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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
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<title>Mu - console.mu</title>
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<a href='https://github.com/akkartik/mu/blob/master/console.mu'>https://github.com/akkartik/mu/blob/master/console.mu</a>
<pre id='vimCodeElement'>
<span id="L1" class="LineNr"> 1 </span><span class="Comment"># example program: reading events from keyboard or mouse</span>
<span id="L2" class="LineNr"> 2 </span><span class="Comment">#</span>
<span id="L3" class="LineNr"> 3 </span><span class="Comment"># Keeps printing 'a' until you press a key or click on the mouse.</span>
<span id="L4" class="LineNr"> 4 </span>
<span id="L5" class="LineNr"> 5 </span><span class="muRecipe">def</span> <a href='console.mu.html#L5'>main</a> [
<span id="L6" class="LineNr"> 6 </span>  <span class="Constant">local-scope</span>
<span id="L7" class="LineNr"> 7 </span>  open-console
<span id="L8" class="LineNr"> 8 </span>  <span class="Delimiter">{</span>
<span id="L9" class="LineNr"> 9 </span>    e:<a href='084console.mu.html#L4'>event</a>, found?:bool <span class="Special">&lt;-</span> check-for-interaction
<span id="L10" class="LineNr">10 </span>    <span class="muControl">break-if</span> found?
<span id="L11" class="LineNr">11 </span>    print-character-to-display<span class="Constant"> 97</span>, <span class="Constant">7/white</span>
<span id="L12" class="LineNr">12 </span>   <span class="muControl"> loop</span>
<span id="L13" class="LineNr">13 </span>  <span class="Delimiter">}</span>
<span id="L14" class="LineNr">14 </span>  close-console
<span id="L15" class="LineNr">15 </span>  $print e, <span class="Constant">10/newline</span>
<span id="L16" class="LineNr">16 </span>]
</pre>
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ents to main // todo: test this Current_routine = main_routine; for (int i = 1; i < argc; ++i) { vector<double> arg; arg.push_back(new_mu_text(argv[i])); assert(get(Memory, arg.back()) == 0); current_call().ingredient_atoms.push_back(arg); } run(main_routine); } //:: 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") int id; :(before "End Globals") int Next_routine_id = 1; :(before "End Reset") 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. 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") put(Recipe_ordinal, "start-running", START_RUNNING); :(before "End Primitive Recipe Checks") case START_RUNNING: { if (inst.ingredients.empty()) { raise << maybe(get(Recipe, r).name) << "'start-running' requires at least one ingredient: the recipe to start running\n" << end(); break; } if (!is_mu_recipe(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "first ingredient of 'start-running' should be a recipe, but got '" << to_string(inst.ingredients.at(0)) << "'\n" << end(); break; } break; } :(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 (int i = /*skip callee*/1; i < SIZE(current_instruction().ingredients); ++i) { new_routine->calls.front().ingredient_atoms.push_back(ingredients.at(i)); reagent/*copy*/ ingredient = current_instruction().ingredients.at(i); new_routine->calls.front().ingredients.push_back(ingredient); // End Populate start-running Ingredient } 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; def f1 [ 1:num <- copy 0 2:num <- copy 0 ] +schedule: f1 +run: {1: "number"} <- copy {0: "literal"} +schedule: f1 +run: {2: "number"} <- copy {0: "literal"} :(scenario scheduler_interleaves_routines) % Scheduling_interval = 1; def f1 [ start-running f2 1:num <- copy 0 2:num <- copy 0 ] def f2 [ 3:num <- copy 0 4:num <- copy 0 ] +schedule: f1 +run: start-running {f2: "recipe-literal"} +schedule: f2 +run: {3: "number"} <- copy {0: "literal"} +schedule: f1 +run: {1: "number"} <- copy {0: "literal"} +schedule: f2 +run: {4: "number"} <- copy {0: "literal"} +schedule: f1 +run: {2: "number"} <- copy {0: "literal"} :(scenario start_running_takes_ingredients) def f1 [ start-running f2, 3 # wait for f2 to run { jump-unless 1:num, -1 } ] def f2 [ 1:num <- next-ingredient 2:num <- add 1:num, 1 ] +mem: storing 4 in location 2 //: type-checking for 'start-running' :(scenario start_running_checks_types) % Hide_errors = true; def f1 [ start-running f2, 3 ] def f2 n:&:num [ ] +error: f1: ingredient 0 has the wrong type at 'start-running f2, 3' // 'start-running' only uses the ingredients of the callee, not its products :(before "End is_indirect_call_with_ingredients Special-cases") if (r == START_RUNNING) return true; //: back to testing 'start-running' :(scenario start_running_returns_routine_id) def f1 [ 1:num <- start-running f2 ] def f2 [ 12:num <- 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:num <- copy 0\n]\n").front(); % recipe_ordinal f2 = load("recipe f2 [\n2:num <- copy 0\n]\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 # must have at least one routine without escaping def f3 [ 3:num <- 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; def f1 [ 1:num <- copy 0 2:num <- copy 0 ] +schedule: f1 -run: idle //:: Errors in a routine cause it to terminate. :(scenario scheduler_terminates_routines_after_errors) % Hide_errors = true; % Scheduling_interval = 2; def f1 [ start-running f2 1:num <- copy 0 2:num <- copy 0 ] def f2 [ # divide by 0 twice 3:num <- divide-with-remainder 4, 0 4:num <- divide-with-remainder 4, 0 ] # f2 should stop after first divide by 0 +error: f2: divide by zero in '3:num <- divide-with-remainder 4, 0' -error: f2: divide by zero in '4:num <- divide-with-remainder 4, 0' :(after "operator<<(ostream& os, end /*unused*/)") if (Trace_stream && Trace_stream->curr_label == "error" && Current_routine) { Current_routine->state = COMPLETED; } //:: Routines are marked completed when their parent completes. :(scenario scheduler_kills_orphans) def main [ start-running f1 # f1 never actually runs because its parent completes without waiting for it ] def f1 [ 1:num <- copy 0 ] -schedule: f1 :(before "End Scheduler Cleanup") for (int i = 0; i < SIZE(Routines); ++i) { if (Routines.at(i)->state == COMPLETED) continue; if (Routines.at(i)->parent_index < 0) continue; // root thread // structured concurrency: http://250bpm.com/blog:71 if (has_completed_parent(i)) { Routines.at(i)->state = COMPLETED; } } :(code) bool has_completed_parent(int routine_index) { for (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; def f1 [ 1:num/child-id <- start-running f2 12:num <- 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:num/state <- routine-state 1:num/child-id ] def f2 [ 12:num <- 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") put(Recipe_ordinal, "routine-state", ROUTINE_STATE); :(before "End Primitive Recipe Checks") case ROUTINE_STATE: { if (SIZE(inst.ingredients) != 1) { raise << maybe(get(Recipe, r).name) << "'routine-state' requires exactly one ingredient, but got '" << to_original_string(inst) << "'\n" << end(); break; } if (!is_mu_number(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "first ingredient of 'routine-state' should be a routine id generated by 'start-running', but got '" << inst.ingredients.at(0).original_string << "'\n" << end(); break; } break; } :(before "End Primitive Recipe Implementations") case ROUTINE_STATE: { int id = ingredients.at(0).at(0); int result = -1; for (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") STOP, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "stop", STOP); :(before "End Primitive Recipe Checks") case STOP: { if (SIZE(inst.ingredients) != 1) { raise << maybe(get(Recipe, r).name) << "'stop' requires exactly one ingredient, but got '" << to_original_string(inst) << "'\n" << end(); break; } if (!is_mu_number(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "first ingredient of 'stop' should be a routine id generated by 'start-running', but got '" << inst.ingredients.at(0).original_string << "'\n" << end(); break; } break; } :(before "End Primitive Recipe Implementations") case STOP: { int id = ingredients.at(0).at(0); for (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") put(Recipe_ordinal, "$dump-routines", _DUMP_ROUTINES); :(before "End Primitive Recipe Checks") case _DUMP_ROUTINES: { break; } :(before "End Primitive Recipe Implementations") case _DUMP_ROUTINES: { for (int i = 0; i < SIZE(Routines); ++i) { cerr << i << ": " << Routines.at(i)->id << ' ' << Routines.at(i)->state << ' ' << Routines.at(i)->parent_index << '\n'; } break; } //: support for stopping routines after some number of cycles :(scenario routine_discontinues_past_limit) % Scheduling_interval = 2; def f1 [ 1:num/child-id <- start-running f2 limit-time 1:num/child-id, 10 # padding loop just to make sure f2 has time to completed 2:num <- copy 20 2:num <- subtract 2:num, 1 jump-if 2:num, -2:offset ] def f2 [ jump -1:offset # run forever $print [should never get here], 10/newline ] # f2 terminates +schedule: discontinuing routine 2 :(before "End routine States") DISCONTINUED, :(before "End Scheduler State Transitions") if (Current_routine->limit >= 0) { if (Current_routine->limit <= Scheduling_interval) { trace("schedule") << "discontinuing routine " << Current_routine->id << end(); Current_routine->state = DISCONTINUED; Current_routine->limit = 0; } else { Current_routine->limit -= Scheduling_interval; } } :(before "End Test Teardown") if (Passed && any_routines_with_error()) raise << "some routines died with errors\n" << end(); :(before "End Mu Test Teardown") if (Passed && any_routines_with_error()) raise << Current_scenario->name << ": some routines died with errors\n" << end(); :(code) bool any_routines_with_error() { for (int i = 0; i < SIZE(Routines); ++i) { if (Routines.at(i)->state == DISCONTINUED) return true; } return false; } :(before "End routine Fields") int limit; :(before "End routine Constructor") limit = -1; /* no limit */ :(before "End Primitive Recipe Declarations") LIMIT_TIME, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "limit-time", LIMIT_TIME); :(before "End Primitive Recipe Checks") case LIMIT_TIME: { if (SIZE(inst.ingredients) != 2) { raise << maybe(get(Recipe, r).name) << "'limit-time' requires exactly two ingredient, but got '" << to_original_string(inst) << "'\n" << end(); break; } if (!is_mu_number(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "first ingredient of 'limit-time' should be a routine id generated by 'start-running', but got '" << inst.ingredients.at(0).original_string << "'\n" << end(); break; } if (!is_mu_number(inst.ingredients.at(1))) { raise << maybe(get(Recipe, r).name) << "second ingredient of 'limit-time' should be a number (of instructions to run for), but got '" << inst.ingredients.at(1).original_string << "'\n" << end(); break; } break; } :(before "End Primitive Recipe Implementations") case LIMIT_TIME: { int id = ingredients.at(0).at(0); for (int i = 0; i < SIZE(Routines); ++i) { if (Routines.at(i)->id == id) { Routines.at(i)->limit = ingredients.at(1).at(0); break; } } break; } :(before "End routine Fields") int instructions_run; :(before "End routine Constructor") instructions_run = 0; :(before "Reset instructions_run_this_scheduling_slice") Current_routine->instructions_run += Current_routine->instructions_run_this_scheduling_slice; :(before "End Primitive Recipe Declarations") NUMBER_OF_INSTRUCTIONS, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "number-of-instructions", NUMBER_OF_INSTRUCTIONS); :(before "End Primitive Recipe Checks") case NUMBER_OF_INSTRUCTIONS: { if (SIZE(inst.ingredients) != 1) { raise << maybe(get(Recipe, r).name) << "'number-of-instructions' requires exactly one ingredient, but got '" << to_original_string(inst) << "'\n" << end(); break; } if (!is_mu_number(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "first ingredient of 'number-of-instructions' should be a routine id generated by 'start-running', but got '" << inst.ingredients.at(0).original_string << "'\n" << end(); break; } break; } :(before "End Primitive Recipe Implementations") case NUMBER_OF_INSTRUCTIONS: { int id = ingredients.at(0).at(0); int result = -1; for (int i = 0; i < SIZE(Routines); ++i) { if (Routines.at(i)->id == id) { result = Routines.at(i)->instructions_run; break; } } products.resize(1); products.at(0).push_back(result); break; } :(scenario number_of_instructions) def f1 [ 10:num/child-id <- start-running f2 { loop-unless 20:num } 11:num <- number-of-instructions 10:num ] def f2 [ # 2 instructions worth of work 1:num <- copy 34 20:num <- copy 1 ] # f2 runs an extra instruction for the implicit return added by the # fill_in_return_ingredients transform +mem: storing 3 in location 11 :(scenario number_of_instructions_across_multiple_scheduling_intervals) % Scheduling_interval = 1; def f1 [ 10:num/child-id <- start-running f2 { loop-unless 20:num } 11:num <- number-of-instructions 10:num ] def f2 [ # 4 instructions worth of work 1:num <- copy 34 2:num <- copy 1 2:num <- copy 3 20:num <- copy 1 ] # f2 runs an extra instruction for the implicit return added by the # fill_in_return_ingredients transform +mem: storing 5 in location 11 //:: make sure that each routine gets a different alloc to start :(scenario new_concurrent) def f1 [ start-running f2 1:&:num/raw <- new number:type # wait for f2 to complete { loop-unless 4:num/raw } ] def f2 [ 2:&:num/raw <- new number:type # hack: assumes scheduler implementation 3:bool/raw <- equal 1:&:num/raw, 2:&:num/raw # signal f2 complete 4:num/raw <- copy 1 ] +mem: storing 0 in location 3