gearman_argument_make(3) [debian man page]

GEARMAN_ARGUMENT_MAKE(3)					     Gearmand						  GEARMAN_ARGUMENT_MAKE(3)

NAME

       gearman_argument_make - Gearmand Documentation, http://gearman.info/

SYNOPSIS

       #include <libgearman/gearman.h>

       gearman_argument_t

       gearman_argument_t gearman_argument_make(const char *name, const size_t name_length, const char *value, const size_t value_size)

       Compile and link with -lgearman

DESCRIPTION

       The gearman_argument_make() function initializes gearman_argument_t.

       gearman_argument_t is an abstraction used passing arguments too gearman_execute(). The arguments are not copied, so any object that is used
       to initialize gearman_argument_t must continue to exist throughout the lifetime/usage of the structure.

SEE ALSO

       gearmand(8) libgearman(3) gearman_client_error() or gearman_worker_error()

AUTHOR

       Data Differential http://www.datadifferential.com/

COPYRIGHT

       2012, Data Differential, http://www.datadifferential.com/

0.33								   May 04, 2012 					  GEARMAN_ARGUMENT_MAKE(3)

GEARMAN_EXECUTE(3)						     Gearmand							GEARMAN_EXECUTE(3)

NAME

       gearman_execute - Gearmand Documentation, http://gearman.info/

SYNOPSIS

       #include <libgearman/gearman.h>

       gearman_task_st	*gearman_execute(gearman_client_st *client,  const  char *function_name,  size_t function_name_length, const char *unique,
       size_t unique_length, gearman_work_t *workload, gearman_argument_t *arguments, void *context)

       gearman_task_st	*gearman_execute_by_partition(gearman_client_st *client,  const  char *partition_function,  const   size_t partition_func-
       tion_length,  const  char *function_name,  const  size_t function_name_length,  const  char *unique_str,  const size_t unique_length, gear-
       man_work_t *workload, gearman_argument_t *arguments, void *context)

       Link with -lgearman

DESCRIPTION

       gearman_execute() is used to create a new gearman_task_st that is executed against the function that is found via the  function_name  argu-
       ment.

       gearman_work_t  can  be used to describe the work that will be executed, it is built with gearman_argument_make().  The argument unique_str
       is optional, but if supplied it is used for coalescence by gearmand.

       gearman_argument_t is the work that the client will send the to the server

       If gearman_execute() is given a gearman_work_t that has been built with a reducer, it takes the gearman_argument_t and executs it against a
       function as it normally would, but it tells the function to then process the results through a reducer function that the gearman_work_t was
       created with.

       What is happening is that the function is mappping/splitting work up into units, and then sending each of them  to  the	reducer  function.
       Once  all  work	is  completed, the mapper function will aggregate the work via an aggregator function, gearman_aggregator_fn, and return a
       result.

       If any of the units of work error, the job will be aborted. The resulting value will be stored in the gearman_task_st.

       The result can be obtained from the task by calling gearman_task_result() to gain the gearman_result_st.

RETURN VALUE

       gearman_execute() returns a c:type:gearman_task_st.

EXAMPLE

       /*
	 Example code to show how to send a string to a function called "reverse" and print the results.
       */

       #include <string.h>
       #include <stdlib.h>
       #include <stdio.h>
       #include <libgearman/gearman.h>

       int main(void)
       {
	 gearman_client_st *client= gearman_client_create(NULL);

	 gearman_return_t ret= gearman_client_add_server(client, "localhost", 0);
	 if (gearman_failed(ret))
	 {
	   return EXIT_FAILURE;
	 }

	 gearman_argument_t value= gearman_argument_make(0, 0, "Reverse Me", strlen("Reverse Me"));

	 gearman_task_st *task= gearman_execute(client,
						"reverse", strlen("reverse"),  // function
						NULL, 0,  // no unique value provided
						NULL,
						&value, 0);

	 if (task == NULL) // If gearman_execute() can return NULL on error
	 {
	   fprintf(stderr, "Error: %s
", gearman_client_error(client));
	   gearman_client_free(client);
	   return EXIT_FAILURE;
	 }

	 // Make sure the task was run successfully
	 if (gearman_success(gearman_task_return(task)))
	 {
	   // Make use of value
	   gearman_result_st *result= gearman_task_result(task);
	   printf("%.*s
", (int)gearman_result_size(result), gearman_result_value(result));
	 }

	 gearman_client_free(client);

	 return EXIT_SUCCESS;
       }

HOME

       To find out more information please check: http://gearman.info/

SEE ALSO

       gearmand(8) libgearman(3)

AUTHOR

       Data Differential http://www.datadifferential.com/

COPYRIGHT

       2012, Data Differential, http://www.datadifferential.com/

0.33								   May 04, 2012 						GEARMAN_EXECUTE(3)