GiD - The personal pre and post processor

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int GiD_fWriteResultBlock( GiD_FILE fd, GP_CONST char *result_name, GP_CONST char *analysis_name, double step_value,
                           GiD_ResultType result_type, GiD_ResultLocation result_location,
                           GP_CONST char *gauss_point_name, GP_CONST char *range_table_name, int num_component_names,
                           GP_CONST char *list_component_names[],
			   int num_result_values, GP_CONST int *list_result_ids,
			   // list_component_values ===
			   //   num_component_values == 1 --> scalar_array
			   //   num_component_values == 2 --> VxVyVz_array
			   //   num_component_values == 6 --> SxxSyySxySzzSxzSyz_array
			   //   ...
                           int num_component_values, GP_CONST double *list_component_values );

Description:

Write the results values array. This functions include GiD_fBeginResult() and GiD_fEndResult().

If list_result_ids is omited, i.e. == NULL , then result value's id’s are assumed to be 1..num_result_values .

Parameters:

list_ids is the array of node id's and expected to be num_points in size.

xyz_array is the array consecutive x, y and z coordinates of the num_points nodes, and it is expected to have num_points * 3 doubles.

Example:
C/C++ as in testpost_fd.c :

int ids[ NUM_NODES ];
double xyz[ NUM_NODES * 3 ];
for ( int i = 0; i < NUM_NODES; i++ ) {
  ids[ i ] = G_nodes[ i ].id;
  xyz[ i * 3 + 0 ] = G_nodes[ i ].x;
  xyz[ i * 3 + 1 ] = G_nodes[ i ].y;
  xyz[ i * 3 + 2 ] = G_nodes[ i ].z;
}
GiD_fWriteCoordinatesIdBlock( fdm, NUM_NODES, ids, xyz );
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