xref: /freebsd/contrib/llvm-project/llvm/lib/Target/M68k/M68kInstrBits.td (revision 370e009188ba90c3290b1479aa06ec98b66e140a)
1//===-- M68kInstrBits.td - Bit Manipulation Instrs ---------*- tablegen -*-===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8///
9/// \file
10/// This file describes the bit manipulation instructions in the M68k
11/// architecture. Here is the current status of the file:
12///
13///  Machine:
14///
15///    BCHG    [ ]   BCLR    [ ]   BSET     [ ]   BTST     [~]
16///
17///  Map:
18///
19///   [ ] - was not touched at all
20///   [!] - requires extarnal stuff implemented
21///   [~] - in progress but usable
22///   [x] - done
23///
24//===----------------------------------------------------------------------===//
25
26//===----------------------------------------------------------------------===//
27// BTST
28//===----------------------------------------------------------------------===//
29
30/// ------------+---------+---------+---------+---------
31///  F  E  D  C | B  A  9 | 8  7  6 | 5  4  3 | 2  1  0
32/// ------------+---------+---------+---------+---------
33///  0  0  0  0 |   REG   | 1  0  0 |   MODE  |   REG
34/// ------------+---------+---------+---------+---------
35class MxBTSTEnc_R<MxEncMemOp dst_enc, string bitno_name> {
36  dag Value = (ascend
37    (descend 0b0000,
38      (operand "$"#bitno_name, 3),
39      0b100, dst_enc.EA
40    ),
41    dst_enc.Supplement
42  );
43}
44
45/// -------------------------------+---------+---------
46///  F  E  D  C  B  A  9  8 . 7  6 | 5  4  3 | 2  1  0
47/// -------------------------------+---------+---------
48///  0  0  0  0  1  0  0  0 . 0  0 |   MODE  |   REG
49/// ------------------------+------+---------+---------
50///  0  0  0  0  0  0  0  0 |        BIT NUMBER
51/// ------------------------+--------------------------
52class MxBTSTEnc_I<MxEncMemOp dst_enc, string bitno_name> {
53  dag Value = (ascend
54    (descend 0b0000100000, dst_enc.EA),
55    (descend 0b00000000, (operand "$"#bitno_name, 8)),
56    dst_enc.Supplement
57  );
58}
59
60let Defs = [CCR] in {
61class MxBTST_RR<MxType TYPE>
62    : MxInst<(outs), (ins TYPE.ROp:$dst, TYPE.ROp:$bitno), "btst\t$bitno, $dst",
63             [(set CCR, (MxBtst TYPE.VT:$dst, TYPE.VT:$bitno))]> {
64  let Inst = MxBTSTEnc_R<MxEncAddrMode_r<"dst">, "bitno">.Value;
65}
66
67class MxBTST_RI<MxType TYPE>
68    : MxInst<(outs), (ins TYPE.ROp:$dst, TYPE.IOp:$bitno), "btst\t$bitno, $dst",
69             [(set CCR, (MxBtst TYPE.VT:$dst, TYPE.IPat:$bitno))]> {
70  let Inst = MxBTSTEnc_I<MxEncAddrMode_r<"dst">, "bitno">.Value;
71}
72
73class MxBTST_MR<MxType TYPE, MxOperand MEMOpd, ComplexPattern MEMPat,
74                MxEncMemOp DST_ENC>
75    : MxInst<(outs), (ins MEMOpd:$dst, TYPE.ROp:$bitno), "btst\t$bitno, $dst",
76             [(set CCR, (MxBtst (TYPE.Load MEMPat:$dst), TYPE.VT:$bitno))]> {
77  let Inst = MxBTSTEnc_R<DST_ENC, "bitno">.Value;
78}
79
80class MxBTST_MI<MxType TYPE, MxOperand MEMOpd, ComplexPattern MEMPat,
81                MxEncMemOp DST_ENC>
82    : MxInst<(outs), (ins MEMOpd:$dst, TYPE.IOp:$bitno), "btst\t$bitno, $dst",
83             [(set CCR, (MxBtst (TYPE.Load MEMPat:$dst), TYPE.IPat:$bitno))]> {
84  let Inst = MxBTSTEnc_I<DST_ENC, "bitno">.Value;
85}
86} // Defs = [CCR]
87
88// Register BTST limited to 32 bits only
89def BTST32dd : MxBTST_RR<MxType32d>;
90def BTST32di : MxBTST_RI<MxType32d>;
91
92// Memory BTST limited to 8 bits only
93def BTST8jd : MxBTST_MR<MxType8d, MxType8.JOp, MxType8.JPat,
94                        MxEncAddrMode_j<"dst">>;
95def BTST8od : MxBTST_MR<MxType8d, MxType8.OOp, MxType8.OPat,
96                        MxEncAddrMode_o<"dst">>;
97def BTST8ed : MxBTST_MR<MxType8d, MxType8.EOp, MxType8.EPat,
98                        MxEncAddrMode_e<"dst">>;
99def BTST8pd : MxBTST_MR<MxType8d, MxType8.POp, MxType8.PPat,
100                        MxEncAddrMode_p<"dst">>;
101def BTST8fd : MxBTST_MR<MxType8d, MxType8.FOp, MxType8.FPat,
102                        MxEncAddrMode_f<"dst">>;
103def BTST8qd : MxBTST_MR<MxType8d, MxType8.QOp, MxType8.QPat,
104                        MxEncAddrMode_q<"dst">>;
105def BTST8kd : MxBTST_MR<MxType8d, MxType8.KOp, MxType8.KPat,
106                        MxEncAddrMode_k<"dst">>;
107
108def BTST8ji : MxBTST_MI<MxType8d, MxType8.JOp, MxType8.JPat,
109                        MxEncAddrMode_j<"dst">>;
110def BTST8oi : MxBTST_MI<MxType8d, MxType8.OOp, MxType8.OPat,
111                        MxEncAddrMode_o<"dst">>;
112def BTST8ei : MxBTST_MI<MxType8d, MxType8.EOp, MxType8.EPat,
113                        MxEncAddrMode_e<"dst">>;
114def BTST8pi : MxBTST_MI<MxType8d, MxType8.POp, MxType8.PPat,
115                        MxEncAddrMode_p<"dst">>;
116def BTST8fi : MxBTST_MI<MxType8d, MxType8.FOp, MxType8.FPat,
117                        MxEncAddrMode_f<"dst">>;
118def BTST8qi : MxBTST_MI<MxType8d, MxType8.QOp, MxType8.QPat,
119                        MxEncAddrMode_q<"dst">>;
120def BTST8ki : MxBTST_MI<MxType8d, MxType8.KOp, MxType8.KPat,
121                        MxEncAddrMode_k<"dst">>;
122