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#include <cstdlib> |
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#include <cstring> |
| 3 |
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#include <cmath> |
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> |
#include <stdlib.h> |
| 2 |
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#include <string.h> |
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#include <math.h> |
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#include <iostream> |
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using namespace std; |
| 37 |
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thermalTime = 0.0; |
| 38 |
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currentTime = 0.0; |
| 39 |
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rCut = 0.0; |
| 40 |
– |
origRcut = -1.0; |
| 40 |
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ecr = 0.0; |
| 42 |
– |
origEcr = -1.0; |
| 41 |
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est = 0.0; |
| 44 |
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oldEcr = 0.0; |
| 45 |
– |
oldRcut = 0.0; |
| 42 |
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|
| 43 |
< |
haveOrigRcut = 0; |
| 44 |
< |
haveOrigEcr = 0; |
| 43 |
> |
haveRcut = 0; |
| 44 |
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haveEcr = 0; |
| 45 |
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boxIsInit = 0; |
| 46 |
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| 47 |
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| 47 |
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resetTime = 1e99; |
| 48 |
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| 49 |
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orthoTolerance = 1E-6; |
| 50 |
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useInitXSstate = true; |
| 51 |
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|
| 52 |
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usePBC = 0; |
| 53 |
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useLJ = 0; |
| 54 |
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useSticky = 0; |
| 92 |
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| 93 |
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void SimInfo::setBoxM( double theBox[3][3] ){ |
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| 95 |
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int i, j, status; |
| 97 |
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double smallestBoxL, maxCutoff; |
| 95 |
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int i, j; |
| 96 |
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double FortranHmat[9]; // to preserve compatibility with Fortran the |
| 97 |
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// ordering in the array is as follows: |
| 98 |
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// [ 0 3 6 ] |
| 100 |
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// [ 2 5 8 ] |
| 101 |
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double FortranHmatInv[9]; // the inverted Hmat (for Fortran); |
| 102 |
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| 105 |
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| 103 |
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if( !boxIsInit ) boxIsInit = 1; |
| 104 |
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| 105 |
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for(i=0; i < 3; i++) |
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| 144 |
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void SimInfo::calcHmatInv( void ) { |
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| 146 |
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int oldOrtho; |
| 147 |
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int i,j; |
| 148 |
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double smallDiag; |
| 149 |
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double tol; |
| 151 |
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| 152 |
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invertMat3( Hmat, HmatInv ); |
| 153 |
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| 156 |
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// Check the inverse to make sure it is sane: |
| 157 |
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| 158 |
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matMul3( Hmat, HmatInv, sanity ); |
| 159 |
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| 154 |
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// check to see if Hmat is orthorhombic |
| 155 |
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| 156 |
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smallDiag = Hmat[0][0]; |
| 157 |
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if(smallDiag > Hmat[1][1]) smallDiag = Hmat[1][1]; |
| 158 |
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if(smallDiag > Hmat[2][2]) smallDiag = Hmat[2][2]; |
| 159 |
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tol = smallDiag * 1E-6; |
| 156 |
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oldOrtho = orthoRhombic; |
| 157 |
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|
| 158 |
> |
smallDiag = fabs(Hmat[0][0]); |
| 159 |
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if(smallDiag > fabs(Hmat[1][1])) smallDiag = fabs(Hmat[1][1]); |
| 160 |
> |
if(smallDiag > fabs(Hmat[2][2])) smallDiag = fabs(Hmat[2][2]); |
| 161 |
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tol = smallDiag * orthoTolerance; |
| 162 |
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| 163 |
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orthoRhombic = 1; |
| 164 |
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| 166 |
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for (j = 0 ; j < 3; j++) { |
| 167 |
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if (i != j) { |
| 168 |
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if (orthoRhombic) { |
| 169 |
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if (Hmat[i][j] >= tol) orthoRhombic = 0; |
| 169 |
> |
if ( fabs(Hmat[i][j]) >= tol) orthoRhombic = 0; |
| 170 |
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} |
| 171 |
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} |
| 172 |
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} |
| 173 |
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} |
| 174 |
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|
| 175 |
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if( oldOrtho != orthoRhombic ){ |
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|
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if( orthoRhombic ){ |
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sprintf( painCave.errMsg, |
| 179 |
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"Hmat is switching from Non-Orthorhombic to OrthoRhombic\n" |
| 180 |
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" If this is a bad thing, change the orthoBoxTolerance( currently %G ).\n", |
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orthoTolerance); |
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simError(); |
| 183 |
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} |
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else { |
| 185 |
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sprintf( painCave.errMsg, |
| 186 |
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"Hmat is switching from Orthorhombic to Non-OrthoRhombic\n" |
| 187 |
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" If this is a bad thing, change the orthoBoxTolerance( currently %G ).\n", |
| 188 |
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orthoTolerance); |
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simError(); |
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} |
| 191 |
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} |
| 192 |
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} |
| 193 |
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double SimInfo::matDet3(double a[3][3]) { |
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<< "[ " << A[6] << ", " << A[7] << ", " << A[8] << " ]\n"; |
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} |
| 297 |
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| 298 |
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void SimInfo::crossProduct3(double a[3],double b[3], double out[3]){ |
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out[0] = a[1] * b[2] - a[2] * b[1]; |
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out[1] = a[2] * b[0] - a[0] * b[2] ; |
| 303 |
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out[2] = a[0] * b[1] - a[1] * b[0]; |
| 304 |
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|
| 305 |
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} |
| 306 |
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|
| 307 |
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double SimInfo::dotProduct3(double a[3], double b[3]){ |
| 308 |
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return a[0]*b[0] + a[1]*b[1]+ a[2]*b[2]; |
| 309 |
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} |
| 310 |
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|
| 311 |
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double SimInfo::length3(double a[3]){ |
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return sqrt(a[0]*a[0] + a[1]*a[1] + a[2]*a[2]); |
| 313 |
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} |
| 314 |
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|
| 315 |
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void SimInfo::calcBoxL( void ){ |
| 316 |
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double dx, dy, dz, dsq; |
| 287 |
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int i; |
| 318 |
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| 319 |
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// boxVol = Determinant of Hmat |
| 320 |
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| 325 |
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dx = Hmat[0][0]; dy = Hmat[1][0]; dz = Hmat[2][0]; |
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dsq = dx*dx + dy*dy + dz*dz; |
| 327 |
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boxL[0] = sqrt( dsq ); |
| 328 |
< |
maxCutoff = 0.5 * boxL[0]; |
| 328 |
> |
//maxCutoff = 0.5 * boxL[0]; |
| 329 |
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| 330 |
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// boxLy |
| 331 |
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| 332 |
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dx = Hmat[0][1]; dy = Hmat[1][1]; dz = Hmat[2][1]; |
| 333 |
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dsq = dx*dx + dy*dy + dz*dz; |
| 334 |
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boxL[1] = sqrt( dsq ); |
| 335 |
< |
if( (0.5 * boxL[1]) < maxCutoff ) maxCutoff = 0.5 * boxL[1]; |
| 335 |
> |
//if( (0.5 * boxL[1]) < maxCutoff ) maxCutoff = 0.5 * boxL[1]; |
| 336 |
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| 337 |
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| 338 |
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// boxLz |
| 339 |
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| 340 |
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dx = Hmat[0][2]; dy = Hmat[1][2]; dz = Hmat[2][2]; |
| 341 |
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dsq = dx*dx + dy*dy + dz*dz; |
| 342 |
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boxL[2] = sqrt( dsq ); |
| 343 |
< |
if( (0.5 * boxL[2]) < maxCutoff ) maxCutoff = 0.5 * boxL[2]; |
| 343 |
> |
//if( (0.5 * boxL[2]) < maxCutoff ) maxCutoff = 0.5 * boxL[2]; |
| 344 |
> |
|
| 345 |
> |
//calculate the max cutoff |
| 346 |
> |
maxCutoff = calcMaxCutOff(); |
| 347 |
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| 348 |
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checkCutOffs(); |
| 349 |
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|
| 350 |
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} |
| 351 |
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| 352 |
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| 353 |
+ |
double SimInfo::calcMaxCutOff(){ |
| 354 |
+ |
|
| 355 |
+ |
double ri[3], rj[3], rk[3]; |
| 356 |
+ |
double rij[3], rjk[3], rki[3]; |
| 357 |
+ |
double minDist; |
| 358 |
+ |
|
| 359 |
+ |
ri[0] = Hmat[0][0]; |
| 360 |
+ |
ri[1] = Hmat[1][0]; |
| 361 |
+ |
ri[2] = Hmat[2][0]; |
| 362 |
+ |
|
| 363 |
+ |
rj[0] = Hmat[0][1]; |
| 364 |
+ |
rj[1] = Hmat[1][1]; |
| 365 |
+ |
rj[2] = Hmat[2][1]; |
| 366 |
+ |
|
| 367 |
+ |
rk[0] = Hmat[0][2]; |
| 368 |
+ |
rk[1] = Hmat[1][2]; |
| 369 |
+ |
rk[2] = Hmat[2][2]; |
| 370 |
+ |
|
| 371 |
+ |
crossProduct3(ri,rj, rij); |
| 372 |
+ |
distXY = dotProduct3(rk,rij) / length3(rij); |
| 373 |
+ |
|
| 374 |
+ |
crossProduct3(rj,rk, rjk); |
| 375 |
+ |
distYZ = dotProduct3(ri,rjk) / length3(rjk); |
| 376 |
+ |
|
| 377 |
+ |
crossProduct3(rk,ri, rki); |
| 378 |
+ |
distZX = dotProduct3(rj,rki) / length3(rki); |
| 379 |
+ |
|
| 380 |
+ |
minDist = min(min(distXY, distYZ), distZX); |
| 381 |
+ |
return minDist/2; |
| 382 |
+ |
|
| 383 |
+ |
} |
| 384 |
+ |
|
| 385 |
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void SimInfo::wrapVector( double thePos[3] ){ |
| 386 |
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|
| 387 |
< |
int i, j, k; |
| 387 |
> |
int i; |
| 388 |
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double scaled[3]; |
| 389 |
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| 390 |
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if( !orthoRhombic ){ |
| 422 |
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| 423 |
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| 424 |
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int SimInfo::getNDF(){ |
| 425 |
< |
int ndf_local, ndf; |
| 425 |
> |
int ndf_local; |
| 426 |
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|
| 427 |
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ndf_local = 3 * n_atoms + 3 * n_oriented - n_constraints; |
| 428 |
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|
| 438 |
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} |
| 439 |
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|
| 440 |
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int SimInfo::getNDFraw() { |
| 441 |
< |
int ndfRaw_local, ndfRaw; |
| 441 |
> |
int ndfRaw_local; |
| 442 |
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|
| 443 |
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// Raw degrees of freedom that we have to set |
| 444 |
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ndfRaw_local = 3 * n_atoms + 3 * n_oriented; |
| 451 |
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|
| 452 |
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return ndfRaw; |
| 453 |
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} |
| 454 |
< |
|
| 454 |
> |
|
| 455 |
> |
int SimInfo::getNDFtranslational() { |
| 456 |
> |
int ndfTrans_local; |
| 457 |
> |
|
| 458 |
> |
ndfTrans_local = 3 * n_atoms - n_constraints; |
| 459 |
> |
|
| 460 |
> |
#ifdef IS_MPI |
| 461 |
> |
MPI_Allreduce(&ndfTrans_local,&ndfTrans,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD); |
| 462 |
> |
#else |
| 463 |
> |
ndfTrans = ndfTrans_local; |
| 464 |
> |
#endif |
| 465 |
> |
|
| 466 |
> |
ndfTrans = ndfTrans - 3 - nZconstraints; |
| 467 |
> |
|
| 468 |
> |
return ndfTrans; |
| 469 |
> |
} |
| 470 |
> |
|
| 471 |
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void SimInfo::refreshSim(){ |
| 472 |
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|
| 473 |
|
simtype fInfo; |
| 523 |
|
|
| 524 |
|
this->ndf = this->getNDF(); |
| 525 |
|
this->ndfRaw = this->getNDFraw(); |
| 526 |
< |
|
| 526 |
> |
this->ndfTrans = this->getNDFtranslational(); |
| 527 |
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} |
| 528 |
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|
| 529 |
+ |
void SimInfo::setDefaultRcut( double theRcut ){ |
| 530 |
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|
| 531 |
< |
void SimInfo::setRcut( double theRcut ){ |
| 531 |
> |
haveRcut = 1; |
| 532 |
> |
rCut = theRcut; |
| 533 |
|
|
| 534 |
< |
if( !haveOrigRcut ){ |
| 451 |
< |
haveOrigRcut = 1; |
| 452 |
< |
origRcut = theRcut; |
| 453 |
< |
} |
| 534 |
> |
( rCut > ecr )? rList = rCut + 1.0: rList = ecr + 1.0; |
| 535 |
|
|
| 536 |
< |
rCut = theRcut; |
| 456 |
< |
checkCutOffs(); |
| 536 |
> |
notifyFortranCutOffs( &rCut, &rList, &ecr, &est ); |
| 537 |
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} |
| 538 |
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|
| 539 |
< |
void SimInfo::setEcr( double theEcr ){ |
| 539 |
> |
void SimInfo::setDefaultEcr( double theEcr ){ |
| 540 |
|
|
| 541 |
< |
if( !haveOrigEcr ){ |
| 542 |
< |
haveOrigEcr = 1; |
| 543 |
< |
origEcr = theEcr; |
| 464 |
< |
} |
| 541 |
> |
haveEcr = 1; |
| 542 |
> |
|
| 543 |
> |
( rCut > ecr )? rList = rCut + 1.0: rList = ecr + 1.0; |
| 544 |
|
|
| 545 |
|
ecr = theEcr; |
| 546 |
< |
checkCutOffs(); |
| 546 |
> |
|
| 547 |
> |
notifyFortranCutOffs( &rCut, &rList, &ecr, &est ); |
| 548 |
|
} |
| 549 |
|
|
| 550 |
< |
void SimInfo::setEcr( double theEcr, double theEst ){ |
| 550 |
> |
void SimInfo::setDefaultEcr( double theEcr, double theEst ){ |
| 551 |
|
|
| 552 |
|
est = theEst; |
| 553 |
< |
setEcr( theEcr ); |
| 553 |
> |
setDefaultEcr( theEcr ); |
| 554 |
|
} |
| 555 |
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|
| 556 |
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|
| 557 |
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void SimInfo::checkCutOffs( void ){ |
| 558 |
< |
|
| 479 |
< |
int cutChanged = 0; |
| 480 |
< |
|
| 481 |
< |
|
| 482 |
< |
|
| 558 |
> |
|
| 559 |
|
if( boxIsInit ){ |
| 560 |
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|
| 561 |
|
//we need to check cutOffs against the box |
| 562 |
< |
|
| 563 |
< |
if(( maxCutoff > rCut )&&(usePBC)){ |
| 564 |
< |
if( rCut < origRcut ){ |
| 565 |
< |
rCut = origRcut; |
| 566 |
< |
if (rCut > maxCutoff) rCut = maxCutoff; |
| 567 |
< |
|
| 568 |
< |
sprintf( painCave.errMsg, |
| 569 |
< |
"New Box size is setting the long range cutoff radius " |
| 494 |
< |
"to %lf\n", |
| 495 |
< |
rCut ); |
| 496 |
< |
painCave.isFatal = 0; |
| 497 |
< |
simError(); |
| 498 |
< |
} |
| 562 |
> |
|
| 563 |
> |
if( rCut > maxCutoff ){ |
| 564 |
> |
sprintf( painCave.errMsg, |
| 565 |
> |
"Box size is too small for the long range cutoff radius, " |
| 566 |
> |
"%lf, at time %lf\n", |
| 567 |
> |
rCut, currentTime ); |
| 568 |
> |
painCave.isFatal = 1; |
| 569 |
> |
simError(); |
| 570 |
|
} |
| 571 |
< |
|
| 572 |
< |
if( maxCutoff > ecr ){ |
| 573 |
< |
if( ecr < origEcr ){ |
| 503 |
< |
rCut = origEcr; |
| 504 |
< |
if (ecr > maxCutoff) ecr = maxCutoff; |
| 505 |
< |
|
| 571 |
> |
|
| 572 |
> |
if( haveEcr ){ |
| 573 |
> |
if( ecr > maxCutoff ){ |
| 574 |
|
sprintf( painCave.errMsg, |
| 575 |
< |
"New Box size is setting the electrostaticCutoffRadius " |
| 576 |
< |
"to %lf\n", |
| 577 |
< |
ecr ); |
| 578 |
< |
painCave.isFatal = 0; |
| 575 |
> |
"Box size is too small for the electrostatic cutoff radius, " |
| 576 |
> |
"%lf, at time %lf\n", |
| 577 |
> |
ecr, currentTime ); |
| 578 |
> |
painCave.isFatal = 1; |
| 579 |
|
simError(); |
| 580 |
|
} |
| 581 |
|
} |
| 582 |
< |
|
| 583 |
< |
|
| 584 |
< |
if ((rCut > maxCutoff)&&(usePBC)) { |
| 585 |
< |
sprintf( painCave.errMsg, |
| 586 |
< |
"New Box size is setting the long range cutoff radius " |
| 587 |
< |
"to %lf\n", |
| 520 |
< |
maxCutoff ); |
| 521 |
< |
painCave.isFatal = 0; |
| 522 |
< |
simError(); |
| 523 |
< |
rCut = maxCutoff; |
| 524 |
< |
} |
| 525 |
< |
|
| 526 |
< |
if( ecr > maxCutoff){ |
| 527 |
< |
sprintf( painCave.errMsg, |
| 528 |
< |
"New Box size is setting the electrostaticCutoffRadius " |
| 529 |
< |
"to %lf\n", |
| 530 |
< |
maxCutoff ); |
| 531 |
< |
painCave.isFatal = 0; |
| 532 |
< |
simError(); |
| 533 |
< |
ecr = maxCutoff; |
| 534 |
< |
} |
| 535 |
< |
|
| 536 |
< |
|
| 582 |
> |
} else { |
| 583 |
> |
// initialize this stuff before using it, OK? |
| 584 |
> |
sprintf( painCave.errMsg, |
| 585 |
> |
"Trying to check cutoffs without a box. Be smarter.\n" ); |
| 586 |
> |
painCave.isFatal = 1; |
| 587 |
> |
simError(); |
| 588 |
|
} |
| 538 |
– |
|
| 539 |
– |
|
| 540 |
– |
if( (oldEcr != ecr) || ( oldRcut != rCut ) ) cutChanged = 1; |
| 541 |
– |
|
| 542 |
– |
// rlist is the 1.0 plus max( rcut, ecr ) |
| 589 |
|
|
| 544 |
– |
( rCut > ecr )? rList = rCut + 1.0: rList = ecr + 1.0; |
| 545 |
– |
|
| 546 |
– |
if( cutChanged ){ |
| 547 |
– |
|
| 548 |
– |
notifyFortranCutOffs( &rCut, &rList, &ecr, &est ); |
| 549 |
– |
} |
| 550 |
– |
|
| 551 |
– |
oldEcr = ecr; |
| 552 |
– |
oldRcut = rCut; |
| 590 |
|
} |
| 591 |
|
|
| 592 |
|
void SimInfo::addProperty(GenericData* prop){ |
