stk-code_catmod/lib/sheenbidi/Source/RunQueue.c

149 lines
4.1 KiB
C
Raw Normal View History

/*
* Copyright (C) 2014-2019 Muhammad Tayyab Akram
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <SBConfig.h>
#include <stddef.h>
#include <stdlib.h>
#include "LevelRun.h"
#include "SBAssert.h"
#include "SBBase.h"
#include "RunQueue.h"
static void FindPreviousPartialRun(RunQueueRef queue)
{
RunQueueListRef list = queue->_partialList;
SBInteger top = queue->_partialTop;
do {
SBInteger limit = (list == queue->_frontList ? queue->_frontTop : 0);
do {
LevelRunRef levelRun = &list->elements[top];
if (RunKindIsPartialIsolate(levelRun->kind)) {
queue->_partialList = list;
queue->_partialTop = top;
return;
}
} while (top-- > limit);
list = list->previous;
top = RunQueueList_MaxIndex;
} while (list);
queue->_partialList = NULL;
queue->_partialTop = -1;
queue->shouldDequeue = SBFalse;
}
SB_INTERNAL void RunQueueInitialize(RunQueueRef queue)
{
/* Initialize first list. */
queue->_firstList.previous = NULL;
queue->_firstList.next = NULL;
/* Initialize front and rear lists with first list. */
queue->_frontList = &queue->_firstList;
queue->_rearList = &queue->_firstList;
queue->_partialList = NULL;
/* Initialize list indexes. */
queue->_frontTop = 0;
queue->_rearTop = -1;
queue->_partialTop = -1;
/* Initialize rest of the elements. */
queue->count = 0;
queue->peek = &queue->_frontList->elements[queue->_frontTop];
queue->shouldDequeue = SBFalse;
}
SB_INTERNAL void RunQueueEnqueue(RunQueueRef queue, const LevelRunRef levelRun)
{
LevelRunRef element;
if (queue->_rearTop != RunQueueList_MaxIndex) {
element = &queue->_rearList->elements[++queue->_rearTop];
} else {
RunQueueListRef previousList = queue->_rearList;
RunQueueListRef rearList = previousList->next;
if (!rearList) {
rearList = malloc(sizeof(RunQueueList));
rearList->previous = previousList;
rearList->next = NULL;
previousList->next = rearList;
}
queue->_rearList = rearList;
queue->_rearTop = 0;
element = &rearList->elements[0];
}
queue->count += 1;
/* Copy the level run into current element. */
*element = *levelRun;
/* Complete the latest isolating run with this terminating run */
if (queue->_partialTop != -1 && RunKindIsTerminating(element->kind)) {
LevelRunRef incompleteRun = &queue->_partialList->elements[queue->_partialTop];
LevelRunAttach(incompleteRun, element);
FindPreviousPartialRun(queue);
}
/* Save the location of the isolating run */
if (RunKindIsIsolate(element->kind)) {
queue->_partialList = queue->_rearList;
queue->_partialTop = queue->_rearTop;
}
}
SB_INTERNAL void RunQueueDequeue(RunQueueRef queue)
{
/* The queue should not be empty. */
SBAssert(queue->count != 0);
if (queue->_frontTop != RunQueueList_MaxIndex) {
queue->_frontTop += 1;
} else {
RunQueueListRef frontList = queue->_frontList;
if (frontList == queue->_rearList) {
queue->_rearTop = -1;
} else {
queue->_frontList = frontList->next;
}
queue->_frontTop = 0;
}
queue->count -= 1;
queue->peek = &queue->_frontList->elements[queue->_frontTop];
}
SB_INTERNAL void RunQueueFinalize(RunQueueRef queue)
{
RunQueueListRef list = queue->_firstList.next;
while (list) {
RunQueueListRef next = list->next;
free(list);
list = next;
};
}