Lab 5: Advanced pointers Solution

Description

If this lab is confusing right now, we’ll be talking more about this stuff on Monday.

Pointers are super important when writing low-level programs! GET COMFORTABLE WITH EM!

In this lab, you’ll be writing a generic array-filtering function. This will make use of pointer arithmetic, function pointers, and pointer casting. This is an actually useful function! Filtering values out of an array is a very common operation.

Starting off

Get the starting file here. Rename it properly, and upload to thoth.

Open it and read the comments. All of them.

Predicates

“Predicate” is a common programming term which means “something that gives a yes-or-no answer.”

The filter function’s predicate must be a function which:

takes a const void* which points to a value from the array returns an integer:

0 for false (ignore the item)

nonzero for true (put the item in the output array)

(This is common in C, because it didn’t use to have bool .)

Writing the predicate function

The less_than_50 function should interpret its parameter as a pointer to a float , and as the name implies, return a “true” (nonzero) value if it is less

10/18/2018 Lab 5: Advanced pointers

than 50.

Since the parameter is a const void* , you’ll have to cast the parameter to a different pointer type.

Have a look at how I wrote the comparison function in the qsort.c example to get an idea of how to write this.

Hint: in C, comparison operators give an integer value. They give 1 if they’re true, and 0 if they’re false.

Writing the filter function

You didn’t read the comments, did you.

Have a look at the code in main :

float filtered[NUM_VALUES];

int filtered_len = filter(filtered, float_values, NUM_VALUES,

printf(“there are %d numbers less than 50:\n”, filtered_len);

for(int i = 0; i < filtered_len; i++)

printf(“\t%.2f\n”, filtered[i]);

Look at the float_values array and think about what the output should look like. (There are 6 numbers less than 50, right?)

The filter function should work like this:

for each item in the input array:

call the pred function with a pointer to that element if it returned “true”:

use memcpy to copy that item from the input array to the output array (see below)

In addition it should:

keep a count of how many items “passed the test” (predicate returned “true”)

10/18/2018 Lab 5: Advanced pointers

return that count

memcpy

memset is used to fill in a blob of bytes with a value. memcpy is used to copy blobs of bytes from one place to another. It’s a very common function.

memcpy(dest, src, length);

This will copy length bytes from the memory pointed to by src into the memory pointed to by dest .

“Walking pointers”

You’re used to using [] to access values from arrays. But you can’t use [] on a void* . Instead, an easier technique is to use a “walking pointer.”

Instead of keeping a pointer to the beginning of an arrays, we move the pointer along, item by item, to access the array. Like this.

But there’s a catch: you can’t do pointer arithmetic on void pointers either!!

So if you want to move a void* over by n bytes, you have to:

cast it to a char*

add n to that

store it back into the void*

All this can be done on one line. Don’t overcomplicate things.

Good luck, but some likely mistakes:

If you don’t move the pointer along the input array, you’ll get something like:

10/18/2018 Lab 5: Advanced pointers

there are 10 numbers less than 50:

31.94

31.94

31.94

…etc…

If you don’t move the pointers by the right number of bytes, you might get something like:

there are 6 numbers less than 50:

127.76

36.10

0.00

…etc…

If you moved the input pointer right, but forgot to move the output pointer along:

there are 6 numbers less than 50:

19.60

0.00

…etc…

If you didn’t count properly, or maybe you didn’t respond to the predicate properly:

there are 0 numbers less than 50:

Submission

Please make sure the driver (the main function) is the default one I gave you before you submit.

Then submit as usual.

© 2016-2018 Jarrett Billingsley

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