modules/xml/om/om_processing_instruction.c - axis-axis2-c-core - Git at Google

 /*
  * Copyright 2004,2005 The Apache Software Foundation.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <axis2_om_processing_instruction.h>
 #include <axis2_string.h>

 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_free (axis2_om_processing_instruction_t *om_pi,
                                       axis2_env_t **env);

 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_set_value(axis2_om_processing_instruction_t *om_pi,
                                           axis2_env_t **env,
                                           const axis2_char_t *value);
 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_set_target(axis2_om_processing_instruction_t *om_pi,
                                            axis2_env_t **env,
                                            const axis2_char_t *target);

 axis2_char_t* AXIS2_CALL
 axis2_om_processing_instruction_get_value(axis2_om_processing_instruction_t *om_pi,
                                           axis2_env_t **env);
 axis2_char_t*  AXIS2_CALL
 axis2_om_processing_instruction_get_target(axis2_om_processing_instruction_t *om_pi,
                                            axis2_env_t **env);

 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_serialize
                                 (axis2_om_processing_instruction_t *om_pi,
                                  axis2_env_t **env,
                                  axis2_om_output_t *om_output);

 /*********************** axis2_om_processing_instruction_impl_t struct ********/
 typedef struct axis2_om_processing_instruction_impl
 {

     axis2_om_processing_instruction_t om_pi;
     /** processing instruction  target */
     axis2_char_t *target;
     /** processing instruction  value */
     axis2_char_t *value;
 }axis2_om_processing_instruction_impl_t;

 /******************************************************************************/

 #define AXIS2_INTF_TO_IMPL(om_processing_ins) ((axis2_om_processing_instruction_impl_t*)om_processing_ins)


 /******************************************************************************/
 axis2_om_processing_instruction_t *AXIS2_CALL
 axis2_om_processing_instruction_create (axis2_env_t **env,
                                         axis2_om_node_t * parent,
                                         const axis2_char_t * target,
                                         const axis2_char_t * value,
                                         axis2_om_node_t ** node)
 {
     axis2_om_processing_instruction_impl_t *processing_instruction = NULL;
     AXIS2_ENV_CHECK(env,NULL);

     if (!node || !target || !value)
     {
         AXIS2_ERROR_SET((*env)->error,AXIS2_ERROR_INVALID_NULL_PARAM, AXIS2_FAILURE);
         return NULL;
     }

     *node = axis2_om_node_create (env);

     if (!*node)
     {
         AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
         return NULL;
     }

     processing_instruction = (axis2_om_processing_instruction_impl_t *) AXIS2_MALLOC (
                               (*env)->allocator,sizeof(axis2_om_processing_instruction_impl_t));

     if (!processing_instruction)
     {
         AXIS2_FREE ((*env)->allocator,(*node));
         AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
         return NULL;
     }
     processing_instruction->value = NULL;

     if (value)
     {
         processing_instruction->value = (axis2_char_t*)AXIS2_STRDUP(value,env);
         if (!processing_instruction->value)
         {
             AXIS2_FREE ((*env)->allocator, processing_instruction);
             AXIS2_FREE ((*env)->allocator , *node);
             AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
             return NULL;
         }
     }

     processing_instruction->target = NULL;

     if (target)
     {
         processing_instruction->target = (axis2_char_t*) AXIS2_STRDUP(target,env);
         if (!processing_instruction->target)
         {
             AXIS2_FREE ((*env)->allocator, processing_instruction->value);
             AXIS2_FREE ((*env)->allocator, processing_instruction);
             AXIS2_FREE ((*env)->allocator, *node);
             AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
             return NULL;
         }
     }
     AXIS2_OM_NODE_SET_DATA_ELEMENT(*node, env, processing_instruction);
     AXIS2_OM_NODE_SET_NODE_TYPE(*node, env, AXIS2_OM_PROCESSING_INSTRUCTION);
     if (parent)
     {
         AXIS2_OM_NODE_SET_PARENT((*node), env, parent);
         AXIS2_OM_NODE_ADD_CHILD(parent, env, (*node));
     }

     /* ops */
     processing_instruction->om_pi.ops = NULL;
     processing_instruction->om_pi.ops =
         (axis2_om_processing_instruction_ops_t *) AXIS2_MALLOC (
         (*env)->allocator, sizeof(axis2_om_processing_instruction_ops_t));

     if (!processing_instruction->om_pi.ops)
     {
         AXIS2_FREE ((*env)->allocator,  processing_instruction->value);
         AXIS2_FREE ((*env)->allocator,  processing_instruction->target);
         AXIS2_FREE ((*env)->allocator,  processing_instruction);
         AXIS2_FREE ((*env)->allocator,  *node);
         AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
         return NULL;
     }

     processing_instruction->om_pi.ops->free =
             axis2_om_processing_instruction_free;
     processing_instruction->om_pi.ops->set_target =
             axis2_om_processing_instruction_set_target;
     processing_instruction->om_pi.ops->get_target =
             axis2_om_processing_instruction_get_target;
     processing_instruction->om_pi.ops->get_value =
             axis2_om_processing_instruction_get_value;
     processing_instruction->om_pi.ops->set_value =
             axis2_om_processing_instruction_set_value;
     processing_instruction->om_pi.ops->serialize =
             axis2_om_processing_instruction_serialize;

     return &(processing_instruction->om_pi);
 }

 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_free (axis2_om_processing_instruction_t *om_pi,
                                       axis2_env_t **env)
 {
         axis2_om_processing_instruction_impl_t *pi_impl = NULL;
         AXIS2_ENV_CHECK(env, AXIS2_FAILURE);

         pi_impl = AXIS2_INTF_TO_IMPL(om_pi);

         if (pi_impl->value)
         {
             AXIS2_FREE ((*env)->allocator,pi_impl->value);
             pi_impl->value = NULL;
         }

         if (pi_impl->target)
         {
             AXIS2_FREE ((*env)->allocator, pi_impl->target);
             pi_impl->target = NULL;
         }

         AXIS2_FREE((*env)->allocator, om_pi->ops);
         AXIS2_FREE ((*env)->allocator, pi_impl);
         return AXIS2_SUCCESS;
 }

 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_set_value(axis2_om_processing_instruction_t *om_pi,
                                           axis2_env_t **env,
                                           const axis2_char_t *value)
 {
     AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
     AXIS2_PARAM_CHECK((*env)->error, value, AXIS2_FAILURE);
     AXIS2_INTF_TO_IMPL(om_pi)->value = (axis2_char_t*)AXIS2_STRDUP(value,env);
     return AXIS2_SUCCESS;
 }


 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_set_target(axis2_om_processing_instruction_t *om_pi,
                                            axis2_env_t **env,
                                            const axis2_char_t *target)
 {
     AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
     AXIS2_PARAM_CHECK((*env)->error, target, AXIS2_FAILURE);
     AXIS2_INTF_TO_IMPL(om_pi)->target = (axis2_char_t*)AXIS2_STRDUP(target,env);
     return AXIS2_SUCCESS;

 }

 axis2_char_t* AXIS2_CALL
 axis2_om_processing_instruction_get_value(axis2_om_processing_instruction_t *om_pi,
                                           axis2_env_t **env)
 {
     AXIS2_ENV_CHECK(env, NULL);
     return AXIS2_INTF_TO_IMPL(om_pi)->value;
 }
 axis2_char_t*  AXIS2_CALL
 axis2_om_processing_instruction_get_target(axis2_om_processing_instruction_t *om_pi,
                                            axis2_env_t **env)
 {
     AXIS2_ENV_CHECK(env, NULL);
     return AXIS2_INTF_TO_IMPL(om_pi)->target;
 }


 axis2_status_t AXIS2_CALL
 axis2_om_processing_instruction_serialize
                                 (axis2_om_processing_instruction_t *om_pi,
                                  axis2_env_t **env,
                                  axis2_om_output_t *om_output)
 {
     axis2_om_processing_instruction_impl_t *om_pi_impl;
     AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
     AXIS2_PARAM_CHECK((*env)->error, om_output, AXIS2_FAILURE);

     om_pi_impl = AXIS2_INTF_TO_IMPL(om_pi);

     if(om_pi_impl->target && om_pi_impl->value)
         return axis2_om_output_write(om_output, env,
                                      AXIS2_OM_PROCESSING_INSTRUCTION,
                                      2, om_pi_impl->target, om_pi_impl->value);

     else if(om_pi_impl->target)
         return axis2_om_output_write(om_output, env,
                                      AXIS2_OM_PROCESSING_INSTRUCTION,
                                      2, om_pi_impl->target, om_pi_impl->value);
     return AXIS2_FAILURE;
 }
	/*
	* Copyright 2004,2005 The Apache Software Foundation.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <axis2_om_processing_instruction.h>
	#include <axis2_string.h>

	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_free (axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env);

	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_set_value(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	const axis2_char_t *value);
	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_set_target(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	const axis2_char_t *target);

	axis2_char_t* AXIS2_CALL
	axis2_om_processing_instruction_get_value(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env);
	axis2_char_t* AXIS2_CALL
	axis2_om_processing_instruction_get_target(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env);

	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_serialize
	(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	axis2_om_output_t *om_output);

	/********************* axis2_om_processing_instruction_impl_t struct ******/
	typedef struct axis2_om_processing_instruction_impl
	{

	axis2_om_processing_instruction_t om_pi;
	/** processing instruction target */
	axis2_char_t *target;
	/** processing instruction value */
	axis2_char_t *value;
	}axis2_om_processing_instruction_impl_t;

	/******************************************************************************/

	#define AXIS2_INTF_TO_IMPL(om_processing_ins) ((axis2_om_processing_instruction_impl_t*)om_processing_ins)


	/******************************************************************************/
	axis2_om_processing_instruction_t *AXIS2_CALL
	axis2_om_processing_instruction_create (axis2_env_t **env,
	axis2_om_node_t * parent,
	const axis2_char_t * target,
	const axis2_char_t * value,
	axis2_om_node_t ** node)
	{
	axis2_om_processing_instruction_impl_t *processing_instruction = NULL;
	AXIS2_ENV_CHECK(env,NULL);

	if (!node \|\| !target \|\| !value)
	{
	AXIS2_ERROR_SET((*env)->error,AXIS2_ERROR_INVALID_NULL_PARAM, AXIS2_FAILURE);
	return NULL;
	}

	*node = axis2_om_node_create (env);

	if (!*node)
	{
	AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
	return NULL;
	}

	processing_instruction = (axis2_om_processing_instruction_impl_t *) AXIS2_MALLOC (
	(*env)->allocator,sizeof(axis2_om_processing_instruction_impl_t));

	if (!processing_instruction)
	{
	AXIS2_FREE ((env)->allocator,(node));
	AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
	return NULL;
	}
	processing_instruction->value = NULL;

	if (value)
	{
	processing_instruction->value = (axis2_char_t*)AXIS2_STRDUP(value,env);
	if (!processing_instruction->value)
	{
	AXIS2_FREE ((*env)->allocator, processing_instruction);
	AXIS2_FREE ((env)->allocator , node);
	AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
	return NULL;
	}
	}

	processing_instruction->target = NULL;

	if (target)
	{
	processing_instruction->target = (axis2_char_t*) AXIS2_STRDUP(target,env);
	if (!processing_instruction->target)
	{
	AXIS2_FREE ((*env)->allocator, processing_instruction->value);
	AXIS2_FREE ((*env)->allocator, processing_instruction);
	AXIS2_FREE ((env)->allocator, node);
	AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
	return NULL;
	}
	}
	AXIS2_OM_NODE_SET_DATA_ELEMENT(*node, env, processing_instruction);
	AXIS2_OM_NODE_SET_NODE_TYPE(*node, env, AXIS2_OM_PROCESSING_INSTRUCTION);
	if (parent)
	{
	AXIS2_OM_NODE_SET_PARENT((*node), env, parent);
	AXIS2_OM_NODE_ADD_CHILD(parent, env, (*node));
	}

	/* ops */
	processing_instruction->om_pi.ops = NULL;
	processing_instruction->om_pi.ops =
	(axis2_om_processing_instruction_ops_t *) AXIS2_MALLOC (
	(*env)->allocator, sizeof(axis2_om_processing_instruction_ops_t));

	if (!processing_instruction->om_pi.ops)
	{
	AXIS2_FREE ((*env)->allocator, processing_instruction->value);
	AXIS2_FREE ((*env)->allocator, processing_instruction->target);
	AXIS2_FREE ((*env)->allocator, processing_instruction);
	AXIS2_FREE ((env)->allocator, node);
	AXIS2_ERROR_SET((*env)->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
	return NULL;
	}

	processing_instruction->om_pi.ops->free =
	axis2_om_processing_instruction_free;
	processing_instruction->om_pi.ops->set_target =
	axis2_om_processing_instruction_set_target;
	processing_instruction->om_pi.ops->get_target =
	axis2_om_processing_instruction_get_target;
	processing_instruction->om_pi.ops->get_value =
	axis2_om_processing_instruction_get_value;
	processing_instruction->om_pi.ops->set_value =
	axis2_om_processing_instruction_set_value;
	processing_instruction->om_pi.ops->serialize =
	axis2_om_processing_instruction_serialize;

	return &(processing_instruction->om_pi);
	}

	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_free (axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env)
	{
	axis2_om_processing_instruction_impl_t *pi_impl = NULL;
	AXIS2_ENV_CHECK(env, AXIS2_FAILURE);

	pi_impl = AXIS2_INTF_TO_IMPL(om_pi);

	if (pi_impl->value)
	{
	AXIS2_FREE ((*env)->allocator,pi_impl->value);
	pi_impl->value = NULL;
	}

	if (pi_impl->target)
	{
	AXIS2_FREE ((*env)->allocator, pi_impl->target);
	pi_impl->target = NULL;
	}

	AXIS2_FREE((*env)->allocator, om_pi->ops);
	AXIS2_FREE ((*env)->allocator, pi_impl);
	return AXIS2_SUCCESS;
	}

	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_set_value(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	const axis2_char_t *value)
	{
	AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
	AXIS2_PARAM_CHECK((*env)->error, value, AXIS2_FAILURE);
	AXIS2_INTF_TO_IMPL(om_pi)->value = (axis2_char_t*)AXIS2_STRDUP(value,env);
	return AXIS2_SUCCESS;
	}


	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_set_target(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	const axis2_char_t *target)
	{
	AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
	AXIS2_PARAM_CHECK((*env)->error, target, AXIS2_FAILURE);
	AXIS2_INTF_TO_IMPL(om_pi)->target = (axis2_char_t*)AXIS2_STRDUP(target,env);
	return AXIS2_SUCCESS;

	}

	axis2_char_t* AXIS2_CALL
	axis2_om_processing_instruction_get_value(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env)
	{
	AXIS2_ENV_CHECK(env, NULL);
	return AXIS2_INTF_TO_IMPL(om_pi)->value;
	}
	axis2_char_t* AXIS2_CALL
	axis2_om_processing_instruction_get_target(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env)
	{
	AXIS2_ENV_CHECK(env, NULL);
	return AXIS2_INTF_TO_IMPL(om_pi)->target;
	}


	axis2_status_t AXIS2_CALL
	axis2_om_processing_instruction_serialize
	(axis2_om_processing_instruction_t *om_pi,
	axis2_env_t **env,
	axis2_om_output_t *om_output)
	{
	axis2_om_processing_instruction_impl_t *om_pi_impl;
	AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
	AXIS2_PARAM_CHECK((*env)->error, om_output, AXIS2_FAILURE);

	om_pi_impl = AXIS2_INTF_TO_IMPL(om_pi);

	if(om_pi_impl->target && om_pi_impl->value)
	return axis2_om_output_write(om_output, env,
	AXIS2_OM_PROCESSING_INSTRUCTION,
	2, om_pi_impl->target, om_pi_impl->value);

	else if(om_pi_impl->target)
	return axis2_om_output_write(om_output, env,
	AXIS2_OM_PROCESSING_INSTRUCTION,
	2, om_pi_impl->target, om_pi_impl->value);
	return AXIS2_FAILURE;
	}