DAMASK_EICMD/lib/damask/test/test.py

#!/usr/bin/env python
# $Id$

import os, sys, shlex, inspect
import subprocess,shutil,string
import damask
from optparse import OptionParser

class Test():
  '''
     General class for testing.
     Is sub-classed by the individual tests.
  '''

  variants = []
  
  def __init__(self,test_description):
    
    print('!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n\n' \
         +'----------------------------------------------------------------\n' \
         +'| '+test_description+'\n' \
         +'----------------------------------------------------------------')
    self.dirBase = os.path.dirname(os.path.realpath(inspect.getfile(self.__class__)))
    self.parser = OptionParser(
    description = 'Using: $Id run_test.py 1285 2012-02-09 08:54:09Z MPIE\m.diehl $',
    usage='run_test.py [options]')
  
    self.parser.add_option("-u", "--update", action="store_true",\
                                    dest="update",\
                                    help="use current test results as new reference")
    self.parser.set_defaults(update = False)
  
    (self.options, self.args) = self.parser.parse_args()
    
  def execute(self,variants = [],update = []):
    '''
    Run all variants and report first failure.
    '''
    if not self.testPossible(): return -1
    if len(update)   == 0 and self.options.update: print(' This test has no reference to update')
    if len(variants) == 0: variants = xrange(len(self.variants))       # iterate over all variants
    self.clean()
    self.prepareAll()
    for variant in variants:
      try:
        self.prepare(variant)
        self.run(variant)
        self.postprocess(variant)
        if variant in update:
          self.update(variant)
        elif not self.compare(variant):
          return variant+1
      except Exception as e :
        print('\nWARNING:\n %s\n'%e)
        return variant+1
    return 0
  
  def testPossible(self):
    '''
    Check if test is possible or not (e.g. no license available).
    '''
    return True
    
  def clean(self):
    '''
    Delete directory tree containing current results.
    '''
    status = True

    try:
      shutil.rmtree(self.dirCurrent())
    except:
      print('removal of directory "%s" not possible...'%(self.dirCurrent()))
      status = status and False

    try:
      os.mkdir(self.dirCurrent())
    except:
      print('creation of directory "%s" failed...'%(self.dirCurrent()))
      status = status and False

    return status
    
  def prepareAll(self):
    '''
    Do all necessary preparations for the whole test
    '''
    return True

  def prepare(self,variant):
    '''
    Do all necessary preparations for the run of each test variant
    '''
    return True
  

  def run(self,variant):
    '''
    Execute the requested test variant.
    '''
    return True


  def postprocess(self,variant):
    '''
    Perform post-processing of generated results for this test variant.
    '''
    return True


  def compare(self,variant):
    '''
    Compare reference to current results.
    '''
    return True


  def update(self,variant):
    '''
    Update reference with current results.
    '''
    return True


  def dirReference(self):
    '''
    '''
    return os.path.normpath(os.path.join(self.dirBase,'reference/'))

  def dirCurrent(self):
    '''
    '''
    return os.path.normpath(os.path.join(self.dirBase,'current/'))
  
  def dirProof(self):
    '''
    '''
    return os.path.normpath(os.path.join(self.dirBase,'proof/'))
    
  def fileInReference(self,file):
    '''
    '''
    return os.path.join(self.dirReference(),file)

  def fileInCurrent(self,file):
    '''
    '''
    return os.path.join(self.dirCurrent(),file)
  
  def fileInProof(self,file):
    '''
    '''
    return os.path.join(self.dirProof(),file)
    
  def copy_Reference2Current(self,sourcefiles=[],targetfiles=[]):
    
    if len(targetfiles) == 0: targetfiles = sourcefiles
    for i,file in enumerate(sourcefiles):
      try:
        shutil.copy2(self.fileInReference(file),self.fileInCurrent(targetfiles[i]))  
      except:
        print('Reference2Current: Unable to copy file %s'%file)
 
  def copy_Base2Current(self,sourceDir,sourcefiles=[],targetfiles=[]):
    
    source=os.path.normpath(os.path.join(self.dirBase,'../../'+sourceDir))
    if len(targetfiles) == 0: targetfiles = sourcefiles
    for i,file in enumerate(sourcefiles):
      try:
        shutil.copy2(os.path.join(source,file),self.fileInCurrent(targetfiles[i]))  
      except:
        print(os.path.join(source,file))
        print('Base2Current: Unable to copy file %s'%file)

  def copy_Current2Reference(self,sourcefiles=[],targetfiles=[]):
    
    if len(targetfiles) == 0: targetfiles = sourcefiles
    for i,file in enumerate(sourcefiles):
      try:
        shutil.copy2(self.fileInCurrent(file),self.fileInReference(targetfiles[i]))  
      except:
        print('Current2Reference: Unable to copy file %s'%file)
        
  def copy_Proof2Current(self,sourcefiles=[],targetfiles=[]):
    
    if len(targetfiles) == 0: targetfiles = sourcefiles
    for i,file in enumerate(sourcefiles):
      try:
        shutil.copy2(self.fileInProof(file),self.fileInCurrent(targetfiles[i]))  
      except:
        print('Proof2Current: Unable to copy file %s'%file)
        
  def copy_Current2Current(self,sourcefiles=[],targetfiles=[]):
    
    for i,file in enumerate(sourcefiles):
      try:
        shutil.copy2(self.fileInReference(file),self.fileInCurrent(targetfiles[i]))  
      except:
        print('Current2Current: Unable to copy file %s'%file)

  def execute_inCurrentDir(self,cmd,outfile='execute_log.txt'):
    
    os.chdir(self.dirCurrent())
    file=open(outfile,'a+')
    print(cmd)
    process = subprocess.Popen(shlex.split(cmd),stdout = file,stderr = subprocess.STDOUT)
    process.wait()
    file.close()
    
  def compare_Array(self,File1,File2):
  
    import numpy
    print('comparing\n '+File1+'\n '+File2)
    refFile = open(File1)
    table = damask.ASCIItable(refFile)
    table.head_read()
    refFile.close()
    refArray = numpy.nan_to_num(numpy.genfromtxt(File1,missing_values='n/a',skip_header = len(table.info)+1,autostrip=True))
    curArray = numpy.nan_to_num(numpy.genfromtxt(File2,missing_values='n/a',skip_header = len(table.info)+1,autostrip=True))
    if len(curArray) ==  len(refArray):
      refArrayNonZero = refArray[refArray.nonzero()]
      curArray = curArray[refArray.nonzero()]
      max_err=numpy.max(abs(refArrayNonZero[curArray.nonzero()]/curArray[curArray.nonzero()]-1.))
      max_loc=numpy.argmax(abs(refArrayNonZero[curArray.nonzero()]/curArray[curArray.nonzero()]-1.))
      refArrayNonZero = refArrayNonZero[curArray.nonzero()]
      curArray = curArray[curArray.nonzero()]
      print(' ********\n * maximum relative error %f for %i and %i\n ********'
                  %(max_err, refArrayNonZero[max_loc],curArray[max_loc]))
      return max_err
    else:
       raise Exception('mismatch in array size to compare')

  def compare_ArrayRefCur(self,ref,cur=''):
    
    if cur =='': cur = ref
    refName = self.fileInReference(ref)
    curName = self.fileInCurrent(cur)
    return self.compare_Array(refName,curName)
    
  def compare_ArrayCurCur(self,cur0,cur1):
    
    cur0Name = self.fileInCurrent(cur0)
    cur1Name = self.fileInCurrent(cur1)
    return self.compare_Array(cur0Name,cur1Name)

  def compare_Table(self,headings0,file0,headings1,file1,normHeadings='',normType=None,\
                                     absoluteTolerance=False,perLine=False,skipLines=[]):
    
    import numpy
    print('comparing ASCII Tables\n' + file0 + '\n' + file1)
    if normHeadings == '': normHeadings = headings0

    if len(headings0) == len(headings1) == len(normHeadings):                                         #check if comparison is possible and determine lenght of columns
      dataLength = len(headings0)
      length       = [1   for i in xrange(dataLength)]
      shape        = [[]  for i in xrange(dataLength)]
      data         = [[]  for i in xrange(dataLength)]
      maxError     = [0.0 for i in xrange(dataLength)]
      absTol       = [absoluteTolerance for i in xrange(dataLength)]
      column       = [[1 for i in xrange(dataLength)] for j in xrange(2)]
 
      norm         = [[]  for i in xrange(dataLength)]
      normLength   = [1   for i in xrange(dataLength)]
      normShape    = [[]  for i in xrange(dataLength)]
      normColumn   = [1   for i in xrange(dataLength)]

      for i in xrange(dataLength):
        if headings0[i]['shape'] != headings1[i]['shape']: 
          raise Exception('shape mismatch when comparing ', headings0[i]['label'], ' with ', headings1[i]['label'])
        shape[i] = headings0[i]['shape']
        for j in xrange(numpy.shape(shape[i])[0]):
          length[i] *= shape[i][j]
        normShape[i] = normHeadings[i]['shape']
        for j in xrange(numpy.shape(normShape[i])[0]):
          normLength[i] *= normShape[i][j]
    else:
      raise Exception('trying to compare ', len(headings0), ' with ', len(headings1), ' normed by ', len(normHeadings),' data sets')

    table0 = damask.ASCIItable(open(file0))
    table0.head_read()
    table1 = damask.ASCIItable(open(file1))
    table1.head_read()   

    for i in xrange(dataLength):
      key0 =    {True :'1_%s',
                 False:'%s'   }[length[i]>1]%headings0[i]['label']
      key1 =    {True :'1_%s',
                 False:'%s'   }[length[i]>1]%headings1[i]['label']
      normKey = {True :'1_%s',
                 False:'%s'   }[normLength[i]>1]%normHeadings[i]['label']
      if key0 not in table0.labels:
        raise Exception('column %s not found in 1. table...\n'%key0)
      elif key1 not in table1.labels:
        raise Exception('column %s not found in 2. table...\n'%key1)
      elif normKey not in table0.labels:
        raise Exception('column %s not found in 1. table...\n'%normKey)
      else:
        column[0][i]  = table0.labels.index(key0)                                  # remember columns of requested data
        column[1][i]  = table1.labels.index(key1)                                  # remember columns of requested data in second column
        normColumn[i] = table0.labels.index(normKey)                               # remember columns of requested data in second column
    
    line0 = 0
    while table0.data_read():                                                     # read next data line of ASCII table
      if line0 not in skipLines:
        for i in xrange(dataLength):
          myData = numpy.array(map(float,table0.data[column[0][i]:\
                                                     column[0][i]+length[i]]),'d')
          normData = numpy.array(map(float,table0.data[normColumn[i]:\
                                                       normColumn[i]+normLength[i]]),'d')
          data[i] = numpy.append(data[i],numpy.reshape(myData,shape[i]))
          if normType == 'pInf':
            norm[i] = numpy.append(norm[i],numpy.max(numpy.abs(normData)))
          else:
            norm[i] = numpy.append(norm[i],numpy.linalg.norm(numpy.reshape(normData,normShape[i]),normType))
      line0 +=1
    
    for i in xrange(dataLength):
      if not perLine: norm[i] = [numpy.max(norm[i]) for j in xrange(line0-len(skipLines))]
      data[i] = numpy.reshape(data[i],[line0-len(skipLines),length[i]])
      if any(norm[i]) == 0.0 or absTol[i]:
        norm[i] = [1.0 for j in xrange(line0-len(skipLines))]
        absTol[i] = True
        if perLine:
          print('At least one norm of',headings0[i]['label'],'in 1. table is 0.0, using absolute tolerance')
        else:
          print('Maximum norm of',headings0[i]['label'],'in 1. table is 0.0, using absolute tolerance')

    line1 = 0
    while table1.data_read():                                                     # read next data line of ASCII table
      if line1 not in skipLines:
        for i in xrange(dataLength):
          myData = numpy.array(map(float,table1.data[column[1][i]:\
                                                     column[1][i]+length[i]]),'d')
          maxError[i] = max(maxError[i],numpy.linalg.norm(numpy.reshape(myData-data[i][line1-len(skipLines),:],shape[i]))/
                                                                                   norm[i][line1-len(skipLines)])
      line1 +=1

    if (line0 != line1): raise Exception('found ', line0, ' lines in 1. table and ', line1, ' in 2. table')

    print(' ********')
    for i in xrange(dataLength):
      if absTol[i]:
        print(' * maximum absolute error %f for %s and %s'%(maxError[i],headings0[i]['label'],headings1[i]['label']))
      else:
        print(' * maximum relative error %f for %s and %s'%(maxError[i],headings0[i]['label'],headings1[i]['label']))
    print(' ********')
    return maxError
    
  def compare_TableRefCur(self,headingsRef,ref,headingsCur='',cur='',normHeadings='',normType=None,\
                                                 absoluteTolerance=False,perLine=False,skipLines=[]):
    
    if cur == '': cur = ref
    if headingsCur == '': headingsCur = headingsRef
    refName = self.fileInReference(ref)
    curName = self.fileInCurrent(cur)
    return self.compare_Table(headingsRef,refName,headingsCur,curName,normHeadings,normType,
                                                               absoluteTolerance,perLine,skipLines)
    
  def compare_TableCurCur(self,headingsCur0,Cur0,Cur1,headingsCur1='',normHeadings='',normType=None,\
                                                 absoluteTolerance=False,perLine=False,skipLines=[]):
    
    if headingsCur1 == '': headingsCur1 = headingsCur0
    cur0Name = self.fileInCurrent(Cur0)
    cur1Name = self.fileInCurrent(Cur1)
    return self.compare_Table(headingsCur0,cur0Name,headingsCur1,cur1Name,normHeadings,normType,
                                                               absoluteTolerance,perLine,skipLines)

  def report_Success(self,culprit):
    
    if culprit == 0:
      print('%s passed.'%({False: 'The test',
                         True: 'All %i tests'%(len(self.variants))}[len(self.variants) > 1]))
      print('\n!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n')
      return 0
    if culprit == -1:
      print('Warning: Could not start test')
      return 0
    else:
      print(' ********\n * Test %i failed...\n ********'%(culprit))
      print('\n!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n')
      return culprit