9ec8eb952e
All checks were successful
rpcrypto-build / build (Release, hisiv510.toolchain.cmake) (push) Successful in 1m11s
rpcrypto-build / build (Debug, hisiv510.toolchain.cmake) (push) Successful in 1m22s
rpcrypto-build / build (Release, himix200.toolchain.cmake) (push) Successful in 1m27s
rpcrypto-build / build (Debug, himix200.toolchain.cmake) (push) Successful in 1m29s
linux-x64-gcc / linux-gcc (push) Successful in 1m55s
linux-hisiv500-gcc / linux-gcc-hisiv500 (push) Successful in 3m17s
rpcrypto-build / build (Release, hisiv510.toolchain.cmake) (pull_request) Successful in 1m9s
rpcrypto-build / build (Debug, himix200.toolchain.cmake) (pull_request) Successful in 1m14s
rpcrypto-build / build (Debug, hisiv510.toolchain.cmake) (pull_request) Successful in 1m20s
linux-x64-gcc / linux-gcc (pull_request) Successful in 1m24s
linux-mips64-gcc / linux-gcc-mips64el (push) Successful in 4m26s
linux-mips64-gcc / linux-gcc-mips64el (pull_request) Successful in 1m43s
rpcrypto-build / build (Release, himix200.toolchain.cmake) (pull_request) Successful in 1m55s
linux-hisiv500-gcc / linux-gcc-hisiv500 (pull_request) Successful in 4m8s
871 B
871 B
Database Connectors
Using sqlpp11 requires of three logical parts:
- The actual tables of a database are represented structs, usually generated by sql2cpp. These structs contain compile-time information about each colum such as name and data type.
- The core library provides SQL as embedded language for C++. It allows you to write SQL statements for those tables and analyse results in a compile-time checked manner.
- The connector library that allows you to connect to an actual database, send queries and obtain results.
Three connector libraries are included in this repository:
- MySQL / MariaDB
- sqlite3 / SQLCipher
- PostgreSQL
If you want to use other databases, you would have to write your own connector. Don't worry, it is not that hard.
The api is documented here.