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src/SimNDT/engine/efit2d_serial.py Normal file
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#!/usr/bin/env python
# encoding: utf-8
"""
efit2d_serial.py
Created by Miguel Molero on 2013-10-08.
Copyright (c) 2013 MMolero. All rights reserved.
"""
import numpy as np
from scipy.weave import inline
class EFIT2D_NP:
def __init__(self, MRI, NRI, NX, dt, ddx, dtx, dtdxx):
self.MRI = MRI
self.NRI = NRI
self.NX = NX
self.dt = dt
self.dtx = dtx
self.ddx = ddx
self.dtdxx = dtdxx
def sourceVel(self, Vx, Vy, XL, YL, source, Stype, win):
if Stype ==0:
Vx[XL[:],YL[:]] -= source*self.dtdxx * win[:]
elif Stype ==1:
Vy[XL[:],YL[:]] -= source*self.dtdxx * win[:]
elif Stype ==2:
Vx[XL[:],YL[:]] -= source* self.dtdxx * win[:]
Vy[XL[:],YL[:]] -= source* self.dtdxx * win[:]
return (Vx, Vy)
def sourceStress(self, Txx, Tyy, XL, YL, source, Stype, win):
if Stype ==0:
Txx[XL[:],YL[:]] -= source*self.dtdxx * win[:]
elif Stype ==1:
Tyy[XL[:],YL[:]] -= source*self.dtdxx * win[:]
elif Stype ==2:
Txx[XL[:],YL[:]] -= source* self.dtdxx * win[:]
Tyy[XL[:],YL[:]] -= source* self.dtdxx * win[:]
return (Txx, Tyy)
def velocityVoigt(self, Txx, Txy, Tyy, vx, vy, d_vx, d_vy, BX, BY, ABS):
d_vx[:-1,1:] = ( self.ddx * BX[:-1,1:] )*( Txx[1:,1:] - Txx[:-1,1:] + Txy[:-1,1:]- Txy[:-1,0:-1]);
vx[:-1,1:] += self.dt * d_vx[:-1,1:]
d_vy[1:,:-1] = ( self.ddx * BY[1:,:-1] )*( Txy[1:,:-1] - Txy[0:-1,:-1] + Tyy[1:,1:] - Tyy[1:,:-1] );
vy[1:,:-1] += self.dt * d_vy[1:,:-1]
vx[:,:] *= ABS[:,:]
vy[:,:] *= ABS[:,:]
return (vx, vy, d_vx, d_vy)
def stressVoigt(self,Txx, Txy, Tyy, vx, vy,d_vx, d_vy, C11, C12, C44, ETA_VS, ETA_S, ETA_SS, ABS):
Txx[1:,1:] += ( (self.dtx * C11[1:,1:]) * (vx[1:,1:] - vx[0:-1,1:]) +
(self.dtx * C12[1:,1:]) * (vy[1:,1:] - vy[1:,0:-1]) +
(self.dtx * ETA_VS[1:,1:]) * (d_vx[1:,1:] - d_vx[0:-1,1:]) +
(self.dtx * ETA_S[1:,1:] ) * (d_vy[1:,1:] - d_vy[1:,0:-1]) )
Tyy[1:,1:] += ( (self.dtx * C12[1:,1:] ) * (vx[1:,1:] - vx[0:-1,1:]) +
(self.dtx * C11[1:,1:] ) * (vy[1:,1:] - vy[1:,0:-1]) +
(self.dtx * ETA_S[1:,1:]) * (d_vx[1:,1:] - d_vx[0:-1,1:]) +
(self.dtx * ETA_VS[1:,1:]) * (d_vy[1:,1:] - d_vy[1:,0:-1]) )
Txy[:-1,:-1] += ( (self.dtx * C44[:-1,:-1]) * (vx[:-1,1:] - vx[:-1,:-1] + vy[1:,:-1] - vy[:-1,:-1] ) +
(self.dtx * ETA_SS[:-1,:-1])* (d_vx[:-1,1:] - d_vx[:-1,:-1] + d_vy[1:,:-1] - d_vy[:-1,:-1]) )
Txx[:,:] *= ABS[:,:]
Tyy[:,:] *= ABS[:,:]
Txy[:,:] *= ABS[:,:]
return (Txx, Tyy, Txy)
class EFIT2D_Weave:
def __init__(self, MRI, NRI, NX, dt, ddx, dtx, dtdxx):
self.MRI = MRI
self.NRI = NRI
self.NX = NX
self.dt = dt
self.dtx = dtx
self.ddx = ddx
self.dtdxx = dtdxx
def sourceVel(self, Vx, Vy, XL, YL, source, Stype, win):
NX = int(self.NX)
NRI = int(self.NRI)
Stype = int(Stype)
DTDXX = np.float32(self.dtdxx)
extra_code = """
#define ind(i,j, N) ( ((N)*(i)) + (j) )
"""
code = """
int ix, iy;
for (int m=0; m<NX; m++)
{
ix = (int)XL[m];
iy = (int)YL[m];
if (Stype ==0){
Vx[ind(ix,iy, NRI)] -= ((float)source* (float)DTDXX)*win[m];
}
else if (Stype ==1){
Vy[ind(ix,iy, NRI)] -= ((float)source* (float)DTDXX)*win[m];
}
else if (Stype ==2){
Vx[ind(ix,iy, NRI)] -= ((float)source* (float)DTDXX)*win[m];
Vy[ind(ix,iy, NRI)] -= ((float)source* (float)DTDXX)*win[m];
}
}
"""
variables = ['NRI', 'NX','DTDXX','Vx', 'Vy', 'XL', 'YL','source','Stype','win']
inline(code, variables, support_code = extra_code, compiler='gcc')
return (Vx, Vy)
def sourceStress(self, Txx, Tyy, XL, YL, source, Stype, win):
NX = int(self.NX)
NRI = int(self.NRI)
Stype = int(Stype)
dtdxx = self.dtdxx
extra_code = """
#define ind(i,j, N) ( ((N)*(i)) + (j) )
"""
code = """
int ix, iy;
for (int m=0; m<NX; m++)
{
ix = (int)XL[m];
iy = (int)YL[m];
if (Stype ==0){
Txx[ind(ix,iy, NRI)] -= ((float)source*(float)dtdxx)*win[m];
}
else if (Stype ==1){
Tyy[ind(ix,iy, NRI)] -= ((float)source*(float)dtdxx)*win[m];
}
else if (Stype ==2){
Txx[ind(ix,iy, NRI)] -= ((float)source*(float)dtdxx)*win[m];
Tyy[ind(ix,iy, NRI)] -= ((float)source*(float)dtdxx)*win[m];
}
}
"""
variables = ['NRI', 'NX','dtdxx','Txx', 'Tyy', 'XL', 'YL','source','Stype','win']
inline(code, variables, support_code = extra_code, compiler='gcc')
return (Txx, Tyy)
def velocityVoigt(self, Txx, Txy, Tyy, vx, vy, d_vx, d_vy, BX, BY, ABS):
NRI = int(self.NRI)
MRI = int(self.MRI)
DDX = np.float32(self.ddx)
DT = np.float32(self.dt)
extra_code = """
#define ind(i,j, N) ( ((N)*(i)) + (j) )
"""
code = """
for (int i=0; i<MRI; ++i){
for (int j=0; j<NRI; ++j){
if(i<MRI-1 && j>0)
{
d_vx[ind(i,j, NRI)] = ( ((float)DDX) * BX[ind(i,j,NRI)] )*( Txx[ind(i+1,j,NRI)] - Txx[ind(i,j,NRI)] + Txy[ind(i,j,NRI)] - Txy[ind(i,j-1,NRI)] );
vx[ind(i,j,NRI)] += ((float)DT) * d_vx[ind(i,j, NRI)];
}
if(j<NRI-1 && i>0)
{
d_vy[ind(i,j,NRI)] = ( (float)DDX * BY[ind(i,j,NRI)] )*( Txy[ind(i,j,NRI)] - Txy[ind(i-1,j,NRI)] + Tyy[ind(i,j+1,NRI)] - Tyy[ind(i,j,NRI)] );
vy[ind(i,j,NRI)] += (float)DT *d_vy[ind(i,j, NRI)];
}
}
}
for (int i=0; i<MRI; ++i){
for (int j=0; j<NRI; ++j){
vx[ind(i,j,NRI)] *= ABS[ind(i,j,NRI)];
vy[ind(i,j,NRI)] *= ABS[ind(i,j,NRI)];
}
}
"""
variables = ['NRI','MRI', 'DDX','DT','Txx', 'Txy', 'Tyy', 'vx', 'vy','d_vx','d_vy','BX', 'BY', 'ABS' ]
inline(code, variables, support_code = extra_code, compiler='gcc')
return (vx, vy, d_vx, d_vy)
def stressVoigt(self,Txx, Txy, Tyy, vx, vy,d_vx, d_vy, C11, C12, C44, ETA_VS, ETA_S, ETA_SS, ABS):
NRI = int(self.NRI)
MRI = int(self.MRI)
DTX = np.float32(self.dtx)
extra_code = """
#define ind(i,j, N) ( ((N)*(i)) + (j) )
"""
code = """
for (int i=0; i<MRI; ++i){
for (int j=0; j<NRI; ++j){
if((i>0 && j>0 )){
Txx[ind(i,j, NRI)] += ( ( (float)DTX)*( C11[ind(i,j, NRI)] )*(vx[ind(i,j, NRI)] - vx[ind(i-1,j, NRI)]) +
( (float)DTX)*( C12[ind(i,j, NRI)] )*(vy[ind(i,j, NRI)] - vy[ind(i,j-1, NRI)]) +
( (float)DTX)*( ETA_VS[ind(i,j, NRI)])*(d_vx[ind(i,j, NRI)] - d_vx[ind(i-1,j, NRI)]) +
( (float)DTX)*( ETA_S[ind(i,j, NRI)] )*(d_vy[ind(i,j, NRI)] - d_vy[ind(i,j-1, NRI)]) );
Tyy[ind(i,j, NRI)] += ( ( (float)DTX)*( C12[ind(i,j, NRI)] )*(vx[ind(i,j, NRI)] - vx[ind(i-1,j, NRI)]) +
( (float)DTX)*( C11[ind(i,j, NRI)] )*(vy[ind(i,j, NRI)] - vy[ind(i,j-1, NRI)]) +
( (float)DTX)*( ETA_S[ind(i,j, NRI)] )*(d_vx[ind(i,j, NRI)] - d_vx[ind(i-1,j, NRI)])+
( (float)DTX)*( ETA_VS[ind(i,j, NRI)] )*(d_vy[ind(i,j, NRI)] - d_vy[ind(i,j-1, NRI)]) );
}
if (i<MRI-1 && j<NRI-1){
Txy[ind(i,j, NRI)] += ( ( (float)DTX)*( C44[ind(i,j, NRI)] )*(vx[ind(i,j+1, NRI)] - vx[ind(i,j, NRI)] + vy[ind(i+1,j, NRI)] - vy[ind(i,j, NRI)] ) +
( (float)DTX)*( ETA_SS[ind(i,j, NRI)] )*(d_vx[ind(i,j+1, NRI)] - d_vx[ind(i,j, NRI)] + d_vy[ind(i+1,j, NRI)] - d_vy[ind(i,j, NRI)] ) );
}
}
}
for (int i=0; i<MRI; ++i){
for (int j=0; j<NRI; ++j){
Txx[ind(i,j, NRI)] *= ABS[ind(i,j, NRI)];
Tyy[ind(i,j, NRI)] *= ABS[ind(i,j, NRI)];
Txy[ind(i,j, NRI)] *= ABS[ind(i,j, NRI)];
}
}
"""
variables = ['NRI','MRI', 'DTX','Txx', 'Txy', 'Tyy', 'vx', 'vy','d_vx','d_vy','C11', 'C12', 'C44','ETA_VS', 'ETA_S', 'ETA_SS','ABS' ]
inline(code, variables, support_code = extra_code, compiler='gcc')
return (Txx, Tyy, Txy)