REGISTERS /* Registers are allocated top down; the order here is odd in order to make * sure that non-volatile registers get allocated from r31 (or f31) down. */ r12 bytes4 int volatile; r11 bytes4 int volatile; r10 bytes4 int volatile; r9 bytes4 int volatile; r8 bytes4 int volatile; r7 bytes4 int volatile; r6 bytes4 int volatile; r5 bytes4 int volatile; r4 bytes4 int volatile; r3 bytes4 int ret volatile; r31 bytes4 int; r30 bytes4 int; r29 bytes4 int; r28 bytes4 int; r27 bytes4 int; r26 bytes4 int; r25 bytes4 int; r24 bytes4 int; r23 bytes4 int; r22 bytes4 int; r21 bytes4 int; r20 bytes4 int; r19 bytes4 int; r18 bytes4 int; r17 bytes4 int; r16 bytes4 int; r15 bytes4 int; r14 bytes4 int; f14 bytes4 float volatile; f13 bytes4 float volatile; f12 bytes4 float volatile; f11 bytes4 float volatile; f10 bytes4 float volatile; f9 bytes4 float volatile; f8 bytes4 float volatile; f7 bytes4 float volatile; f6 bytes4 float volatile; f5 bytes4 float volatile; f4 bytes4 float volatile; f3 bytes4 float volatile; f2 bytes4 float volatile; f1 bytes4 float volatile; f0 bytes4 float volatile; f31 bytes4 float; f30 bytes4 float; f29 bytes4 float; f28 bytes4 float; f27 bytes4 float; f26 bytes4 float; f25 bytes4 float; f24 bytes4 float; f23 bytes4 float; f22 bytes4 float; f21 bytes4 float; f20 bytes4 float; f19 bytes4 float; f18 bytes4 float; f17 bytes4 float; f16 bytes4 float; f15 bytes4 float; cr0 cr; DECLARATIONS cr; address fragment; PATTERNS /* Special */ PAIR(BLOCK4, BLOCK4); /* Miscellaneous special things */ PUSH4(in:(int)reg) emit "stwu %in, -4(sp)" cost 4; out:(int)reg = POP4 emit "lwz %out, 0(sp)" emit "addi sp, sp, 4" cost 8; out:(float)reg = POPF4 emit "lfs %out, 0(sp)" emit "addi sp, sp, 4" cost 8; RET emit "ret" cost 4; SETRET4(in:(ret)reg) emit "mr r3, %in" cost 4; (ret)reg = GETRET4 cost 1; STACKADJUST4(delta:CONST4) when signed_constant(%delta, 16) emit "addi sp, sp, $delta" cost 4; /* Memory operations */ STORE4(addr:address, value:(int)reg) emit "stw %value, %addr" cost 4; STORE2(addr:address, value:(int)reg) emit "sth %value, %addr" cost 4; STORE1(addr:address, value:(int)reg) emit "stb %value, %addr" cost 4; out:(int)reg = LOAD4(addr:address) emit "lwz %out, %addr" cost 4; out:(int)reg = LOAD2(addr:address) emit "lhz %out, %addr" cost 4; out:(int)reg = LOAD1(addr:address) emit "lbz %out, %addr" cost 4; out:(int)reg = CIU14(LOAD1(addr:address)) emit "lbz %out, %addr" cost 4; out:(int)reg = CIU24(LOAD2(addr:address)) emit "lhz %out, %addr" cost 4; /* Locals */ out:(int)reg = in:LOCAL4 emit "addi %out, fp, #$in" cost 4; address = in:LOCAL4 emit "$in(fp)"; /* Memory addressing modes */ address = ADD4(addr:(int)reg, offset:CONST4) when signed_constant(%offset, 16) emit "$offset(%addr)"; address = addr:(int)reg emit "0(%addr)"; /* Branches */ JUMP(addr:BLOCK4) emit "b $addr" cost 4; CJUMPEQ(value:(cr)cr, PAIR(true:BLOCK4, false:BLOCK4)) emit "bc IFTRUE, EQ, $true" emit "b $false" cost 8; CJUMPLE(value:(cr)cr, PAIR(true:BLOCK4, false:BLOCK4)) emit "bc IFTRUE, LE, $true" emit "b $false" cost 8; CJUMPLT(value:(cr)cr, PAIR(true:BLOCK4, false:BLOCK4)) emit "bc IFTRUE, LT, $true" emit "b $false" cost 8; CALL(dest:LABEL4) emit "bl $dest" cost 4; CALL(dest:(int)reg) emit "mtspr ctr, %dest" emit "bcctrl ALWAYS, 0, 0" cost 8; JUMP(dest:LABEL4) emit "b $dest" cost 4; /* Comparisons */ cr:(cr)cr = COMPARES4(left:(int)reg, right:(int)reg) emit "cmp %cr, 0, %left, %right" cost 4; cr:(cr)cr = COMPARES4(left:(int)reg, right:CONST4) when signed_constant(%right, 16) emit "cmpi %cr, 0, %left, $right" cost 4; cr:(cr)cr = COMPAREU4(left:(int)reg, right:(int)reg) emit "cmpl %cr, 0, %left, %right" cost 4; cr:(cr)cr = COMPAREU4(left:(int)reg, right:CONST4) when signed_constant(%right, 16) emit "cmpli %cr, 0, %left, $right" cost 4; cr:(cr)cr = COMPARES4(COMPARES4(left:(int)reg, right:(int)reg), result:CONST4) when specific_constant(%result, 0) emit "cmp %cr, 0, %left, %right" cost 4; cr:(cr)cr = COMPARES4(COMPARES4(left:(int)reg, right:CONST4), result:CONST4) when specific_constant(%result, 0) when signed_constant(%right, 16) emit "cmpi %cr, 0, %left, $right" cost 4; cr:(cr)cr = COMPARES4(COMPAREU4(left:(int)reg, right:(int)reg), result:CONST4) when specific_constant(%result, 0) emit "cmpl %cr, 0, %left, %right" cost 4; /* Conversions */ out:(int)reg = CII14(CIU41(value:(int)reg)) emit "extsb %out, %value" cost 4; out:(int)reg = CII24(CIU42(value:(int)reg)) emit "extsh %out, %value" cost 4; out:(int)reg = CIU41(in:(int)reg) emit "andi %out, %in, 0xff" cost 4; out:(int)reg = CIU42(in:(int)reg) emit "andi %out, %in, 0xffff" cost 4; out:(int)reg = CIU44(in:(int)reg) emit "mr %out, %in" cost 4; /* ALU operations */ out:(int)reg = ADD4(left:(int)reg, right:(int)reg) emit "add %out, %left, %right" cost 4; out:(int)reg = ADD4(left:(int)reg, right:CONST4) when signed_constant(%right, 16) emit "addi %out, %left, $right" cost 4; out:(int)reg = SUB4(left:(int)reg, right:(int)reg) emit "sub %out, %right, %left" cost 4; out:(int)reg = MUL4(left:(int)reg, right:(int)reg) emit "mullw %out, %right, %left" cost 4; out:(int)reg = MOD4(left:(int)reg, right:(int)reg) emit "divw %out, %left, %right" emit "mullw %out, %out, %right" emit "subf %out, %out, %left" cost 12; out:(int)reg = DIV4(left:(int)reg, right:(int)reg) emit "divw %out, %left, %right" cost 4; out:(int)reg = ASL4(left:(int)reg, right:(int)reg) emit "slw %out, %left, %right" cost 4; out:(int)reg = NEG4(left:(int)reg) emit "neg %out, %left" cost 4; out:(int)reg = EOR4(left:(int)reg, right:(int)reg) emit "xor %out, %right, %left" cost 4; out:(int)reg = value:LABEL4 emit "la %out, $value" cost 4; out:(int)reg = value:BLOCK4 emit "la %out, $value" cost 4; out:(int)reg = value:CONST4 emit "la %out, $value" cost 8; out:(int)reg = value:CONSTF4 emit "lfs %out, address-containing-$value" cost 8; /* FPU operations */ out:(float)reg = ADDF4(left:(float)reg, right:(float)reg) emit "fadds %out, %left, %right" cost 4; /* vim: set sw=4 ts=4 expandtab : */