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/* Pdlzip - A data compressor based on the LZMA algorithm
Copyright (C) 2010 Antonio Diaz Diaz.
This program is free software: you have unlimited permission
to copy, distribute and modify it.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*/
#include <stdlib.h>
#include <string.h>
#include "carg_parser.h"
/* assure at least a minimum size for buffer `buf' */
static void * ap_resize_buffer( void * buf, const int min_size )
{
if( buf ) buf = realloc( buf, min_size );
else buf = malloc( min_size );
return buf;
}
static char push_back_record( struct Arg_parser * const ap,
const int code, const char * const argument )
{
const int len = strlen( argument );
struct ap_Record *p;
void * tmp = ap_resize_buffer( ap->data, ( ap->data_size + 1 ) * sizeof (struct ap_Record) );
if( !tmp ) return 0;
ap->data = (struct ap_Record *)tmp;
p = &(ap->data[ap->data_size]);
p->code = code;
p->argument = 0;
tmp = ap_resize_buffer( p->argument, len + 1 );
if( !tmp ) return 0;
p->argument = (char *)tmp;
strncpy( p->argument, argument, len + 1 );
++ap->data_size;
return 1;
}
static char add_error( struct Arg_parser * const ap, const char * const msg )
{
const int len = strlen( msg );
void * tmp = ap_resize_buffer( ap->error, ap->error_size + len + 1 );
if( !tmp ) return 0;
ap->error = (char *)tmp;
strncpy( ap->error + ap->error_size, msg, len + 1 );
ap->error_size += len;
return 1;
}
static void free_data( struct Arg_parser * const ap )
{
int i;
for( i = 0; i < ap->data_size; ++i ) free( ap->data[i].argument );
if( ap->data ) { free( ap->data ); ap->data = 0; }
ap->data_size = 0;
}
static char parse_long_option( struct Arg_parser * const ap,
const char * const opt, const char * const arg,
const struct ap_Option options[],
int * const argindp )
{
unsigned int len;
int index = -1;
int i;
char exact = 0, ambig = 0;
for( len = 0; opt[len+2] && opt[len+2] != '='; ++len ) ;
// Test all long options for either exact match or abbreviated matches.
for( i = 0; options[i].code != 0; ++i )
if( options[i].name && !strncmp( options[i].name, &opt[2], len ) )
{
if( strlen( options[i].name ) == len ) // Exact match found
{ index = i; exact = 1; break; }
else if( index < 0 ) index = i; // First nonexact match found
else if( options[index].code != options[i].code ||
options[index].has_arg != options[i].has_arg )
ambig = 1; // Second or later nonexact match found
}
if( ambig && !exact )
{
add_error( ap, "option `" ); add_error( ap, opt );
add_error( ap, "' is ambiguous" );
return 1;
}
if( index < 0 ) // nothing found
{
add_error( ap, "unrecognized option `" ); add_error( ap, opt );
add_error( ap, "'" );
return 1;
}
++*argindp;
if( opt[len+2] ) // `--<long_option>=<argument>' syntax
{
if( options[index].has_arg == ap_no )
{
add_error( ap, "option `--" ); add_error( ap, options[index].name );
add_error( ap, "' doesn't allow an argument" );
return 1;
}
if( options[index].has_arg == ap_yes && !opt[len+3] )
{
add_error( ap, "option `--" ); add_error( ap, options[index].name );
add_error( ap, "' requires an argument" );
return 1;
}
return push_back_record( ap, options[index].code, &opt[len+3] );
}
if( options[index].has_arg == ap_yes )
{
if( !arg || !arg[0] )
{
add_error( ap, "option `--" ); add_error( ap, options[index].name );
add_error( ap, "' requires an argument" );
return 1;
}
++*argindp;
return push_back_record( ap, options[index].code, arg );
}
return push_back_record( ap, options[index].code, "" );
}
static char parse_short_option( struct Arg_parser * const ap,
const char * const opt, const char * const arg,
const struct ap_Option options[],
int * const argindp )
{
int cind = 1; // character index in opt
while( cind > 0 )
{
int index = -1;
int i;
const unsigned char code = opt[cind];
const char code_str[2] = { code, 0 };
if( code != 0 )
for( i = 0; options[i].code; ++i )
if( code == options[i].code )
{ index = i; break; }
if( index < 0 )
{
add_error( ap, "invalid option -- " ); add_error( ap, code_str );
return 1;
}
if( opt[++cind] == 0 ) { ++*argindp; cind = 0; } // opt finished
if( options[index].has_arg != ap_no && cind > 0 && opt[cind] )
{
if( !push_back_record( ap, code, &opt[cind] ) ) return 0;
++*argindp; cind = 0;
}
else if( options[index].has_arg == ap_yes )
{
if( !arg || !arg[0] )
{
add_error( ap, "option requires an argument -- " );
add_error( ap, code_str );
return 1;
}
++*argindp; cind = 0;
if( !push_back_record( ap, code, arg ) ) return 0;
}
else if( !push_back_record( ap, code, "" ) ) return 0;
}
return 1;
}
char ap_init( struct Arg_parser * const ap,
const int argc, const char * const argv[],
const struct ap_Option options[], const char in_order )
{
const char ** non_options = 0; // skipped non-options
int non_options_size = 0; // number of skipped non-options
int argind = 1; // index in argv
int i;
ap->data = 0;
ap->error = 0;
ap->data_size = 0;
ap->error_size = 0;
if( argc < 2 || !argv || !options ) return 1;
while( argind < argc )
{
const unsigned char ch1 = argv[argind][0];
const unsigned char ch2 = ( ch1 ? argv[argind][1] : 0 );
if( ch1 == '-' && ch2 ) // we found an option
{
const char * const opt = argv[argind];
const char * const arg = (argind + 1 < argc) ? argv[argind+1] : 0;
if( ch2 == '-' )
{
if( !argv[argind][2] ) { ++argind; break; } // we found "--"
else if( !parse_long_option( ap, opt, arg, options, &argind ) ) return 0;
}
else if( !parse_short_option( ap, opt, arg, options, &argind ) ) return 0;
if( ap->error ) break;
}
else
{
if( !in_order )
{
void * tmp = ap_resize_buffer( non_options,
( non_options_size + 1 ) * sizeof *non_options );
if( !tmp ) return 0;
non_options = (const char **)tmp;
non_options[non_options_size++] = argv[argind++];
}
else if( !push_back_record( ap, 0, argv[argind++] ) ) return 0;
}
}
if( ap->error ) free_data( ap );
else
{
for( i = 0; i < non_options_size; ++i )
if( !push_back_record( ap, 0, non_options[i] ) ) return 0;
while( argind < argc )
if( !push_back_record( ap, 0, argv[argind++] ) ) return 0;
}
if( non_options ) free( non_options );
return 1;
}
void ap_free( struct Arg_parser * const ap )
{
free_data( ap );
if( ap->error ) { free( ap->error ); ap->error = 0; }
ap->error_size = 0;
}
const char * ap_error( const struct Arg_parser * const ap )
{ return ap->error; }
int ap_arguments( const struct Arg_parser * const ap )
{ return ap->data_size; }
int ap_code( const struct Arg_parser * const ap, const int i )
{
if( i >= 0 && i < ap_arguments( ap ) ) return ap->data[i].code;
else return 0;
}
const char * ap_argument( const struct Arg_parser * const ap, const int i )
{
if( i >= 0 && i < ap_arguments( ap ) ) return ap->data[i].argument;
else return "";
}
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