QObjectCan't open file '%1' to write!无法写入文件"%1"!Failed to write data.写入数据失败。byte swap.convert %1 to %2.bytewordconvert %1 in %2 to %3 in %4.double wordquad wordConditional move if equal相等时移动Conditional move if zero.Conditional move if not equal.Conditional move if above.Conditional move if not below or equal.Conditional move if above or equal.Conditional move if not below.Conditional move if below.Conditional move if not above or equal.Conditional move if below or equal.Conditional move if not above.Conditional move if greater.Conditional move if not less or equal.Conditional move if greater or equal.Conditional move if not less.Conditional move if less.Conditional move if not greater or equal.Conditional move if less or equal.Conditional move if not greater.Conditional move if carry.Conditional move if not carry.Conditional move if overflow.Conditional move if not overflow.Conditional move if sign (negative).Conditional move if not sign (non-negative).Conditional move if parity.Conditional move if parity even.Conditional move if not parity.Conditional move if parity odd.Compare and exchange.Compare and exchange 8 bytes.oct wordmove data between immediate values, general purpose registers, segment registers, and memory.move %1 data between immediate values, general purpose registers, segment registers, and memory.Move %1.move immediate value to register.move immediate %1 value to register.move immediate value to register %al/%ax/%eax/%rax.move immediate %1 value to register %2.Move and sign extension.Move sign-extended %1 to %2.Move with zero extension.Move zero-extended %1 to %2.Pop stack.Pop %1 off stack.Pop general-purpose registers from stack.Push stack.Push %1 onto stack.Push general-purpose registers onto stack.Exchange and add %1.Exchange %1.add unsigned %1 with carry.integeradd unsigned %1 with overflow.add %1 with carry.add %1.compare.compare %1.decrement by 1.decrement %1 by 1.unsigned %1 divide.signed %1 divide.signed %1 multiply.increment by 1.increment %1 by 1.unsigned %1 multiply.Two's complement negation.Replace the value of the %1 with its two's complementsubtract %1 with borrow.subtract %1.ascii adjust after addition.ascii adjust before division.ascii adjust after multiplication.ascii adjust after subtraction.decimal adjust after addition.decimal adjust after subtraction.bitwise logical AND.bitwise logical AND on %1 values.bitwise logical NOT.bitwise logical NOT on %1 value.bitwise logical OR.bitwise logical OR on %1 values.bitwise logical XOR.bitwise logical XOR on %1 values.rotate %1 through carry left.rotate %1 through carry right.rotate %1 left.rotate %1 right.shift %1 arithmetic left.shift %1 arithmetic right.shift %1 logical left.shift %1 logical right.shift %1 left double.shift %1 right double.bit scan forward.bit scan forward in the %1 operand.bit scan reserve.bit scan reserve in the %1 operand.bit test.bit test in the %1 operand.bit test and complement.bit test and complement in the %1 operand.bit test and reset.bit test and reset in the %1 operand.bit test and set.bit test and set in the %1 operand.set byte if above.set byte if above or equal.set byte if below.set byte if below or equal.set byte if carry.set byte if equal.set byte if greater.set byte if greater or equal.set byte if less.set byte if less or equal.set byte if not above.set byte if not above or equal.set byte if not below.set byte if not below or equal.set byte if not carry.set byte if not equal.set byte if not greater.set byte if not greater or equal.set byte if not less.set byte if not less or equal.set byte if not overflow.set byte if not parity.set byte if not sign (non-negative).set byte if not zero.set byte if overflow.set byte if parity.set byte if parity even.set byte if parity odd.set byte if sign (negative).set byte if zero.logical compare.logical compare %1.detect value out of range.detect %1 value out of range.call procedure.high-level procedure entry.software interrupt.interrupt on overflow.return from interrupt.jump if above.jump if above or equal.jump if below.jump if below or equal.jump if carry.jump register %cx zerojump if equal.jump register %ecx zerojump if greater.jump if greater or equal.jump if less.jump if less or equal.jump.jump if not above or equal.jump if not below.jump if not below or equal.jump if not carry.jump if not equal.jump if not greater.jump if not greater or equal.jump if not less.jump if not less or equal.jump if not overflow.jump if not parity.jump if not sign (non-negative).jump if not zero.jump if overflow.jump if parity.jump if parity even.jump if parity odd.jump if sign (negative).jump if zero.call far procedure.high-level procedure exit.loop with %ecx counterloop with %ecx and equalloop with %ecx and not equalloop with %ecx and not zeroloop with %ecx and zeroreturn from far procedure.return.compare string.compare %1 string.load string.load %1 string.move string.move %1 string.repeat while %ecx not zerorepeat while not equal.repeat while not zero.repeat while equal.repeat while zero.scan string.scan %1 string.store string.store %1 string.read from a port.input string from a port.input byte string from port.input double word string from port.input word string from port.write to a port.output string to port.output byte string to port.output double word string to port.output word string to port.clear carry flag.clear direction flag.clear interrupt flag.complement carry flag.load flags into %ah registerpop %eflags from stackpush %eflags onto stackstore %ah register into flagsset carry flag.set direction flag.set interrupt flag.load far pointer using %dsload far pointer using %esload far pointer using %fsload far pointer using %gsload far pointer using %ssprocessor identification.load effective address.no operation.undefined instruction.table lookup translation.load bcd.store bcd and pop.floating-point conditional move if below.floating-point conditional move if below or equal.floating-point conditional move if equal.floating-point conditional move if not below.floating-point conditional move if not below or equal.floating-point conditional move if not equal.floating-point conditional move if unordered.load integer.store integer.store integer and pop.load floating-point value.store floating-point value.store floating-point value and pop.exchange registers .absolute value.add floating-point.add floating-point and pop.change sign.divide floating-point.divide floating-point and pop.divide floating-point reverse.divide floating-point reverse and pop.add integer.divide integer.divide integer reverse.multiply integer.subtract integer.subtract integer reverse.multiply floating-point.multiply floating-point and pop.partial remainder.ieee partial remainder.round to integer.scale by power of two.square root.subtract floating-point.subtract floating-point and pop.subtract floating-point reverse.subtract floating-point reverse and pop.extract exponent and significand .compare floating-point.compare floating-point and set %eflags.compare floating-point, set %eflags, and pop.compare floating-point and pop.compare floating-point and pop twice.compare integer.compare integer and pop.test floating-point (compare with 0.0).unordered compare floating-point.unordered compare floating-point and set %eflags.unordered compare floating-point, set %eflags, and pop.unordered compare floating-point and pop.examine floating-point .instructions (floating-point) .transcendental instructions perform trigonometric and logarithmic operations on floating-point operands. .3–16 transcendental instructions (floating-point).mnemonic description.computes 2x-1.cosine.partial arctangent.partial tangent.sine.sine and cosine.computes y * log2x.computes y * log2(x+1).load +1.0.load log2e.load log210.load log102.load loge2.load π.load +0.0 .clear floating-point exception flags after checking for error conditions.decrement floating-point register stack pointer.free floating-point register.increment floating-point register stack pointer.initialize floating-point unit after checking error conditions.load floating-point unit control word.load floating-point unit environment.clear floating-point exception flags without checking for error conditions.initialize floating-point unit without checking error conditions.floating-point no operation.save floating-point unit state without checking error conditions.store floating-point unit control word without checking error conditions.store floating-point unit environment without checking error conditions.store floating-point unit status word without checking error conditions.restore floating-point unit state.save floating-point unit state after checking error conditions.store floating-point unit control word after checking error conditions.store floating-point unit environment after checking error conditions.store floating-point unit status word after checking error conditions.wait for floating-point unit.restore floating-point unit and simd state.save floating-point unit and simd state.pack doublewords into words with signed saturation.pack words into bytes with signed saturation.pack words into bytes with unsigned saturation.unpack high-order bytes.unpack high-order doublewords.unpack high-order words.unpack low-order bytes.unpack low-order doublewords.unpack low-order words.add packed byte integers.add packed doubleword integers.add packed signed byte integers with signed saturation.add packed signed word integers with signed saturation.add packed unsigned byte integers with unsigned saturation.add packed unsigned word integers with unsigned saturation.add packed word integers.multiply and add packed word integers.multiply packed signed word integers and store high result.multiply packed signed word integers and store low result.subtract packed byte integers.subtract packed doubleword integers.subtract packed signed byte integers with signed saturation.subtract packed signed word integers with signed saturation.subtract packed unsigned byte integers with unsigned saturation.subtract packed unsigned word integers with unsigned saturation.subtract packed word integers.compare packed bytes for equal.compare packed doublewords for equal.compare packed words for equal.compare packed signed byte integers for greater than.compare packed signed doubleword integers for greater than.compare packed signed word integers for greater than.bitwise logical and.bitwise logical and not.bitwise logical or.bitwise logical xor.shift packed doublewords left logical.shift packed quadword left logical.shift packed words left logical.shift packed doublewords right arithmetic.shift packed words right arithmetic.shift packed doublewords right logical.shift packed quadword right logical.shift packed words right logical.empty mmx state.move four aligned packed single-precision floating-point values between xmm registers or memory.move two packed single-precision floating-point values from the high quadword of an xmm register to the low quadword of another xmm register.move two packed single-precision floating-point values to or from the high quadword of an xmm register or memory.move two packed single-precision floating-point values from the low quadword of an xmm register to the high quadword of another xmm register.move two packed single-precision floating-point values to or from the low quadword of an xmm register or memory.extract sign mask from four packed single-precision floating-point values.move scalar single-precision floating-point value between xmm registers or memory.move four unaligned packed single-precision floating-point values between xmm registers or memory.add packed single-precision floating-point values.add scalar single-precision floating-point values.divide packed single-precision floating-point values.divide scalar single-precision floating-point values.return maximum packed single-precision floating-point values.return maximum scalar single-precision floating-point values.return minimum packed single-precision floating-point values.return minimum scalar single-precision floating-point values..multiply packed single-precision floating-point values.multiply scalar single-precision floating-point values.compute reciprocals of packed single-precision floating-point values.compute reciprocal of scalar single-precision floating-point values.compute reciprocals of square roots of packed single-precision floating-point values.compute reciprocal of square root of scalar single-precision floating-point values.compute square roots of packed single-precision floating-point values.compute square root of scalar single-precision floating-point values.subtract packed single-precision floating-point values.subtract scalar single-precision floating-point values.compare packed single-precision floating-point values.compare scalar single-precision floating-point values.perform ordered comparison of scalar single-precision floating-point values and set flags in eflags register.perform unordered comparison of scalar single-precision floating-point values and set flags in eflags register.perform bitwise logical and not of packed single-precision floating-point values.perform bitwise logical and of packed single-precision floating-point values.perform bitwise logical or of packed single-precision floating-point values.perform bitwise logical xor of packed single-precision floating-point values.shuffles values in packed single-precision floating-point operands.unpacks and interleaves the two high-order values from two single-precision floating-point operands.unpacks and interleaves the two low-order values from two single-precision floating-point operands.convert packed doubleword integers to packed single-precision floating-point values.convert packed single-precision floating-point values to packed doubleword integers.convert doubleword integer to scalar single-precision floating-point value.convert scalar single-precision floating-point value to a doubleword integer.convert with truncation packed single-precision floating-point values to packed doubleword integers.convert with truncation scalar single-precision floating-point value to scalar doubleword integer.load %mxcsr register.save %mxcsr register state.compute average of packed unsigned byte integers.extract word.insert word.maximum of packed signed word integers.maximum of packed unsigned byte integers.minimum of packed signed word integers.minimum of packed unsigned byte integers.move byte mask.multiply packed unsigned integers and store high result.compute sum of absolute differences.shuffle packed integer word in mmx register.non-temporal store of selected bytes from an mmx register into memory.non-temporal store of four packed single-precision floating-point values from an xmm register into memory.non-temporal store of quadword from an mmx register into memory.prefetch data into non-temporal cache structure and into a location close to the processor.prefetch data into all levels of the cache hierarchy.prefetch data into level 2 cache and higher.serialize store operations.move two aligned packed double-precision floating-point values between xmm registers and memory.move high packed double-precision floating-point value to or from the high quadword of an xmm register and memory.move low packed single-precision floating-point value to or from the low quadword of an xmm register and memory.extract sign mask from two packed double-precision floating-point values.move scalar double-precision floating-point value between xmm registers and memory..move two unaligned packed double-precision floating-point values between xmm registers and memory.add packed double-precision floating-point values.add scalar double-precision floating-point values.divide packed double-precision floating-point values.divide scalar double-precision floating-point values.return maximum packed double-precision floating-point values.return maximum scalar double-precision floating-point value.return minimum packed double-precision floating-point values.return minimum scalar double-precision floating-point value.multiply packed double-precision floating-point values.multiply scalar double-precision floating-point values.compute packed square roots of packed double-precision floating-point values.compute scalar square root of scalar double-precision floating-point value.subtract packed double-precision floating-point values.subtract scalar double-precision floating-point values.perform bitwise logical and not of packed double-precision floating-point values.perform bitwise logical and of packed double-precision floating-point values.perform bitwise logical or of packed double-precision floating-point values.perform bitwise logical xor of packed double-precision floating-point values.compare packed double-precision floating-point values.compare scalar double-precision floating-point values.perform ordered comparison of scalar double-precision floating-point values and set flags in eflags register.perform unordered comparison of scalar double-precision floating-point values and set flags in eflags register.shuffle values in packed double-precision floating-point operands.unpack and interleave the high values from two packed double-precision floating-point operands.unpack and interleave the low values from two packed double-precision floating-point operands.convert packed doubleword integers to packed double-precision floating-point values.convert packed double-precision floating-point values to packed doubleword integers.convert packed double-precision floating-point values to packed single-precision floating-point values.convert packed single-precision floating-point values to packed double-precision floating-point values.convert scalar double-precision floating-point values to a doubleword integer.convert scalar double-precision floating-point values to scalar single-precision floating-point values.convert doubleword integer to scalar double-precision floating-point value.convert scalar single-precision floating-point values to scalar double-precision floating-point values.convert with truncation packed double-precision floating-point values to packed doubleword integers.convert with truncation scalar double-precision floating-point values to scalar doubleword integers.move quadword integer from xmm to mmx registers.move aligned double quadword.move unaligned double quadword.move quadword integer from mmx to xmm registers.add packed quadword integers.multiply packed unsigned doubleword integers.shuffle packed doublewords.shuffle packed high words.shuffle packed low words.shift double quadword left logical.shift double quadword right logical.subtract packed quadword integers.unpack high quadwords.unpack low quadwords.flushes and invalidates a memory operand and its associated cache line from all levels of the processor's cache hierarchy.serializes load operations.non-temporal store of selected bytes from an xmm register into memory.serializes load and store operations.non-temporal store of double quadword from an xmm register into memory.non-temporal store of a doubleword from a general-purpose register into memory.non-temporal store of two packed double-precision floating-point values from an xmm register into memory.improves the performance of spin-wait loops.QSynedit::DocumentCan't open file '%1' for read!无法读取文件"%1".Can't load codec '%1'!无法加载字符编码"%1"!Can't open file '%1' for save!无法保存文件"%1"!Data not correctly writed to file '%1'.数据未能正确写入文件"%1"。QSynedit::QSynEditThe syntaxer seems to be in an infinite loopThe highlighter seems to be in an infinite loop代码分析器似乎死循环了。