source: cpp/frams/model/similarity/simil_match.cpp @ 438

Last change on this file since 438 was 361, checked in by Maciej Komosinski, 10 years ago

Signed/unsigned int issues (r352) resolved differently - in most cases no (int)size() cast

  • Property svn:eol-style set to native
File size: 7.8 KB
RevLine 
[349]1// This file is a part of Framsticks SDK.  http://www.framsticks.com/
2// Copyright (C) 1999-2015  Maciej Komosinski and Szymon Ulatowski.
3// See LICENSE.txt for details.
4
5#include <assert.h>
6#include <stdio.h>
7#include "simil_match.h"
8
9/** Creates an empty matching for two objects of specified size.
10        @param Obj0Size Size of the first object. Must be positive.
11        @param Obj1Size Size of the second object. Must be positive.
12 */
13SimilMatching::SimilMatching(int Obj0Size, int Obj1Size)
14{
15    // assure that sizes of objects are positive
16    assert(Obj0Size > 0);
17    assert(Obj1Size > 0);
18
19    // create necessary vectors
20    m_apvMatched[0] = new std::vector<int>(Obj0Size);
21    m_apvMatched[1] = new std::vector<int>(Obj1Size);
22
23    // assure that vectors are created
24    assert(m_apvMatched[0] != NULL);
25    assert(m_apvMatched[1] != NULL);
26
27    // fill vectors with "unmatched" indicator
[361]28        for (unsigned int i = 0; i < m_apvMatched[0]->size(); i++)
[349]29    {
30        m_apvMatched[0]->operator[](i) = -1;
31    }
[361]32        for (unsigned int i = 0; i < m_apvMatched[1]->size(); i++)
[349]33    {
34        m_apvMatched[1]->operator[](i) = -1;
35    }
36}
37
38/** A copying constructor.
39        @param Source The object to be copied.
40 */
41SimilMatching::SimilMatching(const SimilMatching &Source)
42{
43    // copy the vectors of the actual matching
44    m_apvMatched[ 0 ] = new std::vector<int>(* (Source.m_apvMatched[ 0 ]));
45    m_apvMatched[ 1 ] = new std::vector<int>(* (Source.m_apvMatched[ 1 ]));
46
47    // assure that vectors are created
48    assert(m_apvMatched[0] != NULL);
49    assert(m_apvMatched[1] != NULL);
50}
51
52/** Destroys a matching object.
53 */
54SimilMatching::~SimilMatching()
55{
56    // delete vectors of matching
57    delete m_apvMatched[0];
58    delete m_apvMatched[1];
59}
60
61/** Gets size of the specified object.
62        @param Index of an object (must be 0 or 1).
63        @return Size of the object (in elements).
64 */
65int SimilMatching::GetObjectSize(int Obj)
66{
67    // check parameter
68    assert((Obj == 0) || (Obj == 1));
69
70    // return the result
71    return m_apvMatched[ Obj ]->size();
72}
73
74/** Matches elements given by indices in the given objects.
75        @param Obj0 Index of the first object. Must be 0 or 1.
76        @param index0 Index of element in the first object. Must be a valid index
77        ( >= 0 and < size of the object).
78        @param Obj1 Index of the second object. Must be 0 or 1 and different from Obj0.
79        @param Index1 index of element in the second object. Must be a valid index
80        ( >= 0 and < size of the object).
81
82 */
83void SimilMatching::Match(int Obj0, int Index0, int Obj1, int Index1)
84{
85    // check parameters of object 0
86    assert((Obj0 == 0) || (Obj0 == 1));
[352]87    assert((Index0 >= 0) && (Index0 < (int) m_apvMatched[Obj0]->size()));
[349]88    // check parameters of object 1
89    assert(((Obj1 == 0) || (Obj1 == 1)) && (Obj0 != Obj1));
[352]90    assert((Index1 >= 0) && (Index1 < (int) m_apvMatched[Obj1]->size()));
[349]91
92    // match given elements
93    // matching_Obj0(Index0) = Index1
94    m_apvMatched[ Obj0 ]->operator[](Index0) = Index1;
95    // matching_Obj1(Index1) = Index0
96    m_apvMatched[ Obj1 ]->operator[](Index1) = Index0;
97}
98
99/** Checks if the given element in the given object is already matched.
100        @param Obj Index of an object (must be 0 or 1).
101        @param Index Index of an element in the given object. Must be a valid index
102        ( >=0 and < size of the object).
103        @return true if the given element is matched, false otherwise.
104 */
105bool SimilMatching::IsMatched(int Obj, int Index)
106{
107    // check parameters
108    assert((Obj == 0) || (Obj == 1));
[352]109    assert((Index >= 0) && (Index < (int) m_apvMatched[ Obj ]->size()));
[349]110
111    // check if the element is matched
112    if (m_apvMatched[ Obj ]->operator[](Index) >= 0)
113    {
114        return true;
115    }
116    else
117    {
118        return false;
119    }
120}
121
122/** Gets index of the element thet is matched in the other object withe the element given
123        by parameters.
124        @param Obj Index of an object (must be 0 or 1).
125        @param Index Index of checked element in the given object.
126        @return Index of the element (in the other organism) that is matched with the given
127        element. WARNING! If the given element is not matched, the result may be smaller than 0
128        (check IsMatched() before using GetMatchedIndex()).
129 */
130int SimilMatching::GetMatchedIndex(int Obj, int Index)
131{
132    // check parameters
133    assert((Obj == 0) || (Obj == 1));
[352]134    assert((Index >= 0) && (Index < (int) m_apvMatched[ Obj ]->size()));
[349]135
136    // return the index of the matched element
137    return m_apvMatched[ Obj ]->operator[](Index);
138}
139
140/** Checks if the matching is already full, i.e. if the smaller object already has all its
141        elements matched.
142        @return true if matching is full, false otherwise.
143 */
144bool SimilMatching::IsFull()
145{
146    // assume that the matching is full
147    bool bResult = true;
148    // index of the smallest object
149    int nObj;
150
151    // find the smallest object (its index)
152    if (m_apvMatched[ 0 ]->size() < m_apvMatched[ 1 ]->size())
153    {
154        nObj = 0;
155    }
156    else
157    {
158        nObj = 1;
159    }
160
161    // check if all elements of the smallest object are matched
[361]162        for (unsigned int nElem = 0; nElem < m_apvMatched[nObj]->size(); nElem++)
[349]163    {
164        if (m_apvMatched[ nObj ]->operator[](nElem) < 0)
165        {
166            // if any element is not matched, the result is false
167            bResult = false;
168            break;
169        }
170    }
171
172    // return the result
173    return bResult;
174}
175
176/** Checks if the matching is empty (i.e. none of elements is matched).
177    @return true if matching is empty, otherwise - false.
178 */
179bool SimilMatching::IsEmpty()
180{
181    // result - assume that matching is empty
182    bool bResult = true;
183
184    // matching is empty if either of objects has only unmatched elements
185    // so it may be first object
186    int nObj = 0;
[361]187        for (unsigned int nElem = 0; nElem < m_apvMatched[nObj]->size(); nElem++)
[349]188    {
189        if (m_apvMatched[ nObj ]->operator[](nElem) >= 0)
190        {
191            // if any element of the object is matched (unmatched objects have (-1))
192            bResult = false;
193            break;
194        }
195    }
196
197    // return the result from the loop
198    return bResult;
199}
200
201/** Makes the matching completely empty. After a call to this method IsEmpty() should return true.
202 */
203void SimilMatching::Empty()
204{
[361]205    for (int iObj = 0; iObj < 2; iObj++) // a counter of objects
[349]206    {
207        // for each object in the matching
[361]208                for (unsigned int iElem = 0; iElem < m_apvMatched[iObj]->size(); iElem++) // a counter of objects' elements
[349]209        {
210            // for each element iElem for the object iObj
211            // set it as unmatched (marker: -1)
212            m_apvMatched[ iObj ]->operator[](iElem) = -1;
213        }
214    }
215
216    // the exit condition
217    assert(IsEmpty() == true);
218}
219
220/** Prints the current state of the matching
221 */
222void SimilMatching::PrintMatching()
223{
224    int nBigger;
225
226    // check which object is bigger
227    if (m_apvMatched[ 0 ]->size() >= m_apvMatched[ 1 ]->size())
228    {
229        nBigger = 0;
230    }
231    else
232    {
233        nBigger = 1;
234    }
235
236    // print first line - indices of objects
237    printf("[ ");
[361]238        for (unsigned int i = 0; i < m_apvMatched[nBigger]->size(); i++)
[349]239    {
[361]240        printf("%2d ", i);
[349]241    }
242    printf("]\n");
243
244    // print second line and third - indices of elements matched with elements of the objects
245    for (int nObj = 0; nObj < 2; nObj++)
246    {
247        // for both objects - print out lines of matched elements
248        printf("[ ");
[361]249                for (unsigned int i = 0; i < m_apvMatched[nObj]->size(); i++)
[349]250        {
251            if (IsMatched(nObj, i))
252            {
253                // if the element is matched - print the index
[361]254                printf("%2d ", GetMatchedIndex(nObj, i));
[349]255            }
256            else
257            {
258                // if the element is not matched - print "X"
259                printf(" X ");
260            }
261        }
262        printf("]\n");
263    }
264}
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