// To recursively copy containers and any addresses they contain, use
// 'deep-copy'.
//
// Invariant: After a deep-copy its ingredient and result will point to no
// common addresses.
//
// We do handle cycles in the ingredient, however. All cycles are translated
// to new cycles in the product.
:(scenario deep_copy_number)
def main [
local-scope
x:num <- copy 34
y:num <- deep-copy x
10:bool/raw <- equal x, y
]
# non-address primitives are identical
+mem: storing 1 in location 10
:(scenario deep_copy_null_pointer)
def main [
local-scope
x:&:num <- copy 0
y:&:num <- deep-copy x
10:bool/raw <- equal x, y
]
# null addresses are identical
+mem: storing 1 in location 10
:(scenario deep_copy_container_without_address)
container foo [
x:num
y:num
]
def main [
local-scope
a:foo <- merge 34, 35
b:foo <- deep-copy a
10:bool/raw <- equal a, b
]
# containers are identical as long as they don't contain addresses
+mem: storing 1 in location 10
:(scenario deep_copy_address)
% Memory_allocated_until = 200;
def main [
# avoid all memory allocations except the implicit ones inside deep-copy, so
# that the result is deterministic
1:&:num <- copy 100/unsafe # pretend allocation
*1:&:num <- copy 34
2:&:num <- deep-copy 1:&:num
10:bool <- equal 1:&:num, 2:&:num
11:bool <- equal *1:&:num, *2:&:num
2:&:num <- copy 0
]
# the result of deep-copy is a new address
+mem: storing 0 in location 10
# however, the contents are identical
+mem: storing 1 in location 11
:(scenario deep_copy_address_to_container)
% Memory_allocated_until = 200;
def main [
# avoid all memory allocations except the implicit ones inside deep-copy, so
# that the result is deterministic
1:&:point <- copy 100/unsafe # pretend allocation
*1:&:point <- merge 34, 35
2:&:point <- deep-copy 1:&:point
10:bool <- equal 1:&:point, 2:&:point
11:bool <- equal *1:&:point, *2:&:point
]
# the result of deep-copy is a new address
+mem: storing 0 in location 10
# however, the contents are identical
+mem: storing 1 in location 11
:(scenario deep_copy_address_to_address)
% Memory_allocated_until = 200;
def main [
# avoid all memory allocations except the implicit ones inside deep-copy, so
# that the result is deterministic
1:&:&:num <- copy 100/unsafe # pretend allocation
*1:&:&:num <- copy 150/unsafe
**1:&:&:num <- copy 34
2:&:&:num <- deep-copy 1:&:&:num
10:bool <- equal 1:&:&:num, 2:&:&:num
11:bool <- equal *1:&:&:num, *2:&:&:num
12:bool <- equal **1:&:&:num, **2:&:&:num
]
# the result of deep-copy is a new address
+mem: storing 0 in location 10
# any addresses in it or pointed to it are also new
+mem: storing 0 in location 11
# however, the non-address contents are identical
+mem: storing 1 in location 12
:(scenario deep_copy_array)
% Memory_allocated_until = 200;
def main [
# avoid all memory allocations except the implicit ones inside deep-copy, so
# that the result is deterministic
100:num <- copy 3 # pretend array length
1:&:@:num <- copy 100/unsafe # pretend allocation
put-index *1:&:@:num, 0, 34
put-index *1:&:@:num, 1, 35
put-index *1:&:@:num, 2, 36
stash [old:], *1:&:@:num
2:&:@:num <- deep-copy 1:&:@:num
stash 2:&:@:num
stash [new:], *2:&:@:num
10:bool <- equal 1:&:@:num, 2:&:@:num
11:bool <- equal *1:&:@:num, *2:&:@:num
]
+app: old: 3 34 35 36
+app: new: 3 34 35 36
# the result of deep-copy is a new address
+mem: storing 0 in location 10
# however, the contents are identical
+mem: storing 1 in location 11
:(scenario deep_copy_container_with_address)
container foo [
x:num
y:&:num
]
def main [
local-scope
y0:&:num <- new number:type
*y0 <- copy 35
a:foo <- merge 34, y0
b:foo <- deep-copy a
10:bool/raw <- equal a, b
y1:&:num <- get b, y:offset
11:bool/raw <- equal y0, y1
12:num/raw <- copy *y1
]
# containers containing addresses are not identical to their deep copies
+mem: storing 0 in location 10
# the addresses they contain are not identical either
+mem: storing 0 in location 11
+mem: storing 35 in location 12
:(scenario deep_copy_exclusive_container_with_address)
exclusive-container foo [
x:num
y:&:num
]
def main [
local-scope
y0:&:num <- new number:type
*y0 <- copy 34
a:foo <- merge 1/y, y0
b:foo <- deep-copy a
10:bool/raw <- equal a, b
y1:&:num, z:bool <- maybe-convert b, y:variant
11:bool/raw <- equal y0, y1
12:num/raw <- copy *y1
]
# exclusive containers containing addresses are not identical to their deep copies
+mem: storing 0 in location 10
# the addresses they contain are not identical either
+mem: storing 0 in location 11
+mem: storing 34 in location 12
:(scenario deep_copy_exclusive_container_with_container_with_address)
exclusive-container foo [
x:num
y:bar # inline
]
container bar [
x:&:num
]
def main [
local-scope
y0:&:num <- new number:type
*y0 <- copy 34
a:bar <- merge y0
b:foo <- merge 1/y, a
c:foo <- deep-copy b
10:bool/raw <- equal b, c
d:bar, z:bool <- maybe-convert c, y:variant
y1:&:num <- get d, x:offset
11:bool/raw <- equal y0, y1
12:num/raw <- copy *y1
]
# exclusive containers containing addresses are not identical to their deep copies
+mem: storing 0 in location 10
# sub-containers containing addresses are not identical either
+mem: storing 0 in location 11
+mem: storing 34 in location 12
:(before "End Primitive Recipe Declarations")
DEEP_COPY,
:(before "End Primitive Recipe Numbers")
put(Recipe_ordinal, "deep-copy", DEEP_COPY);
:(before "End Primitive Recipe Checks")
case DEEP_COPY: {
if (SIZE(inst.ingredients) != 1) {
raise << maybe(get(Recipe, r).name) << "'deep-copy' takes exactly one ingredient rather than '" << to_original_string(inst) << "'\n" << end();
break;
}
if (SIZE(inst.products) != 1) {
raise << maybe(get(Recipe, r).name) << "'deep-copy' takes exactly one ingredient rather than '" << to_original_string(inst) << "'\n" << end();
break;
}
if (!types_strictly_match(inst.ingredients.at(0), inst.products.at(0))) {
raise << maybe(get(Recipe, r).name) << "'deep-copy' requires its ingredient and product to be the same type, but got '" << to_original_string(inst) << "'\n" << end();
break;
}
break;
}
:(before "End Primitive Recipe Implementations")
case DEEP_COPY: {
products.push_back(deep_copy(current_instruction().ingredients.at(0)));
break;
}
:(code)
vector<double> deep_copy(const reagent& in) {
// allocate a tiny bit of temporary space for deep_copy()
trace(9991, "run") << "deep-copy: allocating space for temporary" << end();
reagent tmp("tmp:address:number");
tmp.set_value(allocate(1));
map<int, int> addresses_copied;
vector<double> result = deep_copy(in, addresses_copied, tmp);
// reclaim Mu memory allocated for tmp
trace(9991, "run") << "deep-copy: reclaiming temporary" << end();
abandon(tmp.value, payload_size(tmp));
// reclaim host memory allocated for tmp.type when tmp goes out of scope
return result;
}
vector<double> deep_copy(reagent/*copy*/ in, map<int, int>& addresses_copied, const reagent& tmp) {
canonize(in);
if (is_mu_address(in)) {
// hack: skip primitive containers that do their own locking; they're designed to be shared between routines
type_tree* payload = in.type->right;
if (payload->left->name == "channel" || payload->left->name == "screen" || payload->left->name == "console" || payload->left->name == "resources")
return read_memory(in);
}
vector<double> result;
if (is_mu_address(in))
result.push_back(deep_copy_address(in, addresses_copied, tmp));
else
deep_copy(in, addresses_copied, tmp, result);
return result;
}
// deep-copy an address and return a new address
int deep_copy_address(const reagent& canonized_in, map<int, int>& addresses_copied, const reagent& tmp) {
if (address_value(canonized_in) == 0) return 0;
int in_address = payload_address(canonized_in);
trace(9991, "run") << "deep-copy: copying address " << in_address << end();
if (contains_key(addresses_copied, in_address)) {
int out = get(addresses_copied, in_address);
trace(9991, "run") << "deep-copy: copy already exists: " << out << end();
return out;
}
int out = allocate(payload_size(canonized_in));
trace(9991, "run") << "deep-copy: new address is " << out << end();
put(addresses_copied, in_address, out);
reagent/*copy*/ payload = canonized_in;
payload.properties.push_back(pair<string, string_tree*>("lookup", NULL));
trace(9991, "run") << "recursing on payload " << payload.value << ' ' << to_string(payload) << end();
vector<double> data = deep_copy(payload, addresses_copied, tmp);
trace(9991, "run") << "deep-copy: writing result " << out << ": " << to_string(data) << end();
// HACK: write_memory interface isn't ideal for this situation; we need
// a temporary location to help copy the payload.
trace(9991, "run") << "deep-copy: writing temporary " << tmp.value << ": " << out << end();
put(Memory, tmp.value, out);
payload.set_value(tmp.value); // now modified for output
vector<double> old_data = read_memory(payload);
trace(9991, "run") << "deep-copy: really writing to " << payload.value << ' ' << to_string(payload) << " (old value " << to_string(old_data) << " new value " << to_string(data) << ")" << end();
write_memory(payload, data);
trace(9991, "run") << "deep-copy: output is " << to_string(data) << end();
return out;
}
// deep-copy a non-address and return a vector of locations
void deep_copy(const reagent& canonized_in, map<int, int>& addresses_copied, const reagent& tmp, vector<double>& out) {
assert(!is_mu_address(canonized_in));
vector<double> data = read_memory(canonized_in);
out.insert(out.end(), data.begin(), data.end());
if (!contains_key(Container_metadata, canonized_in.type)) return;
trace(9991, "run") << "deep-copy: scanning for addresses in " << to_string(data) << end();
const container_metadata& metadata = get(Container_metadata, canonized_in.type);
for (map<set<tag_condition_info>, set<address_element_info> >::const_iterator p = metadata.address.begin(); p != metadata.address.end(); ++p) {
if (!all_match(data, p->first)) continue;
for (set<address_element_info>::const_iterator info = p->second.begin(); info != p->second.end(); ++info) {
// hack: skip primitive containers that do their own locking; they're designed to be shared between routines
if (!info->payload_type->atom && info->payload_type->left->name == "channel")
continue;
if (info->payload_type->name == "screen" || info->payload_type->name == "console" || info->payload_type->name == "resources")
continue;
// construct a fake reagent that reads directly from the appropriate
// field of the container
reagent curr;
if (info->payload_type->atom)
curr.type = new type_tree(new type_tree("address"), new type_tree(new type_tree(info->payload_type->name), NULL));
else
curr.type = new type_tree(new type_tree("address"), new type_tree(*info->payload_type));
curr.set_value(canonized_in.value + info->offset);
curr.properties.push_back(pair<string, string_tree*>("raw", NULL));
trace(9991, "run") << "deep-copy: copying address " << curr.value << end();
out.at(info->offset) = deep_copy_address(curr, addresses_copied, tmp);
}
}
}
int payload_address(reagent/*copy*/ x) {
x.properties.push_back(pair<string, string_tree*>("lookup", NULL));
canonize(x);
return x.value;
}
int address_value(const reagent& x) {
assert(is_mu_address(x));
vector<double> result = read_memory(x);
assert(SIZE(result) == 1);
return static_cast<int>(result.at(0));
}
:(scenario deep_copy_stress_test_1)
container foo1 [
p:&:num
]
container foo2 [
p:&:foo1
]
exclusive-container foo3 [
p:&:foo1
q:&:foo2
]
def main [
local-scope
x:&:num <- new number:type
*x <- copy 34
a:&:foo1 <- new foo1:type
*a <- merge x
b:&:foo2 <- new foo2:type
*b <- merge a
c:foo3 <- merge 1/q, b
d:foo3 <- deep-copy c
e:&:foo2, z:bool <- maybe-convert d, q:variant
f:&:foo1 <- get *e, p:offset
g:&:num <- get *f, p:offset
1:num/raw <- copy *g
]
+mem: storing 34 in location 1
:(scenario deep_copy_stress_test_2)
container foo1 [
p:&:num
]
container foo2 [
p:&:foo1
]
exclusive-container foo3 [
p:&:foo1
q:&:foo2
]
container foo4 [
p:num
q:&:foo3
]
def main [
local-scope
x:&:num <- new number:type
*x <- copy 34
a:&:foo1 <- new foo1:type
*a <- merge x
b:&:foo2 <- new foo2:type
*b <- merge a
c:&:foo3 <- new foo3:type
*c <- merge 1/q, b
d:foo4 <- merge 35, c
e:foo4 <- deep-copy d
f:&:foo3 <- get e, q:offset
g:&:foo2, z:bool <- maybe-convert *f, q:variant
h:&:foo1 <- get *g, p:offset
y:&:num <- get *h, p:offset
1:num/raw <- copy *y
]
+mem: storing 34 in location 1
:(scenario deep_copy_cycles)
container foo [
p:num
q:&:foo
]
def main [
local-scope
x:&:foo <- new foo:type
*x <- put *x, p:offset, 34
*x <- put *x, q:offset, x # create a cycle
y:&:foo <- deep-copy x
1:num/raw <- get *y, p:offset
y2:&:foo <- get *y, q:offset
2:bool/raw <- equal y, y2 # is it still a cycle?
3:bool/raw <- equal x, y # is it the same cycle?
# not bothering cleaning up; both cycles leak memory
]
+mem: storing 34 in location 1
# deep copy also contains a cycle
+mem: storing 1 in location 2
# but it's a completely different (disjoint) cycle
+mem: storing 0 in location 3
//: todo: version of deep_copy_cycles that breaks cycles at end and verifies no memory leaks
//: needs approximate matching over scenario traces
:(scenario deep_copy_skips_channel)
# ugly! dummy 'channel' type if we happen to be building without that layer
% if (!contains_key(Type_ordinal, "channel")) get_or_insert(Type, put(Type_ordinal, "channel", Next_type_ordinal++)).name = "channel";
def main [
local-scope
x:&:channel:num <- new {(channel num): type}
y:&:channel:num <- deep-copy x
10:bool/raw <- equal x, y
]
# channels are never deep-copied
+mem: storing 1 in location 10
:(scenario deep_copy_skips_nested_channel)
# ugly! dummy 'channel' type if we happen to be building without that layer
% if (!contains_key(Type_ordinal, "channel")) get_or_insert(Type, put(Type_ordinal, "channel", Next_type_ordinal++)).name = "channel";
container foo [
c:&:channel:num
]
def main [
local-scope
x:&:foo <- new foo:type
y:&:foo <- deep-copy x
xc:&:channel:num <- get *x, c:offset
yc:&:channel:num <- get *y, c:offset
10:bool/raw <- equal xc, yc
]
# channels are never deep-copied
+mem: storing 1 in location 10
:(scenario deep_copy_skips_resources)
# ugly! dummy 'resources' type if we happen to be building without that layer
% if (!contains_key(Type_ordinal, "resources")) get_or_insert(Type, put(Type_ordinal, "resources", Next_type_ordinal++)).name = "resources";
def main [
local-scope
x:&:resources <- new resources:type
y:&:resources <- deep-copy x
10:bool/raw <- equal x, y
]
# resources are never deep-copied
+mem: storing 1 in location 10
:(scenario deep_copy_skips_nested_resources)
# ugly! dummy 'resources' type if we happen to be building without that layer
% if (!contains_key(Type_ordinal, "resources")) get_or_insert(Type, put(Type_ordinal, "resources", Next_type_ordinal++)).name = "resources";
container foo [
c:&:resources
]
def main [
local-scope
x:&:foo <- new foo:type
y:&:foo <- deep-copy x
xc:&:resources <- get *x, c:offset
yc:&:resources <- get *y, c:offset
10:bool/raw <- equal xc, yc
]
# resources are never deep-copied
+mem: storing 1 in location 10