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// ============================================================================ // __ // \\__/ o\ (C) 2012-2018 Robert Finch, Waterloo // \ __ / All rights reserved. // \/_// robfinch<remove>@finitron.ca // || // // CC64 - 'C' derived language compiler // - 64 bit CPU // // This source file is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published // by the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This source file is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see <http://www.gnu.org/licenses/>. // // ============================================================================ // #include "stdafx.h" void put_mask(int mask); void align(int n); void roseg(); bool renamed = false; int64_t genst_cumulative; /* variable initialization */ enum e_gt { nogen, bytegen, chargen, halfgen, wordgen, longgen }; //enum e_sg { noseg, codeseg, dataseg, bssseg, idataseg }; int gentype = nogen; int curseg = noseg; int outcol = 0; // Please keep table in alphabetical order. // Instruction.cpp has the number of table elements hard-coded in it. // Instruction opl[] = { { ";", op_rem }, { "abs", op_abs,2,1,false,am_reg,am_reg,0,0 }, { "add",op_add,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "addu", op_addu,1,1 }, { "and",op_and,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "asl", op_asl,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "asr",op_asr,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "bbc", op_bbc,3,0,false,am_reg,am_ui6,0,0 }, { "bbs", op_bbs,3,0,false,am_reg,am_ui6,0,0 }, { "bchk", op_bchk,3,0 }, { "beq", op_beq,3,0,false,am_reg,am_reg|am_imm,0,0 }, { "beqi", op_beqi,3,0,false,am_reg,am_imm,0,0 }, { "bex", op_bex,0,0,false,0,0,0,0 }, { "bfext", op_bfext,2,1,false,am_reg }, { "bfextu", op_bfextu,2,1,false,am_reg, }, { "bfins", op_bfins,2,1,false,am_reg }, { "bge", op_bge,3,0,false,am_reg,am_reg,0,0 }, { "bgeu", op_bgeu,3,0,false,am_reg,am_reg,0,0 }, { "bgt", op_bgt,3,0,false,am_reg,am_reg,0,0 }, { "bgtu", op_bgtu,3,0,false,am_reg,am_reg,0,0 }, { "bhi",op_bhi,2,0, false, am_reg, am_reg,0,0 }, { "bhs",op_bhs,2,0, false, am_reg, am_reg,0,0 }, { "ble", op_ble, 3,0,false,am_reg,am_reg,0,0 }, { "bleu", op_bleu,3,0,false,am_reg,am_reg,0,0 }, { "blo",op_blo,2,0,false,am_reg,am_reg,0,0 }, { "bls",op_bls,2,0,false,am_reg,am_reg,0,0 }, { "blt", op_blt,3,0,false,am_reg,am_reg,0,0 }, { "bltu", op_bltu,3,0,false,am_reg,am_reg,0,0 }, { "bmi", op_bmi,2,0,false,am_reg,am_reg,0,0 }, { "bne", op_bne,3,0,false,am_reg,am_reg,0,0 }, { "bor", op_bor,3,0 }, { "br",op_br,3,0,false,0,0,0,0 }, { "bra",op_bra,3,0,false,0,0,0,0 }, { "brk", op_brk,1,0 }, { "bsr", op_bsr }, { "bun", op_bun,2,0 }, { "cache",op_cache,1,0 }, { "call", op_call,4,1,false,0,0,0,0 }, { "chk", op_chk,1,0 }, { "cmovenz", op_cmovenz,1,1,false,am_reg,am_reg,am_reg,am_reg }, { "cmp",op_cmp,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "cmpu",op_cmpu,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "com", op_com,2,1,false,am_reg,am_reg,0,0 }, { "csrrw", op_csrrw,1,1,false,am_reg }, { "dc",op_dc }, { "dec", op_dec,4,0,true,am_i5 }, { "div", op_div,68,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "divu",op_divu,68,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "dw", op_dw }, { "eor",op_eor,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "eq",op_eq }, { "ext",op_ext }, { "fadd", op_fadd, 6, 1, false, am_fpreg, am_fpreg, am_fpreg, 0 }, { "fadd", op_fdadd,6,1,false,am_fpreg,am_fpreg,am_fpreg,0 }, { "fadd.s", op_fsadd,6,1,false,am_fpreg,am_fpreg,am_fpreg,0 }, { "fbeq", op_fbeq,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fbge", op_fbge,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fbgt", op_fbgt,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fble", op_fble,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fblt", op_fblt,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fbne", op_fbne,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fbor", op_fbor,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fbun", op_fbun,3,0,false,am_fpreg,am_fpreg,0,0 }, { "fcmp", op_fcmp, 1,1,false,am_reg,am_fpreg,am_fpreg,0 }, { "fcvtdq", op_fcvtdq,2,1,false,am_fpreg,am_fpreg,0,0 }, { "fcvtsq", op_fcvtsq,2,1,false,am_fpreg,am_fpreg,0,0 }, { "fcvttq", op_fcvttq,2,1,false,am_fpreg,am_fpreg,0,0 }, { "fdiv", op_fdiv, 160, 1, false, am_fpreg, am_fpreg, am_fpreg, 0 }, { "fdiv.s", op_fsdiv,80,1,false }, { "fi2d", op_i2d,2,1,false }, { "fix2flt", op_fix2flt }, { "flt2fix",op_flt2fix }, { "fmov", op_fmov,1,1 }, { "fmov.d", op_fdmov,1,1 }, { "fmul", op_fdmul,10,1,false,am_fpreg,am_fpreg,am_fpreg,0 }, { "fmul", op_fmul, 10, 1, false, am_fpreg, am_fpreg, am_fpreg, 0 }, { "fmul.s", op_fsmul,10,1,false }, { "fneg", op_fneg,2,1,false,am_fpreg,am_fpreg,0,0 }, { "fs2d", op_fs2d,2,1,false,am_fpreg,am_fpreg,0,0 }, { "fslt", op_fslt, 1, 1, false, am_reg, am_fpreg, am_fpreg, 0 }, { "fsub", op_fdsub,6,1,false,am_fpreg,am_fpreg,am_fpreg,0 }, { "fsub", op_fsub, 6, 1, false, am_fpreg, am_fpreg, am_fpreg, 0 }, { "fsub.s", op_fssub,6,1,false }, { "ftadd", op_ftadd }, { "ftdiv", op_ftdiv }, { "ftmul", op_ftmul }, { "ftoi", op_ftoi, 2, 1, false, am_reg, am_fpreg, 0, 0 }, { "ftsub", op_ftsub }, { "ge",op_ge }, { "geu", op_geu }, { "gt",op_gt }, { "gtu",op_gtu }, { "hint", op_hint,0 }, { "hint2",op_hint2,0 }, { "ibne", op_ibne,3,1 ,false,am_reg,am_reg,0,0 }, { "inc", op_inc,4,0,true,am_i5,am_mem,0,0 }, { "iret", op_iret,2,0,false,0,0,0,0 }, { "itof", op_itof, 2, 1, false, am_fpreg, am_reg, 0, 0 }, { "jal", op_jal,1,1,false }, { "jmp",op_jmp,1,0,false,am_mem,0,0,0 }, { "lb", op_lb,4,1,true,am_reg,am_mem,0,0 }, { "lbu", op_lbu,4,1,true,am_reg,am_mem,0,0 }, { "lc", op_lc,4,1,true,am_reg,am_mem,0,0 }, { "lcu", op_lcu,4,1,true,am_reg,am_mem,0,0 }, { "ldi",op_ldi,1,1,false,am_reg,am_imm,0,0 }, { "le",op_le }, { "lea",op_lea,1,1,false,am_reg,am_mem,0,0 }, { "leu",op_leu }, { "lf", op_lf, 4, 1, true, am_fpreg, am_mem, 0, 0 }, { "lfd", op_lfd,4,1,true, am_fpreg, am_mem,0,0 }, { "lft", op_lft,4,1,true, am_fpreg, am_mem,0,0 }, { "lh", op_lh,4,1,true,am_reg,am_mem,0,0 }, { "lhu", op_lhu,4,1,true,am_reg,am_mem,0,0 }, { "link",op_link,4,1,true }, { "lm", op_lm }, { "loop", op_loop,1,0 }, { "lsr", op_lsr,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "lt",op_lt }, { "ltu", op_ltu }, { "lv", op_lv,256,1 }, { "lvbu", op_lvbu,4,1,true ,am_reg,am_mem,0,0 }, { "lvcu", op_lvcu,4,1,true ,am_reg,am_mem,0,0 }, { "lvhu", op_lvhu,4,1,true ,am_reg,am_mem,0,0 }, { "lw", op_lw,4,1,true,am_reg,am_mem,0,0 }, { "lwr", op_lwr,4,1,true,am_reg,am_mem,0,0 }, { "lws", op_lws,4,1,true }, { "mffp",op_mffp }, { "mod", op_mod,68,1, false,am_reg,am_reg,am_reg|am_imm,0 }, { "modu", op_modu,68,1,false,am_reg,am_reg,am_reg,0 }, { "mov", op_mov,1,1,false,am_reg|am_fpreg,am_reg|am_fpreg,0,0 }, { "move",op_move,1,1,false,am_reg | am_fpreg,am_reg | am_fpreg,0,0 }, { "movs", op_movs }, { "mtfp", op_mtfp }, { "mul",op_mul,18,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "mulu",op_mulu,10,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "nand",op_nand,1,1,false,am_reg,am_reg,am_reg,0 }, { "ne",op_ne }, { "neg",op_neg, 1, 1, false,am_reg,am_reg,0,0 }, { "nop", op_nop,0,0,false }, { "nor",op_nor,1,1,false,am_reg,am_reg,am_reg,0 }, { "not", op_not,2,1,false,am_reg,am_reg,0,0 }, { "not",op_not,2,1, false,am_reg, am_reg,0,0 }, { "nr", op_nr }, { "or",op_or,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "pea", op_pea }, { "pea",op_pea }, { "phi", op_phi }, { "pop", op_pop,4,2,true,am_reg,am_reg,0,0 }, { "popf", op_popf,4,2,true,am_fpreg,am_reg,0,0 }, { "push",op_push,4,1,true,am_reg,0,0,0 }, { "pushf",op_pushf,4,0,true,am_fpreg,0,0,0 }, { "redor", op_redor,2,1,false,am_reg,am_reg,am_reg,0 }, { "ret", op_ret,1,0,am_imm,0,0,0 }, { "rol", op_rol,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "ror", op_ror,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "rtd", op_rtd }, { "rte", op_rte,2,0 }, { "rti", op_rti,2,0 }, { "sb",op_sb,4,0,true,am_reg,am_mem,0,0 }, { "sc",op_sc,4,0,true,am_reg,am_mem,0,0 }, { "sei", op_sei,1,0,false,am_reg,0,0,0 }, { "seq", op_seq,1,1,false,am_reg,am_reg,am_reg|am_i26,0 }, { "setwb", op_setwb, 1, 0 }, { "sf", op_sf, 4, 0, true, am_fpreg, am_mem, 0, 0 }, { "sfd", op_sfd,4,0,true, am_fpreg, am_mem,0,0 }, { "sft", op_sft,4,0,true, am_fpreg, am_mem,0,0 }, { "sge",op_sge,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sgeu",op_sgeu,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sgt",op_sgt,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sgtu",op_sgtu,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sh",op_sh,4,0,true,am_reg,am_mem,0,0 }, { "shl", op_shl,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "shlu", op_shlu,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "shr", op_shr,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "shru", op_shru,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "sle",op_sle,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sleu",op_sleu,1,1,false,am_reg,am_reg,am_reg | am_i26,0 }, { "sll", op_sll,2,1,false,am_reg,am_reg,am_reg,0 }, { "slt", op_slt,1,1,false,am_reg,am_reg,am_reg,0 }, { "sltu", op_sltu,1,1,false,am_reg,am_reg,am_reg,0 }, { "sm",op_sm }, { "sne",op_sne,1,1,false,am_reg,am_reg,am_reg|am_i26,0 }, { "spt", op_spt,4,0,true ,am_reg,am_mem,0,0 }, { "sptr", op_sptr,4,0,true,am_reg,am_mem,0,0 }, { "sra", op_sra,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "srl", op_srl,2,1,false,am_reg,am_reg,am_reg|am_ui6,0 }, { "sti", op_sti,1,0 }, { "stop", op_stop }, { "sub",op_sub,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "subu", op_subu,1,1 }, { "sv", op_sv,256,0 }, { "sw", op_sw,4,0,true,am_reg,am_mem,0,0 }, { "swap",op_swap,1,1,false }, { "swc", op_swc,4,0,true, am_reg, am_mem,0,0 }, { "swp", op_swp, 8, false }, { "sws", op_sws,4,0 }, { "sxb",op_sxb,1,1,false,am_reg,am_reg,0,0 }, { "sxc",op_sxc,1,1,false,am_reg,am_reg,0,0 }, { "sxh",op_sxh,1,1,false,am_reg,am_reg,0,0 }, { "tgt", op_calltgt,1 }, { "tst",op_tst,1,1 }, { "unlink",op_unlk,4,1,true }, { "vadd", op_vadd,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vadds", op_vadds,10 }, { "vdiv", op_vdiv,100,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vdivs", op_vdivs,100 }, { "veins",op_veins,10 }, { "vex", op_vex,10 }, { "vmul", op_vmul,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vmuls", op_vmuls,10 }, { "vseq", op_vseq,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsge", op_vsge,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsgt", op_vsgt,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsle", op_vsle,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vslt", op_vslt,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsne", op_vsne,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsub", op_vsub,10,1,false, am_vreg,am_vreg,am_vreg,0 }, { "vsubs", op_vsubs,10 }, { "xnor",op_xnor,1,1,false,am_reg,am_reg,am_reg,0 }, { "xor",op_xor,1,1,false,am_reg,am_reg,am_reg|am_imm,0 }, { "zxb",op_zxb,1,1,false,am_reg,am_reg,0,0 }, { "zxc",op_zxc,1,1,false,am_reg,am_reg,0,0 }, { "zxh",op_zxh,1,1,false,am_reg,am_reg,0,0 }, { "",op_empty }, { "",op_asm,300 }, { "", op_fnname }, {0,0,0,0,false,0,0,0,0} }; Instruction *GetInsn(int op) { return (Instruction::Get(op)); } /* static char *segstr(int op) { static char buf[20]; switch(op & 0xff00) { case op_cs: return "cs"; case op_ss: return "ss"; case op_ds: return "ds"; case op_bs: return "bs"; case op_ts: return "ts"; default: sprintf(buf, "seg%d", op >> 8); return buf; } } */ // Output a friendly register moniker char *RegMoniker(int regno) { static char buf[4][20]; static int n; n = (n + 1) & 3; if (regno==30) sprintf_s(&buf[n][0], 20, "$fp"); else if (regno==27) sprintf_s(&buf[n][0], 20, "$gp"); else if (regno==28) sprintf_s(&buf[n][0], 20, "$xlr"); else if (regno==regPC) sprintf_s(&buf[n][0], 20, "$pc"); else if (regno==31) sprintf_s(&buf[n][0], 20, "$sp"); else if (regno==29) sprintf_s(&buf[n][0], 20, "$lr"); else if (regno>=1 && regno<=2) sprintf_s(&buf[n][0], 20, "$v%d", regno-1); else if (regno >= 18 && regno <= 24) sprintf_s(&buf[n][0], 20, "$a%d", regno-regFirstArg); else if (regno >= 3 && regno <= 10) sprintf_s(&buf[n][0], 20, "$t%d", regno-regFirstTemp); else if (regno >= 11 && regno <= 17) sprintf_s(&buf[n][0], 20, "$r%d", regno); else { if (regno == 3533) printf("hi"); sprintf_s(&buf[n][0], 20, "$r%d", regno); } return &buf[n][0]; } char *RegMoniker2(int regno) { static char buf[4][20]; static int n; n = (n + 1) & 3; if (regno == regFP) sprintf_s(&buf[n][0], 20, "$fp"); else if (regno == regGP) sprintf_s(&buf[n][0], 20, "$gp"); else if (regno == regXLR) sprintf_s(&buf[n][0], 20, "$xlr"); else if (regno == regPC) sprintf_s(&buf[n][0], 20, "$pc"); else if (regno == regSP) sprintf_s(&buf[n][0], 20, "$sp"); else if (regno == regLR) sprintf_s(&buf[n][0], 20, "$lr"); else if (regno >= 1 && regno <= 2) sprintf_s(&buf[n][0], 20, "$v%d", regno - 1); else if (regno >= regFirstArg && regno <= regLastArg) sprintf_s(&buf[n][0], 20, "$a%d", regno - regFirstArg); else if (regno >= regFirstTemp && regno <= regLastTemp) sprintf_s(&buf[n][0], 20, "$t%d", regno - regFirstTemp); else if (regno >= regFirstRegvar && regno <= regLastRegvar) sprintf_s(&buf[n][0], 20, "$r%d", regno); else sprintf_s(&buf[n][0], 20, "$r%d", regno); return &buf[n][0]; } /* * generate a register mask for restore and save. */ void put_mask(int mask) { int nn; int first = 1; for (nn = 0; nn < 32; nn++) { if (mask & (1<<nn)) { if (!first) ofs.printf("/"); ofs.printf("r%d",nn); first = 0; } } // fprintf(output,"#0x%04x",mask); } /* * generate a register name from a tempref number. */ void putreg(int r) { ofs.printf("r%d", r); } /* * generate a named label. */ void gen_strlab(char *s) { ofs.printf("%s:\n",s); } /* * output a compiler generated label. */ char *gen_label(int lab, char *nm, char *ns, char d) { static char buf[500]; if (nm == NULL) sprintf_s(buf, sizeof(buf), "%.400s_%d:\n", ns, lab); else if (strlen(nm) == 0) sprintf_s(buf, sizeof(buf), "%.400s_%d:\n", ns, lab); else sprintf_s(buf, sizeof(buf), "%.400s_%d: ; %s\n", ns, lab, nm); return (buf); } char *put_labels(char *buf) { ofs.printf("%s", buf); return (buf); } char *put_label(int lab, char *nm, char *ns, char d) { static char buf[500]; sprintf_s(buf, sizeof(buf), "%.400s_%d", ns, lab); if (nm==NULL) ofs.printf("%s:\n",buf); else if (strlen(nm)==0) ofs.printf("%s:\n",buf); else ofs.printf("%s: ; %s\n",buf,nm); return buf; } void GenerateByte(int64_t val) { if( gentype == bytegen && outcol < 60) { ofs.printf(",%d",(int)val & 0x00ff); outcol += 4; } else { nl(); ofs.printf("\tdb\t%d",(int)val & 0x00ff); gentype = bytegen; outcol = 19; } genst_cumulative += 1; } void GenerateChar(int64_t val) { if( gentype == chargen && outcol < 60) { ofs.printf(",%d",(int)val & 0xffff); outcol += 6; } else { nl(); ofs.printf("\tdc\t%d",(int)val & 0xffff); gentype = chargen; outcol = 21; } genst_cumulative += 2; } void genhalf(int64_t val) { if( gentype == halfgen && outcol < 60) { ofs.printf(",%ld",(long)(val & 0xffffffff)); outcol += 10; } else { nl(); ofs.printf("\tdh\t%ld",(long)(val & 0xffffffff)); gentype = halfgen; outcol = 25; } genst_cumulative += 4; } void GenerateWord(int64_t val) { if( gentype == wordgen && outcol < 58) { ofs.printf(",%lld",val); outcol += 18; } else { nl(); ofs.printf("\tdw\t%lld",val); gentype = wordgen; outcol = 33; } genst_cumulative += 8; } void GenerateLong(int64_t val) { if( gentype == longgen && outcol < 56) { ofs.printf(",%lld",val); outcol += 10; } else { nl(); ofs.printf("\tdw\t%lld",val); gentype = longgen; outcol = 25; } genst_cumulative += 8; } void GenerateFloat(Float128 *val) { if (val==nullptr) return; ofs.printf("\r\n\talign 8\r\n"); ofs.printf("\tdh\t%s",val->ToString(64)); gentype = longgen; outcol = 65; genst_cumulative += 8; } void GenerateQuad(Float128 *val) { if (val==nullptr) return; ofs.printf("\r\n\talign 8\r\n"); ofs.printf("\tdh\t%s",val->ToString(128)); gentype = longgen; outcol = 65; genst_cumulative += 16; } void GenerateReference(SYM *sp,int64_t offset) { char sign; if( offset < 0) { sign = '-'; offset = -offset; } else sign = '+'; if( gentype == longgen && outcol < 55 - (int)sp->name->length()) { if( sp->storage_class == sc_static) { ofs.printf(","); ofs.printf(GetNamespace()); ofs.printf("_%lld", sp->value.i); ofs.putch(sign); ofs.printf("%lld", offset); // fprintf(output,",%s_%ld%c%d",GetNamespace(),sp->value.i,sign,offset); } else if( sp->storage_class == sc_thread) { ofs.printf(","); ofs.printf(GetNamespace()); ofs.printf("_%lld", sp->value.i); ofs.putch(sign); ofs.printf("%lld", offset); // fprintf(output,",%s_%ld%c%d",GetNamespace(),sp->value.i,sign,offset); } else { if (offset==0) { ofs.printf(",%s",(char *)sp->name->c_str()); } else { ofs.printf(",%s",(char *)sp->name->c_str()); ofs.putch(sign); ofs.printf("%lld",offset); } } outcol += (11 + sp->name->length()); } else { nl(); if(sp->storage_class == sc_static) { ofs.printf("\tdw\t%s",GetNamespace()); ofs.printf("_%lld",sp->value.i); ofs.putch(sign); ofs.printf("%lld",offset); // fprintf(output,"\tdw\t%s_%ld%c%d",GetNamespace(),sp->value.i,sign,offset); } else if(sp->storage_class == sc_thread) { // fprintf(output,"\tdw\t%s_%ld%c%d",GetNamespace(),sp->value.i,sign,offset); ofs.printf("\tdw\t%s",GetNamespace()); ofs.printf("_%lld",sp->value.i); ofs.putch(sign); ofs.printf("%lld",offset); } else { if (offset==0) { ofs.printf("\tdw\t%s",(char *)sp->name->c_str()); } else { ofs.printf("\tdw\t%s",(char *)sp->name->c_str()); ofs.putch(sign); ofs.printf("%lld", offset); // fprintf(output,"\tdw\t%s%c%d",sp->name,sign,offset); } } outcol = 26 + sp->name->length(); gentype = longgen; } } void genstorageskip(int nbytes) { char buf[200]; int64_t nn; nl(); nn = (nbytes + 7) >> 3; if (nn) { sprintf_s(buf, sizeof(buf), "\talign\t8\r\n\tdw\t0x%I64X\r\n", nn | 0xFFF0200000000000LL); ofs.printf("%s", buf); } } void genstorage(int64_t nbytes) { nl(); if (nbytes) { ofs.printf("\tfill.b\t%lld,0x00\n", nbytes); } genst_cumulative += nbytes; } void GenerateLabelReference(int n) { if( gentype == longgen && outcol < 58) { ofs.printf(",%s_%d",GetNamespace(),n); outcol += 6; } else { nl(); ofs.printf("\tdw\t%s_%d",GetNamespace(),n); outcol = 22; gentype = longgen; } } /* * make s a string literal and return it's label number. */ int stringlit(char *s) { struct slit *lp; lp = (struct slit *)allocx(sizeof(struct slit)); lp->label = nextlabel++; lp->str = my_strdup(s); lp->nmspace = my_strdup(GetNamespace()); lp->next = strtab; strtab = lp; return lp->label; } int caselit(struct scase *cases, int64_t num) { struct clit *lp; lp = (struct clit *)allocx(sizeof(struct clit)); lp->label = nextlabel++; lp->nmspace = my_strdup(GetNamespace()); lp->cases = (struct scase *)allocx(sizeof(struct scase)*(int)num); lp->num = (int)num; memcpy(lp->cases, cases, (int)num * sizeof(struct scase)); lp->next = casetab; casetab = lp; return lp->label; } int quadlit(Float128 *f128) { Float128 *lp; lp = quadtab; // First search for the same literal constant and it's label if found. while(lp) { if (Float128::IsEqual(lp,Float128::Zero())) { if (Float128::IsEqualNZ(lp,f128)) return lp->label; } else if (Float128::IsEqual(lp,f128)) return lp->label; lp = lp->next; } lp = (Float128 *)allocx(sizeof(Float128)); lp->label = nextlabel++; Float128::Assign(lp,f128); lp->nmspace = my_strdup(GetNamespace()); lp->next = quadtab; quadtab = lp; return (lp->label); } char *strip_crlf(char *p) { static char buf[2000]; int nn; for (nn = 0; *p && nn < 1998; p++) { if (*p != '\r' && *p!='\n') { buf[nn] = *p; nn++; } } buf[nn] = '\0'; return buf; } int64_t GetStrtabLen() { struct slit *p; int64_t len; char *cp; len = 0; for (p = strtab; p; p = p->next) { cp = p->str; while (*cp) { len++; cp++; } len++; // for null char } len += 7; len >>= 3; return (len); } int64_t GetQuadtabLen() { Float128 *p; int64_t len; len = 0; for (p = quadtab; p; p = p->next) { len++; } return (len); } // Dump the literal pools. void dumplits() { char *cp; int64_t nn; dfs.printf("<Dumplits>\n"); roseg(); if (casetab) { nl(); align(8); nl(); } while(casetab != nullptr) { nl(); put_label(casetab->label,"",casetab->nmspace,'D'); for (nn = 0; nn < casetab->num; nn++) GenerateLabelReference(casetab->cases[nn].label); casetab = casetab->next; } if (quadtab) { nl(); align(8); nl(); } // Dumping to ro segment - no need for GC skip /* nn = GetQuadtabLen(); if (nn) { sprintf_s(buf, sizeof(buf), "\tdw\t$%I64X ; GC_skip\n", nn | 0xFFF0200000000000LL); ofs.printf("%s", buf); } */ while(quadtab != nullptr) { nl(); put_label(quadtab->label,"",quadtab->nmspace,'D'); ofs.printf("\tdh\t"); quadtab->Pack(64); ofs.printf("%s",quadtab->ToString(64)); outcol += 35; quadtab = quadtab->next; } if (strtab) { nl(); align(8); nl(); } //nn = GetStrtabLen(); //if (nn) { // sprintf_s(buf, sizeof(buf), "\tdw\t$%I64X ; GC_skip\n", nn | 0xFFF0200000000000LL); // ofs.printf("%s", buf); //} while( strtab != NULL) { dfs.printf("."); nl(); put_label(strtab->label,strip_crlf(strtab->str),strtab->nmspace,'D'); cp = strtab->str; while(*cp) GenerateChar(*cp++); GenerateChar(0); strtab = strtab->next; } nl(); dfs.printf("</Dumplits>\n"); } void nl() { if(outcol > 0) { ofs.printf("\n"); outcol = 0; gentype = nogen; } } void align(int n) { ofs.printf("\talign\t%d\n",n); } void cseg() { if( curseg != codeseg) { nl(); ofs.printf("\tcode\n"); ofs.printf("\talign\t16\n"); curseg = codeseg; } } void dseg() { nl(); if( curseg != dataseg) { ofs.printf("\tdata\n"); curseg = dataseg; } ofs.printf("\talign\t8\n"); } void tseg() { if( curseg != tlsseg) { nl(); ofs.printf("\ttls\n"); ofs.printf("\talign\t8\n"); curseg = tlsseg; } } void roseg() { if( curseg != rodataseg) { nl(); ofs.printf("\trodata\n"); ofs.printf("\talign\t16\n"); curseg = rodataseg; } } void seg(int sg, int algn) { nl(); if( curseg != sg) { switch(sg) { case bssseg: ofs.printf("\tbss\n"); break; case dataseg: ofs.printf("\tdata\n"); break; case tlsseg: ofs.printf("\ttls\n"); break; case idataseg: ofs.printf("\tidata\n"); break; case codeseg: ofs.printf("\tcode\n"); break; case rodataseg: ofs.printf("\trodata\n"); break; } curseg = sg; } ofs.printf("\talign\t%d\n", algn); }