Reference for Processing version 1.2. If you have a previous version, use the reference included with your software. If you see any errors or have suggestions, please let us know. If you prefer a more technical reference, visit the Processing Javadoc.
| Name | >> (right shift) |
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| Examples | int m = 8 >> 3; // In binary: 1000 to 1 println(m); // Prints "1" int n = 256 >> 6; // In binary: 100000000 to 100 println(n); // Prints "4" int o = 16 >> 3; // In binary: 10000 to 10 println(o); // Prints "2" int p = 26 >> 1; // In binary: 11010 to 1101 println(p); // Prints "13" // Using "right shift" as a faster method than red(), green(), and blue() color argb = color(204, 204, 51, 255); int a = (argb >> 24) & 0xFF; int r = (argb >> 16) & 0xFF; // Faster way of getting red(argb) int g = (argb >> 8) & 0xFF; // Faster way of getting green(argb) int b = argb & 0xFF; // Faster way of getting blue(argb) fill(r, g, b, a); rect(30, 20, 55, 55); |
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| Description | Shifts bits to the right. The number to the left of the operator is shifted the number of places specified by the number to the right. Each shift to the right halves the number, therefore each left shift divides the original number by 2. Use the right shift for fast divisions or to extract an individual number from a packed number. Right shifting only works with integers or numbers which automatically convert to an integer such at byte and char.
Bit shifting is helpful when using the color data type. A right shift can extract red, green, blue, and alpha values from a color. A left shift can be used to quickly reassemble a color value (more quickly than the color() function). |
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| Syntax | value >> n |
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| Parameters |
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| Usage | Web & Application | ||||
| Related | << (left shift) |
