125 lines
No EOL
3.5 KiB
Text
125 lines
No EOL
3.5 KiB
Text
/*
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m4 for loop definition
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define(`for',`ifelse($#,0,``$0'',`ifelse(eval($2<=$3),1,
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`pushdef(`$1',$2)$4`'popdef(`$1')$0(`$1',incr($2),$3,`$4')')')')
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*/
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int to_reverse[LENGTH]; // array to reverse
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int reversed_seq[LENGTH]; // for SequentialReverser: where the reverse is stored
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int reversed_par[LENGTH]; // for ParallelReverser: where the reverse is stored
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// stores termination of each reverser
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// index 0 is for the sequential algorithm
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// indices 1-N are for the ThreadedReverser instances
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bool done[N + 1]; // initialized to false
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bool seq_eq_to_parallel = true;
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// ThreadedReverser implementation
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proctype ThreadedReverser(int from; int to; int n) {
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printf("proc[%d]: started from=%d to=%d\n", n, from, to);
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int k;
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for (k: from .. (to - 1)) {
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printf("reversed_par[%d] = to_reverse[%d]\n", LENGTH - k - 1, k);
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reversed_par[LENGTH - k - 1] = to_reverse[k];
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}
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printf("proc[%d]: ended\n", n);
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done[n] = true;
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}
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init {
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printf("program start\n");
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// array initialization
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{
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int i;
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for (i in to_reverse) {
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int value;
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select(value: 0 .. R);
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to_reverse[i] = value;
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printf("to_reverse[%d]: %d\n", i, value);
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}
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}
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printf("sequential start\n");
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// SequentialReverser implementation
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{
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int k;
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for (k: 0 .. (LENGTH - 1)) {
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reversed_seq[LENGTH - k - 1] = to_reverse[k];
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printf("reversed_seq[%d] = to_reverse[%d]\n", LENGTH - k - 1, k);
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}
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done[0] = true; // mark sequential end
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}
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printf("sequential end\n");
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printf("parallel start\n");
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// ParallelReverser implementation
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{
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int n;
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int s = LENGTH / N;
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// fork section
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for (n: 0 .. (N - 1)) {
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int from = n * s;
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int to;
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if
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:: (n == N - 1) -> to = LENGTH;
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:: else -> to = n * s + s;
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fi
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run ThreadedReverser(from, to, n + 1); // run as "thread n"
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}
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// join section
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for (n: 1 .. N) {
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(done[n] == true); // wait "thread n"
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printf("[%d] joined\n", n);
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}
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}
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printf("parallel end\n");
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// test if seq and parallel are the same
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{
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int i;
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for (i: 0 .. (LENGTH - 1)) {
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if
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:: (reversed_seq[i] != reversed_par[i]) -> seq_eq_to_parallel = false;
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fi
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}
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}
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}
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// ltl syntax: https://spinroot.com/spin/Man/ltl.html
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ltl seq_eq_parallel {
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// the variable seq_eq_to_parallel will never be false if all the elements
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// between the sequential and parallel reversed arrays are equal
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[] (seq_eq_to_parallel == true)
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}
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ltl termination {
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// termination happens when the sequential reverser terminates
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// (done[0] is true) and the last process in the parallel reverser joins
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// (done[N] is true)
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<> (done[0] == true && done[N] == true)
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}
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// Due to avoid excessive parser complexity when checking the model
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// with other ltl properties the correctness_seq is excluded by m4 from the
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// ProMeLa source when there is no need to check it
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// ifelse(LTL, correctness_seq, `
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ltl correctness_seq {
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[] (done[0] == true -> (true for(`k', 0, LENGTH-1, ` &&
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reversed_seq[eval(LENGTH - k - 1)] == to_reverse[k]')))
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}
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// ', `')
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// Similar exclusion logic is applied to correctness_par
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// ifelse(LTL, correctness_par, `
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ltl correctness_par {
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[] (done[2] == true -> (true for(`k', 0, LENGTH / N - 1, ` &&
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reversed_par[eval(LENGTH - k - 1)] == to_reverse[k]')))
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}
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// ', `') |