mirror of
https://github.com/JGRennison/OpenTTD-patches.git
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272 lines
9.7 KiB
C
272 lines
9.7 KiB
C
/*
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* This file has the core function for AyStar
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* AyStar is a fast pathfinding routine and is used for things like
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* AI_pathfinding and Train_pathfinding.
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* For more information about AyStar (A* Algorithm), you can look at
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* http://en.wikipedia.org/wiki/A-star_search_algorithm
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*/
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/*
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* Friendly reminder:
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* Call (AyStar).free() when you are done with Aystar. It reserves a lot of memory
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* And when not free'd, it can cause system-crashes.
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* Also remember that when you stop an algorithm before it is finished, your
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* should call clear() yourself!
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*/
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#include "stdafx.h"
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#include "ttd.h"
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#include "aystar.h"
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// This looks in the Hash if a node exists in ClosedList
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// If so, it returns the PathNode, else NULL
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PathNode *AyStarMain_ClosedList_IsInList(AyStar *aystar, AyStarNode *node) {
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return (PathNode*)Hash_Get(&aystar->ClosedListHash, node->tile, node->direction);
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}
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// This adds a node to the ClosedList
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// It makes a copy of the data
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void AyStarMain_ClosedList_Add(AyStar *aystar, PathNode *node) {
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// Add a node to the ClosedList
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PathNode *new_node = malloc(sizeof(PathNode));
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*new_node = *node;
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Hash_Set(&aystar->ClosedListHash, node->node.tile, node->node.direction, new_node);
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}
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// Checks if a node is in the OpenList
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// If so, it returns the OpenListNode, else NULL
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OpenListNode *AyStarMain_OpenList_IsInList(AyStar *aystar, AyStarNode *node) {
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return (OpenListNode*)Hash_Get(&aystar->OpenListHash, node->tile, node->direction);
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}
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// Gets the best node from OpenList
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// returns the best node, or NULL of none is found
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// Also it deletes the node from the OpenList
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OpenListNode *AyStarMain_OpenList_Pop(AyStar *aystar) {
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// Return the item the Queue returns.. the best next OpenList item.
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OpenListNode* res = (OpenListNode*)aystar->OpenListQueue.pop(&aystar->OpenListQueue);
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if (res != NULL)
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Hash_Delete(&aystar->OpenListHash, res->path.node.tile, res->path.node.direction);
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return res;
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}
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// Adds a node to the OpenList
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// It makes a copy of node, and puts the pointer of parent in the struct
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void AyStarMain_OpenList_Add(AyStar *aystar, PathNode *parent, AyStarNode *node, int f, int g, int userdata) {
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// Add a new Node to the OpenList
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OpenListNode* new_node = malloc(sizeof(OpenListNode));
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new_node->g = g;
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new_node->path.parent = parent;
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new_node->path.node = *node;
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Hash_Set(&aystar->OpenListHash, node->tile, node->direction, new_node);
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// Add it to the queue
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aystar->OpenListQueue.push(&aystar->OpenListQueue, new_node, f);
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}
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/*
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* Checks one tile and calculate his f-value
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* return values:
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* AYSTAR_DONE : indicates we are done
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*/
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int AyStarMain_CheckTile(AyStar *aystar, AyStarNode *current, OpenListNode *parent) {
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int new_f, new_g, new_h;
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PathNode *closedlist_parent;
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OpenListNode *check;
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// Check the new node against the ClosedList
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if (AyStarMain_ClosedList_IsInList(aystar, current) != NULL) return AYSTAR_DONE;
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// Calculate the G-value for this node
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new_g = aystar->CalculateG(aystar, current, parent);
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// If the value was INVALID_NODE, we don't do anything with this node
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if (new_g == AYSTAR_INVALID_NODE) return AYSTAR_DONE;
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// There should not be given any other error-code..
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assert(new_g >= 0);
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// Add the parent g-value to the new g-value
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new_g += parent->g;
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if (aystar->max_path_cost != 0 && (uint)new_g > aystar->max_path_cost) return AYSTAR_DONE;
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// Calculate the h-value
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new_h = aystar->CalculateH(aystar, current, parent);
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// There should not be given any error-code..
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assert(new_h >= 0);
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// The f-value if g + h
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new_f = new_g + new_h;
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// Get the pointer to the parent in the ClosedList (the currentone is to a copy of the one in the OpenList)
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closedlist_parent = AyStarMain_ClosedList_IsInList(aystar, &parent->path.node);
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// Check if this item is already in the OpenList
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if ((check = AyStarMain_OpenList_IsInList(aystar, current)) != NULL) {
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int i;
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// Yes, check if this g value is lower..
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if (new_g > check->g) return AYSTAR_DONE;
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aystar->OpenListQueue.del(&aystar->OpenListQueue, check, 0);
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// It is lower, so change it to this item
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check->g = new_g;
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check->path.parent = closedlist_parent;
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/* Copy user data, will probably have changed */
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for (i=0;i<lengthof(current->user_data);i++)
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check->path.node.user_data[i] = current->user_data[i];
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// Readd him in the OpenListQueue
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aystar->OpenListQueue.push(&aystar->OpenListQueue, check, new_f);
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} else {
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// A new node, add him to the OpenList
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AyStarMain_OpenList_Add(aystar, closedlist_parent, current, new_f, new_g, 0);
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}
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return AYSTAR_DONE;
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}
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/*
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* This function is the core of AyStar. It handles one item and checks
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* his neighbour items. If they are valid, they are added to be checked too.
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* return values:
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* AYSTAR_EMPTY_OPENLIST : indicates all items are tested, and no path
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* has been found.
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* AYSTAR_LIMIT_REACHED : Indicates that the max_nodes limit has been
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* reached.
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* AYSTAR_FOUND_END_NODE : indicates we found the end. Path_found now is true, and in path is the path found.
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* AYSTAR_STILL_BUSY : indicates we have done this tile, did not found the path yet, and have items left to try.
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*/
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int AyStarMain_Loop(AyStar *aystar) {
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int i, r;
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// Get the best node from OpenList
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OpenListNode *current = AyStarMain_OpenList_Pop(aystar);
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// If empty, drop an error
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if (current == NULL) return AYSTAR_EMPTY_OPENLIST;
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// Check for end node and if found, return that code
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if (aystar->EndNodeCheck(aystar, current) == AYSTAR_FOUND_END_NODE) {
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if (aystar->FoundEndNode != NULL)
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aystar->FoundEndNode(aystar, current);
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free(current);
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return AYSTAR_FOUND_END_NODE;
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}
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// Add the node to the ClosedList
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AyStarMain_ClosedList_Add(aystar, ¤t->path);
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// Load the neighbours
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aystar->GetNeighbours(aystar, current);
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// Go through all neighbours
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for (i=0;i<aystar->num_neighbours;i++) {
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// Check and add them to the OpenList if needed
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r = aystar->checktile(aystar, &aystar->neighbours[i], current);
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}
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// Free the node
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free(current);
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if (aystar->max_search_nodes != 0 && Hash_Size(&aystar->ClosedListHash) >= aystar->max_search_nodes)
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/* We've expanded enough nodes */
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return AYSTAR_LIMIT_REACHED;
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else
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// Return that we are still busy
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return AYSTAR_STILL_BUSY;
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}
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/*
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* This function frees the memory it allocated
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*/
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void AyStarMain_Free(AyStar *aystar) {
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aystar->OpenListQueue.free(&aystar->OpenListQueue, false);
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/* 2nd argument above is false, below is true, to free the values only
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* once */
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delete_Hash(&aystar->OpenListHash, true);
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delete_Hash(&aystar->ClosedListHash, true);
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#ifdef AYSTAR_DEBUG
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printf("[AyStar] Memory free'd\n");
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#endif
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}
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/*
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* This function make the memory go back to zero
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* This function should be called when you are using the same instance again.
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*/
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void AyStarMain_Clear(AyStar *aystar) {
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// Clean the Queue, but not the elements within. That will be done by
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// the hash.
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aystar->OpenListQueue.clear(&aystar->OpenListQueue, false);
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// Clean the hashes
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clear_Hash(&aystar->OpenListHash, true);
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clear_Hash(&aystar->ClosedListHash, true);
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#ifdef AYSTAR_DEBUG
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printf("[AyStar] Cleared AyStar\n");
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#endif
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}
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/*
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* This is the function you call to run AyStar.
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* return values:
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* AYSTAR_FOUND_END_NODE : indicates we found an end node.
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* AYSTAR_NO_PATH : indicates that there was no path found.
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* AYSTAR_STILL_BUSY : indicates we have done some checked, that we did not found the path yet, and that we still have items left to try.
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* When the algorithm is done (when the return value is not AYSTAR_STILL_BUSY)
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* aystar->clear() is called. Note that when you stop the algorithm halfway,
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* you should still call clear() yourself!
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*/
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int AyStarMain_Main(AyStar *aystar) {
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int r, i = 0;
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// Loop through the OpenList
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// Quit if result is no AYSTAR_STILL_BUSY or is more then loops_per_tick
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while ((r = aystar->loop(aystar)) == AYSTAR_STILL_BUSY && (aystar->loops_per_tick == 0 || ++i < aystar->loops_per_tick)) { }
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#ifdef AYSTAR_DEBUG
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if (r == AYSTAR_FOUND_END_NODE)
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printf("[AyStar] Found path!\n");
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else if (r == AYSTAR_EMPTY_OPENLIST)
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printf("[AyStar] OpenList run dry, no path found\n");
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else if (r == AYSTAR_LIMIT_REACHED)
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printf("[AyStar] Exceeded search_nodes, no path found\n");
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#endif
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if (r != AYSTAR_STILL_BUSY)
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/* We're done, clean up */
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aystar->clear(aystar);
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// Check result-value
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if (r == AYSTAR_FOUND_END_NODE) return AYSTAR_FOUND_END_NODE;
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// Check if we have some left in the OpenList
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if (r == AYSTAR_EMPTY_OPENLIST || r == AYSTAR_LIMIT_REACHED) return AYSTAR_NO_PATH;
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// Return we are still busy
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return AYSTAR_STILL_BUSY;
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}
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/*
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* Adds a node from where to start an algorithm. Multiple nodes can be added
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* if wanted. You should make sure that clear() is called before adding nodes
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* if the AyStar has been used before (though the normal main loop calls
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* clear() automatically when the algorithm finishes
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*/
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void AyStarMain_AddStartNode(AyStar *aystar, AyStarNode *start_node) {
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#ifdef AYSTAR_DEBUG
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printf("[AyStar] Starting A* Algorithm from node (%d, %d, %d)\n", GET_TILE_X(start_node->tile), GET_TILE_Y(start_node->tile), start_node->direction);
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#endif
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AyStarMain_OpenList_Add(aystar, NULL, start_node, 0, 0, 0);
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}
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void init_AyStar(AyStar* aystar, Hash_HashProc hash, uint num_buckets) {
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// Allocated the Hash for the OpenList and ClosedList
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init_Hash(&aystar->OpenListHash, hash, num_buckets);
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init_Hash(&aystar->ClosedListHash, hash, num_buckets);
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// Set up our sorting queue
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// BinaryHeap allocates a block of 1024 nodes
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// When thatone gets full it reserves an otherone, till this number
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// That is why it can stay this high
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init_BinaryHeap(&aystar->OpenListQueue, 102400);
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aystar->addstart = AyStarMain_AddStartNode;
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aystar->main = AyStarMain_Main;
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aystar->loop = AyStarMain_Loop;
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aystar->free = AyStarMain_Free;
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aystar->clear = AyStarMain_Clear;
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aystar->checktile = AyStarMain_CheckTile;
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}
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