Storage and Alignment of Structures
Structure members are stored sequentially in the order in which they are declared: the first member has the lowest memory address and the last member the highest.
Every data object has an alignment-requirement. For structures, the requirement is the largest of its members. Every object is allocated an offset so that
Adjacent bit fields are packed into the same 1-, 2-, or 4-byte allocation unit if the integral types are the same size and if the next bit field fits into the current allocation unit without crossing the boundary imposed by the common alignment requirements of the bit fields.
To conserve space or to conform to existing data structures, you may want to store structures more or less compactly. The /Zp[n] compiler option and the #pragma pack control how structure data is "packed" into memory. When you use the /Zp[n] option, where n is 1, 2, 4, 8, or 16, each structure member after the first is stored on byte boundaries that are either the alignment requirement of the field or the packing size (n), whichever is smaller. Expressed as a formula, the byte boundaries are the
min( n, sizeof( item ) )
where n is the packing size expressed with the /Zp[n] option and item is the structure member. The default packing size is /Zp8.
To use the
pack pragma to specify packing other than the packing specified on the command line for a particular structure, give the
pack pragma, where the packing size is 1, 2, 4, 8, or 16, before the structure. To reinstate the packing given on the command line, specify the
pack pragma with no arguments.
For the Microsoft C compiler, bit fields default to a size of 4 bytes, which is a
long data type. Structure members are aligned on the size of the type or the /Zp[n] size, whichever is smaller.
END Microsoft Specific