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Table and Graph Libraries

Console Table and Graph/Plot Libraries

Copyright Β© 2018 Teal Dulcet

These header only libraries use box-drawing, Braille, fraction and other Unicode characters and terminal colors and formatting to output tables and graphs/plots to the console. All the tables and graphs are created with a single (one) function call and they do not require any special data structures.

See the python directory for Python ports of the libraries.

For command-line tools using these respective libraries, see the Tables and Graphs CLI.

❀️ Please visit tealdulcet.com to support these libraries and my other software development.

Table of Contents

Tables

Usage

Requires support for C++17. See the tables.hpp file for full usage information.

Complete versions of all of the examples below and more can be found in the tables.cpp file.

Compile with:

  • GCC: g++ -std=c++17 -Wall -g -O3 tables.cpp -o tables
  • Clang: clang++ -std=c++17 -Wall -g -O3 tables.cpp -o tables

Other compilers should work as well, but are not (yet) tested.

Run with: ./tables

Output char array as table

C style char array
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	char ***array;

	// Allocate and set array

	tables::options aoptions = {.headerrow = true, .headercolumn = true};

	tables::array(rows, columns, array, nullptr, nullptr, aoptions);

	// Deallocate array

	return 0;
}
C++ string array
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	vector<vector<string>> array(rows, vector<string>(columns));

	// Set array

	string *headerrow = nullptr;
	string *headercolumn = nullptr;

	tables::options aoptions = {.headerrow = true, .headercolumn = true};

	tables::array(array, headerrow, headercolumn, aoptions);

	return 0;
}

Table cells can contain Unicode characters and formatted text with ANSI escape sequences, but not newlines and tabs.

Output array as table with separate header row and column

C style char array
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 4;
	size_t columns = 4;

	const char* headerrow[] = {"Header row/column 1", "Header row 2", "Header row 3", "Header row 4", "Header row 5"};
	const char* headercolumn[] = {"Header column 2", "Header column 3", "Header column 4", "Header column 5"};

	char ***array;

	// Allocate and set array

	tables::options aoptions = {.headerrow = true, .headercolumn = true};

	tables::array(rows, columns, array, headerrow, headercolumn, aoptions);

	// Deallocate array

	return 0;
}
C++ string array
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	string headerrow[] = {"Header row/column 1", "Header row 2", "Header row 3", "Header row 4", "Header row 5"};
	string headercolumn[] = {"Header column 2", "Header column 3", "Header column 4", "Header column 5"};

	vector<vector<string>> array(rows, vector<string>(columns));

	// Set array

	tables::options aoptions = {.headerrow = true, .headercolumn = true};

	tables::array(array, headerrow, headercolumn, aoptions);

	return 0;
}

Output same as example above.

Output array as table

C style pointer
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	double **array; // array can be any data type

	// Allocate and set array

	tables::array(rows, columns, array);

	// Deallocate array

	return 0;
}
C++ array/vector
#include "tables.hpp"

using namespace std;

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	vector<vector<double>> array(rows, vector<double>(columns)); // array can be any data type

	// Set array

	tables::array(array);

	return 0;
}

Output sorted array as table

C style pointer
#include <algorithm>
#include "tables.hpp"

using namespace std;

int dimensions; // Number of columns
int sortdimension; // Column to sort by

template <typename T>
bool compare(const T &a, const T &b)
{
	if (a[sortdimension] == b[sortdimension])
		for (int i = 0; i < dimensions; ++i)
			if (sortdimension != i and a[i] != b[i])
				return a[i] < b[i];

	return a[sortdimension] < b[sortdimension];
}

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	int **array; // array can be any data type

	// Allocate and set array

	dimensions = columns;
	sortdimension = 0;

	sort(array, array + rows, compare<int *>);

	tables::array(rows, columns, array);

	// Deallocate array

	return 0;
}
C++ array/vector
#include <algorithm>
#include "tables.hpp"

using namespace std;

int sortdimension; // Column to sort by

template <typename T>
bool compare(const T &a, const T &b)
{
	if (a[sortdimension] == b[sortdimension])
		for (int i = 0; i < tables::size(a); ++i)
			if (sortdimension != i and a[i] != b[i])
				return a[i] < b[i];

	return a[sortdimension] < b[sortdimension];
}

int main()
{
	size_t rows = 5;
	size_t columns = 5;

	vector<vector<int>> array(rows, vector<int>(columns)); // array can be any data type

	// Set array

	sortdimension = 0;

	sort(array.begin(), array.end(), compare<vector<int>>);

	tables::array(array);

	return 0;
}

Output single function as table

C style function pointer
#include "tables.hpp"

using namespace std;

double afunction(double x)
{
	return x + 1;
}

int main()
{
	double xmin = -10;
	double xmax = 10;
	double xstep = 0.5;

	tables::options aoptions = {.headerrow = true};

	tables::function(xmin, xmax, xstep, afunction, aoptions);

	return 0;
}
C++ lambda function
#include "tables.hpp"

using namespace std;

int main()
{
	double xmin = -10;
	double xmax = 10;
	double xstep = 0.5;

	function<double(double)> afunction = [](auto x)
	{ return x + 1; };

	tables::options aoptions = {.headerrow = true};

	tables::function(xmin, xmax, xstep, afunction, aoptions);

	return 0;
}

Output multiple functions as table

C style function pointer
#include <cmath>
#include "tables.hpp"

using namespace std;

double function1(double x)
{
	return 2 * x;
}

double function2(double x)
{
	return pow(x, 2);
}

int main()
{
	double xmin = -10;
	double xmax = 10;
	double xstep = 0.5;

	size_t numfunctions = 2;

	// Function parameter and return value can be any data type, as long as they are the same
	function<double(double)> functions[] = {function1, function2};

	tables::options aoptions = {.headerrow = true};

	tables::functions(xmin, xmax, xstep, numfunctions, functions, aoptions);

	return 0;
}
C++ lambda function
#include <cmath>
#include "tables.hpp"

using namespace std;

int main()
{
	double xmin = -10;
	double xmax = 10;
	double xstep = 0.5;

	size_t numfunctions = 2;

	// Function parameter and return value can be any data type, as long as they are the same
	function<double(double)> functions[] = {[](auto x)
											{ return 2 * x; },
											[](auto x)
											{ return pow(x, 2); }};

	tables::options aoptions = {.headerrow = true};

	tables::functions(xmin, xmax, xstep, numfunctions, functions, aoptions);

	return 0;
}

Options

Header row

Option: headerrow
Default value: false

Header rows are bolded, centered and have a border.

Header column

Option: headercolumn
Default value: false

Header columns are bolded, centered and have a border.

Table border

Option: tableborder
Default value: true

Cell border

Option: cellborder
Default value: false

Cell padding

Option: padding
Default value: 1

Alignment

Option: alignment
Values:

  • nullptr
  • left (default)
  • right
  • internal (integer and floating-point types only)

bool to alpha

Option: boolalpha
Default value: false

Title

Option: title
Default value: nullptr

The title is output at the top of the table. It is word wrapped based on the current width of the terminal, using this solution. Handles newlines, tabs and Unicode characters.

Border style

Option: style
Values:

  1. style_ASCII: ASCII
  2. style_basic: Basic
  3. style_light: Light (default)
  4. style_heavy: Heavy
  5. style_double: Double
  6. style_arc: Light Arc
  7. style_light_dashed: Light Dashed
  8. style_heavy_dashed: Heavy Dashed

Check size

Option: check
Default value: true

Check that the width of the table is not greater then the width of the terminal.

Other C++ Console Tables Libraries

  • C++ Text Table (must specify every cell individually in their data structure, limited options, no Unicode support, no header row or column support)
  • Cpp Console Table (must specify every cell individually in their data structure, no Unicode support, no header row or column support)
  • ConsoleTable (requires C++11, must specify entire row at once in their data structure, no header column support)

Graphs/Plots

Usage

Requires support for C++17. See the graphs.hpp file for full usage information.

Complete versions of all of the examples below and more can be found in the graphs.cpp file.

Compile with:

  • GCC: g++ -std=c++17 -Wall -g -O3 graphs.cpp -o graphs
  • Clang: clang++ -std=c++17 -Wall -g -O3 graphs.cpp -o graphs

Other compilers should work as well, but are not (yet) tested.

Run with: ./graphs

If height is 0, it will be set to the current height of the terminal (number of rows times four). If width is 0, it will be set to the current width of the terminal (number of columns times two).

Output array as histogram

C style pointer
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t rows = 100;

	double *array; // array can be any data type

	// Allocate and set array

	graphs::histogram(height, width, xmin, xmax, ymin, ymax, rows, array);

	// Deallocate array

	return 0;
}
C++ array/vector
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t rows = 100;

	vector<double> array(rows); // array can be any data type

	// Set array

	graphs::histogram(height, width, xmin, xmax, ymin, ymax, array);

	return 0;
}

If xmin and xmax are both 0, they will be set to the respective minimum and maximum values of x in the array. If ymin and ymax are both 0, they will be set to the respective minimum and maximum values of y in the resulting histogram.

Output single array as plot

C style pointer
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t rows = 10;

	double **array; // array can be any data type, but must have exactly two columns

	// Allocate and set array

	graphs::plot(height, width, xmin, xmax, ymin, ymax, rows, array);

	// Deallocate array

	return 0;
}
C++ array/vector
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t rows = 10;

	vector<vector<double>> array(rows, vector<double>(2)); // array can be any data type, but must have exactly two columns

	// Set array

	graphs::plot(height, width, xmin, xmax, ymin, ymax, array);

	return 0;
}

If xmin and xmax are both 0, they will be set to the respective minimum and maximum values of x in the array. If ymin and ymax are both 0, they will be set to the respective minimum and maximum values of y in the array.

Use graphs::plots() to plot multiple arrays, which can be of different sizes.

Output single function as graph

C style function pointer
#include "graphs.hpp"

using namespace std;

double afunction(double x)
{
	return x + 1;
}

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	graphs::function(height, width, xmin, xmax, ymin, ymax, afunction);

	return 0;
}
C++ lambda function
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	function<double(double)> afunction = [](auto x)
	{ return x + 1; };

	graphs::function(height, width, xmin, xmax, ymin, ymax, afunction);

	return 0;
}

Output multiple functions as graph

C style function pointer
#include "graphs.hpp"

using namespace std;

double function1(double x)
{
	return 2 * x;
}

double function2(double x)
{
	return pow(x, 2);
}

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t numfunctions = 2;

	// Function parameter and return value can be any data type, as long as they are the same
	function<double(double)> functions[] = {function1, function2};

	graphs::functions(height, width, xmin, xmax, ymin, ymax, numfunctions, functions);

	return 0;
}
C++ lambda function
#include "graphs.hpp"

using namespace std;

int main()
{
	size_t height = 160;
	size_t width = 160;

	long double xmin = -20;
	long double xmax = 20;
	long double ymin = -20;
	long double ymax = 20;

	size_t numfunctions = 2;

	// Function parameter and return value can be any data type, as long as they are the same
	function<double(double)> functions[] = {[](auto x)
											{ return 2 * x; },
											[](auto x)
											{ return pow(x, 2); }};

	graphs::functions(height, width, xmin, xmax, ymin, ymax, numfunctions, functions);

	return 0;
}

Options

Border

Option: border
Default value: false

Axis

Option: axis
Default value: true

Axis labels

Option: axislabel
Default value: true

Requires axis to be true.

Axis tick marks

Option: axistick
Default value: true

Requires axis to be true.

Axis units labels

Option: axisunitslabel
Default value: true

Requires axis and axistick to be true.

X-axis units format

Option: xunits
Values:

  1. units_number: Locale number format
  2. units_scale_none: Locale number format with full precision
  3. units_scale_SI: Auto-scale to the SI standard
  4. units_scale_IEC: Auto-scale to the IEC standard
  5. units_scale_IEC_I: Auto-scale to the IEC standard
  6. units_fracts: Locale number format, but convert fractions and mathematical constants to Unicode characters (default)
  7. units_percent: Percentage format
  8. units_date: Locale date format
  9. units_time: Locale time format
  10. units_monetary: Locale monetary/currency format

Formats 2-5 are similar to the respective --to options with the numfmt command from GNU Coreutils, but with more precision.

Y-axis units format

Option: yunits
Values: Same as above.

Type

Option: type
Values:

  1. type_braille: Braille (default)
  2. type_block: Block

The Braille type has the highest resolution of 2Γ—4 pixels per character, while the block type uses 2Γ—2. This option is only used for plots and graphs. Histograms use 1Γ—8 pixels per character.

Mark type

Option: mark
Values:

  1. mark_dot: Dot (default)
  2. mark_plus: Plus
  3. mark_square: Square

The dot mark type uses a single pixel per mark, the plus uses five pixels and the square uses eight pixels. This option is only used for plots and graphs.

Title

Option: title
Default value: nullptr

The title is output at the top of the graph. It is word wrapped based on the current width of the terminal, using this solution. Handles newlines, tabs and Unicode characters.

Axis/Border style

Option: style
Values:

  1. style_ASCII: ASCII
  2. style_basic: Basic
  3. style_light: Light (default)
  4. style_heavy: Heavy
  5. style_double: Double
  6. style_arc: Light Arc
  7. style_light_dashed: Light Dashed
  8. style_heavy_dashed: Heavy Dashed

Graph/Plot Color

Option: color
Values:

  1. color_default: System default
  2. color_black: Black
  3. color_red: Red (default)
  4. color_green: Green
  5. color_yellow: Yellow
  6. color_blue: Blue
  7. color_magenta: Magenta
  8. color_cyan: Cyan
  9. color_white: White
  10. color_gray: Gray
  11. color_bright_red: Bright Red
  12. color_bright_green: Bright Green
  13. color_bright_yellow: Bright Yellow
  14. color_bright_blue: Bright Blue
  15. color_bright_magenta: Bright Magenta
  16. color_bright_cyan: Bright Cyan
  17. color_bright_white: Bright White

See here for examples of the colors.

This option is only used when plotting a single array and when graphing a single function. When plotting multiple arrays or graphing multiple functions, colors 2 - 16 are used inorder. The system default color is used where the plots cross.

Plot

Graph

Check size

Option: check
Default value: true

Check that the width and height of the graph are not greater then the respective width and height of the terminal.

Other C++ Console Graphs/Plots Libraries

Contributing

Pull requests welcome! Ideas for contributions:

Both:

  • Add more options
    • Add options to word wrap and truncate long text in table cells
    • Add option to center text in table cells
  • Add more examples
  • Improve the performance
  • Handle newlines and tabs in the tables
  • Handle formatted text in the table and graph/plot titles
  • Support more graph/plot colors
    • Support 256 and 24-bit color
    • Support combining/blending colors when functions cross
  • Update the -t, --table options of column command from util-linux to use the Table library
  • Port to other languages (C, Java, Rust, etc.)

C++:

  • Update the CI to test with more compilers
  • Support tables with the wchar_t, char16_t and char32_t C data types and the wstring, u16string and u32string C++ data types.

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