# What precision should the numbers print in?
# -1 : automatic
# n : n decimal places
precision = -1
# Should the numbers be printed in engineering notation?
# true/false or yes/no
engineering = false
# Should undeclared variables be considered errors?
# if no, the undeclared variables are considered 0.
# true/false or yes/no
flag_undeclared = yes
# Whether trig functions use radians or not
# true/false or yes/no
use_radians = no
# What format (base) should numbers be printed in
# decimal : the number is printed "normally", in base 10
# octal : the number is printed like 031
# binary : the number is printed like 0b1101101
# hexadecimal : the number is printed like 0x3af913
output_format = decimal # octal, binary, hexadecimal
# Should alternate-format numbers be printed with the indicative prefixes
# true/false or yes/no
print_prefixes = yes
# Should there be any indication or warning that things have been rounded
# no : there is no indication
# simple : was there any rounding at all
# sig_fig : only if a significant figure has been rounded
rounding_indication = no # simple, sig_fig
# Should errors be remembered in the history
# true/false or yes/no
save_errors = no
# This specifies the thousands and decimal delimiters
# for international numbers. This affects input and output.
# For spaces, use ' ' - may only be one character.
thousands_delimiter = ,
decimal_delimiter = .
# Should numbers be rounded to the pre-defined precision limit of
# the computer
# true/false or yes/no
precision_guard = no
# Should the history be limited in length, and if so, how?
# no : no limit
# n : some number
# eg. history_limit = 1000
history_limit = no
# Should the equals sign be printed for results?
# true/false or yes/no
show_equals = true
# Should integers be printed whole, or can long ones be compressed?
# true/false or yes/no
print_integers = yes