The register that points to the current location in the call-stack. Details vary by CPU architecture, but implicit use by push/pop instructions is common. (Please also include an architecture tag!)
CPU architectures that use a call-stack usually have an integer register dedicated to holding a pointer to the boundary between in-use and free stack space.
It's common to call this the "top" of the stack, even though it's the lowest/bottom address on most systems. (Having the stack grow downward while the heap grows upward is a very common convention (see also this Q&A). Diagrams of stack layouts get drawn either way—some with the high address at the top, and others with the low address at the top—so double-check that your terminology matches what you're reading or modifying.
NOTE: The term "stack pointer" only applies to a call-stack used as part of function call/return and/or saving of call-preserved registers for nested function calls, and making space (aka a stack frame) for local variables in a function.
It does not refer to to pointers into other stack data-structures used more generally.
The use of a stack pointer conveniently enables recursion and re-entrant functions (compared to static storage). See this MIPS Q&A.
Some architectures (e.g. x86) hard-wire the choice into the design by having interrupt-handlers use the stack-pointer register implicitly to push context onto the stack. x86 also has many instructions that implicitly use the stack pointer (like
ret), but those could be avoided if desired. However, there's no way around having a valid value in at least the kernel's
[e/r]sp for interrupts.
Other architectures (notably mips) only use a specific register as the stack pointer by convention (i.e., the ABI/calling convention), and a different ABI could use a different register as the stack pointer with no loss of efficiency. Or even use no traditional stack at all, even for interrupt handling.
The stack pointer on various architectures:
rsp: one of the 8 (or 16 in 64-bit mode) integer registers usable as a source or destination of any instruction.
sp-relative addressing modes don't exist, 16-bit code is forced to copy the stack pointer to another register to access stack memory other than with push/pop. By convention, the
bpregister is used to hold this copy.)
spis a synonym for
r13. ARM switches register banks on interrupts instead of writing to memory through a stack pointer, but some ARM CPUs do implicitly use the stack pointer for interrupt context-saving in some situations.
spis not a general-purpose register anymore, and there's no push-multiple, only one or a pair (and no mnemonic alias).
- mips: Standard MIPS assembly language has aliases for most of the registers that correspond to their uses in the standard / recommended calling convention.
$spis an alias for
r1is used as the stack pointer in the common PowerPC ABI
%spis an alias for
%o6, register number 14. It and
%i6are involved in the sliding register-window stuff that SPARC does, instead of being global registers managed separately. See Understanding stacks and registers in the Sparc architecture(s).
- itanium: Two stack pointers:
spfor automatic storage, and a second stack for spilling registers when the microarchitecture runs out of physical registers for the register-window mechanism. It looks somewhat similar to SPARC.
SP(composed of two 8-bit halves,
SPL) is separate from the thirty-two 8-bit general-purpose registers. It can be used implicitly for push/pop, but only read/written directly as an I/O port. (Unlike three other 16-bit pointers composed of pairs of GP registers).
In general, questions should also be tagged with one of these architecture-specific tags!