diff -r 01e4e9ae323a -r 8b697d30c49f sources/huffman/huffcodec.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/sources/huffman/huffcodec.cpp Thu Dec 11 07:18:11 2014 +0200
@@ -0,0 +1,329 @@
+/*
+ * skulltag::HuffmanCodec class - Huffman encoder and decoder.
+ *
+ * Copyright 2009 Timothy Landers
+ * email: code.vortexcortex@gmail.com
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#include "huffcodec.h"
+
+/** Prevents naming convention problems via encapsulation. */
+namespace skulltag {
+
+// HuffmanCodec Implementation
+
+ /** Reverses the order of bits in a byte.
+ * EG: The statement reverseMap[0xAF] == 0xF5
is true
.
+ * The index 10101111
stores the reverse value: 11110101
.
+ * Note: One array lookup is much faster than Eight bit manipulating loop iterations. */
+ unsigned char const HuffmanCodec::reverseMap[] = {
+ 0,128, 64,192, 32,160, 96,224, 16,144, 80,208, 48,176,112,240,
+ 8,136, 72,200, 40,168,104,232, 24,152, 88,216, 56,184,120,248,
+ 4,132, 68,196, 36,164,100,228, 20,148, 84,212, 52,180,116,244,
+ 12,140, 76,204, 44,172,108,236, 28,156, 92,220, 60,188,124,252,
+ 2,130, 66,194, 34,162, 98,226, 18,146, 82,210, 50,178,114,242,
+ 10,138, 74,202, 42,170,106,234, 26,154, 90,218, 58,186,122,250,
+ 6,134, 70,198, 38,166,102,230, 22,150, 86,214, 54,182,118,246,
+ 14,142, 78,206, 46,174,110,238, 30,158, 94,222, 62,190,126,254,
+ 1,129, 65,193, 33,161, 97,225, 17,145, 81,209, 49,177,113,241,
+ 9,137, 73,201, 41,169,105,233, 25,153, 89,217, 57,185,121,249,
+ 5,133, 69,197, 37,165,101,229, 21,149, 85,213, 53,181,117,245,
+ 13,141, 77,205, 45,173,109,237, 29,157, 93,221, 61,189,125,253,
+ 3,131, 67,195, 35,163, 99,227, 19,147, 83,211, 51,179,115,243,
+ 11,139, 75,203, 43,171,107,235, 27,155, 91,219, 59,187,123,251,
+ 7,135, 71,199, 39,167,103,231, 23,151, 87,215, 55,183,119,247,
+ 15,143, 79,207, 47,175,111,239, 31,159, 95,223, 63,191,127,255
+ };
+
+ /** Creates a new HuffmanCodec
+ * @param treeData char array containing the tree data to use.
+ * @param dataLength number of chars in treeData. */
+ HuffmanCodec::HuffmanCodec(
+ unsigned char const * const treeData,
+ int dataLength
+ ) : Codec() {
+ init();
+ // init code table (256 pointers to Huffman Leaf Nodes.)
+ codeTable = new HuffmanNode*[256];
+ for (int i = 0; i < 256; i++) codeTable[i] = 0;
+ // build root node
+ root = new HuffmanNode;
+ root->bitCount = 0;
+ root->code = 0;
+ root->value = -1;
+ // recursive Huffman tree builder.
+ buildTree( root, treeData, 0, dataLength, codeTable, 256 );
+ huffResourceOwner = true;
+ }
+
+
+ /** Creates a new HuffmanCodec that uses the specified Huffman resources.
+ * @param treeRootNode The root node of a valid huffman tree.
+ * @param leafCodeTable A code lookup table where references to HuffmanNodes are stored with their array index equal to their value.
+ * Note: The tree nodes will not be released upon destruction of this HuffmanCodec. */
+ HuffmanCodec::HuffmanCodec(
+ HuffmanNode * treeRootNode,
+ HuffmanNode ** leafCodeTable
+ ){
+ init();
+ // assign values -- no table building or allocations.
+ root = treeRootNode;
+ codeTable = leafCodeTable;
+ huffResourceOwner = false;
+ }
+
+ /** Checks the ownership state of this HuffmanCodec's resources.
+ * @return true if the tree & code table will be released upon destruction of this HuffmanCodec.
+ * A false return value means this HuffmanCodec is not responsible for deleting its resources. */
+ bool HuffmanCodec::huffmanResourceOwner(){
+ return huffResourceOwner;
+ }
+
+ /** Perform initialization procedures common to all constructors. */
+ void HuffmanCodec::init(){
+ writer = new BitWriter();
+ reverseBits = false;
+ expandable = true;
+ huffResourceOwner = false;
+ }
+
+ /** Increases a codeLength up to the longest Huffman code bit length found in the node or any of its children.
+ * Set to Zero before calling to determine maximum code bit length.
+ * @param node in: The node to begin searching at.
+ * @param codeLength out: Variable to hold the longest code bit length found. */
+ void HuffmanCodec::maxCodeLength( HuffmanNode const * const node, int &codeLength ){
+ // [TL] We must walk each tree node since the codeTable may not contain the set of all leaf nodes.
+ // bail on NULL node (tree is corrupt).
+ if ( node == 0) return;
+ // Recurse across children if they exist.
+ if ( node->branch != 0 ){
+ maxCodeLength( &(node->branch[0]), codeLength );
+ maxCodeLength( &(node->branch[1]), codeLength );
+ } else if ( codeLength < node->bitCount ){
+ // set codeLength if it's smaller than current node's bitCount.
+ codeLength = node->bitCount;
+ }
+ }
+
+ /** Decreases a codeLength to the shortest Huffman code bit length found in the node or any of its children.
+ * Set to Zero before calling to determine minimum code bit length.
+ * @param node in: The node to begin searching at.
+ * @param codeLength out: Variable to hold the longest code bit length found. */
+ void HuffmanCodec::minCodeLength( HuffmanNode const * const node, int &codeLength ){
+ /* [TL] Do not optimize under the assumption child nodes will have longer code Lengths!
+ * Future subclasses may have trees that diverge from Huffman specs. */
+ // bail on NULL node (tree is corrupt).
+ if ( node == 0 ) return;
+ // Recurse across children if they exist.
+ if ( node->branch != 0 ){
+ minCodeLength( &(node->branch[0]), codeLength );
+ minCodeLength( &(node->branch[1]), codeLength );
+ } else if ( (codeLength > node->bitCount) || (codeLength == 0) ) {
+ // set codeLength if it's Zero or larger than current node's bitCount.
+ codeLength = node->bitCount;
+ }
+ }
+
+ /** Recursively builds a Huffman Tree.
+ * The initial root node should have the following field values:
+ *
+ * bitCount : 0 + * code : 0 + * value : -1 + * branch : 0 (NULL) + *+ * @param node in/out: branch node of the Huffman Tree. + * @param treeData in: char array containing the Huffman Tree's byte representation. + * @param index in: Current array element to read the next tree node from. + * @param dataLength in: Length of treeData + * @param codeTable in/out: array of pointers to HuffmanNode structs. + * @param tableLength in: maximum index allowed in the codeTable. + * @return the next index to read from or -1 if an error occurs. + * */ + int HuffmanCodec::buildTree( + HuffmanNode * node, + unsigned char const * const treeData, + int index, + int dataLength, + HuffmanNode ** const &codeTable, + int tableLength + ){ + if ( index >= dataLength ) return -1; + // Read the branch description bit field + int desc = treeData[index]; + index++; + + // Create the array that will hold L/R child nodes of this branch. + node->branch = new HuffmanNode[2]; + + // Read the child Nodes for this branch. + for ( int i = 0; i < 2; i++ ){ + // Increase bit count, and update huffman code to match the node's tree position. + node->branch[i].bitCount = node->bitCount + 1; + node->branch[i].code = (node->code << 1) | i; // appends a 0 or 1 depending on L/R branch. + node->branch[i].value = -1; // default value. + + // Test a bit from the branch description (least significant bit == left) + if ( (desc & (1 << i)) == 0 ){ + // Child node is a branch; Recurse. + if ( (index = buildTree( &(node->branch[i]), treeData, index, dataLength, codeTable, tableLength )) < 0 ) return -1; + // This means the entire left sub tree will be read before the right sub tree gets read. + } else { + // Read leaf value and map its value/index in the nodes array. + if ( index >= dataLength ) return -1; + // set the nodes huffman code values. + node->branch[i].code = (node->code << 1) | i; + node->branch[i].bitCount = node->bitCount+1; + node->branch[i].value = treeData[index] & 0xff; + // NULL the child node's branch to mark it as a leaf. + node->branch[i].branch = 0; + // buffer overflow check. + if ( (node->branch[i].value >= 0) && (node->branch[i].value <= tableLength ) ) + // store a pointer to the leaf node into the code table at the location of its byte value. + codeTable[ node->branch[i].value ] = &node->branch[i]; + index++; + } + } + + return index; + } + + /** Decodes data read from an input buffer and stores the result in the output buffer. + * @return number of bytes stored in the output buffer or -1 if an error occurs while encoding. */ + int HuffmanCodec::encode( + unsigned char const * const input, /**< in: pointer to the first byte to encode. */ + unsigned char * const output, /**< out: pointer to an output buffer to store data. */ + int const &inLength, /**< in: number of bytes of input buffer to encoded. */ + int const &outLength /**< in: maximum length of data to output. */ + ) const { + // setup the bit buffer to output. if not expandable Limit output to input length. + if ( expandable ) writer->outputBuffer( output, outLength ); + else writer->outputBuffer( output, ((inLength + 1) < outLength) ? inLength + 1 : outLength ); + + writer->put( (unsigned char)0 ); // reserve place for padding signal. + + HuffmanNode * node; // temp ptr cache; + for ( int i = 0; i < inLength; i++ ){ + node = codeTable[ 0xff & input[i] ]; //lookup node + // Put the huffman code into the bit buffer and bail if error occurs. + if ( !writer->put( node->code, node->bitCount ) ) return -1; + } + int bytesWritten, padding; + if ( writer->finish( bytesWritten, padding ) ){ + // write padding signal byte to begining of stream. + output[0] = (unsigned char)padding; + } else return -1; + + // Reverse the bit order of each byte (Old Huffman Compatibility Mode) + if ( reverseBits ) for ( int i = 1; i < bytesWritten; i++ ){ + output[i] = reverseMap[ 0xff & output[i] ]; + } + + return bytesWritten; + } // end function encode + + /** Decodes data read from an input buffer and stores the result in the output buffer. + * @return number of bytes stored in the output buffer or -1 if an error occurs while decoding. */ + int HuffmanCodec::decode( + unsigned char const * const input, /**< in: pointer to data that needs decoding. */ + unsigned char * const output, /**< out: pointer to output buffer to store decoded data. */ + int const &inLength, /**< in: number of bytes of input buffer to read. */ + int const &outLength /**< in: maximum length of data to output. */ + ){ + if ( inLength < 1 ) return 0; + int bitsAvailable = ((inLength-1) << 3) - (0xff & input[0]); + int rIndex = 1; // read index of input buffer. + int wIndex = 0; // write index of output buffer. + char byte = 0; // bits of the current byte. + int bitsLeft = 0; // bits left in byte; + + HuffmanNode * node = root; + + // Traverse the tree, output values. + while ( (bitsAvailable > 0) && (node != 0) ){ + + // Get the next byte if we've run out. + if ( bitsLeft <= 0 ){ + byte = input[rIndex++]; + if ( reverseBits ) byte = reverseMap[ 0xff & byte ]; + bitsLeft = 8; + } + + // Traverse the tree according to the most significant bit. + node = &(node->branch[ ((byte >> 7) & 0x01) ]); + + // Is the node Non NULL, and a leaf? + if ( (node != 0) && (node->branch == 0) ){ + // buffer overflow prevention + if ( wIndex >= outLength ) return wIndex; + // Output leaf node's value and restart traversal at root node. + output[ wIndex++ ] = (unsigned char)(node->value & 0xff); + node = root; + } + + byte <<= 1; // cue up the next bit + bitsLeft--; // use up one bit of byte + bitsAvailable--; // decrement total bits left + } + + return wIndex; + } // end function decode + + /** Deletes all sub nodes of a HuffmanNode by traversing and deleting its child nodes. + * @param treeNode pointer to a HuffmanNode whos children will be deleted. */ + void HuffmanCodec::deleteTree( HuffmanNode * treeNode ){ + if ( treeNode == 0 ) return; + if ( treeNode->branch != 0 ){ + deleteTree( &(treeNode->branch[0]) ); + deleteTree( &(treeNode->branch[1]) ); + delete treeNode->branch; + } + } + + /** Destructor - frees resources. */ + HuffmanCodec::~HuffmanCodec() { + delete writer; + //check for resource ownership before deletion + if ( huffmanResourceOwner() ){ + delete codeTable; + deleteTree( root ); + delete root; + } + } + + /** Enables or Disables backwards bit ordering of bytes. + * @param backwards "true" enables reversed bit order bytes, "false" uses standard byte bit ordering. */ + void HuffmanCodec::reversedBytes( bool backwards ){ reverseBits = backwards; } + + /** Check the state of backwards bit ordering for bytes. + * @return true: bits within bytes are reversed. false: bits within bytes are normal. */ + bool HuffmanCodec::reversedBytes(){ return reverseBits; } + + /** Enable or Disable data expansion during encoding. + * @param expandingAllowed "true" allows encoding to expand data. "false" causes failure upon expansion. */ + void HuffmanCodec::allowExpansion( bool expandingAllowed ){ expandable = expandingAllowed; } + + /** Check the state of data expandability. + * @return true: data expansion is allowed. false: data is not allowed to expand. */ + bool HuffmanCodec::allowExpansion(){ return expandable; } + + +}; // end namespace skulltag