You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
The iceoryx hoofs (Handy Objects Optimised For Safety) are our basic
building blocks - the foundation of iceoryx. There are a wide variety of building blocks
grouped together in modules, depending on where or how they are used.
Modules
The following sections have a column labeled internal to indicate that the API
is not stable and can change anytime. You should never rely on it and there is no
support if it is used and breaks your code after an update.
Some modules contain STL constructs which are not part of the C++17 standard as well as convenience
constructs like the NewType. Since the classes re-implements some STL constructs,
the C++ STL coding guidelines are used for all files in this module, to help the user
to have a painless transition from the official STL types to ours.
The API should also be identical to the corresponding STL types but we have to make
exceptions here. For instance, we do not throw exceptions, try to avoid undefined behavior
and we do not use dynamic memory. In these cases we adjusted the API to our use case.
Most of the headers are providing some example code on how the
class should be used.
The module structure is a logical grouping. It is replicated for concurrent and posix implementations.
Memory & lifetime management (memory)
class
internal
description
unique_ptr
Provides a heap-less unique_ptr implementation, unlike the STL
RelativePointer
Pointer which can be stored in shared memory
relocatable_ptr
static_storage
i
Untyped aligned static storage.
ScopeGuard
This is an abstraction of the C++ RAII idiom. Sometimes you have constructs where you would like to perform a certain task on creation and then again when they are getting out of scope, this is where ScopeGuard comes in. It is like a std::lock_guard or a std::shared_ptr but more generic.
scoped_static
Helper function to limit lifetime of static or global variables to a scope
BumpAllocator
Implementation of a bump allocator
Container (container)
class
internal
description
vector
Heap and exception free implementation of std::vector
forward_list
Heap and exception free, relocatable implementation of std::forward_list
list
Heap and exception free, relocatable implementation of std::list
FixedPositionContainer
A fixed-position container is similar to a list but is optimized for iterating over its elements without the back-and-forth jumping that can occur during iteration in a list.
UninitializedArray
Wrapper class for an uninitialized C-style array which can be zeroed via a template parameter
Vocabulary types (vocabulary)
class
internal
description
not_null
Runtime check wrapper to make sure a pointer is not nullptr
optional
Implementation of std::optional
variant
Implementation of std::variant
expected
Our base class used in error handling. Every function which can fail should return an expected. With this the user knows that this function can fail and that they have to do some kind of error handling. We got inspired by the C++ expected proposal and by the rust error handling concept.
string
Heap and exception free implementation of std::string. Attention, since the string is stack based, std::string or char array which are assigned to this string will be truncated and zero-terminated if they exceed the string capacity.
span
Implementation of std::span
Filesystem (filesystem)
class
internal
description
filesystem
Implementation of C++17 filesystem features for instance iox::access_rights and iox::perms to abstract file permissions
PosixAcl
i
Interface for Access Control Lists (ACL).
FileLock
File lock C++ wrapping class.
FileReader
Wrapper for opening files and reading them.
Functional (functional)
class
internal
description
storable_function
i
A std::function alternative with configurable backend for memory storage.
function
A stack-based std::function replacement based on storable_function
function_ref
Implementation of std::function_ref see function_ref proposal. It behaves like std::function but does not own the callable.
Utility (utility)
class
internal
description
system_configuration
i
Collection of free functions which acquire system information like the page-size.
UniqueId
i
Monotonic increasing IDs within a process.
convert
i
Converting a number into a string is easy, converting it back can be hard. You can use functions like strtoll, but you still have to handle errors like under- and overflow, or converting invalid strings into number. Here we abstract all the error handling so that you can convert strings into numbers safely.
into
i
Scheduler
i
Supported schedulers and functions to get their priority range are contained here.
serialization
i
Implements a simple serialization concept for classes based on the idea presented here ISOCPP serialization.
Primitives (primitives)
class
internal
description
type_traits
Extended support for evaluating types on compile-time.
types
Declares essential building block types like byte.
attributes
C++20 and C++23 attributes are sometimes available through compiler extensions. The attribute macros defined in here make sure that we are able to use them if the compiler supports it.
algorithm
Implements min and max for an arbitrary number of values of the same type. For instance min(1,2,3,4,5);
size
Helper functions to determine the size in generic ways
Buffer (buffer)
class
internal
description
SpscFifo
i
Single producer, single consumer lock-free FiFo
MpmcLockfreeQueue
Multi producer, multi consumer lock-free FiFo with ringbuffer like overflow handling
MpmcLoFFLi
i
Lock-free LIFO based index manager (lock-free free list). One building block of our memory manager. After construction it contains the indices {0 ... n} which you can acquire and release.
SpscSofi
i
Single producer, single consumer lock-free safely overflowing FiFo (SpscSofi).
MpmcResizeableLockFreeQueue
Resizeable variant of the MpmcLockfreeQueue
stack
Stack implementation with simple push/pop interface.
Attribute overview of the available buffers
Data Structure
Shared Memory usable
Thread-Safe
Lock-Free
Concurrent Producers : Consumers
Bounded Capacity
Data Type Restriction
Use Case
SpscFifo
Yes
Yes
Yes
1:1
Yes
Copyable
FIFO Data transfer
MpmcLockfreeQueue
Yes
Yes
Yes
n:m
Yes
Copyable or Movable
lock-free transfer of arbitrary data between multiple contexts in FIFO order with overflow handling (ringbuffer)
MpmcLoFFLi
Yes
Yes
Yes
n:m
Yes
int32
manage memory access, LIFO order
SpscSofi
Yes
Yes
Yes
1:1
Yes
Trivially Copyable
lock-free transfer of small data (e.g. pointers) between two contexts in FIFO order with overflow handling (ringbuffer)
Shared memory based IPC channel. Mainly a UnixDomainSocket replacement on Windows.
PosixSharedMemoryObject
Creates and maps existing shared memory into the application.
PosixMemoryMap
i
Abstraction of mmap, munmap and helper class for the PosixSharedMemoryObject.
PosixSharedMemory
i
Abstraction of shared memory, see ManPage shm_overview and helper class for the PosixSharedMemoryObject.
Threads & sychronisation (sync)
class
internal
description
PeriodicTask
i
Periodically executes a callable specified by the template parameter in a configurable time interval.
smart_lock
Creates arbitrary thread-safe constructs which then can be used like smart pointers. If some STL type should be thread safe use the smart_lock to create the thread safe version in one line. Based on some ideas presented in Wrapping C++ Member Function Calls
Macro which generates a setter method useful for a builder pattern.
IOX_POSIX_CALL
Wrapper around C and POSIX function calls which performs a full error handling. Additionally, this wrapper makes sure that EINTR handling is performed correctly by repeating the system call.
functional_interface
Constructs to easily add functional interfaces like and_then to object container.
Static instance manager which solves the singleton lifetime problem.
PolymorphicHandler
Singleton handler with a default instance that can be changed at runtime.
Reporting (reporting)
The error handler is a central instance for collecting all errors and react to them. The error-handling.hpp contains a list of all error enum values. The error handler has different error levels, for more information see error-handling.md
For information about how to use the logger API see error-handling.md.
class
internal
description
errorHandler
Free function to call the error handler with a defined error and an error level, see header file for practical example.
ErrorHandler
i
error handler class only for testing purposes, should not be used directly
logger
requires
Base for IOX_EXPECTS/IOX_ENSURES from the C++ Core Guideline
Time (time)
Never use physical properties like speed or time directly as integer or float in your code.
Otherwise you encounter problems like this function void setTimeout(int timeout). What is the unit of the argument, seconds? minutes? If you use Duration you see it directly in the code.