sysfsutils-2.1.0/test/dlist_test.c - nest-learning-thermostat/5.1.8/sysfsutils - Git at Google

 /*
  * dlist_test.c
  *
  * Copyright (C) 2003 Eric J Bohm
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Lesser General Public
  *  License as published by the Free Software Foundation; either
  *  version 2.1 of the License, or (at your option) any later version.
  *
  *  This library 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. See the GNU
  *  Lesser General Public License for more details.
  *
  *  You should have received a copy of the GNU Lesser General Public
  *  License along with this library; if not, write to the Free Software
  *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
  *
  */


 /* Double linked list implementation tester.
  */
 #include "dlist.h"
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 // create some dlists put nodes in and out
 // use dump
 // try list with del_func and without
 // use insert, unshift, push
 // use pop push mark
 // use prev next

 typedef struct simple {
   char label[80];
   int number;
 } Simple;


 typedef struct complex {
   int cnumber;
   Simple *sthing;
 } Complex;

 void complex_silly_multiply_by_two( void *a);
 int complex_equal(void *a, void *b);
 int complex_less(void *a, void *b);
 int complex_greater(void *a, void *b);
 int complex_comp(void *a, void *b);
 void simple_dump(Dlist *);
 void simple_dump_rev(Dlist *);
 void complex_dump(Dlist *);
 void complex_dump_rev(Dlist *);
 void complex_out(void *);
 void complex_del(void *);
 Complex *complex_maker(int,int,char *);
 int complex_filter(void *a);

 Simple *simple_maker(int ,char *);

 int main (void)
 {
   Dlist *list;
   Simple *s1,*s2,*s3,*stemp;
   Complex *c1,*c2,*c3, *c4, *ctemp, *cfound;
   while(1)
     {
 	s1=simple_maker(1,"one");
 	s2=simple_maker(2,"two");
 	s3=simple_maker(3,"three");
       if((list=dlist_new(sizeof(Simple)))==NULL)
 	{
 	   fprintf(stderr,"ERR dlist_new fail\n");
 	  return(2);
 	 }
       dlist_push(list,s1);
       dlist_push(list,s2);
       dlist_push(list,s3);
       printf("count is %ld\n",list->count);
       simple_dump(list);
       simple_dump_rev(list);
       stemp=dlist_pop(list);
       printf("popped %s\n",stemp->label);
       simple_dump(list);
       printf("pushed\n");
       dlist_push(list,s3);
       simple_dump(list);
       stemp=dlist_shift(list);
       printf("shifted %s\n",stemp->label);
       simple_dump(list);
       printf("unshifted\n");
       dlist_unshift(list,stemp);
       simple_dump(list);
       dlist_destroy(list);
       c1=complex_maker(1,1,"one");
       c2=complex_maker(2,2,"two");
       c3=complex_maker(3,3,"three");
       if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
 	{
 		fprintf(stderr,"ERR dlist_new fail\n");
 		return(2);
 	}
 	if(dlist_insert_sorted(list,c1,complex_less)==NULL)
 	{
 		fprintf(stderr,"ERR dlist_insert fail\n");
 		return(2);
 	}
 	printf("sorted insert 1\n");
 	if(dlist_insert_sorted(list,c3,complex_less)==NULL)
 	{
 		fprintf(stderr,"ERR dlist_insert fail\n");
 		return(2);
 	}
 	if(dlist_insert_sorted(list,c2,complex_less)==NULL)
 	{
 		fprintf(stderr,"ERR dlist_insert fail\n");
 		return(2);
 	}
 	printf("sorted insert 2\n");
 	printf("ascending sorted output\n");
 	complex_dump(list);
 	dlist_transform(list,complex_silly_multiply_by_two);
 	printf("transform multi by 2 output\n");
 	complex_dump(list);
 	ctemp=complex_maker(6,6,"three");
 	if((cfound=(Complex *) dlist_find_custom(list,ctemp,complex_equal))!=NULL)

 	{
 		printf("found %d as %d in list\n",ctemp->cnumber,cfound->cnumber);
 	} else {
 		printf("ERROR find failed on %d \n",ctemp->cnumber);
 		return(3);
 	}
 	complex_del(ctemp);
 	dlist_destroy(list);
 	c1=complex_maker(1,1,"one");
 	c2=complex_maker(2,2,"two");
 	c3=complex_maker(3,3,"three");
       if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
 	{
 	   fprintf(stderr,"ERR dlist_new fail\n");
 	  return(2);
 	 }
 	if(dlist_insert_sorted(list,c1,complex_greater)==NULL)
 	{
 	  fprintf(stderr,"ERR dlist_insert fail\n");
 	  return(2);
 	}
 	printf("greater sorted insert 1\n");
 	if(dlist_insert_sorted(list,c3,complex_greater)==NULL)
 	{
 	   fprintf(stderr,"ERR dlist_insert fail\n");
 	   return(2);
 	 }
 	printf("greater sorted insert 3\n");
 	if(dlist_insert_sorted(list,c2,complex_greater)==NULL)
 	{
 	   fprintf(stderr,"ERR dlist_insert fail\n");
 	   return(2);
 	 }
 	printf("greater sorted insert 2\n");
 	printf("descending sorted output using transform\n");
 	dlist_transform(list,complex_out);
       dlist_destroy(list);
       c1=complex_maker(1,1,"one");
       c2=complex_maker(2,2,"two");
       c3=complex_maker(3,3,"three");
       c4=complex_maker(4,4,"four");
       if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
 	{
 	  fprintf(stderr,"ERR dlist_new fail\n");
 	  return(2);
 	}
       dlist_push(list,c2);
       dlist_push(list,c1);
       dlist_push(list,c4);
       dlist_push(list,c3);
       printf("unsorted custom\n");
       complex_dump(list);
       printf("unsorted custom reversed\n");
       complex_dump_rev(list);
       dlist_sort_custom(list,complex_comp);
       printf("custom sorted output\n");
       complex_dump(list);

 	dlist_filter_sort(list, complex_filter, complex_comp);
 	printf("custom filtered and sorted output\n");
 	complex_dump(list);
       dlist_destroy(list);
     }
   return(0);
 }

 void simple_dump (Dlist *list)
 {
   Simple *thisone;
   printf("count  %ld \n",list->count);
   dlist_for_each_data(list,thisone,Simple)
     {
       printf("label %s number %d \n",thisone->label,thisone->number);
     }

 }
 void simple_dump_rev (Dlist *list)
 {
   Simple *thisone;
   printf("rev count  %ld \n",list->count);
   dlist_for_each_data_rev(list,thisone,Simple)
     {
       printf("label %s number %d \n",thisone->label,thisone->number);
     }
 }

 Simple * simple_maker(int snumber,char *label)
 {
 	Simple *stemp;
 	if((stemp=malloc(sizeof(Simple)))==NULL)
 	{
 		fprintf(stderr,"ERR malloc fail\n");
 		return(NULL);
 	}
 	stemp->number=snumber;
 	strcpy(stemp->label,label);
 	return(stemp);
 }

 Complex * complex_maker(int cnumber, int snumber, char* label)
 {
 	Complex *ctemp;
 	if((ctemp=malloc(sizeof(Complex)))==NULL)
 	{
 		fprintf(stderr,"ERR malloc fail\n");
 		return(NULL);
 	}
 	ctemp->cnumber=cnumber;
 	ctemp->sthing=simple_maker(snumber,label);
 	return(ctemp);
 }

 void complex_out(void *data)
 {
 	Complex *thisone=(Complex *)data;
 	printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
 }

 /**
  * return 1 if a==b, else 0
  */
 int complex_equal(void *a, void *b)
 {
 	if((((Complex *)a)->cnumber==((Complex *)b)->cnumber)
 	    && (((Complex *)a)->sthing->number==
 		((Complex *)b)->sthing->number)
 	    &&  strcmp(((Complex *)a)->sthing->label,
 		((Complex *)b)->sthing->label)==0)
 		return(1);
 	return(0);
 }

 /** for sorting
  * return 1 if a<b, else 0
  */
 int complex_less(void *a, void *b)
 {
 	return( ((Complex *)a)->cnumber <  ((Complex *)b)->cnumber );
 }

 /** for sorting
  * return 1 if a>b, else 0
  */
 int complex_greater(void *a, void *b)
 {
 	return( ((Complex *)a)->cnumber >  ((Complex *)b)->cnumber );
 }

 int complex_comp(void *a, void *b)
 {
 	return( ((Complex *)a)->cnumber -  ((Complex *)b)->cnumber );
 }

 void complex_silly_multiply_by_two( void *a)
 {
 	((Complex *)a)->cnumber=((Complex *)a)->cnumber*2;
 	((Complex *)a)->sthing->number=((Complex *)a)->sthing->number*2;
 }

 void complex_dump (Dlist *list)
 {
   Complex *thisone;
   dlist_start(list);
   printf("count  %ld \n",list->count);
   dlist_for_each_data(list,thisone,Complex)
     {
       printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
     }

 }

 void complex_dump_rev (Dlist *list)
 {
   Complex *thisone;
   dlist_start(list);
   printf("count  %ld \n",list->count);
   dlist_for_each_data_rev(list,thisone,Complex)
     {
       printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
     }

 }

 void complex_del (void *item)
 {
   Complex *corpse=item;
   printf("freeing complex\n");
   free(corpse->sthing);
   free(corpse);
 }

 int complex_filter(void *a)
 {
 	Complex *c = (Complex *)a;

 	if (c->cnumber >= 2 && c->cnumber <= 3)
 		return 1;
 	else
 		return 0;
 }
	/*
	* dlist_test.c
	*
	* Copyright (C) 2003 Eric J Bohm
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* This library 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. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*
	*/


	/* Double linked list implementation tester.
	*/
	#include "dlist.h"
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	// create some dlists put nodes in and out
	// use dump
	// try list with del_func and without
	// use insert, unshift, push
	// use pop push mark
	// use prev next

	typedef struct simple {
	char label[80];
	int number;
	} Simple;


	typedef struct complex {
	int cnumber;
	Simple *sthing;
	} Complex;

	void complex_silly_multiply_by_two( void *a);
	int complex_equal(void a, void b);
	int complex_less(void a, void b);
	int complex_greater(void a, void b);
	int complex_comp(void a, void b);
	void simple_dump(Dlist *);
	void simple_dump_rev(Dlist *);
	void complex_dump(Dlist *);
	void complex_dump_rev(Dlist *);
	void complex_out(void *);
	void complex_del(void *);
	Complex complex_maker(int,int,char );
	int complex_filter(void *a);

	Simple simple_maker(int ,char );

	int main (void)
	{
	Dlist *list;
	Simple s1,s2,s3,stemp;
	Complex c1,c2,c3, c4, ctemp, cfound;
	while(1)
	{
	s1=simple_maker(1,"one");
	s2=simple_maker(2,"two");
	s3=simple_maker(3,"three");
	if((list=dlist_new(sizeof(Simple)))==NULL)
	{
	fprintf(stderr,"ERR dlist_new fail\n");
	return(2);
	}
	dlist_push(list,s1);
	dlist_push(list,s2);
	dlist_push(list,s3);
	printf("count is %ld\n",list->count);
	simple_dump(list);
	simple_dump_rev(list);
	stemp=dlist_pop(list);
	printf("popped %s\n",stemp->label);
	simple_dump(list);
	printf("pushed\n");
	dlist_push(list,s3);
	simple_dump(list);
	stemp=dlist_shift(list);
	printf("shifted %s\n",stemp->label);
	simple_dump(list);
	printf("unshifted\n");
	dlist_unshift(list,stemp);
	simple_dump(list);
	dlist_destroy(list);
	c1=complex_maker(1,1,"one");
	c2=complex_maker(2,2,"two");
	c3=complex_maker(3,3,"three");
	if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
	{
	fprintf(stderr,"ERR dlist_new fail\n");
	return(2);
	}
	if(dlist_insert_sorted(list,c1,complex_less)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	printf("sorted insert 1\n");
	if(dlist_insert_sorted(list,c3,complex_less)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	if(dlist_insert_sorted(list,c2,complex_less)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	printf("sorted insert 2\n");
	printf("ascending sorted output\n");
	complex_dump(list);
	dlist_transform(list,complex_silly_multiply_by_two);
	printf("transform multi by 2 output\n");
	complex_dump(list);
	ctemp=complex_maker(6,6,"three");
	if((cfound=(Complex *) dlist_find_custom(list,ctemp,complex_equal))!=NULL)

	{
	printf("found %d as %d in list\n",ctemp->cnumber,cfound->cnumber);
	} else {
	printf("ERROR find failed on %d \n",ctemp->cnumber);
	return(3);
	}
	complex_del(ctemp);
	dlist_destroy(list);
	c1=complex_maker(1,1,"one");
	c2=complex_maker(2,2,"two");
	c3=complex_maker(3,3,"three");
	if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
	{
	fprintf(stderr,"ERR dlist_new fail\n");
	return(2);
	}
	if(dlist_insert_sorted(list,c1,complex_greater)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	printf("greater sorted insert 1\n");
	if(dlist_insert_sorted(list,c3,complex_greater)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	printf("greater sorted insert 3\n");
	if(dlist_insert_sorted(list,c2,complex_greater)==NULL)
	{
	fprintf(stderr,"ERR dlist_insert fail\n");
	return(2);
	}
	printf("greater sorted insert 2\n");
	printf("descending sorted output using transform\n");
	dlist_transform(list,complex_out);
	dlist_destroy(list);
	c1=complex_maker(1,1,"one");
	c2=complex_maker(2,2,"two");
	c3=complex_maker(3,3,"three");
	c4=complex_maker(4,4,"four");
	if((list=dlist_new_with_delete(sizeof(Complex),complex_del))==NULL)
	{
	fprintf(stderr,"ERR dlist_new fail\n");
	return(2);
	}
	dlist_push(list,c2);
	dlist_push(list,c1);
	dlist_push(list,c4);
	dlist_push(list,c3);
	printf("unsorted custom\n");
	complex_dump(list);
	printf("unsorted custom reversed\n");
	complex_dump_rev(list);
	dlist_sort_custom(list,complex_comp);
	printf("custom sorted output\n");
	complex_dump(list);

	dlist_filter_sort(list, complex_filter, complex_comp);
	printf("custom filtered and sorted output\n");
	complex_dump(list);
	dlist_destroy(list);
	}
	return(0);
	}

	void simple_dump (Dlist *list)
	{
	Simple *thisone;
	printf("count %ld \n",list->count);
	dlist_for_each_data(list,thisone,Simple)
	{
	printf("label %s number %d \n",thisone->label,thisone->number);
	}

	}
	void simple_dump_rev (Dlist *list)
	{
	Simple *thisone;
	printf("rev count %ld \n",list->count);
	dlist_for_each_data_rev(list,thisone,Simple)
	{
	printf("label %s number %d \n",thisone->label,thisone->number);
	}
	}

	Simple * simple_maker(int snumber,char *label)
	{
	Simple *stemp;
	if((stemp=malloc(sizeof(Simple)))==NULL)
	{
	fprintf(stderr,"ERR malloc fail\n");
	return(NULL);
	}
	stemp->number=snumber;
	strcpy(stemp->label,label);
	return(stemp);
	}

	Complex * complex_maker(int cnumber, int snumber, char* label)
	{
	Complex *ctemp;
	if((ctemp=malloc(sizeof(Complex)))==NULL)
	{
	fprintf(stderr,"ERR malloc fail\n");
	return(NULL);
	}
	ctemp->cnumber=cnumber;
	ctemp->sthing=simple_maker(snumber,label);
	return(ctemp);
	}

	void complex_out(void *data)
	{
	Complex thisone=(Complex )data;
	printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
	}

	/**
	* return 1 if a==b, else 0
	*/
	int complex_equal(void a, void b)
	{
	if((((Complex )a)->cnumber==((Complex )b)->cnumber)
	&& (((Complex *)a)->sthing->number==
	((Complex *)b)->sthing->number)
	&& strcmp(((Complex *)a)->sthing->label,
	((Complex *)b)->sthing->label)==0)
	return(1);
	return(0);
	}

	/** for sorting
	* return 1 if a<b, else 0
	*/
	int complex_less(void a, void b)
	{
	return( ((Complex )a)->cnumber < ((Complex )b)->cnumber );
	}

	/** for sorting
	* return 1 if a>b, else 0
	*/
	int complex_greater(void a, void b)
	{
	return( ((Complex )a)->cnumber > ((Complex )b)->cnumber );
	}

	int complex_comp(void a, void b)
	{
	return( ((Complex )a)->cnumber - ((Complex )b)->cnumber );
	}

	void complex_silly_multiply_by_two( void *a)
	{
	((Complex )a)->cnumber=((Complex )a)->cnumber*2;
	((Complex )a)->sthing->number=((Complex )a)->sthing->number*2;
	}

	void complex_dump (Dlist *list)
	{
	Complex *thisone;
	dlist_start(list);
	printf("count %ld \n",list->count);
	dlist_for_each_data(list,thisone,Complex)
	{
	printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
	}

	}

	void complex_dump_rev (Dlist *list)
	{
	Complex *thisone;
	dlist_start(list);
	printf("count %ld \n",list->count);
	dlist_for_each_data_rev(list,thisone,Complex)
	{
	printf("cnumber %d label %s number %d \n",thisone->cnumber,thisone->sthing->label,thisone->sthing->number);
	}

	}

	void complex_del (void *item)
	{
	Complex *corpse=item;
	printf("freeing complex\n");
	free(corpse->sthing);
	free(corpse);
	}

	int complex_filter(void *a)
	{
	Complex c = (Complex )a;

	if (c->cnumber >= 2 && c->cnumber <= 3)
	return 1;
	else
	return 0;
	}