//: Update refcounts when copying addresses. //: The top of layer 34 has more on refcounts. :(scenario refcounts) def main [ 1:address:number <- copy 1000/unsafe 2:address:number <- copy 1:address:number 1:address:number <- copy 0 2:address:number <- copy 0 ] +run: {1: ("address" "number")} <- copy {1000: "literal", "unsafe": ()} +mem: incrementing refcount of 1000: 0 -> 1 +run: {2: ("address" "number")} <- copy {1: ("address" "number")} +mem: incrementing refcount of 1000: 1 -> 2 +run: {1: ("address" "number")} <- copy {0: "literal"} +mem: decrementing refcount of 1000: 2 -> 1 +run: {2: ("address" "number")} <- copy {0: "literal"} +mem: decrementing refcount of 1000: 1 -> 0 :(before "End write_memory(reagent x) Special-cases") if (is_mu_address(x)) { // compute old address of x, as well as new address we want to write in assert(scalar(data)); assert(x.value); update_refcounts(get_or_insert(Memory, x.value), data.at(0), payload_size(x)); } :(code) // variant of write_memory for addresses void update_refcounts(int old_address, int new_address, int size) { if (old_address == new_address) { trace(9999, "mem") << "copying address to itself; refcount unchanged" << end(); return; } // decrement refcount of old address assert(old_address >= 0); if (old_address) { int old_refcount = get_or_insert(Memory, old_address); trace(9999, "mem") << "decrementing refcount of " << old_address << ": " << old_refcount << " -> " << (old_refcount-1) << end(); --old_refcount; put(Memory, old_address, old_refcount); if (old_refcount < 0) { tb_shutdown(); DUMP(""); cerr << "Negative refcount: " << old_address << ' ' << old_refcount << '\n'; exit(0); } // End Decrement Reference Count(old_address, size) } // increment refcount of new address if (new_address) { int new_refcount = get_or_insert(Memory, new_address); assert(new_refcount >= 0); // == 0 only when new_address == old_address trace(9999, "mem") << "incrementing refcount of " << new_address << ": " << new_refcount << " -> " << (new_refcount+1) << end(); put(Memory, new_address, new_refcount+1); } } int payload_size(/*copy*/ reagent x) { // lookup_memory without drop_one_lookup if (x.value) x.set_value(get_or_insert(Memory, x.value)+/*skip refcount*/1); drop_from_type(x, "address"); return size_of(x)+/*refcount*/1; } :(scenario refcounts_reflexive) def main [ 1:address:number <- new number:type # idempotent copies leave refcount unchanged 1:address:number <- copy 1:address:number ] +run: {1: ("address" "number")} <- new {number: "type"} +mem: incrementing refcount of 1000: 0 -> 1 +run: {1: ("address" "number")} <- copy {1: ("address" "number")} +mem: copying address to itself; refcount unchanged :(scenario refcounts_call) def main [ 1:address:number <- new number:type # passing in addresses to recipes increments refcount foo 1:address:number # return does NOT yet decrement refcount; memory must be explicitly managed 1:address:number <- new number:type ] def foo [ 2:address:number <- next-ingredient ] +run: {1: ("address" "number")} <- new {number: "type"} +mem: incrementing refcount of 1000: 0 -> 1 +run: {2: ("address" "number")} <- next-ingredient +mem: incrementing refcount of 1000: 1 -> 2 +run: {1: ("address" "number")} <- new {number: "type"} +mem: decrementing refcount of 1000: 2 -> 1 //: fix up any instructions that don't follow the usual flow of read_memory //: before the RUN switch, and write_memory after :(scenario refcounts_put) container foo [ x:address:number ] def main [ 1:address:number <- new number:type 2:address:foo <- new foo:type *2:address:foo <- put *2:address:foo, x:offset, 1:address:number ] +run: {1: ("address" "number")} <- new {number: "type"} +mem: incrementing refcount of 1000: 0 -> 1 +run: {2: ("address" "foo")} <- new {foo: "type"} +mem: incrementing refcount of 1002: 0 -> 1 +run: {2: ("address" "foo"), "lookup": ()} <- put {2: ("address" "foo"), "lookup": ()}, {x: "offset"}, {1: ("address" "number")} # put increments refcount +mem: incrementing refcount of 1000: 1 -> 2 :(after "Write Memory in PUT in Run") reagent element = element_type(base.type, offset); assert(!has_property(element, "lookup")); element.value = address; if (is_mu_address(element)) update_refcounts(get_or_insert(Memory, element.value), ingredients.at(2).at(0), payload_size(element)); :(scenario refcounts_put_index) def main [ 1:address:number <- new number:type # fake array because we can't yet create an array of addresses (wait for the # support for dilated reagents and parsing more complex type trees) 1003:number/raw <- copy 3 # skip refcount at 1002 2:address:array:address:number <- copy 1002/unsafe *2:address:array:address:number <- put-index *2:address:array:address:number, 0, 1:address:number ] +run: {1: ("address" "number")} <- new {number: "type"} +mem: incrementing refcount of 1000: 0 -> 1 +run: {2: ("address" "array" "address" "number")} <- copy {1002: "literal", "unsafe": ()} +mem: incrementing refcount of 1002: 0 -> 1 +run: {2: ("address" "array" "address" "number"), "lookup": ()} <- put-index {2: ("address" "array" "address" "number"), "lookup": ()}, {0: "literal"}, {1: ("address" "number")} # put-index increments refcount +mem: incrementing refcount of 1000: 1 -> 2 :(after "Write Memory in PUT_INDEX in Run") if (is_mu_address(element)) update_refcounts(get_or_insert(Memory, element.value), value.at(0), payload_size(element)); :(scenario refcounts_maybe_convert) exclusive-container foo [ x:number p:address:number ] def main [ 1:address:number <- new number:type 2:foo <- merge 1/p, 1:address:number 4:address:number, 5:boolean <- maybe-convert 2:foo, p:variant ] +run: {1: ("address" "number")} <- new {number: "type"} +mem: incrementing refcount of 1000: 0 -> 1 +run: {2: "foo"} <- merge {1: "literal", "p": ()}, {1: ("address" "number")} +run: {4: ("address" "number")}, {5: "boolean"} <- maybe-convert {2: "foo"}, {p: "variant"} # maybe-convert increments refcount on success +mem: incrementing refcount of 1000: 1 -> 2 :(after "Write Memory in Successful MAYBE_CONVERT") if (is_mu_address(product)) update_refcounts(get_or_insert(Memory, product.value), get_or_insert(Memory, base_address+/*skip tag*/1), payload_size(product));