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55851a4bfd
llvm-svn: 30594 |
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.. | ||
.cvsignore | ||
Alpha.h | ||
Alpha.td | ||
AlphaAsmPrinter.cpp | ||
AlphaCodeEmitter.cpp | ||
AlphaInstrFormats.td | ||
AlphaInstrInfo.cpp | ||
AlphaInstrInfo.h | ||
AlphaInstrInfo.td | ||
AlphaISelDAGToDAG.cpp | ||
AlphaISelLowering.cpp | ||
AlphaISelLowering.h | ||
AlphaJITInfo.cpp | ||
AlphaJITInfo.h | ||
AlphaLLRP.cpp | ||
AlphaRegisterInfo.cpp | ||
AlphaRegisterInfo.h | ||
AlphaRegisterInfo.td | ||
AlphaRelocations.h | ||
AlphaSchedule.td | ||
AlphaSubtarget.cpp | ||
AlphaSubtarget.h | ||
AlphaTargetAsmInfo.cpp | ||
AlphaTargetAsmInfo.h | ||
AlphaTargetMachine.cpp | ||
AlphaTargetMachine.h | ||
Makefile | ||
Readme.txt |
Fix jump table support. currently it uses 64bit absolute address. gcc uses gprel32. This way I won't keep fighting Evan as he keeps breaking 64bit entries in jump tables... #include <string.h> #include <setjmp.h> int main(int x, char** y) { char* foo; switch(x) { case 1: foo = "1"; break; case 2: foo = "2"; break; case 3: foo = "3"; break; case 4: foo = "4"; break; case 5: foo = "5"; break; case 6: foo = "6"; break; case 7: foo = "7"; break; case 8: foo = "8"; break; }; print(foo); return 0; } .set noreorder .set volatile .set noat .set nomacro .section .rodata.str1.1,"aMS",@progbits,1 $LC6: .ascii "7\0" $LC7: .ascii "8\0" $LC0: .ascii "1\0" $LC1: .ascii "2\0" $LC2: .ascii "3\0" $LC3: .ascii "4\0" $LC4: .ascii "5\0" $LC5: .ascii "6\0" .text .align 2 .align 4 .globl main .ent main main: .frame $30,16,$26,0 .mask 0x4000000,-16 ldah $29,0($27) !gpdisp!1 lda $29,0($29) !gpdisp!1 $main..ng: zapnot $16,15,$16 lda $30,-16($30) cmpule $16,8,$1 stq $26,0($30) .prologue 1 beq $1,$L2 ldah $6,$L11($29) !gprelhigh lda $5,$L11($6) !gprellow s4addq $16,$5,$0 ldl $2,0($0) addq $29,$2,$3 jmp $31,($3),$L2 .section .rodata .align 2 .align 2 $L11: .gprel32 $L2 .gprel32 $L3 .gprel32 $L4 .gprel32 $L5 .gprel32 $L6 .gprel32 $L7 .gprel32 $L8 .gprel32 $L9 .gprel32 $L10 .text $L9: ldah $20,$LC6($29) !gprelhigh lda $4,$LC6($20) !gprellow .align 4 $L2: mov $4,$16 ldq $27,print($29) !literal!2 jsr $26,($27),print !lituse_jsr!2 ldah $29,0($26) !gpdisp!3 mov $31,$0 bis $31,$31,$31 lda $29,0($29) !gpdisp!3 ldq $26,0($30) lda $30,16($30) ret $31,($26),1 $L10: ldah $21,$LC7($29) !gprelhigh lda $4,$LC7($21) !gprellow br $31,$L2 $L3: ldah $7,$LC0($29) !gprelhigh lda $4,$LC0($7) !gprellow br $31,$L2 $L4: ldah $8,$LC1($29) !gprelhigh lda $4,$LC1($8) !gprellow br $31,$L2 $L5: ldah $16,$LC2($29) !gprelhigh lda $4,$LC2($16) !gprellow br $31,$L2 $L6: ldah $17,$LC3($29) !gprelhigh lda $4,$LC3($17) !gprellow br $31,$L2 $L7: ldah $18,$LC4($29) !gprelhigh lda $4,$LC4($18) !gprellow br $31,$L2 $L8: ldah $19,$LC5($29) !gprelhigh lda $4,$LC5($19) !gprellow br $31,$L2 .end main .section .note.GNU-stack,"",@progbits .ident "GCC: (GNU) 3.4.4 20050314 (prerelease) (Debian 3.4.3-13)" %%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Fix Ordered/Unordered FP stuff %%%%%%%%%%%%%%%%%%%%%%%%%%%%%% improve bytezap opertunities ulong %foo(ulong %y) { entry: %tmp = and ulong %y, 65535 %tmp2 = shr ulong %tmp, ubyte 3 ret ulong %tmp2 } compiles to a 3 instruction sequence without instcombine zapnot $16,3,$0 srl $0,3,$0 ret $31,($26),1 After instcombine you get ulong %foo(ulong %y) { entry: %tmp = shr ulong %y, ubyte 3 ; <ulong> [#uses=1] %tmp2 = and ulong %tmp, 8191 ; <ulong> [#uses=1] ret ulong %tmp2 } which compiles to lda $0,8191($31) srl $16,3,$1 and $1,$0,$0 ret $31,($26),1