# Larger than and less than in switch statement C

I'm trying to write a code that has a lot of comparison

```Write a program in “QUANT.C” which “quantifies” numbers.  Read an integer “x” and test it, producing the
following output:

x greater than or equal to 1000 print “hugely positive”
x from 999 to 100 (including 100) print “very positive”
x between 100 and 0 print “positive”
x exactly 0 print “zero”
x between 0 and -100 print “negative”
x from -100 to -999 (including -100) print “very negative”
x less than or equal to -1000 print “hugely negative”

Thus -10 would print “negative”, -100 “very negative” and 458 “very positive”.
```

then I tried to solve it using switch but it didn't work, do I have to solve it using if statement or there is a method to solve it using switch?

```

```#include <stdio.h>

int main(void)
{
int a=0;
printf("please enter a number : \n");

scanf("%i",&a);

switch(a)
{
case (a>1000):
printf("hugely positive");
break;
case (a>=100 && a<999):
printf("very positive");
break;
case (a>=0 && a<100):
printf("positive");
break;
case 0:
printf("zero");
break;
case (a>-100 && a<0):
printf("negative");
break;
case (a<-100 && a>-999):
printf("very negative");
break;
case (a<=-1000):
printf("hugely negative");
break;

return 0;
}
``````
-
`switch` can only handle exact comparisons with constant integral values. You'll have to use `if` and `else`. –  Fred Larson Jan 7 '14 at 13:03
define `didn't work` –  deW1 Jan 7 '14 at 13:03
Seven compiling errors should have told you something (and 1 warning: `control reaches end of non-void function`). –  Jongware Jan 7 '14 at 13:06
In your problem definition it is not mentioned to use only switch case. if else is way to go! –  Digital_Reality Jan 7 '14 at 13:08

There is no clean way to solve this with switch, as cases need to be integral types. Have a look at if-else if-else.

-

A switch-less and if-else-less method. Warning: do not attempt to turn this in for your assignment as "your" solution, because you just might be asked how it works.

``````#include <stdio.h>

int main(void)
{
int a=0, i;
struct {
int value;
const char *description;
} list[] = {
{ -999, "hugely negative" },
{ -99, "very negative" },
{ 0, "negative" },
{ 1, "zero" },
{ 100, "positive" },
{ 1000, "very positive" },
{ 1001, "hugely positive" }
};

printf("please enter a number : \n");
scanf("%i",&a);

for (i=0; i<6 && a>=list[i].value; i++) ;
printf ("%s\n", list[i].description);

return 0;
}
``````
-
I'll be grateful if you explained it step by step, thanks anyway –  Salahuddin Jan 7 '14 at 13:44
The `for` loop is all that matters -- use a debugger, or go through it with pen and paper. Well, that, and a consistent handling of the equality operators in your list of descriptions. –  Jongware Jan 7 '14 at 13:46

`(a>1000)` evaluates to either 1 [true] or 0 [false].

compile and will get the error

``````test_15.c:12: error: case label does not reduce to an integer constant
``````

this means, you have to use an `integer constant` value for the `case` labels. `If-else if-else` loop should work just fine for this case.

-
a>1000 evaluates to boolean not integral 1 or 0. –  Eric Fortin Jan 7 '14 at 13:04
@EricFortin It's C. –  Maroun Maroun Jan 7 '14 at 13:05
@Maroun Maroun You're right. –  Eric Fortin Jan 7 '14 at 13:07

If you are using gcc, you have "luck" because it supports exactly what you want by using a language extension:

``````#include <limits.h>
...

switch(a)
{
case 1000 ... INT_MAX: // note: cannot omit the space between 1000 and ...
printf("hugely positive");
break;
case 100 ... 999:
printf("very positive");
break;
...
}
``````

This is non-standard though, and other compilers will not understand your code. It's often mentioned that you should write your programs only using standard features ("portability").

So consider using the "streamlined" `if-elseif-else` construct:

``````if (a >= 1000)
{
printf("hugely positive");
}
else if (a >= 100)
{
printf("very positive");
}
else if ...
...
else // might put a helpful comment here, like "a <= -1000"
{
printf("hugely negative");
}
``````
-

Why do you have a preference to use switch?

I'm asking because this sounds awfully like a 'homework question'. A compiler should deal with if/else construct just as efficiently as a switch (even if you weren't dealing with ranges).

Switch can't handle ranges as you have shown, but you could find a way to include switch by categorising the input first (using if/else) then using a switch statement to output the answer.

-