Droplet Lagrangian Transient One-dimensional Reacting Code Implementation of both liquid and gas phase governing equations.
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  1. #include "gridRoutines.h"
  2. #include <stdio.h>
  3. inline double l(const double* x,
  4. const double* a,
  5. const double* w,
  6. const double* fac,
  7. const int* refineLeft){
  8. if(*refineLeft==0){
  9. return(tanh(-*a*(*x+*w*100.0e0)));
  10. }else{
  11. return(tanh(-*a*(*x-*w*(*fac))));
  12. }
  13. }
  14. inline double r(const double* x,
  15. const double* a,
  16. const double* w,
  17. const double* fac,
  18. const int* refineRight){
  19. if(*refineRight==0){
  20. return(tanh(*a*(*x-(1.0e0+*w*100.0e0))));
  21. }else{
  22. return(tanh(*a*(*x-(1.0e0-*w*(*fac)))));
  23. }
  24. }
  25. inline double f(const double* x,
  26. const double* a,
  27. const double* c,
  28. const double* w){
  29. return(tanh(-*a*(*x-(*c+*w)))
  30. +tanh(-*a*((*x-1.0e0)-(*c+*w)))
  31. +tanh(-*a*((*x+1.0e0)-(*c+*w))));
  32. }
  33. inline double g(const double* x,
  34. const double* a,
  35. const double* c,
  36. const double* w){
  37. return(tanh(*a*(*x-(*c-*w)))
  38. +tanh(*a*((*x-1.0e0)-(*c-*w)))
  39. +tanh(*a*((*x+1.0e0)-(*c-*w))));
  40. }
  41. inline double rho(const double* x,
  42. const double* a,
  43. const double* c,
  44. const double* w,
  45. const double* mag,
  46. const double* leftFac,
  47. const double* rightFac,
  48. const int* refineLeft,
  49. const int* refineRight){
  50. return(((2.0e0+f(x,a,c,w)
  51. +g(x,a,c,w)
  52. +l(x,a,w,leftFac,refineLeft)
  53. +r(x,a,w,rightFac,refineRight))*0.5e0)
  54. *(*mag-1.0e0)+1.0e0);
  55. }
  56. size_t maxPoints(const size_t basePts,
  57. const double* a,
  58. const double* w,
  59. const double* mag,
  60. const double* leftFac,
  61. const double* rightFac,
  62. const int* refineLeft,
  63. const int* refineRight){
  64. double dx=1.0e0/((double)(basePts)-1.0e0);
  65. double y=0.0e0;
  66. size_t i=0;
  67. double r=0.0e0;
  68. double t=0.5e0;
  69. while(y<=1.0e0){
  70. r=rho(&y,a,&t,w,mag,leftFac,rightFac,refineLeft,refineRight);
  71. y=y+(dx/r);
  72. i++;
  73. }
  74. return(i);
  75. }
  76. void fillGrid(const size_t* basePts,
  77. const size_t* nPts,
  78. const double* a,
  79. const double* c,
  80. const double* w,
  81. const double* mag,
  82. const double* leftFac,
  83. const double* rightFac,
  84. const int* refineLeft,
  85. const int* refineRight,
  86. double x[]){
  87. FILE* out;out=fopen("tmp.dat","w");
  88. double y=0.0e0;
  89. double r=0.0e0;
  90. double dx=1.0e0/((double)(*basePts)-1.0e0);
  91. for(size_t j=0;j<*nPts;j++){
  92. r=rho(&y,a,c,w,mag,leftFac,rightFac,refineLeft,refineRight);
  93. fprintf(out, "%15.15e\n",dx/r);
  94. y=y+(dx/r);
  95. }
  96. fclose(out);
  97. double dxp[*nPts-1];
  98. for (size_t j = 0; j < *nPts; j++) {
  99. dxp[j]=0.0e0;
  100. }
  101. FILE* tmp;tmp=fopen("tmp.dat","r");
  102. char buf[MAXBUFLEN];
  103. size_t i=0;
  104. while (fgets(buf,MAXBUFLEN, tmp)!=NULL){
  105. sscanf(buf, "%lf", &y);
  106. dxp[i]=y;
  107. i++;
  108. }
  109. fclose(tmp);
  110. double sum=0.0e0;
  111. double err=0.0e0;
  112. double fix=0.0e0;
  113. for(size_t j=0;j<*nPts-1;j++){
  114. sum+=dxp[j];
  115. }
  116. err=1.0e0-sum;
  117. printf("sum before correction: %15.6e\n",sum);
  118. printf("err before correction: %15.6e\n",err);
  119. fix=err/((double)(*nPts));
  120. sum=0.0e0;
  121. for(size_t j=0;j<*nPts-1;j++){
  122. dxp[j]+=fix;
  123. sum+=dxp[j];
  124. }
  125. err=1.0e0-sum;
  126. printf("sum after correction:%15.6e\n",sum);
  127. printf("err after correction: %15.6e\n",err);
  128. x[0]=0.0e0;
  129. for(size_t j=0;j<*nPts-1;j++){
  130. x[j+1]=x[j]+dxp[j];
  131. }
  132. x[*nPts-1]=1.0e0;
  133. }
  134. double safePosition(double c, double w){
  135. if(c<w){
  136. return(w);
  137. }
  138. else if(c>1.0e0-w){
  139. return(1.0e0-w);
  140. }
  141. else{
  142. return(c);
  143. }
  144. }
  145. int reGrid(UserGrid grid, double position){
  146. printf("before regrid: %ld\n", grid->nPts);
  147. double xx[grid->nPts];
  148. fillGrid(&grid->basePts,
  149. &grid->nPts,
  150. &grid->a,
  151. &position,
  152. &grid->w,
  153. &grid->mag,
  154. &grid->leftFac,
  155. &grid->rightFac,
  156. &grid->refineLeft,
  157. &grid->refineRight,
  158. xx);
  159. for (size_t i = 0; i < grid->nPts; i++) {
  160. grid->x[i]=xx[i];
  161. }
  162. return(0);
  163. }
  164. void storeGrid(const double* x, double *y, const size_t nPts){
  165. for(size_t i=0;i<nPts;i++){
  166. y[i]=x[i];
  167. }
  168. }
  169. int initializeGrid(UserGrid grid){
  170. grid->nPts=maxPoints(grid->basePts,
  171. &grid->a,
  172. &grid->w,
  173. &grid->mag,
  174. &grid->leftFac,
  175. &grid->rightFac,
  176. &grid->refineLeft,
  177. &grid->refineRight);
  178. printf("nPts: %ld\n",grid->nPts);
  179. grid->leastMove=grid->w;
  180. grid->x = new double [grid->nPts];
  181. grid->xOld = new double [grid->nPts];
  182. for (size_t i = 0; i < grid->nPts; i++) {
  183. grid->x[i]=0.0e0;
  184. grid->xOld[i]=0.0e0;
  185. }
  186. return(0);
  187. }
  188. int getGridSettings(FILE *input, UserGrid grid){
  189. int ier=0;
  190. ier=parseNumber<size_t>(input, "basePts" , MAXBUFLEN, &grid->basePts);
  191. if(ier==-1)return(-1);
  192. ier=parseNumber<double>(input, "gridDensitySlope", MAXBUFLEN, &grid->a);
  193. if(ier==-1)return(-1);
  194. ier=parseNumber<double>(input, "fineGridHalfWidth", MAXBUFLEN, &grid->w);
  195. if(ier==-1)return(-1);
  196. ier=parseNumber<double>(input, "gridRefinement", MAXBUFLEN, &grid->mag);
  197. if(ier==-1)return(-1);
  198. ier=parseNumber<double>(input, "leftRefineFactor", MAXBUFLEN, &grid->leftFac);
  199. if(ier==-1)return(-1);
  200. ier=parseNumber<double>(input, "rightRefineFactor", MAXBUFLEN, &grid->rightFac);
  201. if(ier==-1)return(-1);
  202. ier=parseNumber<int>(input, "refineLeft" , MAXBUFLEN, &grid->refineLeft);
  203. if(ier==-1)return(-1);
  204. ier=parseNumber<int>(input, "refineRight" , MAXBUFLEN, &grid->refineRight);
  205. if(ier==-1)return(-1);
  206. ier=parseNumber<double>(input, "position" , MAXBUFLEN, &grid->position);
  207. if(ier==-1)return(-1);
  208. return(0);
  209. }