hart remake
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@@ -42,7 +42,7 @@ void regdump(const trv_cpu* cpu){
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case 24: printf("s8 "); break; case 25: printf("s9 "); break;
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case 26: printf("s10 "); break; case 27: printf("s11 "); break;
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case 28: printf("t3 "); break; case 29: printf("t4 "); break;
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case 30: printf("t5 "); break; case 31: printf("t5 "); break;
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case 30: printf("t5 "); break; case 31: printf("t6 "); break;
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}
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printf(" ");
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140
src/tinyriscv.h
140
src/tinyriscv.h
@@ -12,100 +12,100 @@ typedef int16_t i16;
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typedef int32_t i32;
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typedef struct{
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u32 regs[32], pc, mem_size;
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u32 x[32], pc, mem_size;
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u8* mem;
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}trv_cpu;
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}tinyriscv_hart;
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const u32 trv_MEM_OFFSET = 0x80000000;
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const u32 tinyriscv_MEM_OFFSET = 0x80000000;
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static inline u8 load8(const u8* mem, const u32 addr){
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return mem[addr - trv_MEM_OFFSET];
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return mem[addr - tinyriscv_MEM_OFFSET];
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}
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static inline u16 load16(const u8* mem, const u32 addr){
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return *(u16*)(mem + addr - trv_MEM_OFFSET);
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return *(u16*)(mem + addr - tinyriscv_MEM_OFFSET);
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}
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static inline u32 load32(const u8* mem, const u32 addr){
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return *(u32*)(mem + addr - trv_MEM_OFFSET);
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return *(u32*)(mem + addr - tinyriscv_MEM_OFFSET);
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}
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static inline void store8(u8* mem, const u32 addr, const u8 val){
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mem[addr - trv_MEM_OFFSET] = val;
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mem[addr - tinyriscv_MEM_OFFSET] = val;
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}
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static inline void store16(u8* mem, const u32 addr, const u16 val){
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*(u16*)(mem + addr - trv_MEM_OFFSET) = val;
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*(u16*)(mem + addr - tinyriscv_MEM_OFFSET) = val;
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}
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static inline void store32(u8* mem, const u32 addr, const u32 val){
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*(u32*)(mem + addr - trv_MEM_OFFSET) = val;
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*(u32*)(mem + addr - tinyriscv_MEM_OFFSET) = val;
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}
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void trv_B_type(u32* pc, const u8 func3, const u32 regs[32], const u8 rs1,
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void tinyriscv_b_type(u32* pc, const u8 func3, const u32 x[32], const u8 rs1,
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const u8 rs2, const i16 imm){
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pc -= 4;
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switch(func3){
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case /*BEQ*/ 0x0: if(regs[rs1] == regs[rs2]) *pc += (i32)imm - 4; break;
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case /*BNE*/ 0x1: if(regs[rs1] != regs[rs2]) *pc += (i32)imm - 4; break;
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case /*BLT*/ 0x4:
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if((i32)regs[rs1] < (i32)regs[rs2]) *pc += (i32)imm - 4;
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break;
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case /*BGE*/ 0x5:
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if((i32)regs[rs1] >= (i32)regs[rs2]) *pc += (i32)imm - 4;
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break;
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case /*BLTU*/ 0x6: if(regs[rs1] < regs[rs2]) *pc += (i32)imm - 4; break;
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case /*BGEU*/ 0x7: if(regs[rs1] >= regs[rs2]) *pc += (i32)imm - 4; break;
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case /*BEQ*/ 0: if(x[rs1] == x[rs2]) *pc += (i32)imm; break;
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case /*BNE*/ 1: if(x[rs1] != x[rs2]) *pc += (i32)imm; break;
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case /*BLT*/ 4: if((i32)x[rs1] < (i32)x[rs2]) *pc += (i32)imm; break;
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case /*BGE*/ 5: if((i32)x[rs1] >= (i32)x[rs2]) *pc += (i32)imm; break;
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case /*BLTU*/ 6: if(x[rs1] < x[rs2]) *pc += (i32)imm; break;
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case /*BGEU*/ 7: if(x[rs1] >= x[rs2]) *pc += (i32)imm; break;
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}
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}
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void trv_L_type(const u8* mem, const u8 func3, u32 regs[32], const u8 rd,
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void tinyriscv_l_type(const u8* mem, const u8 func3, u32 x[32], const u8 rd,
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const u8 rs1, const i16 imm){
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const u32 addr = regs[rs1] + (i32)imm;
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const u32 addr = x[rs1] + (i32)imm;
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switch(func3){
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case /*LB*/ 0x0: regs[rd] = (i32)(i8)load8(mem, addr); break;
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case /*LH*/ 0x1: regs[rd] = (i32)(i16)load16(mem, addr); break;
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case /*LW*/ 0x2: regs[rd] = load32(mem, addr); break;
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case /*LBU*/ 0x4: regs[rd] = load8(mem, addr); break;
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case /*LHU*/ 0x5: regs[rd] = load16(mem, addr); break;
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case /*LB*/ 0: x[rd] = (i32)(i8)load8(mem, addr); break;
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case /*LH*/ 1: x[rd] = (i32)(i16)load16(mem, addr); break;
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case /*LW*/ 2: x[rd] = load32(mem, addr); break;
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case /*LBU*/ 4: x[rd] = load8(mem, addr); break;
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case /*LHU*/ 5: x[rd] = load16(mem, addr); break;
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}
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}
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void trv_S_type(u8* mem, const u8 func3, const u32 regs[32], const u8 rs1,
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void tinyriscv_s_type(u8* mem, const u8 func3, const u32 x[32], const u8 rs1,
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const u8 rs2, const i16 imm){
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const u32 addr = regs[rs1] + (i32)imm;
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const u32 addr = x[rs1] + (i32)imm;
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switch(func3){
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case /*SB*/ 0x0: store8(mem, addr, regs[rs2]); break;
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case /*SH*/ 0x1: store16(mem, addr, regs[rs2]); break;
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case /*SW*/ 0x2: store32(mem, addr, regs[rs2]); break;
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case /*SB*/ 0: store8(mem, addr, x[rs2]); break;
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case /*SH*/ 1: store16(mem, addr, x[rs2]); break;
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case /*SW*/ 2: store32(mem, addr, x[rs2]); break;
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}
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}
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void trv_I_type(const u8 func3, const u8 func7, u32 regs[32], const u8 rd,
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const u8 rs1, const u8 rs2, const i16 imm){
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void tinyriscv_i_type(const u8 func3, const u8 func7, u32 x[32], const u8 rd,
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const u8 rs1, const i16 imm, const u8 shamt){
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#define ADDI (x[rd] = x[rs1] + (i32)imm)
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#define SLTI (x[rd] = (i32)x[rs1] < (i32)imm)
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#define SLTIU (x[rd] = x[rs1] < (u32)(i32)imm)
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#define XORI (x[rd] = x[rs1] ^ (i32)imm)
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#define ORI (x[rd] = x[rs1] | (i32)imm)
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#define ANDI (x[rd] = x[rs1] & (i32)imm)
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#define SLLI (x[rd] = x[rs1] << shamt)
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#define SRLI (x[rd] = x[rs1] >> shamt)
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#define SRAI (x[rd] = (i32)x[rs1] >> shamt)
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switch(func3){
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case /*ADDI*/ 0x0: regs[rd] = regs[rs1] + (i32)imm; break;
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case /*SLTI*/ 0x2: regs[rd] = (i32)regs[rs1] < (i32)imm; break;
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case /*SLTIU*/ 0x3: regs[rd] = regs[rs1] < (u32)(i32)imm; break;
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case /*XORI*/ 0x4: regs[rd] = regs[rs1] ^ (i32)imm; break;
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case /*ORI*/ 0x6: regs[rd] = regs[rs1] | (i32)imm; break;
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case /*ANDI*/ 0x7: regs[rd] = regs[rs1] & (i32)imm; break;
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case /*SLLI*/ 0x1: regs[rd] = regs[rs1] << rs2; break;
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case /*SRLI/SRAI*/ 0x5:
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if(func7 == /*SRLI*/ 0x00) regs[rd] = regs[rs1] >> rs2;
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else if(func7 == /*SRAI*/ 0x20) regs[rd] = (i32)regs[rs1] >> rs2;
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break;
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case 0: ADDI; break; case 1: SLLI; break;
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case 2: SLTI; break; case 3: SLTIU; break;
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case 4: XORI; break;
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case 5: func7 ? SRAI : SRLI; break;
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case 6: ORI; break; case 7: ANDI; break;
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}
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}
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void tinyriscv_R_type(const u8 func3, const u8 func7, u32 x[32], const u8 rd,
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void tinyriscv_r_type(const u8 func3, const u8 func7, u32 x[32], const u8 rd,
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const u8 rs1, const u8 rs2){
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#define ADD (x[rd] = x[rs1] + x[rs2])
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@@ -128,10 +128,10 @@ void tinyriscv_R_type(const u8 func3, const u8 func7, u32 x[32], const u8 rd,
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}
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}
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void trv_step(trv_cpu* cpu){
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void tinyriscv_step(tinyriscv_hart* hart){
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//fetch
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const u32 inst = load32(cpu->mem, cpu->pc);
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cpu->pc += 4;
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const u32 inst = load32(hart->mem, hart->pc);
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hart->pc += 4;
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//decode
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#define opcode (inst & 0x7f)
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@@ -140,39 +140,39 @@ void trv_step(trv_cpu* cpu){
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#define rd (inst >> 7 & 0x1f)
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#define rs1 (inst >> 15 & 0x1f)
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#define rs2 (inst >> 20 & 0x1f)
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#define imm_I ((i32)inst >> 20)
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#define imm_S (imm_I & 0xffffffe0 | rd)
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#define imm_i ((i32)inst >> 20)
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#define imm_s (imm_i & 0xffffffe0 | rd)
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#define imm_B (((i32)(inst & 0x80000000) >> 19) | \
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#define imm_b (((i32)(inst & 0x80000000) >> 19) | \
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((inst & 0x80) << 4) | (inst >> 20 & 0x7e0) | (inst >> 7 & 0x1e))
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#define imm_J (((i32)(inst & 0x80000000) >> 11) | (inst & 0xff000) | \
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#define imm_j (((i32)(inst & 0x80000000) >> 11) | (inst & 0xff000) | \
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(inst >> 9 & 0x800) | (inst >> 20 & 0x7fe))
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//execute
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cpu->regs[0] = 0;
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hart->x[0] = 0;
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switch(opcode){
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case /*LUI*/ 0x37: cpu->regs[rd] = inst & 0xfffff000; break;
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case /*AUIPC*/ 0x17: cpu->regs[rd] = cpu->pc + (inst & 0xfffff000); break;
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case /*JAL*/ 0x6f: cpu->regs[rd] = cpu->pc; cpu->pc += imm_J - 4; break;
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case /*LUI*/ 0x37: hart->x[rd] = inst & 0xfffff000; break;
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case /*AUIPC*/ 0x17: hart->x[rd] = hart->pc + (inst & 0xfffff000); break;
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case /*JAL*/ 0x6f: hart->x[rd] = hart->pc; hart->pc += imm_j - 4; break;
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case /*JALR*/ 0x67:
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const u32 last_pc = cpu->pc;
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cpu->pc = (cpu->regs[rs1] + (i32)imm_I) & 0xfffffffe;
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cpu->regs[rd] = last_pc;
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const u32 last_pc = hart->pc;
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hart->pc = (hart->x[rs1] + (i32)imm_i) & 0xfffffffe;
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hart->x[rd] = last_pc;
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break;
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case 0x63: trv_B_type(&cpu->pc, func3, cpu->regs, rs1, rs2, imm_B); break;
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case 0x03: trv_L_type(cpu->mem, func3, cpu->regs, rd, rs1, imm_I); break;
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case 0x23: trv_S_type(cpu->mem, func3, cpu->regs, rs1, rs2, imm_S); break;
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case 0x13: trv_I_type(func3, func7, cpu->regs, rd, rs1, rs2, imm_I); break;
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case 0x33: trv_R_type(func3, func7, cpu->regs, rd, rs1, rs2); break;
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case 0x63: tinyriscv_b_type(&hart->pc, func3, hart->x, rs1, rs2, imm_b); break;
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case 0x03: tinyriscv_l_type(hart->mem, func3, hart->x, rd, rs1, imm_i); break;
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case 0x23: tinyriscv_s_type(hart->mem, func3, hart->x, rs1, rs2, imm_s); break;
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case 0x13: tinyriscv_i_type(func3, func7, hart->x, rd, rs1, imm_i, rs2); break;
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case 0x33: tinyriscv_r_type(func3, func7, hart->x, rd, rs1, rs2); break;
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}
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}
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void trv_init(trv_cpu* cpu){
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cpu->regs[2] = trv_MEM_OFFSET + cpu->mem_size;
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cpu->pc = trv_MEM_OFFSET;
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void tinyriscv_init(tinyriscv_hart* hart){
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hart->x[2] = tinyriscv_MEM_OFFSET + hart->mem_size;
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hart->pc = tinyriscv_MEM_OFFSET;
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}
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#endif //TINYRISCV_H
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