| //===--- arm_neon_incl.td - ARM NEON compiler interface ------------------------===// |
| // |
| // The LLVM Compiler Infrastructure |
| // |
| // This file is distributed under the University of Illinois Open Source |
| // License. See LICENSE.TXT for details. |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // This file defines data structures shared by arm_neon.td and arm_fp16.td. |
| // It constains base operation classes, operations, instructions, instruction |
| // modifiers, etc. |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // Each intrinsic is a subclass of the Inst class. An intrinsic can either |
| // generate a __builtin_* call or it can expand to a set of generic operations. |
| // |
| // The operations are subclasses of Operation providing a list of DAGs, the |
| // last of which is the return value. The available DAG nodes are documented |
| // below. |
| // |
| //===----------------------------------------------------------------------===// |
| |
| // The base Operation class. All operations must subclass this. |
| class Operation<list<dag> ops=[]> { |
| list<dag> Ops = ops; |
| bit Unavailable = 0; |
| } |
| // An operation that only contains a single DAG. |
| class Op<dag op> : Operation<[op]>; |
| // A shorter version of Operation - takes a list of DAGs. The last of these will |
| // be the return value. |
| class LOp<list<dag> ops> : Operation<ops>; |
| |
| // These defs and classes are used internally to implement the SetTheory |
| // expansion and should be ignored. |
| foreach Index = 0-63 in |
| def sv##Index; |
| class MaskExpand; |
| |
| //===----------------------------------------------------------------------===// |
| // Available operations |
| //===----------------------------------------------------------------------===// |
| |
| // DAG arguments can either be operations (documented below) or variables. |
| // Variables are prefixed with '$'. There are variables for each input argument, |
| // with the name $pN, where N starts at zero. So the zero'th argument will be |
| // $p0, the first $p1 etc. |
| |
| // op - Binary or unary operator, depending on the number of arguments. The |
| // operator itself is just treated as a raw string and is not checked. |
| // example: (op "+", $p0, $p1) -> "__p0 + __p1". |
| // (op "-", $p0) -> "-__p0" |
| def op; |
| // call - Invoke another intrinsic. The input types are type checked and |
| // disambiguated. If there is no intrinsic defined that takes |
| // the given types (or if there is a type ambiguity) an error is |
| // generated at tblgen time. The name of the intrinsic is the raw |
| // name as given to the Inst class (not mangled). |
| // example: (call "vget_high", $p0) -> "vgetq_high_s16(__p0)" |
| // (assuming $p0 has type int16x8_t). |
| def call; |
| // cast - Perform a cast to a different type. This gets emitted as a static |
| // C-style cast. For a pure reinterpret cast (T x = *(T*)&y), use |
| // "bitcast". |
| // |
| // The syntax is (cast MOD* VAL). The last argument is the value to |
| // cast, preceded by a sequence of type modifiers. The target type |
| // starts off as the type of VAL, and is modified by MOD in sequence. |
| // The available modifiers are: |
| // - $X - Take the type of parameter/variable X. For example: |
| // (cast $p0, $p1) would cast $p1 to the type of $p0. |
| // - "R" - The type of the return type. |
| // - A typedef string - A NEON or stdint.h type that is then parsed. |
| // for example: (cast "uint32x4_t", $p0). |
| // - "U" - Make the type unsigned. |
| // - "S" - Make the type signed. |
| // - "H" - Halve the number of lanes in the type. |
| // - "D" - Double the number of lanes in the type. |
| // - "8" - Convert type to an equivalent vector of 8-bit signed |
| // integers. |
| // example: (cast "R", "U", $p0) -> "(uint32x4_t)__p0" (assuming the return |
| // value is of type "int32x4_t". |
| // (cast $p0, "D", "8", $p1) -> "(int8x16_t)__p1" (assuming __p0 |
| // has type float64x1_t or any other vector type of 64 bits). |
| // (cast "int32_t", $p2) -> "(int32_t)__p2" |
| def cast; |
| // bitcast - Same as "cast", except a reinterpret-cast is produced: |
| // (bitcast "T", $p0) -> "*(T*)&__p0". |
| // The VAL argument is saved to a temporary so it can be used |
| // as an l-value. |
| def bitcast; |
| // dup - Take a scalar argument and create a vector by duplicating it into |
| // all lanes. The type of the vector is the base type of the intrinsic. |
| // example: (dup $p1) -> "(uint32x2_t) {__p1, __p1}" (assuming the base type |
| // is uint32x2_t). |
| def dup; |
| // splat - Take a vector and a lane index, and return a vector of the same type |
| // containing repeated instances of the source vector at the lane index. |
| // example: (splat $p0, $p1) -> |
| // "__builtin_shufflevector(__p0, __p0, __p1, __p1, __p1, __p1)" |
| // (assuming __p0 has four elements). |
| def splat; |
| // save_temp - Create a temporary (local) variable. The variable takes a name |
| // based on the zero'th parameter and can be referenced using |
| // using that name in subsequent DAGs in the same |
| // operation. The scope of a temp is the operation. If a variable |
| // with the given name already exists, an error will be given at |
| // tblgen time. |
| // example: [(save_temp $var, (call "foo", $p0)), |
| // (op "+", $var, $p1)] -> |
| // "int32x2_t __var = foo(__p0); return __var + __p1;" |
| def save_temp; |
| // name_replace - Return the name of the current intrinsic with the first |
| // argument replaced by the second argument. Raises an error if |
| // the first argument does not exist in the intrinsic name. |
| // example: (call (name_replace "_high_", "_"), $p0) (to call the non-high |
| // version of this intrinsic). |
| def name_replace; |
| // literal - Create a literal piece of code. The code is treated as a raw |
| // string, and must be given a type. The type is a stdint.h or |
| // NEON intrinsic type as given to (cast). |
| // example: (literal "int32_t", "0") |
| def literal; |
| // shuffle - Create a vector shuffle. The syntax is (shuffle ARG0, ARG1, MASK). |
| // The MASK argument is a set of elements. The elements are generated |
| // from the two special defs "mask0" and "mask1". "mask0" expands to |
| // the lane indices in sequence for ARG0, and "mask1" expands to |
| // the lane indices in sequence for ARG1. They can be used as-is, e.g. |
| // |
| // (shuffle $p0, $p1, mask0) -> $p0 |
| // (shuffle $p0, $p1, mask1) -> $p1 |
| // |
| // or, more usefully, they can be manipulated using the SetTheory |
| // operators plus some extra operators defined in the NEON emitter. |
| // The operators are described below. |
| // example: (shuffle $p0, $p1, (add (highhalf mask0), (highhalf mask1))) -> |
| // A concatenation of the high halves of the input vectors. |
| def shuffle; |
| |
| // add, interleave, decimate: These set operators are vanilla SetTheory |
| // operators and take their normal definition. |
| def add; |
| def interleave; |
| def decimate; |
| // rotl - Rotate set left by a number of elements. |
| // example: (rotl mask0, 3) -> [3, 4, 5, 6, 0, 1, 2] |
| def rotl; |
| // rotl - Rotate set right by a number of elements. |
| // example: (rotr mask0, 3) -> [4, 5, 6, 0, 1, 2, 3] |
| def rotr; |
| // highhalf - Take only the high half of the input. |
| // example: (highhalf mask0) -> [4, 5, 6, 7] (assuming mask0 had 8 elements) |
| def highhalf; |
| // highhalf - Take only the low half of the input. |
| // example: (lowhalf mask0) -> [0, 1, 2, 3] (assuming mask0 had 8 elements) |
| def lowhalf; |
| // rev - Perform a variable-width reversal of the elements. The zero'th argument |
| // is a width in bits to reverse. The lanes this maps to is determined |
| // based on the element width of the underlying type. |
| // example: (rev 32, mask0) -> [3, 2, 1, 0, 7, 6, 5, 4] (if 8-bit elements) |
| // example: (rev 32, mask0) -> [1, 0, 3, 2] (if 16-bit elements) |
| def rev; |
| // mask0 - The initial sequence of lanes for shuffle ARG0 |
| def mask0 : MaskExpand; |
| // mask0 - The initial sequence of lanes for shuffle ARG1 |
| def mask1 : MaskExpand; |
| |
| def OP_NONE : Operation; |
| def OP_UNAVAILABLE : Operation { |
| let Unavailable = 1; |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Instruction definitions |
| //===----------------------------------------------------------------------===// |
| |
| // Every intrinsic subclasses "Inst". An intrinsic has a name, a prototype and |
| // a sequence of typespecs. |
| // |
| // The name is the base name of the intrinsic, for example "vget_lane". This is |
| // then mangled by the tblgen backend to add type information ("vget_lane_s16"). |
| // |
| // A typespec is a sequence of uppercase characters (modifiers) followed by one |
| // lowercase character. A typespec encodes a particular "base type" of the |
| // intrinsic. |
| // |
| // An example typespec is "Qs" - quad-size short - uint16x8_t. The available |
| // typespec codes are given below. |
| // |
| // The string given to an Inst class is a sequence of typespecs. The intrinsic |
| // is instantiated for every typespec in the sequence. For example "sdQsQd". |
| // |
| // The prototype is a string that defines the return type of the intrinsic |
| // and the type of each argument. The return type and every argument gets a |
| // "modifier" that can change in some way the "base type" of the intrinsic. |
| // |
| // The modifier 'd' means "default" and does not modify the base type in any |
| // way. The available modifiers are given below. |
| // |
| // Typespecs |
| // --------- |
| // c: char |
| // s: short |
| // i: int |
| // l: long |
| // k: 128-bit long |
| // f: float |
| // h: half-float |
| // d: double |
| // |
| // Typespec modifiers |
| // ------------------ |
| // S: scalar, only used for function mangling. |
| // U: unsigned |
| // Q: 128b |
| // H: 128b without mangling 'q' |
| // P: polynomial |
| // |
| // Prototype modifiers |
| // ------------------- |
| // prototype: return (arg, arg, ...) |
| // |
| // v: void |
| // t: best-fit integer (int/poly args) |
| // x: signed integer (int/float args) |
| // u: unsigned integer (int/float args) |
| // f: float (int args) |
| // F: double (int args) |
| // H: half (int args) |
| // d: default |
| // g: default, ignore 'Q' size modifier. |
| // j: default, force 'Q' size modifier. |
| // w: double width elements, same num elts |
| // n: double width elements, half num elts |
| // h: half width elements, double num elts |
| // q: half width elements, quad num elts |
| // e: half width elements, double num elts, unsigned |
| // m: half width elements, same num elts |
| // i: constant int |
| // l: constant uint64 |
| // s: scalar of element type |
| // z: scalar of half width element type, signed |
| // r: scalar of double width element type, signed |
| // a: scalar of element type (splat to vector type) |
| // b: scalar of unsigned integer/long type (int/float args) |
| // $: scalar of signed integer/long type (int/float args) |
| // y: scalar of float |
| // o: scalar of double |
| // k: default elt width, double num elts |
| // 2,3,4: array of default vectors |
| // B,C,D: array of default elts, force 'Q' size modifier. |
| // p: pointer type |
| // c: const pointer type |
| // 7: vector of 8-bit elements, ignore 'Q' size modifier |
| // 8: vector of 8-bit elements, same width as default type |
| // 9: vector of 8-bit elements, force 'Q' size modifier |
| |
| // Every intrinsic subclasses Inst. |
| class Inst <string n, string p, string t, Operation o> { |
| string Name = n; |
| string Prototype = p; |
| string Types = t; |
| string ArchGuard = ""; |
| |
| Operation Operation = o; |
| bit CartesianProductOfTypes = 0; |
| bit BigEndianSafe = 0; |
| bit isShift = 0; |
| bit isScalarShift = 0; |
| bit isScalarNarrowShift = 0; |
| bit isVCVT_N = 0; |
| // For immediate checks: the immediate will be assumed to specify the lane of |
| // a Q register. Only used for intrinsics which end up calling polymorphic |
| // builtins. |
| bit isLaneQ = 0; |
| |
| // Certain intrinsics have different names than their representative |
| // instructions. This field allows us to handle this correctly when we |
| // are generating tests. |
| string InstName = ""; |
| |
| // Certain intrinsics even though they are not a WOpInst or LOpInst, |
| // generate a WOpInst/LOpInst instruction (see below for definition |
| // of a WOpInst/LOpInst). For testing purposes we need to know |
| // this. Ex: vset_lane which outputs vmov instructions. |
| bit isHiddenWInst = 0; |
| bit isHiddenLInst = 0; |
| } |
| |
| // The following instruction classes are implemented via builtins. |
| // These declarations are used to generate Builtins.def: |
| // |
| // SInst: Instruction with signed/unsigned suffix (e.g., "s8", "u8", "p8") |
| // IInst: Instruction with generic integer suffix (e.g., "i8") |
| // WInst: Instruction with only bit size suffix (e.g., "8") |
| class SInst<string n, string p, string t> : Inst<n, p, t, OP_NONE> {} |
| class IInst<string n, string p, string t> : Inst<n, p, t, OP_NONE> {} |
| class WInst<string n, string p, string t> : Inst<n, p, t, OP_NONE> {} |
| |
| // The following instruction classes are implemented via operators |
| // instead of builtins. As such these declarations are only used for |
| // the purpose of generating tests. |
| // |
| // SOpInst: Instruction with signed/unsigned suffix (e.g., "s8", |
| // "u8", "p8"). |
| // IOpInst: Instruction with generic integer suffix (e.g., "i8"). |
| // WOpInst: Instruction with bit size only suffix (e.g., "8"). |
| // LOpInst: Logical instruction with no bit size suffix. |
| // NoTestOpInst: Intrinsic that has no corresponding instruction. |
| class SOpInst<string n, string p, string t, Operation o> : Inst<n, p, t, o> {} |
| class IOpInst<string n, string p, string t, Operation o> : Inst<n, p, t, o> {} |
| class WOpInst<string n, string p, string t, Operation o> : Inst<n, p, t, o> {} |
| class LOpInst<string n, string p, string t, Operation o> : Inst<n, p, t, o> {} |
| class NoTestOpInst<string n, string p, string t, Operation o> : Inst<n, p, t, o> {} |