From ae3ef2f14a104f15a0627b54467b1c265c6b4c83 Mon Sep 17 00:00:00 2001 From: TimQu Date: Thu, 22 Dec 2016 12:43:19 +0100 Subject: [PATCH] added testfiles for multiobjective mc tests --- resources/examples/testfiles/ma/server.ma | 34 +++ .../testfiles/mdp/multiobj_consensus2_3_2.nm | 88 ++++++ .../examples/testfiles/mdp/multiobj_dpm100.nm | 160 ++++++++++ .../testfiles/mdp/multiobj_scheduler05.nm | 95 ++++++ .../examples/testfiles/mdp/multiobj_team3.nm | 288 ++++++++++++++++++ .../testfiles/mdp/multiobj_zeroconf4.nm | 153 ++++++++++ .../examples/testfiles/mdp/multiobjective1.nm | 20 -- .../examples/testfiles/mdp/multiobjective2.nm | 20 -- .../SparseMdpPcaaModelCheckerTest.cpp | 10 +- 9 files changed, 823 insertions(+), 45 deletions(-) create mode 100644 resources/examples/testfiles/ma/server.ma create mode 100644 resources/examples/testfiles/mdp/multiobj_consensus2_3_2.nm create mode 100644 resources/examples/testfiles/mdp/multiobj_dpm100.nm create mode 100644 resources/examples/testfiles/mdp/multiobj_scheduler05.nm create mode 100644 resources/examples/testfiles/mdp/multiobj_team3.nm create mode 100644 resources/examples/testfiles/mdp/multiobj_zeroconf4.nm delete mode 100644 resources/examples/testfiles/mdp/multiobjective1.nm delete mode 100644 resources/examples/testfiles/mdp/multiobjective2.nm diff --git a/resources/examples/testfiles/ma/server.ma b/resources/examples/testfiles/ma/server.ma new file mode 100644 index 000000000..d82c32474 --- /dev/null +++ b/resources/examples/testfiles/ma/server.ma @@ -0,0 +1,34 @@ + +ma + +const double rateProcessing = 2; +const double rateA = 1; +const double rateB = 1; + +module server + + s : [0..5]; // current state: + // 0: wait for request + // 1: received request from A + // 2: received request from B + // 3: starting to process request of B + // 4: processing request + // 5: error + + + + <> s=0 -> rateA : (s'=1) + rateB : (s'=2); + [alpha] s=1 -> 1 : (s'=4); + [alpha] s=2 -> 1 : (s'=3); + [beta] s=2 -> 0.5 : (s'=0) + 0.5 : (s'=3); + [] s=3 -> 1 : (s'=4); + <> s=4 -> rateProcessing : (s'=0) + (rateA+rateB) : (s'=5); + <> s=5 -> 1 : true; + +endmodule + + +label "error" = (s=5); +label "processB" = (s=3); + + diff --git a/resources/examples/testfiles/mdp/multiobj_consensus2_3_2.nm b/resources/examples/testfiles/mdp/multiobj_consensus2_3_2.nm new file mode 100644 index 000000000..f8fff18da --- /dev/null +++ b/resources/examples/testfiles/mdp/multiobj_consensus2_3_2.nm @@ -0,0 +1,88 @@ +// model of randomised consensus + +mdp + +const int N = 2; // num processes +const int MAX = 3; // num rounds (R) +const int K = 2; // Parameter for coins + +// need to turn these into local copies later so the reading phase is complete? +formula leaders_agree1 = (p1=1 | r1 (p1'=1) & (r1'=1); + [] s1=0 & r1=0 -> (p1'=2) & (r1'=1); + + // read registers (currently does nothing because read vs from other processes + [] s1=0 & r1>0 & r1<=MAX -> (s1'=1); + // maxke a decision + [] s1=1 & decide1 -> (s1'=4) & (p1'=1); + [] s1=1 & decide2 -> (s1'=4) & (p1'=2); + [] s1=1 & r1 (s1'=0) & (p1'=1) & (r1'=r1+1); + [] s1=1 & r1 (s1'=0) & (p1'=2) & (r1'=r1+1); + [] s1=1 & r1 (s1'=2) & (p1'=0); + [] s1=1 & r1=MAX & !(decide1 | decide2) -> (s1'=5); // run out of rounds so error + // enter the coin procotol for the current round + [coin1_s1_start] s1=2 & r1=1 -> (s1'=3); + [coin2_s1_start] s1=2 & r1=2 -> (s1'=3); + // get response from the coin protocol + [coin1_s1_p1] s1=3 & r1=1 -> (s1'=0) & (p1'=1) & (r1'=r1+1); + [coin1_s1_p2] s1=3 & r1=1 -> (s1'=0) & (p1'=2) & (r1'=r1+1); + [coin2_s1_p1] s1=3 & r1=2 -> (s1'=0) & (p1'=1) & (r1'=r1+1); + [coin2_s1_p2] s1=3 & r1=2 -> (s1'=0) & (p1'=2) & (r1'=r1+1); + // done so loop + [done] s1>=4 -> true; + +endmodule + +module process2 = process1[ s1=s2, + p1=p2,p2=p1, + r1=r2,r2=r1, + coin1_s1_start=coin1_s2_start,coin2_s1_start=coin2_s2_start, + coin1_s1_p1=coin1_s2_p1,coin2_s1_p1=coin2_s2_p1, + coin1_s1_p2=coin1_s2_p2,coin2_s1_p2=coin2_s2_p2 ] +endmodule + +module coin1_error + + c1 : [0..1]; // 1 is the error state + v1 : [0..2]; // value of the coin returned the first time + + // first returned value (any processes) + [coin1_s1_p1] v1=0 -> (v1'=1); + [coin1_s2_p1] v1=0 -> (v1'=1); + [coin1_s1_p2] v1=0 -> (v1'=2); + [coin1_s2_p2] v1=0 -> (v1'=2); + // later values returned + [coin1_s1_p1] v1=1 -> true; // good behaviour + [coin1_s2_p1] v1=1 -> true; // good behaviour + [coin1_s1_p2] v1=2 -> true; // good behaviour + [coin1_s2_p2] v1=2 -> true; // good behaviour + [coin1_s1_p1] v1=2 -> (c1'=1); // error + [coin1_s2_p1] v1=2 -> (c1'=1); // error + [coin1_s1_p2] v1=1 -> (c1'=1); // error + [coin1_s2_p2] v1=1 -> (c1'=1); // error + +endmodule + +// coins 2 and 3 are of no use as there are not enough rounds afterwards to decide + +// Labels +label "one_proc_err" = (s1=5 | s2=5); +label "one_coin_ok" = (c1=0); diff --git a/resources/examples/testfiles/mdp/multiobj_dpm100.nm b/resources/examples/testfiles/mdp/multiobj_dpm100.nm new file mode 100644 index 000000000..2d8a4544c --- /dev/null +++ b/resources/examples/testfiles/mdp/multiobj_dpm100.nm @@ -0,0 +1,160 @@ +// power manager example +mdp + +const int QMAX =2; // max queue size + +// to model the pm making a choice and then a move being made we need +// two clock ticks for each transition +// first the pm decides tick1 and then the system moves tick2 + +module timer + + c : [0..1]; + + [tick1] c=0 -> (c'=1); + [tick2] c=1 -> (c'=0); + +endmodule + +//------------------------------------------------------------------------- + +// POWER MANAGER +module PM + + pm : [0..4] init 4; + // 0 - go to active + // 1 - go to idle + // 2 - go to idlelp + // 3 - go to stby + // 4 - go to sleep + + [tick1] true -> (pm'=0); + [tick1] true -> (pm'=1); + [tick1] true -> (pm'=2); + [tick1] true -> (pm'=3); + [tick1] true -> (pm'=4); + +endmodule + + +//------------------------------------------------------------------------- + +// SERVICE REQUESTER +module SR + + sr : [0..1] init 0; + // 0 idle + // 1 1req + + [tick2] sr=0 -> 0.898: (sr'=0) + 0.102: (sr'=1); + [tick2] sr=1 -> 0.454: (sr'=0) + 0.546: (sr'=1); + +endmodule + +//------------------------------------------------------------------------- + +// SERVICE PROVIDER + +module SP + + sp : [0..10] init 9; + // 0 active + // 1 idle + // 2 active_idlelp + // 3 idlelp + // 4 idlelp_active + // 5 active_stby + // 6 stby + // 7 stby_active + // 8 active_sleep + // 9 sleep + // 10 sleep_active + + // states where PM has no control (transient states) + [tick2] sp=2 -> 0.75 : (sp'=2) + 0.25 : (sp'=3); // active_idlelp + [tick2] sp=4 -> 0.25 : (sp'=0) + 0.75 : (sp'=4); // idlelp_active + [tick2] sp=5 -> 0.995 : (sp'=5) + 0.005 : (sp'=6); // active_stby + [tick2] sp=7 -> 0.005 : (sp'=0) + 0.995 : (sp'=7); // stby_active + [tick2] sp=8 -> 0.9983 : (sp'=8) + 0.0017 : (sp'=9); // active_sleep + [tick2] sp=10 -> 0.0017 : (sp'=0) + 0.9983 : (sp'=10); // sleep_active + + // states where PM has control + // goto_active + [tick2] sp=0 & pm=0 -> (sp'=0); // active + [tick2] sp=1 & pm=0 -> (sp'=0); // idle + [tick2] sp=3 & pm=0 -> (sp'=4); // idlelp + [tick2] sp=6 & pm=0 -> (sp'=7); // stby + [tick2] sp=9 & pm=0 -> (sp'=10); // sleep + // goto_idle + [tick2] sp=0 & pm=1 -> (sp'=1); // active + [tick2] sp=1 & pm=1 -> (sp'=1); // idle + [tick2] sp=3 & pm=1 -> (sp'=3); // idlelp + [tick2] sp=6 & pm=1 -> (sp'=6); // stby + [tick2] sp=9 & pm=1 -> (sp'=9); // sleep + // goto_idlelp + [tick2] sp=0 & pm=2 -> (sp'=2); // active + [tick2] sp=1 & pm=2 -> (sp'=2); // idle + [tick2] sp=3 & pm=2 -> (sp'=3); // idlelp + [tick2] sp=6 & pm=2 -> (sp'=6); // stby + [tick2] sp=9 & pm=2 -> (sp'=9); // sleep + // goto_stby + [tick2] sp=0 & pm=3 -> (sp'=5); // active + [tick2] sp=1 & pm=3 -> (sp'=5); // idle + [tick2] sp=3 & pm=3 -> (sp'=5); // idlelp + [tick2] sp=6 & pm=3 -> (sp'=6); // stby + [tick2] sp=9 & pm=3 -> (sp'=9); // sleep + // goto_sleep + [tick2] sp=0 & pm=4 -> (sp'=8); // active + [tick2] sp=1 & pm=4 -> (sp'=8); // idle + [tick2] sp=3 & pm=4 -> (sp'=8); // idlelp + [tick2] sp=6 & pm=4 -> (sp'=8); // stby + [tick2] sp=9 & pm=4 -> (sp'=9); // sleep + +endmodule + + +//------------------------------------------------------------------------- + +// SQ +module SQ + + q : [0..QMAX] init 0; + + // serve if busy + [tick2] sr=0 & sp=0 -> (q'=max(q-1,0)); + [tick2] sr=1 & sp=0 -> (q'=q); + + // otherwise do nothing + [tick2] sr=0 & sp>0 -> (q'=q); + [tick2] sr=1 & sp>0 -> (q'=min(q+1,QMAX)); + +endmodule + +//------------------------------------------------------------------------- +//rewards "time" +// [tick2] bat=1 : 1; +//endrewards + +rewards "power" + [tick2] sp=0 & c=1 : 2.5; + [tick2] sp=1 & c=1 : 1.5; + [tick2] sp=2 & c=1 : 2.5; + [tick2] sp=3 & c=1 : 0.8; + [tick2] sp=4 & c=1 : 2.5; + [tick2] sp=5 & c=1 : 2.5; + [tick2] sp=6 & c=1 : 0.3; + [tick2] sp=7 & c=1 : 2.5; + [tick2] sp=8 & c=1 : 2.5; + [tick2] sp=9 & c=1 : 0.1; + [tick2] sp=10 & c=1 : 2.5; +endrewards + +// is an instantaneous property but I suppose we can look at average size +// i.e. divide by the expected number of time steps +rewards "queue" + [tick2] c=1 : q; +endrewards + +rewards "lost" + [tick2] sr=1 & sp>0 & q=2 : 1; +endrewards diff --git a/resources/examples/testfiles/mdp/multiobj_scheduler05.nm b/resources/examples/testfiles/mdp/multiobj_scheduler05.nm new file mode 100644 index 000000000..f10f491f3 --- /dev/null +++ b/resources/examples/testfiles/mdp/multiobj_scheduler05.nm @@ -0,0 +1,95 @@ +mdp + +label "tasks_complete" = (task6=3); + +const int K=5; + +module scheduler + + task1 : [0..3]; + task2 : [0..3]; + task3 : [0..3]; + task4 : [0..3]; + task5 : [0..3]; + task6 : [0..3]; + + [p1_add] task1=0 -> (task1'=1); + [p2_add] task1=0 -> (task1'=2); + [p1_mult] task2=0 -> (task2'=1); + [p2_mult] task2=0 -> (task2'=2); + [p1_mult] task3=0&task1=3 -> (task3'=1); + [p2_mult] task3=0&task1=3 -> (task3'=2); + [p1_add] task4=0&task1=3&task2=3 -> (task4'=1); + [p2_add] task4=0&task1=3&task2=3 -> (task4'=2); + [p1_mult] task5=0&task3=3 -> (task5'=1); + [p2_mult] task5=0&task3=3 -> (task5'=2); + [p1_add] task6=0&task4=3&task5=3 -> (task6'=1); + [p2_add] task6=0&task4=3&task5=3 -> (task6'=2); + [p1_done] task1=1 -> (task1'=3); + [p1_done] task2=1 -> (task2'=3); + [p1_done] task3=1 -> (task3'=3); + [p1_done] task4=1 -> (task4'=3); + [p1_done] task5=1 -> (task5'=3); + [p1_done] task6=1 -> (task6'=3); + [p2_done] task1=2 -> (task1'=3); + [p2_done] task2=2 -> (task2'=3); + [p2_done] task3=2 -> (task3'=3); + [p2_done] task4=2 -> (task4'=3); + [p2_done] task5=2 -> (task5'=3); + [p2_done] task6=2 -> (task6'=3); + [time] true -> 1.0 : true; + +endmodule + +module P1 + + p1 : [0..3]; + c1 : [0..2]; + x1 : [0..4*K+1]; + + [p1_add] (p1=0) -> (p1'=1) & (x1'=0); + [] (p1=1)&(x1=1*K)&(c1=0) -> 1/3 : (p1'=3) & (x1'=0) & (c1'=0) + 2/3 : (c1'=1) & (x1'=0); + [] (p1=1)&(x1=1*K)&(c1=1) -> 1/2 : (p1'=3) & (x1'=0) & (c1'=0) + 1/2 : (c1'=2) & (x1'=0); + [p1_done] (p1=1)&(x1=1*K)&(c1=2) -> (p1'=0) & (x1'=0) & (c1'=0); + [p1_mult] (p1=0) -> (p1'=2) & (x1'=0); + [] (p1=2)&(x1=2*K)&(c1=0) -> 1/3 : (p1'=3) & (x1'=0) & (c1'=0) + 2/3 : (c1'=1) & (x1'=0); + [] (p1=2)&(x1=1*K)&(c1=1) -> 1/2 : (p1'=3) & (x1'=0) & (c1'=0) + 1/2 : (c1'=2) & (x1'=0); + [p1_done] (p1=2)&(x1=1*K)&(c1=2) -> (p1'=0) & (x1'=0) & (c1'=0); + [p1_done] (p1=3) -> (p1'=0); + [time] (p1=1=>x1+1<=1*K)&((p1=2&c1=0)=>x1+1<=2*K)&((p1=2&c1>0)=>x1+1<=1*K)&(p1=3=>x1+1<=0) -> 1.0 : (x1'=min(x1+1,4*K+1)); + +endmodule + +module P2 + + p2 : [0..3]; + c2 : [0..2]; + x2 : [0..6*K+1]; + + [p2_add] (p2=0) -> (p2'=1) & (x2'=0); + [] (p2=1)&(x2=4*K)&(c2=0) -> 1/3 : (p2'=3) & (x2'=0) & (c2'=0) + 2/3 : (c2'=1) & (x2'=0); + [] (p2=1)&(x2=1)&(c2=1) -> 1/2 : (p2'=3) & (x2'=0) & (c2'=0) + 1/2 : (c2'=2) & (x2'=0); + [p2_done] (p2=1)&(x2=1)&(c2=2) -> (p2'=0) & (x2'=0) & (c2'=0); + [p2_mult] (p2=0) -> (p2'=2) & (x2'=0); + [] (p2=2)&(x2=6*K)&(c2=0) -> 1/3 : (p2'=3) & (x2'=0) & (c2'=0) + 2/3 : (c2'=1) & (x2'=0); + [] (p2=2)&(x2=1)&(c2=1) -> 1/2 : (p2'=3) & (x2'=0) & (c2'=0) + 1/2 : (c2'=2) & (x2'=0); + [p2_done] (p2=2)&(x2=1)&(c2=2) -> (p2'=0) & (x2'=0) & (c2'=0); + [p2_done] (p2=3) -> (p2'=0); + [time] ((p2=1&c2=0)=>x2+1<=4*K)&((p2=1&c2>0)=>x2+1<=1)&((p2=2&c2=0)=>x2+1<=6*K)&((p2=2&c2>0)=>x2+1<=1)&(p2=3=>x2+1<=0) -> 1.0 : (x2'=min(x2+1,6*K+1)); + +endmodule + +rewards "time" + + [time] true : 1/K; + +endrewards + +rewards "energy" + + [time] p1=0 : 10/(1000*K); + [time] p1>0 : 90/(1000*K); + [time] p2=0 : 20/(1000*K); + [time] p2>0 : 30/(1000*K); + +endrewards diff --git a/resources/examples/testfiles/mdp/multiobj_team3.nm b/resources/examples/testfiles/mdp/multiobj_team3.nm new file mode 100644 index 000000000..3c075c204 --- /dev/null +++ b/resources/examples/testfiles/mdp/multiobj_team3.nm @@ -0,0 +1,288 @@ +mdp + +// parameters +const int n_resources = 3; +const int n_tasks = 2; +const int n_sensors = 3; + + +// sensor resources +const int resource1=1; +const int resource2=2; +const int resource3=3; + +// network configuration +const int e12=1; +const int e13=1; + +const int e21=e12; +const int e23=1; + +const int e31=e13; +const int e32=e23; + + + + +// agent is committed to some team +formula committed = (m1_t1+m1_t2) > 0; + +// formulae to compute team sizes +formula team_size_t1 = m1_t1+m2_t1+m3_t1; +formula team_size_t2 = m1_t2+m2_t2+m3_t2; + +// formulae to check whether the agent can join the team +formula can_join_t1 = e12*m2_t1 + e13*m3_t1 > 0; +formula can_join_t2 = e12*m2_t2 + e13*m3_t2 > 0; + +// formulae to check whether agent has the resource required by the task +formula has_resource_t1 = ( (t1_r1=1&resource1=1) | (t1_r2=1&resource1=2) | (t1_r3=1&resource1=3) ); +formula has_resource_t2 = ( (t2_r1=1&resource1=1) | (t2_r2=1&resource1=2) | (t2_r3=1&resource1=3) ); + +// formulae to check whether the resource of an agent has been already filled in the team +formula resource_filled_t1 = (m2_t1=1 & resource1=resource2) | (m3_t1=1 & resource1=resource3); +formula resource_filled_t2 = (m2_t2=1 & resource1=resource2) | (m3_t2=1 & resource1=resource3); + +// formula to compute team initiation probability (assuming each agent has at least one connection) +formula IP = (e12*(1-((m2_t1+m2_t2)=0?0:1))+e13*(1-((m3_t1+m3_t2)=0?0:1))) / (e12+e13); + + +module controller // schedules the algorithm + + // algorithm status + status : [0..6]; + + // task resource indicator variables + t1_r1 : [0..1]; + t1_r2 : [0..1]; + t1_r3 : [0..1]; + + t2_r1 : [0..1]; + t2_r2 : [0..1]; + t2_r3 : [0..1]; + + // schedule placeholders + turn1 : [0..n_sensors]; + turn2 : [0..n_sensors]; + turn3 : [0..n_sensors]; + + // selecting schedule uniformly at random + [] status=0 -> 1/6 : (turn1'=1) & (turn2'=2) & (turn3'=3) & (status'=1) + + 1/6 : (turn1'=1) & (turn2'=3) & (turn3'=2) & (status'=1) + + 1/6 : (turn1'=2) & (turn2'=1) & (turn3'=3) & (status'=1) + + 1/6 : (turn1'=2) & (turn2'=3) & (turn3'=1) & (status'=1) + + 1/6 : (turn1'=3) & (turn2'=1) & (turn3'=2) & (status'=1) + + 1/6 : (turn1'=3) & (turn2'=2) & (turn3'=1) & (status'=1); + + + // initialising non-empty tasks uniformly at random + [] status=1 -> 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=0) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=0) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=0) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=0) & (t2_r2'=1) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=0) & (t2_r3'=1) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=0) & (status'=2) + + 1/49 : (t1_r1'=1) & (t1_r2'=1) & (t1_r3'=1) & (t2_r1'=1) & (t2_r2'=1) & (t2_r3'=1) & (status'=2); + + // executing the schedule + + // 1st round + [str1] status=2 & turn1=1 -> (status'=2); + [fin1] status=2 & turn1=1 -> (status'=3); + [str2] status=2 & turn1=2 -> (status'=2); + [fin2] status=2 & turn1=2 -> (status'=3); + [str3] status=2 & turn1=3 -> (status'=2); + [fin3] status=2 & turn1=3 -> (status'=3); + + // 2nd round + [str1] status=3 & turn2=1 -> (status'=3); + [fin1] status=3 & turn2=1 -> (status'=4); + [str2] status=3 & turn2=2 -> (status'=3); + [fin2] status=3 & turn2=2 -> (status'=4); + [str3] status=3 & turn2=3 -> (status'=3); + [fin3] status=3 & turn2=3 -> (status'=4); + + // 3rd round + [str1] status=4 & turn3=1 -> (status'=4); + [fin1] status=4 & turn3=1 -> (status'=5); + [str2] status=4 & turn3=2 -> (status'=4); + [fin2] status=4 & turn3=2 -> (status'=5); + [str3] status=4 & turn3=3 -> (status'=4); + [fin3] status=4 & turn3=3 -> (status'=5); + + [] status=5 -> (status'=6); + + [] status=6 -> true; + +endmodule + +module sensor1 + + state1 : [0..1]; + + // team membership indicators + m1_t1 : [0..1]; + m1_t2 : [0..1]; + + // starting turn, selecting order of tasks + [str1] state1=0 -> (state1'=1); + + // if there is no team and has required skill - initiating the team + [] state1=1 & !committed & team_size_t1=0 & has_resource_t1 -> (m1_t1'=1); + [] state1=1 & !committed & team_size_t2=0 & has_resource_t2 -> (m1_t2'=1); + + // if team already exists and one of the neighbours is in it - joining the team + [] state1=1 & !committed & team_size_t1>0 & can_join_t1 & has_resource_t1 & !resource_filled_t1 -> (m1_t1'=1); + [] state1=1 & !committed & team_size_t2>0 & can_join_t2 & has_resource_t2 & !resource_filled_t2 -> (m1_t2'=1); + + [fin1] state1>0 -> (state1'=0); + +endmodule + +module sensor2 = sensor1 +[ + state1=state2, + + str1=str2, + fin1=fin2, + + m1_t1=m2_t1, + m1_t2=m2_t2, + + m2_t1=m1_t1, + m2_t2=m1_t2, + + resource1=resource2, + resource2=resource1, + + e12=e21, + e13=e23, + e14=e24, + e15=e25, + + e21=e12, + e23=e13, + e24=e14, + e25=e15 +] +endmodule + +module sensor3 = sensor1 +[ + state1=state3, + + str1=str3, + fin1=fin3, + + m1_t1=m3_t1, + m1_t2=m3_t2, + m3_t1=m1_t1, + m3_t2=m1_t2, + + resource1=resource3, + resource3=resource1, + + e12=e32, + e13=e31, + e14=e34, + e15=e35, + + e31=e13, + e32=e12, + e34=e14, + e35=e15 +] +endmodule + + + + +// labels and formulae for property specification +formula finished = (status=5); +label "end" = (status=6); + + +formula task1_completed = finished + & ((t1_r1=1)=>((m1_t1=1&resource1=1)|(m2_t1=1&resource2=1)|(m3_t1=1&resource3=1))) + & ((t1_r2=1)=>((m1_t1=1&resource1=2)|(m2_t1=1&resource2=2)|(m3_t1=1&resource3=2))) + & ((t1_r3=1)=>((m1_t1=1&resource1=3)|(m2_t1=1&resource2=3)|(m3_t1=1&resource3=3))); + +formula task2_completed = finished + & ((t2_r1=1)=>((m1_t2=1&resource1=1)|(m2_t2=1&resource2=1)|(m3_t2=1&resource3=1))) + & ((t2_r2=1)=>((m1_t2=1&resource1=2)|(m2_t2=1&resource2=2)|(m3_t2=1&resource3=2))) + & ((t2_r3=1)=>((m1_t2=1&resource1=3)|(m2_t2=1&resource2=3)|(m3_t2=1&resource3=3))); + + + +formula agent1_joins_successful_team = (task1_completed & m1_t1=1) | (task2_completed & m1_t2=1); +formula agent1_joins_successful_team_of_1 = (task1_completed & m1_t1=1 & team_size_t1=1) | (task2_completed & m1_t2=1 & team_size_t2=1); +formula agent1_joins_successful_team_of_2 = (task1_completed & m1_t1=1 & team_size_t1=2) | (task2_completed & m1_t2=1 & team_size_t2=2); +formula agent1_joins_successful_team_of_3 = (task1_completed & m1_t1=1 & team_size_t1=3) | (task2_completed & m1_t2=1 & team_size_t2=3); + +formula agent2_joins_successful_team = (task1_completed & m2_t1=1) | (task2_completed & m2_t2=1); +formula agent2_joins_successful_team_of_1 = (task1_completed & m2_t1=1 & team_size_t1=1) | (task2_completed & m2_t2=1 & team_size_t2=1); +formula agent2_joins_successful_team_of_2 = (task1_completed & m2_t1=1 & team_size_t1=2) | (task2_completed & m2_t2=1 & team_size_t2=2); +formula agent2_joins_successful_team_of_3 = (task1_completed & m2_t1=1 & team_size_t1=3) | (task2_completed & m2_t2=1 & team_size_t2=3); + +formula agent3_joins_successful_team = (task1_completed & m3_t1=1) | (task2_completed & m3_t2=1); +formula agent3_joins_successful_team_of_1 = (task1_completed & m3_t1=1 & team_size_t1=1) | (task2_completed & m3_t2=1 & team_size_t2=1); +formula agent3_joins_successful_team_of_2 = (task1_completed & m3_t1=1 & team_size_t1=2) | (task2_completed & m3_t2=1 & team_size_t2=2); +formula agent3_joins_successful_team_of_3 = (task1_completed & m3_t1=1 & team_size_t1=3) | (task2_completed & m3_t2=1 & team_size_t2=3); + +// rewards +rewards "w_1_total" + [] agent1_joins_successful_team : 1; + [] agent2_joins_successful_team : 1; + [] agent3_joins_successful_team : 1; +endrewards + +rewards "w_2_total" + [] task1_completed : 1; + [] task2_completed : 1; +endrewards + + + + diff --git a/resources/examples/testfiles/mdp/multiobj_zeroconf4.nm b/resources/examples/testfiles/mdp/multiobj_zeroconf4.nm new file mode 100644 index 000000000..1ea3f3848 --- /dev/null +++ b/resources/examples/testfiles/mdp/multiobj_zeroconf4.nm @@ -0,0 +1,153 @@ +// IPv4: PTA model with digitial clocks +// multi-objective model of the host +// gxn/dxp 28/09/09 + +mdp + +//------------------------------------------------------------- +// VARIABLES +const int N=20; // number of abstract hosts +const int K=4; // number of probes to send + +// PROBABILITIES +const double old = N/65024; // probability pick an ip address being used +//const double old = 0.5; // probability pick an ip address being used +const double new = (1-old); // probability pick a new ip address + +// TIMING CONSTANTS +const int CONSEC = 2; // time interval between sending consecutive probles +const int TRANSTIME = 1; // upper bound on transmission time delay +const int LONGWAIT = 60; // minimum time delay after a high number of address collisions +const int DEFEND = 10; + +const int TIME_MAX_X = 60; // max value of clock x +const int TIME_MAX_Y = 10; // max value of clock y +const int TIME_MAX_Z = 1; // max value of clock z + +// OTHER CONSTANTS +const int MAXCOLL = 10; // maximum number of collisions before long wait +const int M=1; // time between sending and receiving a message + + +//------------------------------------------------------------- +// CONCRETE HOST +module host0 + + x : [0..TIME_MAX_X]; // first clock of the host + y : [0..TIME_MAX_Y]; // second clock of the host + + coll : [0..MAXCOLL]; // number of address collisions + probes : [0..K]; // counter (number of probes sent) + mess : [0..1]; // need to send a message or not + defend : [0..1]; // defend (if =1, try to defend IP address) + + ip : [1..2]; // ip address (1 - in use & 2 - fresh) + + l : [0..4] init 1; // location + // 0 : RECONFIGURE + // 1 : RANDOM + // 2 : WAITSP + // 3 : WAITSG + // 4 : USE + + // RECONFIGURE + [reset] l=0 -> (l'=1); + + // RANDOM (choose IP address) + [rec0] (l=1) -> true; // get message (ignore since have no ip address) + [rec1] (l=1) -> true; // get message (ignore since have no ip address) + // small number of collisions (choose straight away) + [] l=1 & coll 1/3*old : (l'=2) & (ip'=1) & (x'=0) + + 1/3*old : (l'=2) & (ip'=1) & (x'=1) + + 1/3*old : (l'=2) & (ip'=1) & (x'=2) + + 1/3*new : (l'=2) & (ip'=2) & (x'=0) + + 1/3*new : (l'=2) & (ip'=2) & (x'=1) + + 1/3*new : (l'=2) & (ip'=2) & (x'=2); + // large number of collisions: (wait for LONGWAIT) + [time] l=1 & coll=MAXCOLL & x (x'=min(x+1,TIME_MAX_X)); + [] l=1 & coll=MAXCOLL & x=LONGWAIT -> 1/3*old : (l'=2) & (ip'=1) & (x'=0) + + 1/3*old : (l'=2) & (ip'=1) & (x'=1) + + 1/3*old : (l'=2) & (ip'=1) & (x'=2) + + 1/3*new : (l'=2) & (ip'=2) & (x'=0) + + 1/3*new : (l'=2) & (ip'=2) & (x'=1) + + 1/3*new : (l'=2) & (ip'=2) & (x'=2); + + // WAITSP + // let time pass + [time] l=2 & x<2 -> (x'=min(x+1,2)); + // send probe + [send1] l=2 & ip=1 & x=2 & probes (x'=0) & (probes'=probes+1); + [send2] l=2 & ip=2 & x=2 & probes (x'=0) & (probes'=probes+1); + // sent K probes and waited 2 seconds + [] l=2 & x=2 & probes=K -> (l'=3) & (probes'=0) & (coll'=0) & (x'=0); + // get message and ip does not match: ignore + [rec0] l=2 & ip!=0 -> (l'=l); + [rec1] l=2 & ip!=1 -> (l'=l); + // get a message with matching ip: reconfigure + [rec1] l=2 & ip=1 -> (l'=0) & (coll'=min(coll+1,MAXCOLL)) & (x'=0) & (probes'=0); + + // WAITSG (sends two gratuitious arp probes) + // time passage + [time] l=3 & mess=0 & defend=0 & x (x'=min(x+1,TIME_MAX_X)); + [time] l=3 & mess=0 & defend=1 & x (x'=min(x+1,TIME_MAX_X)) & (y'=min(y+1,DEFEND)); + + // receive message and same ip: defend + [rec1] l=3 & mess=0 & ip=1 & (defend=0 | y>=DEFEND) -> (defend'=1) & (mess'=1) & (y'=0); + // receive message and same ip: defer + [rec1] l=3 & mess=0 & ip=1 & (defend=0 | y (l'=0) & (probes'=0) & (defend'=0) & (x'=0) & (y'=0); + // receive message and different ip + [rec0] l=3 & mess=0 & ip!=0 -> (l'=l); + [rec1] l=3 & mess=0 & ip!=1 -> (l'=l); + + + // send probe reply or message for defence + [send1] l=3 & ip=1 & mess=1 -> (mess'=0); + [send2] l=3 & ip=2 & mess=1 -> (mess'=0); + // send first gratuitous arp message + [send1] l=3 & ip=1 & mess=0 & x=CONSEC & probes<1 -> (x'=0) & (probes'=probes+1); + [send2] l=3 & ip=2 & mess=0 & x=CONSEC & probes<1 -> (x'=0) & (probes'=probes+1); + // send second gratuitous arp message (move to use) + [send1] l=3 & ip=1 & mess=0 & x=CONSEC & probes=1 -> (l'=4) & (x'=0) & (y'=0) & (probes'=0); + [send2] l=3 & ip=2 & mess=0 & x=CONSEC & probes=1 -> (l'=4) & (x'=0) & (y'=0) & (probes'=0); + + // USE (only interested in reaching this state so do not need to add anything here) + [] l=4 -> true; + +endmodule + +//------------------------------------------------------------- +// error automaton for the environment assumption +// do not get a reply when K probes are sent + +module env_error4 + + env : [0..1]; // 0 active and 1 done + k : [0..4]; // counts the number of messages sent + c1 : [0..M+1]; // time since first message + c2 : [0..M+1]; // time since second message + c3 : [0..M+1]; // time since third message + c4 : [0..M+1]; // time since fourth message + error : [0..1]; + + // message with new ip address arrives so done + [send2] error=0 & env=0 -> (env'=1); + // message with old ip address arrives so count + [send1] error=0 & env=0 -> (k'=min(k+1,K)); + // time passgae so update relevant clocks + [time] error=0 & env=0 & k=0 -> true; + [time] error=0 & env=0 & k=1 & min(c1,c2,c3,c4) (c1'=min(c1+1,M+1)); + [time] error=0 & env=0 & k=2 & min(c1,c2,c3,c4) (c1'=min(c1+1,M+1)) & (c2'=min(c2+1,M+1)); + [time] error=0 & env=0 & k=3 & min(c1,c2,c3,c4) (c1'=min(c1+1,M+1)) & (c2'=min(c2+1,M+1)) & (c3'=min(c3+1,M+1)); + [time] error=0 & env=0 & k=4 & min(c1,c2,c3,c4) (c1'=min(c1+1,M+1)) & (c2'=min(c2+1,M+1)) & (c3'=min(c3+1,M+1)) & (c4'=min(c4+1,M+1)); + // all clocks reached their bound so an error + [time] error=0 & env=0 & min(c1,c2,c3,c4)=M -> (error'=1); + // send a reply (then done) + [rec1] error=0 & env=0 & k>0 & min(c1,c2,c3,c4)<=M -> (env'=1); + // finished so any action can be performed + [time] error=1 | env=1 -> true; + [send1] error=1 | env=1 -> true; + [send2] error=1 | env=1 -> true; + [send2] error=1 | env=1 -> true; + [rec1] error=1 | env=1 -> true; + +endmodule diff --git a/resources/examples/testfiles/mdp/multiobjective1.nm b/resources/examples/testfiles/mdp/multiobjective1.nm deleted file mode 100644 index 1db60ec50..000000000 --- a/resources/examples/testfiles/mdp/multiobjective1.nm +++ /dev/null @@ -1,20 +0,0 @@ - -mdp - -module module1 - - // local state - s : [0..2] init 0; - - [A] s=0 -> 0.6 : (s'=1) + 0.4 : (s'=2); - [B] s=0 -> 0.3 : (s'=0) + 0.7 : (s'=1); - [C] s=0 -> 0.2 : (s'=0) + 0.8 : (s'=2); - [D] s=1 -> 0.25 : (s'=0) + 0.75 : (s'=2); - [] s=2 -> 1 : (s'=s); -endmodule - -rewards "rew" - [A] true : 10; - [D] true : 4; -endrewards - diff --git a/resources/examples/testfiles/mdp/multiobjective2.nm b/resources/examples/testfiles/mdp/multiobjective2.nm deleted file mode 100644 index 3df5018f5..000000000 --- a/resources/examples/testfiles/mdp/multiobjective2.nm +++ /dev/null @@ -1,20 +0,0 @@ - -mdp - -module module1 - - s : [0..2] init 0; - - [A] s=0 -> 1 : (s'=1); - [B] s=0 -> 1 : (s'=2); - [C] s=1 -> 1 : true; - [D] s=1 -> 1 : (s'=2); - [E] s=2 -> 1 : true; -endmodule - -rewards "rew" - [A] true : 10; - [C] true : 3; - [E] true : 1; -endrewards - diff --git a/src/test/modelchecker/SparseMdpPcaaModelCheckerTest.cpp b/src/test/modelchecker/SparseMdpPcaaModelCheckerTest.cpp index 16e2cf68a..fdffc20fe 100644 --- a/src/test/modelchecker/SparseMdpPcaaModelCheckerTest.cpp +++ b/src/test/modelchecker/SparseMdpPcaaModelCheckerTest.cpp @@ -14,7 +14,7 @@ TEST(SparseMdpPcaaModelCheckerTest, consensus) { - std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/consensus2_3_2.nm"; + std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/multiobj_consensus2_3_2.nm"; std::string formulasAsString = "multi(Pmax=? [ F \"one_proc_err\" ], P>=0.8916673903 [ G \"one_coin_ok\" ]) "; // numerical formulasAsString += "; \n multi(P>=0.1 [ F \"one_proc_err\" ], P>=0.8916673903 [ G \"one_coin_ok\" ])"; // achievability (true) formulasAsString += "; \n multi(P>=0.11 [ F \"one_proc_err\" ], P>=0.8916673903 [ G \"one_coin_ok\" ])"; // achievability (false) @@ -44,7 +44,7 @@ TEST(SparseMdpPcaaModelCheckerTest, consensus) { TEST(SparseMdpPcaaModelCheckerTest, zeroconf) { - std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/zeroconf4.nm"; + std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/multiobj_zeroconf4.nm"; std::string formulasAsString = "multi(Pmax=? [ F l=4 & ip=1 ] , P>=0.993141[ G (error=0) ]) "; // numerical // programm, model, formula @@ -63,7 +63,7 @@ TEST(SparseMdpPcaaModelCheckerTest, zeroconf) { TEST(SparseMdpPcaaModelCheckerTest, team3with3objectives) { - std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/team3obj_3.nm"; + std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/multiobj_team3.nm"; std::string formulasAsString = "multi(Pmax=? [ F task1_completed ], R{\"w_1_total\"}>=2.210204082 [ C ], P>=0.5 [ F task2_completed ])"; // numerical // programm, model, formula @@ -82,7 +82,7 @@ TEST(SparseMdpPcaaModelCheckerTest, team3with3objectives) { TEST(SparseMdpPcaaModelCheckerTest, scheduler) { - std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/scheduler05.nm"; + std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/multiobj_scheduler05.nm"; std::string formulasAsString = "multi(R{\"time\"}<= 11.778[ F \"tasks_complete\" ], R{\"energy\"}<=1.45 [ F \"tasks_complete\" ]) "; // programm, model, formula @@ -100,7 +100,7 @@ TEST(SparseMdpPcaaModelCheckerTest, scheduler) { TEST(SparseMdpPcaaModelCheckerTest, dpm) { - std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/dpm100.nm"; + std::string programFile = STORM_TEST_RESOURCES_DIR "/mdp/multiobj_dpm100.nm"; std::string formulasAsString = "multi(R{\"power\"}min=? [ C<=100 ], R{\"queue\"}<=70 [ C<=100 ])"; // numerical // programm, model, formula