There is no magic bullet that leads to the fastest input and output in a programming contest. Having said this, there are typically multiple ways of performing and processing input and output in Python3. By understanding the options that are available and how to optimize them (e.g., conducting tests) you can see a real world performance increase, in particular when faced with high volumes of reads and writes.

Unlike Python3 input, we noted less dramatic changes when the faster stdout.write() call was used over print().¹⁾ In instances where you believe very small fractions of a second may get you out of a time limit exceeded judgement, switching may be warranted (in particular when the number of writes are excessive).

Otherwise, fine tuning of algorithm implementations and input or the selection of C++ may be better choices than fine tuning print().

Output is handled with the print() function.

>>> print() # '\n'

>>> print("Hello World!") # "Hello World!\n"

>>> print("Hello", "World!") # "Hello World!\n"

>>> print(1, 2, 3, sep='') # "123\n"

>>> print(1, 2, 3, end='-')
>>> print("a b c") # "1 2 3-a b c\n"

print() is a wrapper around Python's write(). In some instances, write() may outperform print().

write() requires a single str argument. write() does not perform concatenation, and does not automatically insert a \n at the end of your output. write() returns the number of characters written to the underlying stream. This is hidden in competition environments, but it will appear if testing in the interactive interpreter.

>>> from sys import *
>>> stdout.write('\n') # '\n'

>>> from sys import *
>>> stdout.write("Hello World!\n") # "Hello World!\n"

Unlike print(), stdout.write() takes only a single parameter and offers no formatting options. stdout.write() over multiple strings requires multiple calls or concatenations. Other types must be converted to string before they are printable.

The following benchmarks demonstrate the increased likelihood of failure of print() as output sizes increase. All files used for testing can be found here.

10 characters per line (n= number of lines):

1000 characters per line (n= number of lines):

The above tests were designed to showcase minimal printing functionality on data that is currently residing in memory.