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asmrv32.h
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asmrv32.h
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/*
* This file is part of the MicroPython project, https://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2024 Alessandro Gatti
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef MICROPY_INCLUDED_PY_ASMRV32_H
#define MICROPY_INCLUDED_PY_ASMRV32_H
#include <assert.h>
#include "py/asmbase.h"
#include "py/emit.h"
#include "py/misc.h"
#include "py/persistentcode.h"
#define ASM_RV32_REG_X0 (0) // Zero
#define ASM_RV32_REG_X1 (1) // RA
#define ASM_RV32_REG_X2 (2) // SP
#define ASM_RV32_REG_X3 (3) // GP
#define ASM_RV32_REG_X4 (4) // TP
#define ASM_RV32_REG_X5 (5) // T0
#define ASM_RV32_REG_X6 (6) // T1
#define ASM_RV32_REG_X7 (7) // T2
#define ASM_RV32_REG_X8 (8) // S0
#define ASM_RV32_REG_X9 (9) // S1
#define ASM_RV32_REG_X10 (10) // A0
#define ASM_RV32_REG_X11 (11) // A1
#define ASM_RV32_REG_X12 (12) // A2
#define ASM_RV32_REG_X13 (13) // A3
#define ASM_RV32_REG_X14 (14) // A4
#define ASM_RV32_REG_X15 (15) // A5
#define ASM_RV32_REG_X16 (16) // A6
#define ASM_RV32_REG_X17 (17) // A7
#define ASM_RV32_REG_X18 (18) // S2
#define ASM_RV32_REG_X19 (19) // S3
#define ASM_RV32_REG_X20 (20) // S4
#define ASM_RV32_REG_X21 (21) // S5
#define ASM_RV32_REG_X22 (22) // S6
#define ASM_RV32_REG_X23 (23) // S7
#define ASM_RV32_REG_X24 (24) // S8
#define ASM_RV32_REG_X25 (25) // S9
#define ASM_RV32_REG_X26 (26) // S10
#define ASM_RV32_REG_X27 (27) // S11
#define ASM_RV32_REG_X28 (28) // T3
#define ASM_RV32_REG_X29 (29) // T4
#define ASM_RV32_REG_X30 (30) // T5
#define ASM_RV32_REG_X31 (31) // T6
// Alternate register names.
#define ASM_RV32_REG_ZERO (ASM_RV32_REG_X0)
#define ASM_RV32_REG_RA (ASM_RV32_REG_X1)
#define ASM_RV32_REG_SP (ASM_RV32_REG_X2)
#define ASM_RV32_REG_GP (ASM_RV32_REG_X3)
#define ASM_RV32_REG_TP (ASM_RV32_REG_X4)
#define ASM_RV32_REG_T0 (ASM_RV32_REG_X5)
#define ASM_RV32_REG_T1 (ASM_RV32_REG_X6)
#define ASM_RV32_REG_T2 (ASM_RV32_REG_X7)
#define ASM_RV32_REG_A0 (ASM_RV32_REG_X10)
#define ASM_RV32_REG_A1 (ASM_RV32_REG_X11)
#define ASM_RV32_REG_A2 (ASM_RV32_REG_X12)
#define ASM_RV32_REG_A3 (ASM_RV32_REG_X13)
#define ASM_RV32_REG_A4 (ASM_RV32_REG_X14)
#define ASM_RV32_REG_A5 (ASM_RV32_REG_X15)
#define ASM_RV32_REG_A6 (ASM_RV32_REG_X16)
#define ASM_RV32_REG_A7 (ASM_RV32_REG_X17)
#define ASM_RV32_REG_T3 (ASM_RV32_REG_X28)
#define ASM_RV32_REG_T4 (ASM_RV32_REG_X29)
#define ASM_RV32_REG_T5 (ASM_RV32_REG_X30)
#define ASM_RV32_REG_T6 (ASM_RV32_REG_X31)
#define ASM_RV32_REG_FP (ASM_RV32_REG_X8)
#define ASM_RV32_REG_S0 (ASM_RV32_REG_X8)
#define ASM_RV32_REG_S1 (ASM_RV32_REG_X9)
#define ASM_RV32_REG_S2 (ASM_RV32_REG_X18)
#define ASM_RV32_REG_S3 (ASM_RV32_REG_X19)
#define ASM_RV32_REG_S4 (ASM_RV32_REG_X20)
#define ASM_RV32_REG_S5 (ASM_RV32_REG_X21)
#define ASM_RV32_REG_S6 (ASM_RV32_REG_X22)
#define ASM_RV32_REG_S7 (ASM_RV32_REG_X23)
#define ASM_RV32_REG_S8 (ASM_RV32_REG_X24)
#define ASM_RV32_REG_S9 (ASM_RV32_REG_X25)
#define ASM_RV32_REG_S10 (ASM_RV32_REG_X26)
#define ASM_RV32_REG_S11 (ASM_RV32_REG_X27)
typedef struct _asm_rv32_t {
// Opaque emitter state.
mp_asm_base_t base;
// Which registers are tainted and need saving/restoring.
mp_uint_t saved_registers_mask;
// How many locals must be stored on the stack.
mp_uint_t locals_count;
// The computed function stack size.
mp_uint_t stack_size;
// The stack offset where stack-based locals start to be stored.
mp_uint_t locals_stack_offset;
} asm_rv32_t;
void asm_rv32_entry(asm_rv32_t *state, mp_uint_t locals);
void asm_rv32_exit(asm_rv32_t *state);
void asm_rv32_end_pass(asm_rv32_t *state);
////////////////////////////////////////////////////////////////////////////////
#define RV32_ENCODE_TYPE_B(op, ft3, rs1, rs2, imm) \
((op & 0x7F) | ((ft3 & 0x07) << 12) | ((imm & 0x800) >> 4) | \
((imm & 0x1E) << 7) | ((rs1 & 0x1F) << 15) | ((rs2 & 0x1F) << 20) | \
((imm & 0x7E0) << 20) | ((imm & 0x1000) << 19))
#define RV32_ENCODE_TYPE_I(op, ft3, rd, rs, imm) \
((op & 0x7F) | ((rd & 0x1F) << 7) | ((ft3 & 0x07) << 12) | \
((rs & 0x1F) << 15) | ((imm & 0xFFF) << 20))
#define RV32_ENCODE_TYPE_J(op, rd, imm) \
((op & 0x7F) | ((rd & 0x1F) << 7) | (imm & 0xFF000) | \
((imm & 0x800) << 9) | ((imm & 0x7FE) << 20) | ((imm & 0x100000) << 11))
#define RV32_ENCODE_TYPE_R(op, ft3, ft7, rd, rs1, rs2) \
((op & 0x7F) | ((rd & 0x1F) << 7) | ((ft3 & 0x07) << 12) | \
((rs1 & 0x1F) << 15) | ((rs2 & 0x1F) << 20) | ((ft7 & 0x7F) << 25))
#define RV32_ENCODE_TYPE_S(op, ft3, rs1, rs2, imm) \
((op & 0x7F) | ((imm & 0x1F) << 7) | ((ft3 & 0x07) << 12) | \
((rs1 & 0x1F) << 15) | ((rs2 & 0x1F) << 20) | ((imm & 0xFE0) << 20))
#define RV32_ENCODE_TYPE_U(op, rd, imm) \
((op & 0x7F) | ((rd & 0x1F) << 7) | (imm & 0xFFFFF000))
#define RV32_ENCODE_TYPE_CB(op, ft3, rs, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((rs & 0x07) << 7) | \
(((imm) & 0x100) << 4) | (((imm) & 0xC0) >> 1) | (((imm) & 0x20) >> 3) | \
(((imm) & 0x18) << 7) | (((imm) & 0x06) << 2))
#define RV32_ENCODE_TYPE_CI(op, ft3, rd, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((rd & 0x1F) << 7) | \
(((imm) & 0x20) << 7) | (((imm) & 0x1F) << 2))
#define RV32_ENCODE_TYPE_CIW(op, ft3, rd, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((rd & 0x07) << 2) | \
((imm & 0x3C0) << 1) | ((imm & 0x30) << 7) | \
((imm & 0x08) << 2) | ((imm & 0x04) << 4))
#define RV32_ENCODE_TYPE_CJ(op, ft3, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((imm & 0x0E) << 2) | \
((imm & 0x300) << 1) | ((imm & 0x800) << 1) | ((imm & 0x400) >> 2) | \
((imm & 0x80) >> 1) | ((imm & 0x40) << 1) | ((imm & 0x20) >> 3) | \
((imm & 0x10) << 7))
#define RV32_ENCODE_TYPE_CL(op, ft3, rd, rs, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((rd & 0x07) << 2) | \
((rs & 0x07) << 7) | ((imm & 0x40) >> 1) | ((imm & 0x38) << 7) | \
((imm & 0x04) << 4))
#define RV32_ENCODE_TYPE_CR(op, ft4, rs1, rs2) \
((op & 0x03) | ((rs2 & 0x1F) << 2) | ((rs1 & 0x1F) << 7) | ((ft4 & 0x0F) << 12))
#define RV32_ENCODE_TYPE_CSS(op, ft3, rs, imm) \
((op & 0x03) | ((ft3 & 0x07) << 13) | ((rs & 0x1F) << 2) | ((imm) & 0x3F) << 7)
void asm_rv32_emit_word_opcode(asm_rv32_t *state, mp_uint_t opcode);
void asm_rv32_emit_halfword_opcode(asm_rv32_t *state, mp_uint_t opcode);
// ADD RD, RS1, RS2
static inline void asm_rv32_opcode_add(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 000 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x00, 0x00, rd, rs1, rs2));
}
// ADDI RD, RS, IMMEDIATE
static inline void asm_rv32_opcode_addi(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t immediate) {
// I: ............ ..... 000 ..... 0010011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x13, 0x00, rd, rs, immediate));
}
// AND RD, RS1, RS2
static inline void asm_rv32_opcode_and(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 111 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x07, 0x00, rd, rs1, rs2));
}
// AUIPC RD, offset
static inline void asm_rv32_opcode_auipc(asm_rv32_t *state, mp_uint_t rd, mp_int_t offset) {
// U: .................... ..... 0010111
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_U(0x17, rd, offset));
}
// BEQ RS1, RS2, OFFSET
static inline void asm_rv32_opcode_beq(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_int_t offset) {
// B: . ...... ..... ..... 000 .... . 1100011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_B(0x63, 0x00, rs1, rs2, offset));
}
// BNE RS1, RS2, OFFSET
static inline void asm_rv32_opcode_bne(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_int_t offset) {
// B: . ...... ..... ..... 001 .... . 1100011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_B(0x63, 0x01, rs1, rs2, offset));
}
// C.ADD RD, RS
static inline void asm_rv32_opcode_cadd(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs) {
// CR: 1001 ..... ..... 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CR(0x02, 0x09, rd, rs));
}
// C.ADDI RD, IMMEDIATE
static inline void asm_rv32_opcode_caddi(asm_rv32_t *state, mp_uint_t rd, mp_int_t immediate) {
// CI: 000 . ..... ..... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CI(0x01, 0x00, rd, immediate));
}
// C.ADDI4SPN RD', IMMEDIATE
static inline void asm_rv32_opcode_caddi4spn(asm_rv32_t *state, mp_uint_t rd, mp_uint_t immediate) {
// CIW: 000 ........ ... 00
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CIW(0x00, 0x00, rd, immediate));
}
// C.BEQZ RS', IMMEDIATE
static inline void asm_rv32_opcode_cbeqz(asm_rv32_t *state, mp_uint_t rs, mp_int_t offset) {
// CB: 110 ... ... ..... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CB(0x01, 0x06, rs, offset));
}
// C.BNEZ RS', IMMEDIATE
static inline void asm_rv32_opcode_cbnez(asm_rv32_t *state, mp_uint_t rs, mp_int_t offset) {
// CB: 111 ... ... ..... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CB(0x01, 0x07, rs, offset));
}
// C.J OFFSET
static inline void asm_rv32_opcode_cj(asm_rv32_t *state, mp_int_t offset) {
// CJ: 101 ........... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CJ(0x01, 0x05, offset));
}
// C.JALR RS
static inline void asm_rv32_opcode_cjalr(asm_rv32_t *state, mp_uint_t rs) {
// CR: 1001 ..... 00000 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CR(0x02, 0x09, rs, 0));
}
// C.JR RS
static inline void asm_rv32_opcode_cjr(asm_rv32_t *state, mp_uint_t rs) {
// CR: 1000 ..... 00000 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CR(0x02, 0x08, rs, 0));
}
// C.LI RD, IMMEDIATE
static inline void asm_rv32_opcode_cli(asm_rv32_t *state, mp_uint_t rd, mp_int_t immediate) {
// CI: 010 . ..... ..... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CI(0x01, 0x02, rd, immediate));
}
// C.LUI RD, IMMEDIATE
static inline void asm_rv32_opcode_clui(asm_rv32_t *state, mp_uint_t rd, mp_int_t immediate) {
// CI: 011 . ..... ..... 01
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CI(0x01, 0x03, rd, immediate >> 12));
}
// C.LW RD', OFFSET(RS')
static inline void asm_rv32_opcode_clw(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset) {
// CL: 010 ... ... .. ... 00
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CL(0x00, 0x02, rd, rs, offset));
}
// C.LWSP RD, OFFSET
static inline void asm_rv32_opcode_clwsp(asm_rv32_t *state, mp_uint_t rd, mp_uint_t offset) {
// CI: 010 . ..... ..... 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CI(0x02, 0x02, rd, ((offset & 0xC0) >> 6) | (offset & 0x3C)));
}
// C.MV RD, RS
static inline void asm_rv32_opcode_cmv(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs) {
// CR: 1000 ..... ..... 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CR(0x02, 0x08, rd, rs));
}
// C.SWSP RS, OFFSET
static inline void asm_rv32_opcode_cswsp(asm_rv32_t *state, mp_uint_t rs, mp_uint_t offset) {
// CSS: 010 ...... ..... 10
asm_rv32_emit_halfword_opcode(state, RV32_ENCODE_TYPE_CSS(0x02, 0x06, rs, ((offset & 0xC0) >> 6) | (offset & 0x3C)));
}
// JALR RD, RS, offset
static inline void asm_rv32_opcode_jalr(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset) {
// I: ............ ..... 000 ..... 1100111
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x67, 0x00, rd, rs, offset));
}
// LBU RD, OFFSET(RS)
static inline void asm_rv32_opcode_lbu(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset) {
// I: ............ ..... 100 ..... 0000011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x03, 0x04, rd, rs, offset));
}
// LHU RD, OFFSET(RS)
static inline void asm_rv32_opcode_lhu(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset) {
// I: ............ ..... 101 ..... 0000011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x03, 0x05, rd, rs, offset));
}
// LUI RD, immediate
static inline void asm_rv32_opcode_lui(asm_rv32_t *state, mp_uint_t rd, mp_int_t immediate) {
// U: .................... ..... 0110111
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_U(0x37, rd, immediate));
}
// LW RD, OFFSET(RS)
static inline void asm_rv32_opcode_lw(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset) {
// I: ............ ..... 010 ..... 0000011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x03, 0x02, rd, rs, offset));
}
// MUL RD, RS1, RS2
static inline void asm_rv32_opcode_mul(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000001 ..... ..... 000 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x00, 0x01, rd, rs1, rs2));
}
// OR RD, RS1, RS2
static inline void asm_rv32_opcode_or(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 110 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x06, 0x00, rd, rs1, rs2));
}
// SLL RD, RS1, RS2
static inline void asm_rv32_opcode_sll(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 001 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x01, 0x00, rd, rs1, rs2));
}
// SLLI RD, RS, IMMEDIATE
static inline void asm_rv32_opcode_slli(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_uint_t immediate) {
// I: 0000000..... ..... 001 ..... 0010011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x13, 0x01, rd, rs, immediate & 0x1F));
}
// SRL RD, RS1, RS2
static inline void asm_rv32_opcode_srl(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 101 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x05, 0x00, rd, rs1, rs2));
}
// SLT RD, RS1, RS2
static inline void asm_rv32_opcode_slt(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 010 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x02, 0x00, rd, rs1, rs2));
}
// SLTU RD, RS1, RS2
static inline void asm_rv32_opcode_sltu(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 011 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x03, 0x00, rd, rs1, rs2));
}
// SRA RD, RS1, RS2
static inline void asm_rv32_opcode_sra(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0100000 ..... ..... 101 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x05, 0x20, rd, rs1, rs2));
}
// SUB RD, RS1, RS2
static inline void asm_rv32_opcode_sub(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0100000 ..... ..... 000 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x00, 0x20, rd, rs1, rs2));
}
// SB RS2, OFFSET(RS1)
static inline void asm_rv32_opcode_sb(asm_rv32_t *state, mp_uint_t rs2, mp_uint_t rs1, mp_int_t offset) {
// S: ....... ..... ..... 000 ..... 0100011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_S(0x23, 0x00, rs1, rs2, offset));
}
// SH RS2, OFFSET(RS1)
static inline void asm_rv32_opcode_sh(asm_rv32_t *state, mp_uint_t rs2, mp_uint_t rs1, mp_int_t offset) {
// S: ....... ..... ..... 001 ..... 0100011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_S(0x23, 0x01, rs1, rs2, offset));
}
// SW RS2, OFFSET(RS1)
static inline void asm_rv32_opcode_sw(asm_rv32_t *state, mp_uint_t rs2, mp_uint_t rs1, mp_int_t offset) {
// S: ....... ..... ..... 010 ..... 0100011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_S(0x23, 0x02, rs1, rs2, offset));
}
// XOR RD, RS1, RS2
static inline void asm_rv32_opcode_xor(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs1, mp_uint_t rs2) {
// R: 0000000 ..... ..... 100 ..... 0110011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_R(0x33, 0x04, 0x00, rd, rs1, rs2));
}
// XORI RD, RS, IMMEDIATE
static inline void asm_rv32_opcode_xori(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t immediate) {
// I: ............ ..... 100 ..... 0010011
asm_rv32_emit_word_opcode(state, RV32_ENCODE_TYPE_I(0x13, 0x04, rd, rs, immediate));
}
#define ASM_WORD_SIZE (4)
#define ASM_HALFWORD_SIZE (2)
#define REG_RET ASM_RV32_REG_A0
#define REG_ARG_1 ASM_RV32_REG_A0
#define REG_ARG_2 ASM_RV32_REG_A1
#define REG_ARG_3 ASM_RV32_REG_A2
#define REG_ARG_4 ASM_RV32_REG_A3
#define REG_TEMP0 ASM_RV32_REG_T1
#define REG_TEMP1 ASM_RV32_REG_T2
#define REG_TEMP2 ASM_RV32_REG_T3
#define REG_FUN_TABLE ASM_RV32_REG_S1
#define REG_LOCAL_1 ASM_RV32_REG_S3
#define REG_LOCAL_2 ASM_RV32_REG_S4
#define REG_LOCAL_3 ASM_RV32_REG_S5
void asm_rv32_meta_comparison_eq(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_uint_t rd);
void asm_rv32_meta_comparison_ne(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_uint_t rd);
void asm_rv32_meta_comparison_lt(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_uint_t rd, bool unsigned_comparison);
void asm_rv32_meta_comparison_le(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_uint_t rd, bool unsigned_comparison);
#ifdef GENERIC_ASM_API
void asm_rv32_emit_call_ind(asm_rv32_t *state, mp_uint_t index);
void asm_rv32_emit_jump(asm_rv32_t *state, mp_uint_t label);
void asm_rv32_emit_jump_if_reg_eq(asm_rv32_t *state, mp_uint_t rs1, mp_uint_t rs2, mp_uint_t label);
void asm_rv32_emit_jump_if_reg_nonzero(asm_rv32_t *state, mp_uint_t rs, mp_uint_t label);
void asm_rv32_emit_load16_reg_reg_offset(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset);
void asm_rv32_emit_load_reg_reg_offset(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs, mp_int_t offset);
void asm_rv32_emit_mov_local_reg(asm_rv32_t *state, mp_uint_t local, mp_uint_t rs);
void asm_rv32_emit_mov_reg_local(asm_rv32_t *state, mp_uint_t rd, mp_uint_t local);
void asm_rv32_emit_mov_reg_local_addr(asm_rv32_t *state, mp_uint_t rd, mp_uint_t local);
void asm_rv32_emit_mov_reg_pcrel(asm_rv32_t *state, mp_uint_t rd, mp_uint_t label);
void asm_rv32_emit_optimised_load_immediate(asm_rv32_t *state, mp_uint_t rd, mp_int_t immediate);
void asm_rv32_emit_optimised_xor(asm_rv32_t *state, mp_uint_t rd, mp_uint_t rs);
void asm_rv32_emit_store_reg_reg_offset(asm_rv32_t *state, mp_uint_t source, mp_uint_t base, mp_int_t offset);
#define ASM_T asm_rv32_t
#define ASM_ENTRY(state, labels) asm_rv32_entry(state, labels)
#define ASM_EXIT(state) asm_rv32_exit(state)
#define ASM_END_PASS(state) asm_rv32_end_pass(state)
#define ASM_ADD_REG_REG(state, rd, rs) asm_rv32_opcode_cadd(state, rd, rs)
#define ASM_AND_REG_REG(state, rd, rs) asm_rv32_opcode_and(state, rd, rs, rd)
#define ASM_ASR_REG_REG(state, rd, rs) asm_rv32_opcode_sra(state, rd, rd, rs)
#define ASM_CALL_IND(state, index) asm_rv32_emit_call_ind(state, index)
#define ASM_JUMP(state, label) asm_rv32_emit_jump(state, label)
#define ASM_JUMP_IF_REG_EQ(state, rs1, rs2, label) asm_rv32_emit_jump_if_reg_eq(state, rs1, rs2, label)
#define ASM_JUMP_IF_REG_NONZERO(state, rs, label, bool_test) asm_rv32_emit_jump_if_reg_nonzero(state, rs, label)
#define ASM_JUMP_IF_REG_ZERO(state, rs, label, bool_test) asm_rv32_emit_jump_if_reg_eq(state, rs, ASM_RV32_REG_ZERO, label)
#define ASM_JUMP_REG(state, rs) asm_rv32_opcode_cjr(state, rs)
#define ASM_LOAD16_REG_REG_OFFSET(state, rd, rs, offset) asm_rv32_emit_load16_reg_reg_offset(state, rd, rs, offset)
#define ASM_LOAD16_REG_REG(state, rd, rs) asm_rv32_opcode_lhu(state, rd, rs, 0)
#define ASM_LOAD32_REG_REG(state, rd, rs) ASM_LOAD_REG_REG_OFFSET(state, rd, rs, 0)
#define ASM_LOAD8_REG_REG(state, rd, rs) asm_rv32_opcode_lbu(state, rd, rs, 0)
#define ASM_LOAD_REG_REG_OFFSET(state, rd, rs, offset) asm_rv32_emit_load_reg_reg_offset(state, rd, rs, offset)
#define ASM_LOAD_REG_REG(state, rd, rs) ASM_LOAD32_REG_REG(state, rd, rs)
#define ASM_LSL_REG_REG(state, rd, rs) asm_rv32_opcode_sll(state, rd, rd, rs)
#define ASM_LSR_REG_REG(state, rd, rs) asm_rv32_opcode_srl(state, rd, rd, rs)
#define ASM_MOV_LOCAL_REG(state, local, rs) asm_rv32_emit_mov_local_reg(state, local, rs)
#define ASM_MOV_REG_IMM(state, rd, imm) asm_rv32_emit_optimised_load_immediate(state, rd, imm)
#define ASM_MOV_REG_LOCAL_ADDR(state, rd, local) asm_rv32_emit_mov_reg_local_addr(state, rd, local)
#define ASM_MOV_REG_LOCAL(state, rd, local) asm_rv32_emit_mov_reg_local(state, rd, local)
#define ASM_MOV_REG_PCREL(state, rd, label) asm_rv32_emit_mov_reg_pcrel(state, rd, label)
#define ASM_MOV_REG_REG(state, rd, rs) asm_rv32_opcode_cmv(state, rd, rs)
#define ASM_MUL_REG_REG(state, rd, rs) asm_rv32_opcode_mul(state, rd, rd, rs)
#define ASM_NEG_REG(state, rd) asm_rv32_opcode_sub(state, rd, ASM_RV32_REG_ZERO, rd)
#define ASM_NOT_REG(state, rd) asm_rv32_opcode_xori(state, rd, rd, -1)
#define ASM_OR_REG_REG(state, rd, rs) asm_rv32_opcode_or(state, rd, rd, rs)
#define ASM_STORE16_REG_REG(state, rs1, rs2) asm_rv32_opcode_sh(state, rs1, rs2, 0)
#define ASM_STORE32_REG_REG(state, rs1, rs2) ASM_STORE_REG_REG_OFFSET(state, rs1, rs2, 0)
#define ASM_STORE8_REG_REG(state, rs1, rs2) asm_rv32_opcode_sb(state, rs1, rs2, 0)
#define ASM_STORE_REG_REG_OFFSET(state, rd, rs, offset) asm_rv32_emit_store_reg_reg_offset(state, rd, rs, offset)
#define ASM_STORE_REG_REG(state, rs1, rs2) ASM_STORE32_REG_REG(state, rs1, rs2)
#define ASM_SUB_REG_REG(state, rd, rs) asm_rv32_opcode_sub(state, rd, rd, rs)
#define ASM_XOR_REG_REG(state, rd, rs) asm_rv32_emit_optimised_xor(state, rd, rs)
#endif
#endif // MICROPY_INCLUDED_PY_ASMRV32_H