = start def setEnd(self, end): self.end = end def setSeqName(self, seqName): self.seqname = seqName ## Reset # def reset(self): self.seqname = "" self.start = -1 self.end = -1 ## Return the attributes as a formatted string # def toString(self): string = "%s" % (self.seqname) string += "\t%d" % (self.start) string += "\t%d" % (self.end) return string ## Show the attributes # def show(self): print self.toString() ## Return seqname # def getSeqname(self): return self.seqname ## Return the start coordinate # def getStart(self): return self.start ## Return the end coordinate # def getEnd(self): return self.end ## Return the lowest value between start and end coordinates # def getMin(self): return min(self.start, self.end) ## Return the greatest value between start and end attributes # def getMax(self): return max(self.start, self.end) ## Return True if the instance is on the direct strand, False otherwise # def isOnDirectStrand(self): if self.start <= self.end: return True else: return False ## Return True if the instance is on the reverse strand, False otherwise # def isOnReverseStrand(self): return not self.isOnDirectStrand() ## Return '+' if the instance is on the direct strand, '-' otherwise # def getStrand(self): if self.isOnDirectStrand(): return '+' else: return '-' ## Exchange start and end coordinates # def reverse(self): tmp = self.start self.start = self.end self.end = tmp ## Return the length of the instance # # @warning old name is 'length' # def getLength(self): return int(abs(self.start-self.end))+1 ## Return True if the instance is empty, False otherwise # def isEmpty(self): if self.start==self.end and (self.start==0 or self.start==-1): return True return False ## Set attributes from tuple # # @param tuple a tuple with (name,start,end) # def setFromTuple(self, tuple): self.seqname = tuple[0] self.start = int(tuple[1]) self.end = int(tuple[2]) ## Set attributes from string # # @param string a string formatted like name<sep>start<sep>end # @param sep field separator # def setFromString(self, string, sep="\t"): if string[-1] == "\n": string = string[:-1] self.setFromTuple( string.split(sep) ) ## Merge the instance with another Range instance # # @param o a Range instance # def merge(self, o): if self.seqname != o.seqname: return if self.isOnDirectStrand(): self.start = min(self.getMin(), o.getMin()) self.end = max(self.getMax(), o.getMax()) else: self.start = max(self.getMax(), o.getMax()) self.end = min(self.getMin(), o.getMin()) ## Return True if the instance overlaps with another Range instance, False otherwise # # @param o a Range instance # def isOverlapping(self, o): if o.seqname != self.seqname: return False smin = self.getMin() smax = self.getMax() omin = o.getMin() omax = o.getMax() if omin <= smin and omax >= smax: return True if omin >= smin and omin <= smax or omax >= smin and omax <= smax: return True return False ## Return the length of the overlap between the instance and another Range, 0 if no overlap # # @param o a Range instance # def getOverlapLength( self, o ): if self.isOverlapping( o ): if self.isIncludedIn( o ): return self.getLength() elif o.isIncludedIn( self ): return o.getLength() elif o.getMin() <= self.getMax() and o.getMin() >= self.getMin(): return self.getMax() - o.getMin() + 1 elif o.getMax() <= self.getMax() and o.getMax() >= self.getMin(): return o.getMax() - self.getMin() + 1 return 0 ## Return True if the instance is included within another Range, False otherwise # # @param o a Range instance # # @note the min (respectively max) coordinates can be equal # def isIncludedIn( self, o ): if o.seqname != self.seqname: return False if self.getMin() >= o.getMin() and self.getMax() <= o.getMax(): return True else: return False ## Return the distance between the start of the instance and the start of another Range instance # # @param o a Range instance # def getDistance(self, o): if self.isOnDirectStrand() == o.isOnDirectStrand(): if self.isOverlapping(o): return 0 elif self.isOnDirectStrand(): if self.start > o.start: return self.start - o.end else: return o.start - self.end else: if self.start > o.start: return self.end - o.start else: return o.end - self.start return -1 ## Remove in the instance the region overlapping with another Range instance # # @param o a Range instance # def diff(self, o): new_range = Range(self.seqname) if not self.isOverlapping(o) or self.seqname != o.seqname: return new_range istart = min(self.start, self.end) iend = max(self.start, self.end) jstart = min(o.start, o.end) jend = max(o.start, o.end) if istart < jstart: if iend <= jend: if self.isOnDirectStrand(): self.start = istart self.end = jstart - 1 else: self.start = jstart - 1 self.end = istart else: if self.isOnDirectStrand(): self.start = istart self.end = jstart - 1 new_range.start = jend + 1 new_range.end = iend else: self.start = jstart - 1; self.end = istart; new_range.start = iend new_range.end = jend + 1 else: #istart>=jstart if iend <= jend: self.start = 0 self.end = 0 else: if self.isOnDirectStrand(): self.start = jend + 1 self.end = iend else: self.start = iend self.end = jend + 1 return new_range ## Find the bin that contains the instance and compute its index # # @note Required for coordinate indexing via a hierarchical bin system # def findIdx(self): min_lvl = 3 max_lvl = 6 for bin_lvl in xrange(min_lvl, max_lvl): if getBin(self.start, bin_lvl) == getBin(self.end, bin_lvl): return getIdx(self.start, bin_lvl) return getIdx(self.start, max_lvl) ## Get a bin for fast database access # # @return bin number (float) # def getBin(self): for i in xrange(3, 8): bin_lvl = pow(10, i) if int(self.start/bin_lvl) == int(self.end/bin_lvl): return float(bin_lvl+(int(self.start/bin_lvl)/1e10)) bin_lvl = pow(10, 8) return float(bin_lvl+(int(self.start/bin_lvl)/1e10)) # Functions # Get the bin number of a coordinate according to the bin level. Required for coordinate indexing with hierarchical bin system # def getBin(val, bin_lvl): bin_size = pow(10, bin_lvl) return long(val / bin_size) # Get an index from a coordinate according to the bin level. Required for coordinate indexing with hierarchical bin system # def getIdx(val, bin_lvl): min_lvl = 3 max_lvl = 6 if bin_lvl >= max_lvl: return long((bin_lvl-min_lvl+1)*pow(10,max_lvl)) return long(((bin_lvl-min_lvl+1)*pow(10,max_lvl))+getBin(val,bin_lvl))