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# hex2num

Convert hexadecimal string to number using quantizer object

## Syntax

x = hex2num(q,h)
[x1,x2,...] = hex2num(q,h1,h2,...)

## Description

x = hex2num(q,h) converts hexadecimal string h to numeric matrix x. The attributes of the numbers in x are specified by quantizer object q. When h is a cell array containing hexadecimal strings, hex2num returns x as a cell array of the same dimension containing numbers. For fixed-point hexadecimal strings, hex2num uses two's complement representation. For floating-point strings, the representation is IEEE® Standard 754 style.

When there are fewer hexadecimal digits than needed to represent the number, the fixed-point conversion zero-fills on the left. Floating-point conversion zero-fills on the right.

[x1,x2,...] = hex2num(q,h1,h2,...) converts hexadecimal strings h1, h2,... to numeric matrices x1, x2,....

hex2num and num2hex are inverses of one another, with the distinction that num2hex returns the hexadecimal strings in a column.

## Examples

To create all the 4-bit fixed-point two's complement numbers in fractional form, use the following code.

```q = quantizer([4 3]);
h = ['7 3 F B';'6 2 E A';'5 1 D 9';'4 0 C 8'];
x = hex2num(q,h)

x =

0.8750    0.3750   -0.1250   -0.6250
0.7500    0.2500   -0.2500   -0.7500
0.6250    0.1250   -0.3750   -0.8750
0.5000         0   -0.5000   -1.0000
```