Language Reference 1

DESCRIPTION: The addition operator, "+"

USAGE:

x=Expr+Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value of the expression is the sum of two expressions

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

x=1+2
(the result for x will be 3)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The subtraction operator

USAGE:

x=Expr-Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value of the first expression minus the value of the second expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

x=15-2
(the result for x will be 13)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The multiplication operator

USAGE:

x=Expr*Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value is the product of two expressions

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

x=5*4
(the result for x will be 20)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The division operator

USAGE:

  x=Expr/Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value of the first expression divided by value of the second expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

  x=60/6
   (the result for x will be 10)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The power operator

USAGE:

  x=Expr^Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: The first expression to the power of the value of the second expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

  x=7^3
   (the result for x will be 343)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The percentage operator

USAGE:

x=Expr % Expr 
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value of the first expression modulo the value of the second expression(assumes that the values of the expression are integers

SEE ALSO: <a link to the composite functions section of seles modellers guide>

Example 1:

x=19 % 12
(the result for x will be 7)

Example 2:

x=10 % 20
(the result for x will be 10)

Example 3:

x=10 % 10
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used> Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

DESCRIPTION: The EQ operator or the alternate form of EQ comparison (Note: two equal signs distinguish this from an assignment). This is a Boolean function operator.

USAGE:

  x=(Expr)==(Expr)=(Expr)EQ(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the == or the EQ sign must equal to the value on the right of the == or the EQ sign.

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

  x=(|-9|)==(9) //(TRUE)
   (the result for x will be 1)

Example 2:

  x=(2*8)==(4*4) //(TRUE)
   (the result for x will be 1)

Example 3:

  x=(2*0)==(-1)  //(FALSE)
   (the result for x will be 0)   

Example 4:

x=(|-9|)EQ(9) //(TRUE)
 (the result for x will be 1)

Example 5:

  x=(2*6)EQ(4*4) //(FALSE)
   (the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The not equal operator or the alternate form of NOT EQUAL comparison. This is a Boolean function operator.

USAGE:

  x=(Expr)!=(Expr)=(Expr)NEQ(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the != or NEQ sign does not equal to the value on the right of the != or NEQ sign.

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=(|-9|)!=(-9) //(TRUE)
(the result for x will be 1)

Example 2:

x=(2*8)!=(4*3) //(TRUE)
(the result for x will be 1)   

Example 3:

x=(2*8)!=(2*8) //(FALSE)
(the result for x will be 0)

Example 4:

x=(1+7)NEQ(8) //(FALSE)
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A Boolean function operator that returns TRUE(1) if the value of the first expression is less than the value of the second expression; otherwise FALSE(0).

USAGE:

x=(Expr)<(Expr)=(Expr)LESS THAN(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the < or the LESS THAN is less than the value on the right of the < or LESS THAN sign

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=(17)<(21) //(TRUE)
(the result for x will be 1)

Example 2:

x=(-17)LESS THAN(-17) //(FALSE)    
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A Boolean function operator that returns TRUE(1) if the value of the first expression is less than or equal to the value of the second expression; otherwise FALSE(0).

USAGE:

x=(Expr)<=(Expr)=(Expr)LESS OR EQUAL(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the <= or LESS OR EQUAL sign is less or equal to the value on the right of the <= or LESS OR EQUAL sign

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=17<=21 //(TRUE)
(the result for x will be 1)

Example 2:

x=(-17)LESS OR EQUAL(|-17|) //(TRUE)    
(the result for x will be 1)

Example 3:

x=-17<=-18 //(FALSE)
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A Boolean function operator that returns TRUE(1) if the value of the first expression is greater than the value of the second expression; otherwise FALSE(0).

USAGE:

x=(Expr)>(Expr)=(Expr)GREATER THAN(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the > or GREATER THAN sign is greater than the value on the right of the > or GREATER THAN sign

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=5>2 //(TRUE)
(the result for x will be 1)

Example 2:

x=(5)GREATER THAN(5) //(FALSE)
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A Boolean function operator that returns TRUE(1) if the value of the first expression is greater than or equal to the value of the second expression; otherwise FALSE(0).

USAGE:

x=(Expr)>=(Expr)=(Expr)GREATER OR EQUAL(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Value on the left of the >= or GREATER OR EQUAL sign is greater or equal to the value on the right of the >= or GREATER OR EQUAL sign

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=5>=2 //(TRUE)
(the result for x will be 1)

Example 2:

x=(5)GREATER OR EQUAL(5) //(TRUE)
(the result for x will be 1)

Example 3:

x=5>=6 //(FALSE)
(the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A Boolean function operator that negates the expression Boolean value.

USAGE:

x=!Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Negates the expression Boolean value

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

y = TRUE x=IF !y THEN 3 ELSE 4
(the result for x will be 4)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The absolute value operator

USAGE:

x=ABS(Expr)=|Expr|=ABSOLUTE(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Absolute value of the expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

x=ABS(-12)
(the result for x will be 12)

Example 2:

x=|-12|
(the result for x will be 12)

Example 3:

x=ABSOLUTE(-12) 
(the result for x will be 12)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A boolean operator that returns TRUE if two expressions are both TRUE, and FALSE otherwise.

USAGE:

x= Expr AND Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: TRUE (1) if all sub-expressions evaluate to TRUE and FALSE (0) otherwise

NOTES: The AND operation is equivalent to the multiplication operator. For example: if A is TRUE, which can also be represented by 1 and B is FALSE, which can be represented by 0, then A AND B means that A is multiplied by B, ie: 1*0, which gives FALSE (0).

SEE ALSO: Model Builder's Guide Chapter 9#Boolean Functions

Example 1:

x=(3>6) AND (14>9)
(the result for x will be FALSE(0))

Example 2:

x=(6>3) AND (14>9)
(the result for x will be TRUE(1))

Example 3:

x=10 AND (9<14)
(the result for x will be 10)
   

Example 4:

x=10 AND -5
(the result for x will be -50)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The arccos function operator

USAGE:

  x=ARCCOS(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Inverse cos of the value of the expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Trigonometric Functions)

Example 1:

  x=ARCCOS(0.5)
   (the result for x will be 59.9999999999998)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The arcsin function operator

USAGE:

  x=ARCSIN(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Inverse sine of the value of the expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Trigonometric Functions)

Example 1:

  x=ARCSIN(1)
   (the result for x will be 89.9999999999998)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The arctan function operator

USAGE:

  x=ARCTAN(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Inverse tan of the value of the expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Trigonometric Functions)

Example 1:

  x=ARCTAN(1)
   (the result for x will be 44.9999999999999)

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The arcsin quadrant function operator

USAGE:

  x=ARCTAN(Expr,Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Inverse tan where first expression is x offset and second is y offset. Provideing two expressions gives more infomation about the quadrant

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Trigonometric Functions)

Example 1:

   x=ARCTAN(5,9)
    (the result for x will be 60.9453959009227)

SAMPLE MODELS: <links to sample models where this function is used>

(Expr, Expr) Bitwise OR of two valuesModel Builder's Guide Chapter 9#Bit-Vector Functions

DESCRIPTION:

USAGE:

REQUIRED ARGUMENTS:

VALUE:

SEE ALSO:

Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(Expr, Expr) Bitwise AND of two valuesModel Builder's Guide Chapter 9#Bit-Vector Functions

DESCRIPTION:

USAGE:

REQUIRED ARGUMENTS:

VALUE:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(Expr, Expr) Bitwise exclusive-OR of two valuesModel Builder's Guide Chapter 9#Bit-Vector Functions

DESCRIPTION:

USAGE:

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VALUE:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Expr	Bitwise NOT of a valueModel Builder's Guide Chapter 9#Bit-Vector Functions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: The ceiling operator

USAGE:

x=CEILING(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Smallest integer larger than the expression value

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

x=CEILING(0.01)
(the result for x will be 1)

SAMPLE MODELS: <links to sample models where this function is used>

(Expr, MinExpr, MaxExpr)

DESCRIPTION: The clamp operator

USAGE:

  x=(Expr, MinExpr, MaxExpr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Clamp the value X of the expression to the range [Min, Max]: if X<Min then return Min; if X<Max return Max. Otherwise return X.

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

SAMPLE MODELS: <links to sample models where this function is used>

(X) if the value of the variable X is equal to one of CLASS Number: Expr the classes listed, then return the result of the.  : associated expression. Otherwise return 0. Model Builder's Guide Chapter 9#Classified and Discrete Functions ENDFN Model Builder's Guide Chapter 9#Classified and Discrete Functions

DESCRIPTION:

USAGE:

REQUIRED ARGUMENTS:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(X) return the result of the kth expression in the list, Expr where k = X – minimum value of the variables

  :	(this may be non-0 only for layers)
  :

Model Builder's Guide Chapter 9#Classified and Discrete Functions ENDFN Model Builder's Guide Chapter 9#Classified and Discrete Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(X): ( Number+) return the kth number in the list, where k = X – minimum value of the variable (this may be non-0 only for layers)Model Builder's Guide Chapter 9#Classified and Discrete Functions

DESCRIPTION:

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REQUIRED ARGUMENTS:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(X): Filename uses the table in the named file, which is assumed to consist of class:value pairs. Rarely used. Model Builder's Guide Chapter 9#Classified and Discrete Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

(X): Filename Key uses the table in the named file, which is assumed to consist of class:value pairs. The key is used to specify a sub-table in a multi-table file. Rarely used.

Classified functions use the variable as an index into the list of numbers or expressions that follow. The “CLASS” keyword is optional. This variable must be non-negative. If “CLASS # :” is used, then the number refers to the value of the indexing variable. If a class is not specified for a given value, its expression is implicitly ZERO. Interpolation tables are very similar except that the variable is assumed to be continuous instead of classified. An interpolated value between classes is returned. Lookup tables are also similar, except that both the variable and classes are assumed to be continuous values. An interpolated value between classes is also returned. Rarely used. Model Builder's Guide Chapter 9#Classified and Discrete Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

draw a value from a discrete distribution, where CLASS Number: Expr each expression determines the relative : probability of its associated class being drawn. ENDFN The CLASS keyword is optional.

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

( Number+) in this form, the classes are assumed to start at zero. Only constant probabilities can be given.

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

in this form, the classes are assumed to start at Expr zero  : ENDFN

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

[M] In this form, the classes in a one-dimensional array M, and so start at zero.

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#Set Functions

DESCRIPTION:

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REQUIRED ARGUMENTS:

VALUE:

SEE ALSO:

Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#Graph Functions

DESCRIPTION: The cos function operator

USAGE:

  x=COS(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Inverse cos of the value of the expression

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Trigonometric Functions)

Example 1:

  x=COS(0.5)
   (the result for x will be 0.99996192306417)

SAMPLE MODELS: <links to sample models where this function is used>

(Flag) Enter (if Flag is TRUE) or exit (if Flag is FALSE) a critical section. A critical section gives priority to this application, and is used for synchronizing access to shared variables (i.e. shared with another application).Model Builder's Guide Chapter 9#Control Expressions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Update the simulation probe, if it is loaded and The event is selected. Used to debug/verify event behaviour.Model Builder's Guide Chapter 9#Control Expressions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Expr known location indices. If there is a decision expression, then only those cells for which this expression returns TRUE will be included. Model Builder's Guide Chapter 9#Region Functions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Expr location indices stored in one-dimensional X. Model Builder's Guide Chapter 9#Region Functions

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Expr location index. If there is a decision expression, then only those cells for which this expression returns TRUE will be included. Model Builder's Guide Chapter 9#Region Functions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Expr defines a region centred on the current cell. If there is a decision expression, then only those cells for which this expression returns TRUE will be included.

DistanceType is either CARDINAL or EUCLIDEAN (the default). Cardinal distance between two cells is the minimum number of cardinal steps (up, down, left, right) to reach one cell from the other. Euclidean distance is the straight-line distance between two points. The WRAPPED flag, if present indicates that the region wraps around the sides (vertically and horizontally) of the landscape (e.g. a location x positions beyond the right-hand side of a raster will be mapped to x positions in from the left-hand side of the raster). If not present, the landscape does not wrap. Model Builder's Guide Chapter 9#Region Functions

DESCRIPTION: Defines a region centred on the current cell. If there is a decision expression, then only those cells for which this expression returns TRUE will be included.

USAGE:

  x= Expr AND Expr
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: TRUE (1) if all sub-expressions evaluate to TRUE and FALSE (0) otherwise

NOTES:

SEE ALSO: Model Builder's Guide Chapter 9#Expressions:

Example 1:

  x=(3>6) AND (14>9)
   (the result for x will be FALSE(0))

Example 2:

  x=(6>3) AND (14>9)
   (the result for x will be TRUE(1))

Example 3:

  x=10 AND (9<14)
   (the result for x will be 10)
   

Example 4:

  x=10 AND -5
   (the result for x will be -50)

SAMPLE MODELS: <links to sample models where this function is used>

(Expr, Expr) angle in degrees between two location indices Model Builder's Guide Chapter 9#Continuous Functions (Miscellaneous)

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

Display on the screen the labelled Label: Expr values computed with the expressions listed. …. If no label is given, the expression must ENDFN be a variable, and this is used for the label. Model Builder's Guide Chapter 9#Output Expressions DESCRIPTION: The clamp operator

DESCRIPTION: The clamp operator

USAGE:

  x=(Expr, MinExpr, MaxExpr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Clamp the value X of the expression to the range [Min, Max]: if X<Min then return Min; if X<Max return Max. Otherwise return X.

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

SAMPLE MODELS: <links to sample models where this function is used>

Same as above, but only display if the DECISION Expr decision expression evaluates to TRUE Label: Expr The keyword DECISION can be replaced by …. a “?” ENDFN Model Builder's Guide Chapter 9#Output Expressions OUTPUT RECORD(OutputVar) Output to the record file of output variable the labelled values computed with the Label: Expr expressions listed. If no label is given, the …. Expression must be a variable and this is ENDFN used as label. Model Builder's Guide Chapter 9#Output Expressions OUTPUT RECORD(OutputVar) Same as above, but only output if the DECISION Expr decision expression evaluates to TRUE Label: Expr …. ENDFN

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SAMPLE MODELS: <links to sample models where this function is used>

(Expr, Expr) distance between two location indices (normally obtained using the Location variable). Thus, DISTANCE(loc1, loc2) is sqrt(sqr(loc1.x – loc2.x) + sqr(loc1.y – loc2.y)) Model Builder's Guide Chapter 9#Continuous Functions (Miscellaneous)

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: A control expression that evaluates to TRUE and the set of sub-expressions after the ELSE otherwise.

USAGE:

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Expression evaluates to TRUE and the set of sub-expressions after the ELSE otherwise. Note that "ELSE IF expr" forms can be strung together.

SEE ALSO: Model Builder's Guide Chapter 9#Control Expressions

Example 1:

SAMPLE MODELS: <links to sample models where this function is used>

TRUE(1) if the sub-expressions all evaluate to the same value and FALSE (0) otherwise Model Builder's Guide Chapter 9#Composite Functions

DESCRIPTION:

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Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION: (Expr) base of the natural logarithm (e) to the power of the expression

USAGE:

  x=EXP(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Base of the natural logarithm (e) to the power of the expression

SEE ALSO: <a link to the composite functions section of seles modellers guide>

Example 1:

          x=EXP(3)
           (the result for x will be 20.08553692)

SAMPLE MODELS: <links to sample models where this function is used> Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#General Set, List and Graph Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#Graph Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#General Set, List and Graph Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#Graph Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#General Set, List and Graph Functions

DESCRIPTION:

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Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#Graph Functions

DESCRIPTION: The flooring operator

USAGE:

  x=FLOOR(Expr)
      

REQUIRED ARGUMENTS: Expr is any expression that evaluates to single numeric value

VALUE: Largest integer smaller than the expression value

SEE ALSO: Model Builder's Guide Chapter 9#Continuous Functions (Arithmetic Functions)

Example 1:

  x=FLOOR(0.99)
   (the result for x will be 0)

SAMPLE MODELS: <links to sample models where this function is used>

geometric mean of the sub-expressions (nth root of the product for n expressions)

Model Builder's Guide Chapter 9#Composite Functions

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SAMPLE MODELS: <links to sample models where this function is used>

TRUE (1) if the sub-expression evaluations are all ordered according to the relation >=, and FALSE (0) otherwise Model Builder's Guide Chapter 9#Composite Functions

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SAMPLE MODELS: <links to sample models where this function is used>

TRUE (1) if the sub-expression evaluations are all ordered according to the relation >, and FALSE (0) otherwise

Model Builder's Guide Chapter 9#Composite Functions

The logarithm is the mathematical operation that is the inverse of exponentiation (raising a constant, the base, to a power). The logarithm of a number x in base b is the number n such that x = bⁿ. It is usually written as

${\displaystyle {\log }_b(x)=n.}$

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VALUE:

SEE ALSO:

Example 1:

Example 2:

SAMPLE MODELS: <links to sample models where this function is used>

DESCRIPTION:

USAGE:

REQUIRED ARGUMENTS:

VALUE:

SEE ALSO:

Example 1:

Example 2:

SAMPLE MODELS: Model Builder's Guide Chapter 9#List Functions