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// -*- C++ -*-
//=============================================================================
/**
* @file Arg_Shifter.h
*
* $Id$
*
* @author Seth Widoff
*/
//=============================================================================
#ifndef ACE_ARG_SHIFTER_H
#define ACE_ARG_SHIFTER_H
#include /**/ "ace/pre.h"
#include /**/ "ace/ACE_export.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Global_Macros.h"
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
/**
* @class ACE_Arg_Shifter_T
*
* @brief This ADT operates on a specified set of arguments (@a argv).
* As known arguments are scanned, they are shifted to the back of the
* @a argv vector, so deeper levels of argument parsing can locate the yet
* unprocessed arguments at the beginning of the vector.
*
* The @c ACE_Arg_Shifter copies the pointers of the @a argv vector
* into a temporary array. As the @c ACE_Arg_Shifter iterates over
* the copied vector, it places known arguments in the rear of the
* vector, leaving the unknown ones in the beginning. So, after having
* visited all the arguments in the temporary vector, @c ACE_Arg_Shifter
* has placed all the unknown arguments in their original order at
* the front of original @a argv.
*/
template <typename CHAR_TYPE>
class ACE_Arg_Shifter_T
{
public:
// = Initialization and termination methods.
/**
* Initialize the ACE_Arg_Shifter to the vector over which to
* iterate. Optionally, also provide the temporary array for
* use in shifting the arguments. If ACE_Arg_Shifter must allocate
* the temporary vector internally and dynamic allocation fails, the
* ACE_Arg_Shifter will set all indicators to end of the vector,
* forbidding iteration. Following iteration over @a argv, the
* @a argc value will be updated to contain the number of
* unconsumed arguments.
* @param argc The number of strings in @a argv. @a argc will be
* updated to reflect the number of unconsumed arguments.
* @param argv The argument vector to shift. The string pointers in
* the vector will be reordered to place the @a argc unconsumed
* arguments at the front of the vector.
* @param temp A vector of @c CHAR_TYPE pointers at least @a argc
* elements long. The vector will be used for argument shifting as
* the specified @a argv vector is consumed. The vector must not
* be modified while this object exists. If this argument is 0
* (the default) the object will allocate and free the temporary
* vector transparently.
*/
ACE_Arg_Shifter_T (int& argc,
const CHAR_TYPE **argv,
const CHAR_TYPE **temp = 0);
/// Same behavior as the preceding constructor, but without the
/// "const" qualifier.
ACE_Arg_Shifter_T (int& argc,
CHAR_TYPE **argv,
CHAR_TYPE **temp = 0);
/// Destructor.
~ACE_Arg_Shifter_T (void);
/// Get the current head of the vector.
const CHAR_TYPE *get_current (void) const;
/**
* If the @a flag matches the current_arg of arg shifter
* this method will attempt to return the associated
* parameter value
*
* Safe to call without checking that a current arg exists
*
* In the following examples, a pointer to the char* "value" is ret
*
* eg: main -foobar value, main -FooBar value
* main -FOOBARvalue
*
* all of the above will all match the @a flag == -FooBar
* and will return a char* to "value"
*
* main -foobar 4 would succeed and return a char* to "4"
* main -foobar -4 does not succeed (-4 is not a parameter)
* but instead, would return 0
*
* 0 is returned:
* If the current argument does not match flag
* If there is no parameter found after a 'matched' flag
*
* If the flag is matched and the flag and paramter DO NOT RUN
* together, the flag is consumed, the parameter is returned,
* and the new current argument is the parameter value.
* ie '-foobarflag VALUE' leaves the new cur arg == "VALUE"
*
* If the flag is matched and the flag and parameter RUN
* together '-foobarflagVALUE', the flag is NOT consumed
* and the cur arg is left pointing to the entire flag/value pair
*/
const CHAR_TYPE *get_the_parameter (const CHAR_TYPE* flag);
/**
* Check if the current argument matches (case insensitive) <flag>
*
* ------------------------------------------------------------
*
* Case A: Perfect Match (case insensitive)
* 0 is returned.
*
* ie: when current_arg = "-foobar" or "-FOOBAR" or "-fooBAR"
* this->cur_arg_strncasecmp ("-FooBar);
* will return 0
*
* ------------------------------------------------------------
*
* Case B: Perfect Match (case insensitive) but the current_arg
* is longer than the flag. Returns a number equal to the index
* in the char* indicating the start of the extra characters
*
* ie: when current_arg = "-foobar98023"
* this->cur_arg_strncasecmp ("-FooBar);
* will return 7
*
* Notice: this number will always be > 0
*
* ------------------------------------------------------------
*
* Case C: If neither of Case A or B is met (no match)
* then -1 is returned
*/
int cur_arg_strncasecmp (const CHAR_TYPE *flag);
/// Consume @a number argument(s) by sticking them/it on the end of
/// the vector.
int consume_arg (int number = 1);
/// Place @a number arguments in the same relative order ahead of the
/// known arguments in the vector.
int ignore_arg (int number = 1);
/// Returns the number of args left to see in the vector.
int is_anything_left (void) const;
/// Returns 1 if there's a next item in the vector and it begins with
/// '-'.
int is_option_next (void) const;
/// Returns 1 if there's a next item in the vector and it doesn't
/// begin with '-'.
int is_parameter_next (void) const;
/// Returns the number of irrelevant args seen.
int num_ignored_args (void) const;
private:
/// Copy Constructor should not be used.
ACE_UNIMPLEMENTED_FUNC (ACE_Arg_Shifter_T (const ACE_Arg_Shifter_T<CHAR_TYPE>&))
/// Assignment '=' operator should not be used.
ACE_UNIMPLEMENTED_FUNC (ACE_Arg_Shifter_T operator= (const ACE_Arg_Shifter_T<CHAR_TYPE>&))
/// Refactor the constructor logic.
void init (void);
/// The size of the argument vector.
int& argc_;
/// The size of argv_.
int total_size_;
/// The temporary array over which we traverse.
const CHAR_TYPE **temp_;
/// The array in which the arguments are reordered.
const CHAR_TYPE **argv_;
/// The element in <temp_> we're currently examining.
int current_index_;
/// The index of <argv_> in which we'll stick the next unknown
/// argument.
int back_;
/// The index of <argv_> in which we'll stick the next known
/// argument.
int front_;
};
typedef ACE_Arg_Shifter_T<ACE_TCHAR> ACE_Arg_Shifter;
ACE_END_VERSIONED_NAMESPACE_DECL
#if defined (ACE_TEMPLATES_REQUIRE_SOURCE)
#include "ace/Arg_Shifter.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */
#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("Arg_Shifter.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */
#include /**/ "ace/post.h"
#endif /* ACE_ARG_SHIFTER_H */
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