1
0
mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-24 03:33:20 +01:00
llvm-mirror/lib/Target/SystemZ/SystemZ.h
Jonas Paulsson 92dfdbb7d5 [SystemZ] Copy Access registers and CC with the correct register class.
On SystemZ there are a set of "access registers" that can be copied in and
out of 32-bit GPRs with special instructions. These instructions can only
perform the copy using low 32-bit parts of the 64-bit GPRs. However, the
default register class for 32-bit integers is GRX32, which also contains the
high 32-bit part registers.

In order to never end up with a case of such a COPY into a high reg, this
patch adds a new simple pre-RA pass that selects such COPYs into target
instructions.

This pass also handles COPYs from CC (Condition Code register), and COPYs to
CC can now also be emitted from a high reg in copyPhysReg().

Fixes: https://bugs.llvm.org/show_bug.cgi?id=44254

Review: Ulrich Weigand.

Differential Revision: https://reviews.llvm.org/D75014
2020-03-03 16:41:09 +01:00

202 lines
8.2 KiB
C++

//==- SystemZ.h - Top-Level Interface for SystemZ representation -*- C++ -*-==//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file contains the entry points for global functions defined in
// the LLVM SystemZ backend.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_LIB_TARGET_SYSTEMZ_SYSTEMZ_H
#define LLVM_LIB_TARGET_SYSTEMZ_SYSTEMZ_H
#include "MCTargetDesc/SystemZMCTargetDesc.h"
#include "llvm/Support/CodeGen.h"
namespace llvm {
class SystemZTargetMachine;
class FunctionPass;
namespace SystemZ {
// Condition-code mask values.
const unsigned CCMASK_0 = 1 << 3;
const unsigned CCMASK_1 = 1 << 2;
const unsigned CCMASK_2 = 1 << 1;
const unsigned CCMASK_3 = 1 << 0;
const unsigned CCMASK_ANY = CCMASK_0 | CCMASK_1 | CCMASK_2 | CCMASK_3;
// Condition-code mask assignments for integer and floating-point
// comparisons.
const unsigned CCMASK_CMP_EQ = CCMASK_0;
const unsigned CCMASK_CMP_LT = CCMASK_1;
const unsigned CCMASK_CMP_GT = CCMASK_2;
const unsigned CCMASK_CMP_NE = CCMASK_CMP_LT | CCMASK_CMP_GT;
const unsigned CCMASK_CMP_LE = CCMASK_CMP_EQ | CCMASK_CMP_LT;
const unsigned CCMASK_CMP_GE = CCMASK_CMP_EQ | CCMASK_CMP_GT;
// Condition-code mask assignments for floating-point comparisons only.
const unsigned CCMASK_CMP_UO = CCMASK_3;
const unsigned CCMASK_CMP_O = CCMASK_ANY ^ CCMASK_CMP_UO;
// All condition-code values produced by comparisons.
const unsigned CCMASK_ICMP = CCMASK_0 | CCMASK_1 | CCMASK_2;
const unsigned CCMASK_FCMP = CCMASK_0 | CCMASK_1 | CCMASK_2 | CCMASK_3;
// Condition-code mask assignments for arithmetical operations.
const unsigned CCMASK_ARITH_EQ = CCMASK_0;
const unsigned CCMASK_ARITH_LT = CCMASK_1;
const unsigned CCMASK_ARITH_GT = CCMASK_2;
const unsigned CCMASK_ARITH_OVERFLOW = CCMASK_3;
const unsigned CCMASK_ARITH = CCMASK_ANY;
// Condition-code mask assignments for logical operations.
const unsigned CCMASK_LOGICAL_ZERO = CCMASK_0 | CCMASK_2;
const unsigned CCMASK_LOGICAL_NONZERO = CCMASK_1 | CCMASK_3;
const unsigned CCMASK_LOGICAL_CARRY = CCMASK_2 | CCMASK_3;
const unsigned CCMASK_LOGICAL_NOCARRY = CCMASK_0 | CCMASK_1;
const unsigned CCMASK_LOGICAL_BORROW = CCMASK_LOGICAL_NOCARRY;
const unsigned CCMASK_LOGICAL_NOBORROW = CCMASK_LOGICAL_CARRY;
const unsigned CCMASK_LOGICAL = CCMASK_ANY;
// Condition-code mask assignments for CS.
const unsigned CCMASK_CS_EQ = CCMASK_0;
const unsigned CCMASK_CS_NE = CCMASK_1;
const unsigned CCMASK_CS = CCMASK_0 | CCMASK_1;
// Condition-code mask assignments for a completed SRST loop.
const unsigned CCMASK_SRST_FOUND = CCMASK_1;
const unsigned CCMASK_SRST_NOTFOUND = CCMASK_2;
const unsigned CCMASK_SRST = CCMASK_1 | CCMASK_2;
// Condition-code mask assignments for TEST UNDER MASK.
const unsigned CCMASK_TM_ALL_0 = CCMASK_0;
const unsigned CCMASK_TM_MIXED_MSB_0 = CCMASK_1;
const unsigned CCMASK_TM_MIXED_MSB_1 = CCMASK_2;
const unsigned CCMASK_TM_ALL_1 = CCMASK_3;
const unsigned CCMASK_TM_SOME_0 = CCMASK_TM_ALL_1 ^ CCMASK_ANY;
const unsigned CCMASK_TM_SOME_1 = CCMASK_TM_ALL_0 ^ CCMASK_ANY;
const unsigned CCMASK_TM_MSB_0 = CCMASK_0 | CCMASK_1;
const unsigned CCMASK_TM_MSB_1 = CCMASK_2 | CCMASK_3;
const unsigned CCMASK_TM = CCMASK_ANY;
// Condition-code mask assignments for TRANSACTION_BEGIN.
const unsigned CCMASK_TBEGIN_STARTED = CCMASK_0;
const unsigned CCMASK_TBEGIN_INDETERMINATE = CCMASK_1;
const unsigned CCMASK_TBEGIN_TRANSIENT = CCMASK_2;
const unsigned CCMASK_TBEGIN_PERSISTENT = CCMASK_3;
const unsigned CCMASK_TBEGIN = CCMASK_ANY;
// Condition-code mask assignments for TRANSACTION_END.
const unsigned CCMASK_TEND_TX = CCMASK_0;
const unsigned CCMASK_TEND_NOTX = CCMASK_2;
const unsigned CCMASK_TEND = CCMASK_TEND_TX | CCMASK_TEND_NOTX;
// Condition-code mask assignments for vector comparisons (and similar
// operations).
const unsigned CCMASK_VCMP_ALL = CCMASK_0;
const unsigned CCMASK_VCMP_MIXED = CCMASK_1;
const unsigned CCMASK_VCMP_NONE = CCMASK_3;
const unsigned CCMASK_VCMP = CCMASK_0 | CCMASK_1 | CCMASK_3;
// Condition-code mask assignments for Test Data Class.
const unsigned CCMASK_TDC_NOMATCH = CCMASK_0;
const unsigned CCMASK_TDC_MATCH = CCMASK_1;
const unsigned CCMASK_TDC = CCMASK_TDC_NOMATCH | CCMASK_TDC_MATCH;
// The position of the low CC bit in an IPM result.
const unsigned IPM_CC = 28;
// Mask assignments for PFD.
const unsigned PFD_READ = 1;
const unsigned PFD_WRITE = 2;
// Mask assignments for TDC
const unsigned TDCMASK_ZERO_PLUS = 0x800;
const unsigned TDCMASK_ZERO_MINUS = 0x400;
const unsigned TDCMASK_NORMAL_PLUS = 0x200;
const unsigned TDCMASK_NORMAL_MINUS = 0x100;
const unsigned TDCMASK_SUBNORMAL_PLUS = 0x080;
const unsigned TDCMASK_SUBNORMAL_MINUS = 0x040;
const unsigned TDCMASK_INFINITY_PLUS = 0x020;
const unsigned TDCMASK_INFINITY_MINUS = 0x010;
const unsigned TDCMASK_QNAN_PLUS = 0x008;
const unsigned TDCMASK_QNAN_MINUS = 0x004;
const unsigned TDCMASK_SNAN_PLUS = 0x002;
const unsigned TDCMASK_SNAN_MINUS = 0x001;
const unsigned TDCMASK_ZERO = TDCMASK_ZERO_PLUS | TDCMASK_ZERO_MINUS;
const unsigned TDCMASK_POSITIVE = TDCMASK_NORMAL_PLUS |
TDCMASK_SUBNORMAL_PLUS |
TDCMASK_INFINITY_PLUS;
const unsigned TDCMASK_NEGATIVE = TDCMASK_NORMAL_MINUS |
TDCMASK_SUBNORMAL_MINUS |
TDCMASK_INFINITY_MINUS;
const unsigned TDCMASK_NAN = TDCMASK_QNAN_PLUS |
TDCMASK_QNAN_MINUS |
TDCMASK_SNAN_PLUS |
TDCMASK_SNAN_MINUS;
const unsigned TDCMASK_PLUS = TDCMASK_POSITIVE |
TDCMASK_ZERO_PLUS |
TDCMASK_QNAN_PLUS |
TDCMASK_SNAN_PLUS;
const unsigned TDCMASK_MINUS = TDCMASK_NEGATIVE |
TDCMASK_ZERO_MINUS |
TDCMASK_QNAN_MINUS |
TDCMASK_SNAN_MINUS;
const unsigned TDCMASK_ALL = TDCMASK_PLUS | TDCMASK_MINUS;
// Number of bits in a vector register.
const unsigned VectorBits = 128;
// Number of bytes in a vector register (and consequently the number of
// bytes in a general permute vector).
const unsigned VectorBytes = VectorBits / 8;
// Return true if Val fits an LLILL operand.
static inline bool isImmLL(uint64_t Val) {
return (Val & ~0x000000000000ffffULL) == 0;
}
// Return true if Val fits an LLILH operand.
static inline bool isImmLH(uint64_t Val) {
return (Val & ~0x00000000ffff0000ULL) == 0;
}
// Return true if Val fits an LLIHL operand.
static inline bool isImmHL(uint64_t Val) {
return (Val & ~0x00000ffff00000000ULL) == 0;
}
// Return true if Val fits an LLIHH operand.
static inline bool isImmHH(uint64_t Val) {
return (Val & ~0xffff000000000000ULL) == 0;
}
// Return true if Val fits an LLILF operand.
static inline bool isImmLF(uint64_t Val) {
return (Val & ~0x00000000ffffffffULL) == 0;
}
// Return true if Val fits an LLIHF operand.
static inline bool isImmHF(uint64_t Val) {
return (Val & ~0xffffffff00000000ULL) == 0;
}
} // end namespace SystemZ
FunctionPass *createSystemZISelDag(SystemZTargetMachine &TM,
CodeGenOpt::Level OptLevel);
FunctionPass *createSystemZElimComparePass(SystemZTargetMachine &TM);
FunctionPass *createSystemZShortenInstPass(SystemZTargetMachine &TM);
FunctionPass *createSystemZLongBranchPass(SystemZTargetMachine &TM);
FunctionPass *createSystemZLDCleanupPass(SystemZTargetMachine &TM);
FunctionPass *createSystemZCopyPhysRegsPass(SystemZTargetMachine &TM);
FunctionPass *createSystemZPostRewritePass(SystemZTargetMachine &TM);
FunctionPass *createSystemZTDCPass();
} // end namespace llvm
#endif