# Tag Info

3

Order of evaluation of subexpressions is independent of both associativity and precedence. The subexpression of the multiplication are evaluated from left to right, so when doing --count*count++*count++, you evaluate --count then count++ and finally count++. And as the pre operator is evaluated first, --count will be decremented before its evaluation. ...

0

count = 3: Example 1: --count*count++*count++ equals (--count)*(count++)*(count++) (--count) = 2 (count++) = 2 (you increment it AFTER you do something with it) (count++) = 3 ... count was incremented from before 2*2*3 = 12 Example 2: --count*++count*++count equals (--count)*(++count)*(++count) --count = 2 ++count = 3 2 * 3 * 3 = 24 Example 3: ...

0

I take the first one. System.out.println(--count*count++*count++);//out put is 12 expected 48 2 * 2 * 3 = 12 pre * post * post

1

System.out.println(--count*count++*count++); = 2 * 2 * 3 = 12 count = 3; System.out.println(--count*++count*++count) = 2*3*4 = 24 count = 3; System.out.println(-- count*count++); = 2 * 2 = 4 Pre increment/decrement ++/-- X first increments/decrements then does the operation. Post increment/decrement X ++/-- first the operation is done, then ...

0

**Arithmetic Operators** (Left-to-Right) + Additive operator (a + b) - Subtraction operator (a - b) * Multiplication operator (a * b) / Division operator (a / b) % Remainder operator (a % b) **Unary operators** (Right-to-Left) + Unary plus operator; indicates positive value (numbers are positive without this, however) - Unary minus operator; ...

3

Let's go over the first method first. When the small numbers are added one by one to the large number, the following will happen ten times: 10,000,000 + 1 = 10,000,001 However since the floating-point values store only seven digits of accuracy this last digit, the eight digit, will be rounded in the seventh digit to zero. This operation will happen 10 ...

Top 50 recent answers are included