Actual source code: ad_grad.h

  1: /*
  2:   THIS PROGRAM DISCLOSES MATERIAL PROTECTABLE UNDER COPYRIGHT
  3:   LAWS OF THE UNITED STATES.  FOR LICENSING INFORMATION CONTACT:

  5:   Paul Hovland and Boyana Norris, Mathematics and Computer Science Division,
  6:   Argonne National Laboratory, 9700 S. Cass Avenue, Argonne IL 60439, 
  7:   {hovland,norris}@mcs.anl.gov.
  8: */

 10: #include "ad_grad_macro_axpys.h"

 12: #if !defined(AD_GRAD_H)
 13: #define AD_GRAD_H

 15: #include <string.h>


 21: #   if defined(__cplusplus)
 23: #   endif
 24: 
 25: #define ad_AD_GradInitMPI(pargc, pargv) \
 26:     { \
 27:         ad_mpi_init(pargc, pargv, &ad_total_grad_size); \
 28:     }


 31: #define ad_AD_GradFinalMPI() \
 32:     { \
 33:         ad_mpi_final(); \
 34:     }

 36: #define ad_AD_GradFinal() \
 37:     { \
 38:         ad_grad_size = 0; \
 39:     }



 43: #define ad_AD_GradInit(n) \
 44:     { \
 45:         if (n == -1) \
 46:            ad_grad_size = ad_GRAD_MAX; \
 47:         else \
 48:            ad_grad_size = n; \
 49:         ad_grad_size_shadow = 0; \
 50:     }


 53: #define ad_AD_ClearGrad(gz) memset((char*)gz, 0, ad_GRAD_MAX*sizeof(double)); 

 55: #define ad_AD_ClearGrad2(gz)\
 56:     {\
 57:         int iWiLlNeVeRCoNfLiCt0;\
 58:         for (iWiLlNeVeRCoNfLiCt0 = 0 ; iWiLlNeVeRCoNfLiCt0 < ad_GRAD_MAX; \
 59:              iWiLlNeVeRCoNfLiCt0++) {\
 60:             gz[iWiLlNeVeRCoNfLiCt0] = 0.0;\
 61:         }\
 62:     }

 64: #define ad_AD_ClearGradArray(ggz,size)\
 65:     {\
 66:         int iWiLlNeVeRCoNfLiCt0;\
 67:         for (iWiLlNeVeRCoNfLiCt0 = 0 ; iWiLlNeVeRCoNfLiCt0 < size; \
 68:              iWiLlNeVeRCoNfLiCt0++) {\
 69:             ad_AD_ClearGrad(DERIV_grad((ggz)[iWiLlNeVeRCoNfLiCt0])); \
 70:         }\
 71:     }

 73: #define ad_AD_CopyGrad(gz,gx) \
 74:     {\
 75:         int iWiLlNeVeRCoNfLiCt0;\
 76:         for (iWiLlNeVeRCoNfLiCt0 = 0 ; iWiLlNeVeRCoNfLiCt0 < ad_GRAD_MAX;\
 77:              iWiLlNeVeRCoNfLiCt0++) {\
 78:             gz[iWiLlNeVeRCoNfLiCt0] = gx[iWiLlNeVeRCoNfLiCt0];\
 79:         }\
 80:     }

 82: #   define ad_AD_GetTotalGradSize() ad_grad_size
 83: #   define ad_AD_SetTotalGradSize(x) ad_grad_size = x

 85: #   define ad_AD_IncrementTotalGradSize(x) \
 86:     { \
 87:          if (x + ad_grad_size_shadow > ad_GRAD_MAX) {\
 88:                 SETERRQ2(PETSC_ERR_USER, "The number of independent variables exceeds the maximum compiled for!\n Edit your program and change Process adiC(%d) to Process adiC(%d)", x + ad_grad_size_shadow,ad_GRAD_MAX);\
 89:         }\
 90:         ad_grad_size_shadow += x;\
 91:     }

 93: #   define ad_AD_ExtractGrad(a, var) \
 94:     { \
 95:         int pOsItIoN; \
 96:         for (pOsItIoN = 0; pOsItIoN < ad_grad_size; pOsItIoN++) {\
 97:             (a)[pOsItIoN] = DERIV_grad(var)[pOsItIoN];  \
 98:         }\
 99:     }
100: #   define ad_AD_ExtractVal(a, var) \
101:     { \
102:         a = DERIV_val(var); \
103:     }
104: #   define ad_AD_SetGrad(a, var) \
105:     { \
106:         int pOsItIoN; \
107:         for (pOsItIoN = 0; pOsItIoN < ad_grad_size; pOsItIoN++) {\
108:             DERIV_grad(var)[pOsItIoN] = (a)[pOsItIoN];  \
109:         }\
110:     }

112: #   define ad_AD_SetIndepDone() ad_AD_CommitShadowVar()
113: #   define ad_AD_ResetIndep() ad_AD_ResetShadowVar()
114: #   define ad_AD_SetIndep(var) \
115:     { \
116:         int pOsItIoN = ad_AD_IncrShadowVar(); \
117:         if (pOsItIoN > ad_GRAD_MAX) {\
118:           SETERRQ2(PETSC_ERR_USER, "The number of independent variables exceeds the maximum compiled for!\n Edit your program and change Process adiC(%d) to Process adiC(%d)",pOsItIoN ,ad_GRAD_MAX);\
119:         }\
120:         ad_AD_ClearGrad(DERIV_grad(var)); \
121:         DERIV_grad(var)[pOsItIoN] = 1; \
122:     }
123: #   define ad_AD_SetIndepArray(vars, size) \
124:     { \
125:         int iWiLlNeVeRCoNfLiCt; \
126:         for (iWiLlNeVeRCoNfLiCt = 0; iWiLlNeVeRCoNfLiCt < size; \
127:                iWiLlNeVeRCoNfLiCt++) { \
128:             ad_AD_ClearGrad(DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])); \
129:             DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])[ad_AD_IncrShadowVar()] = 1; \
130:         } \
131:     }

133: #   define ad_AD_SetIndepArrayElement(var, index) \
134:     { \
135:        ad_AD_ClearGrad(DERIV_grad((var)[index])); \
136:        DERIV_grad((var)[index])[ad_AD_IncrShadowVar()] = 1; \
137:     }

139: #   define ad_AD_SetIndepArrayColored(vars, size, colors) \
140:     { \
141:         int iWiLlNeVeRCoNfLiCt; \
142:         for (iWiLlNeVeRCoNfLiCt = 0; iWiLlNeVeRCoNfLiCt < size; \
143:                iWiLlNeVeRCoNfLiCt++) { \
144:             ad_AD_ClearGrad2(DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])); \
145:             DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])[ad_grad_size_shadow+(colors)[iWiLlNeVeRCoNfLiCt]] = 1; \
146:         } \
147:     }

149: /* values array is the same length as vars */
150: #   define ad_AD_SetIndepVector(vars, size, values) \
151:     { \
152:         int iWiLlNeVeRCoNfLiCt; \
153:         for (iWiLlNeVeRCoNfLiCt = 0; iWiLlNeVeRCoNfLiCt < size; \
154:                iWiLlNeVeRCoNfLiCt++) { \
155:             ad_AD_ClearGrad(DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])); \
156:             DERIV_grad((vars)[iWiLlNeVeRCoNfLiCt])[ad_grad_size_shadow] = (values)[iWiLlNeVeRCoNfLiCt]; \
157:         } \
158:     }

160: #define ad_AD_SetValArray(vars, size, values) \
161:     { \
162:         int iWiLlNeVeRCoNfLiCt; \
163:         for (iWiLlNeVeRCoNfLiCt = 0; iWiLlNeVeRCoNfLiCt < size; \
164:                iWiLlNeVeRCoNfLiCt++) { \
165:             DERIV_val((vars)[iWiLlNeVeRCoNfLiCt]) = (values)[iWiLlNeVeRCoNfLiCt]; \
166:         } \
167:     }



174: #   if defined(__cplusplus)
175:         }
176: #  endif
177: #endif /*AD_GRAD_H*/