ack/mach/powerpc/mcg/table

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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.
*
* Attributes may have at most one of: int, float, long, double. These
* indicate that the register is used to store a value of that type. If
* your register can store more than one type, create an alias. Registers
* with none of these cannot be copied by the code generator (and so cannot
* be moved from register to register or spilt).
*/
r12 int volatile;
r11 int volatile;
r10 int volatile;
r9 int volatile;
r8 int volatile;
r7 int volatile;
r6 int volatile;
r5 int volatile;
r4 int volatile;
r3 int volatile iret;
r31 int;
r30 int;
r29 int;
r28 int;
r27 int;
r26 int;
r25 int;
r24 int;
r23 int;
r22 int;
r21 int;
r20 int;
r19 int;
r18 int;
r17 int;
r16 int;
r15 int;
r14 int;
r13 int;
r11r12 named("r11", "r12") aliases(r11, r12) long volatile;
r9r10 named("r9", "r10") aliases(r9, r10) long volatile;
r7r8 named("r7", "r8") aliases(r7, r8) long volatile;
r5r6 named("r5", "r6") aliases(r6, r6) long volatile;
r3r4 named("r3", "r4") aliases(r3, r4) long volatile lret;
r29r30 named("r29", "r30") aliases(r29, r30) long;
r27r28 named("r27", "r28") aliases(r27, r28) long;
r25r26 named("r25", "r26") aliases(r25, r26) long;
r23r24 named("r23", "r24") aliases(r23, r24) long;
r21r22 named("r21", "r22") aliases(r21, r22) long;
r19r20 named("r19", "r20") aliases(r19, r20) long;
r17r18 named("r17", "r18") aliases(r17, r18) long;
r15r16 named("r15", "r16") aliases(r15, r16) long;
r13r14 named("r13", "r14") aliases(r13, r14) long;
f14 float volatile;
f13 float volatile;
f12 float volatile;
f11 float volatile;
f10 float volatile;
f9 float volatile;
f8 float volatile;
f7 float volatile;
f6 float volatile;
f5 float volatile;
f4 float volatile;
f3 float volatile fret;
f2 float volatile;
f1 float volatile;
f0 float volatile;
f31 float;
f30 float;
f29 float;
f28 float;
f27 float;
f26 float;
f25 float;
f24 float;
f23 float;
f22 float;
f21 float;
f20 float;
f19 float;
f18 float;
f17 float;
f16 float;
f15 float;
d14 named("f14") aliases(f14) double volatile;
d13 named("f13") aliases(f13) double volatile;
d12 named("f12") aliases(f12) double volatile;
d11 named("f11") aliases(f11) double volatile;
d10 named("f10") aliases(f10) double volatile;
d9 named("f9") aliases(f9) double volatile;
d8 named("f8") aliases(f8) double volatile;
d7 named("f7") aliases(f7) double volatile;
d6 named("f6") aliases(f6) double volatile;
d5 named("f5") aliases(f5) double volatile;
d4 named("f4") aliases(f4) double volatile;
d3 named("f3") aliases(f3) double volatile dret;
d2 named("f2") aliases(f2) double volatile;
d1 named("f1") aliases(f1) double volatile;
d0 named("f0") aliases(f0) double volatile;
d31 named("f31") aliases(f31) double;
d30 named("f30") aliases(f30) double;
d29 named("f29") aliases(f29) double;
d28 named("f28") aliases(f28) double;
d27 named("f27") aliases(f27) double;
d26 named("f26") aliases(f26) double;
d25 named("f25") aliases(f25) double;
d24 named("f24") aliases(f24) double;
d23 named("f23") aliases(f23) double;
d22 named("f22") aliases(f22) double;
d21 named("f21") aliases(f21) double;
d20 named("f20") aliases(f20) double;
d19 named("f19") aliases(f19) double;
d18 named("f18") aliases(f18) double;
d17 named("f17") aliases(f17) double;
d16 named("f16") aliases(f16) double;
d15 named("f15") aliases(f15) double;
cr0 cr;
DECLARATIONS
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cr;
ubyteX; /* bottom 8 bits valid, the rest undefined */
ubyte0; /* bottom 8 bits valid, the rest 0 */
ushortX; /* bottom 16 bits valid, the rest undefined */
ushort0; /* bottom 16 bits valid, the rest 0 */
address fragment;
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PATTERNS
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/* Special */
PAIR(BLOCK.I, BLOCK.I);
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/* Miscellaneous special things */
PUSH.I(in:(int)reg)
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emit "stwu %in, -4(sp)"
cost 4;
PUSH.L(in:(long)reg)
emit "stwu %in.0, -4(sp)"
emit "stwu %in.1, -4(sp)"
cost 8;
PUSH.D(in:(double)reg)
emit "stfdu %in, -8(sp)"
cost 4;
out:(int)reg = POP.I
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emit "lwz %out, 0(sp)"
emit "addi sp, sp, 4"
cost 8;
out:(long)reg = POP.L
emit "lwz %out.0, 4(sp)"
emit "lwz %out.1, 0(sp)"
emit "addi sp, sp, 8"
cost 12;
out:(float)reg = POP.F
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emit "lfs %out, 0(sp)"
emit "addi sp, sp, 4"
cost 8;
out:(double)reg = POP.D
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emit "lfd %out, 0(sp)"
emit "addi sp, sp, 8"
cost 8;
SETRET.I(in:(iret)reg)
emit "! setret4"
cost 1;
SETRET.L(in:(lret)reg)
emit "! setret8"
cost 1;
STACKADJUST.I(delta:CONST.I)
when signed_constant(%delta, 16)
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emit "addi sp, sp, $delta"
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cost 4;
STACKADJUST.I(in:(int)reg)
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emit "add sp, sp, %in"
cost 4;
STACKADJUST.I(NEG.I(in:(int)reg))
emit "subf sp, %in, sp"
cost 4;
out:(int)reg = GETFP.I
emit "mr %out, fp"
cost 4;
SETFP.I(in:(int)reg)
emit "mr fp, %in"
cost 4;
out:(int)reg = CHAINFP.I(in:(int)reg)
emit "lwz %out, 0(%in)"
cost 4;
out:(int)reg = FPTOAB.I(GETFP.I)
emit "addi %out, fp, 8"
cost 4;
out:(int)reg = FPTOAB.I(in:(int)reg)
emit "addi %out, %in, 8"
cost 4;
out:(int)reg = FPTOLB.I(in:(int)reg)
with %out == %in
cost 1;
out:(int)reg = GETSP.I
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emit "mr %out, sp"
cost 4;
SETSP.I(in:(int)reg)
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emit "mr sp, %in"
cost 4;
out:(int)reg = ANY.I
cost 1;
out:(int)reg = COPYF.I(in:(float)reg)
emit "stfsu %in, -4(sp)"
emit "lwz %out, 0(sp)"
emit "addi sp, sp, 4"
cost 12;
out:(double)reg = COPYL.D(in:(long)reg)
emit "stwu %in.0, -4(sp)"
emit "stwu %in.1, -4(sp)"
emit "lfd %out, 0(sp)"
emit "addi sp, sp, 8"
cost 16;
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out:(long)reg = COPYD.L(in:(double)reg)
emit "stfdu %in, -8(sp)"
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emit "lwz %out.0, 4(sp)"
emit "lwz %out.1, 0(sp)"
emit "addi sp, sp, 8"
cost 16;
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/* Memory operations */
/* Stores */
STORE.D(addr:address, value:(double)reg)
emit "stfd %value, %addr"
cost 4;
STORE.L(addr:address, value:(long)reg)
emit "stw %value.0, 4+%addr"
emit "stw %value.1, 0+%addr"
cost 8;
STORE.I(addr:address, value:(int)reg)
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emit "stw %value, %addr"
cost 4;
STOREH.I(addr:address, value:(int)ushortX)
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emit "sth %value, %addr"
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cost 4;
STOREH.I(ADD.I(left:(int)reg, right:(int)reg), value:(int)ushortX)
emit "sthx %value, %left, %right"
cost 4;
STOREB.I(addr:address, value:(int)ushortX)
emit "sth %value, %addr"
cost 4;
STOREB.I(addr:address, value:(int)ubyteX)
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emit "stb %value, %addr"
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cost 4;
STOREB.I(ADD.I(left:(int)reg, right:(int)reg), value:(int)ubyteX)
emit "stbx %value, %left, %right"
cost 4;
/* Loads */
out:(int)reg = LOAD.I(addr:address)
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emit "lwz %out, %addr"
cost 4;
out:(long)reg = LOAD.L(addr:address)
emit "lwz %out.0, 4+%addr"
emit "lwz %out.1, 0+%addr"
cost 8;
out:(int)ushort0 = LOADH.I(addr:address)
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emit "lhz %out, %addr"
cost 4;
out:(int)ubyte0 = LOADB.I(addr:address)
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emit "lbz %out, %addr"
cost 4;
/* ubyte intrinsics */
out:(int)ubyteX = in:(int)ubyte0
with %out == %in
emit "! ubyte0 -> ubyteX"
cost 1;
out:(int)ubyte0 = in:(int)ubyteX
emit "andi %out, %in, 0xff ! ubyteX -> ubyte0"
cost 4;
out:(int)reg = in:(int)ubyte0
with %out == %in
emit "! ubyte0 -> reg"
cost 4;
out:(int)ubyteX = in:(int)reg
with %out == %in
emit "! reg -> ubyteX"
cost 1;
/* ushort intrinsics */
out:(int)ushortX = in:(int)ushort0
with %out == %in
emit "! ushort0 -> ushortX"
cost 1;
out:(int)ushort0 = in:(int)ushortX
emit "andi %out, %in, 0xff ! ushortX -> ushort0"
cost 4;
out:(int)reg = in:(int)ushort0
with %out == %in
emit "! ushort0 -> reg"
cost 4;
out:(int)ushortX = in:(int)reg
with %out == %in
emit "! reg -> ushortX"
cost 1;
/* Extensions and conversions */
out:(int)reg = EXTENDB.I(in:(int)reg)
emit "extsb %out, %in"
cost 4;
out:(int)reg = EXTENDH.I(in:(int)reg)
emit "extsh %out, %in"
cost 4;
out:(int)reg = FROMSI.I(in:(int)reg)
with %out == %in
emit "! FROMSI.I(int) -> int"
cost 1;
out:(int)reg = FROMUI.I(in:(int)reg)
with %out == %in
emit "! FROMUI.I(int) -> int"
cost 1;
out:(long)reg = FROMSI.L(in:(int)reg)
emit "mr %out.0, %in"
emit "srawi %out.1, %out.0, 31"
cost 8;
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out:(long)reg = FROMUI.L(in:(int)reg)
emit "mr %out.0, %in"
emit "li32 %out.1, 0"
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cost 8;
out:(iret)reg = FROMSF.I(in:(dret)reg)
with corrupted(volatile)
emit "bl .fromf2i"
cost 4;
out:(int)reg = FROMSD.I(in:(double)reg)
with preserved(%in)
emit "fctiwz %in, %in"
emit "stfdu %in, -8(sp)"
emit "lwz %out, 4(sp)"
emit "addi sp, sp, 8"
cost 16;
out:(int)reg = FROMUD.I(in:(double)reg)
with corrupted(volatile)
emit "stfdu %in, -8(sp)"
emit "bl .cfu8"
emit "lwz %out, 0(sp)"
emit "addi sp, sp, 4"
cost 16;
out:(lret)reg = FROMSF.L(in:(fret)reg)
with corrupted(volatile)
emit "bl .fromf2l"
cost 4;
out:(lret)reg = FROMUF.I(in:(fret)reg)
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with corrupted(volatile)
emit "bl .fromf2l"
cost 4;
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out:(double)reg = FROMSI.D(in:(int)reg)
with corrupted(volatile)
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emit "stwu %in, -4(sp)"
emit "bl .cif8"
emit "lfd %out, 0(sp)"
emit "addi sp, sp, 8"
cost 4;
out:(fret)reg = FROMUI.F(in:(iret)reg)
with corrupted(volatile)
emit "bl .fromui2f"
cost 4;
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out:(double)reg = FROMUI.D(in:(int)reg)
with corrupted(volatile)
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emit "stwu %in, -4(sp)"
emit "bl .cuf8"
emit "lfd %out, 0(sp)"
emit "addi sp, sp, 8"
cost 4;
out:(lret)reg = FROMIPAIR.L(in1:(int)reg, in2:(int)reg)
emit "mr %out.0, %in1"
emit "mr %out.1, %in2"
cost 8;
out:(int)reg = FROML0.I(in:(long)reg)
emit "mr %out, %in.0"
cost 4;
out:(int)reg = FROML1.I(in:(long)reg)
emit "mr %out, %in.1"
cost 4;
/* Locals */
out:(int)reg = in:LOCAL.I
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emit "addi %out, fp, $in"
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cost 4;
address = in:LOCAL.I
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emit "$in(fp)";
/* Memory addressing modes */
address = ADD.I(addr:(int)reg, offset:CONST.I)
when signed_constant(%offset, 16)
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emit "$offset(%addr)";
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address = addr:(int)reg
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emit "0(%addr)";
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/* Branches */
JUMP(addr:BLOCK.I)
emit "b $addr"
cost 4;
FARJUMP(addr:LABEL.I)
with corrupted(volatile)
emit "b $addr"
cost 4;
JUMP(dest:(int)reg)
emit "mtspr ctr, %dest"
emit "bcctrl 20, 0, 0"
cost 8;
CJUMPEQ(value:(cr)cr, PAIR(true:BLOCK.I, false:BLOCK.I))
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emit "bc 12, 2, $true" /* IFTRUE EQ */
emit "b $false"
cost 8;
CJUMPLE(value:(cr)cr, PAIR(true:BLOCK.I, false:BLOCK.I))
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emit "bc 4, 1, $true" /* IFFALSE GT */
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emit "b $false"
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cost 8;
CJUMPLT(value:(cr)cr, PAIR(true:BLOCK.I, false:BLOCK.I))
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emit "bc 12, 0, $true" /* IFTRUE LT */
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emit "b $false"
cost 8;
#define CALLLABEL(insn) \
insn (dest:LABEL.I) \
with corrupted(volatile) \
emit "bl $dest" \
cost 4;
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CALLLABEL(CALL)
out:(iret)reg = CALLLABEL(CALL.I)
out:(lret)reg = CALLLABEL(CALL.L)
#define CALLINDIRECT(insn) \
insn (dest:(int)reg) \
with corrupted(volatile) \
emit "mtspr ctr, %dest" \
emit "bcctrl 20, 0, 0" \
cost 8;
CALLINDIRECT(CALL)
out:(iret)reg = CALLINDIRECT(CALL.I)
out:(lret)reg = CALLINDIRECT(CALL.L)
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JUMP(dest:LABEL.I)
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emit "b $dest"
cost 4;
/* Comparisons */
cr:(cr)cr = COMPARESI.I(left:(int)reg, right:(int)reg)
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emit "cmp %cr, 0, %left, %right"
cost 4;
cr:(cr)cr = COMPARESI.I(left:(int)reg, right:CONST.I)
when signed_constant(%right, 16)
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emit "cmpi %cr, 0, %left, $right"
cost 4;
cr:(cr)cr = COMPAREUI.I(left:(int)reg, right:(int)reg)
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emit "cmpl %cr, 0, %left, %right"
cost 4;
cr:(cr)cr = COMPAREUI.I(left:(int)reg, right:CONST.I)
when signed_constant(%right, 16)
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emit "cmpli %cr, 0, %left, $right"
cost 4;
out:(cr)cr = COMPARESI.I(in:(cr)cr, result:CONST.I)
when specific_constant(%result, 0)
with %out == %in
emit "! COMPARESI.I(cr, 0)"
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cost 4;
/* Booleans */
out:(int)reg = IFEQ.I(in:(cr)cr)
emit "mfcr %out" /* get cr0 */
emit "rlwinm %out, %out, 3, 31, 31" /* extract just EQ */
cost 8;
#if 0
out:(int)reg = IFEQ.I(in:(int)reg)
emit "cntlzw %out, %in" /* returns 0..32 */
emit "rlwinm %out, %out, [32-5], 31, 31" /* if 32, return 1, otherwise 0 */
cost 8;
#endif
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out:(int)reg = IFLT.I(in:(cr)cr)
emit "mfcr %out" /* get cr0 */
emit "rlwinm %out, %out, 1, 31, 31" /* leave just LT */
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cost 8;
out:(int)reg = IFLE.I(in:(cr)cr)
emit "mfcr %out" /* get cr0 */
emit "rlwinm %out, %out, 2, 31, 31" /* leave just GT */
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emit "xori %out, %out, 1" /* negate */
cost 12;
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/* Conversions */
#if 0
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out:(int)reg = CIU44(in:(int)reg)
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with %out == %in
emit "! ciu44"
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cost 4;
out:(int)reg = CUI44(in:(int)reg)
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with %out == %in
emit "! cui44"
cost 4;
#endif
/* ALU operations */
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#define ALUR(name, instr) \
out:(int)reg = name(left:(int)reg, right:(int)reg) \
emit instr " %out, %left, %right" \
cost 4; \
#define ALUC(name, instr) \
out:(int)reg = name(left:(int)reg, right:CONST.I) \
when signed_constant(%right, 16) \
emit instr " %out, %left, $right" \
cost 4; \
#define ALUC_reversed(name, instr) \
out:(int)reg = name(left:CONST.I, right:(int)reg) \
when signed_constant(%left, 16) \
emit instr " %out, %right, $left" \
cost 4; \
#define ALUCC(name, instr) \
ALUC(name, instr) \
ALUC_reversed(name, instr)
ALUR(ADD.I, "add")
ALUCC(ADD.I, "addi")
out:(int)reg = SUB.I(left:(int)reg, right:(int)reg)
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emit "subf %out, %right, %left"
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cost 4;
out:(int)reg = SUB.I(left:(int)reg, right:CONST.I)
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emit "addi %out, %left, -[$right]"
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cost 4;
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out:(int)reg = MOD.I(left:(int)reg, right:(int)reg)
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with preserved(%left), preserved(%right)
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emit "divw %out, %left, %right"
emit "mullw %out, %out, %right"
emit "subf %out, %out, %left"
cost 12;
out:(int)reg = MODU.I(left:(int)reg, right:(int)reg)
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with preserved(%left), preserved(%right)
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emit "divwu %out, %left, %right"
emit "mullw %out, %out, %right"
emit "subf %out, %out, %left"
cost 12;
ALUR(MUL.I, "mullw")
ALUCC(MUL.I, "mulli")
ALUR(DIV.I, "divw")
ALUR(DIVU.I, "divwu")
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ALUR(ASL.I, "slw")
ALUR(ASR.I, "sraw")
ALUR(LSL.I, "slw")
ALUR(LSR.I, "srw")
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out:(int)reg = NEG.I(left:(int)reg)
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emit "neg %out, %left"
cost 4;
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out:(int)reg = NOT.I(in:(int)reg)
emit "nor %out, %in, %in"
cost 4;
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ALUR(AND.I, "and")
ALUCC(AND.I, "andi.")
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ALUR(OR.I, "or")
ALUCC(OR.I, "ori")
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ALUR(EOR.I, "xor")
ALUCC(EOR.I, "xori")
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out:(int)reg = value:LABEL.I
emit "li32 %out, $value"
cost 4;
out:(int)reg = value:BLOCK.I
emit "li32 %out, $value"
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cost 4;
out:(int)reg = value:CONST.I
emit "li32 %out, $value"
cost 8;
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/* FPU operations */
#define FPU4R(name, instr) \
out:(float)reg = name(left:(float)reg, right:(float)reg) \
emit instr " %out, %left, %right" \
cost 4; \
#define FPU8R(name, instr) \
out:(double)reg = name(left:(double)reg, right:(double)reg) \
emit instr " %out, %left, %right" \
cost 4; \
out:(float)reg = LOAD.F(addr:address)
emit "lfs %out, %addr"
cost 4;
out:(double)reg = LOAD.D(addr:address)
emit "lfd %out, %addr"
cost 4;
out:(float)reg = in:CONST.F
when specific_constant(%in, 0)
emit "li32 r0, .fd_00000000"
emit "lfs %out, 0(r0)"
cost 12;
FPU4R(ADDF.F, "fadds")
FPU8R(ADDF.D, "fadd")
FPU4R(SUBF.F, "fsubs")
FPU8R(SUBF.D, "fsub")
FPU4R(MULF.F, "fmuls")
FPU8R(MULF.D, "fmul")
FPU4R(DIVF.F, "fdivs")
FPU8R(DIVF.D, "fdiv")
#define FMALEFT(type, insn, add, mul) \
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out:(type)reg = add(mul(m1:(type)reg, m2:(type)reg), m3:(type)reg) \
emit insn " %out, %m1, %m2, %m3" \
cost 4; \
#define FMARIGHT(type, insn, add, mul) \
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out:(type)reg = add(m3:(type)reg, mul(m1:(type)reg, m2:(type)reg)) \
emit insn " %out, %m1, %m2, %m3" \
cost 4; \
FMALEFT( double, "fmadd", ADDF.D, MULF.D)
FMARIGHT(double, "fmadd", ADDF.D, MULF.D)
FMALEFT( float, "fmadds", ADDF.F, MULF.F)
FMARIGHT(float, "fmadds", ADDF.F, MULF.F)
FMALEFT( double, "fmsub", SUBF.D, MULF.D)
FMALEFT( float, "fmsubs", SUBF.F, MULF.F)
FMARIGHT(double, "fnmadd", SUBF.D, MULF.D)
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FMARIGHT(float, "fnmadds", SUBF.F, MULF.F)
#define FMANEGLEFT(type, insn, neg, add, mul) \
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out:(type)reg = neg(add(mul(m1:(type)reg, m2:(type)reg), m3:(type)reg)) \
emit insn " %out, %m1, %m2, %m3" \
cost 4; \
#define FMANEGRIGHT(type, insn, neg, add, mul) \
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out:(type)reg = neg(add(m3:(type)reg, mul(m1:(type)reg, m2:(type)reg))) \
emit insn " %out, %m1, %m2, %m3" \
cost 4; \
FMANEGLEFT( double, "fnmsub", NEGF.D, ADDF.D, MULF.D)
FMANEGRIGHT(double, "fnmsub", NEGF.D, ADDF.D, MULF.D)
FMANEGLEFT( float, "fnmsub", NEGF.F, ADDF.F, MULF.F)
FMANEGRIGHT(float, "fnmsub", NEGF.F, ADDF.F, MULF.F)
out:(float)reg = NEGF.F(left:(float)reg)
emit "fneg %out, %left"
cost 4;
out:(double)reg = NEGF.D(left:(double)reg)
emit "fneg %out, %left"
cost 4;
cr:(cr)cr = COMPAREF.I(left:(float)reg, right:(float)reg)
emit "fcmpu %cr, %left, %right"
cost 4;
cr:(cr)cr = COMPARED.I(left:(double)reg, right:(double)reg)
emit "fcmpu %cr, %left, %right"
cost 4;
/* vim: set sw=4 ts=4 expandtab : */