docs/examples/pilib/handover.scala


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186

package examples.pilib

/**
 * Handover example with recursive types for channels.
 */
object handoverRecursive {

  import concurrent.pilib._

  val random = new java.util.Random()

  /**
   * Recursive type for channels that carry a channel "unit" and
   * an object of the type we define.
   */
  class Switch extends Chan[Pair[Chan[unit], Switch]]

  /**
   * Car.
   */
  def Car(talk: Chan[unit], switch: Switch): unit =
    choice (
      switch * ({ case Pair(t,s) => Car(t, s) }),
      talk(()) * ( {
        Thread.sleep(1 + random.nextInt(1000));
        System.out.println("Car emitted a message.");
        Car(talk, switch)
      })
    );

  /**
   * Control center.
   */
  def Control(talk1: Chan[unit], switch1: Switch,
              gain1: Switch, lose1: Switch, 
              talk2: Chan[unit], switch2: Switch,
              gain2: Switch, lose2: Switch): unit
  = {
    def Control1: unit= {
      Thread.sleep(1 + random.nextInt(1000));
      lose1.write(Pair(talk2, switch2));
      gain2.write(Pair(talk2, switch2));
      Control2
    }
    def Control2: unit = {
      Thread.sleep(1 + random.nextInt(1000));
      lose2.write(Pair(talk1, switch1));
      gain1.write(Pair(talk1, switch1));
      Control1
    }
    Control1
  }

  /**
  * Active transmitter.
  */
  def ActiveTransmitter(id: String, talk: Chan[unit], switch: Switch,
            gain: Switch, lose: Switch): unit
  =
    choice (
      talk * (x => {
        System.out.println(id + " received a message.")
        ActiveTransmitter(id, talk, switch, gain, lose)
      }),
      lose * ({ case Pair(t, s) => {
        switch.write(Pair(t, s))
        IdleTransmitter(id, gain, lose)
      }})
    );

  /**
   * Idle transmitter.
   */
  def IdleTransmitter(id: String, gain: Switch, lose: Switch): unit = {
    val Pair(t, s) = gain.read;
    ActiveTransmitter(id, t, s, gain, lose)
  }

  def main(args: Array[String]): unit = {
    val talk1 = new Chan[unit]
    val switch1 = new Switch
    val gain1 = new Switch
    val lose1 = new Switch
    val talk2 = new Chan[unit]
    val switch2 = new Switch
    val gain2 = new Switch
    val lose2 = new Switch
    spawn <
    Car(talk1, switch1) |
    ActiveTransmitter("Transmitter 1", talk1, switch1, gain1, lose1) |
    IdleTransmitter("Transmitter 2", gain2, lose2) |
    Control(talk1, switch1, gain1, lose1, talk2, switch2, gain2, lose2) >
  }
}

/**
* Handover example with type casts.
*/
object handoverCast {

  import concurrent.pilib._;

  val random = new java.util.Random();

  /**
  * Car.
  */
  def Car(talk: Chan[Any], switch: Chan[Any]): unit =
    choice (
      switch * (o => {
        val Pair(t,s) = o.asInstanceOf[Pair[Chan[Any],Chan[Any]]]; 
        Car(t, s)
      }),
      talk(()) * ( {
        Thread.sleep(1 + random.nextInt(1000));
        System.out.println("Car emitted a message.");
        Car(talk, switch)
      })
    );

  /**
  * Control center.
  */
  def Control(talk1: Chan[Any], switch1: Chan[Any],
              gain1: Chan[Any], lose1: Chan[Any], 
              talk2: Chan[Any], switch2: Chan[Any],
              gain2: Chan[Any], lose2: Chan[Any]): unit
  = {
    def Control1: unit = {
      Thread.sleep(1 + random.nextInt(1000));
      lose1.write(Pair(talk2, switch2));
      gain2.write(Pair(talk2, switch2));
      Control2
    }
    def Control2: unit = {
      Thread.sleep(1 + random.nextInt(1000));
      lose2.write(Pair(talk1, switch1));
      gain1.write(Pair(talk1, switch1));
      Control1
    }
    Control1
  }

  /**
   * Active transmitter.
   */
  def ActiveTransmitter(id: String, talk: Chan[Any], switch: Chan[Any],
                        gain: Chan[Any], lose: Chan[Any]): unit
  =
    choice (
      talk * (x => {
        System.out.println(id + " received a message.")
        ActiveTransmitter(id, talk, switch, gain, lose)
      }),
      lose * (o => {
        val Pair(t, s) = o.asInstanceOf[Pair[Chan[Any],Chan[Any]]]
        switch.write(Pair(t, s))
        IdleTransmitter(id, gain, lose)
      })
    )

  /**
  * Idle transmitter.
  */
  def IdleTransmitter(id: String, gain: Chan[Any], lose: Chan[Any]): unit = {
    val Pair(t, s) = gain.read.asInstanceOf[Pair[Chan[Any],Chan[Any]]]
    ActiveTransmitter(id, t, s, gain, lose)
  }

  def main(args: Array[String]): unit = {
    val talk1 = new Chan[Any]
    val switch1 = new Chan[Any]
    val gain1 = new Chan[Any]
    val lose1 = new Chan[Any]
    val talk2 = new Chan[Any]
    val switch2 = new Chan[Any]
    val gain2 = new Chan[Any]
    val lose2 = new Chan[Any]
    spawn <
    Car(talk1, switch1) |
    ActiveTransmitter("Transmitter 1", talk1, switch1, gain1, lose1) |
    IdleTransmitter("Transmitter 2", gain2, lose2) |
    Control(talk1, switch1, gain1, lose1, talk2, switch2, gain2, lose2) >
  }

}