1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
|
// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#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_hamming_distance.h>
#include <vespa/vespalib/util/stash.h>
#include <vespa/vespalib/util/stringfmt.h>
#include <vespa/vespalib/util/require.h>
#include <vespa/vespalib/gtest/gtest.h>
#include <vespa/log/log.h>
LOG_SETUP("dense_hamming_distance_function_test");
using namespace vespalib;
using namespace vespalib::eval;
using namespace vespalib::eval::test;
const ValueBuilderFactory &prod_factory = FastValueBuilderFactory::get();
struct FunInfo {
using LookFor = DenseHammingDistance;
void verify(const LookFor &fun) const {
EXPECT_TRUE(fun.result_is_mutable());
}
};
void assertOptimized(const vespalib::string &expr) {
CellTypeSpace just_int8({CellType::INT8}, 2);
EvalFixture::verify<FunInfo>(expr, {FunInfo{}}, just_int8);
CellTypeSpace just_double({CellType::DOUBLE}, 2);
EvalFixture::verify<FunInfo>(expr, {}, just_double);
}
void assertNotOptimized(const vespalib::string &expr) {
CellTypeSpace just_int8({CellType::INT8}, 2);
EvalFixture::verify<FunInfo>(expr, {}, just_int8);
}
TEST(DenseHammingDistanceOptimizer, hamming_distance_works_with_tensor_function) {
assertOptimized("reduce(hamming(x5$1,x5$2),sum)");
assertOptimized("reduce(hamming(x5$1,x5$2),sum,x)");
assertOptimized("reduce(join(x5$1,x5$2,f(x,y)(hamming(x,y))),sum)");
assertOptimized("reduce(join(x5$1,x5$2,f(x,y)(hamming(x,y))),sum,x)");
}
TEST(DenseHammingDistanceOptimizer, hamming_distance_with_compatible_dimensions_is_optimized) {
// various vector sizes
assertOptimized("reduce(hamming(x1$1,x1$2),sum)");
assertOptimized("reduce(hamming(x3$1,x3$2),sum)");
assertOptimized("reduce(hamming(x7$1,x7$2),sum)");
assertOptimized("reduce(hamming(x8$1,x8$2),sum)");
assertOptimized("reduce(hamming(x9$1,x9$2),sum)");
assertOptimized("reduce(hamming(x17$1,x17$2),sum)");
// multiple dimensions
assertOptimized("reduce(hamming(x3y3$1,x3y3$2),sum)");
assertOptimized("reduce(hamming(x3y4$1,x3y4$2),sum)");
// with trivial dimensions
assertOptimized("reduce(hamming(a1x3$1,x3$2),sum)");
assertOptimized("reduce(hamming(x3$1z1,x3$2),sum)");
assertOptimized("reduce(hamming(a1x3$1,b1x3$2z1),sum)");
}
TEST(DenseHammingDistanceOptimizer, hamming_distance_with_mapped_dimensions_is_NOT_optimized) {
assertNotOptimized("reduce(hamming(x3_1$1,x3_1$2),sum)");
assertNotOptimized("reduce(hamming(x3_1y2$1,x3_1y2$2),sum)");
}
TEST(DenseHammingDistanceOptimizer, hamming_distance_with_incompatible_dimensions_is_NOT_optimized) {
assertNotOptimized("reduce(hamming(x3,y3),sum)");
assertNotOptimized("reduce(hamming(y3,x3),sum)");
assertNotOptimized("reduce(hamming(x3,x3y3),sum)");
assertNotOptimized("reduce(hamming(x3y3,x3),sum)");
}
TEST(DenseHammingDistanceOptimizer, expressions_similar_to_hamming_distance_are_not_optimized) {
assertNotOptimized("reduce(hamming(x3$1,x3$2),prod)");
}
TEST(DenseHammingDistanceOptimizer, result_must_be_double_to_trigger_optimization) {
assertOptimized("reduce(hamming(x3y3$1,x3y3$2),sum,x,y)");
assertNotOptimized("reduce(hamming(x3y3$1,x3y3$2),sum,x)");
assertNotOptimized("reduce(hamming(x3y3$1,x3y3$2),sum,y)");
}
//-----------------------------------------------------------------------------
GTEST_MAIN_RUN_ALL_TESTS()
|