Mercurial > repos > miller-lab > genome_diversity
view pca.py @ 12:4b6590dd7250
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author | miller-lab |
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date | Wed, 12 Sep 2012 17:10:26 -0400 |
parents | 2c498d40ecde |
children | 248b06e86022 |
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#!/usr/bin/env python import errno import os import shutil import subprocess import sys from BeautifulSoup import BeautifulSoup import gd_composite ################################################################################ def mkdir_p(path): try: os.makedirs(path) except OSError, e: if e.errno <> errno.EEXIST: raise ################################################################################ def run_program(prog, args, stdout_file=None): #print "args: ", ' '.join(args) p = subprocess.Popen(args, bufsize=-1, executable=prog, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE) (stdoutdata, stderrdata) = p.communicate() rc = p.returncode if stdout_file is not None: with open(stdout_file, 'w') as ofh: print >> ofh, stdoutdata if rc != 0: print >> sys.stderr, "FAILED: rc={0}: {1}".format(rc, ' '.join(args)) print >> sys.stderr, stderrdata sys.exit(1) ################################################################################ def do_ped2geno(input, output): lines = [] with open(input) as fh: for line in fh: line = line.rstrip('\r\n') lines.append(line.split()) pair_map = { '0':{ '0':'9', '1':'9', '2':'9' }, '1':{ '0':'1', '1':'2', '2':'1' }, '2':{ '0':'1', '1':'1', '2':'0' } } with open(output, 'w') as ofh: for a_idx in xrange(6, len(lines[0]), 2): b_idx = a_idx + 1 print >> ofh, ''.join(map(lambda line: pair_map[line[a_idx]][line[b_idx]], lines)) def do_map2snp(input, output): with open(output, 'w') as ofh: with open(input) as fh: for line in fh: elems = line.split() print >> ofh, ' {0} 11 0.002 2000 A T'.format(elems[1]) def make_ind_file(ind_file, input): pops = [] ofh = open(ind_file, 'w') with open(input) as fh: soup = BeautifulSoup(fh) misc = soup.find('div', {'id': 'gd_misc'}) populations = misc('ul')[0] i = 0 for entry in populations: if i % 2 == 1: population_name = entry.contents[0].encode('utf8').strip().replace(' ', '_') pops.append(population_name) individuals = entry.ol('li') for individual in individuals: individual_name = individual.string.encode('utf8').strip() print >> ofh, individual_name, 'M', population_name i += 1 ofh.close() return pops def make_par_file(par_file, geno_file, snp_file, ind_file, evec_file, eval_file): with open(par_file, 'w') as fh: print >> fh, 'genotypename: {0}'.format(geno_file) print >> fh, 'snpname: {0}'.format(snp_file) print >> fh, 'indivname: {0}'.format(ind_file) print >> fh, 'evecoutname: {0}'.format(evec_file) print >> fh, 'evaloutname: {0}'.format(eval_file) print >> fh, 'altnormstyle: NO' print >> fh, 'numoutevec: 2' def do_smartpca(par_file): prog = 'smartpca' args = [ prog ] args.append('-p') args.append(par_file) #print "args: ", ' '.join(args) p = subprocess.Popen(args, bufsize=-1, stdin=None, stdout=subprocess.PIPE, stderr=sys.stderr) (stdoutdata, stderrdata) = p.communicate() rc = p.returncode if rc != 0: print >> sys.stderr, "FAILED: rc={0}: {1}".format(rc, ' '.join(args)) print >> sys.stderr, stderrdata sys.exit(1) stats = [] save_line = False for line in stdoutdata.split('\n'): if line.startswith(('## Average divergence', '## Anova statistics', '## Statistical significance')): stats.append('') save_line = True if line.strip() == '': save_line = False if save_line: stats.append(line) return '\n'.join(stats[1:]) def do_ploteig(evec_file, population_names): prog = 'gd_ploteig' args = [ prog ] args.append('-i') args.append(evec_file) args.append('-c') args.append('1:2') args.append('-p') args.append(':'.join(population_names)) args.append('-x') run_program(None, args) def do_eval2pct(eval_file, explained_file): prog = 'eval2pct' args = [ prog ] args.append(eval_file) with open(explained_file, 'w') as ofh: #print "args:", ' '.join(args) p = subprocess.Popen(args, bufsize=-1, stdin=None, stdout=ofh, stderr=subprocess.PIPE) (stdoutdata, stderrdata) = p.communicate() rc = p.returncode if rc != 0: print >> sys.stderr, "FAILED: rc={0}: {1}".format(rc, ' '.join(args)) print >> sys.stderr, stderrdata sys.exit(1) def do_coords2admix(coords_file): prog = 'coords2admix' args = [ prog ] args.append(coords_file) with open('fake', 'w') as ofh: #print "args:", ' '.join(args) p = subprocess.Popen(args, bufsize=-1, stdin=None, stdout=ofh, stderr=subprocess.PIPE) (stdoutdata, stderrdata) = p.communicate() rc = p.returncode if rc != 0: print >> sys.stderr, "FAILED: rc={0}: {1}".format(rc, ' '.join(args)) print >> sys.stderr, stderrdata sys.exit(1) shutil.copy2('fake', coords_file) ################################################################################ if len(sys.argv) != 5: print "usage" sys.exit(1) input, input_files_path, output, output_files_path = sys.argv[1:5] mkdir_p(output_files_path) ped_file = os.path.join(input_files_path, 'admix.ped') geno_file = os.path.join(output_files_path, 'admix.geno') do_ped2geno(ped_file, geno_file) map_file = os.path.join(input_files_path, 'admix.map') snp_file = os.path.join(output_files_path, 'admix.snp') do_map2snp(map_file, snp_file) ind_file = os.path.join(output_files_path, 'admix.ind') population_names = make_ind_file(ind_file, input) par_file = os.path.join(output_files_path, 'par.admix') evec_file = os.path.join(output_files_path, 'coordinates.txt') eval_file = os.path.join(output_files_path, 'admix.eval') make_par_file(par_file, geno_file, snp_file, ind_file, evec_file, eval_file) smartpca_stats = do_smartpca(par_file) do_ploteig(evec_file, population_names) plot_file = 'coordinates.txt.1:2.{0}.pdf'.format(':'.join(population_names)) output_plot_file = os.path.join(output_files_path, 'PCA.pdf') shutil.copy2(plot_file, output_plot_file) os.unlink(plot_file) do_eval2pct(eval_file, os.path.join(output_files_path, 'explained.txt')) os.unlink(eval_file) do_coords2admix(evec_file) ################################################################################ info_page = gd_composite.InfoPage() info_page.set_title('PCA Galaxy Composite Dataset') display_file = gd_composite.DisplayFile() display_value = gd_composite.DisplayValue() out_pdf = gd_composite.Parameter(name='PCA.pdf', value='PCA.pdf', display_type=display_file) out_evec = gd_composite.Parameter(name='coordinates.txt', value='coordinates.txt', display_type=display_file) out_explained = gd_composite.Parameter(name='explained.txt', value='explained.txt', display_type=display_file) evec_prefix = 'coordinates.txt.1:2.{0}'.format(':'.join(population_names)) ps_file = '{0}.ps'.format(evec_prefix) xtxt_file = '{0}.xtxt'.format(evec_prefix) os.unlink(os.path.join(output_files_path, ps_file)) os.unlink(os.path.join(output_files_path, xtxt_file)) info_page.add_output_parameter(out_pdf) info_page.add_output_parameter(out_evec) info_page.add_output_parameter(out_explained) in_admix = gd_composite.Parameter(name='par.admix', value='par.admix', display_type=display_file) in_geno = gd_composite.Parameter(name='admix.geno', value='admix.geno', display_type=display_file) in_snp = gd_composite.Parameter(name='admix.snp', value='admix.snp', display_type=display_file) in_ind = gd_composite.Parameter(name='admix.ind', value='admix.ind', display_type=display_file) info_page.add_input_parameter(in_admix) info_page.add_input_parameter(in_geno) info_page.add_input_parameter(in_snp) info_page.add_input_parameter(in_ind) misc_stats = gd_composite.Parameter(description='Stats<p/><pre>\n{0}\n</pre>'.format(smartpca_stats), display_type=display_value) info_page.add_misc(misc_stats) with open (output, 'w') as ofh: print >> ofh, info_page.render() sys.exit(0)