aboutsummaryrefslogtreecommitdiff
path: root/target/riscv/insn16.decode
blob: 02c8f61b4814d317555e4b82d519bc147d0e907b (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
#
# RISC-V translation routines for the RVXI Base Integer Instruction Set.
#
# Copyright (c) 2018 Peer Adelt, peer.adelt@hni.uni-paderborn.de
#                    Bastian Koppelmann, kbastian@mail.uni-paderborn.de
#
# This program is free software; you can redistribute it and/or modify it
# under the terms and conditions of the GNU General Public License,
# version 2 or later, as published by the Free Software Foundation.
#
# This program is distributed in the hope it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
# more details.
#
# You should have received a copy of the GNU General Public License along with
# this program.  If not, see <http://www.gnu.org/licenses/>.

# Fields:
%rd        7:5
%rs1_3     7:3                !function=ex_rvc_register
%rs2_3     2:3                !function=ex_rvc_register
%rs2_5     2:5

# Immediates:
%imm_ci        12:s1 2:5
%nzuimm_ciw    7:4 11:2 5:1 6:1   !function=ex_shift_2
%uimm_cl_q     10:1 5:2 11:2      !function=ex_shift_4
%uimm_cl_d     5:2 10:3           !function=ex_shift_3
%uimm_cl_w     5:1 10:3 6:1       !function=ex_shift_2
%imm_cb        12:s1 5:2 2:1 10:2 3:2 !function=ex_shift_1
%imm_cj        12:s1 8:1 9:2 6:1 7:1 2:1 11:1 3:3 !function=ex_shift_1

%shimm_6bit   12:1 2:5               !function=ex_rvc_shifti
%uimm_6bit_lq 2:4 12:1 6:1           !function=ex_shift_4
%uimm_6bit_ld 2:3 12:1 5:2           !function=ex_shift_3
%uimm_6bit_lw 2:2 12:1 4:3           !function=ex_shift_2
%uimm_6bit_sq 7:4 11:2               !function=ex_shift_4
%uimm_6bit_sd 7:3 10:3               !function=ex_shift_3
%uimm_6bit_sw 7:2 9:4                !function=ex_shift_2

%imm_addi16sp  12:s1 3:2 5:1 2:1 6:1 !function=ex_shift_4
%imm_lui       12:s1 2:5             !function=ex_shift_12


# Argument sets imported from insn32.decode:
&empty                  !extern
&r         rd rs1 rs2   !extern
&i         imm rs1 rd   !extern
&s         imm rs1 rs2  !extern
&j         imm rd       !extern
&b         imm rs2 rs1  !extern
&u         imm rd       !extern
&shift     shamt rs1 rd !extern


# Formats 16:
@cr        ....  ..... .....  .. &r      rs2=%rs2_5       rs1=%rd     %rd
@ci        ... . ..... .....  .. &i      imm=%imm_ci      rs1=%rd     %rd
@cl_q      ... . .....  ..... .. &i      imm=%uimm_cl_q   rs1=%rs1_3  rd=%rs2_3
@cl_d      ... ... ... .. ... .. &i      imm=%uimm_cl_d   rs1=%rs1_3  rd=%rs2_3
@cl_w      ... ... ... .. ... .. &i      imm=%uimm_cl_w   rs1=%rs1_3  rd=%rs2_3
@cs_2      ... ... ... .. ... .. &r      rs2=%rs2_3       rs1=%rs1_3  rd=%rs1_3
@cs_q      ... ... ... .. ... .. &s      imm=%uimm_cl_q   rs1=%rs1_3  rs2=%rs2_3
@cs_d      ... ... ... .. ... .. &s      imm=%uimm_cl_d   rs1=%rs1_3  rs2=%rs2_3
@cs_w      ... ... ... .. ... .. &s      imm=%uimm_cl_w   rs1=%rs1_3  rs2=%rs2_3
@cj        ...    ........... .. &j      imm=%imm_cj
@cb_z      ... ... ... .. ... .. &b      imm=%imm_cb      rs1=%rs1_3  rs2=0

@c_lqsp    ... . .....  ..... .. &i      imm=%uimm_6bit_lq rs1=2 %rd
@c_ldsp    ... . .....  ..... .. &i      imm=%uimm_6bit_ld rs1=2 %rd
@c_lwsp    ... . .....  ..... .. &i      imm=%uimm_6bit_lw rs1=2 %rd
@c_sqsp    ... . .....  ..... .. &s      imm=%uimm_6bit_sq rs1=2 rs2=%rs2_5
@c_sdsp    ... . .....  ..... .. &s      imm=%uimm_6bit_sd rs1=2 rs2=%rs2_5
@c_swsp    ... . .....  ..... .. &s      imm=%uimm_6bit_sw rs1=2 rs2=%rs2_5
@c_li      ... . .....  ..... .. &i      imm=%imm_ci rs1=0 %rd
@c_lui     ... . .....  ..... .. &u      imm=%imm_lui %rd
@c_jalr    ... . .....  ..... .. &i      imm=0 rs1=%rd
@c_mv      ... . ..... .....  .. &i      imm=0 rs1=%rs2_5 %rd

@c_addi4spn     ... .  ..... ..... .. &i imm=%nzuimm_ciw rs1=2 rd=%rs2_3
@c_addi16sp     ... .  ..... ..... .. &i imm=%imm_addi16sp rs1=2 rd=2

@c_shift        ... . .. ... ..... .. \
                &shift rd=%rs1_3 rs1=%rs1_3 shamt=%shimm_6bit
@c_shift2       ... . .. ... ..... .. \
                &shift rd=%rd rs1=%rd shamt=%shimm_6bit

@c_andi         ... . .. ... ..... .. &i imm=%imm_ci rs1=%rs1_3 rd=%rs1_3

# *** RV32/64C Standard Extension (Quadrant 0) ***
{
  # Opcode of all zeros is illegal; rd != 0, nzuimm == 0 is reserved.
  illegal         000  000 000 00 --- 00
  addi            000  ... ... .. ... 00 @c_addi4spn
}
{
  lq              001  ... ... .. ... 00 @cl_q
  fld             001  ... ... .. ... 00 @cl_d
}
lw                010  ... ... .. ... 00 @cl_w
{
  sq              101  ... ... .. ... 00 @cs_q
  fsd             101  ... ... .. ... 00 @cs_d
}
sw                110  ... ... .. ... 00 @cs_w

# *** RV32C and RV64C specific Standard Extension (Quadrant 0) ***
{
  ld              011  ... ... .. ... 00 @cl_d
  flw             011  ... ... .. ... 00 @cl_w
}
{
  sd              111  ... ... .. ... 00 @cs_d
  fsw             111  ... ... .. ... 00 @cs_w
}

# *** RV32/64C Standard Extension (Quadrant 1) ***
addi              000 .  .....  ..... 01 @ci
addi              010 .  .....  ..... 01 @c_li
{
  illegal         011 0  -----  00000 01 # c.addi16sp and c.lui, RES nzimm=0
  addi            011 .  00010  ..... 01 @c_addi16sp
  lui             011 .  .....  ..... 01 @c_lui
}
srli              100 . 00 ...  ..... 01 @c_shift
srai              100 . 01 ...  ..... 01 @c_shift
andi              100 . 10 ...  ..... 01 @c_andi
sub               100 0 11 ... 00 ... 01 @cs_2
xor               100 0 11 ... 01 ... 01 @cs_2
or                100 0 11 ... 10 ... 01 @cs_2
and               100 0 11 ... 11 ... 01 @cs_2
jal               101     ........... 01 @cj    rd=0  # C.J
beq               110  ... ...  ..... 01 @cb_z
bne               111  ... ...  ..... 01 @cb_z

# *** RV64C and RV32C specific Standard Extension (Quadrant 1) ***
{
  c64_illegal     001 -  00000  ----- 01 # c.addiw, RES rd=0
  addiw           001 .  .....  ..... 01 @ci
  jal             001     ........... 01 @cj    rd=1  # C.JAL
}
subw              100 1 11 ... 00 ... 01 @cs_2
addw              100 1 11 ... 01 ... 01 @cs_2

# *** RV32/64C Standard Extension (Quadrant 2) ***
slli              000 .  .....  ..... 10 @c_shift2
{
  lq              001  ... ... .. ... 10 @c_lqsp
  fld             001 .  .....  ..... 10 @c_ldsp
}
{
  illegal         010 -  00000  ----- 10 # c.lwsp, RES rd=0
  lw              010 .  .....  ..... 10 @c_lwsp
}
{
  illegal         100 0  00000  00000 10 # c.jr, RES rs1=0
  jalr            100 0  .....  00000 10 @c_jalr rd=0  # C.JR
  addi            100 0  .....  ..... 10 @c_mv
}
{
  ebreak          100 1  00000  00000 10
  jalr            100 1  .....  00000 10 @c_jalr rd=1  # C.JALR
  add             100 1  .....  ..... 10 @cr
}
{
  sq              101  ... ... .. ... 10 @c_sqsp
  fsd             101   ......  ..... 10 @c_sdsp
}
sw                110 .  .....  ..... 10 @c_swsp

# *** RV32C and RV64C specific Standard Extension (Quadrant 2) ***
{
  c64_illegal     011 -  00000  ----- 10 # c.ldsp, RES rd=0
  ld              011 .  .....  ..... 10 @c_ldsp
  flw             011 .  .....  ..... 10 @c_lwsp
}
{
  sd              111 .  .....  ..... 10 @c_sdsp
  fsw             111 .  .....  ..... 10 @c_swsp
}