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417 lines
17 KiB
C++
417 lines
17 KiB
C++
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/* cilk-abi-cilk-for.cpp -*-C++-*-
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*
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*************************************************************************
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*
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* @copyright
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* Copyright (C) 2011, 2013, Intel Corporation
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* All rights reserved.
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*
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* @copyright
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* * Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in
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* the documentation and/or other materials provided with the
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* distribution.
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* * Neither the name of Intel Corporation nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* @copyright
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
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* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY
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* WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*
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**************************************************************************/
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/* Implementation of cilk_for ABI.
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*
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* This file must be C++, not C, in order to handle C++ exceptions correctly
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* from within the body of the cilk_for loop
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*/
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#include "internal/abi.h"
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#include "metacall_impl.h"
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#include "global_state.h"
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// Icky macros to determine if we're compiled with optimization. Based on
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// the declaration of __CILKRTS_ASSERT in common.h
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#if defined(_WIN32)
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# if defined (_DEBUG)
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# define CILKRTS_OPTIMIZED 0 // Assumes /MDd is always used with /Od
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# else
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# define CILKRTS_OPTIMIZED 1
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# endif // defined(_DEBUG)
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#else
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# if defined(__OPTIMIZE__)
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# define CILKRTS_OPTIMIZED 1
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# else
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# define CILKRTS_OPTIMIZED 0
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# endif
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#endif
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template <typename count_t>
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static inline int grainsize(int req, count_t count)
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{
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// A positive requested grain size comes from the user. A very high grain
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// size risks losing parallelism, but the user told us what they want for
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// grainsize. Who are we to argue?
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if (req > 0)
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return req;
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// At present, a negative requested grain size is treated the same way as
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// a zero grain size, i.e., the runtime computes the actual grainsize
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// using a hueristic. In the future, the compiler may give us additional
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// information about the size of the cilk_for body by passing a negative
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// grain size.
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// Avoid generating a zero grainsize, even for empty loops.
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if (count < 1)
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return 1;
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global_state_t* g = cilkg_get_global_state();
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if (g->under_ptool)
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{
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// Grainsize = 1, when running under PIN, and when the grainsize has
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// not explicitly been set by the user.
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return 1;
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}
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else
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{
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// Divide loop count by 8 times the worker count and round up.
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const int Px8 = g->P * 8;
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count_t n = (count + Px8 - 1) / Px8;
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// 2K should be enough to amortize the cost of the cilk_for. Any
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// larger grainsize risks losing parallelism.
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if (n > 2048)
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return 2048;
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return (int) n; // n <= 2048, so no loss of precision on cast to int
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}
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}
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/*
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* call_cilk_for_loop_body
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*
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* Centralizes the code to call the loop body. The compiler should be
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* inlining this code
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*
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* low - Low loop index we're considering in this portion of the algorithm
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* high - High loop index we're considering in this portion of the algorithm
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* body - lambda function for the cilk_for loop body
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* data - data used by the lambda function
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* w - __cilkrts_worker we're currently executing on
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* loop_root_pedigree - __cilkrts_pedigree node we generated for the root of
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* the cilk_for loop to flatten out the internal nodes
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*/
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template <typename count_t, typename F>
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inline static
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void call_cilk_for_loop_body(count_t low, count_t high,
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F body, void *data,
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__cilkrts_worker *w,
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__cilkrts_pedigree *loop_root_pedigree)
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{
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// Cilkscreen should not report this call in a stack trace
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NOTIFY_ZC_INTRINSIC((char *)"cilkscreen_hide_call", 0);
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// The worker is only valid until the first spawn. Fetch the
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// __cilkrts_stack_frame out of the worker, since it will be stable across
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// steals. The sf pointer actually points to the *parent's*
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// __cilkrts_stack_frame, since this function is a non-spawning function
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// and therefore has no cilk stack frame of its own.
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__cilkrts_stack_frame *sf = w->current_stack_frame;
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// Save the pedigree node pointed to by the worker. We'll need to restore
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// that when we exit since the spawn helpers in the cilk_for call tree
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// will assume that it's valid
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const __cilkrts_pedigree *saved_next_pedigree_node = w->pedigree.parent;
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// Add the leaf pedigree node to the chain. The parent is the root node
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// to flatten the tree regardless of the DAG branches in the cilk_for
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// divide-and-conquer recursion.
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//
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// The rank is initialized to the low index. The user is
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// expected to call __cilkrts_bump_loop_rank at the end of the cilk_for
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// loop body.
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__cilkrts_pedigree loop_leaf_pedigree;
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loop_leaf_pedigree.rank = (uint64_t)low;
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loop_leaf_pedigree.parent = loop_root_pedigree;
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// The worker's pedigree always starts with a rank of 0
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w->pedigree.rank = 0;
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w->pedigree.parent = &loop_leaf_pedigree;
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// Call the compiler generated cilk_for loop body lambda function
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body(data, low, high);
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// The loop body may have included spawns, so we must refetch the worker
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// from the __cilkrts_stack_frame, which is stable regardless of which
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// worker we're executing on.
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w = sf->worker;
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// Restore the pedigree chain. It must be valid because the spawn helpers
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// generated by the cilk_for implementation will access it.
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w->pedigree.parent = saved_next_pedigree_node;
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}
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/* capture_spawn_arg_stack_frame
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*
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* Efficiently get the address of the caller's __cilkrts_stack_frame. The
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* preconditons are that 'w' is the worker at the time of the call and
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* 'w->current_stack_frame' points to the __cilkrts_stack_frame within the
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* spawn helper. This function should be called only within the argument list
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* of a function that is being spawned because that is the only situation in
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* which these preconditions hold. This function returns the worker
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* (unchanged) after storing the captured stack frame pointer is stored in the
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* sf argument.
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*
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* The purpose of this function is to get the caller's stack frame in a
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* context where the caller's worker is known but its stack frame is not
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* necessarily initialized. The "shrink wrap" optimization delays
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* initializing the contents of a spawning function's '__cilkrts_stack_frame'
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* as well as the 'current_stack_frame' pointer within the worker. By calling
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* this function within a spawning function's argument list, we can ensure
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* that these initializations have occured but that a detach (which would
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* invalidate the worker pointer in the caller) has not yet occured. Once the
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* '__cilkrts_stack_frame' has been retrieved in this way, it is stable for the
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* remainder of the caller's execution, and becomes an efficient way to get
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* the worker (much more efficient than calling '__cilkrts_get_tls_worker()'),
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* even after a spawn or sync.
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*/
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inline __cilkrts_worker*
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capture_spawn_arg_stack_frame(__cilkrts_stack_frame* &sf, __cilkrts_worker* w)
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{
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// Get current stack frame
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sf = w->current_stack_frame;
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#ifdef __INTEL_COMPILER
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# if __INTEL_COMPILER <= 1300 && __INTEL_COMPILER_BUILD_DATE < 20130101
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// In older compilers 'w->current_stack_frame' points to the
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// spawn-helper's stack frame. In newer compiler's however, it points
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// directly to the pointer's stack frame. (This change was made to avoid
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// having the spawn helper in the frame list when evaluating function
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// arguments, thus avoiding corruption when those arguments themselves
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// contain cilk_spawns.)
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// w->current_stack_frame is the spawn helper's stack frame.
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// w->current_stack_frame->call_parent is the caller's stack frame.
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sf = sf->call_parent;
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# endif
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#endif
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return w;
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}
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/*
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* cilk_for_recursive
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*
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* Templatized function to implement the recursive divide-and-conquer
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* algorithm that's how we implement a cilk_for.
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*
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* low - Low loop index we're considering in this portion of the algorithm
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* high - High loop index we're considering in this portion of the algorithm
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* body - lambda function for the cilk_for loop body
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* data - data used by the lambda function
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* grain - grain size (0 if it should be computed)
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* w - __cilkrts_worker we're currently executing on
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* loop_root_pedigree - __cilkrts_pedigree node we generated for the root of
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* the cilk_for loop to flatten out the internal nodes
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*/
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template <typename count_t, typename F>
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static
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void cilk_for_recursive(count_t low, count_t high,
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F body, void *data, int grain,
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__cilkrts_worker *w,
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__cilkrts_pedigree *loop_root_pedigree)
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{
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tail_recurse:
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// Cilkscreen should not report this call in a stack trace
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// This needs to be done everytime the worker resumes
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NOTIFY_ZC_INTRINSIC((char *)"cilkscreen_hide_call", 0);
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count_t count = high - low;
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// Invariant: count > 0, grain >= 1
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if (count > grain)
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{
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// Invariant: count >= 2
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count_t mid = low + count / 2;
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// The worker is valid only until the first spawn and is expensive to
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// retrieve (using '__cilkrts_get_tls_worker') after the spawn. The
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// '__cilkrts_stack_frame' is more stable, but isn't initialized until
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// the first spawn. Thus, we want to grab the address of the
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// '__cilkrts_stack_frame' after it is initialized but before the
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// spawn detaches. The only place we can do that is within the
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// argument list of the spawned function, hence the call to
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// capture_spawn_arg_stack_frame().
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__cilkrts_stack_frame *sf;
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#if defined(__GNUC__) && ! defined(__INTEL_COMPILER) && ! defined(__clang__)
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// The current version of gcc initializes the sf structure eagerly.
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// We can take advantage of this fact to avoid calling
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// `capture_spawn_arg_stack_frame` when compiling with gcc.
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// Remove this if the "shrink-wrap" optimization is implemented.
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sf = w->current_stack_frame;
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_Cilk_spawn cilk_for_recursive(low, mid, body, data, grain, w,
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loop_root_pedigree);
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#else
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_Cilk_spawn cilk_for_recursive(low, mid, body, data, grain,
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capture_spawn_arg_stack_frame(sf, w),
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loop_root_pedigree);
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#endif
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w = sf->worker;
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low = mid;
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goto tail_recurse;
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}
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// Call the cilk_for loop body lambda function passed in by the compiler to
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// execute one grain
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call_cilk_for_loop_body(low, high, body, data, w, loop_root_pedigree);
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}
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static void noop() { }
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/*
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* cilk_for_root
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*
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* Templatized function to implement the top level of a cilk_for loop.
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*
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* body - lambda function for the cilk_for loop body
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* data - data used by the lambda function
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* count - trip count for loop
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* grain - grain size (0 if it should be computed)
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*/
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template <typename count_t, typename F>
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static void cilk_for_root(F body, void *data, count_t count, int grain)
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{
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// Cilkscreen should not report this call in a stack trace
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NOTIFY_ZC_INTRINSIC((char *)"cilkscreen_hide_call", 0);
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// Pedigree computation:
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//
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// If the last pedigree node on entry to the _Cilk_for has value X,
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// then at the start of each iteration of the loop body, the value of
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// the last pedigree node should be 0, the value of the second-to-last
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// node should equal the loop counter, and the value of the
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// third-to-last node should be X. On return from the _Cilk_for, the
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// value of the last pedigree should be incremented to X+2. The
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// pedigree within the loop is thus flattened, such that the depth of
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// recursion does not affect the results either inside or outside of
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// the loop. Note that the pedigree after the loop exists is the same
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// as if a single spawn and sync were executed within this function.
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// TBD: Since the shrink-wrap optimization was turned on in the compiler,
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// it is not possible to get the current stack frame without actually
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// forcing a call to bind-thread. This spurious spawn is a temporary
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// stopgap until the correct intrinsics are added to give us total control
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// over frame initialization.
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_Cilk_spawn noop();
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// Fetch the current worker. From that we can get the current stack frame
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// which will be constant even if we're stolen
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__cilkrts_worker *w = __cilkrts_get_tls_worker();
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__cilkrts_stack_frame *sf = w->current_stack_frame;
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// Decrement the rank by one to undo the pedigree change from the
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// _Cilk_spawn
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--w->pedigree.rank;
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// Save the current worker pedigree into loop_root_pedigree, which will be
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// the root node for our flattened pedigree.
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__cilkrts_pedigree loop_root_pedigree = w->pedigree;
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// Don't splice the loop_root node in yet. It will be done when we
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// call the loop body lambda function
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// w->pedigree.rank = 0;
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// w->pedigree.next = &loop_root_pedigree;
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/* Spawn is necessary at top-level to force runtime to start up.
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* Runtime must be started in order to call the grainsize() function.
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*/
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int gs = grainsize(grain, count);
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cilk_for_recursive((count_t) 0, count, body, data, gs, w,
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&loop_root_pedigree);
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// Need to refetch the worker after calling a spawning function.
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w = sf->worker;
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// Restore the pedigree in the worker.
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w->pedigree = loop_root_pedigree;
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// Bump the worker pedigree.
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++w->pedigree.rank;
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// Implicit sync will increment the pedigree leaf rank again, for a total
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// of two increments. If the noop spawn above is removed, then we'll need
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// to re-enable the following code:
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// // If this is an optimized build, then the compiler will have optimized
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// // out the increment of the worker's pedigree in the implied sync. We
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// // need to add one to make the pedigree_loop test work correctly.
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// #if CILKRTS_OPTIMIZED
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// ++sf->worker->pedigree.rank;
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// #endif
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}
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// Use extern "C" to suppress name mangling of __cilkrts_cilk_for_32 and
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// __cilkrts_cilk_for_64.
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extern "C" {
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/*
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* __cilkrts_cilk_for_32
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*
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* Implementation of cilk_for for 32-bit trip counts (regardless of processor
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* word size). Assumes that the range is 0 - count.
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*
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* body - lambda function for the cilk_for loop body
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* data - data used by the lambda function
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* count - trip count for loop
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* grain - grain size (0 if it should be computed)
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*/
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CILK_ABI_THROWS_VOID __cilkrts_cilk_for_32(__cilk_abi_f32_t body, void *data,
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cilk32_t count, int grain)
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{
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// Cilkscreen should not report this call in a stack trace
|
||
|
NOTIFY_ZC_INTRINSIC((char *)"cilkscreen_hide_call", 0);
|
||
|
|
||
|
// Check for an empty range here as an optimization - don't need to do any
|
||
|
// __cilkrts_stack_frame initialization
|
||
|
if (count > 0)
|
||
|
cilk_for_root(body, data, count, grain);
|
||
|
}
|
||
|
|
||
|
/*
|
||
|
* __cilkrts_cilk_for_64
|
||
|
*
|
||
|
* Implementation of cilk_for for 64-bit trip counts (regardless of processor
|
||
|
* word size). Assumes that the range is 0 - count.
|
||
|
*
|
||
|
* body - lambda function for the cilk_for loop body
|
||
|
* data - data used by the lambda function
|
||
|
* count - trip count for loop
|
||
|
* grain - grain size (0 if it should be computed)
|
||
|
*/
|
||
|
CILK_ABI_THROWS_VOID __cilkrts_cilk_for_64(__cilk_abi_f64_t body, void *data,
|
||
|
cilk64_t count, int grain)
|
||
|
{
|
||
|
// Check for an empty range here as an optimization - don't need to do any
|
||
|
// __cilkrts_stack_frame initialization
|
||
|
if (count > 0)
|
||
|
cilk_for_root(body, data, count, grain);
|
||
|
}
|
||
|
|
||
|
} // end extern "C"
|
||
|
|
||
|
/* End cilk-abi-cilk-for.cpp */
|