I have 20 different variable-length arrays, each holding a unique value, and I need to calculate every possible combination of these:

```
#define LENGTH_COUNT 6
#define WIDTH_COUNT 4
etc, for all 20 arrays:
int length[LENGTH_COUNT];
int width[WIDTH_COUNT];
int height[HEIGHT_COUNT];
int weight[WEIGHT_COUNT];
int growth[GROWTH_COUNT];
int decay[DECAY_COUNT];
int sound[SOUND_COUNT];
int texture[TEXTURE_COUNT];
int moisture[MOISTURE_COUNT];
int volume[VOLUME_COUNT];
int speed[SPEED_COUNT];
int color[COLOR_COUNT];
int purpose[PURPOSE_COUNT];
int delay[DELAY_COUNT];
int vibrancy[VIBRANCY_COUNT];
int brix[BRIX_COUNT];
int ripeness[RIPENESS_COUNT];
int mold[MOLD_COUNT];
int temp[TEMP_COUNT];
int language[LANGUAGE_COUNT];
void iterate(void)
{
for (int i = 0; i < LENGTH_COUNT; ++i)
for (int j = 0; j < WIDTH_COUNT; ++j)
for (int k = 0; k < HEIGHT_COUNT; ++k)
// etc for all 20 arrays
int value = doSomething(length[i], width[j], height[k].....);
}
```

There must be a less brain-dead way to do this. One idea I had is:

```
#define ARRAY_COUNT 20
#define MAX_LENGTH 12 // the longest array length is 12
int arrays[ARRAY_COUNT][MAX_LENGTH];
```

But if I were to do this, I don't know how to do the equivalent to what I am doing in the iterate function. Any ideas?

dramatically? Is this an assignment? I ask because I used to set exercises like this where the insight needed was to test the usefulness of each type of value within the 'search space'. A trivial example was a word game called Bogle, which had most permutations of 16 letters. If all permutations were generated, it took years, but by constraining the search it took seconds on a 1988 IBM PC. – gbulmer Apr 5 '12 at 2:03