test/python/DataTest.py

import sys
import unittest
import os
                                                                                                                 
esys_root=os.getenv('ESYS_ROOT')
sys.path.append(esys_root+'/finley/lib')
sys.path.append(esys_root+'/escript/lib')
sys.path.append(esys_root+'/escript/py_src')
                                                                                                                 
from escript import *
import finley
import numarray
from util import *

"""
tests arithmetic operations on Data:

   +arg1
   -arg1
    arg1+arg2
    arg1-arg2
    arg1*arg2
    arg1/arg2
    arg1**arg2
    arg1+=arg2
    arg1-=arg2
    arg1*=arg2
    arg1/=arg2

various values for arg1 and arg2 are tested on various atoms.

moreover various slicing operations are tested.

the results are compared to reference result. if the relative difference is
bigger than tol an exception is raised.

by Lutz Gross, ACcESS, University of Queensland, Australia, 2003.

Version $Id$

"""

from numarray import array,Float64,ones,greater

Tag1=10
Tag2=11

tol=1.E-15

#
#  list of arguments: a list item has the form [a0,a1,a2]
#  what a0 is the default value and a1 is used for tag Tag1
#  and a2 for tag2. a0,a1,a2 are converted into numarrays.
#  
#  binary operations are tested on all pairs from arglist
#
#  each item in the arglist are used to construct the following 5 argument
#  types arg for arithmetic operations:
#
#  1) arg is a numarray/list a0
#  2) arg is a Data with default value a0
#  3) arg is an DataArray with constant value a0
#  4) arg is a Data object with constant value a0 and value a1 for tag Tag1
#  5) arg is a Data object with constant value a0 and value a1 for tag Tag1
#     and value a2 for Tag2.
#
#  i.e for a single binary arithmetic operation (len(arglist)*5)**2
#  test are performed. 
#  

arglist = [ \
[ [3,4], [-5,6.], [2,3] ], \
[ [[1,2],[3,4]], [[5,6],[7,8]], [[-5,-6],[7,8]] ], \
[ [[15,8],[12,8]], [[-9,9],[13,8]], [[7,34],[19,7]] ], \
[ [[[15,8],[12,8]],[[-9,9],[13,8]]], [[[3,4],[-9,4]],[[1,-9],[7,4]]], [[[5,2],[6,2]],[[-6,4],[7,5]]] ], \
[ 3.0, 6.0, 3 ] \
]

# these are used to test slicing:
a_r1=[ [1,2,3], [-1,-2,-3], [100,200,300] ]
a_r1_in=[ [1./1,2,3], [-1./1,-1./2,-1./3], [1./100,1./200,1./300] ]
a_r4=[ \
[ [ [[ 1,2,3],[11,12,13]], [[21,22,23],[31,32,33]], [[41,42,43],[51,52,53]]  ], [ [[101,102,103],[111,112,113]], [[121,122,123],[131,132,133]], [[141,142,143],[151,152,153]]  ], [ [[201,202,203],[211,212,213]], [[221,222,223],[231,232,233]], [[241,242,243],[251,252,253]]  ] ], \
[ [ [[ -1,-2,-3],[-11,-12,-13]], [[-21,-22,-23],[-31,-32,-33]], [[-41,-42,-43],[-51,-52,-53]]  ], [ [[-101,-102,-103],[-111,-112,-113]], [[-121,-122,-123],[-131,-132,-133]], [[-141,-142,-143],[-151,-152,-153]]  ], [ [[-201,-202,-203],[-211,-212,-213]], [[-221,-222,-223],[-231,-232,-233]], [[-241,-242,-243],[-251,-252,-253]]  ] ], \
[ [[[ 11,12,13],[111,112,113]], [[121,122,123],[131,132,133]], [[141,142,143],[151,152,153]]  ], [ [[1101,1102,1103],[1111,1112,1113]], [[1121,1122,1123],[1131,1132,1133]], [[1141,1142,1143],[1151,1152,1153]]  ], [ [[1201,1202,1203],[1211,1212,1213]], [[1221,1222,1223],[1231,1232,1233]], [[1241,1242,1243],[1251,1252,1253]]  ] ] ]
a_r4_in=[ \
[ [ [[ 1./1,1./2,1./3],[1./11,1./12,1./13]], [[1./21,1./22,1./23],[1./31,1./32,1./33]], [[1./41,1./42,1./43],[1./51,1./52,1./53]]  ], [ [[1./101,1./102,1./103],[1./111,1./112,1./113]], [[1./121,1./122,1./123],[1./131,1./132,1./133]], [[1./141,1./142,1./143],[1./151,1./152,1./153]]  ], [ [[1./201,1./202,1./203],[1./211,1./212,1./213]], [[1./221,1./222,1./223],[1./231,1./232,1./233]], [[1./241,1./242,1./243],[1./251,1./252,1./253]]  ] ], \
[ [ [[ -1./1,-1./2,-1./3],[-1./11,-1./12,-1./13]], [[-1./21,-1./22,-1./23],[-1./31,-1./32,-1./33]], [[-1./41,-1./42,-1./43],[-1./51,-1./52,-1./53]]  ], [ [[-1./101,-1./102,-1./103],[-1./111,-1./112,-1./113]], [[-1./121,-1./122,-1./123],[-1./131,-1./132,-1./133]], [[-1./141,-1./142,-1./143],[1./-151,-1./152,-1./153]]  ], [ [[-1./201,-1./202,-1./203],[-1./211,-1./212,-1./213]], [[-1./221,-1./222,-1./223],[-1./231,-1./232,-1./233]], [[-1./241,-1./242,-1./243],[-1./251,-1./252,-1./253]]  ] ], \
[ [[[ 1./11,1./12,1./13],[1./111,1./112,1./113]], [[1./121,1./122,1./123],[1./131,1./132,1./133]], [[1./141,1./142,1./143],[1./151,1./152,1./153]]  ], [ [[1./1101,1./1102,1./1103],[1./1111,1./1112,1./1113]], [[1./1121,1./1122,1./1123],[1./1131,1./1132,1./1133]], [[1./1141,1./1142,1./1143],[1./1151,1./1152,1./1153]]  ], [ [[1./1201,1./1202,1./1203],[1./1211,1./1212,1./1213]], [[1./1221,1./1222,1./1223],[1./1231,1./1232,1./1233]], [[1./1241,1./1242,1./1243],[1./1251,1./1252,1./1253]]  ] ] ]

def turnToArray(val,tagged):
     if tagged=="Tagged1":
         out=[array(val[0],Float64),array(val[1],Float64),array(val[0],Float64)]
     elif tagged=="Tagged2":
         out=[array(val[0],Float64),array(val[1],Float64),array(val[2],Float64)]
     else: 
         out=[array(val[0],Float64),array(val[0],Float64),array(val[0],Float64)]
     return out

def prepareArg(val,ex,wh):
     if ex=="Array":
        out=val[0]
     else:
        if ex=="Expanded":
            exx=True
        else:
            exx=False
        out=Data(val[0],what=wh,expand=exx)
        if ex=="Tagged1":
           out.setTaggedValue(Tag1,val[1])
        elif ex=="Tagged2":
           out.setTaggedValue(Tag1,val[1])
           out.setTaggedValue(Tag2,val[2])
     return out

def checkResult(text,res,val0,val1,val2,wh):
     ref=Data(val0,what=wh,expand=False)
     ref.setTaggedValue(Tag1,val1)
     ref.setTaggedValue(Tag2,val2)
     norm=Lsup(ref)+tol
     error=Lsup(ref-res)/norm
     print "@@ %s, shape %s: error = %e"%(text,ref.getShape(),error)
     if error>tol:
       #raise SystemError,"@@ %s at %s: error is too large"%(text,wh)
       print "**** %s: error is too large"%(text)

def getRank(arg):
    if isinstance(arg,Data):
       return arg.getRank()
    else:
        g=array(arg)
        if g.rank==0:
           return 1
        else:
           return g.rank

def isScalar(arg):
    if isinstance(arg,Data):
       if arg.getRank()==1 and arg.getShape()[0]==1:
         return not None
       else:
         return None
    else:
        g=array(arg)
        if g.rank==0:
           return not None
        else:
           if g.rank==1 and g.shape[0]==1:
              return not None
           else:
              return None

msh=finley.Rectangle(20,6,1)
for wh in [ContinuousFunction(msh),Function(msh)]:

#
# ==============================================================
#
# test slicing:
#

  for ex1 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:

      print "Slice getting: ", ex1, ":"

      # slice getting

      # rank 1
      arg=prepareArg(a_r1,ex1,wh)
      arrays=turnToArray(a_r1,ex1)
      if isinstance(arg,Data):
          checkResult("slicing: rank=1 [:] "+ex1,arg[:], \
                        arrays[0][:], \
                        arrays[1][:], \
                        arrays[2][:], \
                        wh)
          checkResult("slicing: rank=1 [1] "+ex1,arg[1], \
                        arrays[0][1], \
                        arrays[1][1], \
                        arrays[2][1], \
                        wh)
          checkResult("slicing: rank=1 [1:3] "+ex1,arg[1:3], \
                        arrays[0][1:3], \
                        arrays[1][1:3], \
                        arrays[2][1:3], \
                        wh)

      # rank 4
      arg=prepareArg(a_r4,ex1,wh)
      arrays=turnToArray(a_r4,ex1)
      if isinstance(arg,Data):
          checkResult("slicing: rank=4 [:] "+ex1,arg[:], \
                        arrays[0][:], \
                        arrays[1][:], \
                        arrays[2][:], \
                        wh)
          checkResult("slicing: rank=4 [1] "+ex1,arg[1], \
                        arrays[0][1], \
                        arrays[1][1], \
                        arrays[2][1], \
                        wh)
          checkResult("slicing: rank=4 [1:3] "+ex1,arg[1:3], \
                        arrays[0][1:3], \
                        arrays[1][1:3], \
                        arrays[2][1:3], \
                        wh)
          checkResult("slicing: rank=4 [:,:] "+ex1,arg[:,:], \
                        arrays[0][:,:], \
                        arrays[1][:,:], \
                        arrays[2][:,:], \
                        wh)
          checkResult("slicing: rank=4 [:,1] "+ex1,arg[:,1], \
                        arrays[0][:,1], \
                        arrays[1][:,1], \
                        arrays[2][:,1], \
                        wh)
          checkResult("slicing: rank=4 [:,1:3] "+ex1,arg[:,1:3], \
                        arrays[0][:,1:3], \
                        arrays[1][:,1:3], \
                        arrays[2][:,1:3], \
                        wh)
          checkResult("slicing: rank=4 [1:2,1:3] "+ex1,arg[1:2,1:3], \
                        arrays[0][1:2,1:3], \
                        arrays[1][1:2,1:3], \
                        arrays[2][1:2,1:3], \
                        wh)
          checkResult("slicing: rank=4 [1:2,1:3,1,1] "+ex1,arg[1:2,1:3,1,1], \
                        arrays[0][1:2,1:3,1,1], \
                        arrays[1][1:2,1:3,1,1], \
                        arrays[2][1:2,1:3,1,1], \
                        wh)
          checkResult("slicing: rank=4 [1:2,1:3,:,1] "+ex1,arg[1:2,1:3,:,1], \
                        arrays[0][1:2,1:3,:,1], \
                        arrays[1][1:2,1:3,:,1], \
                        arrays[2][1:2,1:3,:,1], \
                        wh)
          checkResult("slicing: rank=4 [1:2,1:3,0,:] "+ex1,arg[1:2,1:3,0,:], \
                        arrays[0][1:2,1:3,0,:], \
                        arrays[1][1:2,1:3,0,:], \
                        arrays[2][1:2,1:3,0,:], \
                        wh)
          checkResult("slicing: rank=4 [1:2,1:3,0,1] "+ex1,arg[1:2,1:3,0,1], \
                        arrays[0][1:2,1:3,0,1], \
                        arrays[1][1:2,1:3,0,1], \
                        arrays[2][1:2,1:3,0,1], \
                        wh)
          checkResult("slicing: rank=4 [1,1,0,1] "+ex1,arg[1,1,0,1], \
                        arrays[0][1,1,0,1], \
                        arrays[1][1,1,0,1], \
                        arrays[2][1,1,0,1], \
                        wh)

          # slice setting

          #for ex2 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
          for ex2 in ["Expanded"]:

                print "Slice setting: ", ex1, ",", ex2, ":"

                # rank 1

                arrays_in=turnToArray(a_r1_in,ex2)

                arg2=prepareArg(a_r1,ex1,wh) 
                arrays2=turnToArray(a_r1,ex1)
                a_in=[arrays_in[0][:],arrays_in[1][:],arrays_in[2][:]]
                arg2[:]=prepareArg(a_in,ex2,wh)
                arrays2[0][:]=a_in[0]
                arrays2[1][:]=a_in[1]
                arrays2[2][:]=a_in[2]
                checkResult("slicing, set: rank=1 [:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r1,ex1,wh) 
                arrays2=turnToArray(a_r1,ex1)
                a_in=[arrays_in[0][1],arrays_in[1][1],arrays_in[2][1]]
                arg2[1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1]=a_in[0]
                arrays2[1][1]=a_in[1]
                arrays2[2][1]=a_in[2]
                checkResult("slicing, set: rank=1 [1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r1,ex1,wh) 
                arrays2=turnToArray(a_r1,ex1)
                a_in=[arrays_in[0][1:3],arrays_in[1][1:3],arrays_in[2][1:3]]
                arg2[1:3]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:3]=a_in[0]
                arrays2[1][1:3]=a_in[1]
                arrays2[2][1:3]=a_in[2]
                checkResult("slicing, set: rank=1 [1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                # rank 4

                arrays_in=turnToArray(a_r4_in,ex2)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][:],arrays_in[1][:],arrays_in[2][:]]
                arg2[:]=prepareArg(a_in,ex2,wh)
                arrays2[0][:]=a_in[0]
                arrays2[1][:]=a_in[1]
                arrays2[2][:]=a_in[2]
                checkResult("slicing, set: rank=4 [:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1],arrays_in[1][1],arrays_in[2][1]]
                arg2[1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1]=a_in[0]
                arrays2[1][1]=a_in[1]
                arrays2[2][1]=a_in[2]
                checkResult("slicing, set: rank=4 [1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:3],arrays_in[1][1:3],arrays_in[2][1:3]]
                arg2[1:3]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:3]=a_in[0]
                arrays2[1][1:3]=a_in[1]
                arrays2[2][1:3]=a_in[2]
                checkResult("slicing, set: rank=4 [1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][:,:],arrays_in[1][:,:],arrays_in[2][:,:]]
                arg2[:,:]=prepareArg(a_in,ex2,wh)
                arrays2[0][:,:]=a_in[0]
                arrays2[1][:,:]=a_in[1]
                arrays2[2][:,:]=a_in[2]
                checkResult("slicing, set: rank=4 [:,:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][:,1],arrays_in[1][:,1],arrays_in[2][:,1]]
                arg2[:,1]=prepareArg(a_in,ex2,wh)
                arrays2[0][:,1]=a_in[0]
                arrays2[1][:,1]=a_in[1]
                arrays2[2][:,1]=a_in[2]
                checkResult("slicing, set: rank=4 [:,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][:,1:3],arrays_in[1][:,1:3],arrays_in[2][:,1:3]]
                arg2[:,1:3]=prepareArg(a_in,ex2,wh)
                arrays2[0][:,1:3]=a_in[0]
                arrays2[1][:,1:3]=a_in[1]
                arrays2[2][:,1:3]=a_in[2]
                checkResult("slicing, set: rank=4 [:,1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:2,1:3],arrays_in[1][1:2,1:3],arrays_in[2][1:2,1:3]]
                arg2[1:2,1:3]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:2,1:3]=a_in[0]
                arrays2[1][1:2,1:3]=a_in[1]
                arrays2[2][1:2,1:3]=a_in[2]
                checkResult("slicing, set: rank=4 [1:2,1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:2,1:3,1,1],arrays_in[1][1:2,1:3,1,1],arrays_in[2][1:2,1:3,1,1]]
                arg2[1:2,1:3,1,1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:2,1:3,1,1]=a_in[0]
                arrays2[1][1:2,1:3,1,1]=a_in[1]
                arrays2[2][1:2,1:3,1,1]=a_in[2]
                checkResult("slicing, set: rank=4 [1:2,1:3,1,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:2,1:3,:,1],arrays_in[1][1:2,1:3,:,1],arrays_in[2][1:2,1:3,:,1]]
                arg2[1:2,1:3,:,1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:2,1:3,:,1]=a_in[0]
                arrays2[1][1:2,1:3,:,1]=a_in[1]
                arrays2[2][1:2,1:3,:,1]=a_in[2]
                checkResult("slicing, set: rank=4 [1:2,1:3,:,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:2,1:3,0,:],arrays_in[1][1:2,1:3,0,:],arrays_in[2][1:2,1:3,0,:]]
                arg2[1:2,1:3,0,:]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:2,1:3,0,:]=a_in[0]
                arrays2[1][1:2,1:3,0,:]=a_in[1]
                arrays2[2][1:2,1:3,0,:]=a_in[2]
                checkResult("slicing, set: rank=4 [1:2,1:3,0,:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1:2,1:3,0,1],arrays_in[1][1:2,1:3,0,1],arrays_in[2][1:2,1:3,0,1]]
                arg2[1:2,1:3,0,1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1:2,1:3,0,1]=a_in[0]
                arrays2[1][1:2,1:3,0,1]=a_in[1]
                arrays2[2][1:2,1:3,0,1]=a_in[2]
                checkResult("slicing, set: rank=4 [1:2,1:3,0,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

                arg2=prepareArg(a_r4,ex1,wh) 
                arrays2=turnToArray(a_r4,ex1)
                a_in=[arrays_in[0][1,1,0,1],arrays_in[1][1,1,0,1],arrays_in[2][1,1,0,1]]
                arg2[1,1,0,1]=prepareArg(a_in,ex2,wh)
                arrays2[0][1,1,0,1]=a_in[0]
                arrays2[1][1,1,0,1]=a_in[1]
                arrays2[2][1,1,0,1]=a_in[2]
                checkResult("slicing, set: rank=4 [1,1,0,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)

#
# ==============================================================
#
# test operators:
#

  #for ex1 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
  for ex1 in ["Array","Constant","Expanded"]:

      for a1 in arglist:

        arg1=prepareArg(a1,ex1,wh)
        arrays1=turnToArray(a1,ex1)
        if isScalar(arg1):
           t1="(scalar)"
        else:
           t1=""

        #
        #   unary operations:
        #

        print "Unary ops: ", ex1, ":"

        if isinstance(arg1,Data):

           # pos:
           #ref=checkResult("+"+ex1,+arg1, \
           #                  +arrays1[0], \
           #                  +arrays1[1], \
           #                  +arrays1[2], \
           #                  wh)
           # neg:
           #ref=checkResult("-"+ex1,-arg1, \
           #                  -arrays1[0], \
           #                  -arrays1[1], \
           #                  -arrays1[2], \
           #                  wh)
           # pos:
           ref=checkResult("where positive("+ex1+")",(arg1-3).wherePositive(), \
                             numarray.greater(arrays1[0],3.), \
                             numarray.greater(arrays1[1],3.), \
                             numarray.greater(arrays1[2],3.), \
                             wh)
           # negative:
           ref=checkResult("where negative("+ex1+")",(arg1-3).whereNegative(), \
                             numarray.greater(3.,arrays1[0]), \
                             numarray.greater(3.,arrays1[1]), \
                             numarray.greater(3.,arrays1[2]), \
                             wh)
           # non-negative:
           ref=checkResult("where nonnegative("+ex1+")",(arg1-3).whereNonNegative(), \
                             numarray.greater_equal(arrays1[0],3.), \
                             numarray.greater_equal(arrays1[1],3.), \
                             numarray.greater_equal(arrays1[2],3.), \
                             wh)
           # non-positive:
           ref=checkResult("where nonpositive("+ex1+")",(arg1-3).whereNonPositive(), \
                             numarray.greater_equal(3.,arrays1[0]), \
                             numarray.greater_equal(3.,arrays1[1]), \
                             numarray.greater_equal(3.,arrays1[2]), \
                             wh)
           # zero:
           ref=checkResult("where zero("+ex1+")",(arg1-3).whereZero(), \
                             numarray.less_equal(numarray.abs(arrays1[0]-3.),EPSILON), \
                             numarray.less_equal(numarray.abs(arrays1[1]-3.),EPSILON), \
                             numarray.less_equal(numarray.abs(arrays1[2]-3.),EPSILON), \
                             wh)
           # non-zero:
           ref=checkResult("where nonzero("+ex1+")",(arg1-3).whereNonZero(), \
                             numarray.greater(numarray.abs(arrays1[0]-3.),EPSILON), \
                             numarray.greater(numarray.abs(arrays1[1]-3.),EPSILON), \
                             numarray.greater(numarray.abs(arrays1[2]-3.),EPSILON), \
                             wh)

        #
        #  binary operations
        #

        for ex2 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:

          print "Binary ops: ", ex1, ",", ex2, ":"

          for a2 in arglist:

             arg2=prepareArg(a2,ex2,wh)
             arrays2=turnToArray(a2,ex2)
             if isScalar(arg2):
                t2="(scalar)"
             else:
                t2=""

             if isinstance(arg1,Data) or isinstance(arg2,Data):

                # the shape must match or at least one argument is sclar:
                if (getRank(arg1)==getRank(arg2)) or isScalar(arg1) or isScalar(arg2):

                  # sum 
                  checkResult(ex1+t1+"+"+ex2+t2,arg1+arg2, \
                                     arrays1[0]+arrays2[0], \
                                     arrays1[1]+arrays2[1], \
                                     arrays1[2]+arrays2[2], \
                                     wh)
                  # sub
                  checkResult(ex1+t1+"-"+ex2+t2,arg1-arg2, \
                                     arrays1[0]-arrays2[0], \
                                     arrays1[1]-arrays2[1], \
                                     arrays1[2]-arrays2[2], \
                                     wh)
                  # mul
                  checkResult(ex1+t1+"*"+ex2+t2,arg1*arg2, \
                                     arrays1[0]*arrays2[0], \
                                     arrays1[1]*arrays2[1], \
                                     arrays1[2]*arrays2[2], \
                                     wh)
                  # div
                  checkResult(ex1+t1+"/"+ex2+t2,arg1/arg2, \
                                     arrays1[0]/arrays2[0], \
                                     arrays1[1]/arrays2[1], \
                                     arrays1[2]/arrays2[2], \
                                     wh)
                  # pow 
                  if isinstance(arg1,Data):
                    a=arg1
                  else:
                    a=Data(value=arg1,what=arg2.getFunctionSpace())
                  checkResult(ex1+t1+"^"+ex2+t2,a**arg2, \
                                     arrays1[0]**arrays2[0], \
                                     arrays1[1]**arrays2[1], \
                                     arrays1[2]**arrays2[2], \
                                     wh)

                  # inplace for arg2 which must be of class Data
                  # if arg1 is expanded arg2 must be expanded
                  if isinstance(arg2,Data):

                     # if arg2 is scalar arg1 must be scalar:
                     #if not (isScalar(arg2) and not isScalar(arg1)):
                     if not(isScalar(arg2)) and not(isScalar(arg1)):

                        # inplace add:
                        arrays2[0]+=arrays1[0]
                        arrays2[1]+=arrays1[1]
                        arrays2[2]+=arrays1[2]
                        arg2+=arg1
                        checkResult(ex2+t2+"+="+ex1+t1,arg2, \
                                       arrays2[0], \
                                       arrays2[1], \
                                       arrays2[2], \
                                       wh)
                        # inplace sub:
                        arrays2[0]-=arrays1[0]
                        arrays2[1]-=arrays1[1]
                        arrays2[2]-=arrays1[2]
                        arg2-=arg1
                        checkResult(ex2+t2+"-="+ex1+t1,arg2, \
                                       arrays2[0], \
                                       arrays2[1], \
                                       arrays2[2], \
                                       wh)
                        # inplace mul:
                        arrays2[0]*=arrays1[0]
                        arrays2[1]*=arrays1[1]
                        arrays2[2]*=arrays1[2]
                        arg2*=arg1
                        checkResult(ex2+t2+"*="+ex1+t1,arg2, \
                                       arrays2[0], \
                                       arrays2[1], \
                                       arrays2[2], \
                                       wh)
                        # inplace div:
                        arrays2[0]/=arrays1[0]
                        arrays2[1]/=arrays1[1]
                        arrays2[2]/=arrays1[2]
                        arg2/=arg1
                        checkResult(ex2+t2+"/="+ex1+t1,arg2, \
                                       arrays2[0], \
                                       arrays2[1], \
                                       arrays2[2], \
                                       wh)

1	import sys
2	import unittest
3	import os
4
5	esys_root=os.getenv('ESYS_ROOT')
6	sys.path.append(esys_root+'/finley/lib')
7	sys.path.append(esys_root+'/escript/lib')
8	sys.path.append(esys_root+'/escript/py_src')
9
10	from escript import *
11	import finley
12	import numarray
13	from util import *
14
15	"""
16	tests arithmetic operations on Data:
17
18	+arg1
19	-arg1
20	arg1+arg2
21	arg1-arg2
22	arg1*arg2
23	arg1/arg2
24	arg1**arg2
25	arg1+=arg2
26	arg1-=arg2
27	arg1*=arg2
28	arg1/=arg2
29
30	various values for arg1 and arg2 are tested on various atoms.
31
32	moreover various slicing operations are tested.
33
34	the results are compared to reference result. if the relative difference is
35	bigger than tol an exception is raised.
36
37	by Lutz Gross, ACcESS, University of Queensland, Australia, 2003.
38
39	Version $Id$
40
41	"""
42
43	from numarray import array,Float64,ones,greater
44
45	Tag1=10
46	Tag2=11
47
48	tol=1.E-15
49
50	#
51	# list of arguments: a list item has the form [a0,a1,a2]
52	# what a0 is the default value and a1 is used for tag Tag1
53	# and a2 for tag2. a0,a1,a2 are converted into numarrays.
54	#
55	# binary operations are tested on all pairs from arglist
56	#
57	# each item in the arglist are used to construct the following 5 argument
58	# types arg for arithmetic operations:
59	#
60	# 1) arg is a numarray/list a0
61	# 2) arg is a Data with default value a0
62	# 3) arg is an DataArray with constant value a0
63	# 4) arg is a Data object with constant value a0 and value a1 for tag Tag1
64	# 5) arg is a Data object with constant value a0 and value a1 for tag Tag1
65	# and value a2 for Tag2.
66	#
67	# i.e for a single binary arithmetic operation (len(arglist)5)*2
68	# test are performed.
69	#
70
71	arglist = [ \
72	[ [3,4], [-5,6.], [2,3] ], \
73	[ [[1,2],[3,4]], [[5,6],[7,8]], [[-5,-6],[7,8]] ], \
74	[ [[15,8],[12,8]], [[-9,9],[13,8]], [[7,34],[19,7]] ], \
75	[ [[[15,8],[12,8]],[[-9,9],[13,8]]], [[[3,4],[-9,4]],[[1,-9],[7,4]]], [[[5,2],[6,2]],[[-6,4],[7,5]]] ], \
76	[ 3.0, 6.0, 3 ] \
77	]
78
79	# these are used to test slicing:
80	a_r1=[ [1,2,3], [-1,-2,-3], [100,200,300] ]
81	a_r1_in=[ [1./1,2,3], [-1./1,-1./2,-1./3], [1./100,1./200,1./300] ]
82	a_r4=[ \
83	[ [ [[ 1,2,3],[11,12,13]], [[21,22,23],[31,32,33]], [[41,42,43],[51,52,53]] ], [ [[101,102,103],[111,112,113]], [[121,122,123],[131,132,133]], [[141,142,143],[151,152,153]] ], [ [[201,202,203],[211,212,213]], [[221,222,223],[231,232,233]], [[241,242,243],[251,252,253]] ] ], \
84	[ [ [[ -1,-2,-3],[-11,-12,-13]], [[-21,-22,-23],[-31,-32,-33]], [[-41,-42,-43],[-51,-52,-53]] ], [ [[-101,-102,-103],[-111,-112,-113]], [[-121,-122,-123],[-131,-132,-133]], [[-141,-142,-143],[-151,-152,-153]] ], [ [[-201,-202,-203],[-211,-212,-213]], [[-221,-222,-223],[-231,-232,-233]], [[-241,-242,-243],[-251,-252,-253]] ] ], \
85	[ [[[ 11,12,13],[111,112,113]], [[121,122,123],[131,132,133]], [[141,142,143],[151,152,153]] ], [ [[1101,1102,1103],[1111,1112,1113]], [[1121,1122,1123],[1131,1132,1133]], [[1141,1142,1143],[1151,1152,1153]] ], [ [[1201,1202,1203],[1211,1212,1213]], [[1221,1222,1223],[1231,1232,1233]], [[1241,1242,1243],[1251,1252,1253]] ] ] ]
86	a_r4_in=[ \
87	[ [ [[ 1./1,1./2,1./3],[1./11,1./12,1./13]], [[1./21,1./22,1./23],[1./31,1./32,1./33]], [[1./41,1./42,1./43],[1./51,1./52,1./53]] ], [ [[1./101,1./102,1./103],[1./111,1./112,1./113]], [[1./121,1./122,1./123],[1./131,1./132,1./133]], [[1./141,1./142,1./143],[1./151,1./152,1./153]] ], [ [[1./201,1./202,1./203],[1./211,1./212,1./213]], [[1./221,1./222,1./223],[1./231,1./232,1./233]], [[1./241,1./242,1./243],[1./251,1./252,1./253]] ] ], \
88	[ [ [[ -1./1,-1./2,-1./3],[-1./11,-1./12,-1./13]], [[-1./21,-1./22,-1./23],[-1./31,-1./32,-1./33]], [[-1./41,-1./42,-1./43],[-1./51,-1./52,-1./53]] ], [ [[-1./101,-1./102,-1./103],[-1./111,-1./112,-1./113]], [[-1./121,-1./122,-1./123],[-1./131,-1./132,-1./133]], [[-1./141,-1./142,-1./143],[1./-151,-1./152,-1./153]] ], [ [[-1./201,-1./202,-1./203],[-1./211,-1./212,-1./213]], [[-1./221,-1./222,-1./223],[-1./231,-1./232,-1./233]], [[-1./241,-1./242,-1./243],[-1./251,-1./252,-1./253]] ] ], \
89	[ [[[ 1./11,1./12,1./13],[1./111,1./112,1./113]], [[1./121,1./122,1./123],[1./131,1./132,1./133]], [[1./141,1./142,1./143],[1./151,1./152,1./153]] ], [ [[1./1101,1./1102,1./1103],[1./1111,1./1112,1./1113]], [[1./1121,1./1122,1./1123],[1./1131,1./1132,1./1133]], [[1./1141,1./1142,1./1143],[1./1151,1./1152,1./1153]] ], [ [[1./1201,1./1202,1./1203],[1./1211,1./1212,1./1213]], [[1./1221,1./1222,1./1223],[1./1231,1./1232,1./1233]], [[1./1241,1./1242,1./1243],[1./1251,1./1252,1./1253]] ] ] ]
90
91	def turnToArray(val,tagged):
92	if tagged=="Tagged1":
93	out=[array(val[0],Float64),array(val[1],Float64),array(val[0],Float64)]
94	elif tagged=="Tagged2":
95	out=[array(val[0],Float64),array(val[1],Float64),array(val[2],Float64)]
96	else:
97	out=[array(val[0],Float64),array(val[0],Float64),array(val[0],Float64)]
98	return out
99
100	def prepareArg(val,ex,wh):
101	if ex=="Array":
102	out=val[0]
103	else:
104	if ex=="Expanded":
105	exx=True
106	else:
107	exx=False
108	out=Data(val[0],what=wh,expand=exx)
109	if ex=="Tagged1":
110	out.setTaggedValue(Tag1,val[1])
111	elif ex=="Tagged2":
112	out.setTaggedValue(Tag1,val[1])
113	out.setTaggedValue(Tag2,val[2])
114	return out
115
116	def checkResult(text,res,val0,val1,val2,wh):
117	ref=Data(val0,what=wh,expand=False)
118	ref.setTaggedValue(Tag1,val1)
119	ref.setTaggedValue(Tag2,val2)
120	norm=Lsup(ref)+tol
121	error=Lsup(ref-res)/norm
122	print "@@ %s, shape %s: error = %e"%(text,ref.getShape(),error)
123	if error>tol:
124	#raise SystemError,"@@ %s at %s: error is too large"%(text,wh)
125	print "**** %s: error is too large"%(text)
126
127	def getRank(arg):
128	if isinstance(arg,Data):
129	return arg.getRank()
130	else:
131	g=array(arg)
132	if g.rank==0:
133	return 1
134	else:
135	return g.rank
136
137	def isScalar(arg):
138	if isinstance(arg,Data):
139	if arg.getRank()==1 and arg.getShape()[0]==1:
140	return not None
141	else:
142	return None
143	else:
144	g=array(arg)
145	if g.rank==0:
146	return not None
147	else:
148	if g.rank==1 and g.shape[0]==1:
149	return not None
150	else:
151	return None
152
153	msh=finley.Rectangle(20,6,1)
154	for wh in [ContinuousFunction(msh),Function(msh)]:
155
156	#
157	# ==============================================================
158	#
159	# test slicing:
160	#
161
162	for ex1 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
163
164	print "Slice getting: ", ex1, ":"
165
166	# slice getting
167
168	# rank 1
169	arg=prepareArg(a_r1,ex1,wh)
170	arrays=turnToArray(a_r1,ex1)
171	if isinstance(arg,Data):
172	checkResult("slicing: rank=1 [:] "+ex1,arg[:], \
173	arrays[0][:], \
174	arrays[1][:], \
175	arrays[2][:], \
176	wh)
177	checkResult("slicing: rank=1 [1] "+ex1,arg[1], \
178	arrays[0][1], \
179	arrays[1][1], \
180	arrays[2][1], \
181	wh)
182	checkResult("slicing: rank=1 [1:3] "+ex1,arg[1:3], \
183	arrays[0][1:3], \
184	arrays[1][1:3], \
185	arrays[2][1:3], \
186	wh)
187
188	# rank 4
189	arg=prepareArg(a_r4,ex1,wh)
190	arrays=turnToArray(a_r4,ex1)
191	if isinstance(arg,Data):
192	checkResult("slicing: rank=4 [:] "+ex1,arg[:], \
193	arrays[0][:], \
194	arrays[1][:], \
195	arrays[2][:], \
196	wh)
197	checkResult("slicing: rank=4 [1] "+ex1,arg[1], \
198	arrays[0][1], \
199	arrays[1][1], \
200	arrays[2][1], \
201	wh)
202	checkResult("slicing: rank=4 [1:3] "+ex1,arg[1:3], \
203	arrays[0][1:3], \
204	arrays[1][1:3], \
205	arrays[2][1:3], \
206	wh)
207	checkResult("slicing: rank=4 [:,:] "+ex1,arg[:,:], \
208	arrays[0][:,:], \
209	arrays[1][:,:], \
210	arrays[2][:,:], \
211	wh)
212	checkResult("slicing: rank=4 [:,1] "+ex1,arg[:,1], \
213	arrays[0][:,1], \
214	arrays[1][:,1], \
215	arrays[2][:,1], \
216	wh)
217	checkResult("slicing: rank=4 [:,1:3] "+ex1,arg[:,1:3], \
218	arrays[0][:,1:3], \
219	arrays[1][:,1:3], \
220	arrays[2][:,1:3], \
221	wh)
222	checkResult("slicing: rank=4 [1:2,1:3] "+ex1,arg[1:2,1:3], \
223	arrays[0][1:2,1:3], \
224	arrays[1][1:2,1:3], \
225	arrays[2][1:2,1:3], \
226	wh)
227	checkResult("slicing: rank=4 [1:2,1:3,1,1] "+ex1,arg[1:2,1:3,1,1], \
228	arrays[0][1:2,1:3,1,1], \
229	arrays[1][1:2,1:3,1,1], \
230	arrays[2][1:2,1:3,1,1], \
231	wh)
232	checkResult("slicing: rank=4 [1:2,1:3,:,1] "+ex1,arg[1:2,1:3,:,1], \
233	arrays[0][1:2,1:3,:,1], \
234	arrays[1][1:2,1:3,:,1], \
235	arrays[2][1:2,1:3,:,1], \
236	wh)
237	checkResult("slicing: rank=4 [1:2,1:3,0,:] "+ex1,arg[1:2,1:3,0,:], \
238	arrays[0][1:2,1:3,0,:], \
239	arrays[1][1:2,1:3,0,:], \
240	arrays[2][1:2,1:3,0,:], \
241	wh)
242	checkResult("slicing: rank=4 [1:2,1:3,0,1] "+ex1,arg[1:2,1:3,0,1], \
243	arrays[0][1:2,1:3,0,1], \
244	arrays[1][1:2,1:3,0,1], \
245	arrays[2][1:2,1:3,0,1], \
246	wh)
247	checkResult("slicing: rank=4 [1,1,0,1] "+ex1,arg[1,1,0,1], \
248	arrays[0][1,1,0,1], \
249	arrays[1][1,1,0,1], \
250	arrays[2][1,1,0,1], \
251	wh)
252
253	# slice setting
254
255	#for ex2 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
256	for ex2 in ["Expanded"]:
257
258	print "Slice setting: ", ex1, ",", ex2, ":"
259
260	# rank 1
261
262	arrays_in=turnToArray(a_r1_in,ex2)
263
264	arg2=prepareArg(a_r1,ex1,wh)
265	arrays2=turnToArray(a_r1,ex1)
266	a_in=[arrays_in[0][:],arrays_in[1][:],arrays_in[2][:]]
267	arg2[:]=prepareArg(a_in,ex2,wh)
268	arrays2[0][:]=a_in[0]
269	arrays2[1][:]=a_in[1]
270	arrays2[2][:]=a_in[2]
271	checkResult("slicing, set: rank=1 [:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
272
273	arg2=prepareArg(a_r1,ex1,wh)
274	arrays2=turnToArray(a_r1,ex1)
275	a_in=[arrays_in[0][1],arrays_in[1][1],arrays_in[2][1]]
276	arg2[1]=prepareArg(a_in,ex2,wh)
277	arrays2[0][1]=a_in[0]
278	arrays2[1][1]=a_in[1]
279	arrays2[2][1]=a_in[2]
280	checkResult("slicing, set: rank=1 [1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
281
282	arg2=prepareArg(a_r1,ex1,wh)
283	arrays2=turnToArray(a_r1,ex1)
284	a_in=[arrays_in[0][1:3],arrays_in[1][1:3],arrays_in[2][1:3]]
285	arg2[1:3]=prepareArg(a_in,ex2,wh)
286	arrays2[0][1:3]=a_in[0]
287	arrays2[1][1:3]=a_in[1]
288	arrays2[2][1:3]=a_in[2]
289	checkResult("slicing, set: rank=1 [1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
290
291	# rank 4
292
293	arrays_in=turnToArray(a_r4_in,ex2)
294
295	arg2=prepareArg(a_r4,ex1,wh)
296	arrays2=turnToArray(a_r4,ex1)
297	a_in=[arrays_in[0][:],arrays_in[1][:],arrays_in[2][:]]
298	arg2[:]=prepareArg(a_in,ex2,wh)
299	arrays2[0][:]=a_in[0]
300	arrays2[1][:]=a_in[1]
301	arrays2[2][:]=a_in[2]
302	checkResult("slicing, set: rank=4 [:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
303
304	arg2=prepareArg(a_r4,ex1,wh)
305	arrays2=turnToArray(a_r4,ex1)
306	a_in=[arrays_in[0][1],arrays_in[1][1],arrays_in[2][1]]
307	arg2[1]=prepareArg(a_in,ex2,wh)
308	arrays2[0][1]=a_in[0]
309	arrays2[1][1]=a_in[1]
310	arrays2[2][1]=a_in[2]
311	checkResult("slicing, set: rank=4 [1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
312
313	arg2=prepareArg(a_r4,ex1,wh)
314	arrays2=turnToArray(a_r4,ex1)
315	a_in=[arrays_in[0][1:3],arrays_in[1][1:3],arrays_in[2][1:3]]
316	arg2[1:3]=prepareArg(a_in,ex2,wh)
317	arrays2[0][1:3]=a_in[0]
318	arrays2[1][1:3]=a_in[1]
319	arrays2[2][1:3]=a_in[2]
320	checkResult("slicing, set: rank=4 [1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
321
322	arg2=prepareArg(a_r4,ex1,wh)
323	arrays2=turnToArray(a_r4,ex1)
324	a_in=[arrays_in[0][:,:],arrays_in[1][:,:],arrays_in[2][:,:]]
325	arg2[:,:]=prepareArg(a_in,ex2,wh)
326	arrays2[0][:,:]=a_in[0]
327	arrays2[1][:,:]=a_in[1]
328	arrays2[2][:,:]=a_in[2]
329	checkResult("slicing, set: rank=4 [:,:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
330
331	arg2=prepareArg(a_r4,ex1,wh)
332	arrays2=turnToArray(a_r4,ex1)
333	a_in=[arrays_in[0][:,1],arrays_in[1][:,1],arrays_in[2][:,1]]
334	arg2[:,1]=prepareArg(a_in,ex2,wh)
335	arrays2[0][:,1]=a_in[0]
336	arrays2[1][:,1]=a_in[1]
337	arrays2[2][:,1]=a_in[2]
338	checkResult("slicing, set: rank=4 [:,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
339
340	arg2=prepareArg(a_r4,ex1,wh)
341	arrays2=turnToArray(a_r4,ex1)
342	a_in=[arrays_in[0][:,1:3],arrays_in[1][:,1:3],arrays_in[2][:,1:3]]
343	arg2[:,1:3]=prepareArg(a_in,ex2,wh)
344	arrays2[0][:,1:3]=a_in[0]
345	arrays2[1][:,1:3]=a_in[1]
346	arrays2[2][:,1:3]=a_in[2]
347	checkResult("slicing, set: rank=4 [:,1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
348
349	arg2=prepareArg(a_r4,ex1,wh)
350	arrays2=turnToArray(a_r4,ex1)
351	a_in=[arrays_in[0][1:2,1:3],arrays_in[1][1:2,1:3],arrays_in[2][1:2,1:3]]
352	arg2[1:2,1:3]=prepareArg(a_in,ex2,wh)
353	arrays2[0][1:2,1:3]=a_in[0]
354	arrays2[1][1:2,1:3]=a_in[1]
355	arrays2[2][1:2,1:3]=a_in[2]
356	checkResult("slicing, set: rank=4 [1:2,1:3] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
357
358	arg2=prepareArg(a_r4,ex1,wh)
359	arrays2=turnToArray(a_r4,ex1)
360	a_in=[arrays_in[0][1:2,1:3,1,1],arrays_in[1][1:2,1:3,1,1],arrays_in[2][1:2,1:3,1,1]]
361	arg2[1:2,1:3,1,1]=prepareArg(a_in,ex2,wh)
362	arrays2[0][1:2,1:3,1,1]=a_in[0]
363	arrays2[1][1:2,1:3,1,1]=a_in[1]
364	arrays2[2][1:2,1:3,1,1]=a_in[2]
365	checkResult("slicing, set: rank=4 [1:2,1:3,1,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
366
367	arg2=prepareArg(a_r4,ex1,wh)
368	arrays2=turnToArray(a_r4,ex1)
369	a_in=[arrays_in[0][1:2,1:3,:,1],arrays_in[1][1:2,1:3,:,1],arrays_in[2][1:2,1:3,:,1]]
370	arg2[1:2,1:3,:,1]=prepareArg(a_in,ex2,wh)
371	arrays2[0][1:2,1:3,:,1]=a_in[0]
372	arrays2[1][1:2,1:3,:,1]=a_in[1]
373	arrays2[2][1:2,1:3,:,1]=a_in[2]
374	checkResult("slicing, set: rank=4 [1:2,1:3,:,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
375
376	arg2=prepareArg(a_r4,ex1,wh)
377	arrays2=turnToArray(a_r4,ex1)
378	a_in=[arrays_in[0][1:2,1:3,0,:],arrays_in[1][1:2,1:3,0,:],arrays_in[2][1:2,1:3,0,:]]
379	arg2[1:2,1:3,0,:]=prepareArg(a_in,ex2,wh)
380	arrays2[0][1:2,1:3,0,:]=a_in[0]
381	arrays2[1][1:2,1:3,0,:]=a_in[1]
382	arrays2[2][1:2,1:3,0,:]=a_in[2]
383	checkResult("slicing, set: rank=4 [1:2,1:3,0,:] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
384
385	arg2=prepareArg(a_r4,ex1,wh)
386	arrays2=turnToArray(a_r4,ex1)
387	a_in=[arrays_in[0][1:2,1:3,0,1],arrays_in[1][1:2,1:3,0,1],arrays_in[2][1:2,1:3,0,1]]
388	arg2[1:2,1:3,0,1]=prepareArg(a_in,ex2,wh)
389	arrays2[0][1:2,1:3,0,1]=a_in[0]
390	arrays2[1][1:2,1:3,0,1]=a_in[1]
391	arrays2[2][1:2,1:3,0,1]=a_in[2]
392	checkResult("slicing, set: rank=4 [1:2,1:3,0,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
393
394	arg2=prepareArg(a_r4,ex1,wh)
395	arrays2=turnToArray(a_r4,ex1)
396	a_in=[arrays_in[0][1,1,0,1],arrays_in[1][1,1,0,1],arrays_in[2][1,1,0,1]]
397	arg2[1,1,0,1]=prepareArg(a_in,ex2,wh)
398	arrays2[0][1,1,0,1]=a_in[0]
399	arrays2[1][1,1,0,1]=a_in[1]
400	arrays2[2][1,1,0,1]=a_in[2]
401	checkResult("slicing, set: rank=4 [1,1,0,1] "+ex1+","+ex2,arg2,arrays2[0],arrays2[1],arrays2[2],wh)
402
403	#
404	# ==============================================================
405	#
406	# test operators:
407	#
408
409	#for ex1 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
410	for ex1 in ["Array","Constant","Expanded"]:
411
412	for a1 in arglist:
413
414	arg1=prepareArg(a1,ex1,wh)
415	arrays1=turnToArray(a1,ex1)
416	if isScalar(arg1):
417	t1="(scalar)"
418	else:
419	t1=""
420
421	#
422	# unary operations:
423	#
424
425	print "Unary ops: ", ex1, ":"
426
427	if isinstance(arg1,Data):
428
429	# pos:
430	#ref=checkResult("+"+ex1,+arg1, \
431	# +arrays1[0], \
432	# +arrays1[1], \
433	# +arrays1[2], \
434	# wh)
435	# neg:
436	#ref=checkResult("-"+ex1,-arg1, \
437	# -arrays1[0], \
438	# -arrays1[1], \
439	# -arrays1[2], \
440	# wh)
441	# pos:
442	ref=checkResult("where positive("+ex1+")",(arg1-3).wherePositive(), \
443	numarray.greater(arrays1[0],3.), \
444	numarray.greater(arrays1[1],3.), \
445	numarray.greater(arrays1[2],3.), \
446	wh)
447	# negative:
448	ref=checkResult("where negative("+ex1+")",(arg1-3).whereNegative(), \
449	numarray.greater(3.,arrays1[0]), \
450	numarray.greater(3.,arrays1[1]), \
451	numarray.greater(3.,arrays1[2]), \
452	wh)
453	# non-negative:
454	ref=checkResult("where nonnegative("+ex1+")",(arg1-3).whereNonNegative(), \
455	numarray.greater_equal(arrays1[0],3.), \
456	numarray.greater_equal(arrays1[1],3.), \
457	numarray.greater_equal(arrays1[2],3.), \
458	wh)
459	# non-positive:
460	ref=checkResult("where nonpositive("+ex1+")",(arg1-3).whereNonPositive(), \
461	numarray.greater_equal(3.,arrays1[0]), \
462	numarray.greater_equal(3.,arrays1[1]), \
463	numarray.greater_equal(3.,arrays1[2]), \
464	wh)
465	# zero:
466	ref=checkResult("where zero("+ex1+")",(arg1-3).whereZero(), \
467	numarray.less_equal(numarray.abs(arrays1[0]-3.),EPSILON), \
468	numarray.less_equal(numarray.abs(arrays1[1]-3.),EPSILON), \
469	numarray.less_equal(numarray.abs(arrays1[2]-3.),EPSILON), \
470	wh)
471	# non-zero:
472	ref=checkResult("where nonzero("+ex1+")",(arg1-3).whereNonZero(), \
473	numarray.greater(numarray.abs(arrays1[0]-3.),EPSILON), \
474	numarray.greater(numarray.abs(arrays1[1]-3.),EPSILON), \
475	numarray.greater(numarray.abs(arrays1[2]-3.),EPSILON), \
476	wh)
477
478	#
479	# binary operations
480	#
481
482	for ex2 in ["Array","Constant","Expanded","Tagged1","Tagged2"]:
483
484	print "Binary ops: ", ex1, ",", ex2, ":"
485
486	for a2 in arglist:
487
488	arg2=prepareArg(a2,ex2,wh)
489	arrays2=turnToArray(a2,ex2)
490	if isScalar(arg2):
491	t2="(scalar)"
492	else:
493	t2=""
494
495	if isinstance(arg1,Data) or isinstance(arg2,Data):
496
497	# the shape must match or at least one argument is sclar:
498	if (getRank(arg1)==getRank(arg2)) or isScalar(arg1) or isScalar(arg2):
499
500	# sum
501	checkResult(ex1+t1+"+"+ex2+t2,arg1+arg2, \
502	arrays1[0]+arrays2[0], \
503	arrays1[1]+arrays2[1], \
504	arrays1[2]+arrays2[2], \
505	wh)
506	# sub
507	checkResult(ex1+t1+"-"+ex2+t2,arg1-arg2, \
508	arrays1[0]-arrays2[0], \
509	arrays1[1]-arrays2[1], \
510	arrays1[2]-arrays2[2], \
511	wh)
512	# mul
513	checkResult(ex1+t1+""+ex2+t2,arg1arg2, \
514	arrays1[0]*arrays2[0], \
515	arrays1[1]*arrays2[1], \
516	arrays1[2]*arrays2[2], \
517	wh)
518	# div
519	checkResult(ex1+t1+"/"+ex2+t2,arg1/arg2, \
520	arrays1[0]/arrays2[0], \
521	arrays1[1]/arrays2[1], \
522	arrays1[2]/arrays2[2], \
523	wh)
524	# pow
525	if isinstance(arg1,Data):
526	a=arg1
527	else:
528	a=Data(value=arg1,what=arg2.getFunctionSpace())
529	checkResult(ex1+t1+"^"+ex2+t2,a**arg2, \
530	arrays1[0]**arrays2[0], \
531	arrays1[1]**arrays2[1], \
532	arrays1[2]**arrays2[2], \
533	wh)
534
535	# inplace for arg2 which must be of class Data
536	# if arg1 is expanded arg2 must be expanded
537	if isinstance(arg2,Data):
538
539	# if arg2 is scalar arg1 must be scalar:
540	#if not (isScalar(arg2) and not isScalar(arg1)):
541	if not(isScalar(arg2)) and not(isScalar(arg1)):
542
543	# inplace add:
544	arrays2[0]+=arrays1[0]
545	arrays2[1]+=arrays1[1]
546	arrays2[2]+=arrays1[2]
547	arg2+=arg1
548	checkResult(ex2+t2+"+="+ex1+t1,arg2, \
549	arrays2[0], \
550	arrays2[1], \
551	arrays2[2], \
552	wh)
553	# inplace sub:
554	arrays2[0]-=arrays1[0]
555	arrays2[1]-=arrays1[1]
556	arrays2[2]-=arrays1[2]
557	arg2-=arg1
558	checkResult(ex2+t2+"-="+ex1+t1,arg2, \
559	arrays2[0], \
560	arrays2[1], \
561	arrays2[2], \
562	wh)
563	# inplace mul:
564	arrays2[0]*=arrays1[0]
565	arrays2[1]*=arrays1[1]
566	arrays2[2]*=arrays1[2]
567	arg2*=arg1
568	checkResult(ex2+t2+"*="+ex1+t1,arg2, \
569	arrays2[0], \
570	arrays2[1], \
571	arrays2[2], \
572	wh)
573	# inplace div:
574	arrays2[0]/=arrays1[0]
575	arrays2[1]/=arrays1[1]
576	arrays2[2]/=arrays1[2]
577	arg2/=arg1
578	checkResult(ex2+t2+"/="+ex1+t1,arg2, \
579	arrays2[0], \
580	arrays2[1], \
581	arrays2[2], \
582	wh)
583
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svn:keywords	Author Date Id Revision