/** * @file Huffman.h * @author Sheng Di * @date Aug., 2016 * @brief Header file for the exponential segment constructor. * (C) 2016 by Mathematics and Computer Science (MCS), Argonne National Laboratory. * See COPYRIGHT in top-level directory. */ #ifndef _Huffman_H #define _Huffman_H #ifdef __cplusplus extern "C" { #endif //Note: when changing the following settings, intvCapacity in sz.h should be changed as well. //#define allNodes 131072 //#define stateNum 65536 typedef struct node_t { struct node_t *left, *right; size_t freq; char t; //in_node:0; otherwise:1 unsigned int c; } *node; typedef struct HuffmanTree { unsigned int stateNum; unsigned int allNodes; struct node_t* pool; node *qqq, *qq; //the root node of the HuffmanTree is qq[1] int n_nodes; //n_nodes is for compression int qend; unsigned long **code; unsigned char *cout; int n_inode; //n_inode is for decompression int maxBitCount; } HuffmanTree; HuffmanTree* createHuffmanTree(int stateNum); HuffmanTree* createDefaultHuffmanTree(); node new_node(HuffmanTree *huffmanTree, size_t freq, unsigned int c, node a, node b); node new_node2(HuffmanTree *huffmanTree, unsigned int c, unsigned char t); void qinsert(HuffmanTree *huffmanTree, node n); node qremove(HuffmanTree *huffmanTree); void build_code(HuffmanTree *huffmanTree, node n, int len, unsigned long out1, unsigned long out2); void init(HuffmanTree *huffmanTree, int *s, size_t length); void init_static(HuffmanTree *huffmanTree, int *s, size_t length); void encode(HuffmanTree *huffmanTree, int *s, size_t length, unsigned char *out, size_t *outSize); void decode(unsigned char *s, size_t targetLength, node t, int *out); void pad_tree_uchar(HuffmanTree* huffmanTree, unsigned char* L, unsigned char* R, unsigned int* C, unsigned char* t, unsigned int i, node root); void pad_tree_ushort(HuffmanTree* huffmanTree, unsigned short* L, unsigned short* R, unsigned int* C, unsigned char* t, unsigned int i, node root); void pad_tree_uint(HuffmanTree* huffmanTree, unsigned int* L, unsigned int* R, unsigned int* C, unsigned char* t, unsigned int i, node root); unsigned int convert_HuffTree_to_bytes_anyStates(HuffmanTree* huffmanTree, int nodeCount, unsigned char** out); void unpad_tree_uchar(HuffmanTree* huffmanTree, unsigned char* L, unsigned char* R, unsigned int* C, unsigned char *t, unsigned int i, node root); void unpad_tree_ushort(HuffmanTree* huffmanTree, unsigned short* L, unsigned short* R, unsigned int* C, unsigned char* t, unsigned int i, node root); void unpad_tree_uint(HuffmanTree* huffmanTree, unsigned int* L, unsigned int* R, unsigned int* C, unsigned char* t, unsigned int i, node root); node reconstruct_HuffTree_from_bytes_anyStates(HuffmanTree *huffmanTree, unsigned char* bytes, int nodeCount); void encode_withTree(HuffmanTree* huffmanTree, int *s, size_t length, unsigned char **out, size_t *outSize); void decode_withTree(HuffmanTree* huffmanTree, unsigned char *s, size_t targetLength, int *out); void SZ_ReleaseHuffman(HuffmanTree* huffmanTree); #ifdef __cplusplus } #endif #endif