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An efficient minimal perfect hash function generator for small sets

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MPHF

Minimal Perfect Hash Functions using SAT

Description

This project supports building small minimal perfect hash functions very near the entropy limit by using Satisfiability technology.

An MPHF is a bijective function that maps a set of keywords W = {w_0, ..., w_{n-1}} to the integers {0, ..., n-1}. Details of the SAT encoding used here are presented in this paper: Constructing Minimal Perfect Hash Functions Using SAT Technology.

Dependencies

This project relies on a git submodule. To get this module, clone the repository by doing either

git clone --recursive [email protected]:weaversa/MPHF.git

or

git clone [email protected]:weaversa/MPHF.git
cd MPHF
git submodule update --init --recursive

This project also needs a SAT solver to call out to. Any that support the SAT competition interface should do (http://www.satcompetition.org/). One such solver is Glucose, available here: https://www.labri.fr/perso/lsimon/glucose/. Just make sure to have the solver binary in your system path and set the solver_string parameter appropriately (described below).

Install

Run make in the project root directory. The library file libmphfsat.a will (assuming successful compilation) be created in this package's lib directory

Building an MPFH

An MPHF is built in two separate phases. The first involves adding elements to a builder object. The second involves creating a querier object from a builder object. Once completed, the querier object may be queried ad infinitum.

A builder is first allocated using MPHFBuilderAlloc, like so:

MPHFBuilder *mphfb = MPHFBuilderAlloc(0);

Here, the first and only argument 0 is the number of expected elements the MPHF will encode. It is safe to leave this number as 0, but will decrease calls to malloc if the actual number is given ahead of time.

Elements are added to the builder, like so:

if(MPHFBuilderAddElement(mphfb, pElement, nElementBytes) != 0) {
  fprintf(stderr, "Element insertion failed...exiting\n");
  return -1;
}

Here, pElement is a pointer to at least nElementBytes number of bytes. This element will be copied into the builder.

If an element has already been hashed, the hash can be directly added to the builder, like so:

if(MPHFBuilderAddHash(mphfb, (MPHFHash) {.h1 = hash}) != 0) {
  fprintf(stderr, "Hash insertion failed...exiting\n");
  return -1;
}

After all elements (or hashes) have been stored, the querier is ready to be created:

MPHFQuerier *mphfq = MPHFBuilderFinalize(mphfb, test_parameters);

The first argument is the builder. The second argument is a structure consisting of two parameters: the target bits-per-element of the resulting MPHF and the command-line string used to call a SAT solver. For example,

MPHFParameters test_parameters =
  { .fBitsPerElement = 1.30,
    .solver_string = "glucose -model"
  };

Feel free to define your own parameters to meet the needs of your application.

The returned querier (mphfq) will be NULL on error.

When finalizing, you will notice that some progress is printed to stderr. These print statements can be turned off by commenting out the following line in mphf.h and recompiling the package.

#define MPHF_PRINT_BUILD_PROCESS

After creating the querier, it is suggested that the builder be free'd, like so:

MPHFBuilderFree(mphfb);

Querying an MPFH

The MPHF can be queried against an element, like so:

uint32_t key = MPHFQuery(mphfq, pElement, nElementBytes);

Here, pElement is a pointer to nElementBytes number of bytes. The key unique to this element is returned.

The MPHF can be queried against an already hashed element, like so:

uint32_t key = MPHFQueryHash(mphfq, (MPHFHash) {.h1 = hash});

When querying is finished, the querier can be freed, like so:

  MPHFQuerierFree(mphfq);

Serialization

Queriers can be serialized (written to a file) in the following way:

  FILE *fout = fopen("mphf.out", "w");
  if(MPHFSerialize(fout, mphfq) != 0) {
    fprintf(stderr, "Serialization failed...exiting\n");
    return -1;
  }
  fclose(fout);

Here, fout is of type FILE *. ret will be 0 on failure and 1 on success.

A querier can be deserialized (read from a file) in the following way:

  fout = fopen("mphf.out", "r");
  mphfq = MPHFDeserialize(fout);
  if(mphfq == NULL) {
    fprintf(stderr, "Deserialization failed...exiting\n");
    return -1;
  }
  fclose(fout);

Here, fout is of type FILE *. mphfq will be NULL on error.

Linking

To use, simply link against lib/libmphfsat.a and include include/mphf.h.

Test

A sample interface is given in the test directory. The test builds an MPHF for 30 random 10-byte elements and then queries the MPHF against the original elements (for a consistency check) and prints statistics. To run the test type:

$ make test/test && test/test

Further Information

A paper about MPHF and SAT is available here: Constructing Minimal Perfect Hash Functions Using SAT Technology.

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