Pragmas are directives that provide instructions to the compiler for use in specific cases. For example, you can use the novector pragma to specify that a loop should never be vectorized. The keyword #pragma is standard in the C++ language, but individual pragmas are machine-specific or operating system-specific, and vary by compiler.
Some pragmas provide the same functionality as compiler options. Pragmas override behavior specified by compiler options.
Some pragmas are available for both Intel® and non-Intel microprocessors but they may perform additional optimizations for Intel® microprocessors than they perform for non-Intel microprocessors. Refer to the individual pragma name for detailed description.
The Intel® oneAPI DPC++/C++ Compiler pragmas are categorized as follows:
Intel-specific Pragmas - pragmas developed or modified by Intel to work specifically with the Intel oneAPI DPC++/C++ Compiler
Intel Supported Pragmas - pragmas developed by external sources that are supported by the Intel oneAPI DPC++/C++ Compiler for compatibility reasons
You enter pragmas into your C++ source code using the following syntax:
#pragma <pragma name>
Each pragma description has the following details:
Section |
Description |
|---|---|
Short Description |
Contains a brief description of what the pragma does. |
Syntax |
Contains the pragma syntax. |
Arguments |
Contains a list of the arguments (parameters). |
Description |
Contains a detailed description of what the pragma does. |
Example |
Contains typical usage example/s. |
See Also |
Contains links or paths to other pragmas or related topics. |