File: aahash.cpp

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#include "btllib/aahash.hpp"

#include "helpers.hpp"

#include <algorithm>
#include <cstdio>
#include <iostream>
#include <string>
#include <vector>

int
main()
{
  const std::string seq = "RITMLYTIRITMLYTI";
  const unsigned k = 8, h = 3;
  PRINT_TEST_NAME("Level 1 hashing")
  btllib::AAHash aahash(seq, h, k, 1);
  TEST_ASSERT_EQ(aahash.get_level(), 1);
  std::vector<uint64_t> lvl1_hashes = {
    4971716992320218996UL, 2124324262552088491UL, 8599050776293572050UL,
    4162540294170059916UL, 4246229847304014199UL, 3577776033547863068UL,
    7629354742360239848UL, 337326900406420216UL,  4971716992320218996UL
  };
  unsigned num_kmers = seq.size() - k + 2;
  aahash.roll();
  --num_kmers;
  uint64_t first_hash = aahash.hashes()[0];
  unsigned idx = 0;
  TEST_ASSERT_EQ(aahash.hashes()[0], lvl1_hashes[idx]);
  while (--num_kmers) {
    TEST_ASSERT(aahash.roll());
    ++idx;
    TEST_ASSERT_EQ(aahash.hashes()[0], lvl1_hashes[idx]);
  }
  TEST_ASSERT(!aahash.roll());
  uint64_t last_hash = aahash.hashes()[0];
  TEST_ASSERT_EQ(first_hash, last_hash)

  PRINT_TEST_NAME("Level 2 hashing")
  btllib::AAHash aahash2(seq, h, k, 2);
  std::vector<uint64_t> lvl2_hashes = {
    16984239531076160731UL, 2122538798213336131UL,  1181634448219258361UL,
    18364025942200420499UL, 15509211063111791705UL, 9581438197916650957UL,
    16088538885945095129UL, 6961954824987972818UL,  16984239531076160731UL
  };
  num_kmers = seq.size() - k + 2;
  aahash2.roll();
  --num_kmers;
  first_hash = aahash2.hashes()[0];
  idx = 0;
  TEST_ASSERT_EQ(aahash2.hashes()[0], lvl2_hashes[idx]);
  while (--num_kmers) {
    TEST_ASSERT(aahash2.roll());
    ++idx;
    TEST_ASSERT_EQ(aahash2.hashes()[0], lvl2_hashes[idx]);
  }
  TEST_ASSERT(!aahash2.roll());
  last_hash = aahash2.hashes()[0];
  TEST_ASSERT_EQ(first_hash, last_hash)

  PRINT_TEST_NAME("Level 3 hashing")
  btllib::AAHash aahash3(seq, h, k, 3);
  std::vector<uint64_t> lvl3_hashes = {
    14204475232333016996UL, 7411036844653579932UL,  4010182074210619839UL,
    12162032840376646189UL, 12359534317481130205UL, 12474504577607761213UL,
    12397957167802074209UL, 11500784329128563089UL, 14204475232333016996UL
  };
  num_kmers = seq.size() - k + 2;
  aahash3.roll();
  --num_kmers;
  idx = 0;
  TEST_ASSERT_EQ(aahash3.hashes()[0], lvl3_hashes[idx]);
  first_hash = aahash3.hashes()[0];
  while (--num_kmers) {
    TEST_ASSERT(aahash3.roll());
    ++idx;
    TEST_ASSERT_EQ(aahash3.hashes()[0], lvl3_hashes[idx]);
  }
  TEST_ASSERT(!aahash3.roll());
  last_hash = aahash3.hashes()[0];
  TEST_ASSERT_EQ(first_hash, last_hash)

  PRINT_TEST_NAME("Test seed parse")

  std::string string_seed1 = "0123";
  std::string string_seed2 = "1230";
  std::string string_seed3 = "2301";
  std::string string_seed4 = "3012";

  std::vector<std::string> seeds = {
    string_seed1, string_seed2, string_seed3, string_seed4
  };

  btllib::SpacedSeed unsigned_seed1 = { 0, 1, 2, 3 };
  btllib::SpacedSeed unsigned_seed2 = { 1, 2, 3, 0 };
  btllib::SpacedSeed unsigned_seed3 = { 2, 3, 0, 1 };
  btllib::SpacedSeed unsigned_seed4 = { 3, 0, 1, 2 };

  std::vector<btllib::SpacedSeed> seeds_ss = {
    unsigned_seed1, unsigned_seed2, unsigned_seed3, unsigned_seed4
  };

  std::vector<btllib::SpacedSeed> parsed_seeds = btllib::aa_parse_seeds(seeds);

  TEST_ASSERT_EQ(parsed_seeds.size(), seeds_ss.size());

  for (size_t i = 0; i < parsed_seeds.size(); ++i) {
    for (size_t j = 0; j < parsed_seeds[i].size(); ++j) {
      TEST_ASSERT_EQ(parsed_seeds[i][j], seeds_ss[i][j]);
    }
  }

  PRINT_TEST_NAME("multi-level hashing")
  std::string string_seed5 = "01233210";
  std::string string_seed6 = "12300321";
  std::string string_seed7 = "23011032";
  std::string string_seed8 = "30122103";
  std::vector<std::string> seeds2 = {
    string_seed5, string_seed6, string_seed7, string_seed8
  };
  std::vector<btllib::SpacedSeed> parsed_seeds2 =
    btllib::aa_parse_seeds(seeds2);
  btllib::SeedAAHash seedaahash(seq, parsed_seeds2, h, k);
  btllib::SeedAAHash seedaahash2(seq, parsed_seeds2, h, k);
  num_kmers = seq.size() - k + 2;
  seedaahash.roll();
  seedaahash2.roll();
  --num_kmers;
  while (--num_kmers) {
    TEST_ASSERT(seedaahash.roll());
  }
  TEST_ASSERT(!seedaahash.roll());
  for (size_t i = 0; i < seeds2.size() * h; ++i) {
    TEST_ASSERT_EQ(seedaahash.hashes()[i], seedaahash2.hashes()[i]);
  }
  TEST_ASSERT_EQ(first_hash, last_hash)

  PRINT_TEST_NAME("Nonequivalence")
  std::string seq2 = "ALGASQMYWMCDYDPY";
  btllib::AAHash aahash4(seq2, h, k, 1);
  btllib::AAHash aahash5(seq, h, k, 1);
  num_kmers = seq.size() - k + 1;
  aahash4.roll();
  aahash5.roll();
  TEST_ASSERT_NE(aahash4.hashes()[0], aahash5.hashes()[0]);
  --num_kmers;
  while (--num_kmers) {
    TEST_ASSERT_NE(aahash4.hashes()[0], aahash5.hashes()[0]);
  }

  PRINT_TEST_NAME("Level 2 equivalence")
  std::string seqT = "T";
  std::string seqS = "S";
  btllib::AAHash aahashlvl2T(seqT, 1, 1, 2);
  btllib::AAHash aahashlvl2S(seqS, 1, 1, 2);
  aahashlvl2T.roll();
  aahashlvl2S.roll();
  TEST_ASSERT_EQ(aahashlvl2T.hashes()[0], aahashlvl2S.hashes()[0]);
  std::string seqD = "D";
  std::string seqE = "E";
  btllib::AAHash aahashlvl2D(seqD, 1, 1, 2);
  btllib::AAHash aahashlvl2E(seqE, 1, 1, 2);
  aahashlvl2D.roll();
  aahashlvl2E.roll();
  TEST_ASSERT_EQ(aahashlvl2D.hashes()[0], aahashlvl2E.hashes()[0]);
  std::string seqQ = "Q";
  std::string seqK = "K";
  std::string seqR = "R";
  btllib::AAHash aahashlvl2Q(seqQ, 1, 1, 2);
  btllib::AAHash aahashlvl2K(seqK, 1, 1, 2);
  btllib::AAHash aahashlvl2R(seqR, 1, 1, 2);
  aahashlvl2Q.roll();
  aahashlvl2K.roll();
  aahashlvl2R.roll();
  TEST_ASSERT_EQ(aahashlvl2Q.hashes()[0], aahashlvl2K.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl2Q.hashes()[0], aahashlvl2R.hashes()[0]);
  std::string seqV = "V";
  std::string seqI = "I";
  std::string seqL = "L";
  std::string seqM = "M";
  btllib::AAHash aahashlvl2V(seqV, 1, 1, 2);
  btllib::AAHash aahashlvl2I(seqI, 1, 1, 2);
  btllib::AAHash aahashlvl2L(seqL, 1, 1, 2);
  btllib::AAHash aahashlvl2M(seqM, 1, 1, 2);
  aahashlvl2V.roll();
  aahashlvl2I.roll();
  aahashlvl2L.roll();
  aahashlvl2M.roll();
  TEST_ASSERT_EQ(aahashlvl2V.hashes()[0], aahashlvl2I.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl2V.hashes()[0], aahashlvl2L.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl2V.hashes()[0], aahashlvl2M.hashes()[0]);
  std::string seqW = "W";
  std::string seqF = "F";
  std::string seqY = "Y";
  btllib::AAHash aahashlvl2W(seqW, 1, 1, 2);
  btllib::AAHash aahashlvl2F(seqF, 1, 1, 2);
  btllib::AAHash aahashlvl2Y(seqY, 1, 1, 2);
  aahashlvl2W.roll();
  aahashlvl2F.roll();
  aahashlvl2Y.roll();
  TEST_ASSERT_EQ(aahashlvl2W.hashes()[0], aahashlvl2F.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl2W.hashes()[0], aahashlvl2Y.hashes()[0]);

  std::string seqCGATNDQVWHP = "CGATNDQVWHP";
  std::string seqCGASNEKIFHP = "CGASNEKIFHP";
  btllib::AAHash aahashlvl2CGATNDQVWHP(seqCGATNDQVWHP, 1, 11, 2);
  btllib::AAHash aahashlvl2CGASNEKIFHP(seqCGASNEKIFHP, 1, 11, 2);
  aahashlvl2CGATNDQVWHP.roll();
  aahashlvl2CGASNEKIFHP.roll();
  TEST_ASSERT_EQ(aahashlvl2CGATNDQVWHP.hashes()[0],
                 aahashlvl2CGASNEKIFHP.hashes()[0]);

  PRINT_TEST_NAME("Level 3 equivalence")
  std::string seqA = "A";
  btllib::AAHash aahashlvl3T(seqT, 1, 1, 3);
  btllib::AAHash aahashlvl3S(seqS, 1, 1, 3);
  btllib::AAHash aahashlvl3A(seqA, 1, 1, 3);
  aahashlvl3T.roll();
  aahashlvl3S.roll();
  aahashlvl3A.roll();
  TEST_ASSERT_EQ(aahashlvl3T.hashes()[0], aahashlvl3S.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3T.hashes()[0], aahashlvl3A.hashes()[0]);
  std::string seqN = "N";
  btllib::AAHash aahashlvl3D(seqD, 1, 1, 3);
  btllib::AAHash aahashlvl3E(seqE, 1, 1, 3);
  btllib::AAHash aahashlvl3N(seqN, 1, 1, 3);
  aahashlvl3D.roll();
  aahashlvl3E.roll();
  aahashlvl3N.roll();
  TEST_ASSERT_EQ(aahashlvl3D.hashes()[0], aahashlvl3E.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3D.hashes()[0], aahashlvl3N.hashes()[0]);
  btllib::AAHash aahashlvl3Q(seqQ, 1, 1, 3);
  btllib::AAHash aahashlvl3K(seqK, 1, 1, 3);
  btllib::AAHash aahashlvl3R(seqR, 1, 1, 3);
  aahashlvl3Q.roll();
  aahashlvl3K.roll();
  aahashlvl3R.roll();
  TEST_ASSERT_EQ(aahashlvl3Q.hashes()[0], aahashlvl3K.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3Q.hashes()[0], aahashlvl3R.hashes()[0]);
  btllib::AAHash aahashlvl3V(seqV, 1, 1, 3);
  btllib::AAHash aahashlvl3I(seqI, 1, 1, 3);
  btllib::AAHash aahashlvl3L(seqL, 1, 1, 3);
  btllib::AAHash aahashlvl3M(seqM, 1, 1, 3);
  aahashlvl3V.roll();
  aahashlvl3I.roll();
  aahashlvl3L.roll();
  aahashlvl3M.roll();
  TEST_ASSERT_EQ(aahashlvl3V.hashes()[0], aahashlvl3I.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3V.hashes()[0], aahashlvl3L.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3V.hashes()[0], aahashlvl3M.hashes()[0]);
  btllib::AAHash aahashlvl3W(seqW, 1, 1, 3);
  btllib::AAHash aahashlvl3F(seqF, 1, 1, 3);
  btllib::AAHash aahashlvl3Y(seqY, 1, 1, 3);
  aahashlvl3W.roll();
  aahashlvl3F.roll();
  aahashlvl3Y.roll();
  TEST_ASSERT_EQ(aahashlvl3W.hashes()[0], aahashlvl3F.hashes()[0]);
  TEST_ASSERT_EQ(aahashlvl3W.hashes()[0], aahashlvl3Y.hashes()[0]);

  std::string seqCGANQVWHP = "CGANQVWHP";
  std::string seqCGTDKIFHP = "CGTDKIFHP";
  btllib::AAHash aahashlvl3CGANQVWHP(seqCGANQVWHP, 1, 9, 3);
  btllib::AAHash aahashlvl3CGTDKIFHP(seqCGTDKIFHP, 1, 9, 3);
  aahashlvl3CGANQVWHP.roll();
  aahashlvl3CGTDKIFHP.roll();
  TEST_ASSERT_EQ(aahashlvl3CGANQVWHP.hashes()[0],
                 aahashlvl3CGTDKIFHP.hashes()[0]);

  PRINT_TEST_NAME("Mutli-level equivalence")
  std::string seqACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP =
    "ACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP";
  std::string seqACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP =
    "ACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP";
  std::string string_seed9 = "1111111111111111111122222222222333333333";
  std::vector<std::string> seeds3 = { string_seed9,
                                      string_seed9,
                                      string_seed9 };
  std::vector<btllib::SpacedSeed> parsed_seeds3 =
    btllib::aa_parse_seeds(seeds3);
  btllib::SeedAAHash seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP(
    seqACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP,
    parsed_seeds3,
    3,
    seqACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP.size());
  btllib::SeedAAHash seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP(
    seqACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP,
    parsed_seeds3,
    3,
    seqACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP.size());
  seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP.roll();
  seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP.roll();
  for (size_t i = 0; i < seeds3.size() * 3; ++i) {
    TEST_ASSERT_EQ(
      seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGATNDQVWHPCGANQVWHP.hashes()[i],
      seedaahashmultilvlACDEFGHIKLMNPQRSTVWYCGASNEKIFHPCGTDKIFHP.hashes()[i]);
  }

  return 0;
}