diff options
Diffstat (limited to 'disas/libvixl/a64/instructions-a64.cc')
| -rw-r--r-- | disas/libvixl/a64/instructions-a64.cc | 32 |
1 files changed, 16 insertions, 16 deletions
diff --git a/disas/libvixl/a64/instructions-a64.cc b/disas/libvixl/a64/instructions-a64.cc index e87fa3acce..c4eb7c4518 100644 --- a/disas/libvixl/a64/instructions-a64.cc +++ b/disas/libvixl/a64/instructions-a64.cc @@ -33,20 +33,20 @@ namespace vixl { static uint64_t RotateRight(uint64_t value, unsigned int rotate, unsigned int width) { - ASSERT(width <= 64); + VIXL_ASSERT(width <= 64); rotate &= 63; - return ((value & ((1UL << rotate) - 1UL)) << (width - rotate)) | - (value >> rotate); + return ((value & ((UINT64_C(1) << rotate) - 1)) << + (width - rotate)) | (value >> rotate); } static uint64_t RepeatBitsAcrossReg(unsigned reg_size, uint64_t value, unsigned width) { - ASSERT((width == 2) || (width == 4) || (width == 8) || (width == 16) || - (width == 32)); - ASSERT((reg_size == kWRegSize) || (reg_size == kXRegSize)); - uint64_t result = value & ((1UL << width) - 1UL); + VIXL_ASSERT((width == 2) || (width == 4) || (width == 8) || (width == 16) || + (width == 32)); + VIXL_ASSERT((reg_size == kWRegSize) || (reg_size == kXRegSize)); + uint64_t result = value & ((UINT64_C(1) << width) - 1); for (unsigned i = width; i < reg_size; i *= 2) { result |= (result << i); } @@ -84,7 +84,7 @@ uint64_t Instruction::ImmLogical() { if (imm_s == 0x3F) { return 0; } - uint64_t bits = (1UL << (imm_s + 1)) - 1; + uint64_t bits = (UINT64_C(1) << (imm_s + 1)) - 1; return RotateRight(bits, imm_r, 64); } else { if ((imm_s >> 1) == 0x1F) { @@ -96,14 +96,14 @@ uint64_t Instruction::ImmLogical() { if ((imm_s & mask) == mask) { return 0; } - uint64_t bits = (1UL << ((imm_s & mask) + 1)) - 1; + uint64_t bits = (UINT64_C(1) << ((imm_s & mask) + 1)) - 1; return RepeatBitsAcrossReg(reg_size, RotateRight(bits, imm_r & mask, width), width); } } } - UNREACHABLE(); + VIXL_UNREACHABLE(); return 0; } @@ -155,7 +155,7 @@ Instruction* Instruction::ImmPCOffsetTarget() { offset = ImmPCRel(); } else { // All PC-relative branches. - ASSERT(BranchType() != UnknownBranchType); + VIXL_ASSERT(BranchType() != UnknownBranchType); // Relative branch offsets are instruction-size-aligned. offset = ImmBranch() << kInstructionSizeLog2; } @@ -169,7 +169,7 @@ inline int Instruction::ImmBranch() const { case UncondBranchType: return ImmUncondBranch(); case CompareBranchType: return ImmCmpBranch(); case TestBranchType: return ImmTestBranch(); - default: UNREACHABLE(); + default: VIXL_UNREACHABLE(); } return 0; } @@ -186,7 +186,7 @@ void Instruction::SetImmPCOffsetTarget(Instruction* target) { void Instruction::SetPCRelImmTarget(Instruction* target) { // ADRP is not supported, so 'this' must point to an ADR instruction. - ASSERT(Mask(PCRelAddressingMask) == ADR); + VIXL_ASSERT(Mask(PCRelAddressingMask) == ADR); Instr imm = Assembler::ImmPCRelAddress(target - this); @@ -195,7 +195,7 @@ void Instruction::SetPCRelImmTarget(Instruction* target) { void Instruction::SetBranchImmTarget(Instruction* target) { - ASSERT(((target - this) & 3) == 0); + VIXL_ASSERT(((target - this) & 3) == 0); Instr branch_imm = 0; uint32_t imm_mask = 0; int offset = (target - this) >> kInstructionSizeLog2; @@ -220,14 +220,14 @@ void Instruction::SetBranchImmTarget(Instruction* target) { imm_mask = ImmTestBranch_mask; break; } - default: UNREACHABLE(); + default: VIXL_UNREACHABLE(); } SetInstructionBits(Mask(~imm_mask) | branch_imm); } void Instruction::SetImmLLiteral(Instruction* source) { - ASSERT(((source - this) & 3) == 0); + VIXL_ASSERT(((source - this) & 3) == 0); int offset = (source - this) >> kLiteralEntrySizeLog2; Instr imm = Assembler::ImmLLiteral(offset); Instr mask = ImmLLiteral_mask; |