First of all if you have types such as uint16 defined, where are they defined? They are not standard types, so will be defined in some proprietary header - maybe yours or may be supplied by some third party library; in which case you have to ask yourself how portable that code is, and whether you are creating a dependency that might not make sense in some other application.
Another problem is that many libraries (ill-advisedly IMO) define such types with various names such as UINT16, uint16, U16 UI16 etc. that it becomes somewhat of a nightmare ensuring type agreement and avoiding name clashes. If such names are defined, they should ideally be placed in a namespace or given a library specific prefix to indicate what library they were defined for use with, for example
Since the ISO C99 standard library provides standard bit-length specific types in stdint.h, you should prefer their use over any defined in a proprietary or third-party header. These types have a
_t suffix, e.g.
uint16_t. In C++ they may be placed in the
std:: namespace (though that is not a given since the header was introduced in C99).
1] What is the use of/benefit in using a uint16 where an uint32 will also suffice(if, there is any)?
Apart from my earlier advice to prefer
uint16_t, there are at least two legitimate reasons to use length specific types:
- To match a specific hardware register width.
- To enforce a common and compatible API across different architectures.
2] Will there be any savings in memory usage in using shorter data types (considering data alignment)?
Possibly, but if memory is not your problem, that is not a good reason to use them. Worth considering perhaps for large data objects or arrays, but applying globally is seldom worth the effort.
3] If it is to save a few bytes of memory, is it something sensible to do in modern hardware?
See . "Modern hardware" however does not necessarily imply large resources; there are plenty of 32 bit ARM Cortex-M devices with only a few Kb of RAM for example. That is more about die space, cost and power consumption than it is about age of design or architecture.