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@ -22,8 +22,6 @@
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#include "srslte/common/fsm.h"
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#include "srslte/common/fsm.h"
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#include "srslte/common/test_common.h"
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#include "srslte/common/test_common.h"
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srslte::log_ref test_log{"TEST"};
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/////////////////////////////
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/////////////////////////////
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// Events
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// Events
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@ -39,23 +37,26 @@ public:
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uint32_t foo_counter = 0;
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uint32_t foo_counter = 0;
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const char* name() const override { return "fsm1"; }
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const char* name() const override { return "fsm1"; }
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fsm1(srslte::log_ref log_) : srslte::fsm_t<fsm1>(log_) {}
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// idle state
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// idle state
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struct idle_st : public srslte::state_t {
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struct idle_st : public srslte::state_t {
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idle_st(fsm1* f) { f->idle_enter_counter++; }
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idle_st(fsm1* f_) : f(f_) { f->idle_enter_counter++; }
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void enter() final { test_log->info("fsm1::%s::enter called\n", name()); }
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void enter() final { f->log_h->info("fsm1::%s::enter called\n", name()); }
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void exit() final { test_log->info("fsm1::%s::exit called\n", name()); }
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void exit() final { f->log_h->info("fsm1::%s::exit called\n", name()); }
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const char* name() const final { return "idle"; }
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const char* name() const final { return "idle"; }
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fsm1* f;
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};
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};
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// simple state
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// simple state
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class state1 : public srslte::state_t
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class state1 : public srslte::state_t
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{
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{
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public:
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public:
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state1(fsm1* f) { f->state1_enter_counter++; }
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state1(fsm1* f_) : f(f_) { f->state1_enter_counter++; }
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void enter() final { test_log->info("fsm1::%s::enter called\n", name()); }
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void enter() final { f->log_h->info("fsm1::%s::enter called\n", name()); }
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void exit() final { test_log->info("fsm1::%s::exit called\n", name()); }
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void exit() final { f->log_h->info("fsm1::%s::exit called\n", name()); }
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const char* name() const final { return "state1"; }
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const char* name() const final { return "state1"; }
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fsm1* f;
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};
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};
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// this state is another FSM
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// this state is another FSM
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@ -64,13 +65,16 @@ public:
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public:
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public:
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struct state_inner : public srslte::state_t {
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struct state_inner : public srslte::state_t {
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const char* name() const final { return "state_inner"; }
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const char* name() const final { return "state_inner"; }
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void enter() { test_log->info("fsm2::%s::enter called\n", name()); }
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state_inner(fsm2* f_) : f(f_) {}
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void exit() final { test_log->info("fsm2::%s::exit called\n", name()); }
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void enter() { f->log_h->info("fsm2::%s::enter called\n", name()); }
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// void exit() final { f->log_h->info("fsm2::%s::exit called\n", name()); }
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fsm2* f;
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};
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};
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fsm2(fsm1* f_) : nested_fsm_t(f_) {}
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fsm2(fsm1* f_) : nested_fsm_t(f_) {}
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void enter() final { test_log->info("%s::enter called\n", name()); }
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~fsm2() { log_h->info("%s being destroyed!", name()); }
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void exit() { test_log->info("%s::exit called\n", name()); }
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void enter() final { log_h->info("%s::enter called\n", name()); }
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void exit() { log_h->info("%s::exit called\n", name()); }
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const char* name() const final { return "fsm2"; }
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const char* name() const final { return "fsm2"; }
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protected:
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protected:
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@ -79,7 +83,7 @@ public:
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auto react(state_inner& s, ev2 e) -> state1;
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auto react(state_inner& s, ev2 e) -> state1;
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// list of states
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// list of states
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state_list<state_inner> states;
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state_list<state_inner> states{this};
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};
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};
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protected:
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protected:
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@ -97,30 +101,30 @@ protected:
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// FSM event handlers
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// FSM event handlers
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auto fsm1::fsm2::react(state_inner& s, ev1 e) -> srslte::same_state
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auto fsm1::fsm2::react(state_inner& s, ev1 e) -> srslte::same_state
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{
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{
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test_log->info("fsm2::state_inner::react called\n");
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log_h->info("fsm2::state_inner::react called\n");
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return {};
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return {};
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}
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}
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auto fsm1::fsm2::react(state_inner& s, ev2 e) -> state1
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auto fsm1::fsm2::react(state_inner& s, ev2 e) -> state1
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{
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{
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test_log->info("fsm2::state_inner::react called\n");
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log_h->info("fsm2::state_inner::react called\n");
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return state1{parent_fsm()};
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return state1{parent_fsm()};
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}
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}
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auto fsm1::react(idle_st& s, ev1 e) -> state1
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auto fsm1::react(idle_st& s, ev1 e) -> state1
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{
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{
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test_log->info("fsm1::%s::react called\n", s.name());
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log_h->info("fsm1::%s::react called\n", s.name());
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foo(e);
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foo(e);
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return state1{this};
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return state1{this};
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}
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}
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auto fsm1::react(state1& s, ev1 e) -> fsm2
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auto fsm1::react(state1& s, ev1 e) -> fsm2
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{
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{
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test_log->info("fsm1::%s::react called\n", s.name());
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log_h->info("fsm1::%s::react called\n", s.name());
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return fsm2{this};
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return fsm2{this};
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}
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}
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auto fsm1::react(state1& s, ev2 e) -> srslte::choice_t<idle_st, fsm2>
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auto fsm1::react(state1& s, ev2 e) -> srslte::choice_t<idle_st, fsm2>
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{
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{
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test_log->info("fsm1::%s::react called\n", s.name());
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log_h->info("fsm1::%s::react called\n", s.name());
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return idle_st{this};
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return idle_st{this};
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}
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}
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@ -145,9 +149,11 @@ static_assert(fsm1::can_hold_state<fsm1::state1>(), "can hold state method faile
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int test_hsm()
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int test_hsm()
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{
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{
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test_log->set_level(srslte::LOG_LEVEL_INFO);
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srslte::log_ref log_h{"HSM"};
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log_h->prepend_string("HSM: ");
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log_h->set_level(srslte::LOG_LEVEL_INFO);
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fsm1 f;
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fsm1 f{log_h};
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TESTASSERT(std::string{f.name()} == "fsm1");
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TESTASSERT(std::string{f.name()} == "fsm1");
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TESTASSERT(std::string{f.get_state_name()} == "idle");
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TESTASSERT(std::string{f.get_state_name()} == "idle");
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TESTASSERT(f.is_in_state<fsm1::idle_st>());
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TESTASSERT(f.is_in_state<fsm1::idle_st>());
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@ -212,6 +218,9 @@ protected:
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auto react(procstate1& s, procevent2 ev) -> complete_st;
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auto react(procstate1& s, procevent2 ev) -> complete_st;
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auto react(complete_st& s, srslte::proc_complete_ev<bool> ev) -> idle_st;
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auto react(complete_st& s, srslte::proc_complete_ev<bool> ev) -> idle_st;
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// example of uncaught event handling
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void unhandled_event(int e) { log_h->info("I dont know how to handle an \"int\" event\n"); }
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state_list<idle_st, procstate1, complete_st> states{this};
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state_list<idle_st, procstate1, complete_st> states{this};
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};
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};
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@ -238,10 +247,14 @@ auto proc1::react(complete_st& s, srslte::proc_complete_ev<bool> ev) -> idle_st
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int test_fsm_proc()
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int test_fsm_proc()
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{
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{
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proc1 proc{srslte::logmap::get("TEST")};
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proc1 proc{srslte::logmap::get("PROC")};
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int v = 2;
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proc.get_log()->prepend_string("Proc1: ");
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proc.get_log()->set_level(srslte::LOG_LEVEL_INFO);
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proc.set_fsm_event_log_level(srslte::LOG_LEVEL_INFO);
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int v = 2;
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proc.launch(&v);
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proc.launch(&v);
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proc.launch(&v);
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proc.launch(&v);
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proc.trigger(5);
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proc.trigger(procevent1{});
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proc.trigger(procevent1{});
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proc.launch(&v);
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proc.launch(&v);
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proc.trigger(procevent2{});
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proc.trigger(procevent2{});
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@ -249,11 +262,16 @@ int test_fsm_proc()
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return SRSLTE_SUCCESS;
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return SRSLTE_SUCCESS;
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}
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}
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///////////////////////////
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int main()
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int main()
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{
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{
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srslte::logmap::get("TEST")->set_level(srslte::LOG_LEVEL_INFO);
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srslte::log_ref testlog{"TEST"};
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// TESTASSERT(test_hsm() == SRSLTE_SUCCESS);
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testlog->set_level(srslte::LOG_LEVEL_INFO);
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TESTASSERT(test_hsm() == SRSLTE_SUCCESS);
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testlog->info("TEST \"hsm\" finished successfully\n\n");
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TESTASSERT(test_fsm_proc() == SRSLTE_SUCCESS);
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TESTASSERT(test_fsm_proc() == SRSLTE_SUCCESS);
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testlog->info("TEST \"proc\" finished successfully\n\n");
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return SRSLTE_SUCCESS;
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return SRSLTE_SUCCESS;
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}
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}
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