Programmer Guide/Command Reference/NUM: Difference between revisions

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|0<BR>warning code
|0<BR>warning code
|}
|}
;Description: The ''expression'' will be evaluated numerically, and the result (textual representation) will be returned. The ''expression'' may consist of the following parts
 
{|class="keinrahmen"
The ''expression'' will be evaluated numerically, and the result (textual representation) will be returned. The ''expression'' may consist of the following parts:
|numerical constants: ||decimal numbers     ||<code>123.456, 17.5e3, 100, -312.123, 1e-3</code>
;decimal numbers: <code>123.456</code>, <code>17.5e3</code>, <code>100</code>, <code>-312.123</code>, <code>1e-3</code>,&hellip;
|                    ||hexadecimal numbers ||<code>0x1234, 0xabc, 0XabC</code>
;hexa-decimal numbers:<code>0x1234</code>, <code>0xabc</code>, <code>0XabC</code>, &hellip;
|                    ||special constants   ||<code>pi</code> (=3.1415...), <code>e</code>(=2.71828...)
;special constants:<code>pi</code> (=3.1415...), <code>e</code> (=2.71828...),
|                     ||random numbers      ||<code>rand</rand> (a linear distributed pseudo random number in the range -1..1)
:<code>rand</code> (a linear distributed pseudo random number ''r''; -1&le;''r''&lt;1)
|numerical operators  ||'''-''' (negate)   ||<code>-($#a+1)</code>
:<code>lran</code> (a linear distributed pseudo random number ''r''; 0&le;''r''&lt;1)
|                     ||'''+'''
;numerical operators: <code>-''a''</code> (negate), <code>''a''+''b''</code> (add), <code>''a''-''b''</code> (subtract), <code>''a''*''b''</code> (multiply), <code>''a''/''b''</code> (divide), <code>''a''%''b''</code> (modulo), <code>''a''^''b''</code> (power)
;logical operators (bitwise): <code>!''a</code> (not), <code>''a''&''b''</code> (and), <code>''a''|''b''</code> (or), <code>''a''^''b''</code> (exclusive or)
;brackets:<code>(''expression'')</code>
;functions:
:{|class="einrahmen"
|<code>setlran(''seed'')</code>
|linear distributed pseudo random number ''r'' (0&le;''r''&lt;1)<BR>''seed'' is the start value (0&le;''seed''&lt<1)
|-
|<code>sin(''x'')</code>, <code>cos(''x'')</code>, <code>tan(''x'')</code>
|sine, cosine or tangent of ''x''
|-
|<code>asin(''x'')</code>, <code>acos(''x'')</code>, <code>atan(''x'')</code>
|inverse sine, cosine or tangent of ''x''
|-
|<code>exp(''x'')</code>
|computes <code>e<sup>''x''</sup></code>
|-
|<code>log(''x'')</code>
|common logarithm of ''x'' (base <code>10</code>)
|-
|<code>ln(''x'')</code>
|natural logarithm of ''x'' (base <code>e</code>)
|-
|<code>sqrt(''x'')</code>
|square root of ''x'' (base 10)
|-
|<code>abs(''x'')</code>
|absolute value of ''x'' (base 10)
|-
|<code>int(''x'')</code>
|integer part of ''x'', the fractional part is truncated<BR>(range of ''x'': 32bit signed integer)
|-
|<code>round(''x'')</code>
|round to the nearest integer of ''x''<BR>(range of ''x'': 32bit signed integer)
|-
|<code>db(''x'')</code>
|convert level to factor (<code>10<sup>''x''/20</sup></code>)
|-
|<code>sinc(''x'')</code>, <code>sinx(''x'')</code>
|sinc function: <code>sin(''x'') / ''x''</code>
|-
|<code>sign(''x'')</code>
|sign of ''x''; returns -1 if <code>''x''&lt;0</code>, otherwise 1
|-
|<code>hz2bark(''x'')</code>
|convert ''x'' from Hertz to Bark
|-
|<code>bark2hz(''x'')</code>
|convert ''x'' from Bark to Hertz
|-
|<code>bit(''n'')</code>
|returns the integer with only bit ''n'' (0&le;''n''&lt;32) is set and all other are cleared; can be used to generate bit masks
|-
|<code>floor(''x'')</code>
|returns a floating-point value representing the largest integer that is less than or equal to ''x''<BR>(range of ''x'': 64bit float)
|-
|<code>iserr(''rc'')</code>, <code>iserror(''rc'')</code>
|returns 1 if ''rc'' is a {{STX}} error code, otherwise 0<BR>this function can be used to test the completion code <code>RC</code> of a command
|-
|<code>iswarn(''rc'')</code>, <code>iswarning(''rc'')</code>
|returns 1 if ''rc'' is a {{STX}} warning code, otherwise 0<BR>this function can be used to test the completion code <code>RC</code> of a command
|-
|<code>npow2(''n'')</code>
|next power of 2; returns the smallest possible value <code>2<sup>m</sup> &ge; ''n''</code>
|}
|}
;Notes:
;Notes:
:* The <code>INT</code> command converts the result to an integer by ''truncating'' it. There is no rounding involved, no rounding at all.
*In case of the expression being syntactically ill-formed, an error (<code>NUM</code>) or warning (<code>NUMCHECK</code>) is reported.
:* In case of the expression being syntactically ill-formed, an error (<code>INT</code>) or warning (<code>INTCHECK</code>) is reported.
*The special numerical objects (vectors, matrices) available in [[../EVAL|EVAL]]-expressions, can not be used in the <code>NUM</code> expressions. Only the use of numerical constants and variables is possible.
;See also: [[../NUM|NUM, NUMCHECK]], [[../EVAL|EVAL, EVALCHECK]]
*The same expression syntax is used for the [[../INT|INT and INTCHECK]], for the numerical expressions in [[Programmer_Guide/Introduction#Conditional_Expressions|conditions]] (e.g. [[../IF|IF]] or [[../WHILE|WHILE]]) and for the evaluation of numerical arguments of commands.
*Numerical expressions are evaluated in 64bit floating point precission.
*For logical (operators <code>!, &, |, ^</code>) and integer expressions (functions <code>round, int, bit</code>) 32bit signed integers are used.


;See also: [[../INT|INT, INTCHECK]], [[../EVAL|EVAL, EVALCHECK]], [[../SEGMENT|SEGMENT]]


;Examples:
;Examples:
  #result := int 3.1          // #result is set to 3
// #wave = wave item
  #result := int 3.9          // #result is set to 3, too
  #t := num $#wave[!length] / $#wave[!srate]          // duration in seconds
  #result := int 3.9 * 3.9    // #result is set to 15 (note that calculation
// #t = frame length in seconds, #o = overlap in percent
                              // is done in floating point, resulting in 15.21,
  #lfrm := int $#t * $#wave[!srate]                  // frame length in samples
                              // and truncation occurs only on assigning
  #lhop := int $#t * (1 - $#o / 100) * $#wave[!srate] // hopsize in samples
  // compare the preceding example with the following one:
  #lfft := int npow2($#lfrm)                          // fft length
  #result := int 3 * int(3.9) // here, #result will be assigned 9 - cool, isn't it?
  #df  := num $#wave[!srate] / $#lfft                // frequency resolution
 
  // using expressions in a IF statement
if 'db($#level)' > 1 then
    conlog 'level must be lower or equal 0dB'
    #level := 0
end

Latest revision as of 16:51, 25 April 2014

command return value value of RC
NUM expression value of expression or
empty string if the evaluation fails
0
error code
NUMCHECK expression value of expression or
empty string if the evaluation fails
0
warning code

The expression will be evaluated numerically, and the result (textual representation) will be returned. The expression may consist of the following parts:

decimal numbers
123.456, 17.5e3, 100, -312.123, 1e-3,…
hexa-decimal numbers
0x1234, 0xabc, 0XabC, …
special constants
pi (=3.1415...), e (=2.71828...),
rand (a linear distributed pseudo random number r; -1≤r<1)
lran (a linear distributed pseudo random number r; 0≤r<1)
numerical operators
-a (negate), a+b (add), a-b (subtract), a*b (multiply), a/b (divide), a%b (modulo), a^b (power)
logical operators (bitwise)
!a (not), a&b (and), a|b (or), a^b (exclusive or)
brackets
(expression)
functions
setlran(seed) linear distributed pseudo random number r (0≤r<1)
seed is the start value (0≤seed&lt<1)
sin(x), cos(x), tan(x) sine, cosine or tangent of x
asin(x), acos(x), atan(x) inverse sine, cosine or tangent of x
exp(x) computes ex
log(x) common logarithm of x (base 10)
ln(x) natural logarithm of x (base e)
sqrt(x) square root of x (base 10)
abs(x) absolute value of x (base 10)
int(x) integer part of x, the fractional part is truncated
(range of x: 32bit signed integer)
round(x) round to the nearest integer of x
(range of x: 32bit signed integer)
db(x) convert level to factor (10x/20)
sinc(x), sinx(x) sinc function: sin(x) / x
sign(x) sign of x; returns -1 if x<0, otherwise 1
hz2bark(x) convert x from Hertz to Bark
bark2hz(x) convert x from Bark to Hertz
bit(n) returns the integer with only bit n (0≤n<32) is set and all other are cleared; can be used to generate bit masks
floor(x) returns a floating-point value representing the largest integer that is less than or equal to x
(range of x: 64bit float)
iserr(rc), iserror(rc) returns 1 if rc is a STx error code, otherwise 0
this function can be used to test the completion code RC of a command
iswarn(rc), iswarning(rc) returns 1 if rc is a STx warning code, otherwise 0
this function can be used to test the completion code RC of a command
npow2(n) next power of 2; returns the smallest possible value 2mn
Notes
  • In case of the expression being syntactically ill-formed, an error (NUM) or warning (NUMCHECK) is reported.
  • The special numerical objects (vectors, matrices) available in EVAL-expressions, can not be used in the NUM expressions. Only the use of numerical constants and variables is possible.
  • The same expression syntax is used for the INT and INTCHECK, for the numerical expressions in conditions (e.g. IF or WHILE) and for the evaluation of numerical arguments of commands.
  • Numerical expressions are evaluated in 64bit floating point precission.
  • For logical (operators !, &, |, ^) and integer expressions (functions round, int, bit) 32bit signed integers are used.
See also
INT, INTCHECK, EVAL, EVALCHECK, SEGMENT
Examples
// #wave = wave item
#t := num $#wave[!length] / $#wave[!srate]          // duration in seconds
// #t = frame length in seconds, #o = overlap in percent
#lfrm := int $#t * $#wave[!srate]                   // frame length in samples
#lhop := int $#t * (1 - $#o / 100) * $#wave[!srate] // hopsize in samples
#lfft := int npow2($#lfrm)                          // fft length
#df   := num $#wave[!srate] / $#lfft                // frequency resolution
// using expressions in a IF statement
if 'db($#level)' > 1 then
    conlog 'level must be lower or equal 0dB'
    #level := 0
end

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