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This example is for Wiring version 1.0 build 0100+. If you have a previous version, use the examples included with your software. If you see any errors or have comments, please let us know.
Vectors.
A vector is a growable array of elements. Like an array, it contains components that can be accessed using an integer index. However, the size of a Vector can grow or shrink as needed to accommodate adding and removing items after the Vector has been created. The class Vector includes methods for examining individual elements, comparing, searching and extracting parts.
A vector is a growable array of elements. Like an array, it contains components that can be accessed using an integer index. However, the size of a Vector can grow or shrink as needed to accommodate adding and removing items after the Vector has been created. The class Vector includes methods for examining individual elements, comparing, searching and extracting parts.
Vector < int > intVector; void setup() { Serial.begin(9600); pinMode(WLED, OUTPUT); // turn ON wiring hardware LED digitalWrite(WLED, HIGH); for (int i = 0; i < 255; i++) // add 255 elements from 0 to 254 { intVector.addElement(i); } Serial.print("The vector's capacity is: "); Serial.println(intVector.capacity(), DEC); // print the vector's capacity if (intVector.contains(15) == true) // check if contains number 15 { Serial.println("The vector contains the element 15"); } Serial.print("The vector's first element is: "); Serial.println(intVector.firstElement(), DEC); // print the vector's first element Serial.print("The vector's index for element 30 is: "); Serial.println(intVector.indexOf(30), DEC); // print the vector's element at position 30 if (intVector.isEmpty() == false) // check if vector has elements { Serial.println("The vector has elements"); } Serial.print("The vector's last element is: "); Serial.println(intVector.lastElement(), DEC); // print the vector's last element Serial.print("The vector's last index of 10 is: "); Serial.println(intVector.lastIndexOf(10), DEC); // print the vector's last index of 10 Serial.print("The vector's size is: "); Serial.println(intVector.size(), DEC); // print the vector's size if (intVector.add(255) == true) // add element { Serial.print("the element was added and now the vector's last element is: "); Serial.println(intVector.lastElement(), DEC); // print the vector's last element } intVector.addElement(256); // add another element Serial.print("now the vector's last element is: "); Serial.println(intVector.lastElement(), DEC); // print the vector's last element intVector.insertElementAt(0, 10); // insert 0 at index 10 int t = intVector.elementAt(10); // get the element at index 10 Serial.print("t is: "); Serial.println(t, DEC); // print its value intVector.remove(10); // remove element at position 10 t = intVector.get(10); // get the element at position 10 Serial.print("t after remove is: "); Serial.println(t, DEC); // print the element at position 10 intVector.removeElementAt(10); // remove element at position 10 t = intVector.get(10); // get the element at position 10 Serial.print("t after removeElementAt is: "); // print the element at position 10 Serial.println(t, DEC); Serial.print("the value of element at position 23 is: "); Serial.println(intVector.get(23), DEC); if (intVector.removeElement(23) == true) // remove element 23 from the Vector { Serial.print("the element at position 23 was removed and the element value after removal is: "); Serial.println(intVector.get(23), DEC); } intVector.setElementAt(10, 5); // set element at postion 5 with value 10 t = intVector.get(5); // get the element at position 10 Serial.print("element at index 5 is now: "); Serial.println(t, DEC); // print the element at position 10 intVector.clear(); // clear all elements in the vector Serial.print("The vector's size after clear is: "); Serial.println(intVector.size(), DEC); // print the vector's size } void loop() { }