# Tag Info

7

The expression !(x ^ 32) will do the trick for you if you insist. That will always work in C, and will also work in almost all C++ settings. Technically in C++ it evaluates to a boolean which in almost all circumstances will work like 0 or 1, but if you want a technically correct C++ answer: (0 | !(x^32)) or: (int)!(x ^ 32) or with the more ...

4

How about d = a ^ b ^ ~c; or d = ~(a ^ b ^ c); or d = ~a ^ b ^ c; The ^ has the property of flipping bits set to 1 and leaving bits set to 0. If you use ~ to flip that value you get flip for 0 and unchanged for 1.

3

You are declaring: char a = '10'; char b = '6'; In this case b is 00110110 (0x36) because you are declaring a character, not an integer. I also don't know why char a = '10'; even works because single quotes (') are used to create only single chars literals and you're declaring two there. The correct way should be: char a = 10; char b = 6; ...

2

#include <stdio.h> char bytes[256] = "10000011011110110010001101000011"; int main(void) { unsigned int out; int i; for (out = 0, i = 0; i < 32; ++i) if (bytes[31 - i] == '1') out |= (1u << i); printf("%u\n", out); return 0; } Output is: 2205885251

2

fread(&data, 8, 1, input) tries to read one "item" with 8 bytes into the buffer, and returns the number of items. If less than 8 bytes are left from the current position to EOF, it returns 0. One possible solution would be to read 8 items à 1 byte instead: ssize_t amount; while ((amount = fread(&data, 1, 8, input)) > 0) { fwrite(&data, ...

2

I do not think this require a generate statement. A standard for loop will work: reg [7:0] q [0:7]; integer i; always @* begin for (i = 0; i < 8; i=i+1) begin: loop q[i] = {8{a[i]}} & b[7:0]; end end Beware of what hardware you are implying though. For loops like generate statements imply parallel hardware. NB: it is more common to list ...

2

The documentation is quite clear on this point: Variables are declared in the body of a batch or procedure with the DECLARE statement and are assigned values by using either a SET or SELECT statement. Cursor variables can be declared with this statement and used with other cursor-related statements. After declaration, all variables are ...

2

^ is the XOR operator - given two numbers it "lines up" their places and flips the place only if only one of the two numbers has that place: // All of these are binary 111 ^ 111 === 000 110 ^ 111 === 001 110 ^ 110 === 000 This means that changed will be a number with only those places set that are set in prev_state or state but not both. As for << ...

2

You have no conditionals available but you can mask. There are different ways of creating a mask dependent on the value of the sign. The following uses very nice tips by Eric Postpischil! If the sign is 0 (ie positive) then the mask will become 0, else it is still the value you need -> conditional without conditional #include <stdarg.h> #include ...

2

These problems are extremely dumb in my opinion... #include <stdint.h> #include <stdio.h> int32_t test1(uint32_t x) { const uint32_t sign = (x & 0x80000000); // Total operations: 1 const uint32_t value = (x & 0x7FFFFFFF); // Total operations: 2 // Let's create a value N, where N is equal to: // if (sign) // N = ...

2

Adding the name of your checkboxes inside the sql string cannot work, and of course neither calling Convert.ToByte on them. In this way you simple insert inside a string the name of your controls and the name of a function that should convert their values. But of course this is only an invalid SQL command for the sql parser of your database. Instead you ...

2

This seems to work (as long as no overflow occurs): ((num<<2)+~num+1)>>4 Try this JavaScript code, run in console: for (var num = -128; num <= 128; ++num) { var a = Math.floor(num * 3 / 16); var b = ((num<<2)+~num+1)>>4; console.log( "Input:", num, "Regular math:", a, "Bit math:", b, "Equal: ", a===b ); ...

1

How do write to database? What your database engine is? For me, it's taken about 20 seconds to generate and write absolutely same amount of bits to SQL-Server's localdb instance on very slow low-end PC. It's clearly slower than just loading file from filesystem, and writing bit's to a fast server. Unit test: using ...

1

Let's see: Your C# code sample won't even compile. Your constructing dynamic sql that is susceptible to a SQL injection attack Your SQL insert query is syntactically invalid and would throw an error if you got your code to compile. Assuming that those are corrected, the CLR maps SQL Server's bit datatype to/from bool (aka System.Boolean). So... Try ...

1

what you can do is first divide by 4 then add 3 times then again devide by 4. 3*x/16=(x/4+x/4+x/4)/4 with this logic the program can be main() { int x=0xefffffff; int y; printf("%x",x); y=x&(0x80000000); y=y>>31; x=(y&(~x+1))+(~y&(x)); x=x>>2; x=x&(0x3fffffff); x=x+x+x; x=x>>2; ...

1

For this question you need to worry about the lost bits before your division (obviously). Essentially, if it is negative then you want to add 15 after you multiply by 3. A simple if statement (using your operators) should suffice. I am not going to give you the code but a step by step would look like, x = x*3 get the sign and store it in variable blarg. ...

1

Note that the C99 standard states in section section 6.5.7 that right shifts of signed negative integer invokes implementation-defined behavior. Under the provisions that int is comprised of 32 bits and that right shifting of signed integers maps to an arithmetic shift instruction, the following code works for all int inputs. A fully portable solution that ...

1

void setBit(int[] array, int index, boolean value) { int x = index / 32; int y = index % 32; int mask = 1 << y; if (value) { array[x] |= mask; } else { array[x] &= (0xFFFFFFFF ^ mask); } } boolean getBit(int[] array, int index) { int x = index / 32; int y = index % 32; int mask = 1 << ...

1

Following program sets bit, clears bit and toggles bit #include<stdio.h> void main(void) { unsigned int byte; unsigned int bit_position; unsigned int tempbyte = 0x01; //get the values of the byte and the bit positions //set bit byte = (byte | (tempbyte << bit_position));// set the bit at the position given by bit_position //clear bit byte = ...

1

The Maths When you divide a positive integer n by 16, you get a positive integer quotient k and a remainder c < 16: (n/16) = k + (c/16). (Or simply apply the Euclidan algorithm.) The question asks for multiplication by 3/16, so multiply by 3 (n/16) * 3 = 3k + (c/16) * 3. The number k is an integer, so the part 3k is still a whole number. ...

1

This is because you defined the variables as character(char) but in the notebook you are calculating the result by treating them as Integer(int) If you want the correct answer try this code and check - int a = 10; int b = 6; printf("%d\n", a | b); printf("%d\n", a ^ b); printf("%d\n", a << 2);

1

To convert from Sign Magnitude x to Two's Complement y: 1) On a two's complement machine. 2) Uses only !, ~, &, ^, |, +, <<, >> 3) Does not use ?:, -, *, / 4) Does not assume 4-byte int 5) Works with all Sign Magnitude integers including +0 and -0 #include <limits.h> int sm2tc(int x) { int sign = x & INT_MIN; int negmask = ...

1

Please have a try with following code: #include <stdio.h> #include <string.h> #include <stdlib.h> int isLittleEndian = 1; void checkEndian(void) { union { short inum; char c[sizeof(short)]; } un; un.inum=0x0102; if(un.c[0]==1 && un.c[1]==2) { ...

1

Your bitstream is essentially an array of char. So, to perform these operations you work on these char elements. i. The shifting operation depends on the number of bits you want to shift. If the number is a multiple of 8, it is pretty straightforward, you just copy the elements right of left as many bytes as the number is a multiple of 8. If the number is ...

1

prev_state ^ state makes a mask of bits that is 1 wherever a bit in the prev_state disagrees with the corresponding bit in state, see xor. (changed & (1 << pin)) === (1 << pin)) tests whether the bit with index pin is set, which would mean that that pin at position has changed. ((state & (1 << pin)) === (1 << pin))) ...

1

SQL does not default parameters unless you specify a default. If you do not specify a default, the parameter value is NULL. For example, the output of all the PRINT statements below is "@bitX is null": create procedure sp_testbit ( @bit1 bit, @bit2 bit output ) as begin if @bit1 is null print 'sp_testbit @bit1 is null' else print ...

1

You've got all sorts of issues here. First off, you're getting confused about what a generate statement is, and what you're trying to generate. Are you (1) trying to generate a single always block, which must contain sequential/procedural code, or are you (2) trying to generate/replicate 8 continuous assignments? You're presumably not doing (1), since ...

1

Bit shifting is not a problem when you are talking about single byte, this is trivial (I don't know why you claim it is impossible). QByteArray statusByte = QByteArray::fromHex("40"); statusByte[0] = statusByte[0]>>1; statusByte[0]>>=1; // this should also work if you have multiple bytes then it is more complicated! endian! How do you define ...

1

You don't really need a byte array if you only want to get a single numeric (byte) value from a hexadecimal representation of one byte, not multiple bytes. #if 1 // Qt 5, C++11 compilers quint8 byte = QStringLiteral("40").toInt(nullptr, 16); #endif #if 0 // Qt 5, pre-C++11 compilers quint8 byte = QStringLiteral("40").toInt(NULL, 16); #endif #if 0 ...

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