should work now with odd resolution as well
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18f18aa4b9
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@ -10,6 +10,7 @@ scriptName = os.path.splitext(os.path.basename(__file__))[0]
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scriptID = ' '.join([scriptName,damask.version])
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def curlFFT(geomdim,field):
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shapeFFT = np.array(np.shape(field))[0:3]
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grid = np.array(np.shape(field)[2::-1])
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N = grid.prod() # field size
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n = np.array(np.shape(field)[3:]).prod() # data size
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@ -17,8 +18,8 @@ def curlFFT(geomdim,field):
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if n == 3: dataType = 'vector'
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elif n == 9: dataType = 'tensor'
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2))
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curl_fourier = np.zeros(field_fourier.shape,'c16')
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2),s=shapeFFT)
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curl_fourier = np.empty(field_fourier.shape,'c16')
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# differentiation in Fourier space
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k_s = np.zeros([3],'i')
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@ -55,7 +56,7 @@ def curlFFT(geomdim,field):
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curl_fourier[i,j,k,2] = ( field_fourier[i,j,k,1]*xi[0]\
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-field_fourier[i,j,k,0]*xi[1]) *TWOPIIMG
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return np.fft.fftpack.irfftn(curl_fourier,axes=(0,1,2)).reshape([N,n])
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return np.fft.fftpack.irfftn(curl_fourier,axes=(0,1,2),s=shapeFFT).reshape([N,n])
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# --------------------------------------------------------------------
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@ -10,12 +10,13 @@ scriptName = os.path.splitext(os.path.basename(__file__))[0]
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scriptID = ' '.join([scriptName,damask.version])
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def divFFT(geomdim,field):
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shapeFFT = np.array(np.shape(field))[0:3]
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grid = np.array(np.shape(field)[2::-1])
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N = grid.prod() # field size
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n = np.array(np.shape(field)[3:]).prod() # data size
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2))
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div_fourier = np.zeros(field_fourier.shape[0:len(np.shape(field))-1],'c16') # size depents on whether tensor or vector
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2),s=shapeFFT)
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div_fourier = np.empty(field_fourier.shape[0:len(np.shape(field))-1],'c16') # size depents on whether tensor or vector
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# differentiation in Fourier space
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k_s=np.zeros([3],'i')
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@ -41,7 +42,7 @@ def divFFT(geomdim,field):
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elif n == 3: # vector, 3 -> 1
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div_fourier[i,j,k] = sum(field_fourier[i,j,k,0:3]*xi) *TWOPIIMG
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return np.fft.fftpack.irfftn(div_fourier,axes=(0,1,2)).reshape([N,n/3])
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return np.fft.fftpack.irfftn(div_fourier,axes=(0,1,2),s=shapeFFT).reshape([N,n/3])
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# --------------------------------------------------------------------
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@ -10,14 +10,16 @@ scriptName = os.path.splitext(os.path.basename(__file__))[0]
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scriptID = ' '.join([scriptName,damask.version])
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def gradFFT(geomdim,field):
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shapeFFT = np.array(np.shape(field))[0:3]
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grid = np.array(np.shape(field)[2::-1])
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N = grid.prod() # field size
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n = np.array(np.shape(field)[3:]).prod() # data size
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if n == 3: dataType = 'vector'
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elif n == 1: dataType = 'scalar'
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2))
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grad_fourier = np.zeros(field_fourier.shape+(3,),'c16')
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field_fourier = np.fft.fftpack.rfftn(field,axes=(0,1,2),s=shapeFFT)
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grad_fourier = np.empty(field_fourier.shape+(3,),'c16')
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# differentiation in Fourier space
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k_s = np.zeros([3],'i')
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@ -44,7 +46,7 @@ def gradFFT(geomdim,field):
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grad_fourier[i,j,k,1,:] = field_fourier[i,j,k,1]*xi *TWOPIIMG # tensor field from vector data
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grad_fourier[i,j,k,2,:] = field_fourier[i,j,k,2]*xi *TWOPIIMG
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return np.fft.fftpack.irfftn(grad_fourier,axes=(0,1,2)).reshape([N,3*n])
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return np.fft.fftpack.irfftn(grad_fourier,axes=(0,1,2),s=shapeFFT).reshape([N,3*n])
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# --------------------------------------------------------------------
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