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/*=======================================================================================*/
/* This Sail RISC-V architecture model, comprising all files and */
/* directories except where otherwise noted is subject the BSD */
/* two-clause license in the LICENSE file. */
/* */
/* SPDX-License-Identifier: BSD-2-Clause */
/*=======================================================================================*/
union clause ast = C_LBU : (bits(2), cregidx, cregidx)
mapping clause encdec_compressed =
C_LBU(uimm1 @ uimm0, rdc, rs1c) if haveZcb()
<-> 0b100 @ 0b000 @ rs1c : cregidx @ uimm0 : bits(1) @ uimm1 : bits(1) @ rdc : cregidx @ 0b00 if haveZcb()
mapping clause assembly = C_LBU(uimm, rdc, rs1c) <->
"c.lbu" ^ spc() ^ creg_name(rdc) ^ sep() ^ hex_bits_2(uimm) ^ opt_spc() ^ "(" ^ opt_spc() ^ creg_name(rs1c) ^ opt_spc() ^ ")"
function clause execute C_LBU(uimm, rdc, rs1c) = {
let imm : bits(12) = zero_extend(uimm);
let rd = creg2reg_idx(rdc);
let rs1 = creg2reg_idx(rs1c);
execute(LOAD(imm, rs1, rd, true, BYTE, false, false))
}
/* ****************************************************************** */
union clause ast = C_LHU : (bits(2), cregidx, cregidx)
mapping clause encdec_compressed =
C_LHU(uimm1 @ 0b0, rdc, rs1c) if haveZcb()
<-> 0b100 @ 0b001 @ rs1c : cregidx @ 0b0 @ uimm1 : bits(1) @ rdc : cregidx @ 0b00 if haveZcb()
mapping clause assembly = C_LHU(uimm, rdc, rs1c) <->
"c.lhu" ^ spc() ^ creg_name(rdc) ^ sep() ^ hex_bits_2(uimm) ^ opt_spc() ^ "(" ^ opt_spc() ^ creg_name(rs1c) ^ opt_spc() ^ ")"
function clause execute C_LHU(uimm, rdc, rs1c) = {
let imm : bits(12) = zero_extend(uimm);
let rd = creg2reg_idx(rdc);
let rs1 = creg2reg_idx(rs1c);
execute(LOAD(imm, rs1, rd, true, HALF, false, false))
}
/* ****************************************************************** */
union clause ast = C_LH : (bits(2), cregidx, cregidx)
mapping clause encdec_compressed =
C_LH(uimm1 @ 0b0, rdc, rs1c) if haveZcb()
<-> 0b100 @ 0b001 @ rs1c : cregidx @ 0b1 @ uimm1 : bits(1) @ rdc : cregidx @ 0b00 if haveZcb()
mapping clause assembly = C_LH(uimm, rdc, rs1c) <->
"c.lh" ^ spc() ^ creg_name(rdc) ^ sep() ^ hex_bits_2(uimm) ^ opt_spc() ^ "(" ^ opt_spc() ^ creg_name(rs1c) ^ opt_spc() ^ ")"
function clause execute C_LH(uimm, rdc, rs1c) = {
let imm : bits(12) = zero_extend(uimm);
let rd = creg2reg_idx(rdc);
let rs1 = creg2reg_idx(rs1c);
execute(LOAD(imm, rs1, rd, false, HALF, false, false))
}
/* ****************************************************************** */
union clause ast = C_SB : (bits(2), cregidx, cregidx)
mapping clause encdec_compressed =
C_SB(uimm1 @ uimm0, rs1c, rs2c) if haveZcb()
<-> 0b100 @ 0b010 @ rs1c : cregidx @ uimm0 : bits(1) @ uimm1 : bits(1) @ rs2c @ 0b00 if haveZcb()
mapping clause assembly = C_SB(uimm, rs1c, rs2c) <->
"c.sb" ^ spc() ^ creg_name(rs2c) ^ sep() ^ hex_bits_2(uimm) ^ opt_spc() ^ "(" ^ opt_spc() ^ creg_name(rs1c) ^ opt_spc() ^ ")"
function clause execute C_SB(uimm, rs1c, rs2c) = {
let imm : bits(12) = zero_extend(uimm);
let rs1 = creg2reg_idx(rs1c);
let rs2 = creg2reg_idx(rs2c);
execute(STORE(imm, rs2, rs1, BYTE, false, false))
}
/* ****************************************************************** */
union clause ast = C_SH : (bits(2), cregidx, cregidx)
mapping clause encdec_compressed =
C_SH(uimm1 @ 0b0, rs1c, rs2c) if haveZcb()
<-> 0b100 @ 0b011 @ rs1c : cregidx @ 0b0 @ uimm1 : bits(1) @ rs2c : cregidx @ 0b00 if haveZcb()
mapping clause assembly = C_SH(uimm, rs1c, rs2c) <->
"c.sh" ^ spc() ^ creg_name(rs1c) ^ sep() ^ hex_bits_2(uimm) ^ opt_spc() ^ "(" ^ opt_spc() ^ creg_name(rs2c) ^ opt_spc() ^ ")"
function clause execute C_SH(uimm, rs1c, rs2c) = {
let imm : bits(12) = zero_extend(uimm);
let rs1 = creg2reg_idx(rs1c);
let rs2 = creg2reg_idx(rs2c);
execute(STORE(imm, rs2, rs1, HALF, false, false))
}
/* ****************************************************************** */
union clause ast = C_ZEXT_B : (cregidx)
mapping clause encdec_compressed =
C_ZEXT_B(rsdc) if haveZcb()
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b000 @ 0b01 if haveZcb()
mapping clause assembly = C_ZEXT_B(rsdc) <->
"c.zext.b" ^ spc() ^ creg_name(rsdc)
function clause execute C_ZEXT_B(rsdc) = {
let rsd = creg2reg_idx(rsdc);
X(rsd) = zero_extend(X(rsd)[7..0]);
RETIRE_SUCCESS
}
/* ****************************************************************** */
union clause ast = C_SEXT_B : (cregidx)
mapping clause encdec_compressed =
C_SEXT_B(rsdc) if haveZcb() & haveZbb()
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b001 @ 0b01 if haveZcb() & haveZbb()
mapping clause assembly = C_SEXT_B(rsdc) <->
"c.sext.b" ^ spc() ^ creg_name(rsdc)
function clause execute C_SEXT_B(rsdc) = {
let rsd = creg2reg_idx(rsdc);
execute(ZBB_EXTOP(rsd, rsd, RISCV_SEXTB))
}
/* ****************************************************************** */
union clause ast = C_ZEXT_H : (cregidx)
mapping clause encdec_compressed =
C_ZEXT_H(rsdc) if haveZcb() & haveZbb()
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b010 @ 0b01 if haveZcb() & haveZbb()
mapping clause assembly = C_ZEXT_H(rsdc) <->
"c.zext.h" ^ spc() ^ creg_name(rsdc)
function clause execute C_ZEXT_H(rsdc) = {
let rsd = creg2reg_idx(rsdc);
execute(ZBB_EXTOP(rsd, rsd, RISCV_ZEXTH))
}
/* ****************************************************************** */
union clause ast = C_SEXT_H : (cregidx)
mapping clause encdec_compressed =
C_SEXT_H(rsdc) if haveZcb() & haveZbb()
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b011 @ 0b01 if haveZcb() & haveZbb()
mapping clause assembly = C_SEXT_H(rsdc) <->
"c.sext.h" ^ spc() ^ creg_name(rsdc)
function clause execute C_SEXT_H(rsdc) = {
let rsd = creg2reg_idx(rsdc);
execute(ZBB_EXTOP(rsd, rsd, RISCV_SEXTH))
}
/* ****************************************************************** */
union clause ast = C_ZEXT_W : (cregidx)
mapping clause encdec_compressed =
C_ZEXT_W(rsdc) if haveZcb() & haveZba() & sizeof(xlen) == 64
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b100 @ 0b01 if haveZcb() & haveZba() & sizeof(xlen) == 64
mapping clause assembly = C_ZEXT_W(rsdc) <->
"c.zext.w" ^ spc() ^ creg_name(rsdc)
function clause execute C_ZEXT_W(rsdc) = {
let rsd = creg2reg_idx(rsdc);
execute (ZBA_RTYPEUW(0b00000, rsd, rsd, RISCV_ADDUW)) // Note 0b00000 is the regidx of the zero register
}
/* ****************************************************************** */
union clause ast = C_NOT : (cregidx)
mapping clause encdec_compressed =
C_NOT(rsdc) if haveZcb()
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b11 @ 0b101 @ 0b01 if haveZcb()
mapping clause assembly = C_NOT(rsdc) <->
"c.not" ^ spc() ^ creg_name(rsdc)
function clause execute C_NOT(rsdc) = {
let r = creg2reg_idx(rsdc);
X(r) = ~(X(r));
RETIRE_SUCCESS
}
/* ****************************************************************** */
union clause ast = C_MUL : (cregidx, cregidx)
mapping clause encdec_compressed =
C_MUL(rsdc, rs2c) if haveZcb() & (haveMulDiv() | haveZmmul())
<-> 0b100 @ 0b111 @ rsdc : cregidx @ 0b10 @ rs2c : cregidx @ 0b01 if haveZcb() & (haveMulDiv() | haveZmmul())
mapping clause assembly = C_MUL(rsdc, rs2c) <->
"c.mul" ^ spc() ^ creg_name(rsdc) ^ sep() ^ creg_name(rs2c)
function clause execute C_MUL(rsdc, rs2c) = {
let rd = creg2reg_idx(rsdc);
let rs = creg2reg_idx(rs2c);
execute(MUL(rs, rd, rd, struct { high = false, signed_rs1 = true, signed_rs2 = true }))
}
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