SleepIsDeath/gameSource/StringTree.cpp

#include "StringTree.h"

#include "minorGems/util/SimpleVector.h"
#include "minorGems/util/stringUtils.h"


#include <stdio.h>

// for platform-independent ptr -> unsigned int casting
#include <stdint.h>


typedef struct valueHolder {
        void *value;
        char mark;
    } valueHolder;


#define B 2000

class ValueHashTable {
    public:
        
        ~ValueHashTable();
        
        void insert( valueHolder *inHolder );
        
        void remove( valueHolder *inHolder );
        
        valueHolder *lookup( void *inValue );

    protected:
        
        SimpleVector<valueHolder *> mBins[B];
        
    };


ValueHashTable::~ValueHashTable() {
    for( int b=0; b<B; b++ ) {
        SimpleVector<valueHolder *> *v = &( mBins[b] );
        
        int numHits = v->size();
        
        for( int i=0; i<numHits; i++ ) {
            delete *( v->getElement( i ) );
            }
        }
    }

        
void ValueHashTable::insert( valueHolder *inHolder ) {
    int b = (uintptr_t)( inHolder->value ) % B;
    
    mBins[b].push_back( inHolder );
    }


void ValueHashTable::remove( valueHolder *inHolder ) {
    int b = (uintptr_t)( inHolder->value ) % B;
    
    mBins[b].deleteElementEqualTo( inHolder );
    }


valueHolder *ValueHashTable::lookup( void *inValue ) {
    int b = (uintptr_t)( inValue ) % B;
    
    SimpleVector<valueHolder *> *v = &( mBins[b] );
    
    int numHits = v->size();
    
    for( int i=0; i<numHits; i++ ) {
        valueHolder *holder = *( v->getElement( i ) );

        if( holder->value == inValue ) {
            return holder;
            }
        }

    return NULL;
    }


class StringTreeNode {
    public:
        StringTreeNode( char inChar, StringTreeNode *inParent );
        
        ~StringTreeNode();
        

        void insert( const char *inString, void *inValue,
                     ValueHashTable *inHashTable );
        

        // removes value at this node, and recursively deletes upward if
        // this node is now empty
        void remove( valueHolder *inHolder );
        

        StringTreeNode *search( const char *inString );


        // is this node empty
        char isEmpty();

        
        // use inDownOnly for root node of a match (to get everything below
        // that node, but not to left or right of that node)
        int countValuesBelow( char inDownOnly );
        
        
        // pointers for inNumToGet and inNumToSkip because they are 
        // used for tracking progress in recursion (modified during call)
        // returns num gotten
        void getValuesBelow( int *inNumToGet, int *inNumToSkip, 
                             SimpleVector<void *> *outValues,
                             char inDownOnly );
        
        
        void unmarkValuesBelow( char inDownOnly );
        

        void print();
        
        char mChar;
        SimpleVector<valueHolder*> mValues;
        
        StringTreeNode *mParent;
        
        StringTreeNode *mLeft;
        StringTreeNode *mDown;
        StringTreeNode *mRight;

    protected:
        
        void removeChild( StringTreeNode *inChild );
        
        
    };


StringTreeNode::StringTreeNode( char inChar, StringTreeNode *inParent )
        : mChar( inChar ),
          mParent( inParent ), mLeft( NULL ), mDown( NULL), mRight( NULL ) {
    }


StringTreeNode::~StringTreeNode() {
    if( mLeft != NULL ) {
        delete mLeft;
        }
    if( mDown != NULL ) {
        delete mDown;
        }
    if( mRight != NULL ) {
        delete mRight;
        }
    }


extern void printResourceRecord( void *inR );


void StringTreeNode::insert( const char *inString, void *inValue,
                             ValueHashTable *inHashTable ) {
    
    if( inString[0] == mChar ) {
        // match

        if( inString[1] == '\0' ) {

            // ends here
            valueHolder *v = inHashTable->lookup( inValue );
            
            if( v == NULL ) {
                v = new valueHolder;
                v->value = inValue;
                v->mark = false;
                inHashTable->insert( v );
                }
            
            mValues.push_back( v );
            }
        else {
            // pass down, skipping matched char
            
            if( mDown == NULL ) {
                // create it
                mDown = new StringTreeNode( inString[1], this );
                }
            
            mDown->insert( &( inString[1] ), inValue, inHashTable );
            }
        }
    else {
        // non-match
        
        if( inString[0] < mChar ) {
            // left    
            if( mLeft == NULL ) {
                mLeft = new StringTreeNode( inString[0], this );
                }
            
            mLeft->insert( inString, inValue, inHashTable );
            }
        else if( inString[0] > mChar ) {
            // right    
            if( mRight == NULL ) {
                mRight = new StringTreeNode( inString[0], this );
                }
            
            mRight->insert( inString, inValue, inHashTable );
            }
        }
    }


char StringTreeNode::isEmpty() {
    if( mValues.size() == 0
        && mLeft == NULL
        && mDown == NULL
        && mRight == NULL ) {

        return true;
        }
    return false;
    }


void StringTreeNode::remove( valueHolder *inHolder ) {
    
    mValues.deleteElementEqualTo( inHolder );
    

    if( isEmpty() ) {
        
        if( mParent != NULL ) {
            mParent->removeChild( this );
            }
        }
    }


void StringTreeNode::removeChild( StringTreeNode *inChild ) {

    if( mLeft == inChild ) {
        delete mLeft;
        mLeft = NULL;
        }
    if( mDown == inChild ) {
        delete mDown;
        mDown = NULL;
        }
    if( mRight == inChild ) {
        delete mRight;
        mRight = NULL;
        }
    

    if( isEmpty() ) {
        
        if( mParent != NULL ) {
            mParent->removeChild( this );
            }
        }
    }


StringTreeNode *StringTreeNode::search( const char *inString ) {
    if( inString[0] == mChar ) {
        // match

        if( inString[1] == '\0' ) {
            // ends here
            return this;
            }
        else {
            // pass down, skipping matched char
            
            if( mDown == NULL ) {
                // not found
                return NULL;
                }
            return mDown->search( &( inString[1] ) );
            }
        }
    else {
        // non-match
        
        if( inString[0] < mChar ) {
            // left    
            if( mLeft == NULL ) {
                return NULL;
                }
            
            return mLeft->search( inString );
            }
        else {
            // right    
            if( mRight == NULL ) {
                return NULL;
                }
            
            return mRight->search( inString );
            }
        }
    }


int StringTreeNode::countValuesBelow( char inDownOnly ) {
    
    int num = 0;
    
    if( !inDownOnly && mLeft != NULL ) {
        num += mLeft->countValuesBelow( false );
        }
    
    int numHere = mValues.size();
    
    for( int i=0; i<numHere; i++ ) {
        valueHolder *v = *( mValues.getElement( i ) );
        
        if( !v->mark ) {
            // mark it
            v->mark = true;
            
            // count it
            num++;
            }
        // else already counted... skip it
        }
    

    if( mDown != NULL ) {
        num += mDown->countValuesBelow( false );
        }

    if( !inDownOnly && mRight != NULL ) {
        num += mRight->countValuesBelow( false );
        }

    return num;
    }


void StringTreeNode::getValuesBelow( int *inNumToGet, int *inNumToSkip, 
                                     SimpleVector<void *> *outValues,
                                     char inDownOnly ) {

    if( !inDownOnly && mLeft != NULL ) {
        mLeft->getValuesBelow( inNumToGet, inNumToSkip,
                               outValues, false );
        }
    
    if( *inNumToGet == 0 ) {
        return;
        }
    
    // self
    int numHere = mValues.size();

    // newest values first
    for( int i=numHere-1; i>=0 && *inNumToGet > 0; i-- ) {
        
        valueHolder *v = *( mValues.getElement( i ) );
        
        if( !v->mark ) {
            // mark it
            v->mark = true;

            if( *inNumToSkip > 0 ) {
                (*inNumToSkip) --;
                }
            else {
                // done skipping

                // take value
                outValues->push_back( v->value );
            
                (*inNumToGet) --;
                }
            }
        }


    if( *inNumToGet == 0 ) {
        return;
        }
    

    if( mDown != NULL ) {
        mDown->getValuesBelow( inNumToGet, inNumToSkip,
                               outValues, false );
        }


    if( *inNumToGet == 0 ) {
        return;
        }
    

    if( !inDownOnly && mRight != NULL ) {
        mRight->getValuesBelow( inNumToGet, inNumToSkip,
                                outValues, false );
        }

    }


void StringTreeNode::unmarkValuesBelow( char inDownOnly ) {
    
    if( !inDownOnly && mLeft != NULL ) {
        mLeft->unmarkValuesBelow( false );
        }
    
    int numHere = mValues.size();
    
    for( int i=0; i<numHere; i++ ) {
        valueHolder *v = *( mValues.getElement( i ) );
        v->mark = false;
        }
    

    if( mDown != NULL ) {
        mDown->unmarkValuesBelow( false );
        }

    if( !inDownOnly && mRight != NULL ) {
        mRight->unmarkValuesBelow( false );
        }
    }


void StringTreeNode::print() {
    
    // Graphviz format

    char *valueString = stringDuplicate( "" );
    
    /*
    for( int i=0; i<mValues.size(); i++ ) {
        char *newString = 
            autoSprintf( "%s%s, ", valueString, 
                         (char*)( *( mValues.getElement( i ) ) )->value );
        
        delete [] valueString;
        valueString = newString;
        }
    */

    printf( "n%p; n%p [label = \"%c (%s) {%p}\"]; ",
            (void *)this, (void *)this, mChar, valueString, 
            (void *)this );
    
    delete [] valueString;

    if( mLeft != NULL ) {
        mLeft->print();
        printf( "n%p -> n%p [label = \"L\", weight=1]; ", 
                (void *)this, (void *)mLeft );
        }
    if( mDown != NULL ) {
        mDown->print();
        printf( "n%p -> n%p [label = \"D\", weight=4]; ", 
                (void *)this, (void *)mDown );
        }
    if( mRight != NULL ) {
        mRight->print();
        printf( "n%p -> n%p [label = \"R\", weight=1]; ", 
                (void *)this, (void *)mRight );
        }


    }
        
    
StringTree::StringTree()
        : mTreeRoot( NULL ),
          mHashTable( new ValueHashTable ) {
    }

        
StringTree::~StringTree() {
    if( mTreeRoot != NULL ) {
        delete mTreeRoot;
        }
    delete mHashTable;
    }

        
void StringTree::insert( const char *inString, void *inValue ) {
    if( mTreeRoot == NULL ) {
        mTreeRoot = new StringTreeNode( inString[0], NULL );
        }
    

    // insert all suffixes
    int numChars = strlen( inString );

    
    for( int i=0; i<numChars; i++ ) {    
        mTreeRoot->insert( &( inString[i] ), inValue, mHashTable );
        }
    
    /*
    printf( "After inseriting %s, tree is:\n", inString );
    mTreeRoot->print();
    
    printf( "\n\n\n" );
    */
    }


void StringTree::remove( const char *inString, void *inValue ) {
    if( mTreeRoot == NULL ) {
        return;
        }

    valueHolder *holder = mHashTable->lookup( inValue );
    
    if( holder != NULL ) {
        
    
        // search for all suffixes to find nodes that hold our value
        int numChars = strlen( inString );
        
        for( int i=0; i<numChars; i++ ) {  
            
            StringTreeNode *matchNode = mTreeRoot->search( &( inString[i] ) );
    
            if( matchNode != NULL ) {

                matchNode->remove( holder );
                }
            }
        mHashTable->remove( holder );

        delete holder;
        }

    if( mTreeRoot->isEmpty() ) {
        delete mTreeRoot;
        mTreeRoot = NULL;
        }
    
    /*
    printf( "After removing %s, tree is:\n", inString );
    if( mTreeRoot != NULL ) {
        mTreeRoot->print();
        }
    else {
        printf( "NULL" );
        }
    printf( "\n\n\n" );
    */
    }

        
int StringTree::countMatches( const char *inSearch ) {
    if( mTreeRoot == NULL ) {
        return 0;
        }
    
    
    StringTreeNode *matchNode;
    char downOnly;
    
    if( inSearch[0] == '\0' ) {
        // empty search, whole tree
        matchNode = mTreeRoot;
        downOnly = false;
        }
    else {
        matchNode = mTreeRoot->search( inSearch );
        downOnly = true;
        }

    
    if( matchNode != NULL ) {
        int numMatches = matchNode->countValuesBelow( downOnly );
        
        matchNode->unmarkValuesBelow( downOnly );

        return numMatches;
        }
    else {
        return 0;
        }
    }

        
int StringTree::getMatches( const char *inSearch, 
                            int inNumToSkip, int inNumToGet,
                            void **outValues ) {
    
    if( mTreeRoot == NULL ) {
        return 0;
        }


    StringTreeNode *matchNode;
    char downOnly;
    
    if( inSearch[0] == '\0' ) {
        // empty search, whole tree
        matchNode = mTreeRoot;
        downOnly = false;
        }
    else {
        matchNode = mTreeRoot->search( inSearch );
        downOnly = true;
        }

    if( matchNode == NULL ) {
        return 0;
        }
    

    SimpleVector<void *> results;
    
    // these are modified by call
    int numToGet = inNumToGet;
    int numToSkip = inNumToSkip;
    
    matchNode->getValuesBelow( &numToGet, &numToSkip, 
                               &results, downOnly );

    matchNode->unmarkValuesBelow( downOnly );


    int numResults = results.size();
    

    void **resultArray = results.getElementArray();
    
    int numToCopy = numResults;
    if( inNumToGet < numToCopy ) {
        numToCopy = inNumToGet;
        }
    

    memcpy( outValues, resultArray, numToCopy * sizeof( void * ) );

    delete [] resultArray;


    return numToCopy;
    }
Exported latest revision from sourceforge cvs, discarding history. 2017-10-11 20:16:19 +00:00			`#include "StringTree.h"`

			`#include "minorGems/util/SimpleVector.h"`
			`#include "minorGems/util/stringUtils.h"`


			`#include <stdio.h>`

			`// for platform-independent ptr -> unsigned int casting`
			`#include <stdint.h>`



			`typedef struct valueHolder {`
			`void *value;`
			`char mark;`
			`} valueHolder;`


			`#define B 2000`

			`class ValueHashTable {`
			`public:`

			`~ValueHashTable();`

			`void insert( valueHolder *inHolder );`

			`void remove( valueHolder *inHolder );`

			`valueHolder lookup( void inValue );`

			`protected:`

			`SimpleVector<valueHolder *> mBins[B];`

			`};`



			`ValueHashTable::~ValueHashTable() {`
			`for( int b=0; b<B; b++ ) {`
			`SimpleVector<valueHolder > v = &( mBins[b] );`

			`int numHits = v->size();`

			`for( int i=0; i<numHits; i++ ) {`
			`delete *( v->getElement( i ) );`
			`}`
			`}`
			`}`



			`void ValueHashTable::insert( valueHolder *inHolder ) {`
			`int b = (uintptr_t)( inHolder->value ) % B;`

			`mBins[b].push_back( inHolder );`
			`}`



			`void ValueHashTable::remove( valueHolder *inHolder ) {`
			`int b = (uintptr_t)( inHolder->value ) % B;`

			`mBins[b].deleteElementEqualTo( inHolder );`
			`}`



			`valueHolder ValueHashTable::lookup( void inValue ) {`
			`int b = (uintptr_t)( inValue ) % B;`

			`SimpleVector<valueHolder > v = &( mBins[b] );`

			`int numHits = v->size();`

			`for( int i=0; i<numHits; i++ ) {`
			`valueHolder holder = ( v->getElement( i ) );`

			`if( holder->value == inValue ) {`
			`return holder;`
			`}`
			`}`

			`return NULL;`
			`}`







			`class StringTreeNode {`
			`public:`
			`StringTreeNode( char inChar, StringTreeNode *inParent );`

			`~StringTreeNode();`


			`void insert( const char inString, void inValue,`
			`ValueHashTable *inHashTable );`


			`// removes value at this node, and recursively deletes upward if`
			`// this node is now empty`
			`void remove( valueHolder *inHolder );`


			`StringTreeNode search( const char inString );`


			`// is this node empty`
			`char isEmpty();`


			`// use inDownOnly for root node of a match (to get everything below`
			`// that node, but not to left or right of that node)`
			`int countValuesBelow( char inDownOnly );`



			`// pointers for inNumToGet and inNumToSkip because they are`
			`// used for tracking progress in recursion (modified during call)`
			`// returns num gotten`
			`void getValuesBelow( int inNumToGet, int inNumToSkip,`
			`SimpleVector<void > outValues,`
			`char inDownOnly );`


			`void unmarkValuesBelow( char inDownOnly );`


			`void print();`

			`char mChar;`
			`SimpleVector<valueHolder*> mValues;`

			`StringTreeNode *mParent;`

			`StringTreeNode *mLeft;`
			`StringTreeNode *mDown;`
			`StringTreeNode *mRight;`

			`protected:`

			`void removeChild( StringTreeNode *inChild );`


			`};`



			`StringTreeNode::StringTreeNode( char inChar, StringTreeNode *inParent )`
			`: mChar( inChar ),`
			`mParent( inParent ), mLeft( NULL ), mDown( NULL), mRight( NULL ) {`
			`}`



			`StringTreeNode::~StringTreeNode() {`
			`if( mLeft != NULL ) {`
			`delete mLeft;`
			`}`
			`if( mDown != NULL ) {`
			`delete mDown;`
			`}`
			`if( mRight != NULL ) {`
			`delete mRight;`
			`}`
			`}`



			`extern void printResourceRecord( void *inR );`


			`void StringTreeNode::insert( const char inString, void inValue,`
			`ValueHashTable *inHashTable ) {`

			`if( inString[0] == mChar ) {`
			`// match`

			`if( inString[1] == '\0' ) {`

			`// ends here`
			`valueHolder *v = inHashTable->lookup( inValue );`

			`if( v == NULL ) {`
			`v = new valueHolder;`
			`v->value = inValue;`
			`v->mark = false;`
			`inHashTable->insert( v );`
			`}`

			`mValues.push_back( v );`
			`}`
			`else {`
			`// pass down, skipping matched char`

			`if( mDown == NULL ) {`
			`// create it`
			`mDown = new StringTreeNode( inString[1], this );`
			`}`

			`mDown->insert( &( inString[1] ), inValue, inHashTable );`
			`}`
			`}`
			`else {`
			`// non-match`

			`if( inString[0] < mChar ) {`
			`// left`
			`if( mLeft == NULL ) {`
			`mLeft = new StringTreeNode( inString[0], this );`
			`}`

			`mLeft->insert( inString, inValue, inHashTable );`
			`}`
			`else if( inString[0] > mChar ) {`
			`// right`
			`if( mRight == NULL ) {`
			`mRight = new StringTreeNode( inString[0], this );`
			`}`

			`mRight->insert( inString, inValue, inHashTable );`
			`}`
			`}`
			`}`



			`char StringTreeNode::isEmpty() {`
			`if( mValues.size() == 0`
			`&& mLeft == NULL`
			`&& mDown == NULL`
			`&& mRight == NULL ) {`

			`return true;`
			`}`
			`return false;`
			`}`




			`void StringTreeNode::remove( valueHolder *inHolder ) {`

			`mValues.deleteElementEqualTo( inHolder );`


			`if( isEmpty() ) {`

			`if( mParent != NULL ) {`
			`mParent->removeChild( this );`
			`}`
			`}`
			`}`



			`void StringTreeNode::removeChild( StringTreeNode *inChild ) {`

			`if( mLeft == inChild ) {`
			`delete mLeft;`
			`mLeft = NULL;`
			`}`
			`if( mDown == inChild ) {`
			`delete mDown;`
			`mDown = NULL;`
			`}`
			`if( mRight == inChild ) {`
			`delete mRight;`
			`mRight = NULL;`
			`}`


			`if( isEmpty() ) {`

			`if( mParent != NULL ) {`
			`mParent->removeChild( this );`
			`}`
			`}`
			`}`








			`StringTreeNode StringTreeNode::search( const char inString ) {`
			`if( inString[0] == mChar ) {`
			`// match`

			`if( inString[1] == '\0' ) {`
			`// ends here`
			`return this;`
			`}`
			`else {`
			`// pass down, skipping matched char`

			`if( mDown == NULL ) {`
			`// not found`
			`return NULL;`
			`}`
			`return mDown->search( &( inString[1] ) );`
			`}`
			`}`
			`else {`
			`// non-match`

			`if( inString[0] < mChar ) {`
			`// left`
			`if( mLeft == NULL ) {`
			`return NULL;`
			`}`

			`return mLeft->search( inString );`
			`}`
			`else {`
			`// right`
			`if( mRight == NULL ) {`
			`return NULL;`
			`}`

			`return mRight->search( inString );`
			`}`
			`}`
			`}`



			`int StringTreeNode::countValuesBelow( char inDownOnly ) {`

			`int num = 0;`

			`if( !inDownOnly && mLeft != NULL ) {`
			`num += mLeft->countValuesBelow( false );`
			`}`

			`int numHere = mValues.size();`

			`for( int i=0; i<numHere; i++ ) {`
			`valueHolder v = ( mValues.getElement( i ) );`

			`if( !v->mark ) {`
			`// mark it`
			`v->mark = true;`

			`// count it`
			`num++;`
			`}`
			`// else already counted... skip it`
			`}`


			`if( mDown != NULL ) {`
			`num += mDown->countValuesBelow( false );`
			`}`

			`if( !inDownOnly && mRight != NULL ) {`
			`num += mRight->countValuesBelow( false );`
			`}`

			`return num;`
			`}`




			`void StringTreeNode::getValuesBelow( int inNumToGet, int inNumToSkip,`
			`SimpleVector<void > outValues,`
			`char inDownOnly ) {`

			`if( !inDownOnly && mLeft != NULL ) {`
			`mLeft->getValuesBelow( inNumToGet, inNumToSkip,`
			`outValues, false );`
			`}`

			`if( *inNumToGet == 0 ) {`
			`return;`
			`}`

			`// self`
			`int numHere = mValues.size();`

			`// newest values first`
			`for( int i=numHere-1; i>=0 && *inNumToGet > 0; i-- ) {`

			`valueHolder v = ( mValues.getElement( i ) );`

			`if( !v->mark ) {`
			`// mark it`
			`v->mark = true;`

			`if( *inNumToSkip > 0 ) {`
			`(*inNumToSkip) --;`
			`}`
			`else {`
			`// done skipping`

			`// take value`
			`outValues->push_back( v->value );`

			`(*inNumToGet) --;`
			`}`
			`}`
			`}`




			`if( *inNumToGet == 0 ) {`
			`return;`
			`}`


			`if( mDown != NULL ) {`
			`mDown->getValuesBelow( inNumToGet, inNumToSkip,`
			`outValues, false );`
			`}`


			`if( *inNumToGet == 0 ) {`
			`return;`
			`}`


			`if( !inDownOnly && mRight != NULL ) {`
			`mRight->getValuesBelow( inNumToGet, inNumToSkip,`
			`outValues, false );`
			`}`

			`}`



			`void StringTreeNode::unmarkValuesBelow( char inDownOnly ) {`

			`if( !inDownOnly && mLeft != NULL ) {`
			`mLeft->unmarkValuesBelow( false );`
			`}`

			`int numHere = mValues.size();`

			`for( int i=0; i<numHere; i++ ) {`
			`valueHolder v = ( mValues.getElement( i ) );`
			`v->mark = false;`
			`}`


			`if( mDown != NULL ) {`
			`mDown->unmarkValuesBelow( false );`
			`}`

			`if( !inDownOnly && mRight != NULL ) {`
			`mRight->unmarkValuesBelow( false );`
			`}`
			`}`



			`void StringTreeNode::print() {`

			`// Graphviz format`

			`char *valueString = stringDuplicate( "" );`

			`/*`
			`for( int i=0; i<mValues.size(); i++ ) {`
			`char *newString =`
			`autoSprintf( "%s%s, ", valueString,`
			`(char)( ( mValues.getElement( i ) ) )->value );`

			`delete [] valueString;`
			`valueString = newString;`
			`}`
			`*/`

			`printf( "n%p; n%p [label = \"%c (%s) {%p}\"]; ",`
			`(void )this, (void )this, mChar, valueString,`
			`(void *)this );`

			`delete [] valueString;`

			`if( mLeft != NULL ) {`
			`mLeft->print();`
			`printf( "n%p -> n%p [label = \"L\", weight=1]; ",`
			`(void )this, (void )mLeft );`
			`}`
			`if( mDown != NULL ) {`
			`mDown->print();`
			`printf( "n%p -> n%p [label = \"D\", weight=4]; ",`
			`(void )this, (void )mDown );`
			`}`
			`if( mRight != NULL ) {`
			`mRight->print();`
			`printf( "n%p -> n%p [label = \"R\", weight=1]; ",`
			`(void )this, (void )mRight );`
			`}`


			`}`









			`StringTree::StringTree()`
			`: mTreeRoot( NULL ),`
			`mHashTable( new ValueHashTable ) {`
			`}`


			`StringTree::~StringTree() {`
			`if( mTreeRoot != NULL ) {`
			`delete mTreeRoot;`
			`}`
			`delete mHashTable;`
			`}`



			`void StringTree::insert( const char inString, void inValue ) {`
			`if( mTreeRoot == NULL ) {`
			`mTreeRoot = new StringTreeNode( inString[0], NULL );`
			`}`


			`// insert all suffixes`
			`int numChars = strlen( inString );`


			`for( int i=0; i<numChars; i++ ) {`
			`mTreeRoot->insert( &( inString[i] ), inValue, mHashTable );`
			`}`

			`/*`
			`printf( "After inseriting %s, tree is:\n", inString );`
			`mTreeRoot->print();`

			`printf( "\n\n\n" );`
			`*/`
			`}`


			`void StringTree::remove( const char inString, void inValue ) {`
			`if( mTreeRoot == NULL ) {`
			`return;`
			`}`

			`valueHolder *holder = mHashTable->lookup( inValue );`

			`if( holder != NULL ) {`


			`// search for all suffixes to find nodes that hold our value`
			`int numChars = strlen( inString );`

			`for( int i=0; i<numChars; i++ ) {`

			`StringTreeNode *matchNode = mTreeRoot->search( &( inString[i] ) );`

			`if( matchNode != NULL ) {`

			`matchNode->remove( holder );`
			`}`
			`}`
			`mHashTable->remove( holder );`

			`delete holder;`
			`}`

			`if( mTreeRoot->isEmpty() ) {`
			`delete mTreeRoot;`
			`mTreeRoot = NULL;`
			`}`

			`/*`
			`printf( "After removing %s, tree is:\n", inString );`
			`if( mTreeRoot != NULL ) {`
			`mTreeRoot->print();`
			`}`
			`else {`
			`printf( "NULL" );`
			`}`
			`printf( "\n\n\n" );`
			`*/`
			`}`


			`int StringTree::countMatches( const char *inSearch ) {`
			`if( mTreeRoot == NULL ) {`
			`return 0;`
			`}`


			`StringTreeNode *matchNode;`
			`char downOnly;`

			`if( inSearch[0] == '\0' ) {`
			`// empty search, whole tree`
			`matchNode = mTreeRoot;`
			`downOnly = false;`
			`}`
			`else {`
			`matchNode = mTreeRoot->search( inSearch );`
			`downOnly = true;`
			`}`


			`if( matchNode != NULL ) {`
			`int numMatches = matchNode->countValuesBelow( downOnly );`

			`matchNode->unmarkValuesBelow( downOnly );`

			`return numMatches;`
			`}`
			`else {`
			`return 0;`
			`}`
			`}`



			`int StringTree::getMatches( const char *inSearch,`
			`int inNumToSkip, int inNumToGet,`
			`void **outValues ) {`

			`if( mTreeRoot == NULL ) {`
			`return 0;`
			`}`


			`StringTreeNode *matchNode;`
			`char downOnly;`

			`if( inSearch[0] == '\0' ) {`
			`// empty search, whole tree`
			`matchNode = mTreeRoot;`
			`downOnly = false;`
			`}`
			`else {`
			`matchNode = mTreeRoot->search( inSearch );`
			`downOnly = true;`
			`}`

			`if( matchNode == NULL ) {`
			`return 0;`
			`}`


			`SimpleVector<void *> results;`

			`// these are modified by call`
			`int numToGet = inNumToGet;`
			`int numToSkip = inNumToSkip;`

			`matchNode->getValuesBelow( &numToGet, &numToSkip,`
			`&results, downOnly );`

			`matchNode->unmarkValuesBelow( downOnly );`


			`int numResults = results.size();`


			`void **resultArray = results.getElementArray();`

			`int numToCopy = numResults;`
			`if( inNumToGet < numToCopy ) {`
			`numToCopy = inNumToGet;`
			`}`


			`memcpy( outValues, resultArray, numToCopy * sizeof( void * ) );`

			`delete [] resultArray;`


			`return numToCopy;`
			`}`