Mercurial > repos > davidmurphy > codonlogo
view weblogolib/colorscheme.py @ 0:c55bdc2fb9fa
Uploaded
author | davidmurphy |
---|---|
date | Thu, 27 Oct 2011 12:09:09 -0400 |
parents | |
children |
line wrap: on
line source
# Copyright (c) 2003-2005 The Regents of the University of California. # Copyright (c) 2005 Gavin E. Crooks # This software is distributed under the MIT Open Source License. # <http://www.opensource.org/licenses/mit-license.html> # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the "Software"), # to deal in the Software without restriction, including without limitation # the rights to use, copy, modify, merge, publish, distribute, sublicense, # and/or sell copies of the Software, and to permit persons to whom the # Software is furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. """ Popular color codings for nucleic and amino acids. Classes: ColorScheme -- A color scheme ColorGroup Generic monochrome Nucleotides nucleotide base pairing Amino Acid hydrophobicity chemistry charge taylor Status : Beta - Needs documentation. """ # Good online references include bioruby and the JalView alignment editor. # Clamp, M., Cuff, J., Searle, S. M. and Barton, G. J. (2004), # "The Jalview Java Alignment Editor," Bioinformatics, 12, 426-7 # http://www.jalview.org import sys from corebio import seq from color import Color codon_alphabetU=['AAA', 'AAU', 'AAC', 'AAG', 'AUA', 'AUU', 'AUC', 'AUG', 'ACA', 'ACU', 'ACC', 'ACG', 'AGA', 'AGU', 'AGC', 'AGG', 'UAA', 'UAU', 'UAC', 'UAG', 'UUA', 'UUU', 'UUC', 'UUG', 'UCA', 'UCU', 'UCC', 'UCG', 'UGA', 'UGU', 'UGC', 'UGG', 'CAA', 'CAU', 'CAC', 'CAG', 'CUA', 'CUU', 'CUC', 'CUG', 'CCA', 'CCU', 'CCC', 'CCG', 'CGA', 'CGU', 'CGC', 'CGG', 'GAA', 'GAU', 'GAC', 'GAG', 'GUA', 'GUU', 'GUC', 'GUG', 'GCA', 'GCU', 'GCC', 'GCG', 'GGA', 'GGU', 'GGC', 'GGG'] codon_alphabetT=['AAA', 'AAT', 'AAC', 'AAG', 'ATA', 'ATT', 'ATC', 'ATG', 'ACA', 'ACT', 'ACC', 'ACG', 'AGA', 'AGT', 'AGC', 'AGG', 'TAA', 'TAT', 'TAC', 'TAG', 'TTA', 'TTT', 'TTC', 'TTG', 'TCA', 'TCT', 'TCC', 'TCG', 'TGA', 'TGT', 'TGC', 'TGG', 'CAA', 'CAT', 'CAC', 'CAG', 'CTA', 'CTT', 'CTC', 'CTG', 'CCA', 'CCT', 'CCC', 'CCG', 'CGA', 'CGT', 'CGC', 'CGG', 'GAA', 'GAT', 'GAC', 'GAG', 'GTA', 'GTT', 'GTC', 'GTG', 'GCA', 'GCT', 'GCC', 'GCG', 'GGA', 'GGT', 'GGC', 'GGG'] class ColorScheme(object): """ A coloring of an alphabet. title : string -- A human readable description defualt_color : Color -- groups : list of color groups alphabet : string -- The set of colored symbols color -- A map between a symbol and a Coloring """ def __init__(self, groups = [], title = "", description = "", default_color = "black", alphabet = seq.generic_alphabet) : """ """ self.title= title self.description = description self.default_color = Color.from_string(default_color) self.groups = groups self.alphabet = alphabet #print >> sys.stderr, groups altype="codons" #print >> sys.stderr,altype #if(alphabet==codon_alphabet): #print >> sys.stderr,"haleyulia it works" color = {} #print >> sys.stderr, groups if(alphabet!=codon_alphabetT and alphabet!=codon_alphabetU): for cg in groups : #print >> sys.stderr, cg for s in cg.symbols : color[s] = cg.color #print >> sys.stderr, s #print >> sys.stderr, cg if s not in alphabet : raise KeyError("Colored symbol does not exist in alphabet.") else: for cg in groups : #print >> sys.stderr, cg color[cg.symbols] = cg.color #print >> sys.stderr, cg.symbols self._color = color def color(self, symbol) : if symbol in self._color : return self._color[symbol] return self.default_color class ColorGroup(object) : """Associate a group of symbols with a color""" def __init__(self, symbols, color, description=None) : self.symbols = symbols self.color = Color.from_string(color) self.description = description monochrome = ColorScheme([]) # This list intentionally left blank # From makelogo nucleotide = ColorScheme([ ColorGroup("G", "orange"), ColorGroup("TU", "red"), ColorGroup("C", "blue"), ColorGroup("A", "green") ]) base_pairing = ColorScheme([ ColorGroup("TAU", "darkorange", "Weak (2 Watson-Crick hydrogen bonds)"), ColorGroup("GC", "blue", "Strong (3 Watson-Crick hydrogen bonds)")], ) hydrophobicity = ColorScheme([ ColorGroup( "RKDENQ", "black", "hydrophobic"), ColorGroup( "SGHTAP", "green", "neutral" ), ColorGroup( "YVMCLFIW", "blue", "hydrophilic") ], alphabet = seq.unambiguous_protein_alphabet ) # from makelogo chemistry = ColorScheme([ ColorGroup( "GSTYC", "green", "polar"), ColorGroup( "NQ", "purple", "neutral"), ColorGroup( "KRH", "blue", "basic"), ColorGroup( "DE", "red", "acidic"), ColorGroup("PAWFLIMV", "black", "hydrophobic") ], alphabet = seq.unambiguous_protein_alphabet ) codonsU = ColorScheme([ ColorGroup( 'CAT', '#00FFFF'), ColorGroup( 'CAU', '#00FFFF'), ColorGroup( 'CAC', '#00FFFF'), ColorGroup( 'AAA', '#00FFFF'), ColorGroup( 'AAG', '#00FFFF'), ColorGroup( 'CGT', '#00FFFF'), ColorGroup( 'CGU', '#00FFFF'), ColorGroup( 'CGC', '#00FFFF'), ColorGroup( 'CGA', '#00FFFF'), ColorGroup( 'CGG', '#00FFFF'), ColorGroup( 'AGA', '#00FFFF'), ColorGroup( 'AGG', '#00FFFF'), ColorGroup( 'GAT', '#FF0000'), ColorGroup( 'GAU', '#FF0000'), ColorGroup( 'GAC', '#FF0000'), ColorGroup( 'GAA', '#FF0000'), ColorGroup( 'GAG', '#FF0000'), ColorGroup( 'TCT', '#00FF00'), ColorGroup( 'UCU', '#00FF00'), ColorGroup( 'TCC', '#00FF00'), ColorGroup( 'UCC', '#00FF00'), ColorGroup( 'TCA', '#00FF00'), ColorGroup( 'UCA', '#00FF00'), ColorGroup( 'TCG', '#00FF00'), ColorGroup( 'UCG', '#00FF00'), ColorGroup( 'AGT', '#00FF00'), ColorGroup( 'AGU', '#00FF00'), ColorGroup( 'AGC', '#00FF00'), ColorGroup( 'ACT', '#00FF00'), ColorGroup( 'ACU', '#00FF00'), ColorGroup( 'ACC', '#00FF00'), ColorGroup( 'ACA', '#00FF00'), ColorGroup( 'ACG', '#00FF00'), ColorGroup( 'CAA', '#00FF00'), ColorGroup( 'CAG', '#00FF00'), ColorGroup( 'AAT', '#00FF00'), ColorGroup( 'AAU', '#00FF00'), ColorGroup( 'AAC', '#00FF00'), ColorGroup( 'GCT', '#5555FF'), ColorGroup( 'GCU', '#5555FF'), ColorGroup( 'GCC', '#5555FF'), ColorGroup( 'GCA', '#5555FF'), ColorGroup( 'GCG', '#5555FF'), ColorGroup( 'GTT', '#5555FF'), ColorGroup( 'GUU', '#5555FF'), ColorGroup( 'GTC', '#5555FF'), ColorGroup( 'GUC', '#5555FF'), ColorGroup( 'GTA', '#5555FF'), ColorGroup( 'GUA', '#5555FF'), ColorGroup( 'GTG', '#5555FF'), ColorGroup( 'GUG', '#5555FF'), ColorGroup( 'CTT', '#5555FF'), ColorGroup( 'CUU', '#5555FF'), ColorGroup( 'CTC', '#5555FF'), ColorGroup( 'CUC', '#5555FF'), ColorGroup( 'CTA', '#5555FF'), ColorGroup( 'CUA', '#5555FF'), ColorGroup( 'CTG', '#5555FF'), ColorGroup( 'CUG', '#5555FF'), ColorGroup( 'TTA', '#5555FF'), ColorGroup( 'UUA', '#5555FF'), ColorGroup( 'TTG', '#5555FF'), ColorGroup( 'UUG', '#5555FF'), ColorGroup( 'ATT', '#5555FF'), ColorGroup( 'AUU', '#5555FF'), ColorGroup( 'ATC', '#5555FF'), ColorGroup( 'AUC', '#5555FF'), ColorGroup( 'ATA', '#5555FF'), ColorGroup( 'AUA', '#5555FF'), ColorGroup( 'ATG', '#5555FF'), ColorGroup( 'AUG', '#5555FF'), ColorGroup( 'TTT', '#FF00FF'), ColorGroup( 'UUU', '#FF00FF'), ColorGroup( 'TTC', '#FF00FF'), ColorGroup( 'UUC', '#FF00FF'), ColorGroup( 'TAT', '#FF00FF'), ColorGroup( 'UAU', '#FF00FF'), ColorGroup( 'TAC', '#FF00FF'), ColorGroup( 'UAC', '#FF00FF'), ColorGroup( 'TGG', '#FF00FF'), ColorGroup( 'UGG', '#FF00FF'), ColorGroup( 'GGT', '#996600'), ColorGroup( 'GGU', '#996600'), ColorGroup( 'GGC', '#996600'), ColorGroup( 'GGA', '#996600'), ColorGroup( 'GGG', '#996600'), ColorGroup( 'CCT', '#996600'), ColorGroup( 'CCU', '#996600'), ColorGroup( 'CCC', '#996600'), ColorGroup( 'CCA', '#996600'), ColorGroup( 'CCG', '#996600'), ColorGroup( 'TGT', '#FFFF00'), ColorGroup( 'UGU', '#FFFF00'), ColorGroup( 'TGC', '#FFFF00'), ColorGroup( 'UGC', '#FFFF00'), ColorGroup( 'TAA', '#000000'), ColorGroup( 'UAA', '#000000'), ColorGroup( 'TAG', '#000000'), ColorGroup( 'UAG', '#000000'), ColorGroup( 'TGA', '#000000'), ColorGroup( 'UGA', '#000000')], alphabet = codon_alphabetU ) codonsT = ColorScheme([ ColorGroup( 'CAT', '#00FFFF'), ColorGroup( 'CAU', '#00FFFF'), ColorGroup( 'CAC', '#00FFFF'), ColorGroup( 'AAA', '#00FFFF'), ColorGroup( 'AAG', '#00FFFF'), ColorGroup( 'CGT', '#00FFFF'), ColorGroup( 'CGU', '#00FFFF'), ColorGroup( 'CGC', '#00FFFF'), ColorGroup( 'CGA', '#00FFFF'), ColorGroup( 'CGG', '#00FFFF'), ColorGroup( 'AGA', '#00FFFF'), ColorGroup( 'AGG', '#00FFFF'), ColorGroup( 'GAT', '#FF0000'), ColorGroup( 'GAU', '#FF0000'), ColorGroup( 'GAC', '#FF0000'), ColorGroup( 'GAA', '#FF0000'), ColorGroup( 'GAG', '#FF0000'), ColorGroup( 'TCT', '#00FF00'), ColorGroup( 'UCU', '#00FF00'), ColorGroup( 'TCC', '#00FF00'), ColorGroup( 'UCC', '#00FF00'), ColorGroup( 'TCA', '#00FF00'), ColorGroup( 'UCA', '#00FF00'), ColorGroup( 'TCG', '#00FF00'), ColorGroup( 'UCG', '#00FF00'), ColorGroup( 'AGT', '#00FF00'), ColorGroup( 'AGU', '#00FF00'), ColorGroup( 'AGC', '#00FF00'), ColorGroup( 'ACT', '#00FF00'), ColorGroup( 'ACU', '#00FF00'), ColorGroup( 'ACC', '#00FF00'), ColorGroup( 'ACA', '#00FF00'), ColorGroup( 'ACG', '#00FF00'), ColorGroup( 'CAA', '#00FF00'), ColorGroup( 'CAG', '#00FF00'), ColorGroup( 'AAT', '#00FF00'), ColorGroup( 'AAU', '#00FF00'), ColorGroup( 'AAC', '#00FF00'), ColorGroup( 'GCT', '#5555FF'), ColorGroup( 'GCU', '#5555FF'), ColorGroup( 'GCC', '#5555FF'), ColorGroup( 'GCA', '#5555FF'), ColorGroup( 'GCG', '#5555FF'), ColorGroup( 'GTT', '#5555FF'), ColorGroup( 'GUU', '#5555FF'), ColorGroup( 'GTC', '#5555FF'), ColorGroup( 'GUC', '#5555FF'), ColorGroup( 'GTA', '#5555FF'), ColorGroup( 'GUA', '#5555FF'), ColorGroup( 'GTG', '#5555FF'), ColorGroup( 'GUG', '#5555FF'), ColorGroup( 'CTT', '#5555FF'), ColorGroup( 'CUU', '#5555FF'), ColorGroup( 'CTC', '#5555FF'), ColorGroup( 'CUC', '#5555FF'), ColorGroup( 'CTA', '#5555FF'), ColorGroup( 'CUA', '#5555FF'), ColorGroup( 'CTG', '#5555FF'), ColorGroup( 'CUG', '#5555FF'), ColorGroup( 'TTA', '#5555FF'), ColorGroup( 'UUA', '#5555FF'), ColorGroup( 'TTG', '#5555FF'), ColorGroup( 'UUG', '#5555FF'), ColorGroup( 'ATT', '#5555FF'), ColorGroup( 'AUU', '#5555FF'), ColorGroup( 'ATC', '#5555FF'), ColorGroup( 'AUC', '#5555FF'), ColorGroup( 'ATA', '#5555FF'), ColorGroup( 'AUA', '#5555FF'), ColorGroup( 'ATG', '#5555FF'), ColorGroup( 'AUG', '#5555FF'), ColorGroup( 'TTT', '#FF00FF'), ColorGroup( 'UUU', '#FF00FF'), ColorGroup( 'TTC', '#FF00FF'), ColorGroup( 'UUC', '#FF00FF'), ColorGroup( 'TAT', '#FF00FF'), ColorGroup( 'UAU', '#FF00FF'), ColorGroup( 'TAC', '#FF00FF'), ColorGroup( 'UAC', '#FF00FF'), ColorGroup( 'TGG', '#FF00FF'), ColorGroup( 'UGG', '#FF00FF'), ColorGroup( 'GGT', '#996600'), ColorGroup( 'GGU', '#996600'), ColorGroup( 'GGC', '#996600'), ColorGroup( 'GGA', '#996600'), ColorGroup( 'GGG', '#996600'), ColorGroup( 'CCT', '#996600'), ColorGroup( 'CCU', '#996600'), ColorGroup( 'CCC', '#996600'), ColorGroup( 'CCA', '#996600'), ColorGroup( 'CCG', '#996600'), ColorGroup( 'TGT', '#FFFF00'), ColorGroup( 'UGU', '#FFFF00'), ColorGroup( 'TGC', '#FFFF00'), ColorGroup( 'UGC', '#FFFF00'), ColorGroup( 'TAA', '#000000'), ColorGroup( 'UAA', '#000000'), ColorGroup( 'TAG', '#000000'), ColorGroup( 'UAG', '#000000'), ColorGroup( 'TGA', '#000000'), ColorGroup( 'UGA', '#000000')], alphabet = codon_alphabetT ) charge = ColorScheme([ ColorGroup("KRH", "blue", "Positive" ), ColorGroup( "DE", "red", "Negative") ], alphabet = seq.unambiguous_protein_alphabet ) taylor = ColorScheme([ ColorGroup( 'A', '#CCFF00' ), ColorGroup( 'C', '#FFFF00' ), ColorGroup( 'D', '#FF0000'), ColorGroup( 'E', '#FF0066' ), ColorGroup( 'F', '#00FF66'), ColorGroup( 'G', '#FF9900'), ColorGroup( 'H', '#0066FF'), ColorGroup( 'I', '#66FF00'), ColorGroup( 'K', '#6600FF'), ColorGroup( 'L', '#33FF00'), ColorGroup( 'M', '#00FF00'), ColorGroup( 'N', '#CC00FF'), ColorGroup( 'P', '#FFCC00'), ColorGroup( 'Q', '#FF00CC'), ColorGroup( 'R', '#0000FF'), ColorGroup( 'S', '#FF3300'), ColorGroup( 'T', '#FF6600'), ColorGroup( 'V', '#99FF00'), ColorGroup( 'W', '#00CCFF'), ColorGroup( 'Y', '#00FFCC')], title = "Taylor", description = "W. Taylor, Protein Engineering, Vol 10 , 743-746 (1997)", alphabet = seq.unambiguous_protein_alphabet )