| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-10.0/llvm/include/llvm/Support/ |
| H A D | Endian.h | 119 inline value_type readAtBitAlignment(const void *memory, uint64_t startBit) { in readAtBitAlignment() argument
120 assert(startBit < 8); in readAtBitAlignment()
121 if (startBit == 0) in readAtBitAlignment()
134 make_unsigned_t<value_type> lowerVal = val[0] >> startBit; in readAtBitAlignment()
137 (sizeof(value_type) * 8) - startBit; in readAtBitAlignment()
142 val[1] & (((make_unsigned_t<value_type>)1 << startBit) - 1); in readAtBitAlignment()
154 uint64_t startBit) {
155 assert(startBit < 8);
156 if (startBit == 0)
170 val[0] &= ((make_unsigned_t<value_type>)1 << startBit)
[all...] |
| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-subzero/include/llvm/Support/ |
| H A D | Endian.h | 86 inline value_type readAtBitAlignment(const void *memory, uint64_t startBit) { in readAtBitAlignment() argument
87 assert(startBit < 8); in readAtBitAlignment()
88 if (startBit == 0) in readAtBitAlignment()
101 make_unsigned_t<value_type> lowerVal = val[0] >> startBit; in readAtBitAlignment()
104 (sizeof(value_type) * 8) - startBit; in readAtBitAlignment()
109 val[1] & (((make_unsigned_t<value_type>)1 << startBit) - 1); in readAtBitAlignment()
121 uint64_t startBit) {
122 assert(startBit < 8);
123 if (startBit == 0)
137 val[0] &= ((make_unsigned_t<value_type>)1 << startBit)
[all...] |
| /third_party/lwip/src/netif/ppp/ |
| H A D | pppcrypt.c | 41 static u_char pppcrypt_get_7bits(u_char *input, int startBit) { in pppcrypt_get_7bits() argument
44 word = (unsigned)input[startBit / 8] << 8; in pppcrypt_get_7bits()
45 word |= (unsigned)input[startBit / 8 + 1]; in pppcrypt_get_7bits()
47 word >>= 15 - (startBit % 8 + 7); in pppcrypt_get_7bits()
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| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-10.0/llvm/lib/Target/Hexagon/MCTargetDesc/ |
| H A D | HexagonShuffler.cpp | 173 static unsigned makeAllBits(unsigned startBit, unsigned Lanes) in makeAllBits() argument
176 startBit = (startBit << 1) | startBit; in makeAllBits()
177 return startBit; in makeAllBits()
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| /third_party/node/deps/v8/src/codegen/s390/ |
| H A D | assembler-s390.h | 904 void name(Register dst, Register src, const Operand& startBit, \
906 DCHECK(is_uint8(startBit.immediate())); \
909 rie_f_format(op_name, dst.code(), src.code(), startBit.immediate(), \
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| H A D | macro-assembler-s390.h | 155 const Operand& startBit, const Operand& endBit,
958 int startBit = 63 - rangeStart + rangeEnd; in ExtractBitRange() local
959 RotateInsertSelectBits(dst, src, Operand(startBit), Operand(endBit), in ExtractBitRange()
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| H A D | macro-assembler-s390.cc | 581 const Operand& startBit, in RotateInsertSelectBits()
587 risbg(dst, src, startBit, in RotateInsertSelectBits()
590 risbg(dst, src, startBit, endBit, shiftAmt); in RotateInsertSelectBits()
3201 int startBit = in CallRecordWriteStub() local
3204 // Start: startBit, End: endBit, Shift = 0, true = zero unselected bits. in CallRecordWriteStub()
3205 RotateInsertSelectBits(dst, src, Operand(startBit), Operand(endBit), in CallRecordWriteStub()
3210 // we can set startBit to be 0. in CallRecordWriteStub()
580 RotateInsertSelectBits(Register dst, Register src, const Operand& startBit, const Operand& endBit, const Operand& shiftAmt, bool zeroBits) RotateInsertSelectBits() argument
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| /third_party/node/deps/v8/src/compiler/backend/s390/ |
| H A D | code-generator-s390.cc | 1602 int startBit = 63 - i.InputInt32(2); in AssembleArchInstruction() local
1604 Operand(startBit), Operand(endBit), in AssembleArchInstruction()
1620 int startBit = 63 - i.InputInt32(2); in AssembleArchInstruction() local
1622 Operand(startBit), Operand(endBit), in AssembleArchInstruction()
1636 int startBit = 0; in AssembleArchInstruction() local
1638 Operand(startBit), Operand(endBit), in AssembleArchInstruction()
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