|Version 30 (modified by tibbe, 2 years ago) (diff)|
Primitive Operations (PrimOps)
PrimOps are functions that cannot be implemented in Haskell, and are provided natively by GHC. For example, adding two Int# values is provided as the PrimOp +#, and allocating a new mutable array is the PrimOp newArray#.
PrimOps are made available to Haskell code through the virtual module GHC.Prim. This module has no implementation, and its interface never resides on disk: if GHC.Prim is imported, we use a built-in ModIface value - see ghcPrimIface in compiler/iface/LoadIface.lhs.
It would also be useful to look at the Wired-in and known-key things wiki page to understand this topic.
The primops.txt.pp file
The file compiler/prelude/primops.txt.pp includes all the information the compiler needs to know about a PrimOp, bar its actual implementation. For each PrimOp, primops.txt.pp lists:
- Its name, as it appears in Haskell code (eg. int2Integer#)
- Its type
- The name of its constructor in GHC's PrimOp data type.
- Various properties, such as whether the operation is commutable, or has side effects.
For example, here's the integer multiplication PrimOp:
primop IntegerMulOp "timesInteger#" GenPrimOp Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #) with commutable = True out_of_line = True
The primops.txt.pp file is processed first by CPP, and then by the genprimopcode program (see utils/genprimopcode). genprimopcode generates the following bits from primops.txt.pp:
- Various files that are #included into compiler/prelude/PrimOp.lhs, containing declarations of data types and functions describing the PrimOps. See compiler/Makefile.
- libraries/base/GHC/PrimopWrappers.hs, a file that contains (curried) wrapper functions for each of the PrimOps, so that they are accessible from byte-code, and so that the byte-code interpreter doesn't need to implement any PrimOps at all: it just invokes the compiled ones from GHC.PrimopWrappers.
- libraries/base/GHC/Prim.hs, a source file containing dummy declarations for all the PrimOps, solely so that Haddock can include documentation for GHC.Prim in its documentation for the base package. The file GHC/Prim.hs is never actually compiled, only processed by Haddock.
Note that if you want to create a polymorphic primop, you need to return (# a #), not a.
Implementation of PrimOps
PrimOps are divided into two categories for the purposes of implementation: inline and out-of-line.
Inline PrimOps are operations that can be compiled into a short sequence of code that never needs to allocate, block, or return to the scheduler for any reason. An inline PrimOp is compiled directly into Cmm? by the code generator. The code for doing this is in compiler/codeGen/StgCmmPrim.hs.
All other PrimOps are classified as out-of-line, and are implemented by hand-written C-- code in the file rts/PrimOps.cmm. An out-of-line PrimOp is like a Haskell function, except that
- PrimOps cannot be partially applied. Calls to all PrimOps are made at the correct arity; this is ensured by the CorePrep? pass.
- Out-of-line PrimOps have a special, fixed, calling convention: all arguments are in the registers R1-R8. This is to make it easy to write the C-- code for these PrimOps: we don't have to write code for multiple calling conventions.
Foreign out-of-line PrimOps and foreign import prim
A new and somewhat more flexible form of out-of-line PrimOp is the foreign out-of-line PrimOp. These are essentially the same but instead of their Cmm code being included in the RTS, they can be defined in Cmm code in any package and instead of knowledge of the PrimOp being baked into the compiler, they can be imported using special FFI syntax:
foreign import prim "int2Integerzh" int2Integer# :: Int# -> (# Int#, ByteArray# #)
The string (e.g. "int2Integerzh") is the linker name of the Cmm function. Using this syntax requires the extensions ForeignFunctionInterface, GHCForeignImportPrim, MagicHash, UnboxedTuples and UnliftedFFITypes. The current type restriction is that all arguments and results must be unlifted types, with two additional possibilities: An argument may (since GHC 7.5) be of type Any (in which case the called function will receive a pointer to the heap), and the result type is allowed to be an unboxed tuple. The calling convention is exactly the same as for ordinary out-of-line primops. Currently it is not possible to specify any of the PrimOp attributes.
The integer-gmp package now uses this method for all the primops that deal with GMP big integer values. The advantage of using this technique is that it is a bit more modular. The RTS does not need to include all the primops. For example in the integer case the RTS no longer needs to link against the GMP C library.
The future direction is to extend this syntax to allow PrimOp attributes to be specified. The calling convention for primops and ordinary compiled Haskell functions may be unified in future and at that time it the restriction on using only unlifted types may be lifted.
It has been suggested that we extend this PrimOp definition and import method to cover all PrimOps, even inline ones. This would replace the current primops.txt.pp system of builtin PrimOps. The inline PrimOps would still be defined in the compiler but they would be imported in any module via foreign import prim rather than appearing magically to be exported from the GHC.Prim module. Hugs has used a similar system for years (with the syntax primitive seq :: a -> b -> b).
Adding a new PrimOp
To add a new primop, you currently need to update the following files:
- compiler/prelude/primops.txt.pp, which includes the type of the primop, and various other properties. Syntax and examples are in the file.
- if the primop is inline, then: compiler/codeGen/StgCmmPrim.hs defines the translation of the primop into Cmm.
- for an out-of-line primop:
- for a foreign out-of-line primop You do not need to modify the rts or compiler at all.
- yourpackage/cbits/primops.cmm: implement your primops here. You have to arrange for the .cmm file to be compiled and linked into the package. The GHC build system has support for this. Cabal does not yet.
- yourpackage/TheCode.hs: use foreign import prim to import the primops.
In addition, if new primtypes are being added, the following files need to be updated:
- utils/genprimopcode/Main.hs -- extend ppType :: Type -> String function
- compiler/prelude/PrelNames.lhs -- add a new unique id using mkPreludeTyConUnique
- compiler/prelude/TysPrim.lhs -- there are a raft of changes here; you need to create *PrimTy, *PrimTyCon and *PrimTyConName variables. The most important thing to make sure you get right is when you make a PrimTyCon, you pick the correct PrimRep for your type. For example, if you’ve introduced a new GC'able object, you should use PtrRep; however, if it's a pointer that shouldn't be GC'd, you should use AddrRep instead. The full list is in compiler/types/TyCon.lhs
See also AddingNewPrimitiveOperations, a blow-by-blow description of the process for adding a new out-of-line primop from someone who went through the process.
Explanation of attributes
TBV (To be verified)
default = False
default = False
Set to True if there is a function in PrimOps.cmm. This also changes to code generator to push the continuation of any follow on code onto the stack.
default = False
default = False
default = [lazyDmd, ... ] TopRes
This is the strictness of the PrimOp. Unboxed things should be marked as lazyDmd. (Someone explain why?).
default = nomangle other