Dendro  5.01
Dendro in Greek language means tree. The Dendro library is a large scale (262K cores on ORNL's Titan) distributed memory adaptive octree framework. The main goal of Dendro is to perform large scale multiphysics simulations efficeiently in mordern supercomputers. Dendro consists of efficient parallel data structures and algorithms to perform variational ( finite element) methods and finite difference mthods on 2:1 balanced arbitary adaptive octrees which enables the users to perform simulations raning from black holes (binary black hole mergers) to blood flow in human body, where applications ranging from relativity, astrophysics to biomedical engineering.
Public Member Functions | List of all members
nlohmann::detail::input_buffer_adapter Class Reference

input adapter for buffer input More...

#include <json.hpp>

Inheritance diagram for nlohmann::detail::input_buffer_adapter:
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Collaboration diagram for nlohmann::detail::input_buffer_adapter:
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Public Member Functions

 input_buffer_adapter (const char *b, const std::size_t l)
 input_buffer_adapter (const input_buffer_adapter &)=delete
input_buffer_adapteroperator= (input_buffer_adapter &)=delete
std::char_traits< char >::int_type get_character () noexcept override
 get a character [0,255] or std::char_traits<char>::eof().
void unget_character () noexcept override
 restore the last non-eof() character to input

Detailed Description

input adapter for buffer input

The documentation for this class was generated from the following file: