Couldn't find a solution to this anywhere. Hoping to become more enlightened on this subject.
I wanted to use a dynamic array of sorts for an arduino project. I came across a library for using vectors on the arduino platform here. I used a function to monitor free RAM on the arduino that I found here.
Here is an example of my code:
Serial.print("Starting RAM: "); Serial.println(freeRam()); Serial.println(); vector<int> intVector; Serial.print("Remaining RAM after intVector declaration: "); Serial.println(freeRam()); Serial.println(); vector<char> charVector; Serial.print("Remaining RAM after charVector declaration: "); Serial.println(freeRam()); Serial.println(); Serial.print("sizeof(intVector) = "); Serial.println(sizeof(intVector)); Serial.print("sizeof(charVector) = "); Serial.println(sizeof(charVector));
And here's the output:
Starting RAM: 1684 Remaining RAM after intVector declaration: 1618 Remaining RAM after charVector declaration: 1584 sizeof(intVector) = 7 sizeof(charVector) = 7
It seems that the intVector allocation took up a 66 byte chunk of the RAM. It appears the vector allots 32*2 + 2 = 66 bytes of memory for this. Likewise, the charVector allocation took up 34 bytes (32*1 + 2). It seems this pattern of allocating 32*
sizeof(type) + change exists for other data types (such as char, float, etc). Note that
sizeof(int) = 2 on arduino.
My problem is that the objects I would like to populate these vectors with are anywhere from 10-20 bytes large. With only 2 kB of RAM available on the ATMega328, I won't be able to run my program as it's currently designed. For an object
sizeof(segment) = 16, a vector eats up a 522-byte block of RAM.
So my questions are:
Why does the vector allocate 32 * sizeof(type) bytes of RAM when the size of the vector is only 7 bytes, despite its type?
Is there a better way to use a sort of dynamic array on the arduino platform?
Are there memory management techniques that may allow me to use vectors?
Thanks, and sorry in advance if this question is a duplicate!
It seems that the vector is initialized with a capacity of 32.
intVector.capacity() = 32;
Attempting to use either
intVector.reserve(1); // or intVector.resize(1);
does not alter the capacity of the vector.