'''Boolean''' statements are numerical evaluations that return True (-1 or NOT 0) or False (0) values that can be used in other calculations. :::::::''Basic Returns:'' * True evaluations return -1. [[NOT]] 0 = -1 in Basic. Can be used to increment a value. * For positive True results, subtract it, multiply it by a negative value or use [[ABS]]. * False evaluations return 0. Watch out for [[ERROR Codes|"Division by 0" errors]]! {{Template:RelationalTable}} * When evaluating a True value, an IF value < 0 statement is NOT necessary for return values not 0. <center>''' Truth table of the BASIC Logical Operators:'''</center> {{Template:LogicalTruthTable}} <center>'''Boolean Conditional Operators:'''</center> * [[AND (boolean)|AND]] can be used to add extra conditions to a boolean statement evaluation. Both must be True. * [[OR (boolean)|OR]] can be used to add alternate conditions to a boolean statement evaluation. One must be True. * Parenthesis are allowed inside of boolean statements to clarify an evaluation. * '''Note that Basic returns -1 for True and 0 for False.''' ''Example 1:'' Using 2 different boolean evaluations to determine a leap year. {{CodeStart}} '' '' INPUT "Enter a year greater than 1583: ", annum$ Y = {{Cl|VAL}}(annum$) leap1 = (Y {{Cl|MOD}} 4 = 0 AND Y {{Cl|MOD}} 100 <> 0) OR (Y {{Cl|MOD}} 400 = 0) leap2 = (Y {{Cl|MOD}} 4 = 0) - (Y {{Cl|MOD}} 100 = 0) + (Y {{Cl|MOD}} 400 = 0) PRINT "Year = "; annum$, "Leap1 = "; leap1, "Leap2 = "; leap2 '' '' {{CodeEnd}} :''Explanation:'' Both boolean evaluations will return -1 if the year is a leap year. It is not simply every four years as many people think. That is checked by the first evaluation (Y MOD 4 = 0) of each. In new century years like 1900 (which was not a leapyear) there is only one leap year every 400 years. 100 is used with [[MOD]] to see if there is a remainder. When that is true, the boolean return of that part of the first evaluation will be 0. The second returns -1 (which is actually added). In both evaluations the result of (Y MOD 400 = 0) indicates a century leap year. :Entry year = 2000: ::leap1 = (-1 AND 0) OR -1 = -1 ' the AND evaluation returns False(0) so the OR value is used. ::leap2 = (-1) - (-1) + (-1) = -1 + 1 + -1 = -1 :Entry year = 1900: :: leap1 = (-1 AND 0) OR 0 = 0 OR 0 = 0 :: leap2 = (-1) - (-1) + (0) = -1 + 1 + 0 = 0 ''Example 2:'' Moving an [[ASCII]] character using the arrow keys and boolean statements to determine the new coordinate. {{CodeStart}} '' '' {{Cl|SCREEN}} 12 {{Cl|COLOR}} 7 {{Cl|LOCATE}} 11, 20: {{Cl|PRINT}} "Using Screen 12 here to be in 80 X 30 coordinates mode" {{Cl|LOCATE}} 13, 6: {{Cl|PRINT}} "Simple Example of Alternative programming without IF-{{Cl|THEN}}-{{Cl|ELSE}} Statements" {{Cl|LOCATE}} 15, 1: {{Cl|PRINT}} "Use the four Cursor keys to move the yellow cursor, text will not be disturbed" {{Cl|LOCATE}} 17, 12: {{Cl|PRINT}} "When you {{Cl|END}} the program with the ESC key, cursor will disappear" cordx% = 40 cordy% = 15 {{Cl|DO...LOOP|DO}} oldcordx% = cordx% oldcordy% = cordy% p% = {{Cl|SCREEN (function)|SCREEN}}(cordy%, cordx%) 'get ASCII character code at present position {{Cl|COLOR}} 14: {{Cl|LOCATE}} cordy%, cordx%: {{Cl|PRINT}} {{Cl|CHR$}}(178); 'print cursor character to position {{Cl|WHILE}} cordx% = oldcordx% {{Cl|AND (boolean)|AND}} cordy% = oldcordy% {{Cl|AND (boolean)|AND}} k$ <> {{Cl|CHR$}}(27) k$ = {{Cl|INKEY$}} cordx% = cordx% + (k$ = ({{Cl|CHR$}}(0) + "K") {{Cl|AND (boolean)|AND}} cordx% > 1) + {{Cl|ABS}}(k$ = ({{Cl|CHR$}}(0) + "M") {{Cl|AND (boolean)|AND}} cordx% < 80) cordy% = cordy% + (k$ = ({{Cl|CHR$}}(0) + "H") {{Cl|AND (boolean)|AND}} cordy% > 1) + {{Cl|ABS}}(k$ = ({{Cl|CHR$}}(0) + "P") {{Cl|AND (boolean)|AND}} cordy% < 30) {{Cl|WEND}} {{Cl|COLOR}} 7: {{Cl|LOCATE}} oldcordy%, oldcordx%: {{Cl|PRINT}} {{Cl|CHR$}}(p%); 'replace overwritten screen characters {{Cl|LOOP}} {{Cl|UNTIL}} k$ = {{Cl|CHR$}}(27) '' '' {{CodeEnd}} {{small|Code by AlgoreIthm}} ''See also:'' * [[IF...THEN]], [[SELECT CASE]] * [[Binary]], [[ABS]], [[SGN]] * [[AND]], [[OR]], [[XOR]] {{PageNavigation}}