//: Helper for various programming environments: run arbitrary mu code and //: return some result in string form. :(scenario run_interactive_code) recipe main [ 2:address:array:character <- new [1:number <- copy 34:literal] run-interactive 2:address:array:character ] +mem: storing 34 in location 1 :(scenario run_interactive_empty) recipe main [ 1:address:array:character <- run-interactive 0:literal ] # result is null +mem: storing 0 in location 1 //: run code in 'interactive mode', i.e. with warnings off and return: //: stringified output in case we want to print it to screen //: any warnings encountered //: simulated screen any prints went to :(before "End Primitive Recipe Declarations") RUN_INTERACTIVE, :(before "End Primitive Recipe Numbers") Recipe_ordinal["run-interactive"] = RUN_INTERACTIVE; //? cerr << "run-interactive: " << RUN_INTERACTIVE << '\n'; //? 1 :(before "End Primitive Recipe Implementations") case RUN_INTERACTIVE: { if (SIZE(ingredients) != 1) { raise << current_recipe_name() << ": 'run-interactive' 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 'run-interactive' should be a literal string, but got " << current_instruction().ingredients.at(0).original_string << '\n' << end(); break; } products.resize(3); bool new_code_pushed_to_stack = run_interactive(ingredients.at(0).at(0)); if (!new_code_pushed_to_stack) { products.at(0).push_back(0); products.at(1).push_back(warnings_from_trace()); products.at(2).push_back(0); clean_up_interactive(); break; // done with this instruction } else { continue; // not done with caller; don't increment current_step_index() } } :(before "End Globals") bool Running_interactive = false; long long int Old_screen = 0; // we can support one iteration of screen inside screen :(before "End Setup") Running_interactive = false; Old_screen = 0; :(code) // reads a string, tries to call it as code (treating it as a test), saving // all warnings. // returns true if successfully called (no errors found during load and transform) bool run_interactive(long long int address) { if (Recipe_ordinal.find("interactive") == Recipe_ordinal.end()) Recipe_ordinal["interactive"] = Next_recipe_ordinal++; Old_screen = Memory[SCREEN]; //? cerr << "save screen: " << Old_screen << '\n'; //? 2 // try to sandbox the run as best you can // todo: test this if (!Current_scenario) { // not already sandboxed for (long long int i = 1; i < Reserved_for_tests; ++i) Memory.erase(i); Name[Recipe_ordinal["interactive"]].clear(); } //? cerr << "screen was at " << Name[Recipe_ordinal["interactive"]]["screen"] << '\n'; //? 1 Name[Recipe_ordinal["interactive"]]["screen"] = SCREEN; //? cerr << "screen now at " << Name[Recipe_ordinal["interactive"]]["screen"] << '\n'; //? 1 string command = trim(strip_comments(read_mu_string(address))); if (command.empty()) return false; Recipe.erase(Recipe_ordinal["interactive"]); Hide_warnings = true; if (!Trace_stream) { Trace_file = ""; // if there wasn't already a stream we don't want to save it Trace_stream = new trace_stream; Trace_stream->collect_layer = "warn"; } // call run(string) but without the scheduling // we won't create a local scope so that we can get to the new screen after // we return from 'interactive'. load(string("recipe interactive [\n") + "screen:address <- new-fake-screen 30, 5\n" + command + "\n" + "]\n"); transform_all(); if (trace_count("warn") > 0) return false; Running_interactive = true; Current_routine->calls.push_front(call(Recipe_ordinal["interactive"])); return true; } :(scenario "run_interactive_returns_stringified_result") recipe main [ # try to interactively add 2 and 2 1:address:array:character <- new [add 2:literal, 2:literal] 2:address:array:character <- run-interactive 1:address:array:character 10:array:character <- copy 2:address:array:character/deref ] # first letter in the output should be '4' in unicode +mem: storing 52 in location 11 :(scenario "run_interactive_returns_string") recipe main [ # try to interactively add 2 and 2 1:address:array:character <- new [ 100:address:array:character <- new [a] 101:address:array:character <- new [b] 102:address:array:character <- string-append 100:address:array:character, 101:address:array:character ] 2:address:array:character <- run-interactive 1:address:array:character 10:array:character <- copy 2:address:array:character/deref ] # output contains "ab" +mem: storing 97 in location 11 +mem: storing 98 in location 12 :(scenario "run_interactive_returns_warnings") recipe main [ # run a command that generates a warning 1:address:array:character <- new [get 1234:number, foo:offset] 2:address:array:character, 3:address:array:character <- run-interactive 1:address:array:character 10:array:character <- copy 3:address:array:character/deref ] # warning should be "unknown element foo in container number" +mem: storing 117 in location 11 +mem: storing 110 in location 12 +mem: storing 107 in location 13 +mem: storing 110 in location 14 :(before "End Globals") string Most_recent_results; :(before "End Setup") Most_recent_results = ""; :(before "End of Instruction") if (Running_interactive) { record_products(current_instruction(), products); } :(code) void record_products(const instruction& instruction, const vector >& products) { ostringstream out; for (long long int i = 0; i < SIZE(products); ++i) { // string if (i < SIZE(instruction.products)) { if (is_string(instruction.products.at(i))) { assert(scalar(products.at(i))); out << read_mu_string(products.at(i).at(0)) << '\n'; continue; } // End Record Product Special-cases } for (long long int j = 0; j < SIZE(products.at(i)); ++j) out << products.at(i).at(j) << ' '; out << '\n'; } Most_recent_results = out.str(); } :(before "Complete Call Fallthrough") if (current_instruction().operation == RUN_INTERACTIVE && !current_instruction().products.empty()) { assert(SIZE(current_instruction().products) <= 3); // Send the results of the most recently executed instruction, regardless of // call depth, to be converted to string and potentially printed to string. vector result; result.push_back(new_mu_string(Most_recent_results)); write_memory(current_instruction().products.at(0), result); if (SIZE(current_instruction().products) >= 2) { vector warnings; warnings.push_back(warnings_from_trace()); write_memory(current_instruction().products.at(1), warnings); } if (SIZE(current_instruction().products) >= 3) { vector screen; screen.push_back(Memory[SCREEN]); write_memory(current_instruction().products.at(2), screen); } } //: clean up reply after we've popped it off the call-stack //: however, we need what was on the stack to decide whether to clean up :(after "Starting Reply") bool must_clean_up_interactive = (current_recipe_name() == "interactive"); :(after "Falling Through End Of Recipe") bool must_clean_up_interactive = (current_recipe_name() == "interactive"); :(before "End Reply") if (must_clean_up_interactive) clean_up_interactive(); :(before "Complete Call Fallthrough") if (must_clean_up_interactive) clean_up_interactive(); :(code) void clean_up_interactive() { Trace_stream->newline(); // flush trace Hide_warnings = false; Running_interactive = false; // hack: assume collect_layer isn't set anywhere else if (Trace_stream->collect_layer == "warn") { delete Trace_stream; Trace_stream = NULL; } //? cerr << "restore screen: " << Memory[SCREEN] << " to " << Old_screen << '\n'; //? 1 Memory[SCREEN] = Old_screen; Old_screen = 0; } :(code) string strip_comments(string in) { ostringstream result; for (long long int i = 0; i < SIZE(in); ++i) { if (in.at(i) != '#') { result << in.at(i); } else { while (i < SIZE(in) && in.at(i) != '\n') ++i; if (i < SIZE(in) && in.at(i) == '\n') ++i; } } return result.str(); } string read_mu_string(long long int address) { long long int size = Memory[address]; if (size == 0) return ""; ostringstream tmp; for (long long int curr = address+1; curr <= address+size; ++curr) { // todo: unicode tmp << (char)(int)Memory[curr]; } return tmp.str(); } long long int stringified_value_of_location(long long int address) { // convert to string ostringstream out; out << Memory[address]; return new_mu_string(out.str()); } bool is_string(const reagent& x) { return SIZE(x.types) == 3 && x.types.at(0) == Type_ordinal["address"] && x.types.at(1) == Type_ordinal["array"] && x.types.at(2) == Type_ordinal["character"]; } long long int warnings_from_trace() { if (!Trace_stream) return 0; if (trace_count("warn") <= 0) return 0; ostringstream out; for (vector::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (p->label != "warn") continue; out << p->contents; if (*--p->contents.end() != '\n') out << '\n'; } assert(!out.str().empty()); return new_mu_string(out.str()); } //: simpler version of run-interactive: doesn't do any running, just loads //: recipes and reports warnings. :(before "End Primitive Recipe Declarations") RELOAD, :(before "End Primitive Recipe Numbers") Recipe_ordinal["reload"] = RELOAD; :(before "End Primitive Recipe Implementations") case RELOAD: { if (SIZE(ingredients) != 1) { raise << current_recipe_name() << ": 'reload' 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 'reload' should be a literal string, but got " << current_instruction().ingredients.at(0).original_string << '\n' << end(); break; } if (!Trace_stream) { Trace_file = ""; // if there wasn't already a stream we don't want to save it Trace_stream = new trace_stream; Trace_stream->collect_layer = "warn"; } Hide_warnings = true; Disable_redefine_warnings = true; load(read_mu_string(ingredients.at(0).at(0))); transform_all(); Trace_stream->newline(); // flush trace Disable_redefine_warnings = false; Hide_warnings = false; products.resize(1); products.at(0).push_back(warnings_from_trace()); if (Trace_stream->collect_layer == "warn") { delete Trace_stream; Trace_stream = NULL; } break; }