Mercurial > repos > imgteam > imagej2_find_maxima
view imagej2_bunwarpj_compare_elastic.py @ 0:29b39f5b0e69 draft
"planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/image_processing/imagej2 commit b08f0e6d1546caaf627b21f8c94044285d5d5b9c-dirty"
| author | imgteam |
|---|---|
| date | Tue, 17 Sep 2019 17:01:44 -0400 |
| parents | |
| children |
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#!/usr/bin/env python import argparse import subprocess import tempfile import imagej2_base_utils # Parse Command Line. parser = argparse.ArgumentParser() parser.add_argument( '--source_image', dest='source_image', help='Source image' ) parser.add_argument( '--source_image_format', dest='source_image_format', help='Source image format' ) parser.add_argument( '--target_image', dest='target_image', help='Target image' ) parser.add_argument( '--target_image_format', dest='target_image_format', help='Target image format' ) parser.add_argument( '--source_transformation', dest='source_transformation', help='Direct source transformation matrix' ) parser.add_argument( '--target_transformation', dest='target_transformation', help='Inverse target transformation matrix' ) parser.add_argument( '--output', dest='output', help='Warping index' ) args = parser.parse_args() tmp_dir = imagej2_base_utils.get_temp_dir() source_image_path = imagej2_base_utils.get_input_image_path( tmp_dir, args.source_image, args.source_image_format ) target_image_path = imagej2_base_utils.get_input_image_path( tmp_dir, args.target_image, args.target_image_format ) source_transformation_path = imagej2_base_utils.get_input_image_path( tmp_dir, args.source_transformation, 'txt' ) target_transformation_path = imagej2_base_utils.get_input_image_path( tmp_dir, args.target_transformation, 'txt' ) # bUnwarpJ produces several lines of output that we need to discard, so # we'll use a temporary output file from which we'll read only the last line. tmp_output_path = imagej2_base_utils.get_input_image_path( tmp_dir, args.output, 'txt' ) # Define command response buffers. tmp_out = tempfile.NamedTemporaryFile().name tmp_stdout = open( tmp_out, 'wb' ) tmp_err = tempfile.NamedTemporaryFile().name tmp_stderr = open( tmp_err, 'wb' ) # Build the command line to calculate the warping index. cmd = imagej2_base_utils.get_base_cmd_bunwarpj( None ) if cmd is None: imagej2_base_utils.stop_err( "bUnwarpJ not found!" ) cmd += ' -compare_elastic' # Target is sent before source. cmd += ' %s' % target_image_path cmd += ' %s' % source_image_path cmd += ' %s' % target_transformation_path cmd += ' %s' % source_transformation_path cmd += ' > %s' % tmp_output_path # Calculate the warping index of two elastic transformations using bUnwarpJ. proc = subprocess.Popen( args=cmd, stderr=subprocess.PIPE, stdout=subprocess.PIPE, shell=True ) rc = proc.wait() if rc != 0: error_message = imagej2_base_utils.get_stderr_exception( tmp_err, tmp_stderr, tmp_out, tmp_stdout ) imagej2_base_utils.stop_err( error_message ) # Example contents of tmp_output_path: # ['Target image : ~/tmpKAYF1P.jpg\n', # 'Source image : ~/tmpgQX0dy.gif\n', # 'Target Transformation file : ~/tmpZJC_4B.txt\n', # 'Source Transformation file : ~/tmphsSojl.txt\n', # ' Warping index = 14.87777347388348\n'] results = open( tmp_output_path, 'r' ).readlines() warp_index = results[ -1 ].split( ' ' )[ -1 ] outf = open( args.output, 'wb' ) outf.write( '%s' % warp_index ) outf.close() imagej2_base_utils.cleanup_before_exit( tmp_dir )