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// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include <vespa/vespalib/testkit/test_kit.h>
#include <vespa/eval/eval/operation.h>
#include <vespa/eval/eval/fast_value.h>
#include <vespa/eval/eval/tensor_function.h>
#include <vespa/eval/eval/test/eval_fixture.h>
#include <vespa/eval/eval/test/gen_spec.h>
#include <vespa/eval/instruction/dense_xw_product_function.h>
#include <vespa/vespalib/util/stringfmt.h>
#include <vespa/vespalib/util/stash.h>
using namespace vespalib;
using namespace vespalib::eval;
using namespace vespalib::eval::test;
using namespace vespalib::eval::tensor_function;
struct FunInfo {
using LookFor = DenseXWProductFunction;
size_t vec_size;
size_t res_size;
bool happy;
void verify(const LookFor &fun) const {
EXPECT_TRUE(fun.result_is_mutable());
EXPECT_EQUAL(fun.vector_size(), vec_size);
EXPECT_EQUAL(fun.result_size(), res_size);
EXPECT_EQUAL(fun.common_inner(), happy);
}
};
void verify_not_optimized(const vespalib::string &expr) {
EvalFixture::verify<FunInfo>(expr, {}, CellTypeSpace({CellType::FLOAT}, 2));
}
void verify_optimized(const vespalib::string &expr, size_t vec_size, size_t res_size, bool happy) {
EvalFixture::verify<FunInfo>(expr, {{vec_size, res_size, happy}}, CellTypeSpace(CellTypeUtils::list_types(), 2));
}
vespalib::string make_expr(const vespalib::string &a, const vespalib::string &b, const vespalib::string &common) {
return make_string("reduce(%s*%s,sum,%s)", a.c_str(), b.c_str(), common.c_str());
}
void verify_optimized_multi(const vespalib::string &a, const vespalib::string &b, const vespalib::string &common,
size_t vec_size, size_t res_size, bool happy)
{
{
auto expr = make_expr(a, b, common);
TEST_STATE(expr.c_str());
TEST_DO(verify_optimized(expr, vec_size, res_size, happy));
}
{
auto expr = make_expr(b, a, common);
TEST_STATE(expr.c_str());
TEST_DO(verify_optimized(expr, vec_size, res_size, happy));
}
}
TEST("require that xw product gives same results as reference join/reduce") {
// 1 -> 1 happy/unhappy
TEST_DO(verify_optimized_multi("y1", "x1y1", "y", 1, 1, true));
TEST_DO(verify_optimized_multi("y1", "y1z1", "y", 1, 1, false));
// 3 -> 2 happy/unhappy
TEST_DO(verify_optimized_multi("y3", "x2y3", "y", 3, 2, true));
TEST_DO(verify_optimized_multi("y3", "y3z2", "y", 3, 2, false));
// 5 -> 8 happy/unhappy
TEST_DO(verify_optimized_multi("y5", "x8y5", "y", 5, 8, true));
TEST_DO(verify_optimized_multi("y5", "y5z8", "y", 5, 8, false));
// 16 -> 5 happy/unhappy
TEST_DO(verify_optimized_multi("y16", "x5y16", "y", 16, 5, true));
TEST_DO(verify_optimized_multi("y16", "y16z5", "y", 16, 5, false));
}
TEST("require that various variants of xw product can be optimized") {
TEST_DO(verify_optimized("reduce(join(y3,x2y3,f(x,y)(x*y)),sum,y)", 3, 2, true));
}
TEST("require that expressions similar to xw product are not optimized") {
TEST_DO(verify_not_optimized("reduce(y3*x2y3,sum,x)"));
TEST_DO(verify_not_optimized("reduce(y3*x2y3,prod,y)"));
TEST_DO(verify_not_optimized("reduce(y3*x2y3,sum)"));
TEST_DO(verify_not_optimized("reduce(join(y3,x2y3,f(x,y)(y*x)),sum,y)"));
TEST_DO(verify_not_optimized("reduce(join(y3,x2y3,f(x,y)(x+y)),sum,y)"));
TEST_DO(verify_not_optimized("reduce(join(y3,x2y3,f(x,y)(x*x)),sum,y)"));
TEST_DO(verify_not_optimized("reduce(join(y3,x2y3,f(x,y)(y*y)),sum,y)"));
TEST_DO(verify_not_optimized("reduce(join(y3,x2y3,f(x,y)(y*x*1)),sum,y)"));
TEST_DO(verify_not_optimized("reduce(y3*x2z3,sum,y)"));
TEST_DO(verify_not_optimized("reduce(y3*x2z3,sum,z)"));
}
TEST("require that xw product can be debug dumped") {
EvalFixture::ParamRepo param_repo;
param_repo.add("y5", GenSpec::from_desc("y5"));
param_repo.add("x8y5", GenSpec::from_desc("x8y5"));
EvalFixture fixture(EvalFixture::prod_factory(), "reduce(y5*x8y5,sum,y)", param_repo, true);
auto info = fixture.find_all<DenseXWProductFunction>();
ASSERT_EQUAL(info.size(), 1u);
EXPECT_TRUE(info[0]->result_is_mutable());
fprintf(stderr, "%s\n", info[0]->as_string().c_str());
}
TEST_MAIN() { TEST_RUN_ALL(); }
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