[/ Copyright Hans Dembinski 2018 - 2019. Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at https://www.boost.org/LICENSE_1_0.txt) ] [section:getting_started Getting started] Here are some commented examples to copy-paste from, this should allow you to kick off a project with Boost.Histogram. If you prefer a traditional structured exposition, go to the [link histogram.guide user guide]. Boost.Histogram uses /axis/ objects to convert input values into indices. The library comes with several builtin axis types, which can be configured via template parameters. This already gives you a lot of flexibility should you need it, otherwise just use the defaults. Beyond that, you can easily write your own axis type. [section 1d-histogram with axis types known at compile-time] When the axis types for the histogram are known at compile-time, the library generates the fastest and most efficient code for you. Here is such an example. [import ../examples/getting_started_listing_01.cpp] [getting_started_listing_01] We passed the [classref boost::histogram::axis::regular regular] axis type directly to the [headerref boost/histogram/make_histogram.hpp make_histogram] function. The library then generates a specialized histogram type with just one regular axis from a generic template. * Pro: Many user errors are already caught at compile-time, not at run-time. * Con: You get template errors if you make a mistake, which may be hard to read. We try to give you useful error messages, but still. [endsect] [section 3d-histogram (axis configuration defined at run-time)] Sometimes, you don't know the number or types of axes at compile-time, because it depends on run-time information. Perhaps you want to write a command-line tool that generates histograms from input data, or you use this library as a back-end for a product with a GUI. This is possible as well, here is the example. [import ../examples/getting_started_listing_02.cpp] [getting_started_listing_02] The axis configuration is passed to `make_histogram` as a `std::vector>`, which can hold arbitrary sequences of axis types from a predefined set. Run-time configurable histograms are a slower than their compile-time brethren, but still pretty fast. [note If you know already at compile-time that you will only use one axis type, `axis::regular<>` for example, but not how many per histogram, then you can also pass a `std::vector>` to `make_histogram`. You get almost the same speed as in the very first case, where both the axis configuration was fully known at compile-time. ] [note If you care about maximum performance: In this example, `axis::category` is used with two string labels "red" and "blue". It is faster to use an enum, `enum { red, blue };` and a `axis::category<>` axis. ] [endsect] [section 1d-profile] The library was designed to be very flexible and modular. The modularity is used, for example, to also provide profiles. Profiles are generalized histograms. A histogram counts how often an input falls into a particular cell. A profile accepts pairs of input values and a sample value. The profile computes the mean of the samples that end up in each cell. Have a look at the example, which should clear up any confusion. [import ../examples/getting_started_listing_03.cpp] [getting_started_listing_03] [endsect] [section Standard library algorithms] The library was designed to work well with the C++ standard library. Here is an example on how to get the most common color from an image, using a 3d histogram and `std::max_element`. [import ../examples/getting_started_listing_04.cpp] [getting_started_listing_04] [endsect] [section Making classes that hold histograms] The histograms get their great flexibility and performance from being templated, but this can make the types a bit cumbersome to write. Often it is possible to use `auto` to let the compiler deduce the type, but when you want to store histograms in a class, you need to write the type explicitly. The next example shows how this works. [import ../examples/getting_started_listing_05.cpp] [getting_started_listing_05] [endsect] [endsect]