/* * VideoCore IV code generator for the ACK * © 2013 David Given * This file is redistributable under the terms of the 3-clause BSD license. * See the file 'Copying' in the root of the distribution for the full text. */ EM_WSIZE = 4 EM_PSIZE = 4 EM_BSIZE = 8 /* two words saved in call frame */ BYTE = 1 /* Size of values */ WORD = 2 QUAD = 4 FP_OFFSET = 0 /* Offset of saved FP relative to our FP */ PC_OFFSET = 4 /* Offset of saved PC relative to our FP */ #define COMMENT(n) /* noop */ #define nicesize(x) ((x)==BYTE || (x)==WORD || (x)==QUAD) PROPERTIES GPR /* any GPR */ REG /* any allocatable GPR */ STACKABLE /* a register than can be used with push/pop */ GPR0 GPR1 GPR2 GPR3 GPR4 GPR5 GPR6 GPR7 GPR8 GPR9 GPR10 GPR11 GPR12 GPR13 GPR14 GPR15 GPR16 GPR17 GPR18 GPR19 GPR20 GPR21 GPR22 GPR23 GPRGP GPRFP GPRSP GPRLR GPRPC REGISTERS R0("r0") : GPR, REG, GPR0, STACKABLE. R1("r1") : GPR, REG, GPR1. R2("r2") : GPR, REG, GPR2. R3("r3") : GPR, REG, GPR3. R4("r4") : GPR, REG, GPR4. R5("r5") : GPR, REG, GPR5. R6("r6") : GPR, GPR6. R7("r7") : GPR, REG, GPR7. R8("r8") : GPR, REG, GPR8. R9("r9") : GPR, REG, GPR9. R10("r10") : GPR, REG, GPR10. R11("r11") : GPR, REG, GPR11. R12("r12") : GPR, REG, GPR12. R13("r13") : GPR, REG, GPR13. R14("r14") : GPR, REG, GPR14. GP("r15") : GPR, GPRGP. R16("r16") : GPR, GPR16. R23("r23") : GPR. FP("fp") : GPR, GPRFP. SP("sp") : GPR, GPRSP. LR("lr") : GPR, GPRLR. PC("pc") : GPR, GPRPC. /* r26 to r31 are special and the code generator doesn't touch them. */ #define SCRATCH R6 TOKENS /* Used only in instruction descriptions (to generate the correct syntax). */ GPROFFSET = { GPR reg; INT off; } 4 off "(" reg ")". GPRGPR = { GPR reg1; GPR reg2; } 4 "(" reg1 "," reg2 ")". GPRINC = { GPR reg; } 4 "(" reg ")++". ADDCMPB_LL = { GPR rd; INT val; INT vs; ADDR dest; } 4 rd ",#" val ",#" vs "," dest. /* Primitives */ LABEL = { ADDR adr; } 4 adr. CONST = { INT val; } 4 "#" val. /* Sign extended values. */ /* The size refers to the *source*. */ SIGNEX8 = { GPR reg; } 4 reg. SIGNEX16 = { GPR reg; } 4 reg. /* The results of comparisons. */ TRISTATE_RC_S = { GPR reg; INT val; } 4. TRISTATE_RC_U = { GPR reg; INT val; } 4. TRISTATE_RR_S = { GPR reg1; GPR reg2; } 4. TRISTATE_RR_U = { GPR reg1; GPR reg2; } 4. SETS TOKEN = LABEL + CONST. OP = TOKEN + SIGNEX8 + SIGNEX16. ANY = GPR + OP. INSTRUCTIONS add GPR:wo, GPR:ro, GPR+CONST:ro. add GPR:rw, GPR+CONST:ro. addcmpbge "addcmpb.ge" ADDCMPB_LL:rw. adds2 GPR:rw, GPR+CONST:ro. adds4 GPR:rw, GPR+CONST:ro. adds8 GPR:rw, GPR+CONST:ro. adds16 GPR:rw, GPR+CONST:ro. adds256 GPR:rw, GPR:rw, GPR:ro. and GPR:rw, GPR+CONST:ro. asr GPR:rw, GPR+CONST:ro. beq "b.eq" LABEL:ro. bne "b.ne" LABEL:ro. bgt "b.gt" LABEL:ro. bgt "b.gt" LABEL:ro. bhi "b.hi" LABEL:ro. bset GPR:rw, GPR+CONST:ro. b GPR+LABEL:ro. bl GPR+LABEL:ro. cmp GPR:ro, GPR+CONST:ro kills :cc. divs GPR:wo, GPR:ro, GPR+CONST:ro. divu GPR:wo, GPR:ro, GPR+CONST:ro. eor GPR:rw, GPR+CONST:ro. exts GPR:wo, GPR:ro, GPR+CONST:ro. exts GPR:rw, GPR+CONST:ro. fadd GPR:wo, GPR:ro, GPR:ro. fcmp GPR:wo, GPR:ro, GPR:ro. fdiv GPR:wo, GPR:ro, GPR:ro. fmul GPR:wo, GPR:ro, GPR:ro. fsub GPR:wo, GPR:ro, GPR:ro. ld GPR:wo, GPRINC:rw. ld GPR:wo, GPROFFSET+GPRGPR+LABEL:ro. ldb GPR:wo, GPROFFSET+GPRGPR+LABEL:ro. ldh GPR:wo, GPROFFSET+GPRGPR+LABEL:ro. ldhs GPR:wo, GPROFFSET+GPRGPR+LABEL:ro. lea GPR:wo, LABEL:ro. lsl GPR:rw, GPR+CONST:ro. lsl GPR:wo, GPR:ro, GPR+CONST:ro. lsr GPR:rw, GPR+CONST:ro. mov GPR:wo, GPR+CONST:ro. mul GPR:rw, GPR+CONST:ro. neg GPR:rw, GPR+CONST:ro. or GPR:rw, GPR+CONST:ro. pop GPR0+GPR6+GPR16+GPRFP+GPRPC:wo. pop GPR0+GPR6+GPR16+GPRFP:wo, GPRPC:wo. push GPR0+GPR6+GPR16+GPRFP+GPRLR:ro. push GPR0+GPR6+GPR16+GPRFP:ro, GPRLR:ro. sub GPR:wo, GPR:ro, CONST+GPR:ro. sub GPR:rw, GPR+CONST:ro. st GPR:ro, GPRINC:rw. st GPR:ro, GPROFFSET+GPRGPR+LABEL:ro. stb GPR:ro, GPROFFSET+GPRGPR+LABEL:ro. sth GPR:ro, GPROFFSET+GPRGPR+LABEL:ro. sths GPR:ro, GPROFFSET+GPRGPR+LABEL:ro. invalid "invalid". comment "!" LABEL:ro. MOVES from GPR to GPR gen COMMENT("mov GPR->GPR") mov %2, %1 /* Constants */ from CONST to GPR gen mov %2, %1 from LABEL to GPR gen lea %2, {LABEL, %1.adr} sub %2, GP /* Sign extension */ from SIGNEX8 to GPR gen exts %2, %1.reg, {CONST, 8} from SIGNEX16 to GPR gen exts %2, %1.reg, {CONST, 16} /* Miscellaneous */ from CONST+LABEL+GPR to GPR gen move %1, %2 TESTS to test GPR gen cmp %1, {CONST, 0} STACKINGRULES from GPR0+GPR6+GPR16 to STACK gen comment {LABEL, "push stackable"} push %1 from OP+GPR to STACK uses GPR0 gen move %1, %a push %a from OP to STACK uses STACKABLE gen move %1, %a push %a from OP+GPR to STACK gen comment {LABEL, "push via scratch"} move %1, SCRATCH push SCRATCH COERCIONS from OP uses REG gen move %1, %a yields %a from STACK uses REG gen pop SCRATCH move SCRATCH, %a yields %a PATTERNS /* Intrinsics */ pat loc /* Load constant */ yields {CONST, $1} pat dup $1<=QUAD /* Duplicate word on top of stack */ with ANY yields %1 %1 pat dup $1<=(2*QUAD) /* Duplicate word pair on top of stack */ with ANY ANY yields %1 %2 %1 %2 pat exg $1==QUAD /* Exchange top two words on stack */ with ANY ANY yields %1 %2 pat stl lol $1==$2 /* Store then load local */ leaving dup QUAD stl $1 pat lal sti lal loi $1==$3 && $2==$4 /* Store then load local, of a different size */ leaving dup $2 lal $1 sti $2 pat ste loe $1==$2 /* Store then load external */ leaving dup 4 ste $1 /* Type conversions */ pat loc loc cii loc loc cii $1==$4 && $2==$5 /* madness, generated by the C compiler */ leaving loc $1 loc $2 cii pat loc loc cii loc loc cii $2==QUAD && $5==QUAD && $4<$2 /* madness, generated by the C compiler */ leaving loc $4 loc $5 cii pat loc loc ciu /* signed X -> unsigned X */ leaving loc $1 loc $2 cuu pat loc loc cuu $1==$2 /* unsigned X -> unsigned X */ /* nop */ pat loc loc cii $1==$2 /* signed X -> signed X */ /* nop */ pat loc loc cui $1==$2 /* unsigned X -> signed X */ /* nop */ pat loc loc cui $1==BYTE && $2==QUAD /* unsigned char -> signed int */ /* nop */ pat loc loc cui $1==WORD && $2==QUAD /* unsigned short -> signed int */ /* nop */ pat loc loc cii $1==BYTE && $2>BYTE /* signed char -> anything */ with GPR yields {SIGNEX8, %1} with SIGNEX8 yields {SIGNEX8, %1.reg} with SIGNEX16 yields {SIGNEX8, %1.reg} pat loc loc cii $1==WORD && $2>WORD /* signed short -> anything */ with GPR yields {SIGNEX16, %1} with SIGNEX8 yields {SIGNEX16, %1.reg} with SIGNEX16 yields {SIGNEX16, %1.reg} /* Local variables */ pat lal /* Load address of local */ uses REG gen sub %a, FP, GP add %a, {CONST, $1} yields %a pat lol /* Load quad from local */ uses REG gen ld %a, {GPROFFSET, FP, $1} yields %a pat ldl /* Load double-word from local */ leaving lol $1 + QUAD*1 lol $1 + QUAD*0 pat stl /* Store to local */ with GPR gen st %1, {GPROFFSET, FP, $1} pat sdl /* Store double-word to local */ leaving stl $1 + QUAD*0 stl $1 + QUAD*1 pat lil /* Load from indirected local */ leaving lol $1 loi QUAD pat sil /* Save to indirected local */ leaving lol $1 sti QUAD pat stl lol $1==$2 /* Save then load (generated by C compiler) */ leaving dup QUAD stl $1 pat zrl /* Zero local */ leaving loc 0 stl $1 pat inl /* Increment local in register */ leaving lol $1 loc 1 adi QUAD stl $1 pat del /* Decrement local in register */ leaving lol $1 loc 1 sbi QUAD stl $1 /* Global variables */ pat lpi /* Load address of external function */ leaving lae $1 pat lae /* Load address of external */ yields {LABEL, $1} pat loe /* Load word external */ leaving lae $1 loi QUAD pat ste /* Store word external */ leaving lae $1 sti QUAD pat zre /* Zero external */ leaving loc 0 ste $1 pat ine /* Increment external */ leaving lae $1 dup QUAD loi QUAD inc sti QUAD pat dee /* Decrement external */ leaving lae $1 dup QUAD loi QUAD dec sti QUAD pat lde /* Load double external */ leaving lae $1 loi QUAD*2 pat sde /* Store double external */ leaving lae $1 sti QUAD*2 /* Structures */ pat lof /* Load word offsetted */ leaving adp $1 loi QUAD pat ldf /* Load double offsetted */ with GPR uses reusing %1, REG=%1, REG gen add %a, GP ld %b, {GPROFFSET, %a, $1+4} ld %a, {GPROFFSET, %a, $1+0} yields %a %b pat stf /* Store word offsetted */ leaving adp $1 sti QUAD pat sdf /* Store double offsetted */ with GPR GPR GPR uses reusing %3, REG=%3 gen add %a, GP st %1, {GPROFFSET, %a, $1+0} st %2, {GPROFFSET, %a, $1+4} /* Loads and stores */ pat loi $1==BYTE /* Load byte indirect */ with LABEL uses REG gen ldb %a, %1 yields %a with GPR uses reusing %1, REG gen ldb %a, {GPRGPR, %1, GP} yields %a pat loi loc loc cii $1==WORD && $2==WORD && $3==QUAD /* Load short indirect and sign extend */ with LABEL uses REG gen ldhs %a, %1 yields %a with GPR uses reusing %1, REG gen add %a, %1, GP ldhs %a, {GPROFFSET, %a, 0} yields %a pat loi $1==WORD /* Load short indirect */ with LABEL uses REG gen ldh %a, %1 yields %a with GPR uses reusing %1, REG gen add %a, %1, GP ldh %a, {GPROFFSET, %a, 0} yields %a pat loi $1==QUAD /* Load quad indirect */ with LABEL uses REG gen ld %a, %1 yields %a with GPR uses reusing %1, REG gen add %a, %1, GP ld %a, {GPROFFSET, %a, 0} yields %a pat loi $1==2*QUAD /* Load double-quad indirect */ with LABEL uses REG, REG gen lea %b, %1 ld %a, {GPROFFSET, %b, 0} ld %b, {GPROFFSET, %b, 4} yields %b %a with GPR uses reusing %1, REG, REG gen add %b, %1, GP ld %a, {GPROFFSET, %b, 0} ld %b, {GPROFFSET, %b, 4} yields %b %a pat loi $1==3*QUAD /* Load triple-quad indirect */ with LABEL uses REG, REG, REG gen lea %b, %1 ld %a, {GPROFFSET, %b, 0} ld %b, {GPROFFSET, %b, 4} ld %b, {GPROFFSET, %b, 8} yields %c %b %a with GPR uses reusing %1, REG, REG, REG gen add %b, %1, GP ld %a, {GPROFFSET, %b, 0} ld %b, {GPROFFSET, %b, 4} ld %c, {GPROFFSET, %b, 8} yields %c %b %a pat loi /* Load arbitrary size */ leaving loc $1 los QUAD pat los /* Load arbitrary size */ leaving cal ".los" pat sti $1==BYTE /* Store byte indirect */ with LABEL GPR gen stb %2, %1 with LABEL SIGNEX8+SIGNEX16 gen stb %2.reg, %1 with GPR GPR gen stb %2, {GPRGPR, %1, GP} with GPR SIGNEX8+SIGNEX16 gen stb %2.reg, {GPRGPR, %1, GP} pat sti $1==WORD /* Store half-word indirect */ with LABEL GPR gen sth %2, %1 with LABEL SIGNEX16 gen sth %2.reg, %1 with GPR GPR uses reusing %1, REG gen add %a, %1, GP sth %2, {GPROFFSET, %a, 0} with GPR SIGNEX16 uses reusing %1, REG gen add %a, %1, GP sth %2.reg, {GPROFFSET, %a, 0} pat sti $1==QUAD /* Store quad indirect */ with LABEL GPR gen st %2, %1 with GPR GPR uses reusing %1, REG gen add %a, %1, GP st %2, {GPROFFSET, %a, 0} pat sti $1==2*QUAD /* Load double-quad indirect */ with LABEL GPR GPR uses REG gen lea %a, %1 st %2, {GPROFFSET, %a, 0} st %3, {GPROFFSET, %a, 4} with GPR GPR GPR uses reusing %1, REG=%1 gen add %a, GP st %2, {GPROFFSET, %a, 0} st %3, {GPROFFSET, %a, 4} pat sti $1==3*QUAD /* Load triple-quad indirect */ with LABEL GPR GPR GPR uses REG gen lea %a, %1 st %2, {GPROFFSET, %a, 0} st %3, {GPROFFSET, %a, 4} st %4, {GPROFFSET, %a, 8} with GPR GPR GPR GPR uses reusing %1, REG=%1 gen add %a, GP st %2, {GPROFFSET, %a, 0} st %3, {GPROFFSET, %a, 4} st %4, {GPROFFSET, %a, 8} pat sti /* Store arbitrary size */ leaving loc $1 sts QUAD pat sts /* Store arbitrary size */ leaving cal ".sts" /* Arithmetic wrappers */ pat ads /* Add var to pointer */ leaving adi $1 pat sbs /* Subtract var from pointer */ leaving sbi $1 pat adp /* Add constant to pointer */ leaving loc $1 adi QUAD pat adu /* Add unsigned */ leaving adi $1 pat sbu /* Subtract unsigned */ leaving sbi $1 pat inc /* Add 1 */ leaving loc 1 adi QUAD pat dec /* Subtract 1 */ leaving loc 1 sbi QUAD pat loc mlu /* Unsigned multiply by constant */ leaving loc $1 mli QUAD pat mlu /* Unsigned multiply by var */ leaving mli QUAD pat loc slu /* Shift left unsigned by constant amount */ leaving loc $1 sli $2 pat slu /* Shift left unsigned by variable amount */ leaving sli $1 /* Word arithmetic */ pat loc adi $1==0 /* Add nothing */ /* nop */ pat adi $1==QUAD /* Add word (second + top) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen add %a, %1 yields %a with GPR GPR+CONST uses reusing %1, REG=%1 gen add %a, %2 yields %a pat loc sbi $1==0 /* Subtract nothing */ /* nop */ pat sbi $1==QUAD /* Subtract word (second - top) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen sub %a, %1 yields %a pat mli $1==QUAD /* Multiply word (second * top) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen mul %a, %1 yields %a with GPR GPR+CONST uses reusing %1, REG=%1 gen mul %a, %2 yields %a pat mlu leaving mli $1 pat dvi $1==QUAD /* Divide word (second / top) */ with GPR GPR uses reusing %2, REG gen divs %a, %2, %1 yields %a pat dvu $1==QUAD /* Divide unsigned word (second / top) */ with GPR GPR uses reusing %2, REG gen divu %a, %2, %1 yields %a pat rmu $1==QUAD /* Remainder unsigned word (second % top) */ with GPR GPR uses REG gen divu %a, %2, %1 mul %a, %1 sub %a, %2 yields %a pat rmi $1==QUAD /* Remainder signed word (second % top) */ with GPR GPR uses REG gen divs %a, %2, %1 mul %a, %1 sub %a, %2 yields %a pat ngi $1==QUAD /* Negate word */ with GPR uses reusing %1, REG=%1 gen neg %a, %a yields %a pat and $1==QUAD /* AND word */ with GPR+CONST GPR uses reusing %2, REG=%2 gen and %a, %1 yields %a with GPR GPR+CONST uses reusing %1, REG=%1 gen and %a, %2 yields %a pat ior $1==QUAD /* OR word */ with GPR+CONST GPR uses reusing %2, REG=%2 gen or %a, %1 yields %a with GPR GPR+CONST uses reusing %1, REG=%1 gen or %a, %2 yields %a pat xor $1==QUAD /* XOR word */ with GPR+CONST GPR uses reusing %2, REG=%2 gen eor %a, %1 yields %a with GPR GPR+CONST uses reusing %1, REG=%1 gen eor %a, %2 yields %a pat dvi $1==QUAD /* Divide word (second / top) */ with GPR GPR uses reusing %2, REG gen divs %a, %2, %1 yields %a pat dvu $1==QUAD /* Divide unsigned word (second / top) */ with GPR GPR uses reusing %2, REG gen divu %a, %2, %1 yields %a pat rmu $1==QUAD /* Remainder unsigned word (second % top) */ with GPR GPR uses REG gen divu %a, %2, %1 mul %a, %1 sub %a, %2 yields %a pat rmi $1==QUAD /* Remainder signed word (second % top) */ with GPR GPR uses REG gen divs %a, %2, %1 mul %a, %1 sub %a, %2 yields %a #if 0 pat mli $1==4 /* Multiply word (second * top) */ with REG REG uses reusing %2, REG gen mullw %a, %2, %1 yields %a pat xor $1==4 /* XOR word */ with GPR GPR yields {XOR_RR, %1, %2} with GPR CONST yields {XOR_RC, %1, %2.val} with CONST GPR yields {XOR_RC, %2, %1.val} pat xor !defined($1) /* XOR set */ with STACK gen bl {LABEL, ".xor"} pat com $1==QUAD /* NOT word */ with AND_RR uses REG gen nand %a, %1.reg1, %1.reg2 yields %a with OR_RR uses REG gen nor %a, %1.reg1, %1.reg2 yields %a with XOR_RR uses REG gen eqv %a, %1.reg1, %1.reg2 yields %a with GPR yields {NOT_R, %1} pat com !defined($1) /* NOT set */ with STACK gen bl {LABEL, ".com"} #endif pat sli $1==4 /* Shift left (second << top) */ with CONST+GPR GPR uses reusing %2, REG=%2 gen lsl %a, %1 yields %a pat sri $1==4 /* Shift right signed (second >> top) */ with CONST+GPR GPR uses reusing %2, REG=%2 gen asr %2, %1 yields %a pat sru $1==4 /* Shift right unsigned (second >> top) */ with CONST+GPR GPR uses reusing %2, REG=%2 gen lsr %2, %1 yields %a /* Special arithmetic */ pat loc sli adi $1==1 && $2==QUAD && $3==QUAD /* Shift and add (second + top<<1) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen adds2 %a, %1 yields %a pat loc sli adi $1==2 && $2==QUAD && $3==QUAD /* Shift and add (second + top<<2) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen adds4 %a, %1 yields %a pat loc sli adi $1==3 && $2==QUAD && $3==QUAD /* Shift and add (second + top<<3) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen adds8 %a, %1 yields %a pat loc sli adi $1==4 && $2==QUAD && $3==QUAD /* Shift and add (second + top<<4) */ with GPR+CONST GPR uses reusing %2, REG=%2 gen adds16 %a, %1 yields %a pat loc sli adi $1==8 && $2==QUAD && $3==QUAD /* Shift and add (second + top<<8) */ with GPR GPR uses reusing %2, REG gen adds256 %a, %2, %1 yields %a pat loc sli ads leaving loc $1 sli $2 adi $3 /* Arrays */ pat aar $1==QUAD /* Index array */ with STACK uses GPR0 gen bl {LABEL, ".aar4stack"} yields R0 with GPR0 GPR1 GPR2 uses GPR0 gen bl {LABEL, ".aar4"} yields R0 pat lae lar $2==QUAD && nicesize(rom($1, 3)) /* Load array */ leaving lae $1 aar QUAD loi rom($1, 3) pat lar $1==QUAD /* Load array */ with STACK uses GPR0 gen bl {LABEL, ".lar4stack"} yields R0 with GPR0 GPR1 GPR2 uses GPR0 gen bl {LABEL, ".lar4"} yields R0 pat lae sar $2==QUAD && nicesize(rom($1, 3)) /* Store array */ leaving lae $1 aar QUAD sti rom($1, 3) pat sar $1==QUAD /* Store array */ with STACK uses GPR0 gen bl {LABEL, ".sar4stack"} yields R0 with GPR0 GPR1 GPR2 uses GPR0 gen bl {LABEL, ".sar4"} /* Sets */ pat set $1==QUAD /* Create quad with one bit set */ with GPR uses reusing %1, REG gen bset %a, %1 yields %a pat set defined($1) /* Any other set */ leaving loc $1 cal ".set" pat set !defined($1) /* Create structure with set bit (variable) */ leaving cal ".set" pat inn defined($1) /* Test for set bit */ leaving set $1 and $1 pat inn !defined($1) /* Test for set bit (variable) */ leaving cal ".inn" pat ior !nicesize($1) /* OR set */ leaving cal ".ior" pat ior !defined($1) /* OR set */ leaving cal ".ior" pat and !nicesize($1) /* AND set */ leaving loc $1 cal ".and" pat and !defined($1) /* AND set */ leaving cal ".and" /* Boolean resolutions */ proc cm_t example teq with GPR GPR uses reusing %1, REG gen cmp %1, %2 mov %a, {CONST, 0} add[1] %a, {CONST, 1} yields %a pat cmu teq call cm_t("add.eq") /* top = (second == top) */ pat cmu tne call cm_t("add.ne") /* top = (second != top) */ pat cmu tlt call cm_t("add.lo") /* top = unsigned (second < top) */ pat cmu tle call cm_t("add.ls") /* top = unsigned (second <= top) */ pat cmu tgt call cm_t("add.hi") /* top = unsigned (second < top) */ pat cmu tge call cm_t("add.hs") /* top = unsigned (second >= top) */ pat cmi teq call cm_t("add.eq") /* top = (second == top) */ pat cmi tne call cm_t("add.ne") /* top = (second != top) */ pat cmi tlt call cm_t("add.lt") /* top = signed (second < top) */ pat cmi tle call cm_t("add.le") /* top = signed (second <= top) */ pat cmi tgt call cm_t("add.gt") /* top = signed (second < top) */ pat cmi tge call cm_t("add.ge") /* top = signed (second >= top) */ proc cmf_t example teq with GPR GPR uses reusing %1, REG gen fcmp %a, %1, %2 mov %a, {CONST, 0} add[1] %a, {CONST, 1} yields %a pat cmf teq call cmf_t("add.eq") /* top = float (second == top) */ pat cmf tne call cmf_t("add.ne") /* top = float (second != top) */ pat cmf tlt call cmf_t("add.lo") /* top = float (second < top) */ pat cmf tle call cmf_t("add.ls") /* top = float (second <= top) */ pat cmf tgt call cmf_t("add.hi") /* top = float (second < top) */ pat cmf tge call cmf_t("add.hs") /* top = float (second >= top) */ proc fallback_t example teq with GPR uses reusing %1, REG gen cmp %1, {CONST, 0} mov %a, {CONST, 0} add[1] %a, {CONST, 1} yields %a pat teq call fallback_t("add.eq") /* top = float (top == 0) */ pat tne call fallback_t("add.ne") /* top = float (top != 0) */ pat tlt call fallback_t("add.lo") /* top = float (top < 0) */ pat tle call fallback_t("add.ls") /* top = float (top <= 0) */ pat tgt call fallback_t("add.hi") /* top = float (top < 0) */ pat tge call fallback_t("add.hs") /* top = float (top >= 0) */ /* Simple branches */ proc anyz example zeq with GPR STACK gen cmp %1, {CONST, 0} beq[1] {LABEL, $1} pat zeq call anyz("b.eq") /* Branch if signed top == 0 */ pat zne call anyz("b.ne") /* Branch if signed top != 0 */ pat zgt call anyz("b.gt") /* Branch if signed top > 0 */ pat zlt call anyz("b.lt") /* Branch if signed top < 0 */ pat zge call anyz("b.ge") /* Branch if signed top >= 0 */ pat zle call anyz("b.le") /* Branch if signed top <= 0 */ proc anyb example beq with GPR+CONST GPR STACK gen cmp %2, %1 beq[1] {LABEL, $1} pat beq call anyb("b.eq") /* Branch if signed second == top */ pat bne call anyb("b.ne") /* Branch if signed second != top */ pat bgt call anyb("b.gt") /* Branch if signed second > top */ pat bge call anyb("b.ge") /* Branch if signed second >= top */ pat blt call anyb("b.lt") /* Branch if signed second < top */ pat ble call anyb("b.le") /* Branch if signed second <= top */ proc cmu_z example cmu zeq with GPR+CONST GPR STACK gen cmp %2, %1 beq[1] {LABEL, $2} pat cmu zeq call cmu_z("b.eq") /* Branch if unsigned second == top */ pat cmu zne call cmu_z("b.ne") /* Branch if unsigned second != top */ pat cmu zgt call cmu_z("b.hi") /* Branch if unsigned second > top */ pat cmu zlt call cmu_z("b.lo") /* Branch if unsigned second < top */ pat cmu zge call cmu_z("b.hs") /* Branch if unsigned second >= top */ pat cmu zle call cmu_z("b.ls") /* Branch if unsigned second <= top */ pat cmi zeq call cmu_z("b.eq") /* Branch if signed second == top */ pat cmi zne call cmu_z("b.ne") /* Branch if signed second != top */ pat cmi zgt call cmu_z("b.gt") /* Branch if signed second > top */ pat cmi zlt call cmu_z("b.lt") /* Branch if signed second < top */ pat cmi zge call cmu_z("b.ge") /* Branch if signed second >= top */ pat cmi zle call cmu_z("b.le") /* Branch if signed second <= top */ proc cmf_z example cmu zeq with GPR GPR STACK gen fcmp %2, %2, %1 beq[1] {LABEL, $2} pat cmf zeq call cmf_z("b.eq") /* Branch if float second == top */ pat cmf zne call cmf_z("b.ne") /* Branch if float second != top */ pat cmf zgt call cmf_z("b.gt") /* Branch if float second > top */ pat cmf zlt call cmf_z("b.lt") /* Branch if float second < top */ pat cmf zge call cmf_z("b.ge") /* Branch if float second >= top */ pat cmf zle call cmf_z("b.le") /* Branch if float second <= top */ pat cmp /* Compare pointers */ leaving cmu QUAD pat cms $1==QUAD /* Compare blocks (word sized) */ leaving cmi QUAD /* Other branching and labelling */ #if 0 pat lab topeltsize($1)<=4 && !fallthrough($1) gen labeldef $1 yields R0 pat lab topeltsize($1)<=4 && fallthrough($1) with GPR0 gen labeldef $1 yields %1 pat lab topeltsize($1)>4 with STACK kills ALL gen labeldef $1 pat bra topeltsize($1)<=4 /* Unconditional jump with TOS register */ with GPR0 STACK gen b {LABEL, $1} pat bra topeltsize($1)>4 /* Unconditional jump without TOS register */ with STACK gen b {LABEL, $1} #endif pat lab with STACK kills ALL gen labeldef $1 pat bra with STACK gen b {LABEL, $1} /* Miscellaneous */ pat cal /* Call procedure */ with STACK kills ALL gen bl {LABEL, $1} pat cai /* Call procedure indirect */ with GPR STACK kills ALL gen bl %1 pat lfr $1==QUAD /* Load function result, word */ yields R0 pat lfr $1==QUAD*2 /* Load function result, word */ yields R1 R0 pat ret $1==0 /* Return from procedure */ gen mov SP, FP pop FP, PC pat ret $1==QUAD /* Return from procedure, word */ with GPR0 gen mov SP, FP pop FP, PC pat ret $1==QUAD*2 /* Return from procedure, word */ with GPR GPR gen move %1, R0 move %2, R1 mov SP, FP pop FP, PC pat blm /* Block move constant length */ leaving loc $1 bls pat bls /* Block move variable length */ with STACK kills ALL gen bl {LABEL, "_memmove"} pat csa /* Array-lookup switch */ with GPR0 GPR1 STACK gen b {LABEL, ".csa"} pat csb /* Table-lookup switch */ with STACK gen bl {LABEL, ".csb"} /* EM specials */ pat fil /* Set current filename */ leaving lae $1 ste ".filename" pat lin /* Set current line number */ leaving loc $1 ste ".linenumber" pat lni /* Increment line number */ leaving ine ".linenumber" pat lim /* Load EM trap ignore mask */ leaving lde ".ignmask" pat sim /* Store EM trap ignore mask */ leaving ste ".ignmask" pat trp /* Raise EM trap */ leaving cal ".trap" pat sig /* Set trap handler */ leaving ste ".trppc" pat rtt /* Return from trap */ leaving ret 0 pat lxl $1==0 /* Load FP */ leaving lor 0 pat lxl $1==1 /* Load caller's FP */ leaving lxl 0 dch pat dch /* FP -> caller FP */ with GPR uses reusing %1, REG gen ld %a, {GPROFFSET, %1, FP_OFFSET} sub %a, GP yields %a pat lpb /* Convert FP to argument address */ leaving adp EM_BSIZE pat lxa /* Load caller's SP */ leaving lxl $1 lpb pat gto /* longjmp */ uses REG, REG gen move {LABEL, $1}, %a ld %b, {GPROFFSET, %a, 8} add FP, %b, GP ld %b, {GPROFFSET, %a, 4} add SP, %b, GP ld %b, {GPROFFSET, %a, 0} add %b, GP b %b #if 0 pat gto /* longjmp */ with STACK gen ld {LABEL, $1+2} wspec {CONST, 1} ld {LABEL, $1+4} wspec {CONST, 0} ld {LABEL, $1+0} wspec {CONST, 2} pat str $1==1 /* Store special GPRister */ with GPR0 gen wspec {CONST, $1} #endif pat lor $1==0 /* Load FP */ uses REG gen move FP, %a yields %a pat lor $1==1 /* Load SP */ uses REG gen move SP, %a yields %a pat lor $1==2 /* Load HP */ leaving loe ".reghp" pat str $1==0 /* Store FP */ with GPR gen sub FP, %1, GP pat str $1==1 /* Store SP */ with GPR gen sub SP, %1, GP pat str $1==2 /* Store HP */ leaving ste ".reghp" pat ass /* Adjust stack by variable amount */ with CONST+GPR gen add SP, %1 pat asp $1==QUAD /* Adjust stack by constant amount */ gen pop SCRATCH pat asp /* Adjust stack by constant amount */ leaving loc $1 ass /* Floating point */ pat ngf /* Negate float */ leaving loc 0 exg QUAD sbf QUAD proc simple_f example adf with GPR GPR uses reusing %1, REG gen fadd[1] %a, %2, %1 yields %a pat adf call simple_f("fadd") /* Float subtract (second + top) */ pat sbf call simple_f("fsub") /* Float subtract (second - top) */ pat mlf call simple_f("fmul") /* Float multiply (second * top) */ pat dvf call simple_f("fdiv") /* Float divide (second / top) */ pat loc loc cff $1==$2 && $1==QUAD /* Convert float to float */ leaving nop pat loc loc cfi $1==$2 && $1==QUAD /* Convert float -> integer */ leaving cal ".cfi" lfr QUAD pat loc loc cfu $1==$2 && $1==QUAD /* Convert float -> unsigned */ leaving cal ".cfu" lfr QUAD pat loc loc cif $1==$2 && $1==QUAD /* Convert integer -> float */ leaving cal ".cif" lfr QUAD pat loc loc cuf $1==$2 && $1==QUAD /* Convert unsigned -> float */ leaving cal ".cuf" lfr QUAD pat fef /* Split float */ leaving cal ".cuf" lfr QUAD*2 pat fif /* Multiply float and split (?) */ leaving mlf QUAD fef pat zrf /* Load a floating zero */ leaving loc 0