EM_WSIZE = 4 EM_PSIZE = 4 EM_BSIZE = 8 /* two words saved in call frame */ INT8 = 1 /* Size of values */ INT16 = 2 INT32 = 4 INT64 = 8 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)==INT8 || (x)==INT16 || (x)==INT32 || (x)==INT64) #define smalls(n) sfit(n, 16) #define smallu(n) ufit(n, 16) #define lo(n) ((n) & 0xFFFF) #define hi(n) (((n)>>16) & 0xFFFF) /* Use these for instructions that treat the low half as signed --- his() * includes a modifier to produce the correct value when the low half gets * sign extended. Er, do make sure you load the low half second. */ #define los(n) (lo(n) | (((0-(lo(n)>>15)) & ~0xFFFF))) #define his(n) ((hi(n) + (lo(n)>>15)) & 0xFFFF) #define IFFALSE {CONST, 4} #define IFTRUE {CONST, 12} #define ALWAYS {CONST, 20} #define DCTRZ {CONST, 34} #define LT {CONST, 0} #define GT {CONST, 1} #define EQ {CONST, 2} PROPERTIES GPR /* any GPR */ REG /* any allocatable GPR */ FPR /* any FPR */ FREG /* any allocatable FPR */ FSREG /* any allocatable single-precision FPR */ SPR /* any SPR */ CR /* any CR */ GPR0 GPRSP GPRFP GPR3 GPR4 GPR5 GPR6 GPR7 GPR8 GPR9 GPR10 GPR11 GPR12 GPR13 GPR14 GPR15 GPR16 GPR17 GPR18 GPR19 GPR20 GPR21 GPR22 GPR23 GPR24 GPR25 GPR26 GPR27 GPR28 GPR29 GPR30 GPR31 CR0 CR1 FPR0 FPR1 FPR2 FPR3 FPR4 FPR5 FPR6 FPR7 FPR8 FPR9 FPR10 FPR11 FPR12 FPR13 FPR14 FPR15 FPR16 FPR17 FPR18 FPR19 FPR20 FPR21 FPR22 FPR23 FPR24 FPR25 FPR26 FPR27 FPR28 FPR29 FPR30 FPR31 REGISTERS /* Reverse order to encourage ncg to allocate them from r31 down */ R31("r31") : GPR, REG, GPR31 regvar. R30("r30") : GPR, REG, GPR30 regvar. R29("r29") : GPR, REG, GPR29 regvar. R28("r28") : GPR, REG, GPR28 regvar. R27("r27") : GPR, REG, GPR27 regvar. R26("r26") : GPR, REG, GPR26 regvar. R25("r25") : GPR, REG, GPR25 regvar. R24("r24") : GPR, REG, GPR24 regvar. R23("r23") : GPR, REG, GPR23 regvar. R22("r22") : GPR, REG, GPR22 regvar. R21("r21") : GPR, REG, GPR21 regvar. R20("r20") : GPR, REG, GPR20 regvar. R19("r19") : GPR, REG, GPR19 regvar. R18("r18") : GPR, REG, GPR18 regvar. R17("r17") : GPR, REG, GPR17 regvar. R16("r16") : GPR, REG, GPR16 regvar. R15("r15") : GPR, REG, GPR15 regvar. R14("r14") : GPR, REG, GPR14 regvar. R13("r13") : GPR, REG, GPR13 regvar. R12("r12") : GPR, REG, GPR12. R11("r11") : GPR, GPR11. R10("r10") : GPR, REG, GPR10. R9("r9") : GPR, REG, GPR9. R8("r8") : GPR, REG, GPR8. R7("r7") : GPR, REG, GPR7. R6("r6") : GPR, REG, GPR6. R5("r5") : GPR, REG, GPR5. R4("r4") : GPR, REG, GPR4. R3("r3") : GPR, REG, GPR3. FP("fp") : GPR, GPRFP. SP("sp") : GPR, GPRSP. R0("r0") : GPR, GPR0. F31("f31") : FPR, FREG, FPR31. F30("f30") : FPR, FREG, FPR30. F29("f29") : FPR, FREG, FPR29. F28("f28") : FPR, FREG, FPR28. F27("f27") : FPR, FREG, FPR27. F26("f26") : FPR, FREG, FPR26. F25("f25") : FPR, FREG, FPR25. F24("f24") : FPR, FREG, FPR24. F23("f23") : FPR, FREG, FPR23. F22("f22") : FPR, FREG, FPR22. F21("f21") : FPR, FREG, FPR21. F20("f20") : FPR, FREG, FPR20. F19("f19") : FPR, FREG, FPR19. F18("f18") : FPR, FREG, FPR18. F17("f17") : FPR, FREG, FPR17. F16("f16") : FPR, FREG, FPR16. F15("f15") : FPR, FREG, FPR15. F14("f14") : FPR, FREG, FPR14. F13("f13") : FPR, FREG, FPR13. F12("f12") : FPR, FREG, FPR12. F11("f11") : FPR, FREG, FPR11. F10("f10") : FPR, FREG, FPR10. F9("f9") : FPR, FREG, FPR9. F8("f8") : FPR, FREG, FPR8. F7("f7") : FPR, FREG, FPR7. F6("f6") : FPR, FREG, FPR6. F5("f5") : FPR, FREG, FPR5. F4("f4") : FPR, FREG, FPR4. F3("f3") : FPR, FREG, FPR3. F2("f2") : FPR, FREG, FPR2. F1("f1") : FPR, FREG, FPR1. F0("f0") : FPR, FPR0. FS31("f31")=F31 : FSREG. FS30("f30")=F30 : FSREG. FS29("f29")=F29 : FSREG. FS28("f28")=F28 : FSREG. FS27("f27")=F27 : FSREG. FS26("f26")=F26 : FSREG. FS25("f25")=F25 : FSREG. FS24("f24")=F24 : FSREG. FS23("f23")=F23 : FSREG. FS22("f22")=F22 : FSREG. FS21("f21")=F21 : FSREG. FS20("f20")=F20 : FSREG. FS19("f19")=F19 : FSREG. FS18("f18")=F18 : FSREG. FS17("f17")=F17 : FSREG. FS16("f16")=F16 : FSREG. FS15("f15")=F15 : FSREG. FS14("f14")=F14 : FSREG. FS13("f13")=F13 : FSREG. FS12("f12")=F12 : FSREG. FS11("f11")=F11 : FSREG. FS10("f10")=F10 : FSREG. FS9("f9")=F9 : FSREG. FS8("f8")=F8 : FSREG. FS7("f7")=F7 : FSREG. FS6("f6")=F6 : FSREG. FS5("f5")=F5 : FSREG. FS4("f4")=F4 : FSREG. FS3("f3")=F3 : FSREG. FS2("f2")=F2 : FSREG. FS1("f1")=F1 : FSREG. /* FS0("f0")=F0 */ LR("lr") : SPR. CTR("ctr") : SPR. C0("cr0") : CR, CR0. #define RSCRATCH R11 #define FSCRATCH F0 TOKENS /* Used only in instruction descriptions (to generate the correct syntax). */ GPRINDIRECT = { GPR reg; INT off; } 4 off "(" reg ")". CONST = { INT val; } 4 val. /* Primitives */ LABEL = { ADDR adr; } 4 adr. LOCAL = { INT off; } 4. /* Allows us to use regvar() to refer to registers */ GPRE = { GPR reg; } 4 reg. /* Constants on the stack */ CONST_N8000 = { INT val; } 4. CONST_N7FFF_N0001 = { INT val; } 4. CONST_0000_7FFF = { INT val; } 4. CONST_8000 = { INT val; } 4. CONST_8001_FFFF = { INT val; } 4. CONST_HZ = { INT val; } 4. CONST_HL = { INT val; } 4. /* Expression partial results */ SUM_RIS = { GPR reg; INT offhi; } 4. SUM_RC = { GPR reg; INT off; } 4. SUM_RR = { GPR reg1; GPR reg2; } 4. 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. TRISTATE_FF = { FPR reg1; FPR reg2; } 4. SEX_B = { GPR reg; } 4. SEX_H = { GPR reg; } 4. IND_RC_B = { GPR reg; INT off; } 4. IND_RR_B = { GPR reg1; GPR reg2; } 4. IND_RC_H = { GPR reg; INT off; } 4. IND_RR_H = { GPR reg1; GPR reg2; } 4. IND_RC_H_S = { GPR reg; INT off; } 4. IND_RR_H_S = { GPR reg1; GPR reg2; } 4. IND_RC_W = { GPR reg; INT off; } 4. IND_RR_W = { GPR reg1; GPR reg2; } 4. IND_RC_D = { GPR reg; INT off; } 8. IND_RR_D = { GPR reg1; GPR reg2; } 8. NOT_R = { GPR reg; } 4. AND_RR = { GPR reg1; GPR reg2; } 4. OR_RR = { GPR reg1; GPR reg2; } 4. OR_RIS = { GPR reg; INT valhi; } 4. OR_RC = { GPR reg; INT val; } 4. XOR_RR = { GPR reg1; GPR reg2; } 4. XOR_RIS = { GPR reg; INT valhi; } 4. XOR_RC = { GPR reg; INT val; } 4. SETS /* signed 16-bit integer */ CONST2 = CONST_N8000 + CONST_N7FFF_N0001 + CONST_0000_7FFF. /* integer that, when negated, fits signed 16-bit */ CONST2_WHEN_NEG = CONST_N7FFF_N0001 + CONST_0000_7FFF + CONST_8000. /* unsigned 16-bit integer */ UCONST2 = CONST_0000_7FFF + CONST_8000 + CONST_8001_FFFF. /* any constant on stack */ CONST_ALL = CONST_N8000 + CONST_N7FFF_N0001 + CONST_0000_7FFF + CONST_8000 + CONST_8001_FFFF + CONST_HZ + CONST_HL. SUM_ALL = SUM_RC + SUM_RR. TRISTATE_ALL = TRISTATE_RC_S + TRISTATE_RC_U + TRISTATE_RR_S + TRISTATE_RR_U + TRISTATE_FF. SEX_ALL = SEX_B + SEX_H. LOGICAL_ALL = NOT_R + AND_RR + OR_RR + OR_RC + XOR_RR + XOR_RC. /* indirect 4-byte value */ IND_ALL_W = IND_RC_W + IND_RR_W. /* indirect 8-byte value */ IND_ALL_D = IND_RC_D + IND_RR_D. /* any indirect value that fits in a GPR */ IND_ALL_BHW = IND_RC_B + IND_RR_B + IND_RC_H + IND_RR_H + IND_RC_H_S + IND_RR_H_S + IND_ALL_W. /* anything killed by sti (store indirect) */ MEMORY = IND_ALL_BHW + IND_ALL_D. OP_ALL_W = SUM_ALL + TRISTATE_ALL + SEX_ALL + LOGICAL_ALL + IND_ALL_W. INSTRUCTIONS /* We give time as cycles of total latency from Freescale * Semiconductor, MPC7450 RISC Microprocessor Family Reference * Manual, Rev. 5, section 6.6. * * We have only 4-byte alignment for doubles; 8-byte alignment is * optimal. We guess the misalignment penalty by adding 1 cycle to * the cost of loading or storing a double: * lfd lfdu lfdx: 4 -> 5 * stfd stfdu stfdx: 3 -> 4 */ cost(4, 1) /* space, time */ add GPR:wo, GPR:ro, GPR:ro. addX "add." GPR:wo, GPR:ro, GPR:ro. addi GPR:wo, GPR:ro, CONST:ro. addis GPR:wo, GPR:ro, CONST:ro. and GPR:wo, GPR:ro, GPR:ro. andc GPR:wo, GPR:ro, GPR:ro. andiX "andi." GPR:wo:cc, GPR:ro, CONST:ro. andisX "andis." GPR:wo:cc, GPR:ro, CONST:ro. b LABEL:ro. bc CONST:ro, CONST:ro, LABEL:ro. bcctr CONST:ro, CONST:ro, CONST:ro. bcctrl CONST:ro, CONST:ro, CONST:ro. bclr CONST:ro, CONST:ro, CONST:ro. bl LABEL:ro. cmp CR:ro, CONST:ro, GPR:ro, GPR:ro kills :cc. cmpi CR:ro, CONST:ro, GPR:ro, CONST:ro kills :cc. cmpl CR:ro, CONST:ro, GPR:ro, GPR:ro kills :cc. cmpli CR:ro, CONST:ro, GPR:ro, CONST:ro kills :cc. divw GPR:wo, GPR:ro, GPR:ro cost(4, 23). divwu GPR:wo, GPR:ro, GPR:ro cost(4, 23). eqv GPR:wo, GPR:ro, GPR:ro. extsb GPR:wo, GPR:ro. extsh GPR:wo, GPR:ro. fadd FREG:wo, FREG:ro, FREG:ro cost(4, 5). fadds FSREG:wo, FSREG:ro, FSREG:ro cost(4, 5). fcmpo CR:wo, FPR:ro, FPR:ro cost(4, 5). fdiv FREG:wo, FREG:ro, FREG:ro cost(4, 35). fdivs FSREG:wo, FSREG:ro, FSREG:ro cost(4, 21). fmr FPR:wo, FPR:ro cost(4, 5). fmr FSREG:wo, FSREG:ro cost(4, 5). fmul FREG:wo, FREG:ro, FREG:ro cost(4, 5). fmuls FSREG:wo, FSREG:ro, FSREG:ro cost(4, 5). fneg FREG:wo, FREG:ro cost(4, 5). fneg FSREG:wo, FSREG:ro cost(4, 5). frsp FSREG:wo, FREG:ro cost(4, 5). fsub FREG:wo, FREG:ro, FREG:ro cost(4, 5). fsubs FSREG:wo, FSREG:ro, FSREG:ro cost(4, 5). lbz GPR:wo, GPRINDIRECT:ro cost(4, 3). lbzx GPR:wo, GPR:ro, GPR:ro cost(4, 3). lfd FPR:wo, GPRINDIRECT:ro cost(4, 5). lfdu FPR:wo, GPRINDIRECT:ro cost(4, 5). lfdx FPR:wo, GPR:ro, GPR:ro cost(4, 5). lfs FSREG:wo, GPRINDIRECT:ro cost(4, 4). lfsu FSREG:wo, GPRINDIRECT:rw cost(4, 4). lfsx FSREG:wo, GPR:ro, GPR:ro cost(4, 4). lha GPR:wo, GPRINDIRECT:ro cost(4, 3). lhax GPR:wo, GPR:ro, GPR:ro cost(4, 3). lhz GPR:wo, GPRINDIRECT:ro cost(4, 3). lhzx GPR:wo, GPR:ro, GPR:ro cost(4, 3). li32 GPR:wo, LABEL:ro cost(8, 2). lwzu GPR:wo, GPRINDIRECT:ro cost(4, 3). lwzx GPR:wo, GPR:ro, GPR:ro cost(4, 3). lwz GPR:wo, GPRINDIRECT:ro cost(4, 3). nand GPR:wo, GPR:ro, GPR:ro. neg GPR:wo, GPR:ro. nor GPR:wo, GPR:ro, GPR:ro. mfcr GPR:wo cost(4,2). mullw GPR:wo, GPR:ro, GPR:ro cost(4, 4). mfspr GPR:wo, SPR:ro cost(4, 3). mtspr SPR:wo, GPR:ro cost(4, 2). or GPR:wo, GPR:ro, GPR:ro. orc GPR:wo, GPR:ro, GPR:ro. ori GPR:wo, GPR:ro, CONST:ro. oris GPR:wo, GPR:ro, CONST:ro. orX "or." GPR:wo:cc, GPR:ro, GPR:ro. rlwinm GPR:wo, GPR:ro, CONST:ro, CONST:ro, CONST:ro. slw GPR:wo, GPR:ro, GPR:ro. subf GPR:wo, GPR:ro, GPR:ro. sraw GPR:wo, GPR:ro, GPR:ro cost(4, 2). srawi GPR:wo, GPR:ro, CONST:ro cost(4, 2). srw GPR:wo, GPR:ro, GPR:ro. stb GPR:ro, GPRINDIRECT:rw cost(4, 3). stbx GPR:ro, GPR:ro, GPR:ro cost(4, 3). stfd FPR:ro, GPRINDIRECT:rw cost(4, 4). stfdu FPR:ro, GPRINDIRECT:rw cost(4, 4). stfdx FPR:ro, GPR:ro, GPR:ro cost(4, 4). stfs FSREG:ro, GPRINDIRECT:rw cost(4, 3). stfsu FSREG:ro, GPRINDIRECT:rw cost(4, 3). stfsx FSREG:ro, GPR:ro, GPR:ro cost(4, 3). sth GPR:ro, GPRINDIRECT:rw cost(4, 3). sthx GPR:ro, GPR:ro, GPR:ro cost(4, 3). stw GPR:ro, GPRINDIRECT:rw cost(4, 3). stwx GPR:ro, GPR:ro, GPR:ro cost(4, 3). stwu GPR+GPRE:ro, GPRINDIRECT:rw cost(4, 3). xor GPR:wo, GPR:ro, GPR:ro. xori GPR:wo, GPR:ro, CONST:ro. xoris GPR:wo, GPR:ro, CONST:ro. comment "!" LABEL:ro cost(0, 0). MOVES from GPR to GPR gen COMMENT("move GPR->GPR") or %2, %1, %1 /* GPRE exists solely to allow us to use regvar() (which can only be used in an expression) as a register constant. */ from GPR to GPRE gen COMMENT("move GPR->GPRE") or %2.reg, %1, %1 /* Constants */ from CONST_ALL smalls(%val) to GPR gen COMMENT("move CONST_ALL->GPR smalls") addi %2, R0, {CONST, %1.val} from CONST_ALL + CONST to GPR gen COMMENT("move CONST_ALL->GPR") addis %2, R0, {CONST, hi(%1.val)} ori %2, %2, {CONST, lo(%1.val)} /* Can't use addi %2, %2, {CONST, los(%1.val)} * because %2 might be R0. */ from LABEL to GPR gen COMMENT("move LABEL->GPR") li32 %2, {LABEL, %1.adr} /* Sign extension */ from SEX_B to GPR gen COMMENT("move SEX_B->GPR") extsb %2, %1.reg from SEX_H to GPR gen COMMENT("move SEX_H->GPR") extsh %2, %1.reg /* Register + something */ from SUM_RIS to GPR gen COMMENT("move SUM_RIS->GPR") addis %2, %1.reg, {CONST, %1.offhi} from SUM_RC to GPR gen COMMENT("move SUM_RC->GPR") addi %2, %1.reg, {CONST, %1.off} from SUM_RR to GPR gen COMMENT("move SUM_RR->GPR") add %2, %1.reg1, %1.reg2 /* Read byte */ from IND_RC_B to GPR gen COMMENT("move IND_RC_B->GPR") lbz %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_B to GPR gen COMMENT("move IND_RR_B->GPR") lbzx %2, %1.reg1, %1.reg2 /* Write byte */ from GPR to IND_RC_B gen COMMENT("move GPR->IND_RC_B") stb %1, {GPRINDIRECT, %2.reg, %2.off} from GPR to IND_RR_B gen COMMENT("move GPR->IND_RR_B") stbx %1, %2.reg1, %2.reg2 /* Read halfword (short) */ from IND_RC_H to GPR gen COMMENT("move IND_RC_H->GPR") lhz %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_H to GPR gen COMMENT("move IND_RR_H->GPR") lhzx %2, %1.reg1, %1.reg2 from IND_RC_H_S to GPR gen COMMENT("move IND_RC_H_S->GPR") lha %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_H_S to GPR gen COMMENT("move IND_RR_H_S->GPR") lhax %2, %1.reg1, %1.reg2 /* Write halfword */ from GPR to IND_RC_H gen COMMENT("move GPR->IND_RC_H") sth %1, {GPRINDIRECT, %2.reg, %2.off} from GPR to IND_RR_H gen COMMENT("move GPR->IND_RR_H") sthx %1, %2.reg1, %2.reg2 /* Read word */ from IND_RC_W to GPR gen COMMENT("move IND_RC_W->GPR") lwz %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_W to GPR gen COMMENT("move IND_RR_W->GPR") lwzx %2, %1.reg1, %1.reg2 from IND_RC_W to FSREG gen COMMENT("move IND_RC_W->FSREG") lfs %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_W to FSREG gen COMMENT("move IND_RR_W->FSREG") lfsx %2, %1.reg1, %1.reg2 /* Write word */ from GPR to IND_RC_W gen COMMENT("move GPR->IND_RC_W") stw %1, {GPRINDIRECT, %2.reg, %2.off} from GPR to IND_RR_W gen COMMENT("move GPR->IND_RR_W") stwx %1, %2.reg1, %2.reg2 from FSREG to IND_RC_W gen COMMENT("move FSREG->IND_RC_W") stfs %1, {GPRINDIRECT, %2.reg, %2.off} from FSREG to IND_RR_W gen COMMENT("move FSREG->IND_RR_W") stfsx %1, %2.reg1, %2.reg2 /* Read double */ from IND_RC_D to FPR gen COMMENT("move IND_RC_D->FPR") lfd %2, {GPRINDIRECT, %1.reg, %1.off} from IND_RR_D to FPR gen COMMENT("move IND_RR_D->FPR") lfdx %2, %1.reg1, %1.reg2 /* Write double */ from FPR to IND_RC_D gen COMMENT("move FPR->IND_RC_D") stfd %1, {GPRINDIRECT, %2.reg, %2.off} from FPR to IND_RR_D gen COMMENT("move FPR->IND_RR_W") stfdx %1, %2.reg1, %2.reg2 /* Extract condition code field (actually produces (CC&3)<<2) */ from CR0 to GPR gen COMMENT("move CR0->GPR") mfcr %2 rlwinm %2, %2, {CONST, 4}, {CONST, 32-4}, {CONST, 31-2} /* Comparisons */ from TRISTATE_RR_S to CR0 gen cmp %2, {CONST, 0}, %1.reg1, %1.reg2 from TRISTATE_RR_U to CR0 gen cmpl %2, {CONST, 0}, %1.reg1, %1.reg2 from TRISTATE_RC_S to CR0 gen COMMENT("move TRISTATE_RC_S->CR0 large") move {CONST, %1.val}, RSCRATCH cmp %2, {CONST, 0}, %1.reg, RSCRATCH from TRISTATE_RC_U smallu(%val) to CR0 gen COMMENT("move TRISTATE_RC_U->CR0 small") cmpli %2, {CONST, 0}, %1.reg, {CONST, %1.val} from TRISTATE_RC_U to CR0 gen COMMENT("move TRISTATE_RC_U->CR0") move {CONST, %1.val}, RSCRATCH cmpl %2, {CONST, 0}, %1.reg, RSCRATCH from TRISTATE_FF to CR0 gen COMMENT("move TRISTATE_FF->CR0") fcmpo %2, %1.reg1, %1.reg2 from GPR to CR0 gen COMMENT("move GPR->CR0") orX RSCRATCH, %1, %1 /* alas, can't call test */ from TRISTATE_RR_S + TRISTATE_RC_S + TRISTATE_FF to GPR gen COMMENT("move TRISTATE_R*_S->GPR") move %1, C0 move C0, RSCRATCH move {LABEL, ".tristate_s_table"}, %2 lwzx %2, %2, RSCRATCH from TRISTATE_RR_U + TRISTATE_RC_U to GPR gen COMMENT("move TRISTATE_R*_U->GPR") move %1, C0 move C0, RSCRATCH move {LABEL, ".tristate_u_table"}, %2 lwzx %2, %2, RSCRATCH /* Logicals */ from NOT_R to GPR gen COMMENT("move NOT_R->GPR") nor %2, %1.reg, %1.reg from AND_RR to GPR gen COMMENT("move AND_RR->GPR") and %2, %1.reg1, %1.reg2 from OR_RR to GPR gen COMMENT("move OR_RR->GPR") or %2, %1.reg1, %1.reg2 from OR_RIS to GPR gen COMMENT("move OR_RIS->GPR") oris %2, %1.reg, {CONST, %1.valhi} from OR_RC to GPR gen COMMENT("move OR_RC->GPR") ori %2, %1.reg, {CONST, %1.val} from XOR_RR to GPR gen COMMENT("move XOR_RR->GPR") xor %2, %1.reg1, %1.reg2 from XOR_RIS to GPR gen COMMENT("move XOR_RIS->GPR") xoris %2, %1.reg, {CONST, %1.valhi} from XOR_RC to GPR gen COMMENT("move XOR_RC->GPR") xori %2, %1.reg, {CONST, %1.val} /* Miscellaneous */ from OP_ALL_W + LABEL + CONST_ALL to GPRE gen move %1, %2.reg TESTS to test GPR gen orX RSCRATCH, %1, %1 STACKINGRULES from LOCAL to STACK gen COMMENT("stack LOCAL") stwu {GPRE, regvar(%1.off)}, {GPRINDIRECT, SP, 0-4} from REG to STACK gen COMMENT("stack REG") stwu %1, {GPRINDIRECT, SP, 0-4} from CONST_ALL + LABEL to STACK gen COMMENT("stack CONST_ALL + LABEL") move %1, RSCRATCH stwu RSCRATCH, {GPRINDIRECT, SP, 0-4} from SEX_B to STACK gen COMMENT("stack SEX_B") extsb RSCRATCH, %1.reg stwu RSCRATCH, {GPRINDIRECT, SP, 0-4} from SEX_H to STACK gen COMMENT("stack SEX_H") extsh RSCRATCH, %1.reg stwu RSCRATCH, {GPRINDIRECT, SP, 0-4} from SUM_ALL + TRISTATE_ALL + LOGICAL_ALL to STACK gen move %1, RSCRATCH stwu RSCRATCH, {GPRINDIRECT, SP, 0-4} from IND_ALL_BHW to STACK gen move %1, RSCRATCH stwu RSCRATCH, {GPRINDIRECT, SP, 0-4} from IND_ALL_D to STACK gen move %1, FSCRATCH stfdu FSCRATCH, {GPRINDIRECT, SP, 0-8} from FREG to STACK gen COMMENT("stack FPR") stfdu %1, {GPRINDIRECT, SP, 0-8} from FSREG to STACK gen COMMENT("stack FSREG") stfsu %1, {GPRINDIRECT, SP, 0-4} COERCIONS from REG uses REG gen COMMENT("coerce REG->REG") move %1, %a yields %a from CONST_ALL uses REG gen COMMENT("coerce CONST_ALL->REG") move %1, %a yields %a from LABEL uses REG gen COMMENT("coerce LABEL->REG") move %1, %a yields %a from STACK uses REG gen COMMENT("coerce STACK->REG") lwz %a, {GPRINDIRECT, SP, 0} addi SP, SP, {CONST, 4} yields %a from SEX_B uses REG gen COMMENT("coerce SEX_B->REG") extsb %a, %1.reg yields %a from SEX_H uses REG gen COMMENT("coerce SEX_H->REG") extsh %a, %1.reg yields %a from SUM_ALL + TRISTATE_ALL + LOGICAL_ALL uses REG gen move %1, %a yields %a from FSREG uses FSREG gen fmr %a, %1 yields %a from FREG uses FREG gen fmr %a, %1 yields %a from STACK uses FREG gen COMMENT("coerce STACK->FREG") lfd %a, {GPRINDIRECT, SP, 0} addi SP, SP, {CONST, 8} yields %a from STACK uses FSREG gen COMMENT("coerce STACK->FSREG") lfs %a, {GPRINDIRECT, SP, 0} addi SP, SP, {CONST, 4} yields %a from IND_ALL_BHW uses REG gen move %1, %a yields %a from IND_ALL_W uses FSREG gen move %1, %a yields %a from IND_ALL_D uses FREG gen move %1, %a yields %a PATTERNS /* Intrinsics */ pat loc $1==(0-0x8000) /* Load constant */ yields {CONST_N8000, $1} pat loc $1>=(0-0x7FFF) && $1<=(0-1) yields {CONST_N7FFF_N0001, $1} pat loc $1>=0 && $1<=0x7FFF yields {CONST_0000_7FFF, $1} pat loc $1==0x8000 yields {CONST_8000, $1} pat loc $1>=0x8001 && $1<=0xFFFF yields {CONST_8001_FFFF, $1} pat loc lo($1)==0 yields {CONST_HZ, $1} pat loc yields {CONST_HL, $1} pat dup $1==INT32 /* Duplicate word on top of stack */ with REG yields %1 %1 with FSREG yields %1 %1 pat dup $1==INT64 /* Duplicate double-word on top of stack */ with REG REG yields %2 %1 %2 %1 with FREG yields %1 %1 pat exg $1==INT32 /* Exchange top two words on stack */ with REG REG yields %1 %2 pat stl lol $1==$2 /* Store then load local */ leaving dup 4 stl $1 pat sdl ldl $1==$2 /* Store then load double local */ leaving dup 8 sdl $1 pat lal sti lal loi $1==$3 && $2==$4 /* Store then load local, of a different size */ leaving dup INT32 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==INT32 && $5==INT32 && $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==INT8 && $2==INT32 /* unsigned char -> signed int */ /* nop */ pat loc loc cui $1==INT16 && $2==INT32 /* unsigned short -> signed int */ /* nop */ pat loc loc cii $1==INT8 && $2==INT32 /* signed char -> signed int */ with GPR yields {SEX_B, %1} pat loc loc cii $1==2 && $2==4 /* signed char -> signed short */ with GPR yields {SEX_H, %1} /* Local variables */ pat lal smalls($1) /* Load address of local */ yields {SUM_RC, FP, $1} pat lal /* Load address of local */ uses REG={SUM_RIS, FP, his($1)} yields {SUM_RC, %a, los($1)} pat lol inreg($1)>0 /* Load from local */ yields {LOCAL, $1} pat lol /* Load from local */ leaving lal $1 loi INT32 pat ldl /* Load double-word from local */ leaving lal $1 loi INT32*2 pat stl inreg($1)>0 /* Store to local */ with CONST_ALL + LABEL + GPR + OP_ALL_W kills regvar($1), LOCAL %off==$1 gen move %1, {GPRE, regvar($1)} pat stl /* Store to local */ leaving lal $1 sti INT32 pat sdl /* Store double-word to local */ leaving lal $1 sti INT32*2 pat lil inreg($1)>0 /* Load from indirected local */ uses REG gen lwz %a, {GPRINDIRECT, regvar($1), 0} yields %a pat lil /* Load from indirected local */ leaving lol $1 loi INT32 pat sil /* Save to indirected local */ leaving lol $1 sti INT32 pat zrl /* Zero local */ leaving loc 0 stl $1 pat inl /* Increment local */ leaving lol $1 loc 1 adi 4 stl $1 pat del /* Decrement local */ leaving lol $1 loc 1 sbi 4 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 INT32 pat ste /* Store word external */ leaving lae $1 sti INT32 pat lde /* Load double-word external */ leaving lae $1 loi INT64 pat sde /* Store double-word external */ leaving lae $1 sti INT64 pat zre /* Zero external */ leaving loc 0 ste $1 pat ine /* Increment external */ uses REG={LABEL, $1}, REG gen lwz %b, {GPRINDIRECT, %a, 0} addi %b, %b, {CONST, 1} stw %b, {GPRINDIRECT, %a, 0} pat dee /* Decrement external */ uses REG={LABEL, $1}, REG gen lwz %b, {GPRINDIRECT, %a, 0} addi %b, %b, {CONST, 0-1} stw %b, {GPRINDIRECT, %a, 0} /* Structures */ pat lof /* Load word offsetted */ leaving adp $1 loi INT32 pat ldf /* Load double-word offsetted */ leaving adp $1 loi INT64 pat stf /* Store word offsetted */ leaving adp $1 sti INT32 pat sdf /* Store double-word offsetted */ leaving adp $1 sti INT64 /* Loads and stores */ pat loi $1==INT8 /* Load byte indirect */ with GPR yields {IND_RC_B, %1, 0} with SUM_RR yields {IND_RR_B, %1.reg1, %1.reg2} with SUM_RC yields {IND_RC_B, %1.reg, %1.off} pat loi loc loc cii $1==INT16 && $2==INT16 && $3==INT32 /* Load half-word indirect and sign extend */ with GPR yields {IND_RC_H_S, %1, 0} with SUM_RR yields {IND_RR_H_S, %1.reg1, %1.reg2} with SUM_RC yields {IND_RC_H_S, %1.reg, %1.off} pat loi $1==INT16 /* Load half-word indirect */ with GPR yields {IND_RC_H, %1, 0} with SUM_RR yields {IND_RR_H, %1.reg1, %1.reg2} with SUM_RC yields {IND_RC_H, %1.reg, %1.off} pat loi $1==INT32 /* Load word indirect */ with GPR yields {IND_RC_W, %1, 0} with SUM_RC yields {IND_RC_W, %1.reg, %1.off} with SUM_RR yields {IND_RR_W, %1.reg1, %1.reg2} pat loi $1==INT64 /* Load double-word indirect */ with GPR yields {IND_RC_D, %1, 0} with SUM_RC yields {IND_RC_D, %1.reg, %1.off} with SUM_RR yields {IND_RR_D, %1.reg1, %1.reg2} pat loi /* Load arbitrary size */ leaving loc $1 los INT32 pat los /* Load arbitrary size */ with GPR3 GPR4 STACK kills ALL gen bl {LABEL, ".los"} pat sti $1==INT8 /* Store byte indirect */ with GPR GPR kills MEMORY gen stb %2, {GPRINDIRECT, %1, 0} with SUM_RR GPR kills MEMORY gen stbx %2, %1.reg1, %1.reg2 with SUM_RC GPR kills MEMORY gen move %2, {IND_RC_B, %1.reg, %1.off} with GPR SEX_B kills MEMORY gen stb %2.reg, {GPRINDIRECT, %1, 0} with SUM_RR SEX_B kills MEMORY gen stbx %2.reg, %1.reg1, %1.reg2 with SUM_RC SEX_B kills MEMORY gen move %2.reg, {IND_RC_B, %1.reg, %1.off} pat sti $1==INT16 /* Store half-word indirect */ with GPR GPR kills MEMORY gen sth %2, {GPRINDIRECT, %1, 0} with SUM_RR GPR kills MEMORY gen sthx %2, %1.reg1, %1.reg2 with SUM_RC GPR kills MEMORY gen move %2, {IND_RC_H, %1.reg, %1.off} with GPR SEX_H kills MEMORY gen sth %2.reg, {GPRINDIRECT, %1, 0} with SUM_RR SEX_H kills MEMORY gen sthx %2.reg, %1.reg1, %1.reg2 with SUM_RC SEX_H kills MEMORY gen move %2.reg, {IND_RC_H, %1.reg, %1.off} pat sti $1==INT32 /* Store word indirect */ with GPR GPR+FSREG kills MEMORY gen move %2, {IND_RC_W, %1, 0} with SUM_RR GPR+FSREG kills MEMORY gen move %2, {IND_RR_W, %1.reg1, %1.reg2} with SUM_RC GPR+FSREG kills MEMORY gen move %2, {IND_RC_W, %1.reg, %1.off} pat sti $1==INT64 /* Store double-word indirect */ with GPR FREG kills MEMORY gen move %2, {IND_RC_D, %1, 0} with SUM_RR FREG kills MEMORY gen move %2, {IND_RR_D, %1.reg1, %1.reg2} with SUM_RC FREG kills MEMORY gen move %2, {IND_RC_D, %1.reg, %1.off} with GPR GPR GPR kills MEMORY gen stw %2, {GPRINDIRECT, %1, 0} stw %3, {GPRINDIRECT, %1, 4} with SUM_RC GPR GPR kills MEMORY gen move %2, {IND_RC_W, %1.reg, %1.off} move %3, {IND_RC_W, %1.reg, %1.off+4} pat sti /* Store arbitrary size */ leaving loc $1 sts INT32 pat sts /* Store arbitrary size */ with GPR3 GPR4 STACK kills ALL gen bl {LABEL, ".sts"} /* Arithmetic wrappers */ pat ads $1==4 /* Add var to pointer */ leaving adi $1 pat sbs $1==4 /* Subtract var from pointer */ leaving sbi $1 pat adp /* Add constant to pointer */ leaving loc $1 adi 4 pat adu /* Add unsigned */ leaving adi $1 pat sbu /* Subtract unsigned */ leaving sbi $1 pat inc /* Add 1 */ leaving loc 1 adi 4 pat dec /* Subtract 1 */ leaving loc 1 sbi 4 pat loc mlu $2==2 /* Unsigned multiply by constant */ leaving loc $1 mli 4 pat mlu /* Unsigned multiply by var */ leaving mli $1 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 adi $1==4 /* Add word (second + top) */ with REG REG yields {SUM_RR, %1, %2} with CONST2 REG yields {SUM_RC, %2, %1.val} with REG CONST2 yields {SUM_RC, %1, %2.val} with CONST_HZ REG uses reusing %2, REG={SUM_RIS, %2, his(%1.val)} yields %a with REG CONST_HZ uses reusing %1, REG={SUM_RIS, %1, his(%2.val)} yields %a with CONST_ALL-CONST2-CONST_HZ REG uses reusing %2, REG={SUM_RIS, %2, his(%1.val)} yields {SUM_RC, %a, los(%1.val)} with REG CONST_ALL-CONST2-CONST_HZ uses reusing %1, REG={SUM_RIS, %1, his(%2.val)} yields {SUM_RC, %a, los(%2.val)} with CONST_ALL LABEL yields {LABEL, %2.adr+%1.val} pat sbi $1==4 /* Subtract word (second - top) */ with REG REG uses reusing %2, REG gen subf %a, %1, %2 yields %a with CONST2_WHEN_NEG REG yields {SUM_RC, %2, 0-%1.val} with CONST_HZ REG uses reusing %2, REG={SUM_RIS, %2, his(0-%1.val)} yields %a with CONST_ALL-CONST2_WHEN_NEG-CONST_HZ REG uses reusing %2, REG={SUM_RIS, %2, his(0-%1.val)} yields {SUM_RC, %a, los(0-%1.val)} with CONST_ALL LABEL yields {LABEL, %2.adr+(0-%1.val)} pat ngi $1==4 /* Negate word */ with REG uses reusing %1, REG gen neg %a, %1 yields %a pat mli $1==4 /* Multiply word (second * top) */ with REG REG uses reusing %2, REG gen mullw %a, %2, %1 yields %a pat dvi $1==4 /* Divide word (second / top) */ with REG REG uses reusing %2, REG gen divw %a, %2, %1 yields %a pat dvu $1==4 /* Divide unsigned word (second / top) */ with REG REG uses reusing %2, REG gen divwu %a, %2, %1 yields %a pat rmi $1==4 /* Remainder word (second % top) */ with REG REG uses REG gen divw %a, %2, %1 mullw %a, %a, %1 subf %a, %a, %2 yields %a pat rmu $1==4 /* Remainder unsigned word (second % top) */ with REG REG uses REG gen divwu %a, %2, %1 mullw %a, %a, %1 subf %a, %a, %2 yields %a pat and $1==4 /* AND word */ with GPR NOT_R uses reusing %1, REG gen andc %a, %1, %2.reg yields %a with NOT_R GPR uses reusing %1, REG gen andc %a, %2, %1.reg yields %a with GPR GPR yields {AND_RR, %1, %2} with GPR UCONST2 uses reusing %1, REG gen andiX %a, %1, {CONST, %2.val} yields %a with UCONST2 GPR uses reusing %2, REG gen andiX %a, %2, {CONST, %1.val} yields %a with GPR CONST_HZ uses reusing %1, REG gen andisX %a, %1, {CONST, hi(%2.val)} yields %a with CONST_HZ GPR uses reusing %2, REG gen andisX %a, %2, {CONST, hi(%1.val)} yields %a pat and !defined($1) /* AND set */ with STACK gen bl {LABEL, ".and"} pat ior $1==4 /* OR word */ with REG NOT_R uses reusing %1, REG gen orc %a, %1, %2.reg yields %a with NOT_R REG uses reusing %2, REG gen orc %a, %2, %1.reg yields %a with REG REG yields {OR_RR, %1, %2} with REG UCONST2 yields {OR_RC, %1, %2.val} with UCONST2 REG yields {OR_RC, %2, %1.val} with REG CONST_HZ uses reusing %1, REG={OR_RIS, %1, hi(%2.val)} yields %a with CONST_HZ REG uses reusing %2, REG={OR_RIS, %2, hi(%1.val)} yields %a with REG CONST_ALL-UCONST2-CONST_HZ uses reusing %1, REG={OR_RIS, %1, hi(%2.val)} yields {OR_RC, %1, lo(%2.val)} with CONST_ALL-UCONST2-CONST_HZ REG uses reusing %2, REG={OR_RIS, %2, hi(%1.val)} yields {OR_RC, %2, lo(%1.val)} pat ior !defined($1) /* OR set */ with STACK gen bl {LABEL, ".ior"} pat xor $1==4 /* XOR word */ with REG REG yields {XOR_RR, %1, %2} with REG UCONST2 yields {XOR_RC, %1, %2.val} with UCONST2 REG yields {XOR_RC, %2, %1.val} with REG CONST_HZ uses reusing %1, REG={XOR_RIS, %1, hi(%2.val)} yields %a with CONST_HZ REG uses reusing %2, REG={XOR_RIS, %2, hi(%1.val)} yields %a with REG CONST_ALL-UCONST2-CONST_HZ uses reusing %1, REG={XOR_RIS, %1, hi(%2.val)} yields {XOR_RC, %1, lo(%2.val)} with CONST_ALL-UCONST2-CONST_HZ REG uses reusing %2, REG={XOR_RIS, %2, hi(%1.val)} yields {XOR_RC, %2, lo(%1.val)} pat xor !defined($1) /* XOR set */ with STACK gen bl {LABEL, ".xor"} pat com $1==INT32 /* 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"} pat sli $1==4 /* Shift left (second << top) */ with CONST_ALL GPR uses reusing %2, REG gen rlwinm %a, %2, {CONST, (%1.val & 0x1F)}, {CONST, 0}, {CONST, 31-(%1.val & 0x1F)} yields %a with GPR GPR uses reusing %2, REG gen slw %a, %2, %1 yields %a pat sri $1==4 /* Shift right signed (second >> top) */ with CONST_ALL GPR uses reusing %2, REG gen srawi %a, %2, {CONST, %1.val & 0x1F} yields %a with GPR GPR uses reusing %2, REG gen sraw %a, %2, %1 yields %a pat sru $1==4 /* Shift right unsigned (second >> top) */ with CONST_ALL GPR uses reusing %2, REG gen rlwinm %a, %2, {CONST, 32-(%1.val & 0x1F)}, {CONST, (%1.val & 0x1F)}, {CONST, 31} yields %a with GPR GPR uses reusing %2, REG gen srw %a, %2, %1 yields %a /* Arrays */ pat aar $1==INT32 /* Index array */ with GPR3 GPR4 GPR5 gen bl {LABEL, ".aar4"} yields R3 pat lae lar $2==INT32 && nicesize(rom($1, 3)) /* Load array */ leaving lae $1 aar INT32 loi rom($1, 3) pat lar $1==INT32 /* Load array */ with GPR3 GPR4 GPR5 STACK kills ALL gen bl {LABEL, ".lar4"} pat lae sar $2==INT32 && nicesize(rom($1, 3)) /* Store array */ leaving lae $1 aar INT32 sti rom($1, 3) pat sar $1==INT32 /* Store array */ with GPR3 GPR4 GPR5 STACK kills ALL gen bl {LABEL, ".sar4"} /* Sets */ pat set defined($1) /* Create word with set bit */ leaving loc 1 exg INT32 sli INT32 pat set !defined($1) /* Create structure with set bit (variable) */ with GPR3 GPR4 STACK gen bl {LABEL, ".set"} pat inn defined($1) /* Test for set bit */ leaving set INT32 and INT32 pat inn !defined($1) /* Test for set bit (variable) */ with GPR3 STACK gen bl {LABEL, ".inn"} /* Boolean resolutions */ pat teq /* top = (top == 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".teq_table"}, %a lwzx %a, %a, RSCRATCH yields %a pat tne /* top = (top != 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".tne_table"}, %a lwzx %a, %a, RSCRATCH yields %a pat tlt /* top = (top < 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".tlt_table"}, %a lwzx %a, %a, RSCRATCH yields %a pat tle /* top = (top <= 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".tle_table"}, %a lwzx %a, %a, RSCRATCH yields %a pat tgt /* top = (top > 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".tgt_table"}, %a lwzx %a, %a, RSCRATCH yields %a pat tge /* top = (top >= 0) */ with TRISTATE_ALL + GPR uses reusing %1, REG gen move %1, C0 move C0, RSCRATCH move {LABEL, ".tge_table"}, %a lwzx %a, %a, RSCRATCH yields %a /* Simple branches */ pat zeq /* Branch if signed top == 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFTRUE, EQ, {LABEL, $1} pat beq leaving cmi INT32 zeq $1 pat zne /* Branch if signed top != 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFFALSE, EQ, {LABEL, $1} pat bne leaving cmi INT32 zne $1 pat zgt /* Branch if signed top > 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFTRUE, GT, {LABEL, $1} pat bgt leaving cmi INT32 zgt $1 pat zge /* Branch if signed top >= 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFFALSE, LT, {LABEL, $1} pat bge leaving cmi INT32 zge $1 pat zlt /* Branch if signed top < 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFTRUE, LT, {LABEL, $1} pat blt leaving cmi INT32 zlt $1 pat zle /* Branch if signed top >= 0 */ with TRISTATE_ALL+GPR STACK gen move %1, C0 bc IFFALSE, GT, {LABEL, $1} pat ble leaving cmi INT32 zle $1 /* Compare and jump */ pat cmi /* Signed tristate compare */ with CONST_ALL GPR yields {TRISTATE_RC_S, %2, %1.val} with GPR GPR yields {TRISTATE_RR_S, %2, %1} pat cmu /* Unsigned tristate compare */ with CONST_ALL GPR yields {TRISTATE_RC_U, %2, %1.val} with GPR GPR yields {TRISTATE_RR_U, %2, %1} pat cmp /* Compare pointers */ leaving cmu INT32 pat cms $1==INT32 /* Compare blocks (word sized) */ leaving cmi INT32 /* Other branching and labelling */ pat lab topeltsize($1)==4 && !fallthrough($1) gen labeldef $1 yields R3 pat lab topeltsize($1)==4 && fallthrough($1) with GPR3 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 GPRister */ with GPR3 STACK gen b {LABEL, $1} pat bra topeltsize($1)!=4 /* Unconditional jump without TOS GPRister */ 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 mtspr CTR, %1 bcctrl ALWAYS, {CONST, 0}, {CONST, 0} pat lfr $1==INT32 /* Load function result, word */ yields R3 pat lfr $1==INT64 /* Load function result, double-word */ yields R4 R3 pat ret $1==0 /* Return from procedure */ gen return b {LABEL, ".ret"} pat ret $1==INT32 /* Return from procedure, word */ with GPR3 gen return b {LABEL, ".ret"} pat ret $1==INT64 /* Return from procedure, double-word */ with GPR3 GPR4 gen return b {LABEL, ".ret"} pat blm /* Block move constant length */ with GPR GPR STACK uses REG gen move {CONST, $1}, %a stwu %a, {GPRINDIRECT, SP, 0-4} stwu %2, {GPRINDIRECT, SP, 0-4} stwu %1, {GPRINDIRECT, SP, 0-4} bl {LABEL, "_memmove"} addi SP, SP, {CONST, 12} pat bls /* Block move variable length */ with GPR GPR GPR STACK gen stwu %1, {GPRINDIRECT, SP, 0-4} stwu %3, {GPRINDIRECT, SP, 0-4} stwu %2, {GPRINDIRECT, SP, 0-4} bl {LABEL, "_memmove"} addi SP, SP, {CONST, 12} pat csa /* Array-lookup switch */ with GPR3 GPR4 STACK gen b {LABEL, ".csa"} pat csb /* Table-lookup switch */ with GPR3 GPR4 STACK gen b {LABEL, ".csb"} /* EM specials */ pat fil /* Set current filename */ leaving lae $1 ste "hol0+4" pat lin /* Set current line number */ leaving loc $1 ste "hol0" pat lni /* Increment line number */ leaving ine "hol0" 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 */ with GPR3 gen bl {LABEL, ".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 lwz %a, {GPRINDIRECT, %1, FP_OFFSET} 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 gen move {LABEL, $1}, %a move {IND_RC_W, %a, 8}, FP move {IND_RC_W, %a, 4}, SP move {IND_RC_W, %a, 0}, %a mtspr CTR, %a bcctr ALWAYS, {CONST, 0}, {CONST, 0} 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 move %1, FP pat str $1==1 /* Store SP */ with GPR gen move %1, SP pat str $1==2 /* Store HP */ leaving ste ".reghp" pat loc ass $1==4 /* Drop 4 bytes from stack */ with exact GPR /* nop */ with STACK gen addi SP, SP, {CONST, 4} pat ass /* Adjust stack by variable amount */ with CONST2 STACK gen move {SUM_RC, SP, %1.val}, SP with CONST_HZ STACK gen move {SUM_RC, SP, his(%1.val)}, SP with CONST_ALL-CONST2-CONST_HZ STACK gen move {SUM_RC, SP, his(%1.val)}, SP move {SUM_RC, SP, los(%1.val)}, SP with GPR STACK gen move {SUM_RR, SP, %1}, SP pat asp /* Adjust stack by constant amount */ leaving loc $1 ass /* Floating point support */ /* All very cheap and nasty --- this needs to be properly integrated into * the code generator. ncg doesn't like having separate FPU registers. */ /* Single-precision */ pat zrf $1==INT32 /* Push zero */ leaving loe ".fs_00000000" pat adf $1==INT32 /* Add single */ with FSREG FSREG uses reusing %1, FSREG gen fadds %a, %2, %1 yields %a pat sbf $1==INT32 /* Subtract single */ with FSREG FSREG uses reusing %1, FSREG gen fsubs %a, %2, %1 yields %a pat mlf $1==INT32 /* Multiply single */ with FSREG FSREG uses reusing %1, FSREG gen fmuls %a, %2, %1 yields %a pat dvf $1==INT32 /* Divide single */ with FSREG FSREG uses reusing %1, FSREG gen fdivs %a, %2, %1 yields %a pat ngf $1==INT32 /* Negate single */ with FSREG uses reusing %1, FSREG gen fneg %a, %1 yields %a pat cmf $1==INT32 /* Compare single */ with FSREG FSREG yields {TRISTATE_FF, %2.1, %1.1} pat loc loc cff $1==INT32 && $2==INT64 /* Convert single to double */ with FSREG yields %1.1 pat loc loc cfu $1==INT32 && $2==INT32 /* Convert single to unsigned int */ with STACK gen bl {LABEL, ".cfu4"} pat loc loc cfi $1==INT32 && $2==INT32 /* Convert single to signed int */ with STACK gen bl {LABEL, ".cfi4"} pat loc loc cif $1==INT32 && $2==INT32 /* Convert integer to single */ with STACK gen bl {LABEL, ".cif4"} pat loc loc cuf $1==INT32 && $2==INT32 /* Convert unsigned int to single */ with STACK gen bl {LABEL, ".cuf4"} pat fef $1==INT32 /* Split single */ with STACK gen bl {LABEL, ".fef4"} /* Double-precision */ pat zrf $1==INT64 /* Push zero */ leaving lde ".fd_00000000" pat adf $1==INT64 /* Add double */ with FREG FREG uses FREG gen fadd %a, %2, %1 yields %a pat sbf $1==INT64 /* Subtract double */ with FREG FREG uses FREG gen fsub %a, %2, %1 yields %a pat mlf $1==INT64 /* Multiply double */ with FREG FREG uses reusing %1, FREG gen fmul %a, %2, %1 yields %a pat dvf $1==INT64 /* Divide double */ with FREG FREG uses reusing %1, FREG gen fdiv %a, %2, %1 yields %a pat ngf $1==INT64 /* Negate double */ with FREG uses reusing %1, FREG gen fneg %a, %1 yields %a pat cmf $1==INT64 /* Compare double */ with FREG FREG yields {TRISTATE_FF, %2, %1} pat loc loc cff $1==INT64 && $2==INT32 /* Convert double to single */ with FREG uses reusing %1, FSREG gen frsp %a, %1 yields %a pat loc loc cfu $1==INT64 && $2==INT32 /* Convert double to unsigned int */ with STACK gen bl {LABEL, ".cfu8"} pat loc loc cfi $1==INT64 && $2==INT32 /* Convert double to signed int */ with STACK gen bl {LABEL, ".cfi8"} pat loc loc cif $1==INT32 && $2==INT64 /* Convert integer to double */ with STACK kills ALL gen bl {LABEL, ".cif8"} pat loc loc cuf $1==INT32 && $2==INT64 /* Convert unsigned int to double */ with STACK gen bl {LABEL, ".cuf8"} pat fef $1==INT64 /* Split exponent, fraction */ with GPR3 GPR4 kills FPR0, FPR1, GPR6, GPR7 gen bl {LABEL, ".fef8"} yields R4 R3 R5 pat fif $1==INT64 /* Multiply then split integer, fraction */ with FPR1 FPR2 kills FPR1, FPR2, GPR3, GPR4, GPR5, GPR6 gen bl {LABEL, ".fif8"} yields F1 F2