2012-05-30 12:36:29 -05:00
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import comm::port;
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import comm::chan;
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import comm::send;
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import comm::recv;
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import future::future;
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2012-05-30 17:18:45 -05:00
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export map, mapi, alli, any, mapi_factory;
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2012-05-30 12:36:29 -05:00
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#[doc="The maximum number of tasks this module will spawn for a single
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operationg."]
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const max_tasks : uint = 32u;
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#[doc="The minimum number of elements each task will process."]
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const min_granularity : uint = 1024u;
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#[doc="An internal helper to map a function over a large vector and
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return the intermediate results.
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This is used to build most of the other parallel vector functions,
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like map or alli."]
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2012-05-30 17:18:45 -05:00
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fn map_slices<A: copy send, B: copy send>(
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xs: [A],
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f: fn() -> fn~(uint, [A]/&) -> B)
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2012-05-30 12:36:29 -05:00
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-> [B] {
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let len = xs.len();
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if len < min_granularity {
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log(info, "small slice");
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// This is a small vector, fall back on the normal map.
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[f()(0u, xs)]
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2012-05-30 12:36:29 -05:00
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}
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else {
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let num_tasks = uint::min(max_tasks, len / min_granularity);
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let items_per_task = len / num_tasks;
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let mut futures = [];
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let mut base = 0u;
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log(info, "spawning tasks");
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while base < len {
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let end = uint::min(len, base + items_per_task);
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2012-06-14 20:46:33 -05:00
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// FIXME: why is the ::<A, ()> annotation required here? (#2617)
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vec::unpack_slice::<A, ()>(xs) {|p, _len|
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let f = f();
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2012-05-30 12:36:29 -05:00
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futures += [future::spawn() {|copy base|
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unsafe {
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let len = end - base;
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let slice = (ptr::offset(p, base),
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len * sys::size_of::<A>());
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log(info, #fmt("pre-slice: %?", (base, slice)));
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2012-06-02 21:03:28 -05:00
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let slice : [A]/& =
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unsafe::reinterpret_cast(slice);
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log(info, #fmt("slice: %?",
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(base, vec::len(slice), end - base)));
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assert(vec::len(slice) == end - base);
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f(base, slice)
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2012-05-30 12:36:29 -05:00
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}
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}];
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};
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base += items_per_task;
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}
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log(info, "tasks spawned");
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log(info, #fmt("num_tasks: %?", (num_tasks, futures.len())));
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assert(num_tasks == futures.len());
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let r = futures.map() {|ys|
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ys.get()
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};
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assert(r.len() == futures.len());
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r
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}
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}
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#[doc="A parallel version of map."]
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fn map<A: copy send, B: copy send>(xs: [A], f: fn~(A) -> B) -> [B] {
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vec::concat(map_slices(xs) {||
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fn~(_base: uint, slice : [A]/&, copy f) -> [B] {
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vec::map(slice, f)
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}
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})
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}
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#[doc="A parallel version of mapi."]
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fn mapi<A: copy send, B: copy send>(xs: [A], f: fn~(uint, A) -> B) -> [B] {
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let slices = map_slices(xs) {||
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fn~(base: uint, slice : [A]/&, copy f) -> [B] {
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vec::mapi(slice) {|i, x|
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f(i + base, x)
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}
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}
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};
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let r = vec::concat(slices);
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log(info, (r.len(), xs.len()));
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assert(r.len() == xs.len());
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r
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}
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#[doc="A parallel version of mapi.
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In this case, f is a function that creates functions to run over the
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inner elements. This is to skirt the need for copy constructors."]
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fn mapi_factory<A: copy send, B: copy send>(
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xs: [A], f: fn() -> fn~(uint, A) -> B) -> [B] {
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let slices = map_slices(xs) {||
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let f = f();
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2012-06-02 21:03:28 -05:00
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fn~(base: uint, slice : [A]/&, move f) -> [B] {
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vec::mapi(slice) {|i, x|
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f(i + base, x)
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}
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2012-05-30 12:36:29 -05:00
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}
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};
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let r = vec::concat(slices);
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log(info, (r.len(), xs.len()));
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assert(r.len() == xs.len());
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r
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}
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#[doc="Returns true if the function holds for all elements in the vector."]
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fn alli<A: copy send>(xs: [A], f: fn~(uint, A) -> bool) -> bool {
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vec::all(map_slices(xs) {||
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fn~(base: uint, slice : [A]/&, copy f) -> bool {
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vec::alli(slice) {|i, x|
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f(i + base, x)
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}
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}
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}) {|x| x }
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2012-05-30 12:36:29 -05:00
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}
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#[doc="Returns true if the function holds for any elements in the vector."]
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fn any<A: copy send>(xs: [A], f: fn~(A) -> bool) -> bool {
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2012-05-30 18:31:16 -05:00
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vec::any(map_slices(xs) {||
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fn~(_base : uint, slice: [A]/&, copy f) -> bool {
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vec::any(slice, f)
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}
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}) {|x| x }
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2012-05-30 12:36:29 -05:00
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}
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