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nearest

Round toward nearest integer with ties rounding toward positive infinity

Description

example

y = nearest(a) rounds fi object a to the nearest integer or, in case of a tie, to the nearest integer in the direction of positive infinity, and returns the result in fi object y.

Examples

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The following example demonstrates how the nearest function affects the numerictype properties of a signed fi object with a word length of 8 and a fraction length of 3.

a = fi(pi,1,8,3)
a = 
    3.1250

          DataTypeMode: Fixed-point: binary point scaling
            Signedness: Signed
            WordLength: 8
        FractionLength: 3
y = nearest(a)
y = 
     3

          DataTypeMode: Fixed-point: binary point scaling
            Signedness: Signed
            WordLength: 6
        FractionLength: 0

The following example demonstrates how the nearest function affects the numerictype properties of a signed fi object with a word length of 8 and a fraction length of 12.

a = fi(0.025,1,8,12)
a = 
    0.0249

          DataTypeMode: Fixed-point: binary point scaling
            Signedness: Signed
            WordLength: 8
        FractionLength: 12
y = nearest(a)
y = 
     0

          DataTypeMode: Fixed-point: binary point scaling
            Signedness: Signed
            WordLength: 2
        FractionLength: 0

The functions convergent, nearest, and round differ in the way they treat values whose least significant digit is 5.

  • The convergent function rounds ties to the nearest even integer.

  • The nearest function rounds ties to the nearest integer toward positive infinity.

  • The round function rounds ties to the nearest integer with greater absolute value.

This example illustrates these differences for a given input, a.

a = fi([-3.5:3.5]');
y = [a convergent(a) nearest(a) round(a)]
y = 
   -3.5000   -4.0000   -3.0000   -4.0000
   -2.5000   -2.0000   -2.0000   -3.0000
   -1.5000   -2.0000   -1.0000   -2.0000
   -0.5000         0         0   -1.0000
    0.5000         0    1.0000    1.0000
    1.5000    2.0000    2.0000    2.0000
    2.5000    2.0000    3.0000    3.0000
    3.5000    3.9999    3.9999    3.9999

          DataTypeMode: Fixed-point: binary point scaling
            Signedness: Signed
            WordLength: 16
        FractionLength: 13

Input Arguments

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Input fi array, specified as scalar, vector, matrix, or multidimensional array.

For complex fi objects, the imaginary and real parts are rounded independently.

nearest does not support fi objects with nontrivial slope and bias scaling. Slope and bias scaling is trivial when the slope is an integer power of 2 and the bias is 0.

Data Types: fi
Complex Number Support: Yes

Algorithms

  • y and a have the same fimath object and DataType property.

  • When the DataType property of a is single, double, or boolean, the numerictype of y is the same as that of a.

  • When the fraction length of a is zero or negative, a is already an integer, and the numerictype of y is the same as that of a.

  • When the fraction length of a is positive, the fraction length of y is 0, its sign is the same as that of a, and its word length is the difference between the word length and the fraction length of a, plus one bit. If a is signed, then the minimum word length of y is 2. If a is unsigned, then the minimum word length of y is 1.

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.

HDL Code Generation
Generate VHDL, Verilog and SystemVerilog code for FPGA and ASIC designs using HDL Coder™.

Version History

Introduced in R2008a

See Also

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