Classes/Sort/ArrayQuickSort.cpp

#include "ArrayQuickSort.h"
#include "../String/StringTools.h"
#include "../String/String.h"
#include "../System/SystemDefine.h"

ArrayQuickSort::ArrayQuickSort()
{
}

ArrayQuickSort::~ArrayQuickSort()
{
}


static int statement;

void ArrayQuickSort::setStatement(int iStatement)
{
        statement=iStatement;
}

//      quicksort(array,0,numberof-1);

int ArrayQuickSort::partitionOrder(int *list, int start, int top)
{
    int pivot = list[top];                          // Partition around the last value
    int bottom = start-1;                           // Start outside the area to be partitioned
    bool done=true;

        while (done)                            // Until all elements are partitioned...
    {
                while (done)                        // Until we find an out of place element...
                {
                        bottom++;                       // ... move the bottom up.
            if (bottom == top)                  // If we hit the top...
            {
                                done = false;                       // ... we are done.
                break;
                        }
                        
                        if (statement==0)
                        {
                    if (list[bottom] < pivot)
                                {                                                                       // Is the bottom out of place?
                        list[top] = list[bottom];       // Then put at the top... 6=7
                        break;
                                }                               // ... and start searching from the top.
                        }
                        else
                        {
                    if (list[bottom] > pivot)
                                {                                                                       // Is the bottom out of place?
                        list[top] = list[bottom];       // Then put at the top... 6=7
                        break;
                                }                               // ... and start searching from the top.
                        }
                }

                while (done)                        // Until we find an out of place element...
        {
                        --top;                        // ... move the top down.
            
            if (top == bottom)                  // If we hit the bottom...
            {
                                done = false;                       // ... we are done.
                break;
                        }

                        if (statement==0)
                        {
                                if (list[top] > pivot)             // Is the top out of place?
                                {
                                        list[bottom] = list[top];       // Then put it at the bottom...
                                    break;                                                      
                                }                                       // ...and start searching from the bottom.
                        }
                        else
                        {
                                if (list[top] < pivot)             // Is the top out of place?
                                {
                                        list[bottom] = list[top];       // Then put it at the bottom...
                                    break;                                                      
                                }                                       // ...and start searching from the bottom.
                        }
                }
        }
                
        list[top] = pivot;                          // Put the pivot in its place.
    return top;                                 // Return the split point
}

void ArrayQuickSort::sortLargestOrder(int *list, int start, int end)
{
        if ( start < end )
        {                                                                                       // If there are two or more elements...
        int split = partitionOrder(list, start, end);    //... partition the sublist...
        sortLargestOrder(list, start, split-1);        // ... and sort both halves.
        sortLargestOrder(list, split+1, end);     
        }
}

void ArrayQuickSort::sortSmallestOrder(int *list, int start, int end)
{
        if ( start < end )
        {                                                                                       // If there are two or more elements...
        int split = partitionOrder(list,start,end);    //... partition the sublist...
        sortSmallestOrder(list, start, split-1 );        // ... and sort both halves.
        sortSmallestOrder(list, split+1, end);     

        }
}
                
/////////////////////////////////////////////////////////////////
// string sorting
/////////////////////////////////////////////////////////////////

int ArrayQuickSort::partitionStringOrder(String **list, int start, int top)
{
        StringTools stringTools;

    String *pivot = list[top];                          // Partition around the last value
    int bottom = start-1;                           // Start outside the area to be partitioned
    bool done=true;

        while (done)                            // Until all elements are partitioned...
    {
                while (done)                        // Until we find an out of place element...
                {
                        bottom++;                       // ... move the bottom up.
            if (bottom == top)                  // If we hit the top...
            {
                                done = false;                       // ... we are done.
                break;
                        }
                        
                        if (statement==0)
                        {
                                String *string=list[bottom];
                                String *string2=pivot;

                                if (stringTools.isStringSmaller(string->buffer,string->length,string2->buffer,string2->length))
                                {                                                                       // Is the bottom out of place?
                        list[top] = list[bottom];       // Then put at the top... 6=7
                        break;
                                }                               // ... and start searching from the top.
                        }
                        else
                        {
                                String *string=list[bottom];
                                String *string2=pivot;

                                if (stringTools.isStringLarger(string->buffer,string->length,string2->buffer,string2->length))
                                {                                                                       // Is the bottom out of place?
                        list[top] = list[bottom];       // Then put at the top... 6=7
                        break;
                                }                               // ... and start searching from the top.
                        }
                }

                while (done)                        // Until we find an out of place element...
        {
                        --top;                        // ... move the top down.
            
            if (top == bottom)                  // If we hit the bottom...
            {
                                done = false;                       // ... we are done.
                break;
                        }

                        if (statement==0)
                        {
                                String *string=list[top];
                                String *string2=pivot;

                                if (stringTools.isStringLarger(string->buffer,string->length,string2->buffer,string2->length))
                                {
                                        list[bottom] = list[top];       // Then put it at the bottom...
                                    break;                                                      
                                }                                       // ...and start searching from the bottom.
                        }
                        else
                        {
                                String *string=list[top];
                                String *string2=pivot;

                                if (stringTools.isStringSmaller(string->buffer,string->length,string2->buffer,string2->length))
                                {
                                        list[bottom] = list[top];       // Then put it at the bottom...
                                    break;                                                      
                                }                                       // ...and start searching from the bottom.
                        }
                }
        }
                
        list[top] = pivot;                          // Put the pivot in its place.
    return top;                                 // Return the split point
}

void ArrayQuickSort::sortLargestStringOrder(String **list, int start, int end)
{
        if ( start < end )
        {                                                                                       // If there are two or more elements...
        int split = partitionStringOrder(list, start, end);    //... partition the sublist...
        sortLargestStringOrder(list, start, split-1);        // ... and sort both halves.
        sortLargestStringOrder(list, split+1, end);     
        }
}

void ArrayQuickSort::sortSmallestStringOrder(String **list, int start, int end)
{
        if ( start < end )
        {                                                                                       // If there are two or more elements...
        int split = partitionStringOrder(list,start,end);    //... partition the sublist...
        sortSmallestStringOrder(list, start, split-1 );        // ... and sort both halves.
        sortSmallestStringOrder(list, split+1, end);     

        }
}
1	#include "ArrayQuickSort.h"
2	#include "../String/StringTools.h"
3	#include "../String/String.h"
4	#include "../System/SystemDefine.h"
5
6	ArrayQuickSort::ArrayQuickSort()
7	{
8	}
9
10	ArrayQuickSort::~ArrayQuickSort()
11	{
12	}
13
14
15
16
17	static int statement;
18
19	void ArrayQuickSort::setStatement(int iStatement)
20	{
21	statement=iStatement;
22	}
23
24	// quicksort(array,0,numberof-1);
25
26	int ArrayQuickSort::partitionOrder(int *list, int start, int top)
27	{
28	int pivot = list[top]; // Partition around the last value
29	int bottom = start-1; // Start outside the area to be partitioned
30	bool done=true;
31
32	while (done) // Until all elements are partitioned...
33	{
34	while (done) // Until we find an out of place element...
35	{
36	bottom++; // ... move the bottom up.
37	if (bottom == top) // If we hit the top...
38	{
39	done = false; // ... we are done.
40	break;
41	}
42
43	if (statement==0)
44	{
45	if (list[bottom] < pivot)
46	{ // Is the bottom out of place?
47	list[top] = list[bottom]; // Then put at the top... 6=7
48	break;
49	} // ... and start searching from the top.
50	}
51	else
52	{
53	if (list[bottom] > pivot)
54	{ // Is the bottom out of place?
55	list[top] = list[bottom]; // Then put at the top... 6=7
56	break;
57	} // ... and start searching from the top.
58	}
59	}
60
61	while (done) // Until we find an out of place element...
62	{
63	--top; // ... move the top down.
64
65	if (top == bottom) // If we hit the bottom...
66	{
67	done = false; // ... we are done.
68	break;
69	}
70
71	if (statement==0)
72	{
73	if (list[top] > pivot) // Is the top out of place?
74	{
75	list[bottom] = list[top]; // Then put it at the bottom...
76	break;
77	} // ...and start searching from the bottom.
78	}
79	else
80	{
81	if (list[top] < pivot) // Is the top out of place?
82	{
83	list[bottom] = list[top]; // Then put it at the bottom...
84	break;
85	} // ...and start searching from the bottom.
86	}
87	}
88	}
89
90	list[top] = pivot; // Put the pivot in its place.
91	return top; // Return the split point
92	}
93
94	void ArrayQuickSort::sortLargestOrder(int *list, int start, int end)
95	{
96	if ( start < end )
97	{ // If there are two or more elements...
98	int split = partitionOrder(list, start, end); //... partition the sublist...
99	sortLargestOrder(list, start, split-1); // ... and sort both halves.
100	sortLargestOrder(list, split+1, end);
101	}
102	}
103
104	void ArrayQuickSort::sortSmallestOrder(int *list, int start, int end)
105	{
106	if ( start < end )
107	{ // If there are two or more elements...
108	int split = partitionOrder(list,start,end); //... partition the sublist...
109	sortSmallestOrder(list, start, split-1 ); // ... and sort both halves.
110	sortSmallestOrder(list, split+1, end);
111
112	}
113	}
114
115	/////////////////////////////////////////////////////////////////
116	// string sorting
117	/////////////////////////////////////////////////////////////////
118
119	int ArrayQuickSort::partitionStringOrder(String **list, int start, int top)
120	{
121	StringTools stringTools;
122
123	String *pivot = list[top]; // Partition around the last value
124	int bottom = start-1; // Start outside the area to be partitioned
125	bool done=true;
126
127	while (done) // Until all elements are partitioned...
128	{
129	while (done) // Until we find an out of place element...
130	{
131	bottom++; // ... move the bottom up.
132	if (bottom == top) // If we hit the top...
133	{
134	done = false; // ... we are done.
135	break;
136	}
137
138	if (statement==0)
139	{
140	String *string=list[bottom];
141	String *string2=pivot;
142
143	if (stringTools.isStringSmaller(string->buffer,string->length,string2->buffer,string2->length))
144	{ // Is the bottom out of place?
145	list[top] = list[bottom]; // Then put at the top... 6=7
146	break;
147	} // ... and start searching from the top.
148	}
149	else
150	{
151	String *string=list[bottom];
152	String *string2=pivot;
153
154	if (stringTools.isStringLarger(string->buffer,string->length,string2->buffer,string2->length))
155	{ // Is the bottom out of place?
156	list[top] = list[bottom]; // Then put at the top... 6=7
157	break;
158	} // ... and start searching from the top.
159	}
160	}
161
162	while (done) // Until we find an out of place element...
163	{
164	--top; // ... move the top down.
165
166	if (top == bottom) // If we hit the bottom...
167	{
168	done = false; // ... we are done.
169	break;
170	}
171
172	if (statement==0)
173	{
174	String *string=list[top];
175	String *string2=pivot;
176
177	if (stringTools.isStringLarger(string->buffer,string->length,string2->buffer,string2->length))
178	{
179	list[bottom] = list[top]; // Then put it at the bottom...
180	break;
181	} // ...and start searching from the bottom.
182	}
183	else
184	{
185	String *string=list[top];
186	String *string2=pivot;
187
188	if (stringTools.isStringSmaller(string->buffer,string->length,string2->buffer,string2->length))
189	{
190	list[bottom] = list[top]; // Then put it at the bottom...
191	break;
192	} // ...and start searching from the bottom.
193	}
194	}
195	}
196
197	list[top] = pivot; // Put the pivot in its place.
198	return top; // Return the split point
199	}
200
201	void ArrayQuickSort::sortLargestStringOrder(String **list, int start, int end)
202	{
203	if ( start < end )
204	{ // If there are two or more elements...
205	int split = partitionStringOrder(list, start, end); //... partition the sublist...
206	sortLargestStringOrder(list, start, split-1); // ... and sort both halves.
207	sortLargestStringOrder(list, split+1, end);
208	}
209	}
210
211	void ArrayQuickSort::sortSmallestStringOrder(String **list, int start, int end)
212	{
213	if ( start < end )
214	{ // If there are two or more elements...
215	int split = partitionStringOrder(list,start,end); //... partition the sublist...
216	sortSmallestStringOrder(list, start, split-1 ); // ... and sort both halves.
217	sortSmallestStringOrder(list, split+1, end);
218
219	}
220	}