llvm-project/llvm/lib/Target/WebAssembly/WebAssemblyInstrInteger.td

132 lines
6.4 KiB
TableGen

// WebAssemblyInstrInteger.td-WebAssembly Integer codegen -------*- tablegen -*-
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// WebAssembly Integer operand code-gen constructs.
///
//===----------------------------------------------------------------------===//
multiclass UnaryInt<SDNode node, string name, bits<32> i32Inst,
bits<32> i64Inst> {
defm _I32 : I<(outs I32:$dst), (ins I32:$src), (outs), (ins),
[(set I32:$dst, (node I32:$src))],
!strconcat("i32.", !strconcat(name, "\t$dst, $src")),
!strconcat("i32.", name), i32Inst>;
defm _I64 : I<(outs I64:$dst), (ins I64:$src), (outs), (ins),
[(set I64:$dst, (node I64:$src))],
!strconcat("i64.", !strconcat(name, "\t$dst, $src")),
!strconcat("i64.", name), i64Inst>;
}
multiclass BinaryInt<SDNode node, string name, bits<32> i32Inst,
bits<32> i64Inst> {
defm _I32 : I<(outs I32:$dst), (ins I32:$lhs, I32:$rhs), (outs), (ins),
[(set I32:$dst, (node I32:$lhs, I32:$rhs))],
!strconcat("i32.", !strconcat(name, "\t$dst, $lhs, $rhs")),
!strconcat("i32.", name), i32Inst>;
defm _I64 : I<(outs I64:$dst), (ins I64:$lhs, I64:$rhs), (outs), (ins),
[(set I64:$dst, (node I64:$lhs, I64:$rhs))],
!strconcat("i64.", !strconcat(name, "\t$dst, $lhs, $rhs")),
!strconcat("i64.", name), i64Inst>;
}
multiclass ComparisonInt<CondCode cond, string name, bits<32> i32Inst, bits<32> i64Inst> {
defm _I32 : I<(outs I32:$dst), (ins I32:$lhs, I32:$rhs), (outs), (ins),
[(set I32:$dst, (setcc I32:$lhs, I32:$rhs, cond))],
!strconcat("i32.", !strconcat(name, "\t$dst, $lhs, $rhs")),
!strconcat("i32.", name), i32Inst>;
defm _I64 : I<(outs I32:$dst), (ins I64:$lhs, I64:$rhs), (outs), (ins),
[(set I32:$dst, (setcc I64:$lhs, I64:$rhs, cond))],
!strconcat("i64.", !strconcat(name, "\t$dst, $lhs, $rhs")),
!strconcat("i64.", name), i64Inst>;
}
// The spaces after the names are for aesthetic purposes only, to make
// operands line up vertically after tab expansion.
let isCommutable = 1 in
defm ADD : BinaryInt<add, "add ", 0x6a, 0x7c>;
defm SUB : BinaryInt<sub, "sub ", 0x6b, 0x7d>;
let isCommutable = 1 in
defm MUL : BinaryInt<mul, "mul ", 0x6c, 0x7e>;
// Divide and remainder trap on a zero denominator.
let hasSideEffects = 1 in {
defm DIV_S : BinaryInt<sdiv, "div_s", 0x6d, 0x7f>;
defm DIV_U : BinaryInt<udiv, "div_u", 0x6e, 0x80>;
defm REM_S : BinaryInt<srem, "rem_s", 0x6f, 0x81>;
defm REM_U : BinaryInt<urem, "rem_u", 0x70, 0x82>;
} // hasSideEffects = 1
let isCommutable = 1 in {
defm AND : BinaryInt<and, "and ", 0x71, 0x83>;
defm OR : BinaryInt<or, "or ", 0x72, 0x84>;
defm XOR : BinaryInt<xor, "xor ", 0x73, 0x85>;
} // isCommutable = 1
defm SHL : BinaryInt<shl, "shl ", 0x74, 0x86>;
defm SHR_S : BinaryInt<sra, "shr_s", 0x75, 0x87>;
defm SHR_U : BinaryInt<srl, "shr_u", 0x76, 0x88>;
defm ROTL : BinaryInt<rotl, "rotl", 0x77, 0x89>;
defm ROTR : BinaryInt<rotr, "rotr", 0x78, 0x8a>;
let isCommutable = 1 in {
defm EQ : ComparisonInt<SETEQ, "eq ", 0x46, 0x51>;
defm NE : ComparisonInt<SETNE, "ne ", 0x47, 0x52>;
} // isCommutable = 1
defm LT_S : ComparisonInt<SETLT, "lt_s", 0x48, 0x53>;
defm LT_U : ComparisonInt<SETULT, "lt_u", 0x49, 0x54>;
defm GT_S : ComparisonInt<SETGT, "gt_s", 0x4a, 0x55>;
defm GT_U : ComparisonInt<SETUGT, "gt_u", 0x4b, 0x56>;
defm LE_S : ComparisonInt<SETLE, "le_s", 0x4c, 0x57>;
defm LE_U : ComparisonInt<SETULE, "le_u", 0x4d, 0x58>;
defm GE_S : ComparisonInt<SETGE, "ge_s", 0x4e, 0x59>;
defm GE_U : ComparisonInt<SETUGE, "ge_u", 0x4f, 0x5a>;
defm CLZ : UnaryInt<ctlz, "clz ", 0x67, 0x79>;
defm CTZ : UnaryInt<cttz, "ctz ", 0x68, 0x7a>;
defm POPCNT : UnaryInt<ctpop, "popcnt", 0x69, 0x7b>;
defm EQZ_I32 : I<(outs I32:$dst), (ins I32:$src), (outs), (ins),
[(set I32:$dst, (setcc I32:$src, 0, SETEQ))],
"i32.eqz \t$dst, $src", "i32.eqz", 0x45>;
defm EQZ_I64 : I<(outs I32:$dst), (ins I64:$src), (outs), (ins),
[(set I32:$dst, (setcc I64:$src, 0, SETEQ))],
"i64.eqz \t$dst, $src", "i64.eqz", 0x50>;
// Optimize away an explicit mask on a rotate count.
def : Pat<(rotl I32:$lhs, (and I32:$rhs, 31)), (ROTL_I32 I32:$lhs, I32:$rhs)>;
def : Pat<(rotr I32:$lhs, (and I32:$rhs, 31)), (ROTR_I32 I32:$lhs, I32:$rhs)>;
def : Pat<(rotl I64:$lhs, (and I64:$rhs, 63)), (ROTL_I64 I64:$lhs, I64:$rhs)>;
def : Pat<(rotr I64:$lhs, (and I64:$rhs, 63)), (ROTR_I64 I64:$lhs, I64:$rhs)>;
defm SELECT_I32 : I<(outs I32:$dst), (ins I32:$lhs, I32:$rhs, I32:$cond),
(outs), (ins),
[(set I32:$dst, (select I32:$cond, I32:$lhs, I32:$rhs))],
"i32.select\t$dst, $lhs, $rhs, $cond", "i32.select", 0x1b>;
defm SELECT_I64 : I<(outs I64:$dst), (ins I64:$lhs, I64:$rhs, I32:$cond),
(outs), (ins),
[(set I64:$dst, (select I32:$cond, I64:$lhs, I64:$rhs))],
"i64.select\t$dst, $lhs, $rhs, $cond", "i64.select", 0x1b>;
// ISD::SELECT requires its operand to conform to getBooleanContents, but
// WebAssembly's select interprets any non-zero value as true, so we can fold
// a setne with 0 into a select.
def : Pat<(select (i32 (setne I32:$cond, 0)), I32:$lhs, I32:$rhs),
(SELECT_I32 I32:$lhs, I32:$rhs, I32:$cond)>;
def : Pat<(select (i32 (setne I32:$cond, 0)), I64:$lhs, I64:$rhs),
(SELECT_I64 I64:$lhs, I64:$rhs, I32:$cond)>;
// And again, this time with seteq instead of setne and the arms reversed.
def : Pat<(select (i32 (seteq I32:$cond, 0)), I32:$lhs, I32:$rhs),
(SELECT_I32 I32:$rhs, I32:$lhs, I32:$cond)>;
def : Pat<(select (i32 (seteq I32:$cond, 0)), I64:$lhs, I64:$rhs),
(SELECT_I64 I64:$rhs, I64:$lhs, I32:$cond)>;
// The legalizer inserts an unnecessary `and 1` to make input conform
// to getBooleanContents, which we can lower away.
def : Pat<(select (i32 (and I32:$cond, 1)), I32:$lhs, I32:$rhs),
(SELECT_I32 I32:$lhs, I32:$rhs, I32:$cond)>;
def : Pat<(select (i32 (and I32:$cond, 1)), I64:$lhs, I64:$rhs),
(SELECT_I64 I64:$lhs, I64:$rhs, I32:$cond)>;