Statistics
| Branch: | Tag: | Revision:

humotion / src / timestamped_list.cpp @ 318729f7

History | View | Annotate | Download (6.597 KB)

1
/*
2
* This file is part of humotion
3
*
4
* Copyright(c) sschulz <AT> techfak.uni-bielefeld.de
5
* http://opensource.cit-ec.de/projects/humotion
6
*
7
* This file may be licensed under the terms of the
8
* GNU Lesser General Public License Version 3 (the ``LGPL''),
9
* or (at your option) any later version.
10
*
11
* Software distributed under the License is distributed
12
* on an ``AS IS'' basis, WITHOUT WARRANTY OF ANY KIND, either
13
* express or implied. See the LGPL for the specific language
14
* governing rights and limitations.
15
*
16
* You should have received a copy of the LGPL along with this
17
* program. If not, go to http://www.gnu.org/licenses/lgpl.html
18
* or write to the Free Software Foundation, Inc.,
19
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
20
*
21
* The development of this software was supported by the
22
* Excellence Cluster EXC 277 Cognitive Interaction Technology.
23
* The Excellence Cluster EXC 277 is a grant of the Deutsche
24
* Forschungsgemeinschaft (DFG) in the context of the German
25
* Excellence Initiative.
26
*/
27

    
28
#include "timestamped_list.h"
29
#include "assert.h"
30

    
31
using namespace std;
32
using namespace boost;
33
using namespace humotion;
34

    
35
TimestampedList::TimestampedList(unsigned int s){
36
    //initialize the list to its desired size:
37
    TimestampedFloat now;
38
    tsf_list.resize(s, now);
39
}
40

    
41
TimestampedList::TimestampedList(TimestampedList const &l){
42
    //lock the tsf_list for this access. by doing this we assure
43
    //that no other thread accessing this element can diturb the
44
    //following atomic instructions:
45
    mutex::scoped_lock scoped_lock(l.access_mutex);
46

    
47
    //now do a deep copy with locking!
48
    tsf_list = l.tsf_list;
49
}
50

    
51
void TimestampedList::copy_tsf_list_to(timestamped_float_list_t *target){
52
    //lock the tsf_list for this access. by doing this we assure
53
    //that no other thread accessing this element can diturb the
54
    //following atomic instructions:
55
    mutex::scoped_lock scoped_lock(access_mutex);
56

    
57
    *target = tsf_list;
58
}
59

    
60

    
61
Timestamp TimestampedList::get_first_timestamp(){
62
    //lock the tsf_list for this access. by doing this we assure
63
    //that no other thread accessing this element can diturb the
64
    //following atomic instructions:
65
    mutex::scoped_lock scoped_lock(access_mutex);
66

    
67
    if (tsf_list.empty()){
68
        return Timestamp(0,0);
69
    }
70

    
71
    timestamped_float_list_t::iterator it = tsf_list.begin();
72
    return it->timestamp;
73
}
74

    
75
Timestamp TimestampedList::get_last_timestamp(){
76
    //lock the tsf_list for this access. by doing this we assure
77
    //that no other thread accessing this element can diturb the
78
    //following atomic instructions:
79
    mutex::scoped_lock scoped_lock(access_mutex);
80

    
81
    if (tsf_list.empty()){
82
        return Timestamp(0,0);
83
    }
84

    
85
    timestamped_float_list_t::iterator it = tsf_list.end();
86
    it--;
87
    return it->timestamp;
88
}
89

    
90
void TimestampedList::insert(Timestamp timestamp, float val){
91
    //erase first element:
92
    tsf_list.pop_front();
93
    tsf_list.push_back(TimestampedFloat(timestamp, val));
94
    //printf("insert [%5.3f] = %5.1f\n",timestamp,val);
95
}
96

    
97
float TimestampedList::get_newest_value(){
98
    //lock the tsf_list for this access. by doing this we assure
99
    //that no other thread accessing this element can diturb the
100
    //following atomic instructions:
101
    mutex::scoped_lock scoped_lock(access_mutex);
102

    
103
    if (tsf_list.empty()){
104
        printf("> WARNING: requested newest value from empty list, returning 0.0\n");
105
        return 0.0;
106
    }
107

    
108
    timestamped_float_list_t::iterator it = tsf_list.end();
109
    it--;
110
    return it->value;
111
}
112

    
113
float TimestampedList::get_interpolated_value(Timestamp target_ts){
114
    //lock the tsf_list for this access. by doing this we assure
115
    //that no other thread accessing this element can diturb the
116
    //following atomic instructions:
117
    mutex::scoped_lock scoped_lock(access_mutex);
118

    
119
    ///target_ts -= 0.001 * 4;
120

    
121
    TimestampedFloat previous;
122
    //printf("> latency %3.2fms\n", (Timestamped().to_seconds() - target_ts.to_seconds())*1000.0);
123

    
124
    for ( timestamped_float_list_t::iterator it = tsf_list.begin(); it != tsf_list.end(); ++it ){
125
        if (it->timestamp >= target_ts){
126
            //ok found close target
127
            if (it == tsf_list.begin()){
128
                //no preceding element
129
                printf("> warning, timestamp %6.3f smaller than first element %6.3f in timestamped list. this should not happen (increase ts buffer?)\n",target_ts.to_seconds(),tsf_list.begin()->timestamp.to_seconds());
130
                return it->value;
131
            }else{
132
                //do interpolation
133
                return interpolate(*it, previous, target_ts);
134
            }
135
        }
136
        previous = *it;
137
    }
138

    
139
    //we reached the end, return the last value
140
    printf("> warning: found no timestamp >= than %f in timestamped list...\n", target_ts.to_seconds());
141
    printf("           this should not happen as images will always be behind\n");
142
    printf("           the motor data. returning most recent value (ts=%f)\n", previous.timestamp.to_seconds());
143

    
144
    return previous.value;
145
}
146

    
147
float TimestampedList::interpolate(TimestampedFloat a, TimestampedFloat b, Timestamp timestamp){
148
    //a->timestamp < timestamp <= b->timestamp
149
    double dist_a = timestamp.to_seconds() - a.timestamp.to_seconds();
150
    double dist_b = b.timestamp.to_seconds() - timestamp.to_seconds();
151
    double dist   = dist_a + dist_b;
152

    
153
    float interpolation = a.value + (dist_a / dist) * (b.value - a.value);
154
    return interpolation;
155
}
156

    
157

    
158
///tests
159
void TimestampedList::run_tests(){
160
    int size = 10;
161
    TimestampedList list(size);
162

    
163
    for(int i=0; i<size; i++){
164
        list.insert(Timestamp(i * 100.0,0), i*10.0);
165
    }
166

    
167
    //test algorithm:
168

    
169
    //test exact match:
170
    for(int i=0; i<size; i++){
171
        Timestamp ts(i*100.0,0);
172
        printf("> testing get_interpolated_value(%f) == %f (value read back = %f)\n",ts.to_seconds(), i*10.0, list.get_interpolated_value(ts));
173
        assert( list.get_interpolated_value(ts) == i*10.0);
174
    }
175
    printf("passed test 1\n");
176

    
177
    assert(list.get_interpolated_value(Timestamp(0.0,0)) == 0.0);
178
    assert(list.get_interpolated_value(Timestamp(110.0,0)) == 11.0);
179
    assert(list.get_interpolated_value(Timestamp(150.0,0)) == 15.0);
180
    assert(list.get_interpolated_value(Timestamp(999990.0,0)) == 90.0);
181

    
182
    printf("passed test 2\n");
183

    
184
    list.insert(Timestamp(1000.0 ,0), 200.0);
185
    list.insert(Timestamp(1300.0, 0), -100.0);
186
    assert(list.get_interpolated_value(Timestamp(1100, 0)) == 100.0);
187
    assert(list.get_interpolated_value(Timestamp(1200, 0)) == 0.0);
188
    assert(list.get_interpolated_value(Timestamp(1300, 0)) == -100.0);
189
    assert(list.get_interpolated_value(Timestamp(1250, 0)) == -50.0);
190

    
191
    printf("passed test 3\n");
192
    exit(0);
193
}