1
0
mirror of https://github.com/cc65/cc65.git synced 2024-12-27 00:29:31 +00:00
cc65/test/ref/dijkstra.c
2014-09-25 21:38:34 +02:00

370 lines
8.0 KiB
C

/*
!!DESCRIPTION!! Dijkstras Algorithm
!!ORIGIN!! testsuite
!!LICENCE!! Public Domain
!!AUTHOR!! Groepaz/Hitmen
*/
#include <stdio.h>
#include <stdlib.h>
#ifndef NULL
#define NULL ((void*)0)
#endif
#define DIJKSTRA_INFINITY (0xffff)
#define DIJKSTRA_FLAG_UNVISITED (0x0)
/*
#define DIJKSTRA_FLAG_OPEN (0x1)
*/
#define DIJKSTRA_FLAG_CLOSED (0x2)
typedef struct _DIJKSTRA_EDGE {
struct _DIJKSTRA_NODE *NEXTNODE;
unsigned short DISTANCE;
} DIJKSTRA_EDGE;
typedef struct _DIJKSTRA_NODE {
DIJKSTRA_EDGE *EDGES;
unsigned char TAG;
unsigned char FLAG;
unsigned short MINDIST;
struct _DIJKSTRA_NODE *PREVIOUS;
} DIJKSTRA_NODE;
/* init with graph, startnode, working-array */
void Dijkstra_Init(const DIJKSTRA_NODE *graph,DIJKSTRA_NODE *start,DIJKSTRA_NODE *nodes);
/* call main algo with working-array */
void Dijkstra_Search(DIJKSTRA_NODE *nodes);
/* print path, call with working-array, endnode */
void Dijkstra_Path(DIJKSTRA_NODE *nodes,DIJKSTRA_NODE *end);
/* print table, call with working-array, current node */
void Dijkstra_Table(DIJKSTRA_NODE *nodes,DIJKSTRA_NODE *current);
/* internally used routines */
unsigned short Dijkstra_Distance(DIJKSTRA_NODE *currnode,DIJKSTRA_NODE *nextnode);
void Dijkstra_Relax(DIJKSTRA_NODE *currnode,DIJKSTRA_NODE *nextnode);
DIJKSTRA_NODE *Dijkstra_NextCheapest(DIJKSTRA_NODE *graph);
unsigned short Dijkstra_CountUnvisited(DIJKSTRA_NODE *graph);
/* define to get printed info as the algorithm proceeds */
#define DIJKSTRA_PRINTDEBUG
/* the working array */
DIJKSTRA_NODE mynodes[0x10];
/* test-network data (mypoints and myedges) */
const DIJKSTRA_EDGE myedges_A[]={
{&mynodes[1],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_B[]={
{&mynodes[0],1},
{&mynodes[2],2},
{&mynodes[3],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_C[]={
{&mynodes[1],2},
{&mynodes[5],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_D[]={
{&mynodes[1],1},
{&mynodes[4],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_E[]={
{&mynodes[6],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_F[]={
{&mynodes[7],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_G[]={
{&mynodes[8],1},
{&mynodes[7],4},
{NULL}
};
const DIJKSTRA_EDGE myedges_H[]={
{&mynodes[9],1},
{&mynodes[6],4},
{NULL}
};
const DIJKSTRA_EDGE myedges_I[]={
{&mynodes[10],5},
{NULL}
};
const DIJKSTRA_EDGE myedges_J[]={
{&mynodes[10],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_K[]={
{&mynodes[11],1},
{NULL}
};
const DIJKSTRA_EDGE myedges_L[]={
{&mynodes[10],1},
{NULL}
};
const DIJKSTRA_NODE mypoints[]={
{(DIJKSTRA_EDGE *)&myedges_A[0],'A'},
{(DIJKSTRA_EDGE *)&myedges_B[0],'B'},
{(DIJKSTRA_EDGE *)&myedges_C[0],'C'},
{(DIJKSTRA_EDGE *)&myedges_D[0],'D'},
{(DIJKSTRA_EDGE *)&myedges_E[0],'E'},
{(DIJKSTRA_EDGE *)&myedges_F[0],'F'},
{(DIJKSTRA_EDGE *)&myedges_G[0],'G'},
{(DIJKSTRA_EDGE *)&myedges_H[0],'H'},
{(DIJKSTRA_EDGE *)&myedges_I[0],'I'},
{(DIJKSTRA_EDGE *)&myedges_J[0],'J'},
{(DIJKSTRA_EDGE *)&myedges_K[0],'K'},
{(DIJKSTRA_EDGE *)&myedges_L[0],'L'},
{NULL}
};
/*
* initialize working-array
*/
void Dijkstra_Init(const DIJKSTRA_NODE *graph,DIJKSTRA_NODE *start,DIJKSTRA_NODE *nodes) {
while(graph->EDGES!=NULL) {
nodes->EDGES=graph->EDGES;
nodes->TAG=graph->TAG;
nodes->FLAG=DIJKSTRA_FLAG_UNVISITED;
nodes->MINDIST=DIJKSTRA_INFINITY;
nodes->PREVIOUS=NULL;
graph++;nodes++;
}
/*
start->FLAG=DIJKSTRA_FLAG_OPEN;
start->PREVIOUS=NULL;
*/
start->MINDIST=0;
}
/*
* compute the distance between two Nodes in the Graph
*/
unsigned short Dijkstra_Distance(DIJKSTRA_NODE *currnode,DIJKSTRA_NODE *nextnode){
DIJKSTRA_EDGE *edge;
edge=currnode->EDGES;
while(edge!=NULL) {
if(edge->NEXTNODE == nextnode){
return(edge->DISTANCE);
}
edge++;
}
return(DIJKSTRA_INFINITY);
}
/*
* 'relax' one node against another
*/
void Dijkstra_Relax(DIJKSTRA_NODE *currnode,DIJKSTRA_NODE *nextnode){
unsigned short newdist;
#ifdef DIJKSTRA_PRINTDEBUG
printf("relax >%c< to >%c<\n",currnode->TAG,nextnode->TAG);
#endif
newdist=currnode->MINDIST+Dijkstra_Distance(currnode,nextnode);
if((nextnode->MINDIST)>(newdist)){
nextnode->MINDIST=newdist;
nextnode->PREVIOUS=currnode;
}
}
/*
* find the yet unprocessed Node with the currently
* smallest estimated MINDIST
*/
DIJKSTRA_NODE *Dijkstra_NextCheapest(DIJKSTRA_NODE *graph){
unsigned short mindist;
DIJKSTRA_NODE *node;
node=NULL;
mindist=DIJKSTRA_INFINITY;
while(graph->EDGES!=NULL) {
if(graph->FLAG!=DIJKSTRA_FLAG_CLOSED){
if(!(mindist<graph->MINDIST)){
mindist=graph->MINDIST;
node=graph;
}
}
graph++;
}
#ifdef DIJKSTRA_PRINTDEBUG
if(node!=NULL) printf("next cheapest Node: >%c<\n",node->TAG);
#endif
return(node);
}
/*
* count number of Nodes that are left for processing
*/
unsigned short Dijkstra_CountUnvisited(DIJKSTRA_NODE *graph){
unsigned short num;
num=0;
while(graph->EDGES!=NULL) {
if(graph->FLAG!=DIJKSTRA_FLAG_CLOSED){
num++;
}
graph++;
}
return(num);
}
/*
* Dijkstra-Algorithmus main processing
*/
void Dijkstra_Search(DIJKSTRA_NODE *graph){
DIJKSTRA_NODE *currnode,*nextnode;
DIJKSTRA_EDGE *edge;
currnode=graph;
while(Dijkstra_CountUnvisited(graph)>0){
edge=currnode->EDGES;
while(edge->NEXTNODE!=NULL){
nextnode=edge->NEXTNODE;
if(nextnode->FLAG!=DIJKSTRA_FLAG_CLOSED){
/*
nextnode->FLAG=DIJKSTRA_FLAG_OPEN;
*/
Dijkstra_Relax(currnode,nextnode);
#ifdef DIJKSTRA_PRINTDEBUG
Dijkstra_Table(graph,currnode);
#endif
}
edge++;
}
currnode=Dijkstra_NextCheapest(graph);
currnode->FLAG=DIJKSTRA_FLAG_CLOSED;
}
}
/*
* print the Path from start Node to one other Node
*/
void Dijkstra_Path(DIJKSTRA_NODE *graph,DIJKSTRA_NODE *end){
DIJKSTRA_NODE *currnode,*nextnode;
printf("Path from >%c< to >%c< : ",end->TAG,graph->TAG);
currnode=end;
while(currnode->PREVIOUS!=NULL){
printf(">%c< ",currnode->TAG);
currnode=currnode->PREVIOUS;
}
printf(">%c<\n",currnode->TAG);
}
/*
* print working-array as a table
*/
void Dijkstra_Table(DIJKSTRA_NODE *graph,DIJKSTRA_NODE *current){
DIJKSTRA_NODE *g;
printf("----------------------\n");
printf("Node |");
g=graph;while(g->EDGES!=NULL) {
printf("-->%c<-|",g->TAG);
g++;
}
printf("\n");
printf("MinDist |");
g=graph;while(g->EDGES!=NULL) {
printf(" %5u|",g->MINDIST);
g++;
}
printf("\n");
printf("Flag |");
g=graph;while(g->EDGES!=NULL) {
switch(g->FLAG){
/*
case DIJKSTRA_FLAG_OPEN:
printf("opened|");
break;
*/
case DIJKSTRA_FLAG_CLOSED:
printf("closed|");
break;
default:
if(g->MINDIST!=DIJKSTRA_INFINITY){
printf("opened|");
} else {
printf("------|");
}
break;
}
g++;
}
printf("\n");
printf("Previous|");
g=graph;while(g->EDGES!=NULL) {
if(g->PREVIOUS==NULL)
printf("------|");
else
printf(" (%c) |",g->PREVIOUS->TAG);
g++;
}
printf("\n");
printf("----------------------\n");
}
int main(void)
{
/* init with graph, startnode, working-array */
Dijkstra_Init(&mypoints[0],&mynodes[0],&mynodes[0]);
/* call main algo with working-array */
Dijkstra_Search(&mynodes[0]);
/* print table, call with working-array, endnode */
Dijkstra_Table(&mynodes[0],&mynodes[11]);
/* print path, call with working-array, endnode */
Dijkstra_Path(&mynodes[0],&mynodes[11]);
return 0;
}