#ifdef TARGET_DEFS_ONLY // Number of registers available to allocator: #define NB_REGS 16 // x10-x17 aka a0-a7, f10-f17 aka fa0-fa7 #define TREG_R(x) (x) // x = 0..7 #define TREG_F(x) (x + 8) // x = 0..7 // Register classes sorted from more general to more precise: #define RC_INT (1 << 0) #define RC_FLOAT (1 << 1) #define RC_R(x) (1 << (2 + (x))) // x = 0..7 #define RC_F(x) (1 << (10 + (x))) // x = 0..7 #define RC_IRET (RC_R(0)) // int return register class #define RC_FRET (RC_F(0)) // float return register class #define REG_IRET (TREG_R(0)) // int return register number #define REG_FRET (TREG_F(0)) // float return register number #define PTR_SIZE 8 #define LDOUBLE_SIZE 16 #define LDOUBLE_ALIGN 16 #define MAX_ALIGN 16 #define CHAR_IS_UNSIGNED #else #include "tcc.h" #include #define XLEN 8 #define TREG_RA 17 #define TREG_SP 18 ST_DATA const int reg_classes[NB_REGS] = { RC_INT | RC_R(0), RC_INT | RC_R(1), RC_INT | RC_R(2), RC_INT | RC_R(3), RC_INT | RC_R(4), RC_INT | RC_R(5), RC_INT | RC_R(6), RC_INT | RC_R(7), RC_FLOAT | RC_F(0), RC_FLOAT | RC_F(1), RC_FLOAT | RC_F(2), RC_FLOAT | RC_F(3), RC_FLOAT | RC_F(4), RC_FLOAT | RC_F(5), RC_FLOAT | RC_F(6), RC_FLOAT | RC_F(7) }; static int ireg(int r) { if (r == TREG_RA) return 1; // ra if (r == TREG_SP) return 2; // sp assert(r >= 0 && r < 8); return r + 10; // tccrX --> aX == x(10+X) } static int is_ireg(int r) { return r < 8 || r == TREG_RA || r == TREG_SP; } static int freg(int r) { assert(r >= 8 && r < 16); return r - 8 + 10; // tccfX --> faX == f(10+X) } static int is_freg(int r) { return r >= 8 && r < 16; } ST_FUNC void o(unsigned int c) { int ind1 = ind + 4; if (nocode_wanted) return; if (ind1 > cur_text_section->data_allocated) section_realloc(cur_text_section, ind1); write32le(cur_text_section->data + ind, c); ind = ind1; } static void EI(uint32_t opcode, uint32_t func3, uint32_t rd, uint32_t rs1, uint32_t imm) { assert(! ((imm + (1 << 11)) >> 12)); o(opcode | (func3 << 12) | (rd << 7) | (rs1 << 15) | (imm << 20)); } static void ES(uint32_t opcode, uint32_t func3, uint32_t rs1, uint32_t rs2, uint32_t imm) { assert(! ((imm + (1 << 11)) >> 12)); o(opcode | (func3 << 12) | ((imm & 0x1f) << 7) | (rs1 << 15) | (rs2 << 20) | ((imm >> 5) << 25)); } // Patch all branches in list pointed to by t to branch to a: ST_FUNC void gsym_addr(int t_, int a_) { uint32_t t = t_; uint32_t a = a_; while (t) { unsigned char *ptr = cur_text_section->data + t; uint32_t next = read32le(ptr); uint32_t r = a - t, imm; if ((r + (1 << 21)) & ~((1U << 22) - 2)) tcc_error("out-of-range branch chain"); imm = (((r >> 12) & 0xff) << 12) | (((r >> 11) & 1) << 20) | (((r >> 1) & 0x3ff) << 21) | (((r >> 20) & 1) << 31); write32le(ptr, r == 4 ? 0x33 : 0x6f | imm); // nop || j imm t = next; } } ST_FUNC void load(int r, SValue *sv) { int fr = sv->r; int v = fr & VT_VALMASK; int rr = is_ireg(r) ? ireg(r) : freg(r); int fc = sv->c.i; int bt = sv->type.t & VT_BTYPE; int align, size = type_size(&sv->type, &align); if (fr & VT_LVAL) { int func3, opcode = 0x03; if (is_freg(r)) { assert(bt == VT_DOUBLE || bt == VT_FLOAT); opcode = 0x07; func3 = bt == VT_DOUBLE ? 3 : 2; } else { assert(is_ireg(r)); if (bt == VT_FUNC) size = PTR_SIZE; func3 = size == 1 ? 0 : size == 2 ? 1 : size == 4 ? 2 : 3; if (size < 8 && !is_float(sv->type.t) && (sv->type.t & VT_UNSIGNED)) func3 |= 4; } if (v == VT_LOCAL) { if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: load(large local ofs) (0x%x)", fc); EI(opcode, func3, rr, 8, fc); // l[bhwd][u]/fl[wd] RR, fc(s0) } else if (v < VT_CONST) { /*if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: load(large addend) (0x%x)", fc);*/ fc = 0; // XXX store ofs in LVAL(reg) EI(opcode, func3, rr, ireg(v), fc); // l[bhwd][u] RR, 0(V) } else if (v == VT_CONST && (fr & VT_SYM)) { static Sym label; int addend = 0, tempr; if (1 || ((unsigned)fc + (1 << 11)) >> 12) addend = fc, fc = 0; greloca(cur_text_section, sv->sym, ind, R_RISCV_PCREL_HI20, addend); if (!label.v) { label.v = tok_alloc(".L0 ", 4)->tok; label.type.t = VT_VOID | VT_STATIC; } label.c = 0; /* force new local ELF symbol */ put_extern_sym(&label, cur_text_section, ind, 0); tempr = is_ireg(r) ? rr : ireg(get_reg(RC_INT)); o(0x17 | (tempr << 7)); // auipc TR, 0 %pcrel_hi(sym)+addend greloca(cur_text_section, &label, ind, R_RISCV_PCREL_LO12_I, 0); EI(opcode, func3, rr, tempr, fc); // l[bhwd][u] RR, fc(TR) } else if (v == VT_LLOCAL) { int tempr = rr; if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: load(large local ofs) (0x%x)", fc); if (!is_ireg(r)) tempr = ireg(get_reg(RC_INT)); EI(0x03, 3, tempr, 8, fc); // ld TEMPR, fc(s0) EI(opcode, func3, rr, tempr, 0); // l[bhwd][u] RR, 0(TEMPR) } else { tcc_error("unimp: load(non-local lval)"); } } else if (v == VT_CONST) { int rb = 0; assert(!is_float(sv->type.t) && is_ireg(r)); if (fc != sv->c.i) tcc_error("unimp: load(very large const)"); if (fr & VT_SYM) { static Sym label; greloca(cur_text_section, sv->sym, ind, R_RISCV_PCREL_HI20, fc); if (!label.v) { label.v = tok_alloc(".L0 ", 4)->tok; label.type.t = VT_VOID | VT_STATIC; } label.c = 0; /* force new local ELF symbol */ put_extern_sym(&label, cur_text_section, ind, 0); o(0x17 | (rr << 7)); // auipc RR, 0 %call(func) greloca(cur_text_section, &label, ind, R_RISCV_PCREL_LO12_I, 0); rb = rr; fc = 0; } if (is_float(sv->type.t)) tcc_error("unimp: load(float)"); if (((unsigned)fc + (1 << 11)) >> 12) o(0x37 | (rr << 7) | ((0x800 + fc) & 0xfffff000)), rb = rr; //lui RR, upper(fc) EI(0x13, 0, rr, rb, fc << 20 >> 20); // addi R, x0|R, FC } else if (v == VT_LOCAL) { assert(is_ireg(r)); if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: load(addr large local ofs) (0x%x)", fc); EI(0x13, 0, rr, 8, fc); // addi R, s0, FC } else if (v < VT_CONST) { /* reg-reg */ //assert(!fc); XXX support offseted regs if (is_freg(r) && is_freg(v)) o(0x53 | (rr << 7) | (freg(v) << 15) | (freg(v) << 20) | ((bt == VT_DOUBLE ? 0x11 : 0x10) << 25)); //fsgnj.[sd] RR, V, V == fmv.[sd] RR, V else if (is_ireg(r) && is_ireg(v)) EI(0x13, 0, rr, ireg(v), 0); // addi RR, V, 0 == mv RR, V else { int func7 = is_ireg(r) ? 0x70 : 0x78; if (size == 8) func7 |= 1; assert(size == 4 || size == 8); o(0x53 | (rr << 7) | ((is_freg(v) ? freg(v) : ireg(v)) << 15) | (func7 << 25)); // fmv.{w.x, x.w, d.x, x.d} RR, VR } } else if (v == VT_CMP) { // we rely on cmp_r to be the correct result EI(0x13, 0, rr, vtop->cmp_r, 0); // mv RR, CMP_R } else if ((v & ~1) == VT_JMP) { int t = v & 1; assert(is_ireg(r)); EI(0x13, 0, rr, 0, t); // addi RR, x0, t gjmp_addr(ind + 8); gsym(fc); EI(0x13, 0, rr, 0, t ^ 1); // addi RR, x0, !t } else tcc_error("unimp: load(non-const)"); } ST_FUNC void store(int r, SValue *sv) { int fr = sv->r & VT_VALMASK; int rr = is_ireg(r) ? ireg(r) : freg(r); int fc = sv->c.i; int ft = sv->type.t; int bt = ft & VT_BTYPE; int align, size = type_size(&sv->type, &align); assert(!is_float(bt) || is_freg(r)); if (bt == VT_STRUCT) tcc_error("unimp: store(struct)"); if (size > 8) tcc_error("unimp: large sized store"); assert(sv->r & VT_LVAL); if (fr == VT_LOCAL) { if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: store(large local off) (0x%x)", fc); if (is_freg(r)) ES(0x27, size == 4 ? 2 : 3, 8, rr, fc); // fs[wd] RR, fc(s0) else ES(0x23, size == 1 ? 0 : size == 2 ? 1 : size == 4 ? 2 : 3, 8, rr, fc); // s[bhwd] RR, fc(s0) } else if (fr < VT_CONST) { int ptrreg = ireg(fr); /*if (((unsigned)fc + (1 << 11)) >> 12) tcc_error("unimp: store(large addend) (0x%x)", fc);*/ fc = 0; // XXX support offsets regs if (is_freg(r)) ES(0x27, size == 4 ? 2 : 3, ptrreg, rr, fc); // fs[wd] RR, fc(PTRREG) else ES(0x23, size == 1 ? 0 : size == 2 ? 1 : size == 4 ? 2 : 3, ptrreg, rr, fc); // s[bhwd] RR, fc(PTRREG) } else if (sv->r == (VT_CONST | VT_SYM | VT_LVAL)) { static Sym label; int tempr, addend = 0; if (1 || ((unsigned)fc + (1 << 11)) >> 12) addend = fc, fc = 0; tempr = ireg(get_reg(RC_INT)); greloca(cur_text_section, sv->sym, ind, R_RISCV_PCREL_HI20, addend); if (!label.v) { label.v = tok_alloc(".L0 ", 4)->tok; label.type.t = VT_VOID | VT_STATIC; } label.c = 0; /* force new local ELF symbol */ put_extern_sym(&label, cur_text_section, ind, 0); o(0x17 | (tempr << 7)); // auipc TEMPR, 0 %pcrel_hi(sym)+addend greloca(cur_text_section, &label, ind, R_RISCV_PCREL_LO12_S, 0); if (is_freg(r)) ES(0x27, size == 4 ? 2 : 3, tempr, rr, fc); // fs[wd] RR, fc(TEMPR) else ES(0x23, size == 1 ? 0 : size == 2 ? 1 : size == 4 ? 2 : 3, tempr, rr, fc); // s[bhwd] RR, fc(TEMPR) } else tcc_error("implement me: %s(!local)", __FUNCTION__); } static void gcall(void) { if ((vtop->r & (VT_VALMASK | VT_LVAL)) == VT_CONST && ((vtop->r & VT_SYM) && vtop->c.i == (int)vtop->c.i)) { /* constant symbolic case -> simple relocation */ greloca(cur_text_section, vtop->sym, ind, R_RISCV_CALL_PLT, (int)vtop->c.i); o(0x17 | (1 << 7)); // auipc ra, 0 %call(func) o(0x80e7); // jalr ra, 0 %call(func) } else if ((vtop->r & VT_VALMASK) < VT_CONST) { int r = ireg(vtop->r & VT_VALMASK); EI(0x67, 0, 1, r, 0); // jalr ra, 0(R) } else { int r = TREG_RA; load(r, vtop); r = ireg(r); EI(0x67, 0, 1, r, 0); // jalr ra, 0(R) } } ST_FUNC void gfunc_call(int nb_args) { int i, align, size, aireg, afreg; int info[nb_args ? nb_args : 1]; int stack_adj = 0, ofs; SValue *sv; Sym *sa; aireg = afreg = 0; sa = vtop[-nb_args].type.ref->next; for (i = 0; i < nb_args; i++) { int *pareg; sv = &vtop[1 + i - nb_args]; sv->type.t &= ~VT_ARRAY; // XXX this should be done in tccgen.c size = type_size(&sv->type, &align); if (size > 8 || ((sv->type.t & VT_BTYPE) == VT_STRUCT)) tcc_error("unimp: call arg %d wrong type", nb_args - i); pareg = sa && is_float(sv->type.t) ? &afreg : &aireg; if (*pareg < 8) { info[i] = *pareg + (sa && is_float(sv->type.t) ? 8 : 0); (*pareg)++; } else { info[i] = 16; stack_adj += (size + align - 1) & -align; } if (sa) sa = sa->next; } stack_adj = (stack_adj + 15) & -16; if (stack_adj) { EI(0x13, 0, 2, 2, -stack_adj); // addi sp, sp, -adj for (i = ofs = 0; i < nb_args; i++) { if (1 && info[i] >= 16) { vrotb(nb_args - i); size = type_size(&vtop->type, &align); /* Once we support offseted regs we can do this: vset(&vtop->type, TREG_SP | VT_LVAL, ofs); to construct the lvalue for the outgoing stack slot, until then we have to jump through hoops. */ vset(&char_pointer_type, TREG_SP, 0); vpushi(ofs); gen_op('+'); indir(); vtop->type = vtop[-1].type; vswap(); vstore(); vrott(nb_args - i); ofs += (size + align - 1) & -align; ofs = (ofs + 7) & -8; } } } for (i = 0; i < nb_args; i++) { int r = info[nb_args - 1 - i]; if (r < 16) { vrotb(i+1); gv(r < 8 ? RC_R(r) : RC_F(r - 8)); vrott(i+1); } } vrotb(nb_args + 1); gcall(); vtop -= nb_args + 1; if (stack_adj) EI(0x13, 0, 2, 2, stack_adj); // addi sp, sp, adj } static int func_sub_sp_offset; ST_FUNC void gfunc_prolog(CType *func_type) { int i, addr, align, size; int param_addr = 0; int aireg, afreg; Sym *sym; CType *type; sym = func_type->ref; func_vt = sym->type; loc = -16; // for ra and s0 func_sub_sp_offset = ind; ind += 4 * 4; if (sym->f.func_type == FUNC_ELLIPSIS) { tcc_error("unimp: vararg prologue"); } aireg = afreg = 0; addr = 0; // XXX not correct /* if the function returns a structure, then add an implicit pointer parameter */ size = type_size(&func_vt, &align); if (size > 2 * XLEN) { tcc_error("unimp: struct return"); func_vc = loc; } /* define parameters */ while ((sym = sym->next) != NULL) { type = &sym->type; size = type_size(type, &align); if (size > 2 * XLEN) { from_stack: addr = (addr + align - 1) & -align; param_addr = addr; addr += size; } else { int regcount = 1; if (size > XLEN) regcount++, tcc_error("unimp: scalars > 64bit"); if (regcount + (is_float(type->t) ? afreg : aireg) >= 8) goto from_stack; loc -= regcount * 8; // XXX could reserve only 'size' bytes param_addr = loc; for (i = 0; i < regcount; i++) { if (is_float(type->t)) { assert(type->t == VT_FLOAT || type->t == VT_DOUBLE); ES(0x27, size == 4 ? 2 : 3, 8, 10 + afreg, loc + i*8); // fs[wd] FAi, loc(s0) afreg++; } else { ES(0x23, 3, 8, 10 + aireg, loc + i*8); // sd aX, loc(s0) // XXX aireg++; } } } sym_push(sym->v & ~SYM_FIELD, type, VT_LOCAL | lvalue_type(type->t), param_addr); } } ST_FUNC int gfunc_sret(CType *vt, int variadic, CType *ret, int *ret_align, int *regsize) { /* generic code can only deal with structs of pow(2) sizes (it always deals with whole registers), so go through our own code. */ return 0; } ST_FUNC void gfunc_return(CType *func_type) { int align, size = type_size(func_type, &align); if ((func_type->t & VT_BTYPE) == VT_STRUCT || size > 2 * XLEN) { tcc_error("unimp: struct or large return"); } if (is_float(func_type->t)) gv(RC_FRET); else gv(RC_IRET); vtop--; } ST_FUNC void gfunc_epilog(void) { int v, saved_ind; v = (-loc + 15) & -16; EI(0x03, 3, 1, 2, v - 8); // ld ra, v-8(sp) EI(0x03, 3, 8, 2, v - 16); // ld s0, v-16(sp) EI(0x13, 0, 2, 2, v); // addi sp, sp, v EI(0x67, 0, 0, 1, 0); // jalr x0, 0(x1), aka ret saved_ind = ind; ind = func_sub_sp_offset; EI(0x13, 0, 2, 2, -v); // addi sp, sp, -v ES(0x23, 3, 2, 1, v - 8); // sd ra, v-8(sp) ES(0x23, 3, 2, 8, v - 16); // sd s0, v-16(sp) EI(0x13, 0, 8, 2, v); // addi s0, sp, v ind = saved_ind; } ST_FUNC void gen_va_start(void) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_va_arg(CType *t) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_fill_nops(int bytes) { tcc_error("implement me: %s", __FUNCTION__); if ((bytes & 3)) tcc_error("alignment of code section not multiple of 4"); } // Generate forward branch to label: ST_FUNC int gjmp(int t) { if (nocode_wanted) return t; o(t); return ind - 4; } // Generate branch to known address: ST_FUNC void gjmp_addr(int a) { uint32_t r = a - ind, imm; if ((r + (1 << 21)) & ~((1U << 22) - 2)) tcc_error("out-of-range jump"); imm = (((r >> 12) & 0xff) << 12) | (((r >> 11) & 1) << 20) | (((r >> 1) & 0x3ff) << 21) | (((r >> 20) & 1) << 31); o(0x6f | imm); // jal x0, imm == j imm } ST_FUNC int gjmp_cond(int op, int t) { int inv = op & 1; assert(op == TOK_EQ || op == TOK_NE); assert(vtop->cmp_r >= 10 && vtop->cmp_r < 18); o(0x63 | (!inv << 12) | (vtop->cmp_r << 15) | (8 << 7)); // bne/beq x0,r,+4 return gjmp(t); } ST_FUNC int gjmp_append(int n, int t) { void *p; /* insert jump list n into t */ if (n) { uint32_t n1 = n, n2; while ((n2 = read32le(p = cur_text_section->data + n1))) n1 = n2; write32le(p, t); t = n; } return t; } static void gen_opil(int op, int ll) { int a, b, d; int inv = 0; int func3 = 0, func7 = 0; /* XXX We could special-case some constant args. */ gv2(RC_INT, RC_INT); a = ireg(vtop[-1].r); b = ireg(vtop[0].r); vtop -= 2; d = get_reg(RC_INT); vtop++; vtop[0].r = d; d = ireg(d); switch (op) { case '%': case TOK_SAR: case TOK_SHR: case TOK_UDIV: case TOK_PDIV: case TOK_UMOD: default: tcc_error("implement me: %s(%s)", __FUNCTION__, get_tok_str(op, NULL)); case '+': o(0x33 | (d << 7) | (a << 15) | (b << 20)); // add d, a, b break; case '-': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (0x20 << 25)); //sub d, a, b break; case TOK_SHL: o(0x33 | (d << 7) | (a << 15) | (b << 20) | (1 << 12)); //sll d, a, b break; case '*': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (0x01 << 25)); //mul d, a, b break; case '/': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (0x01 << 25) | (4 << 12)); //div d, a, b break; case '&': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (7 << 12)); // and d, a, b break; case '^': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (4 << 12)); // xor d, a, b break; case '|': o(0x33 | (d << 7) | (a << 15) | (b << 20) | (6 << 12)); // or d, a, b break; case TOK_ULT: case TOK_UGE: case TOK_ULE: case TOK_UGT: case TOK_LT: case TOK_GE: case TOK_LE: case TOK_GT: if (op & 1) { // remove [U]GE,GT inv = 1; op--; } if ((op & 7) == 6) { // [U]LE int t = a; a = b; b = t; inv ^= 1; } o(0x33 | (d << 7) | (a << 15) | (b << 20) | (((op > TOK_UGT) ? 2 : 3) << 12)); // slt[u] d, a, b if (inv) EI(0x13, 4, d, d, 1); // xori d, d, 1 vset_VT_CMP(TOK_NE); vtop->cmp_r = d; break; case TOK_NE: case TOK_EQ: o(0x33 | (d << 7) | (a << 15) | (b << 20) | (0x20 << 25)); // sub d, a, b if (op == TOK_NE) o(0x33 | (3 << 12) | (d << 7) | (0 << 15) | (d << 20)); // sltu d, x0, d == snez d,d else EI(0x13, 3, d, d, 1); // sltiu d, d, 1 == seqz d,d vset_VT_CMP(TOK_NE); vtop->cmp_r = d; break; } } ST_FUNC void gen_opi(int op) { gen_opil(op, 0); } ST_FUNC void gen_opl(int op) { gen_opil(op, 1); } ST_FUNC void gen_opf(int op) { int rs1, rs2, rd, dbl, invert; gv2(RC_FLOAT, RC_FLOAT); assert(vtop->type.t == VT_DOUBLE || vtop->type.t == VT_FLOAT); dbl = vtop->type.t == VT_DOUBLE; rs1 = freg(vtop[-1].r); rs2 = freg(vtop->r); vtop--; invert = 0; switch(op) { default: assert(0); case '+': op = 0; // fadd arithop: rd = get_reg(RC_FLOAT); vtop->r = rd; rd = freg(rd); o(0x53 | (rd << 7) | (rs1 << 15) | (rs2 << 20) | (7 << 12) | (dbl << 25) | (op << 27)); // fop.[sd] RD, RS1, RS2 (dyn rm) break; case '-': op = 1; // fsub goto arithop; case '*': op = 2; // fmul goto arithop; case '/': op = 3; // fdiv goto arithop; case TOK_EQ: op = 2; // EQ cmpop: rd = get_reg(RC_INT); vtop->r = rd; rd = ireg(rd); o(0x53 | (rd << 7) | (rs1 << 15) | (rs2 << 20) | (op << 12) | (dbl << 25) | (0x14 << 27)); // fcmp.[sd] RD, RS1, RS2 (op == eq/lt/le) if (invert) EI(0x13, 4, rd, rd, 1); // xori RD, 1 break; case TOK_NE: invert = 1; op = 2; // EQ goto cmpop; case TOK_LT: op = 1; // LT goto cmpop; case TOK_LE: op = 0; // LE goto cmpop; case TOK_GT: op = 1; // LT rd = rs1, rs1 = rs2, rs2 = rd; goto cmpop; case TOK_GE: op = 0; // LE rd = rs1, rs1 = rs2, rs2 = rd; goto cmpop; } } ST_FUNC void gen_cvt_sxtw(void) { /* XXX on risc-v the registers are usually sign-extended already. Let's try to not do anything here. */ } ST_FUNC void gen_cvt_itof(int t) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_cvt_ftoi(int t) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_cvt_ftof(int dt) { int st = vtop->type.t & VT_BTYPE, rs, rd; dt &= VT_BTYPE; assert (dt == VT_FLOAT || dt == VT_DOUBLE); assert (st == VT_FLOAT || st == VT_DOUBLE); if (st == dt) return; rs = gv(RC_FLOAT); rd = get_reg(RC_FLOAT); if (dt == VT_DOUBLE) EI(0x53, 7, freg(rd), freg(rs), 0x21 << 5); // fcvt.d.s RD, RS (dyn rm) else EI(0x53, 7, freg(rd), freg(rs), (0x20 << 5) | 1); // fcvt.s.d RD, RS vtop->r = rd; } ST_FUNC void ggoto(void) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_vla_sp_save(int addr) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_vla_sp_restore(int addr) { tcc_error("implement me: %s", __FUNCTION__); } ST_FUNC void gen_vla_alloc(CType *type, int align) { tcc_error("implement me: %s", __FUNCTION__); } #endif