Droplet Lagrangian Transient One-dimensional Reacting Code Implementation of both liquid and gas phase governing equations.
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  1. #ifndef MACRO_DEF
  2. #define MACRO_DEF
  3. //#define SUNDIALS_DOUBLE_PRECISION 1
  4. //#define SUNDIALS_SINGLE_PRECISION 1
  5. #define ZERO RCONST(0.0)
  6. #define HALF RCONST(0.5)
  7. #define ONE RCONST(1.0)
  8. #define TWO RCONST(2.0)
  9. #define THREE RCONST(3.0)
  10. #define FOUR RCONST(4.0)
  11. #define TEN RCONST(10.0)
  12. #define ONE_ATM RCONST(101325.0)
  13. /* In order to keep begin the index numbers from 1 instead of 0, we define
  14. * macros here. Also, we define macros to ease referencing various variables in
  15. * the sundials nvector.
  16. */
  17. #define WORK(i) WORK[i-1]
  18. #define XNEW(i) XNEW[i-1]
  19. #define psi(i) psidata[i-1]
  20. #define T(i) ydata[((i-1)*data->nvar)+data->nt]
  21. #define Y(i,k) ydata[((i-1)*data->nvar)+data->ny+k-1]
  22. #define R(i) ydata[((i-1)*data->nvar)+data->nr]
  23. #define P(i) ydata[((i-1)*data->nvar)+data->np]
  24. #define Mdot(i) ydata[((i-1)*data->nvar)+data->nm]
  25. #define Tdot(i) ydotdata[((i-1)*data->nvar)+data->nt]
  26. #define Ydot(i,k) ydotdata[((i-1)*data->nvar)+data->ny+k-1]
  27. #define Rdot(i) ydotdata[((i-1)*data->nvar)+data->nr]
  28. #define Pdot(i) ydotdata[((i-1)*data->nvar)+data->np]
  29. #define Mdotdot(i) ydotdata[((i-1)*data->nvar)+data->nm]
  30. #define Tres(i) resdata[((i-1)*data->nvar)+data->nt]
  31. #define Yres(i,k) resdata[((i-1)*data->nvar)+data->ny+k-1]
  32. #define Rres(i) resdata[((i-1)*data->nvar)+data->nr]
  33. #define Pres(i) resdata[((i-1)*data->nvar)+data->np]
  34. #define Mdotres(i) resdata[((i-1)*data->nvar)+data->nm]
  35. #define Tid(i) iddata[((i-1)*data->nvar)+data->nt]
  36. #define Yid(i,k) iddata[((i-1)*data->nvar)+data->ny+k-1]
  37. #define Rid(i) iddata[((i-1)*data->nvar)+data->nr]
  38. #define Pid(i) iddata[((i-1)*data->nvar)+data->np]
  39. #define Mdotid(i) iddata[((i-1)*data->nvar)+data->nm]
  40. #define Yav(i) Yav[i-1]
  41. #define YAvg(i) YAvg[i-1]
  42. #define YVmhalf(i) YVmhalf[i-1]
  43. #define YVphalf(i) YVphalf[i-1]
  44. #define X(i) X[i-1]
  45. #define Xp(i) Xp[i-1]
  46. #define Xgradhalf(i) Xgradhalf[i-1]
  47. #define XLeft(i) XLeft[i-1]
  48. #define XRight(i) XRight[i-1]
  49. #define gradX(i) gradX[i-1]
  50. #define wdot(i) wdot[i-1]
  51. #define enthalpy(i) enthalpy[i-1]
  52. #define energy(i) energy[i-1]
  53. #define Cp(i) Cp[i-1]
  54. #define atolT(i) atolvdata[((i-1)*data->nvar)+data->nt]
  55. #define atolY(i,k) atolvdata[((i-1)*data->nvar)+data->ny+k-1]
  56. #define atolR(i) atolvdata[((i-1)*data->nvar)+data->nr]
  57. #define atolP(i) atolvdata[((i-1)*data->nvar)+data->np]
  58. #define atolMdot(i) atolvdata[((i-1)*data->nvar)+data->nm]
  59. #define constraintsY(i,k) constraintsdata[((i-1)*data->nvar)+data->ny+k-1]
  60. #define constraintsR(i) constraintsdata[((i-1)*data->nvar)+data->nr]
  61. /*Following marcos are defined to calculate the characteristic time-scale */
  62. #define wdot_mole(i) wdot_mole[i-1]
  63. #define wdot_mass(i) wdot_mass[i-1]
  64. #define MW(i) MW[i-1]
  65. #define time_scale(i,k) time_scale[(i-1)*data->nsp+k-1]
  66. #define concentra(i) concentra[i-1]
  67. #endif