/* * The Python Imaging Library * $Id$ * * heap data type used by the image quantizer * * history: * 98-09-10 tjs Contributed * 98-12-29 fl Added to PIL 1.0b1 * * Written by Toby J Sargeant . * * Copyright (c) 1998 by Toby J Sargeant * Copyright (c) 1998 by Secret Labs AB * * See the README file for information on usage and redistribution. */ #include #include #include #include #include #include "QuantHeap.h" struct _Heap { void **heap; unsigned int heapsize; unsigned int heapcount; HeapCmpFunc cf; }; #define INITIAL_SIZE 256 // #define DEBUG #ifdef DEBUG static int _heap_test(Heap *); #endif void ImagingQuantHeapFree(Heap *h) { free(h->heap); free(h); } static int _heap_grow(Heap *h,unsigned int newsize) { void *newheap; if (!newsize) { newsize=h->heapsize<<1; } if (newsizeheapsize) { return 0; } if (newsize > INT_MAX / sizeof(void *)){ return 0; } /* malloc check ok, using calloc for overflow, also checking above due to memcpy below*/ newheap=calloc(newsize, sizeof(void *)); if (!newheap) { return 0; } memcpy(newheap,h->heap,sizeof(void *)*h->heapsize); free(h->heap); h->heap=newheap; h->heapsize=newsize; return 1; } #ifdef DEBUG static int _heap_test(Heap *h) { unsigned int k; for (k=1;k*2<=h->heapcount;k++) { if (h->cf(h,h->heap[k],h->heap[k*2])<0) { printf ("heap is bad\n"); return 0; } if (k*2+1<=h->heapcount && h->cf(h,h->heap[k],h->heap[k*2+1])<0) { printf ("heap is bad\n"); return 0; } } return 1; } #endif int ImagingQuantHeapRemove(Heap* h,void **r) { unsigned int k,l; void *v; if (!h->heapcount) { return 0; } *r=h->heap[1]; v=h->heap[h->heapcount--]; for (k=1;k*2<=h->heapcount;k=l) { l=k*2; if (lheapcount) { if (h->cf(h,h->heap[l],h->heap[l+1])<0) { l++; } } if (h->cf(h,v,h->heap[l])>0) { break; } h->heap[k]=h->heap[l]; } h->heap[k]=v; #ifdef DEBUG if (!_heap_test(h)) { printf ("oops - heap_remove messed up the heap\n"); exit(1); } #endif return 1; } int ImagingQuantHeapAdd(Heap *h,void *val) { int k; if (h->heapcount==h->heapsize-1) { _heap_grow(h,0); } k=++h->heapcount; while (k!=1) { if (h->cf(h,val,h->heap[k/2])<=0) { break; } h->heap[k]=h->heap[k/2]; k>>=1; } h->heap[k]=val; #ifdef DEBUG if (!_heap_test(h)) { printf ("oops - heap_add messed up the heap\n"); exit(1); } #endif return 1; } int ImagingQuantHeapTop(Heap *h,void **r) { if (!h->heapcount) { return 0; } *r=h->heap[1]; return 1; } Heap *ImagingQuantHeapNew(HeapCmpFunc cf) { Heap *h; /* malloc check ok, small constant allocation */ h=malloc(sizeof(Heap)); if (!h) { return NULL; } h->heapsize=INITIAL_SIZE; /* malloc check ok, using calloc for overflow */ h->heap=calloc(h->heapsize, sizeof(void *)); if (!h->heap) { free(h); return NULL; } h->heapcount=0; h->cf=cf; return h; }