//: Extend 'new' to handle a unicode string literal argument or 'text'. //: A Mu text is an address to an array of characters. :(before "End Mu Types Initialization") put(Type_abbreviations, "text", new_type_tree("&:@:character")); :(code) void test_new_string() { run( "def main [\n" " 10:text <- new [abc def]\n" " 20:char <- index *10:text, 5\n" "]\n" ); CHECK_TRACE_CONTENTS( // number code for 'e' "mem: storing 101 in location 20\n" ); } void test_new_string_handles_unicode() { run( "def main [\n" " 10:text <- new [a«c]\n" " 20:num <- length *10:text\n" " 21:char <- index *10:text, 1\n" "]\n" ); CHECK_TRACE_CONTENTS( "mem: storing 3 in location 20\n" // unicode for '«' "mem: storing 171 in location 21\n" ); } :(before "End NEW Check Special-cases") if (is_literal_text(inst.ingredients.at(0))) break; :(before "Convert 'new' To 'allocate'") if (inst.name == "new" && !inst.ingredients.empty() && is_literal_text(inst.ingredients.at(0))) continue; :(after "case NEW" following "Primitive Recipe Implementations") if (is_literal_text(current_instruction().ingredients.at(0))) { products.resize(1); products.at(0).push_back(/*alloc id*/0); products.at(0).push_back(new_mu_text(current_instruction().ingredients.at(0).name)); trace(Callstack_depth+1, "mem") << "new string alloc: " << products.at(0).at(0) << end(); break; } :(code) int new_mu_text(const string& contents) { // allocate an array just large enough for it int string_length = unicode_length(contents); //? Total_alloc += string_length+1; //? ++Num_alloc; int result = allocate(/*array length*/1 + string_length); int curr_address = result; ++curr_address; // skip alloc id trace(Callstack_depth+1, "mem") << "storing string length " << string_length << " in location " << curr_address << end(); put(Memory, curr_address, string_length); ++curr_address; // skip length int curr = 0; const char* raw_contents = contents.c_str(); for (int i = 0; i < string_length; ++i) { uint32_t curr_character; assert(curr < SIZE(contents)); tb_utf8_char_to_unicode(&curr_character, &raw_contents[curr]); trace(Callstack_depth+1, "mem") << "storing string character " << curr_character << " in location " << curr_address << end(); put(Memory, curr_address, curr_character); curr += tb_utf8_char_length(raw_contents[curr]); ++curr_address; } // Mu strings are not null-terminated in memory. return result; } //: a new kind of typo void test_literal_text_without_instruction() { Hide_errors = true; run( "def main [\n" " [abc]\n" "]\n" ); CHECK_TRACE_CONTENTS( "error: main: instruction '[abc]' has no recipe in '[abc]'\n" ); } //: stash recognizes texts void test_stash_text() { run( "def main [\n" " 1:text <- new [abc]\n" " stash [foo:], 1:text\n" "]\n" ); CHECK_TRACE_CONTENTS( "app: foo: abc\n" ); } :(before "End inspect Special-cases(r, data)") if (is_mu_text(r)) { return read_mu_text(data.at(/*skip alloc id*/1)); } :(before "End $print Special-cases") else if (is_mu_text(current_instruction().ingredients.at(i))) { cout << read_mu_text(ingredients.at(i).at(/*skip alloc id*/1)); } :(code) void test_unicode_text() { run( "def main [\n" " 1:text <- new [♠]\n" " stash [foo:], 1:text\n" "]\n" ); CHECK_TRACE_CONTENTS( "app: foo: ♠\n" ); } void test_stash_space_after_text() { run( "def main [\n" " 1:text <- new [abc]\n" " stash 1:text, [foo]\n" "]\n" ); CHECK_TRACE_CONTENTS( "app: abc foo\n" ); } void test_stash_text_as_array() { run( "def main [\n" " 1:text <- new [abc]\n" " stash *1:text\n" "]\n" ); CHECK_TRACE_CONTENTS( "app: 3 97 98 99\n" ); } //: fixes way more than just stash :(before "End Preprocess is_mu_text(reagent x)") if (!canonize_type(x)) return false; //: Allocate more to routine when initializing a literal text :(code) void test_new_text_overflow() { Initial_memory_per_routine = 3; run( "def main [\n" " 10:&:num/raw <- new number:type\n" " 20:text/raw <- new [a]\n" // not enough room in initial page, if you take the array length into account "]\n" ); CHECK_TRACE_CONTENTS( "new: routine allocated memory from 1000 to 1003\n" "new: routine allocated memory from 1003 to 1006\n" ); } //: helpers :(code) int unicode_length(const string& s) { const char* in = s.c_str(); int result = 0; int curr = 0; while (curr < SIZE(s)) { // carefully bounds-check on the string // before accessing its raw pointer ++result; curr += tb_utf8_char_length(in[curr]); } return result; } string read_mu_text(int address) { if (address == 0) return ""; int length = get_or_insert(Memory, address+/*alloc id*/1); if (length == 0) return ""; return read_mu_characters(address+/*alloc id*/1+/*length*/1, length); } string read_mu_characters(int start, int length) { ostringstream tmp; for (int curr = start; curr < start+length; ++curr) tmp << to_unicode(static_cast(get_or_insert(Memory, curr))); return tmp.str(); } //:: some miscellaneous helpers now that we have text //: assert: perform sanity checks at runtime void test_assert_literal() { Hide_errors = true; run( "def main [\n" " assert 0, [this is an assert in Mu]\n" "]\n" ); CHECK_TRACE_CONTENTS( "error: this is an assert in Mu\n" ); } void test_assert() { Hide_errors = true; run( "def main [\n" " 1:text <- new [this is an assert in Mu]\n" " assert 0, 1:text\n" "]\n" ); CHECK_TRACE_CONTENTS( "error: this is an assert in Mu\n" ); } :(before "End Primitive Recipe Declarations") ASSERT, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "assert", ASSERT); :(before "End Primitive Recipe Checks") case ASSERT: { if (SIZE(inst.ingredients) != 2) { raise << maybe(get(Recipe, r).name) << "'assert' takes exactly two ingredients rather than '" << to_original_string(inst) << "'\n" << end(); break; } if (!is_mu_address(inst.ingredients.at(0)) && !is_mu_scalar(inst.ingredients.at(0))) { raise << maybe(get(Recipe, r).name) << "'assert' requires a scalar or address for its first ingredient, but got '" << inst.ingredients.at(0).original_string << "'\n" << end(); break; } if (!is_literal_text(inst.ingredients.at(1)) && !is_mu_text(inst.ingredients.at(1))) { raise << maybe(get(Recipe, r).name) << "'assert' requires a text as its second ingredient, but got '" << inst.ingredients.at(1).original_string << "'\n" << end(); break; } break; } :(before "End Primitive Recipe Implementations") case ASSERT: { if (!scalar_ingredient(ingredients, 0)) { if (is_literal_text(current_instruction().ingredients.at(1))) raise << current_instruction().ingredients.at(1).name << '\n' << end(); else raise << read_mu_text(ingredients.at(1).at(/*skip alloc id*/1)) << '\n' << end(); if (!Hide_errors) exit(1); } break; } //: 'cheating' by using the host system :(before "End Primitive Recipe Declarations") _READ, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "$read", _READ); :(before "End Primitive Recipe Checks") case _READ: { break; } :(before "End Primitive Recipe Implementations") case _READ: { skip_whitespace(cin); string result; if (has_data(cin)) cin >> result; products.resize(1); products.at(0).push_back(new_mu_text(result)); break; } :(code) void skip_whitespace(istream& in) { while (true) { if (!has_data(in)) break; if (isspace(in.peek())) in.get(); else break; } }