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//: Run a second routine concurrently using 'start-running', without any
//: guarantees on how the operations in each are interleaved with each other.
:(scenario scheduler)
recipe f1 [
start-running f2:recipe
# wait for f2 to run
{
jump-unless 1:number, -1
}
]
recipe f2 [
1:number <- copy 1
]
+schedule: f1
+schedule: f2
//: first, add a deadline to run(routine)
//: these changes are ugly and brittle; just close your nose and get through the next few lines
:(replace "void run_current_routine()")
void run_current_routine(long long int time_slice)
:(replace "while (!Current_routine->completed())" following "void run_current_routine(long long int time_slice)")
long long int ninstrs = 0;
while (Current_routine->state == RUNNING && ninstrs < time_slice)
:(after "Running One Instruction")
ninstrs++;
//: now the rest of the scheduler is clean
:(before "struct routine")
enum routine_state {
RUNNING,
COMPLETED,
// End routine States
};
:(before "End routine Fields")
enum routine_state state;
:(before "End routine Constructor")
state = RUNNING;
:(before "End Globals")
vector<routine*> Routines;
long long int Current_routine_index = 0;
long long int Scheduling_interval = 500;
:(before "End Setup")
Scheduling_interval = 500;
Routines.clear();
:(replace{} "void run(recipe_ordinal r)")
void run(recipe_ordinal r) {
Routines.push_back(new routine(r));
Current_routine_index = 0, Current_routine = Routines.at(0);
while (!all_routines_done()) {
skip_to_next_routine();
assert(Current_routine);
assert(Current_routine->state == RUNNING);
trace("schedule") << current_routine_label() << end();
run_current_routine(Scheduling_interval);
// Scheduler State Transitions
if (Current_routine->completed())
Current_routine->state = COMPLETED;
// End Scheduler State Transitions
// Scheduler Cleanup
// End Scheduler Cleanup
}
}
:(code)
bool all_routines_done() {
for (long long int i = 0; i < SIZE(Routines); ++i) {
if (Routines.at(i)->state == RUNNING) {
return false;
}
}
return true;
}
// skip Current_routine_index past non-RUNNING routines
void skip_to_next_routine() {
assert(!Routines.empty());
assert(Current_routine_index < SIZE(Routines));
for (long long int i = (Current_routine_index+1)%SIZE(Routines); i != Current_routine_index; i = (i+1)%SIZE(Routines)) {
if (Routines.at(i)->state == RUNNING) {
Current_routine_index = i;
Current_routine = Routines.at(i);
return;
}
}
}
string current_routine_label() {
ostringstream result;
call_stack calls = Current_routine->calls;
for (call_stack::iterator p = calls.begin(); p != calls.end(); ++p) {
if (p != calls.begin()) result << '/';
result << Recipe[p->running_recipe].name;
}
return result.str();
}
:(before "End Teardown")
for (long long int i = 0; i < SIZE(Routines); ++i)
delete Routines.at(i);
Routines.clear();
//:: To schedule new routines to run, call 'start-running'.
//: 'start-running' will return a unique id for the routine that was created.
//: routine id is a number, but don't do any arithmetic on it
:(before "End routine Fields")
long long int id;
:(before "End Globals")
long long int Next_routine_id = 1;
:(before "End Setup")
Next_routine_id = 1;
:(before "End routine Constructor")
id = Next_routine_id;
Next_routine_id++;
//: routines save the routine that spawned them
:(before "End routine Fields")
// todo: really should be routine_id, but that's less efficient.
long long int parent_index; // only < 0 if there's no parent_index
:(before "End routine Constructor")
parent_index = -1;
:(before "End Primitive Recipe Declarations")
START_RUNNING,
:(before "End Primitive Recipe Numbers")
Recipe_ordinal["start-running"] = START_RUNNING;
:(before "End Primitive Recipe Implementations")
case START_RUNNING: {
routine* new_routine = new routine(ingredients.at(0).at(0));
new_routine->parent_index = Current_routine_index;
// populate ingredients
for (long long int i = 1; i < SIZE(current_instruction().ingredients); ++i)
new_routine->calls.front().ingredient_atoms.push_back(ingredients.at(i));
Routines.push_back(new_routine);
products.resize(1);
products.at(0).push_back(new_routine->id);
break;
}
:(scenario scheduler_runs_single_routine)
% Scheduling_interval = 1;
recipe f1 [
1:number <- copy 0
2:number <- copy 0
]
+schedule: f1
+run: 1:number <- copy 0
+schedule: f1
+run: 2:number <- copy 0
:(scenario scheduler_interleaves_routines)
% Scheduling_interval = 1;
recipe f1 [
start-running f2:recipe
1:number <- copy 0
2:number <- copy 0
]
recipe f2 [
3:number <- copy 0
4:number <- copy 0
]
+schedule: f1
+run: start-running f2:recipe
+schedule: f2
+run: 3:number <- copy 0
+schedule: f1
+run: 1:number <- copy 0
+schedule: f2
+run: 4:number <- copy 0
+schedule: f1
+run: 2:number <- copy 0
:(scenario start_running_takes_args)
recipe f1 [
start-running f2:recipe, 3
# wait for f2 to run
{
jump-unless 1:number, -1
}
]
recipe f2 [
1:number <- next-ingredient
2:number <- add 1:number, 1
]
+mem: storing 4 in location 2
:(scenario start_running_returns_routine_id)
recipe f1 [
1:number <- start-running f2:recipe
]
recipe f2 [
12:number <- copy 44
]
+mem: storing 2 in location 1
//: this scenario will require some careful setup in escaped C++
//: (straining our tangle capabilities to near-breaking point)
:(scenario scheduler_skips_completed_routines)
% recipe_ordinal f1 = load("recipe f1 [\n1:number <- copy 0\n]").front();
% recipe_ordinal f2 = load("recipe f2 [\n2:number <- copy 0\n]").front();
% Routines.push_back(new routine(f1)); // f1 meant to run
% Routines.push_back(new routine(f2));
% Routines.back()->state = COMPLETED; // f2 not meant to run
#? % Trace_stream->dump_layer = "all";
# must have at least one routine without escaping
recipe f3 [
3:number <- copy 0
]
# by interleaving '+' lines with '-' lines, we allow f1 and f3 to run in any order
+schedule: f1
+mem: storing 0 in location 1
-schedule: f2
-mem: storing 0 in location 2
+schedule: f3
+mem: storing 0 in location 3
:(scenario scheduler_starts_at_middle_of_routines)
% Routines.push_back(new routine(COPY));
% Routines.back()->state = COMPLETED;
recipe f1 [
1:number <- copy 0
2:number <- copy 0
]
+schedule: f1
-run: idle
//:: Routines are marked completed when their parent completes.
:(scenario scheduler_kills_orphans)
recipe main [
start-running f1:recipe
# f1 never actually runs because its parent completes without waiting for it
]
recipe f1 [
1:number <- copy 0
]
-schedule: f1
:(before "End Scheduler Cleanup")
for (long long int i = 0; i < SIZE(Routines); ++i) {
if (Routines.at(i)->state == COMPLETED) continue;
if (Routines.at(i)->parent_index < 0) continue; // root thread
if (has_completed_parent(i)) {
Routines.at(i)->state = COMPLETED;
}
}
:(code)
bool has_completed_parent(long long int routine_index) {
for (long long int j = routine_index; j >= 0; j = Routines.at(j)->parent_index) {
if (Routines.at(j)->state == COMPLETED)
return true;
}
return false;
}
//:: 'routine-state' can tell if a given routine id is running
:(scenario routine_state_test)
% Scheduling_interval = 2;
recipe f1 [
1:number/child-id <- start-running f2:recipe
12:number <- copy 0 # race condition since we don't care about location 12
# thanks to Scheduling_interval, f2's one instruction runs in between here and completes
2:number/state <- routine-state 1:number/child-id
]
recipe f2 [
12:number <- copy 0
# trying to run a second instruction marks routine as completed
]
# recipe f2 should be in state COMPLETED
+mem: storing 1 in location 2
:(before "End Primitive Recipe Declarations")
ROUTINE_STATE,
:(before "End Primitive Recipe Numbers")
Recipe_ordinal["routine-state"] = ROUTINE_STATE;
:(before "End Primitive Recipe Implementations")
case ROUTINE_STATE: {
if (SIZE(ingredients) != 1) {
raise << current_recipe_name() << ": 'routine-state' requires exactly one ingredient, but got " << current_instruction().to_string() << '\n' << end();
break;
}
if (!scalar(ingredients.at(0))) {
raise << current_recipe_name() << ": first ingredient of 'routine-state' should be a routine id generated by 'start-running', but got " << current_instruction().ingredients.at(0).original_string << '\n' << end();
break;
}
long long int id = ingredients.at(0).at(0);
long long int result = -1;
for (long long int i = 0; i < SIZE(Routines); ++i) {
if (Routines.at(i)->id == id) {
result = Routines.at(i)->state;
break;
}
}
products.resize(1);
products.at(0).push_back(result);
break;
}
//:: miscellaneous helpers
:(before "End Primitive Recipe Declarations")
RESTART,
:(before "End Primitive Recipe Numbers")
Recipe_ordinal["restart"] = RESTART;
:(before "End Primitive Recipe Implementations")
case RESTART: {
if (SIZE(ingredients) != 1) {
raise << current_recipe_name() << ": 'restart' requires exactly one ingredient, but got " << current_instruction().to_string() << '\n' << end();
break;
}
if (!scalar(ingredients.at(0))) {
raise << current_recipe_name() << ": first ingredient of 'restart' should be a routine id generated by 'start-running', but got " << current_instruction().ingredients.at(0).original_string << '\n' << end();
break;
}
long long int id = ingredients.at(0).at(0);
for (long long int i = 0; i < SIZE(Routines); ++i) {
if (Routines.at(i)->id == id) {
Routines.at(i)->state = RUNNING;
break;
}
}
break;
}
:(before "End Primitive Recipe Declarations")
STOP,
:(before "End Primitive Recipe Numbers")
Recipe_ordinal["stop"] = STOP;
:(before "End Primitive Recipe Implementations")
case STOP: {
if (SIZE(ingredients) != 1) {
raise << current_recipe_name() << ": 'stop' requires exactly one ingredient, but got " << current_instruction().to_string() << '\n' << end();
break;
}
if (!scalar(ingredients.at(0))) {
raise << current_recipe_name() << ": first ingredient of 'stop' should be a routine id generated by 'start-running', but got " << current_instruction().ingredients.at(0).original_string << '\n' << end();
break;
}
long long int id = ingredients.at(0).at(0);
for (long long int i = 0; i < SIZE(Routines); ++i) {
if (Routines.at(i)->id == id) {
Routines.at(i)->state = COMPLETED;
break;
}
}
break;
}
:(before "End Primitive Recipe Declarations")
_DUMP_ROUTINES,
:(before "End Primitive Recipe Numbers")
Recipe_ordinal["$dump-routines"] = _DUMP_ROUTINES;
:(before "End Primitive Recipe Implementations")
case _DUMP_ROUTINES: {
for (long long int i = 0; i < SIZE(Routines); ++i) {
cerr << i << ": " << Routines.at(i)->id << ' ' << Routines.at(i)->state << ' ' << Routines.at(i)->parent_index << '\n';
}
break;
}
|