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d52ffcd830
Rename unsigned_int generator to number_u32. Add generators: - number_u64 - number_f64 - percentage
217 lines
5 KiB
C++
217 lines
5 KiB
C++
/*
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* Copyright (c) 2023, Martin Janiczek <martin@janiczek.cz>.
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/StdLibExtras.h>
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#include <LibTest/Randomized/Generator.h>
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#include <LibTest/TestCase.h>
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#include <math.h>
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using namespace Test::Randomized;
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RANDOMIZED_TEST_CASE(number_u64_max_bounds)
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{
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GEN(n, Gen::number_u64(10));
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EXPECT(n <= 10);
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}
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RANDOMIZED_TEST_CASE(number_u64_min_max_bounds)
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{
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GEN(n, Gen::number_u64(3, 6));
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EXPECT(n >= 3 && n <= 6);
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}
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RANDOMIZED_TEST_CASE(assume)
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{
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GEN(n, Gen::number_u64(10));
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ASSUME(n % 2 == 0); // This will try to generate until it finds an even number
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EXPECT(n % 2 == 0); // This will then succeed
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// It will give up if the value doesn't pass the ASSUME(...) predicate 15 times in a row.
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}
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// TODO find a way to test that a test "number_u64(3) can't reach 0" fails
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// TODO find a way to test that a test "number_u64(3) can't reach 3" fails
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// TODO find a way to test that a test "number_u64(3,6) can't reach 3" fails
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// TODO find a way to test that a test "number_u64(3,6) can't reach 6" fails
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// TODO find a way to test that a test "number_u64(10) can reach n>10" fails
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RANDOMIZED_TEST_CASE(map_like)
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{
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GEN(n1, Gen::number_u64(10));
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GEN(n2, n1 * 2);
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EXPECT(n2 % 2 == 0);
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}
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RANDOMIZED_TEST_CASE(bind_like)
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{
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GEN(n1, Gen::number_u64(1, 9));
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GEN(n2, Gen::number_u64(n1 * 10, n1 * 100));
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EXPECT(n2 >= 10 && n2 <= 900);
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}
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// An example of an user-defined generator (for the test bind_vector_suboptimal).
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//
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// For why this is a suboptimal way to generate collections, see the comment in
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// Shrink::shrink_delete().
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//
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// TL;DR: this makes the length non-local to the items we're trying to delete
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// (except the first item).
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//
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// There's a better way: flip a (biased) coin to decide whether to generate
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// a next item. That makes each item much better shrinkable, since its
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// contribution to the sequence length (a boolean 0 or 1) is right next to its
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// own data.
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//
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// Because it's a pretty natural way to do this, we take special care in the
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// internal shrinker to work well on this style too.
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template<typename FN>
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Vector<InvokeResult<FN>> vector_suboptimal(FN item_gen)
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{
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u32 length = Gen::number_u64(5);
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Vector<InvokeResult<FN>> acc;
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for (u32 i = 0; i < length; ++i) {
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acc.append(item_gen());
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}
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return acc;
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}
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RANDOMIZED_TEST_CASE(bind_vector_suboptimal)
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{
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u32 max_item = 5;
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GEN(vec, vector_suboptimal([&]() { return Gen::number_u64(max_item); }));
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u32 sum = 0;
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for (u32 n : vec) {
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sum += n;
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}
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EXPECT(sum <= vec.size() * max_item);
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}
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RANDOMIZED_TEST_CASE(vector)
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{
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u32 max_item = 5;
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GEN(vec, Gen::vector([&]() { return Gen::number_u64(max_item); }));
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EXPECT(vec.size() <= 32);
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}
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RANDOMIZED_TEST_CASE(vector_length)
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{
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u32 max_item = 5;
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GEN(vec, Gen::vector(3, [&]() { return Gen::number_u64(max_item); }));
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EXPECT(vec.size() == 3);
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}
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RANDOMIZED_TEST_CASE(vector_min_max)
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{
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u32 max_item = 5;
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GEN(vec, Gen::vector(1, 4, [&]() { return Gen::number_u64(max_item); }));
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EXPECT(vec.size() >= 1 && vec.size() <= 4);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_below0)
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{
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GEN(b, Gen::weighted_boolean(-0.5));
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EXPECT(b == false);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_0)
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{
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GEN(b, Gen::weighted_boolean(0));
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EXPECT(b == false);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_1)
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{
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GEN(b, Gen::weighted_boolean(1));
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EXPECT(b == true);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_above1)
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{
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GEN(b, Gen::weighted_boolean(1.5));
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EXPECT(b == true);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_fair_true)
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{
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GEN(b, Gen::weighted_boolean(0.5));
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ASSUME(b == true);
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EXPECT(b == true);
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}
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RANDOMIZED_TEST_CASE(weighted_boolean_fair_false)
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{
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GEN(b, Gen::weighted_boolean(0.5));
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ASSUME(b == false);
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EXPECT(b == false);
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}
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RANDOMIZED_TEST_CASE(boolean_true)
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{
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GEN(b, Gen::boolean());
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ASSUME(b == true);
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EXPECT(b == true);
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}
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RANDOMIZED_TEST_CASE(boolean_false)
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{
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GEN(b, Gen::boolean());
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ASSUME(b == false);
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EXPECT(b == false);
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}
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RANDOMIZED_TEST_CASE(one_of_int)
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{
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GEN(x, Gen::one_of(1, 2));
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EXPECT(x == 1 || x == 2);
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}
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RANDOMIZED_TEST_CASE(frequency_int)
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{
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GEN(x, Gen::frequency(Gen::Choice { 5, 'x' }, Gen::Choice { 1, 'o' }));
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ASSUME(x == 'x');
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EXPECT(x == 'x');
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}
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RANDOMIZED_TEST_CASE(percentage)
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{
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GEN(x, Gen::percentage());
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EXPECT(x >= 0 && x <= 1);
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}
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RANDOMIZED_TEST_CASE(number_f64_max_bounds)
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{
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GEN(x, Gen::number_f64(10));
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EXPECT(x <= 10);
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}
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RANDOMIZED_TEST_CASE(number_f64_min_max_bounds)
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{
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GEN(x, Gen::number_f64(-10, 10));
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EXPECT(x >= -10 && x <= 10);
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}
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RANDOMIZED_TEST_CASE(number_f64_never_nan)
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{
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GEN(x, Gen::number_f64());
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EXPECT(!isnan(x));
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}
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RANDOMIZED_TEST_CASE(number_f64_never_infinite)
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{
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GEN(x, Gen::number_f64());
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EXPECT(!isinf(x));
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}
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RANDOMIZED_TEST_CASE(number_u32_max_bounds)
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{
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GEN(n, Gen::number_u32(10));
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EXPECT(n <= 10);
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}
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RANDOMIZED_TEST_CASE(number_u32_min_max_bounds)
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{
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GEN(n, Gen::number_u32(3, 6));
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EXPECT(n >= 3 && n <= 6);
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}
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