/external/valgrind/VEX/priv/ |
H A D | guest_ppc_toIR.c | 616 static IRExpr* mkexpr ( IRTemp tmp ) function 694 assign( *vOdd, binop(Iop_MullEven8Ux16, mkexpr(ones8x16), vIn) ); 695 assign( *vEvn, binop(Iop_MullEven8Ux16, mkexpr(ones8x16), 712 assign( *vOdd, binop(Iop_MullEven8Sx16, mkexpr(ones8x16), vIn) ); 713 assign( *vEvn, binop(Iop_MullEven8Sx16, mkexpr(ones8x16), 730 assign( *vOdd, binop(Iop_MullEven16Ux8, mkexpr(ones16x8), vIn) ); 731 assign( *vEvn, binop(Iop_MullEven16Ux8, mkexpr(ones16x8), 748 assign( *vOdd, binop(Iop_MullEven16Sx8, mkexpr(ones16x8), vIn) ); 749 assign( *vEvn, binop(Iop_MullEven16Sx8, mkexpr(ones16x8), 777 unop( Iop_64HIto32, mkexpr( hi6 [all...] |
H A D | guest_mips_toIR.c | 481 assign(t2, binop(Iop_And64, mkexpr(t1), mkU64(0xFFFFFFFFFFFFFFFCULL))); \ 484 mkexpr(t1), mkU64(0x3)))); 488 assign(t2, binop(Iop_And64, mkexpr(t1), mkU64(0xFFFFFFFFFFFFFFF8ULL))); \ 490 assign(t4, binop(Iop_And64, mkexpr(t1), mkU64(0x7))); 494 assign(t2, binop(Iop_And32, mkexpr(t1), mkU32(0xFFFFFFFC))); \ 496 assign(t4, binop(Iop_And32, mkexpr(t1), mkU32(0x00000003))) 874 static IRExpr *mkexpr(IRTemp tmp) function 954 assign(t1, binop(Iop_Sub8, mkU8(32), mkexpr(t0))); 955 return binop(Iop_Or32, binop(Iop_Shl32, src, mkexpr(t1)), 956 binop(Iop_Shr32, src, mkexpr(t [all...] |
H A D | guest_arm_toIR.c | 293 static IRExpr* mkexpr ( IRTemp tmp ) function 341 binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0))) ); 373 binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0))) ); 396 return mkexpr(src); 399 binop(Iop_Shl32, mkexpr(src), mkU8(32 - rot)), 400 binop(Iop_Shr32, mkexpr(src), mkU8(rot))); 599 IRExpr_ITE( binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0)), 632 IRExpr_ITE( binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0)), 727 IRExpr_ITE( binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0)), 770 IRExpr_ITE( binop(Iop_CmpNE32, mkexpr(guard [all...] |
H A D | guest_x86_toIR.c | 658 static IRExpr* mkexpr ( IRTemp tmp ) function 763 NULL, mkexpr(expTmp), NULL, newVal ); 767 mkexpr(oldTmp), mkexpr(expTmp) ), 927 stmt( IRStmt_Put( OFFB_CC_DEP1, widenUto32(mkexpr(dep1))) ); 928 stmt( IRStmt_Put( OFFB_CC_DEP2, widenUto32(mkexpr(dep2))) ); 952 stmt( IRStmt_Put( OFFB_CC_DEP1, widenUto32(mkexpr(dep1))) ); 987 assign( guardB, binop(Iop_CmpNE8, mkexpr(guard), mkU8(0)) ); 991 IRExpr_ITE( mkexpr(guardB), 995 IRExpr_ITE( mkexpr(guard [all...] |
H A D | guest_s390_toIR.c | 115 mkexpr(IRTemp tmp) function 561 expr = mkexpr(v); 652 dep1 = mkexpr(d1); 676 dep1 = mkexpr(d1); 692 hi = unop(Iop_F128HItoF64, mkexpr(d1)); 693 lo = unop(Iop_F128LOtoF64, mkexpr(d1)); 708 hi = unop(Iop_F128HItoF64, mkexpr(d1)); 709 lo = unop(Iop_ReinterpF64asI64, unop(Iop_F128LOtoF64, mkexpr(d1))); 726 hi = unop(Iop_D128HItoD64, mkexpr(d1)); 727 lo = unop(Iop_D128LOtoD64, mkexpr(d [all...] |
H A D | guest_arm64_toIR.c | 270 static IRExpr* mkexpr ( IRTemp tmp ) function 318 //ZZ binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0))) ); 350 //ZZ binop(Iop_CmpNE32, mkexpr(guardT), mkU32(0))) ); 433 //ZZ return mkexpr(src); 436 //ZZ binop(Iop_Shl32, mkexpr(src), mkU8(32 - rot)), 437 //ZZ binop(Iop_Shr32, mkexpr(src), mkU8(rot))); 1012 binop(mkSHL(ty), mkexpr(arg), mkU8(w - imm)), 1013 binop(mkSHR(ty), mkexpr(arg), mkU8(imm)) )); 1032 binop(mkSHL(ty), mkexpr(arg), mkU8(w - 1 - imm)), 1590 //ZZ IRExpr_ITE( binop(Iop_CmpNE32, mkexpr(guard [all...] |
H A D | guest_amd64_toIR.c | 258 static IRExpr* mkexpr ( IRTemp tmp ) function 1616 NULL, mkexpr(expTmp), NULL, newVal ); 1620 mkexpr(oldTmp), mkexpr(expTmp) ), 1793 stmt( IRStmt_Put( OFFB_CC_DEP1, widenUto64(mkexpr(dep1))) ); 1794 stmt( IRStmt_Put( OFFB_CC_DEP2, widenUto64(mkexpr(dep2))) ); 1819 stmt( IRStmt_Put( OFFB_CC_DEP1, widenUto64(mkexpr(dep1))) ); 1857 assign( guardB, binop(Iop_CmpNE8, mkexpr(guard), mkU8(0)) ); 1861 IRExpr_ITE( mkexpr(guardB), 1865 IRExpr_ITE( mkexpr(guard [all...] |
H A D | guest_tilegx_toIR.c | 115 static IRExpr *mkexpr ( IRTemp tmp ) function 248 return IRStmt_Exit(mkexpr(t0), Ijk_Boring, 606 mkexpr(t0), 657 mkexpr(t0), 772 NULL, mkexpr(t1)))); 788 mkexpr(t1)))); 789 assign(t2, unop(Iop_32Uto64, mkexpr(t3))); 886 mkexpr(t0))); 891 unop(Iop_64to8, mkexpr(t1))), 894 unop(Iop_64to8, mkexpr(t [all...] |
/external/valgrind/exp-dhat/ |
H A D | dh_main.c | 766 #define mkexpr(_tmp) IRExpr_RdTmp((_tmp)) macro 790 IRStmt* st2 = assign(t2, binop(Iop_Add64, mkexpr(t1), mkU64(n))); 791 IRStmt* st3 = IRStmt_Store(END, counter_addr, mkexpr(t2)); 845 ? binop(Iop_Sub32, mkexpr(sp), mkU32(rz_szB)) 846 : binop(Iop_Sub64, mkexpr(sp), mkU64(rz_szB))) 854 ? binop(Iop_Sub32, addr, mkexpr(sp_minus_rz)) 855 : binop(Iop_Sub64, addr, mkexpr(sp_minus_rz))) 863 ? binop(Iop_CmpLT32U, mkU32(THRESH), mkexpr(diff)) 864 : binop(Iop_CmpLT64U, mkU64(THRESH), mkexpr(diff))) 866 di->guard = mkexpr(guar 1020 #undef mkexpr macro [all...] |
/external/valgrind/helgrind/ |
H A D | hg_main.c | 4270 #define mkexpr(_tmp) IRExpr_RdTmp((_tmp)) macro 4289 addStmtToIRSB(sbOut, assign(anded, binop(Iop_And32, mkexpr(wide1), 4290 mkexpr(wide2)))); 4291 addStmtToIRSB(sbOut, assign(res, unop(Iop_32to1, mkexpr(anded)))); 4292 return mkexpr(res); 4423 ? binop(Iop_Sub32, addr, mkexpr(sp)) 4424 : binop(Iop_Sub64, addr, mkexpr(sp))) 4433 ? binop(Iop_Add32, mkexpr(addr_minus_sp), mkU32(rz_szB)) 4434 : binop(Iop_Add64, mkexpr(addr_minus_sp), mkU64(rz_szB))) 4443 ? binop(Iop_CmpLT32U, mkU32(THRESH), mkexpr(dif 4739 #undef mkexpr macro [all...] |
/external/valgrind/memcheck/ |
H A D | mc_translate.c | 446 #define mkexpr(_tmp) IRExpr_RdTmp((_tmp)) macro 473 return mkexpr(t); 1382 mkexpr(old_tmpV))); 4737 return mkexpr(datavbits); 5785 bind_shadow_tmp_to_orig('V', mce, mkexpr(cas->oldLo), voldLo); 5790 bind_shadow_tmp_to_orig('B', mce, mkexpr(cas->oldLo), boldLo); 5802 binop(opCasCmpEQ, cas->expdLo, mkexpr(cas->oldLo))); 5922 bind_shadow_tmp_to_orig('V', mce, mkexpr(cas->oldHi), voldHi); 5923 bind_shadow_tmp_to_orig('V', mce, mkexpr(cas->oldLo), voldLo); 5933 bind_shadow_tmp_to_orig('B', mce, mkexpr(ca [all...] |
/external/valgrind/VEX/useful/ |
H A D | test_main.c | 743 #define mkexpr(_tmp) IRExpr_RdTmp((_tmp)) macro 751 return mkexpr(t); 2106 return mkexpr(datavbits);
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