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view src/dynamicstring.c @ 191:28488e0e3630 noffle

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[svn] * src/group.h,src/group.c,src/noffle.c,src/server.c: Grp_setLastAccess is only ever called with last param as time(NULL), so remove it and call time() inside the implementation of Grp_setLastAccess. * src/client.c,src/group.h,src/group.c,src/noffle.c,src/post.c: Groups are automatically unsubscribed when the last access to the group is older than a particular threshold. However, for very low traffic groups, the last access may exceed the threshold simply because there has been no new article posted. In this case, rather than unsubscribe, update the group last access time. This means that groups are now only unsubscribed if the last access exceeds the threshold AND articles have arrived in the group since. Add Grp_setLastPostTime() to track the last time an article arrived in the group.
author bears
date Sat, 20 Oct 2001 14:23:46 +0100
parents e612b263934f
children 24d4cd032da5
line wrap: on
line source

/*
  dynamicstring.c

  $Id: dynamicstring.c 65 2000-05-12 16:52:41Z enz $
*/

#if HAVE_CONFIG_H
#include <config.h>
#endif

#include "dynamicstring.h"

#include <sys/types.h>
#include "log.h"
#include "portable.h"

struct DynStr
{
    int len; /* Current length (without trailing '\0') */
    int max; /* Max length that fits into buffer (incl. trailing '\0') */
    char *str;
};

static void
reallocStr( DynStr *self, int max )
{
    ASSERT( max >= 0 );
    if ( max <= self->max )
        return;
    if ( ! ( self->str = (char *)realloc( self->str, (size_t)max ) ) )
    {
        Log_err( "Realloc of DynStr failed" );
        exit( EXIT_FAILURE );
    } 
    if ( self->max == 0 ) /* First allocation? */
        *(self->str) = '\0';
    self->max = max;
}

DynStr *
new_DynStr( int reserve )
{
    DynStr *s;
    
    if ( ! ( s = malloc( sizeof( DynStr ) ) ) )
    {
        Log_err( "Allocation of DynStr failed" );
        exit( EXIT_FAILURE );
    }
    s->len = 0;
    s->max = 0;
    s->str = NULL;
    if ( reserve > 0 )
        reallocStr( s, reserve + 1 );
    return s;
}

void
del_DynStr( DynStr *self )
{
    if ( ! self )
        return;
    free( self->str );
    self->str = NULL;
    free( self );
}

int
DynStr_len( const DynStr *self )
{
    return self->len;
}

const char *
DynStr_str( const DynStr *self )
{
    return self->str;
}

void
DynStr_app( DynStr *self, const char *s )
{
    int len;

    len = strlen( s );
    if ( self->len + len + 1 > self->max )
        reallocStr( self, self->len * 2 + len + 1 );
    strcpy( self->str + self->len, s );
    self->len += len;
}

void
DynStr_appDynStr( DynStr *self, const DynStr *s )
{
    if ( self->len + s->len + 1 > self->max )
        reallocStr( self, self->len * 2 + s->len + 1 );
    memcpy( self->str + self->len, s->str, (size_t)s->len + 1 );
    self->len += s->len;
}

void
DynStr_appLn( DynStr *self, const char *s )
{
    DynStr_app( self, s );
    DynStr_app( self, "\n" );
}

void
DynStr_appN( DynStr *self, const char *s, int n )
{
    int len = self->len;

    ASSERT( n >= 0 );
    if ( len + n + 1 > self->max )
        reallocStr( self, len * 2 + n + 1 );
    strncat( self->str + len, s, (size_t)n );
    self->len = len + strlen( self->str + len );
}

void
DynStr_clear( DynStr *self )
{
    self->len = 0;
    if ( self->max > 0 )
        *(self->str) = '\0';
}