187 lines
8.6 KiB
C++
187 lines
8.6 KiB
C++
#include "CL/cl.hpp"
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#include "isaac/wrap/clBLAS.h"
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#include "isaac/array.h"
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#include "isaac/symbolic/execute.h"
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namespace is = isaac;
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extern "C"
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{
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clblasStatus clblasSetup()
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{
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return clblasSuccess;
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}
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void clblasTeardown()
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{
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}
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void execute(is::array_expression const & operation, is::driver::Context const & context,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList,
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cl_event *events)
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{
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std::vector<is::driver::Event> waitlist;
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for(cl_uint i = 0 ; i < numEventsInWaitList ; ++i)
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waitlist.push_back(cl::Event(eventWaitList[i]));
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for(cl_uint i = 0 ; i < numCommandQueues ; ++i)
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{
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std::list<is::driver::Event> levents;
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is::driver::CommandQueue queue(cl::CommandQueue(commandQueues[i]));
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clRetainCommandQueue(commandQueues[i]);
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is::execution_options_type options(queue, &levents, &waitlist);
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is::execute(is::control(operation, options), is::models(options.queue(context)));
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if(events)
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{
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events[i] = static_cast<cl::Event>(levents.front())();
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clRetainEvent(events[i]);
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}
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}
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}
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//*****************
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//BLAS1
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//*****************
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clblasStatus clblasSaxpy(size_t N, cl_float alpha,
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const cl_mem mx, size_t offx, int incx,
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cl_mem my, size_t offy, int incy,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList,
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cl_event *events)
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{
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is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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is::array y(N, is::FLOAT_TYPE, cl::Buffer(my), offy, incy);
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clRetainMemObject(my);
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execute(is::detail::assign(y, x + alpha*y), y.context(), numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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clblasStatus clblasSscal(size_t N, cl_float alpha,
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cl_mem mx, size_t offx, int incx,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList, cl_event *events)
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{
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is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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execute(is::detail::assign(x, alpha*x), x.context(), numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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clblasStatus clblasScopy(size_t N,
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const cl_mem mx, size_t offx, int incx,
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cl_mem my, size_t offy, int incy,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList, cl_event *events)
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{
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const is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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is::array y(N, is::FLOAT_TYPE, cl::Buffer(my), offy, incy);
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clRetainMemObject(my);
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execute(is::detail::assign(y, x), y.context(), numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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clblasStatus clblasSdot(size_t N, cl_mem dotProduct, size_t offDP,
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const cl_mem mx, size_t offx, int incx,
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const cl_mem my, size_t offy, int incy,
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cl_mem /*scratchBuff*/, cl_uint numCommandQueues,
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cl_command_queue *commandQueues, cl_uint numEventsInWaitList,
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const cl_event *eventWaitList, cl_event *events)
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{
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is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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is::array y(N, is::FLOAT_TYPE, cl::Buffer(my), offy, incy);
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clRetainMemObject(my);
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is::scalar s(is::FLOAT_TYPE, cl::Buffer(dotProduct), offDP);
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clRetainMemObject(dotProduct);
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execute(is::detail::assign(s, dot(x,y)), s.context(), numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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clblasStatus clblasSasum(size_t N, cl_mem asum, size_t offAsum,
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const cl_mem mx, size_t offx, int incx,
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cl_mem /*scratchBuff*/, cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList, cl_event *events)
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{
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is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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is::scalar s(is::FLOAT_TYPE, cl::Buffer(asum), offAsum);
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clRetainMemObject(asum);
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execute(is::detail::assign(s, sum(abs(x))), s.context(), numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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//*****************
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//BLAS2
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//*****************
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clblasStatus clblasSgemv(clblasOrder order, clblasTranspose transA,
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size_t M, size_t N,
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cl_float alpha, const cl_mem mA, size_t offA, size_t lda,
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const cl_mem mx, size_t offx, int incx,
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cl_float beta, cl_mem my, size_t offy, int incy,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList, cl_event *events)
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{
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//A
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is::int_t As1 = M, As2 = N;
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if(transA==clblasTrans) std::swap(As1, As2);
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is::array A(As1, As2, is::FLOAT_TYPE, cl::Buffer(mA), offA, lda);
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clRetainMemObject(mA);
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//x
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is::array x(N, is::FLOAT_TYPE, cl::Buffer(mx), offx, incx);
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clRetainMemObject(mx);
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//y
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is::array y(N, is::FLOAT_TYPE, cl::Buffer(my), offy, incy);
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clRetainMemObject(my);
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//Operation
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is::driver::Context const & context = A.context();
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if(transA==clblasTrans)
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execute(is::detail::assign(y, alpha*dot(A.T(), x) + beta*y), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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else
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execute(is::detail::assign(y, alpha*dot(A, x) + beta*y), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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//*****************
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//BLAS3
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//*****************
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clblasStatus clblasSgemm(clblasOrder order, clblasTranspose transA, clblasTranspose transB,
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size_t M, size_t N, size_t K,
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cl_float alpha, const cl_mem mA, size_t offA, size_t lda,
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const cl_mem mB, size_t offB, size_t ldb, cl_float beta,
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cl_mem mC, size_t offC, size_t ldc,
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cl_uint numCommandQueues, cl_command_queue *commandQueues,
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cl_uint numEventsInWaitList, const cl_event *eventWaitList, cl_event *events)
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{
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is::int_t As1 = M, As2 = K;
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is::int_t Bs1 = K, Bs2 = N;
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//Trans
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if(transA==clblasTrans) std::swap(As1, As2);
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if(transB==clblasTrans) std::swap(Bs1, Bs2);
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//Struct
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is::array A(As1, As2, is::FLOAT_TYPE, cl::Buffer(mA), offA, lda);
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clRetainMemObject(mA);
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is::array B(Bs1, Bs2, is::FLOAT_TYPE, cl::Buffer(mB), offB, ldb);
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clRetainMemObject(mB);
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is::array C(M, N, is::FLOAT_TYPE, cl::Buffer(mC), offC, ldc);
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clRetainMemObject(mC);
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is::driver::Context const & context = C.context();
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//Operation
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if(transA==clblasTrans && transB==clblasTrans)
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execute(is::detail::assign(C, alpha*dot(A.T(), B.T()) + beta*C), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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else if(transA==clblasTrans && transB==clblasNoTrans)
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execute(is::detail::assign(C, alpha*dot(A.T(), B) + beta*C), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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else if(transA==clblasNoTrans && transB==clblasTrans)
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execute(is::detail::assign(C, alpha*dot(A, B.T()) + beta*C), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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else
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execute(is::detail::assign(C, alpha*dot(A, B) + beta*C), context, numCommandQueues, commandQueues, numEventsInWaitList, eventWaitList, events);
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return clblasSuccess;
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}
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}
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