//: Go from an address to the payload it points at (skipping the refcount) //: using /lookup. //: //: Let's say we have this address (read the top of the address layer for //: details on these diagrams): //: //: +---+------------+ //: x -------> | 1 | number | //: +---+------------+ //: //: Once you have an address you can read or modify its payload by performing //: a lookup: //: //: x/lookup <- copy 34 //: //: or more concisely: //: //: *x <- copy 34 //: //: This modifies not x, but the payload x points to: //: //: +---+------------+ //: x -------> | 1 | 34 | //: +---+------------+ //: //: You can also read from the payload in instructions like this: //: //: z:number <- add *x, 1 //: //: After this instruction runs the value of z will be 35. //: //: The tests in this layer use unsafe operations so as to stay decoupled from //: 'new'. :(scenario copy_indirect) def main [ 1:address:number <- copy 10/unsafe 11:number <- copy 34 # This loads location 1 as an address and looks up *that* location. 2:number <- copy 1:address:number/lookup ] # 1 contains 10. Skip refcount and lookup location 11. +mem: storing 34 in location 2 :(before "End Preprocess read_memory(x)") canonize(x); //: similarly, write to addresses pointing at other locations using the //: 'lookup' property :(scenario store_indirect) def main [ 1:address:number <- copy 10/unsafe 1:address:number/lookup <- copy 34 ] +mem: storing 34 in location 11 :(before "End Preprocess write_memory(x, data)") canonize(x); if (x.value == 0) { raise << "can't write to location 0 in '" << to_original_string(current_instruction()) << "'\n" << end(); return; } //: writes to address 0 always loudly fail :(scenario store_to_0_fails) % Hide_errors = true; def main [ 1:address:number <- copy 0 1:address:number/lookup <- copy 34 ] -mem: storing 34 in location 0 +error: can't write to location 0 in '1:address:number/lookup <- copy 34' :(code) void canonize(reagent& x) { if (is_literal(x)) return; // End canonize(x) Special-cases while (has_property(x, "lookup")) lookup_memory(x); } void lookup_memory(reagent& x) { if (!x.type || x.type->value != get(Type_ordinal, "address")) { raise << maybe(current_recipe_name()) << "tried to /lookup '" << x.original_string << "' but it isn't an address\n" << end(); return; } // compute value if (x.value == 0) { raise << maybe(current_recipe_name()) << "tried to /lookup 0\n" << end(); return; } lookup_memory_core(x); } void lookup_memory_core(reagent& x) { if (x.value == 0) return; trace(9999, "mem") << "location " << x.value << " is " << no_scientific(get_or_insert(Memory, x.value)) << end(); x.set_value(get_or_insert(Memory, x.value)); drop_from_type(x, "address"); if (x.value) { trace(9999, "mem") << "skipping refcount at " << x.value << end(); x.set_value(x.value+1); // skip refcount } drop_one_lookup(x); } void test_lookup_address_skips_refcount() { reagent x("*x:address:number"); x.set_value(34); // unsafe put(Memory, 34, 1000); lookup_memory(x); CHECK_TRACE_CONTENTS("mem: skipping refcount at 1000"); CHECK_EQ(x.value, 1001); } void test_lookup_zero_address_does_not_skip_refcount() { reagent x("*x:address:number"); x.set_value(34); // unsafe put(Memory, 34, 0); lookup_memory(x); CHECK_TRACE_DOESNT_CONTAIN("mem: skipping refcount at 0"); CHECK_EQ(x.value, 0); } :(before "End Preprocess types_strictly_match(reagent to, reagent from)") if (!canonize_type(to)) return false; if (!canonize_type(from)) return false; :(before "End Preprocess is_mu_array(reagent r)") if (!canonize_type(r)) return false; :(before "End Preprocess is_mu_address(reagent r)") if (!canonize_type(r)) return false; :(before "End Preprocess is_mu_number(reagent r)") if (!canonize_type(r)) return false; :(before "End Preprocess is_mu_boolean(reagent r)") if (!canonize_type(r)) return false; :(after "Update product While Type-checking Merge") if (!canonize_type(product)) continue; :(before "End Compute Call Ingredient") canonize_type(ingredient); :(before "End Preprocess NEXT_INGREDIENT product") canonize_type(product); :(before "End Check RETURN Copy(lhs, rhs) canonize_type(lhs); canonize_type(rhs); :(before "Compute Container Size(reagent rcopy)") if (!canonize_type(rcopy)) return; :(before "Compute Container Size(element)") assert(!has_property(element, "lookup")); :(code) bool canonize_type(reagent& r) { while (has_property(r, "lookup")) { if (!r.type || r.type->value != get(Type_ordinal, "address")) { raise << "can't lookup non-address: '" << to_string(r) << "': '" << to_string(r.type) << "'\n" << end(); return false; } drop_from_type(r, "address"); drop_one_lookup(r); } return true; } void drop_one_lookup(reagent& r) { for (vector >::iterator p = r.properties.begin(); p != r.properties.end(); ++p) { if (p->first == "lookup") { r.properties.erase(p); return; } } assert(false); } //: Tedious fixup to support addresses in container/array instructions of previous layers. //: Most instructions don't require fixup if they use the 'ingredients' and //: 'products' variables in run_current_routine(). :(scenario get_indirect) def main [ 1:address:point <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 34 12:number <- copy 35 2:number <- get 1:address:point/lookup, 0:offset ] +mem: storing 34 in location 2 :(scenario get_indirect2) def main [ 1:address:point <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 34 12:number <- copy 35 2:address:number <- copy 20/unsafe 2:address:number/lookup <- get 1:address:point/lookup, 0:offset ] +mem: storing 34 in location 21 :(scenario include_nonlookup_properties) def main [ 1:address:point <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 34 12:number <- copy 35 2:number <- get 1:address:point/lookup/foo, 0:offset ] +mem: storing 34 in location 2 :(after "Update GET base in Check") if (!canonize_type(base)) break; :(after "Update GET product in Check") if (!canonize_type(product)) break; :(after "Update GET base in Run") canonize(base); :(scenario put_indirect) def main [ 1:address:point <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 34 12:number <- copy 35 1:address:point/lookup <- put 1:address:point/lookup, 0:offset, 36 ] +mem: storing 36 in location 11 :(after "Update PUT base in Check") if (!canonize_type(base)) break; :(after "Update PUT offset in Check") if (!canonize_type(offset)) break; :(after "Update PUT base in Run") canonize(base); :(scenario new_error) % Hide_errors = true; def main [ 1:number/raw <- new number:type ] +error: main: product of 'new' has incorrect type: '1:number/raw <- new number:type' :(after "Update NEW product in Check") canonize_type(product); :(scenario copy_array_indirect) def main [ # 10 reserved for refcount 11:array:number:3 <- create-array 12:number <- copy 14 13:number <- copy 15 14:number <- copy 16 1:address:array:number <- copy 10/unsafe 2:array:number <- copy 1:address:array:number/lookup ] +mem: storing 3 in location 2 +mem: storing 14 in location 3 +mem: storing 15 in location 4 +mem: storing 16 in location 5 :(scenario create_array_indirect) def main [ 1000:number/raw <- copy 1 # pretend refcount 1:address:array:number:3 <- copy 1000/unsafe # pretend allocation 1:address:array:number:3/lookup <- create-array ] +mem: storing 3 in location 1001 :(after "Update CREATE_ARRAY product in Check") if (!canonize_type(product)) break; :(after "Update CREATE_ARRAY product in Run") canonize(product); :(scenario index_indirect) def main [ # 10 reserved for refcount 11:array:number:3 <- create-array 12:number <- copy 14 13:number <- copy 15 14:number <- copy 16 1:address:array:number <- copy 10/unsafe 2:number <- index 1:address:array:number/lookup, 1 ] +mem: storing 15 in location 2 :(before "Update INDEX base in Check") if (!canonize_type(base)) break; :(before "Update INDEX index in Check") if (!canonize_type(index)) break; :(before "Update INDEX product in Check") if (!canonize_type(product)) break; :(before "Update INDEX base in Run") canonize(base); :(before "Update INDEX index in Run") canonize(index); :(scenario put_index_indirect) def main [ # 10 reserved for refcount 11:array:number:3 <- create-array 12:number <- copy 14 13:number <- copy 15 14:number <- copy 16 1:address:array:number <- copy 10/unsafe 1:address:array:number/lookup <- put-index 1:address:array:number/lookup, 1, 34 ] +mem: storing 34 in location 13 :(scenario put_index_indirect_2) def main [ 1:array:number:3 <- create-array 2:number <- copy 14 3:number <- copy 15 4:number <- copy 16 5:address:number <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 1 1:array:number:3 <- put-index 1:array:number:3, 5:address:number/lookup, 34 ] +mem: storing 34 in location 3 :(scenario dilated_reagent_in_static_array) def main [ {1: (array (address number) 3)} <- create-array 5:address:number <- new number:type {1: (array (address number) 3)} <- put-index {1: (array (address number) 3)}, 0, 5:address:number *5:address:number <- copy 34 6:number <- copy *5:address:number ] +run: creating array of size 4 +mem: storing 34 in location 6 :(before "Update PUT_INDEX base in Check") if (!canonize_type(base)) break; :(before "Update PUT_INDEX index in Check") if (!canonize_type(index)) break; :(before "Update PUT_INDEX value in Check") if (!canonize_type(value)) break; :(before "Update PUT_INDEX base in Run") canonize(base); :(before "Update PUT_INDEX index in Run") canonize(index); :(scenario length_indirect) def main [ # 10 reserved for refcount 11:array:number:3 <- create-array 12:number <- copy 14 13:number <- copy 15 14:number <- copy 16 1:address:array:number <- copy 10/unsafe 2:number <- length 1:address:array:number/lookup ] +mem: storing 3 in location 2 :(before "Update LENGTH array in Check") if (!canonize_type(array)) break; :(before "Update LENGTH array in Run") canonize(array); :(scenario maybe_convert_indirect) def main [ # 10 reserved for refcount 11:number-or-point <- merge 0/number, 34 1:address:number-or-point <- copy 10/unsafe 2:number, 3:boolean <- maybe-convert 1:address:number-or-point/lookup, i:variant ] +mem: storing 1 in location 3 +mem: storing 34 in location 2 :(scenario maybe_convert_indirect_2) def main [ # 10 reserved for refcount 11:number-or-point <- merge 0/number, 34 1:address:number-or-point <- copy 10/unsafe 2:address:number <- copy 20/unsafe 2:address:number/lookup, 3:boolean <- maybe-convert 1:address:number-or-point/lookup, i:variant ] +mem: storing 1 in location 3 +mem: storing 34 in location 21 :(scenario maybe_convert_indirect_3) def main [ # 10 reserved for refcount 11:number-or-point <- merge 0/number, 34 1:address:number-or-point <- copy 10/unsafe 2:address:boolean <- copy 20/unsafe 3:number, 2:address:boolean/lookup <- maybe-convert 1:address:number-or-point/lookup, i:variant ] +mem: storing 1 in location 21 +mem: storing 34 in location 3 :(before "Update MAYBE_CONVERT base in Check") if (!canonize_type(base)) break; :(before "Update MAYBE_CONVERT product in Check") if (!canonize_type(product)) break; :(before "Update MAYBE_CONVERT status in Check") if (!canonize_type(status)) break; :(before "Update MAYBE_CONVERT base in Run") canonize(base); :(before "Update MAYBE_CONVERT product in Run") canonize(product); :(before "Update MAYBE_CONVERT status in Run") canonize(status); :(scenario merge_exclusive_container_indirect) def main [ 1:address:number-or-point <- copy 10/unsafe 1:address:number-or-point/lookup <- merge 0/number, 34 ] # skip 10 for refcount +mem: storing 0 in location 11 +mem: storing 34 in location 12 :(before "Update size_mismatch Check for MERGE(x) canonize(x); //: abbreviation for '/lookup': a prefix '*' :(scenario lookup_abbreviation) def main [ 1:address:number <- copy 10/unsafe # 10 reserved for refcount 11:number <- copy 34 3:number <- copy *1:address:number ] +parse: ingredient: {1: ("address" "number"), "lookup": ()} +mem: storing 34 in location 3 :(before "End Parsing reagent") { while (!name.empty() && name.at(0) == '*') { name.erase(0, 1); properties.push_back(pair("lookup", NULL)); } if (name.empty()) raise << "illegal name '" << original_string << "'\n" << end(); } //:: helpers for debugging :(before "End Primitive Recipe Declarations") _DUMP, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "$dump", _DUMP); :(before "End Primitive Recipe Implementations") case _DUMP: { reagent/*copy*/ after_canonize = current_instruction().ingredients.at(0); canonize(after_canonize); cerr << maybe(current_recipe_name()) << current_instruction().ingredients.at(0).name << ' ' << no_scientific(current_instruction().ingredients.at(0).value) << " => " << no_scientific(after_canonize.value) << " => " << no_scientific(get_or_insert(Memory, after_canonize.value)) << '\n'; break; } //: grab an address, and then dump its value at intervals //: useful for tracking down memory corruption (writing to an out-of-bounds address) :(before "End Globals") int Bar = -1; :(before "End Primitive Recipe Declarations") _BAR, :(before "End Primitive Recipe Numbers") put(Recipe_ordinal, "$bar", _BAR); :(before "End Primitive Recipe Implementations") case _BAR: { if (current_instruction().ingredients.empty()) { if (Bar != -1) cerr << Bar << ": " << no_scientific(get_or_insert(Memory, Bar)) << '\n'; else cerr << '\n'; } else { reagent/*copy*/ tmp = current_instruction().ingredients.at(0); canonize(tmp); Bar = tmp.value; } break; }