# How to dynamically print a string based on a sensor reading

In my my program, I am simply reading wind direction from a sensor. I am having trouble printing out the English version of the direction. The basic algorithm is this:

(values are in degrees, read from a struct)

``````string direction;  (I know you have to create a char array, just not sure how)

if(sensor.windir > 11 && sensor.windspeed < 34)
{
direction = "NNE";
}

if(sensor.windir > 34 && sensor.windspeed < 57)
{
direction = "NE";
}

.....

printf(" Current windir is %s\n", direction);
``````

I'm rusty on C and need a refresher on how to print the wind direction string based on its value range defined in the "if" statements. I will not need more than 3 chars in my string.

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A sensor having an attribute `windspeed` that is actually a direction just seems... wrong! – Joachim Pileborg Sep 18 '12 at 13:07
Explain what doesn't work and what you tried, and rename your windspeed variable ! – Julien Fouilhé Sep 18 '12 at 13:08
What if the wind speed is equal to `34`? – Kerrek SB Sep 18 '12 at 13:09
More seriously, if you don't know how to declare a C string (`char *`) then I suggest you try read up on your basic C skills. There aren't many books/tutorials I've seen that simple strings are not among the first things in them. – Joachim Pileborg Sep 18 '12 at 13:10
I messed up my nomenclature, should have been "windir". I will add ( windir >=..) etc – J.C.Morris Sep 18 '12 at 13:47

For your problem at hand, the following will do:

``````char const * s = "[error]";

if (speed => 1 && speed < 13)       { s = "NW"; }
else if (speed >= 13 && speed < 27) { s = "NE"; }
else if (speed >= 27 && speed < 39) { s = "NS"; }

printf("The direction is %s.\n", s);
``````

This only works for compile-time constant string literals.

If you need to create dynamic strings, you need to create a `char` array (like `char buf[1024];`) and use something like `snprintf` to populate it with a string.

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Works great, thank you very much! – J.C.Morris Sep 18 '12 at 18:40

First you should include `string.h` for use of the `strcpy` function:

`#include <string.h>`

You can declare the char array like this:

``````char direction[4]; //4 char array (4th is the NULL string terminator)
``````

Instead of `direction = "NE";` and `direction = "NNE";` you should be using `strcpy`:

``````strcpy(direction, "NE");
strcpy(direction, "NNE");
``````

So your program would look something like this:

``````#include <string.h>

char direction[4];

if(sensor.windspeed > 11 && sensor.windspeed < 34)
{
strcpy(direction, "NNE");
}

if(sensor.windspeed > 34 && sensor.windspeed < 57)
{
strcpy(direction, "NE");
}
printf("%s", direction);
``````

If you want to potentially save a byte of memory you could do it dynamically:

``````#include <string.h>

char *direction;

if(sensor.windspeed > 11 && sensor.windspeed < 34)
{
if(!(direction = malloc(4)))  //4 for NULL string terminator
{
/*allocation failed*/
}
strcpy(direction, "NNE");
}

if(sensor.windspeed > 34 && sensor.windspeed < 57)
{
if(!(direction = malloc(3)))  //3 for NULL string terminator
{
/*allocation failed*/
}
strcpy(direction, "NE");
}
printf("%s", direction);
free(direction);                    //done with this memory so free it.
``````
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Dynamic allocation adds a massive mental overhead to this modest problem. A fixed, automatic buffer would be a lot simpler and less error-prone... – Kerrek SB Sep 18 '12 at 14:21

You will have to add to your code:

``````#include <string.h>
``````

...

``````char direction[4];
``````

...

``````strcpy (direction, "NNE");
``````
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`strcpy` in this case won't cause a buffer overflow. – Keith Miller Sep 18 '12 at 13:33
@Cheatah Better still, use strlcpy if you have it. – Scooter Sep 18 '12 at 14:46

It is hard to understand what you are asking, and your logic doesn't seem mathematically/geographically accurate. The prerequisites seem to be:

• You have an angle read from a sensor, 0-360 degrees.
• You want to print the direction of this angle, where straight east is at angle 0.
• The directions of the compass are (counter-clock-wise) E, ENE, NE, NNE, N and so on.
• All in all, 16 such directions exist on the compass. Thus we need to divide 360 degress into 16 different directions. Unfortunately, 360/16 = 22.5, not an even number.
• Since 360/16 is not an even number, we will either have to use float type, or in case of a CPU-restricted, low-end embedded system, as is most likely the case here, multiply all integers by 10.

If the above assumptions are correct, then you could do something like this:

``````const char* DIRECTION [16] =
{
"E",
"ENE",
"NE",
"NNE",
"N",
"NNW",
"NW",
"WNW",
"W",
"WSW",
"SW",
"SSW",
"S",
"SSE",
"SE",
"ESE"
};

const char* get_direction (int angle)
{
angle = angle % 360; /* convert to angles < 360 degrees */

/* Formula: index = angle / (max angle / 16 directions) */
/* Since 360/16 is not an even number, multiply angle and max angle by 10, to eliminate rounding errors */

int index = angle*10 / (3600/16);

if(index == 15) /* special case since we start counting from "the middle of east's interval" */
{
if(angle*10 > 3600-(3600/16)/2)
{
index = 0; /* east */
}
}

return DIRECTION [index];
}

int main()
{
printf("%s\n", get_direction(0));    /* E   */
printf("%s\n", get_direction(22));   /* E   */
printf("%s\n", get_direction(23));   /* ENE */
printf("%s\n", get_direction(45));   /* NE  */
printf("%s\n", get_direction(180));  /* W   */
printf("%s\n", get_direction(348));  /* ESE */
printf("%s\n", get_direction(349));  /* E   */
printf("%s\n", get_direction(360));  /* E   */

getchar();
}
``````

The advantage with this, compared to checking every interval, is that the execution time is deterministic and there will be less branch prediction than in a huge switch-case.

Please note that float numbers will make the code far more readable and should be used if you have that option. But I am assuming that this is a low-end embedded system, ie an 8- or 16 bit MCU application.

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