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Binary search tree

Repository for the Advanced Programming course's project (A.Y. 2020-2021)

How to compile and run

In order to produce the final executable file, a Makefile is provided and the following commands can be run in the shell from the root directory of the project:

  • make all allows to clean, build and execute the program;
  • make clean allows to remove (if present) the directory with all the executable files;
  • make build allows to build the executable files for the program;
  • make run allows to run the program (if executable files are already built)
  • make valgrind allows to run the program with Valgrind, in order to detect memory errors;
  • make all_with_valgrind is the same as make all, but the program is executed with Valgrind.

Documentation

Documentation was created with Doxygen and can be re-generated with the command make documentation. The output directory for the documentation can be specified from the Makefile of this project. There is also the command build_with_documentation that allows to clean, build and generate the documentation.

Important: Doxygen must be installed before be used. Generating a PDF file requires to have installed pdflatex, too.

Short report

What we did

We used the 'Pair Programming' technique: one at a time was coding and the others were checking. All together discussed about design choices. We started creating the header files and deciding the structure of the project. We thought a lot about best choices for the project.

What we understood

We understood:

  • how to create and use Makefile;
  • concepts discussed during lectures;
  • how to work in group (online).

Benchmarked

The command make all_with_charts is the same as make all and then creates benhmark plots.

Parameters for benchmark tests can be configured from the source file test/benchmark_test.h. Results are available as CSV files in the directory specified as parameter in the source file test/benchmark_test.h.

Results

We performed benchmark tests in which we compared std::map with our implementation of the Binary Search Tree, with 10000 nodes; we repeated the tests 20 times. The plots with results are listed below.

Balancing Copy Find by key Find by key after balancing Insertion