feat add func call and rewrite codes

2025-03-07 12:29:53 +08:00
parent 09299e339c
commit 95bf44eb3f
37 changed files with 3369 additions and 1063 deletions
--- a/ccompiler/backend/riscv32/rv32gen.h
+++ b/ccompiler/backend/riscv32/rv32gen.h
@@ -0,0 +1,338 @@
+#ifndef __RV32I_GEN_H__
+#define __RV32I_GEN_H__
+
+/**
+31                  25 24        20 19        15 14    12 11            7 6        0 
+imm[31:12] rd 0110111 U lui 
+imm[31:12] rd 0010111 U auipc 
+imm[20|10:1|11|19:12] rd 1101111 J jal 
+imm[11:0] rs1 000 rd 1100111 I jalr 
+imm[12|10:5] rs2 rs1 000 imm[4:1|11] 1100011 B beq 
+imm[12|10:5] rs2 rs1 001 imm[4:1|11] 1100011 B bne 
+imm[12|10:5] rs2 rs1 100 imm[4:1|11] 1100011 B blt 
+imm[12|10:5] rs2 rs1 101 imm[4:1|11] 1100011 B bge 
+imm[12|10:5] rs2 rs1 110 imm[4:1|11] 1100011 B bltu 
+imm[12|10:5] rs2 rs1 111 imm[4:1|11] 1100011 B bgeu 
+imm[11:0] rs1 000 rd 0000011 I lb 
+imm[11:0] rs1 001 rd 0000011 I lh 
+imm[11:0] rs1 010 rd 0000011 I lw 
+imm[11:0] rs1 100 rd 0000011 I lbu 
+imm[11:0] rs1 101 rd 0000011 I lhu 
+imm[11:5] rs2 rs1 000 imm[4:0] 0100011 S sb 
+imm[11:5] rs2 rs1 001 imm[4:0] 0100011 S sh 
+imm[11:5] rs2 rs1 010 imm[4:0] 0100011 S sw 
+imm[11:0] rs1 000 rd 0010011 I addi 
+imm[11:0] rs1 010 rd 0010011 I slti 
+imm[11:0] rs1 011 rd 0010011 I sltiu 
+imm[11:0] rs1 100 rd 0010011 I xori 
+imm[11:0] rs1 110 rd 0010011 I ori 
+imm[11:0] rs1 111 rd 0010011 I andi 
+0000000 shamt rs1 001 rd 0010011 I slli 
+0000000 shamt rs1 101 rd 0010011 I srli 
+0100000 shamt rs1 101 rd 0010011 I srai 
+0000000 rs2 rs1 000 rd 0110011 R add 
+0100000 rs2 rs1 000 rd 0110011 R sub 
+0000000 rs2 rs1 001 rd 0110011 R sll 
+0000000 rs2 rs1 010 rd 0110011 R slt 
+0000000 rs2 rs1 011 rd 0110011 R sltu 
+0000000 rs2 rs1 100 rd 0110011 R xor 
+0000000 rs2 rs1 101 rd 0110011 R srl 
+0100000 rs2 rs1 101 rd 0110011 R sra 
+0000000 rs2 rs1 110 rd 0110011 R or 
+0000000 rs2 rs1 111 rd 0110011 R and 
+0000 pred succ 00000 000 00000 0001111 I fence 
+0000 0000 0000 00000 001 00000 0001111 I fence.i 
+000000000000 00000 00 00000 1110011 I ecall 
+000000000000 00000 000 00000 1110011 I ebreak 
+csr rs1 001 rd 1110011 I csrrw 
+csr rs1 010 rd 1110011 I csrrs 
+csr rs1 011 rd 1110011 I csrrc 
+csr zimm 101 rd 1110011 I csrrwi 
+csr zimm 110 rd 1110011 I cssrrsi 
+csr zimm 111 rd 1110011 I csrrci
+ */
+#include <stdint.h>
+
+// 寄存器枚举定义
+typedef enum {
+    REG_X0,  REG_X1,  REG_X2,  REG_X3,  REG_X4,  REG_X5,  REG_X6,  REG_X7,
+    REG_X8,  REG_X9,  REG_X10, REG_X11, REG_X12, REG_X13, REG_X14, REG_X15,
+    REG_X16, REG_X17, REG_X18, REG_X19, REG_X20, REG_X21, REG_X22, REG_X23,
+    REG_X24, REG_X25, REG_X26, REG_X27, REG_X28, REG_X29, REG_X30, REG_X31,
+    REG_ZERO = REG_X0,  REG_RA = REG_X1, REG_SP = REG_X2, REG_GP = REG_X3,
+    REG_TP = REG_X4,    REG_T0 = REG_X5, REG_T1 = REG_X6, REG_T2 = REG_X7,
+    REG_S0 = REG_X8,    REG_S1 = REG_X9, REG_A0 = REG_X10, REG_A1 = REG_X11,
+    REG_A2 = REG_X12,   REG_A3 = REG_X13, REG_A4 = REG_X14, REG_A5 = REG_X15,
+    REG_A6 = REG_X16,   REG_A7 = REG_X17, REG_S2 = REG_X18, REG_S3 = REG_X19,
+    REG_S4 = REG_X20,   REG_S5 = REG_X21, REG_S6 = REG_X22, REG_S7 = REG_X23,
+    REG_S8 = REG_X24,   REG_S9 = REG_X25, REG_S10 = REG_X26, REG_S11 = REG_X27,
+    REG_T3 = REG_X28,   REG_T4 = REG_X29, REG_T5 = REG_X30, REG_T6 = REG_X31,
+} RV32Reg;
+
+/******************** 立即数处理宏 ********************/
+#define IMM_12BITS(imm)     ((imm) & 0xFFF)
+#define IMM_20BITS(imm)     ((imm) & 0xFFFFF)
+#define SHAMT_VAL(imm)      ((imm) & 0x1F)
+#define CSR_VAL(csr)        ((csr) & 0xFFF)
+
+// B型立即数编码（[12|10:5|4:1|11]）
+#define ENCODE_B_IMM(imm) ( \
+    (((imm) >> 12) & 0x1)  << 31 |  /* imm[12:12] -> instr[31:31] */ \
+    (((imm) >> 5)  & 0x3F) << 25 |  /* imm[10:5]  -> instr[30:25] */ \
+    (((imm) >> 1)  & 0xF)  << 8  |  /* imm[4:1]   -> instr[11:8]  */ \
+    (((imm) >> 11) & 0x1)  << 7)    /* imm[11:11] -> instr[7:7]   */
+
+// J型立即数编码（[20|10:1|11|19:12]）W
+#define ENCODE_J_IMM(imm) ( \
+    (((imm) >> 20) & 0x1)  << 31 |  /* imm[20:20] -> instr[31:31] */ \
+    (((imm) >> 1)  & 0x3FF)<< 21 |  /* imm[10:1]  -> instr[30:21] */ \
+    (((imm) >> 11) & 0x1)  << 20 |  /* imm[11:11] -> instr[20:20] */ \
+    (((imm) >> 12) & 0xFF) << 12)    /* imm[19:12] -> instr[19:12] */
+/******************** 指令生成宏 ********************/
+// R型指令宏
+#define RV32_RTYPE(op, f3, f7, rd, rs1, rs2) (uint32_t)( \
+    (0x33 | ((rd) << 7) | ((f3) << 12) | ((rs1) << 15) | \
+           ((rs2) << 20) | ((f7) << 25)) )
+
+// I型指令宏
+#define RV32_ITYPE(op, f3, rd, rs1, imm) (uint32_t)( \
+    (op | ((rd) << 7) | ((f3) << 12) | ((rs1) << 15) | \
+           (IMM_12BITS(imm) << 20)) )
+
+// S型指令宏
+#define RV32_STYPE(op, f3, rs1, rs2, imm) (uint32_t)( \
+    (op | ((IMM_12BITS(imm) & 0xFE0) << 20) | ((rs1) << 15) | \
+           ((rs2) << 20) | ((f3) << 12) | ((IMM_12BITS(imm) & 0x1F) << 7)) )
+
+// B型指令宏
+#define RV32_BTYPE(op, f3, rs1, rs2, imm) (uint32_t)( \
+    (op | (ENCODE_B_IMM(imm)) | ((rs1) << 15) | \
+           ((rs2) << 20) | ((f3) << 12)) )
+
+// U型指令宏
+#define RV32_UTYPE(op, rd, imm) (uint32_t)( \
+    (op | ((rd) << 7) | (IMM_20BITS((imm) >> 12) << 12)) )
+
+// J型指令宏
+#define RV32_JTYPE(op, rd, imm) (uint32_t)( \
+    (op | ((rd) << 7) | ENCODE_J_IMM(imm)) )
+
+/******************** U-type ********************/
+#define LUI(rd, imm)    RV32_UTYPE(0x37, rd, imm)
+#define AUIPC(rd, imm)  RV32_UTYPE(0x17, rd, imm)
+
+/******************** J-type ********************/
+#define JAL(rd, imm)    RV32_JTYPE(0x6F, rd, imm)
+
+/******************** I-type ********************/
+#define JALR(rd, rs1, imm)  RV32_ITYPE(0x67, 0x0, rd, rs1, imm)
+
+// Load instructions
+#define LB(rd, rs1, imm)  RV32_ITYPE(0x03, 0x0, rd, rs1, imm)
+#define LH(rd, rs1, imm)  RV32_ITYPE(0x03, 0x1, rd, rs1, imm)
+#define LW(rd, rs1, imm)  RV32_ITYPE(0x03, 0x2, rd, rs1, imm)
+#define LBU(rd, rs1, imm) RV32_ITYPE(0x03, 0x4, rd, rs1, imm)
+#define LHU(rd, rs1, imm) RV32_ITYPE(0x03, 0x5, rd, rs1, imm)
+
+// Immediate arithmetic
+#define ADDI(rd, rs1, imm)  RV32_ITYPE(0x13, 0x0, rd, rs1, imm)
+#define SLTI(rd, rs1, imm)  RV32_ITYPE(0x13, 0x2, rd, rs1, imm)
+#define SLTIU(rd, rs1, imm) RV32_ITYPE(0x13, 0x3, rd, rs1, imm)
+#define XORI(rd, rs1, imm)  RV32_ITYPE(0x13, 0x4, rd, rs1, imm)
+#define ORI(rd, rs1, imm)   RV32_ITYPE(0x13, 0x6, rd, rs1, imm)
+#define ANDI(rd, rs1, imm)  RV32_ITYPE(0x13, 0x7, rd, rs1, imm)
+
+// Shift instructions
+#define SLLI(rd, rs1, shamt) RV32_ITYPE(0x13, 0x1, rd, rs1, (0x00000000 | (shamt << 20)))
+#define SRLI(rd, rs1, shamt) RV32_ITYPE(0x13, 0x5, rd, rs1, (0x00000000 | (shamt << 20)))
+#define SRAI(rd, rs1, shamt) RV32_ITYPE(0x13, 0x5, rd, rs1, (0x40000000 | (shamt << 20)))
+
+/******************** B-type ********************/
+#define BEQ(rs1, rs2, imm)  RV32_BTYPE(0x63, 0x0, rs1, rs2, imm)
+#define BNE(rs1, rs2, imm)  RV32_BTYPE(0x63, 0x1, rs1, rs2, imm)
+#define BLT(rs1, rs2, imm)  RV32_BTYPE(0x63, 0x4, rs1, rs2, imm)
+#define BGE(rs1, rs2, imm)  RV32_BTYPE(0x63, 0x5, rs1, rs2, imm)
+#define BLTU(rs1, rs2, imm) RV32_BTYPE(0x63, 0x6, rs1, rs2, imm)
+#define BGEU(rs1, rs2, imm) RV32_BTYPE(0x63, 0x7, rs1, rs2, imm)
+
+/******************** S-type ********************/
+#define SB(rs2, rs1, imm) RV32_STYPE(0x23, 0x0, rs1, rs2, imm)
+#define SH(rs2, rs1, imm) RV32_STYPE(0x23, 0x1, rs1, rs2, imm)
+#define SW(rs2, rs1, imm) RV32_STYPE(0x23, 0x2, rs1, rs2, imm)
+
+/******************** R-type ********************/
+#define ADD(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x0, 0x00, rd, rs1, rs2)
+#define SUB(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x0, 0x20, rd, rs1, rs2)
+#define SLL(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x1, 0x00, rd, rs1, rs2)
+#define SLT(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x2, 0x00, rd, rs1, rs2)
+#define SLTU(rd, rs1, rs2) RV32_RTYPE(0x33, 0x3, 0x00, rd, rs1, rs2)
+#define XOR(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x4, 0x00, rd, rs1, rs2)
+#define SRL(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x5, 0x00, rd, rs1, rs2)
+#define SRA(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x5, 0x20, rd, rs1, rs2)
+#define OR(rd, rs1, rs2)   RV32_RTYPE(0x33, 0x6, 0x00, rd, rs1, rs2)
+#define AND(rd, rs1, rs2)  RV32_RTYPE(0x33, 0x7, 0x00, rd, rs1, rs2)
+
+/******************** I-type (system) ********************/
+#define FENCE(pred, succ) (uint32_t)( 0x0F | ((pred) << 23) | ((succ) << 27) )
+#define FENCE_I()         (uint32_t)( 0x100F )
+#define ECALL()           (uint32_t)( 0x73 )
+#define EBREAK()          (uint32_t)( 0x100073 )
+
+// CSR instructions
+#define CSRRW(rd, csr, rs)  RV32_ITYPE(0x73, 0x1, rd, rs, CSR_VAL(csr))
+#define CSRRS(rd, csr, rs)  RV32_ITYPE(0x73, 0x2, rd, rs, CSR_VAL(csr))
+#define CSRRC(rd, csr, rs)  RV32_ITYPE(0x73, 0x3, rd, rs, CSR_VAL(csr))
+#define CSRRWI(rd, csr, zimm) RV32_ITYPE(0x73, 0x5, rd, 0, (CSR_VAL(csr) | ((zimm) << 15)))
+#define CSRRSI(rd, csr, zimm) RV32_ITYPE(0x73, 0x6, rd, 0, (CSR_VAL(csr) | ((zimm) << 15)))
+#define CSRRCI(rd, csr, zimm) RV32_ITYPE(0x73, 0x7, rd, 0, (CSR_VAL(csr) | ((zimm) << 15)))
+
+
+/* M-Extention */
+#define MUL(rd, rs1, rs2) RV32_RTYPE(0x33, 0x0, 0x01, rd, rs1, rs2)
+#define DIV(rd, rs1, rs2) RV32_RTYPE(0x33, 0x0, 0x05, rd, rs1, rs2)
+#define REM(rd, rs1, rs2) RV32_RTYPE(0x33, 0x0, 0x07, rd, rs1, rs2)
+
+/******************** Pseudo-instructions ********************/
+// 伪指令
+
+// nop (No operation)
+#define NOP() ADDI(REG_X0, REG_X0, 0) // 无操作
+
+// neg rd, rs (Two's complement of rs)
+#define NEG(rd, rs) SUB(rd, REG_ZERO, rs) // 补码
+
+// negw rd, rs (Two's complement word of rs)
+#define NEGW(rd, rs) SUBW(rd, REG_ZERO, rs) // 字的补码
+
+// snez rd, rs (Set if ≠ zero)
+#define SNEZ(rd, rs) SLTU(rd, REG_X0, rs) // 非0则置位
+
+// sltz rd, rs (Set if < zero)
+#define SLTZ(rd, rs) SLT(rd, rs, REG_X0) // 小于0则置位
+
+// sgtz rd, rs (Set if > zero)
+#define SG TZ(rd, rs) SLT(rd, REG_X0, rs) // 大于0则置位
+
+// beqz rs, offset (Branch if = zero)
+#define BEQZ(rs, offset) BEQ(rs, REG_X0, offset) // 为0则转移
+
+// bnez rs, offset (Branch if ≠ zero)
+#define BNEZ(rs, offset) BNE(rs, REG_X0, offset) // 非0则转移
+
+// blez rs, offset (Branch if ≤ zero)
+#define BLEZ(rs, offset) BGE(REG_X0, rs, offset) // 小于等于0则转移
+
+// bgez rs, offset (Branch if ≥ zero)
+#define BGEZ(rs, offset) BGE(rs, REG_X0, offset) // 大于等于0则转移
+
+// bltz rs, offset (Branch if < zero)
+#define BLTZ(rs, offset) BLT(rs, REG_X0, offset) // 小于0则转移
+
+// bgtz rs, offset (Branch if > zero)
+#define BGTZ(rs, offset) BLT(REG_X0, rs, offset) // 大于0则转移
+
+// j offset (Jump)
+#define J(offset) JAL(REG_X0, offset) // 跳转
+
+// jr rs (Jump register)
+#define JR(rs) JALR(REG_X0, rs, 0) // 寄存器跳转
+
+// ret (Return from subroutine)
+#define RET() JALR(REG_X0, REG_RA, 0) // 从子过程返回
+
+// tail offset (Tail call far-away subroutine)
+#define TAIL_2(offset) AUIPC(REG_X6, offset), JAL(REG_X0, REG_X6, offset) // 尾调用远程子过程, 有2条指令
+#define TAIL(offset) TAIL_2(offset) // Warning this have 2 instructions
+
+// csrr csr, rd (Read CSR)
+#define CSRR(csr, rd) CSRRS(rd, csr, REG_X0) // 读CSR寄存器
+
+// csrw csr, rs (Write CSR)
+#define CSR W(csr, rs) CSRRW(csr, REG_X0, rs) // 写CSR寄存器
+
+// csrs csr, rs (Set bits in CSR)
+#define CSRS(csr, rs) CSRRS(REG_X0, csr, rs) // CSR寄存器置零位
+
+// csrrc csr, rs (Clear bits in CSR)
+#define CSRC(csr, rs) CSRRC(REG_X0, csr, rs) // CSR寄存器清
+
+// csrci csr, imm (Immediate clear bits in CSR)
+#define CSRCI(csr, imm) CSRRCI(REG_X0, csr, imm) // 立即数清除CSR
+
+// csrrwi csr, imm (Write CSR immediate)
+#define CSRRWI2(csr, imm) CSRRWI(REG_X0, csr, imm) // 立即数写入CSR
+
+// csrrsi csr, imm (Immediate set bits in CSR)
+#define CSRRSI2(csr, imm) CSRRSI(REG_X0, csr, imm) // 立即数置位CSR
+
+// csrrci csr, imm (Immediate clear bits in CSR)
+#define CSRRCI2(csr, imm) CSRRCI(REG_X0, csr, imm) // 立即数清除CSR
+
+// // frcsr rd (Read FP control/status register)
+// #define FRC SR(rd) CSRRS(rd, FCSR, REG_X0) // 读取FP控制/状态寄存器
+
+// // fscsr rs (Write FP control/status register)
+// #define FSCSR(rs) CSRRW(REG_X0, FCSR, rs) // 写入FP控制/状态寄存器
+
+// // frrm rd (Read FP rounding mode)
+// #define FRRM(rd) CSRRS(rd, FRM, REG_X0) // 读取FP舍入模式
+
+// // fsrm rs (Write FP rounding mode)
+// #define FS RM(rs) CSRRW(REG_X0, FRM, rs) // 写入FP舍入模式
+
+// // frflags rd (Read FP exception flags)
+// #define FRFLAGS(rd) CSRRS(rd, FFLAGS, REG_X0) // 读取FP例外标志
+
+// // fsflags rs (Write FP exception flags)
+// #define FS FLAGS(rs) CSRRW(REG_X0, FFLAGS, rs) // 写入FP例外标志
+
+
+// Myriad sequences
+#define LI(rd, num) \
+    LUI(rd, num), \
+    ADDI(rd, rd, num)
+
+#define MV(rd, rs)  ADDI(rd, rs, 0)
+#define NOT(rd, rs) XORI(rd, rs, -1)
+#define CALL(offset) \
+    AUIPC(REG_X1, offset), \
+    JALR(REG_X1, REG_X1, offset)
+
+#define CALL_ABS(addr) \
+    AUIPC(REG_X0, addr), \
+    JALR(REG_X1, REG_X0, addr)
+
+#ifdef RISCV_VM_BUILDIN_ECALL
+#define ECALL_PNT_INT(num) \
+    ADDI(REG_A0, REG_X0, num), \
+    ADDI(REG_A7, REG_X0, 0x1), \
+    ECALL()
+
+#define ECALL_PNT_STR(str) \
+    ADDI(REG_A0, REG_X0, str), \
+    ADDI(REG_A7, REG_X0, 0x4), \
+    ECALL()
+
+#define ECALL_EXIT2() \
+    ADDI(REG_A7, REG_X0, 93), \
+    ECALL()
+
+#define ECALL_EXIT_ARG(errno) \
+    ADDI(REG_A0, REG_X0, errno), \
+    ECALL_EXIT2()
+
+#define ECALL_EXIT() \
+    ADDI(REG_A7, REG_X0, 93), \
+    ECALL()
+
+#define ECALL_SCAN_INT(int) \
+    ADDI(REG_A7, (1025 + 4)), \
+    ECALL()
+
+#define ECALL_SCAN_STR(str) \
+    ADDI(REG_A0, REG_X0, str), \
+    ADDI(REG_A7, REG_X0, (1025 + 5)), \
+    ECALL()
+#endif
+
+#endif