const int NXPR = 32;
const int NFPR = 32;
+#define X_RA 1
+#define X_SP 2
+
#define FP_RD_NE 0
#define FP_RD_0 1
#define FP_RD_DN 2
uint64_t csr() { return x(20, 12); }
int64_t rvc_imm() { return x(2, 5) + (xs(12, 1) << 5); }
+ int64_t rvc_addi4spn_imm() { return (x(6, 1) << 2) + (x(5, 1) << 3) + (x(11, 2) << 4) + (x(7, 4) << 6); }
+ int64_t rvc_addi16sp_imm() { return (x(6, 1) << 4) + (x(5, 1) << 5) + (x(2, 3) << 6) + (xs(12, 1) << 9); }
int64_t rvc_lwsp_imm() { return (x(4, 3) << 2) + (x(12, 1) << 5) + (x(2, 2) << 6); }
int64_t rvc_ldsp_imm() { return (x(5, 2) << 3) + (x(12, 1) << 5) + (x(2, 3) << 6); }
- int64_t rvc_lw_imm() { return (x(5, 2) << 3) + (x(10, 1) << 6) + (x(11, 1) << 2) + (x(12, 1) << 5); }
- int64_t rvc_ld_imm() { return (x(5, 2) << 3) + (x(10, 1) << 6) + (x(11, 1) << 7) + (x(12, 1) << 5); }
- int64_t rvc_j_imm() { return (xs(2, 3) << 9) + (x(5, 2) << 3) + (x(7, 1) << 1) + (x(8, 2) << 7) + (x(10, 1) << 6) + (x(11, 1) << 2) + (x(12, 1) << 5); }
- int64_t rvc_b_imm() { return (x(5, 2) << 3) + (x(7, 1) << 1) + (xs(8, 2) << 7) + (x(10, 1) << 6) + (x(11, 1) << 2) + (x(12, 1) << 5); }
+ int64_t rvc_swsp_imm() { return (x(9, 4) << 2) + (x(7, 2) << 6); }
+ int64_t rvc_sdsp_imm() { return (x(10, 3) << 3) + (x(7, 3) << 6); }
+ int64_t rvc_lw_imm() { return (x(6, 1) << 2) + (x(10, 3) << 3) + (x(5, 1) << 6); }
+ int64_t rvc_ld_imm() { return (x(10, 3) << 3) + (x(5, 2) << 6); }
+ int64_t rvc_j_imm() { return (x(3, 4) << 1) + (x(2, 1) << 5) + (xs(7, 6) << 6); }
+ int64_t rvc_b_imm() { return (x(3, 4) << 1) + (x(2, 1) << 5) + (xs(10, 3) << 6); }
uint64_t rvc_rd() { return rd(); }
- uint64_t rvc_rs1() { return x(2, 5); }
- uint64_t rvc_rs2() { return rd(); }
- uint64_t rvc_rds() { return 8 + x(7, 3); }
- uint64_t rvc_rs1s() { return 8 + x(2, 3); }
- uint64_t rvc_rs2s() { return rvc_rds(); }
+ uint64_t rvc_rs1() { return rd(); }
+ uint64_t rvc_rs2() { return x(2, 5); }
+ uint64_t rvc_rds() { return 8 + x(10, 3); }
+ uint64_t rvc_rs1s() { return 8 + x(7, 3); }
+ uint64_t rvc_rs2s() { return 8 + x(2, 3); }
private:
insn_bits_t b;
uint64_t x(int lo, int len) { return (b >> lo) & ((insn_bits_t(1) << len)-1); }
// helpful macros, etc
#define MMU (*p->get_mmu())
#define STATE (*p->get_state())
-#define RS1 STATE.XPR[insn.rs1()]
-#define RS2 STATE.XPR[insn.rs2()]
+#define READ_REG(reg) STATE.XPR[reg]
+#define RS1 READ_REG(insn.rs1())
+#define RS2 READ_REG(insn.rs2())
#define WRITE_REG(reg, value) STATE.XPR.write(reg, value)
#define WRITE_RD(value) WRITE_REG(insn.rd(), value)
#ifdef RISCV_ENABLE_COMMITLOG
#undef WRITE_REG
#define WRITE_REG(reg, value) ({ \
- reg_t wdata = value; /* value is a func with side-effects */ \
- STATE.log_reg_write = (commit_log_reg_t){reg << 1, wdata}; \
+ reg_t wdata = (value); /* value is a func with side-effects */ \
+ STATE.log_reg_write = (commit_log_reg_t){(reg) << 1, wdata}; \
STATE.XPR.write(reg, wdata); \
})
#endif
// RVC macros
#define WRITE_RVC_RDS(value) WRITE_REG(insn.rvc_rds(), value)
-#define RVC_RS1 STATE.XPR[insn.rvc_rs1()]
-#define RVC_RS2 STATE.XPR[insn.rvc_rs2()]
-#define RVC_RS1S STATE.XPR[insn.rvc_rs1s()]
-#define RVC_RS2S STATE.XPR[insn.rvc_rs2s()]
-#define RVC_SP STATE.XPR[2]
+#define WRITE_RVC_RS1S(value) WRITE_REG(insn.rvc_rs1s(), value)
+#define WRITE_RVC_RS2S(value) WRITE_REG(insn.rvc_rs2s(), value)
+#define RVC_RS1 READ_REG(insn.rvc_rs1())
+#define RVC_RS2 READ_REG(insn.rvc_rs2())
+#define RVC_RS1S READ_REG(insn.rvc_rs1s())
+#define RVC_RS2S READ_REG(insn.rvc_rs2s())
+#define RVC_SP READ_REG(X_SP)
// FPU macros
#define FRS1 STATE.FPR[insn.rs1()]
#define get_field(reg, mask) (((reg) & (decltype(reg))(mask)) / ((mask) & ~((mask) << 1)))
#define set_field(reg, mask, val) (((reg) & ~(decltype(reg))(mask)) | (((decltype(reg))(val) * ((mask) & ~((mask) << 1))) & (decltype(reg))(mask)))
-#define require_privilege(p) if (get_field(STATE.mstatus, MSTATUS_PRV) < (p)) throw trap_illegal_instruction()
-#define require_rv64 if(unlikely(xlen != 64)) throw trap_illegal_instruction()
-#define require_rv32 if(unlikely(xlen != 32)) throw trap_illegal_instruction()
-#define require_extension(s) if (!p->supports_extension(s)) throw trap_illegal_instruction()
-#define require_fp if (unlikely((STATE.mstatus & MSTATUS_FS) == 0)) throw trap_illegal_instruction()
-#define require_accelerator if (unlikely((STATE.mstatus & MSTATUS_XS) == 0)) throw trap_illegal_instruction()
+#define require(x) if (unlikely(!(x))) throw trap_illegal_instruction()
+#define require_privilege(p) require(get_field(STATE.mstatus, MSTATUS_PRV) >= (p))
+#define require_rv64 require(xlen == 64)
+#define require_rv32 require(xlen == 32)
+#define require_extension(s) require(p->supports_extension(s))
+#define require_fp require((STATE.mstatus & MSTATUS_FS) != 0)
+#define require_accelerator require((STATE.mstatus & MSTATUS_XS) != 0)
#define set_fp_exceptions ({ STATE.fflags |= softfloat_exceptionFlags; \
softfloat_exceptionFlags = 0; })
#define MASK_BLTU 0x707f
#define MATCH_BNE 0x1063
#define MASK_BNE 0x707f
-#define MATCH_C_ADD 0x6000
+#define MATCH_C_ADD 0x1000
#define MASK_C_ADD 0xf003
-#define MATCH_C_ADDI 0x8000
+#define MATCH_C_ADD3 0xa000
+#define MASK_C_ADD3 0xe063
+#define MATCH_C_ADDI 0xc002
#define MASK_C_ADDI 0xe003
-#define MATCH_C_ADDI4 0xa000
-#define MASK_C_ADDI4 0xe003
-#define MATCH_C_ADDIW 0xe000
+#define MATCH_C_ADDI4SPN 0xa001
+#define MASK_C_ADDI4SPN 0xe003
+#define MATCH_C_ADDIW 0xe002
#define MASK_C_ADDIW 0xe003
-#define MATCH_C_ADDW 0x7000
+#define MATCH_C_ADDW 0x9000
#define MASK_C_ADDW 0xf003
-#define MATCH_C_BEQZ 0x2002
+#define MATCH_C_AND3 0xa060
+#define MASK_C_AND3 0xe063
+#define MATCH_C_BEQZ 0x4002
#define MASK_C_BEQZ 0xe003
#define MATCH_C_BNEZ 0x6002
#define MASK_C_BNEZ 0xe003
-#define MATCH_C_J 0xa002
+#define MATCH_C_J 0x2
#define MASK_C_J 0xe003
-#define MATCH_C_JALR 0x5000
-#define MASK_C_JALR 0xf003
-#define MATCH_C_LD 0x2001
+#define MATCH_C_JAL 0x2002
+#define MASK_C_JAL 0xe003
+#define MATCH_C_LD 0xe000
#define MASK_C_LD 0xe003
-#define MATCH_C_LDSP 0xc001
+#define MATCH_C_LDSP 0xe001
#define MASK_C_LDSP 0xe003
-#define MATCH_C_LI 0x0
+#define MATCH_C_LI 0x8002
#define MASK_C_LI 0xe003
-#define MATCH_C_LUI 0x2000
+#define MATCH_C_LUI 0xa002
#define MASK_C_LUI 0xe003
-#define MATCH_C_LW 0x1
+#define MATCH_C_LW 0xc000
#define MASK_C_LW 0xe003
-#define MATCH_C_LWSP 0x8001
+#define MATCH_C_LWSP 0xc001
#define MASK_C_LWSP 0xe003
-#define MATCH_C_MV 0x4000
+#define MATCH_C_MV 0x0
#define MASK_C_MV 0xf003
-#define MATCH_C_SD 0x6001
+#define MATCH_C_OR3 0xa040
+#define MASK_C_OR3 0xe063
+#define MATCH_C_SD 0x6000
#define MASK_C_SD 0xe003
-#define MATCH_C_SDSP 0xe001
+#define MATCH_C_SDSP 0x6001
#define MASK_C_SDSP 0xe003
-#define MATCH_C_SLLI 0xc000
+#define MATCH_C_SLLI 0x1
#define MASK_C_SLLI 0xe003
-#define MATCH_C_SW 0x4001
+#define MATCH_C_SLLIW 0x8001
+#define MASK_C_SLLIW 0xf003
+#define MATCH_C_SRAI 0x2000
+#define MASK_C_SRAI 0xe003
+#define MATCH_C_SRLI 0x2001
+#define MASK_C_SRLI 0xe003
+#define MATCH_C_SUB 0x8000
+#define MASK_C_SUB 0xf003
+#define MATCH_C_SUB3 0xa020
+#define MASK_C_SUB3 0xe063
+#define MATCH_C_SW 0x4000
#define MASK_C_SW 0xe003
-#define MATCH_C_SWSP 0xa001
+#define MATCH_C_SWSP 0x4001
#define MASK_C_SWSP 0xe003
#define MATCH_CSRRC 0x3073
#define MASK_CSRRC 0x707f
DECLARE_INSN(bltu, MATCH_BLTU, MASK_BLTU)
DECLARE_INSN(bne, MATCH_BNE, MASK_BNE)
DECLARE_INSN(c_add, MATCH_C_ADD, MASK_C_ADD)
+DECLARE_INSN(c_add3, MATCH_C_ADD3, MASK_C_ADD3)
DECLARE_INSN(c_addi, MATCH_C_ADDI, MASK_C_ADDI)
-DECLARE_INSN(c_addi4, MATCH_C_ADDI4, MASK_C_ADDI4)
+DECLARE_INSN(c_addi4spn, MATCH_C_ADDI4SPN, MASK_C_ADDI4SPN)
DECLARE_INSN(c_addiw, MATCH_C_ADDIW, MASK_C_ADDIW)
DECLARE_INSN(c_addw, MATCH_C_ADDW, MASK_C_ADDW)
+DECLARE_INSN(c_and3, MATCH_C_AND3, MASK_C_AND3)
DECLARE_INSN(c_beqz, MATCH_C_BEQZ, MASK_C_BEQZ)
DECLARE_INSN(c_bnez, MATCH_C_BNEZ, MASK_C_BNEZ)
DECLARE_INSN(c_j, MATCH_C_J, MASK_C_J)
-DECLARE_INSN(c_jalr, MATCH_C_JALR, MASK_C_JALR)
+DECLARE_INSN(c_jal, MATCH_C_JAL, MASK_C_JAL)
DECLARE_INSN(c_ld, MATCH_C_LD, MASK_C_LD)
DECLARE_INSN(c_ldsp, MATCH_C_LDSP, MASK_C_LDSP)
DECLARE_INSN(c_li, MATCH_C_LI, MASK_C_LI)
DECLARE_INSN(c_lw, MATCH_C_LW, MASK_C_LW)
DECLARE_INSN(c_lwsp, MATCH_C_LWSP, MASK_C_LWSP)
DECLARE_INSN(c_mv, MATCH_C_MV, MASK_C_MV)
+DECLARE_INSN(c_or3, MATCH_C_OR3, MASK_C_OR3)
DECLARE_INSN(c_sd, MATCH_C_SD, MASK_C_SD)
DECLARE_INSN(c_sdsp, MATCH_C_SDSP, MASK_C_SDSP)
DECLARE_INSN(c_slli, MATCH_C_SLLI, MASK_C_SLLI)
+DECLARE_INSN(c_slliw, MATCH_C_SLLIW, MASK_C_SLLIW)
+DECLARE_INSN(c_srai, MATCH_C_SRAI, MASK_C_SRAI)
+DECLARE_INSN(c_srli, MATCH_C_SRLI, MASK_C_SRLI)
+DECLARE_INSN(c_sub, MATCH_C_SUB, MASK_C_SUB)
+DECLARE_INSN(c_sub3, MATCH_C_SUB3, MASK_C_SUB3)
DECLARE_INSN(c_sw, MATCH_C_SW, MASK_C_SW)
DECLARE_INSN(c_swsp, MATCH_C_SWSP, MASK_C_SWSP)
DECLARE_INSN(csrrc, MATCH_CSRRC, MASK_CSRRC)
require_extension('C');
-WRITE_RD(sext_xlen(RVC_RS1 + RVC_RS2));
+require(insn.rvc_rs2() != 0);
+if (insn.rvc_rd() == 0) { // c.ebreak
+ throw trap_breakpoint();
+} else {
+ WRITE_RD(sext_xlen(RVC_RS1 + RVC_RS2));
+}
--- /dev/null
+require_extension('C');
+WRITE_RVC_RDS(sext_xlen(RVC_RS1S + RVC_RS2S));
require_extension('C');
-WRITE_RD(sext_xlen(RVC_RS2 + insn.rvc_imm()));
+if (insn.rvc_rd() == 0) { // c.addi16sp
+ WRITE_REG(X_SP, sext_xlen(RVC_SP + insn.rvc_addi16sp_imm()));
+} else {
+ require(insn.rvc_imm() != 0);
+ WRITE_RD(sext_xlen(RVC_RS1 + insn.rvc_imm()));
+}
--- /dev/null
+require_extension('C');
+WRITE_RVC_RS2S(sext_xlen(RVC_SP + insn.rvc_addi4spn_imm()));
require_extension('C');
require_rv64;
-WRITE_RD(sext32(RVC_RS2 + insn.rvc_imm()));
+require(insn.rvc_rd() != 0);
+WRITE_RD(sext32(RVC_RS1 + insn.rvc_imm()));
require_extension('C');
require_rv64;
+require(insn.rvc_rd() != 0 && insn.rvc_rs2() != 0);
WRITE_RD(sext32(RVC_RS1 + RVC_RS2));
--- /dev/null
+require_extension('C');
+WRITE_RVC_RDS(RVC_RS1S & RVC_RS2S);
--- /dev/null
+require_extension('C');
+reg_t tmp = npc;
+set_pc(pc + insn.rvc_j_imm());
+WRITE_REG(X_RA, tmp);
require_extension('C');
require_rv64;
-WRITE_RVC_RDS(MMU.load_int64(RVC_RS1S + insn.rvc_ld_imm()));
+WRITE_RVC_RS2S(MMU.load_int64(RVC_RS1S + insn.rvc_ld_imm()));
require_extension('C');
require_rv64;
+require(insn.rvc_rd() != 0);
WRITE_RD(MMU.load_int64(RVC_SP + insn.rvc_ldsp_imm()));
require_extension('C');
-if (insn.rvc_rd() == 0) {
- if (insn.rvc_imm() == -32) // c.sbreak
- throw trap_breakpoint();
- throw trap_illegal_instruction();
-} else // c.li
+require(insn.rvc_rd() != 0);
+if (insn.rvc_imm() == 0) { // c.jr
+ set_pc(RVC_RS1 & ~reg_t(1));
+} else {
WRITE_RD(insn.rvc_imm());
+}
require_extension('C');
-WRITE_RD(insn.rvc_imm() << 12);
+require(insn.rvc_rd() != 0);
+if (insn.rvc_imm() == 0) { // c.jalr
+ reg_t tmp = npc;
+ set_pc(RVC_RS1 & ~reg_t(1));
+ WRITE_REG(X_RA, tmp);
+} else {
+ WRITE_RD(insn.rvc_imm() << 12);
+}
require_extension('C');
-WRITE_RVC_RDS(MMU.load_int32(RVC_RS1S + insn.rvc_lw_imm()));
+WRITE_RVC_RS2S(MMU.load_int32(RVC_RS1S + insn.rvc_lw_imm()));
require_extension('C');
+require(insn.rvc_rd() != 0);
WRITE_RD(MMU.load_int32(RVC_SP + insn.rvc_lwsp_imm()));
require_extension('C');
-WRITE_RD(RVC_RS1);
+require(insn.rvc_rd() != 0);
+WRITE_RD(RVC_RS2);
--- /dev/null
+require_extension('C');
+WRITE_RVC_RDS(RVC_RS1S | RVC_RS2S);
require_extension('C');
require_rv64;
-MMU.store_uint64(RVC_SP + insn.rvc_ldsp_imm(), RVC_RS2);
+MMU.store_uint64(RVC_SP + insn.rvc_sdsp_imm(), RVC_RS2);
require_extension('C');
-if (insn.rvc_imm() >= xlen)
- throw trap_illegal_instruction();
-WRITE_RD(sext_xlen(RVC_RS2 << insn.rvc_imm()));
+require(insn.rvc_imm() < xlen);
+WRITE_RD(sext_xlen(RVC_RS1 << insn.rvc_imm()));
--- /dev/null
+require_extension('C');
+require_rv64;
+WRITE_RD(sext_xlen(RVC_RS1 << insn.rvc_imm()));
--- /dev/null
+require_extension('C');
+require(insn.rvc_imm() < xlen);
+WRITE_RD(sext_xlen(sext_xlen(RVC_RS1) >> insn.rvc_imm()));
--- /dev/null
+require_extension('C');
+require(insn.rvc_imm() < xlen);
+WRITE_RD(sext_xlen(zext_xlen(RVC_RS1) >> insn.rvc_imm()));
--- /dev/null
+require_extension('C');
+require(insn.rvc_rd() != 0 && insn.rvc_rs2() != 0);
+WRITE_RD(sext_xlen(RVC_RS1 - RVC_RS2));
--- /dev/null
+require_extension('C');
+WRITE_RVC_RDS(sext_xlen(RVC_RS1S - RVC_RS2S));
require_extension('C');
-MMU.store_uint32(RVC_SP + insn.rvc_lwsp_imm(), RVC_RS2);
+MMU.store_uint32(RVC_SP + insn.rvc_swsp_imm(), RVC_RS2);
struct : public arg_t {
std::string to_string(insn_t insn) const {
- return xpr_name[insn.rvc_rds()];
+ return xpr_name[insn.rvc_rs2()];
}
-} rvc_rds;
+} rvc_rs2;
struct : public arg_t {
std::string to_string(insn_t insn) const {
}
} rvc_rs1s;
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return xpr_name[insn.rvc_rs2s()];
+ }
+} rvc_rs2s;
+
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return xpr_name[insn.rvc_rds()];
+ }
+} rvc_rds;
+
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return xpr_name[X_SP];
+ }
+} rvc_sp;
+
struct : public arg_t {
std::string to_string(insn_t insn) const {
return std::to_string((int)insn.rvc_imm());
}
} rvc_imm;
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return std::to_string((int)insn.rvc_addi4spn_imm());
+ }
+} rvc_addi4spn_imm;
+
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return std::to_string((int)insn.rvc_addi16sp_imm());
+ }
+} rvc_addi16sp_imm;
+
struct : public arg_t {
std::string to_string(insn_t insn) const {
return std::to_string((int)insn.rvc_lwsp_imm());
struct : public arg_t {
std::string to_string(insn_t insn) const {
- return std::to_string((int)insn.rvc_lwsp_imm()) + '(' + xpr_name[2] + ')';
+ return std::to_string((int)insn.rvc_lwsp_imm()) + '(' + xpr_name[X_SP] + ')';
}
} rvc_lwsp_address;
struct : public arg_t {
std::string to_string(insn_t insn) const {
- return std::to_string((int)insn.rvc_ldsp_imm()) + '(' + xpr_name[2] + ')';
+ return std::to_string((int)insn.rvc_ldsp_imm()) + '(' + xpr_name[X_SP] + ')';
}
} rvc_ldsp_address;
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return std::to_string((int)insn.rvc_swsp_imm()) + '(' + xpr_name[X_SP] + ')';
+ }
+} rvc_swsp_address;
+
+struct : public arg_t {
+ std::string to_string(insn_t insn) const {
+ return std::to_string((int)insn.rvc_sdsp_imm()) + '(' + xpr_name[X_SP] + ')';
+ }
+} rvc_sdsp_address;
+
struct : public arg_t {
std::string to_string(insn_t insn) const {
return std::to_string((int)insn.rvc_lw_imm()) + '(' + xpr_name[insn.rvc_rs1s()] + ')';
const uint32_t match_rd_ra = 1UL << 7;
const uint32_t mask_rs1 = 0x1fUL << 15;
const uint32_t match_rs1_ra = 1UL << 15;
- const uint32_t mask_rvc_rs1 = 0x1fUL << 2;
- const uint32_t match_rvc_rs1_ra = 1UL << 2;
const uint32_t mask_rs2 = 0x1fUL << 20;
const uint32_t mask_imm = 0xfffUL << 20;
const uint32_t match_imm_1 = 1UL << 20;
+ const uint32_t mask_rvc_rs2 = 0x1fUL << 2;
+ const uint32_t mask_rvc_imm = mask_rvc_rs2 | 0x1000UL;
#define DECLARE_INSN(code, match, mask) \
const uint32_t match_##code = match; \
DEFINE_FXTYPE(flt_d);
DEFINE_FXTYPE(fle_d);
- add_insn(new disasm_insn_t("sbreak", match_c_li | 0x1000, 0xffff, {}));
+ DISASM_INSN("ebreak", c_add, mask_rd | mask_rvc_rs2, {});
+ add_insn(new disasm_insn_t("ret", match_c_li | match_rd_ra, mask_c_li | mask_rd | mask_rvc_imm, {}));
+ DISASM_INSN("jr", c_li, mask_rvc_imm, {&rvc_rs1});
+ DISASM_INSN("jalr", c_lui, mask_rvc_imm, {&rvc_rs1});
+ DISASM_INSN("nop", c_addi, mask_rd | mask_rvc_imm, {});
+ DISASM_INSN("addi", c_addi, mask_rd, {&rvc_sp, &rvc_sp, &rvc_addi16sp_imm});
+ DISASM_INSN("addi", c_addi4spn, 0, {&rvc_rs1s, &rvc_sp, &rvc_addi4spn_imm});
DISASM_INSN("li", c_li, 0, {&xrd, &rvc_imm});
DISASM_INSN("lui", c_lui, 0, {&xrd, &rvc_uimm});
DISASM_INSN("addi", c_addi, 0, {&xrd, &xrd, &rvc_imm});
DISASM_INSN("addiw", c_addiw, 0, {&xrd, &xrd, &rvc_imm});
DISASM_INSN("slli", c_slli, 0, {&xrd, &rvc_shamt});
- DISASM_INSN("addi", c_addi4, 0, {&xrd, &xrd, &rvc_lwsp_imm});
DISASM_INSN("mv", c_mv, 0, {&xrd, &rvc_rs1});
- add_insn(new disasm_insn_t("ret", match_c_jalr | match_rvc_rs1_ra, mask_c_jalr | mask_rd | mask_rvc_rs1, {}));
- DISASM_INSN("jr", c_jalr, mask_rd, {&xrd, &rvc_rs1});
- DISASM_INSN("jalr", c_jalr, mask_rd, {&xrd, &rvc_rs1});
DISASM_INSN("add", c_add, 0, {&xrd, &xrd, &rvc_rs1});
DISASM_INSN("addw", c_addw, 0, {&xrd, &xrd, &rvc_rs1});
DISASM_INSN("lw", c_lwsp, 0, {&xrd, &rvc_lwsp_address});
DISASM_INSN("ld", c_ldsp, 0, {&xrd, &rvc_ldsp_address});
- DISASM_INSN("sw", c_swsp, 0, {&xrd, &rvc_lwsp_address});
- DISASM_INSN("sd", c_sdsp, 0, {&xrd, &rvc_ldsp_address});
- DISASM_INSN("lw", c_lw, 0, {&rvc_rds, &rvc_lw_address});
- DISASM_INSN("ld", c_ld, 0, {&rvc_rds, &rvc_ld_address});
- DISASM_INSN("sw", c_sw, 0, {&rvc_rds, &rvc_lw_address});
- DISASM_INSN("sd", c_sd, 0, {&rvc_rds, &rvc_ld_address});
- DISASM_INSN("beqz", c_beqz, 0, {&rvc_rds, &rvc_branch_target});
- DISASM_INSN("bnez", c_bnez, 0, {&rvc_rds, &rvc_branch_target});
+ DISASM_INSN("sw", c_swsp, 0, {&rvc_rs2, &rvc_swsp_address});
+ DISASM_INSN("sd", c_sdsp, 0, {&rvc_rs2, &rvc_sdsp_address});
+ DISASM_INSN("lw", c_lw, 0, {&rvc_rs2s, &rvc_lw_address});
+ DISASM_INSN("ld", c_ld, 0, {&rvc_rs2s, &rvc_ld_address});
+ DISASM_INSN("sw", c_sw, 0, {&rvc_rs2s, &rvc_lw_address});
+ DISASM_INSN("sd", c_sd, 0, {&rvc_rs2s, &rvc_ld_address});
+ DISASM_INSN("beqz", c_beqz, 0, {&rvc_rs1s, &rvc_branch_target});
+ DISASM_INSN("bnez", c_bnez, 0, {&rvc_rs1s, &rvc_branch_target});
DISASM_INSN("j", c_j, 0, {&rvc_jump_target});
// provide a default disassembly for all instructions as a fallback
projects / riscv-isa-sim.git / commitdiff