xkcd

by **Slippery John** » Wed Mar 14, 2012 7:00 pm UTC

So I've been given a series of tasks to complete in C. Problem is, we really haven't gone over very much, and the instructor has crippled me by disallowing several operations and options that I would normally use.

Down below is my current code so far, including all the specific instructions, but as it includes work I have completed, I'll summarize here:

Rules:
1. max constant we can use is 0xff
2. the only operations we can use are: ! ~ & ^ | + << >>
so no subtraction
also, sometimes some of the operations are banned for certain functions
3. Can't make or call any functions
4. Can't use any control constructs (if, do, while, for, switch, etc.) or non-specified operations (&&, ||, -, ?)
5. No casting of any kind

Assumptions:
1. My machine is 32-bit and uses 2s complements
2. Right shifts are arithmetic

Things I'm having special trouble with:

1. logicalShift

Spoiler:

Can't think of anything on this

2. bitCount

Spoiler:

The only thing I could think of here would be to keep shifting it to the right, adding the final bit each time, but sadly for loops are disallowed.

3. Bang

Spoiler:

Honestly I'm not entirely sure what the bang does. We haven't gone over it in class at all and google hasn't been very helpful. I do know that if you say something like !( x == y ) it would mean x is not equal to y, but logical operators are pretty much all kicked out (no == allowed).

4. leastBitPos

Spoiler:

Now I actually found a solution here, but my teacher said it's invalid since I used a negative mark...

5. addOK

Spoiler:

The problem with this is basically the right logical shift that I need to do, so once that goes tumbling down this one will be simple.

There are more at the bottom that I haven't got yet, but I haven't started on them yet. I'm going to continue working on them, but any help you could give would be greatly appreciated!

Code: Select all: You will provide your solution to the Data Lab by editing the collection of functions in this source file. CODING RULES: Replace the "return" statement in each function with one or more lines of C code that implements the function. Your code must conform to the following style: int Funct(arg1, arg2, ...) { /* brief description of how your implementation works */ int var1 = Expr1; ... int varM = ExprM; varJ = ExprJ; ... varN = ExprN; return ExprR; } Each "Expr" is an expression using ONLY the following: 1. Integer constants 0 through 255 (0xFF), inclusive. You are not allowed to use big constants such as 0xffffffff. 2. Function arguments and local variables (no global variables). 3. Unary integer operations ! ~ 4. Binary integer operations & ^ | + << >> Some of the problems restrict the set of allowed operators even further. Each "Expr" may consist of multiple operators. You are not restricted to one operator per line. You are expressly forbidden to: 1. Use any control constructs such as if, do, while, for, switch, etc. 2. Define or use any macros. 3. Define any additional functions in this file. 4. Call any functions. 5. Use any other operations, such as &&, ||, -, or ?: 6. Use any form of casting. You may assume that your machine: 1. Uses 2s complement, 32-bit representations of integers. 2. Performs right shifts arithmetically. 3. Has unpredictable behavior when shifting an integer by more than the word size. EXAMPLES OF ACCEPTABLE CODING STYLE: /* * pow2plus1 - returns 2^x + 1, where 0 <= x <= 31 */ int pow2plus1(int x) { /* exploit ability of shifts to compute powers of 2 */ return (1 << x) + 1; } /* * pow2plus4 - returns 2^x + 4, where 0 <= x <= 31 */ int pow2plus4(int x) { /* exploit ability of shifts to compute powers of 2 */ int result = (1 << x); result += 4; return result; } NOTES: 1. Use the dlc (data lab checker) compiler (described in the handout) to check the legality of your solutions. 2. Each function has a maximum number of operators (! ~ & ^ | + << >>) that you are allowed to use for your implementation of the function. The max operator count is checked by dlc. Note that '=' is not counted; you may use as many of these as you want without penalty. 3. Use the btest test harness to check your functions for correctness. 4. The maximum number of ops for each function is given in the header comment for each function. If there are any inconsistencies between the maximum ops in the writeup and in this file, consider this file the authoritative source. } #endif /* * STEP 3: Modify the following functions according the coding rules. * * IMPORTANT. TO AVOID GRADING SURPRISES: * 1. Use the dlc compiler to check that your solutions conform * to the coding rules. * 2. Use the btest test harness to check that your solutions produce * the correct answers. Watch out for corner cases around Tmin and Tmax. */ /* * bitNor - ~(x|y) using only ~ and & * Example: bitNor(0x6, 0x5) = 0xFFFFFFF8 * Legal ops: ~ & * Max ops: 8 * Rating: 1 */ int bitNor(int x, int y) { return (~x)&(~y); } /* * bitXor - x^y using only ~ and & * Example: bitXor(4, 5) = 1 * Legal ops: ~ & * Max ops: 14 * Rating: 2 */ int bitXor(int x, int y) { int a = x&(~y); int b = (~x)&y; return ~((~a)&(~b)); } /* * isNotEqual - return 0 if x == y, and 1 otherwise * Examples: isNotEqual(5,5) = 0, isNotEqual(4,5) = 1 * Max ops: 6 * Rating: 2 */ int isNotEqual(int x, int y) { return !(x == y); // Invalid } /* * getByte - Extract byte n from word x * Bytes numbered from 0 (LSB) to 3 (MSB) * Examples: getByte(0x12345678,1) = 0x56 * Legal ops: ! ~ & ^ | + << >> * Max ops: 6 * Rating: 2 */ int getByte(int x, int n) { return (x>>(n<<3))&0xff; } /* * copyLSB - set all bits of result to least significant bit of x * Example: copyLSB(5) = 0xFFFFFFFF, copyLSB(6) = 0x00000000 * Legal ops: ! ~ & ^ | + << >> * Max ops: 5 * Rating: 2 */ int copyLSB(int x) { return(x << 31) >> 31; } /* * logicalShift - shift x to the right by n, using a logical shift * Can assume that 1 <= n <= 31 * Examples: logicalShift(0x87654321,4) = 0x08765432 * Legal ops: ~ & ^ | + << >> * Max ops: 16 * Rating: 3 */ int logicalShift(int x, int n) { return (x << n); } /* * bitCount - returns count of number of 1's in word * Examples: bitCount(5) = 2, bitCount(7) = 3 * Legal ops: ! ~ & ^ | + << >> * Max ops: 40 * Rating: 4 */ int bitCount(int x) { return 2; } /* * bang - Compute !x without using ! * Examples: bang(3) = 0, bang(0) = 1 * Legal ops: ~ & ^ | + << >> * Max ops: 12 * Rating: 4 */ int bang(int x) { return 2; } /* * leastBitPos - return a mask that marks the position of the * least significant 1 bit. If x == 0, return 0 * Example: leastBitPos(96) = 0x20 * Legal ops: ! ~ & ^ | + << >> * Max ops: 6 * Rating: 4 */ int leastBitPos(int x) { return x&(-x); } /* * TMax - return maximum two's complement integer * Legal ops: ! ~ & ^ | + << >> * Max ops: 4 * Rating: 1 */ int tmax(void) { return 2147483647; } /* * isNonNegative - return 1 if x >= 0, return 0 otherwise * Example: isNonNegative(-1) = 0. isNonNegative(0) = 1. * Legal ops: ! ~ & ^ | + << >> * Max ops: 6 * Rating: 3 */ int isNonNegative(int x) { return 2; } /* * isGreater - if x > y then return 1, else return 0 * Example: isGreater(4,5) = 0, isGreater(5,4) = 1 * Legal ops: ! ~ & ^ | + << >> * Max ops: 24 * Rating: 3 */ int isGreater(int x, int y) { return 2; } /* * divpwr2 - Compute x/(2^n), for 0 <= n <= 30 * Round toward zero * Examples: divpwr2(15,1) = 7, divpwr2(-33,4) = -2 * Legal ops: ! ~ & ^ | + << >> * Max ops: 15 * Rating: 2 */ int divpwr2(int x, int n) { return 2; } /* * absVal - absolute value of x (except returns TMin for TMin) * Example: absVal(-1) = 1. * Legal ops: ! ~ & ^ | + << >> * Max ops: 10 * Rating: 4 */ int absVal(int x) { return 2; } /* * addOK - Determine if can compute x+y without overflow * Example: addOK(0x80000000,0x80000000) = 0, * addOK(0x80000000,0x70000000) = 1, * Legal ops: ! ~ & ^ | + << >> * Max ops: 20 * Rating: 3 */ int addOK(int x, int y) { int b = x >> 31; int c = y >> 31; int d = (b>>(0<<31))&0xffffffff; int e = (c>>(0<<31))&0xffffffff; int a = (d + e) >> 1; return !(a == 1); // WHY THIS NO WORK!? }

by **phlip** » Wed Mar 14, 2012 11:56 pm UTC

There was a thread a while back from, I presume, someone else taking the same class... some decent hints in there, for bitCount and logicalNot, in particular.

Some small hints for the others:
(1) Consider (a >> 1) and logicalShift(a, 1)... think about what they mean. Can you turn the former into the latter, somehow?
(4) You're on the right track here. Can you implement the unary minus given the operations you have available? How does 2's complement work?
(5) It looks like all you're doing is checking if the first bit is set on both numbers? That isn't going to be enough - remember that there are carries, too. In the extreme case, 0x7FFFFFFF + 1 is going to overflow. Also, remember your numbers are 2's complement. A hint: if you add two positive numbers, and they don't overflow, what can the range of the result be? If they do overflow, what can the range of the result be?

by **zmic** » Thu Mar 15, 2012 12:19 am UTC

the solution is that your instructor should be fired and replaced by somebody who wants to teach you how to program in C

edit - I am assuming that this is a course on C, not some course on artificially convoluted logic problems

by **EvanED** » Thu Mar 15, 2012 1:01 am UTC

zmic wrote:the solution is that your instructor should be fired and replaced by somebody who wants to teach you how to program in C

edit - I am assuming that this is a course on C, not some course on artificially convoluted logic problems

It's also perfectly acceptable if the course is supposed to involve learning about number representations and such.

I'd go so far as to say these are actually pretty decent questions for any low-levelish CS class, with maybe the exception of the restriction that you can't write your own functions. Just as long as the class doesn't make a habit of it. :-)

by **Slippery John** » Thu Mar 15, 2012 1:27 am UTC

zmic wrote:the solution is that your instructor should be fired and replaced by somebody who wants to teach you how to program in C

edit - I am assuming that this is a course on C, not some course on artificially convoluted logic problems

Well the class is Introduction to Computer Systems, so C is more of a means to an end rather than the objective.

as for the other things:
I'll make a point to check out that thread

1) I think I have vague ideas about how to do logicalShift, I'll see if anything comes up as I sleep
4) We are specifically forbidden from using - in any form
5) I think I'm going to have to go over 2s complements some more. We didn't cover them very well in class, and it seems like they're going to be integral to solving these

Thanks for the help and especially the quick responses!

by **phlip** » Thu Mar 15, 2012 1:58 am UTC

Slippery John wrote:4) We are specifically forbidden from using - in any form

I know, what I mean is... can you figure out how to build something that works in the same way as -, with only the operations you have available?

In two's complement, how does negation actually work?

by **Slippery John** » Thu Mar 15, 2012 11:15 am UTC

phlip wrote:
Slippery John wrote:4) We are specifically forbidden from using - in any form

I know, what I mean is... can you figure out how to build something that works in the same way as -, with only the operations you have available?

In two's complement, how does negation actually work?

Got it!

For those who are interested, this is what I ended up with:

Spoiler:

EDIT: I also just figured out logicalShift! Since C will perform a logical shift if there's a zero there, I had better make sure that's all there is, I can then use that to make a mask to get rid of all those pesky leading 1s

Spoiler:

by **phlip** » Thu Mar 15, 2012 12:44 pm UTC

Looks good to me... however this term could be simplified slightly:

Slippery John wrote:(~1+1)

by **TheAmazingRando** » Fri Mar 16, 2012 3:58 am UTC

zmic wrote:the solution is that your instructor should be fired and replaced by somebody who wants to teach you how to program in C

edit - I am assuming that this is a course on C, not some course on artificially convoluted logic problems

Most programs don't have classes in specific languages. I don't think I was instructed on any language directly, other than Java in my intro course, the rest treated the language (C, C++, Python, ML, SPARC, MIPS) as a tool you had to learn on your own time. I learned C in the same sort of class, though the more sadistic assignments were in assembly (and hand-translated into machine code, which seemed pointless at the time but was a great help when I had to design my own in a later class).

by **Shivahn** » Fri Mar 16, 2012 4:08 am UTC

TheAmazingRando wrote:
zmic wrote:the solution is that your instructor should be fired and replaced by somebody who wants to teach you how to program in C

edit - I am assuming that this is a course on C, not some course on artificially convoluted logic problems
Most programs don't have classes in specific languages. I don't think I was instructed on any language directly, other than Java in my intro course, the rest treated the language (C, C++, Python, ML, SPARC, MIPS) as a tool you had to learn on your own time. I learned C in the same sort of class, though the more sadistic assignments were in assembly (and hand-translated into machine code, which seemed pointless at the time but was a great help when I had to design my own in a later class).

For what it's worth, the MIT OpenCourseWare has like, three classes about specific languages, and even those are the special four-week exploratory classes that the university runs in January.

The rest, even the basic introductory courses, all have basically everything phrased as "a variable is essentially a name we've bound to a value. In Scheme, we declare a variable by using (define <variable> <value>). Variables have many uses, such as..."

So, yeah. Not so much in terms of language instruction, generally, only inasmuch as the language is a typical example of some concept that's being discussed.

by **Slippery John** » Sat Mar 17, 2012 4:11 pm UTC

phlip wrote:Looks good to me... however this term could be simplified slightly:
Slippery John wrote:(~1+1)

Oh how silly of me, should be ~0

Alright, now of the originals I asked about the only one left is bitCount

I am also now struggling with these:

isGreater (checks to see if x is greater than y)

Spoiler:

absVal (computes the absolute value of x)

Spoiler:

I'm also re-doing my isNotEqual since I used illegal operators, but I feel like I'm close to a breakthrough on that.

EDIT: I can think of a way to do the bitCount, but it would use way too many operators
EDIT2: I got the isGreater
EDIT3: got the isNotEqual
EDIT4: I got something for bitCount and its within the max ops, but I can't help but think there's a better way:

Spoiler:

I basically just used shifts and or's to create all the masks I needed. The thing is, those max ops were set to catch horrendously inefficient solutions, so I really don't want it to be that long (there are 39 ops in my solution).

by **Yakk** » Mon Mar 19, 2012 5:50 pm UTC

Use as few hints as you can. I'd advise waiting at least 5 minutes between reading each hint to get a decent chance to figure out what the hint means.

Hint 1:

Spoiler:

Hint 2:

Spoiler:

Hint 3:

Spoiler:

Hint 4:

Spoiler:

Hint 5:

Spoiler:

xkcd

Help with some C (binary operations)

Help with some C (binary operations)

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Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

Re: Help with some C (binary operations)

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