cancel
Showing results for 
Search instead for 
Did you mean: 
cancel
Showing results for 
Search instead for 
Did you mean: 

Community Tip - You can change your system assigned username to something more personal in your community settings. X

Creo/ProE Drawing Repeat Region/BOM Syntax...This is a Wiki type Doc so Please contribute! :-)

100% helpful (1/1)

This is a document so please edit it and add, correct, &/or clarify how you see fit.  Then we can all use this as a point of reference when dealing with Repeat Regions/BOM programming.  If you don't want to edit it but still want to contribute, then just leave a comment.  Thanks!

 

List of System Parameters and Model Parameters used in model/drawing (Document - CS133915):

https://support.ptc.com/appserver/cs/view/solution.jsp?n=CS133915&art_lang=en&posno=10&q=repeat%20region%20symbols&sourc…

 

List of Operators and Functions:

Type

Name

syntax

Explanation

eg: Input

 

Eg: output

Assignment Operator

=

MyVar="string"

Defines, or assigns, a variable as a # or string

 

 

 

MyVar="H123"

MyVar=10

 

 

=

=

No Output but defines the variable MyVar to be:

H123

10

String Operators/Functions

 

Comparison Operators

==

 

 

==

A==B

 

 

#A==#B

Compares strings as equal.

 

 

Compares #s as equal

"456"=="123"

"456"=="456"

 

7==1

7==7

=

=

 

=

=

NO

YES

 

NO

YES

String Operators/Functions

 

 

Comparison Operators

!=, <>, ~=

A!=B

A<>B

A~=B

 

#A!=#B

#A<>#B

#A~=#B

 

Compares strings as unequal.

(checks to see if not equal or not)

 

 

Compares #s as unequal.

(checks to see if not equal or not)

 

"456"<>"123"

"456"<>"456"

 

 

7!=1

7<>1

7~=1

7!=7

7<>7

7~=7

=

=

 

 

=

=

=

=

=

=

YES

NO

 

 

YES

YES

YES

NO

NO

NO

String Operators/Functions

Arithmetic Operators

+

 

+

A+B

 

#A+#B

For Strings: Concatenate strings.

For Numbers: Add #s (Addition, Plus)

"456"+"123"

 

7+7

=

 

=

456123 (returns a string e.g. "456123"*1="ERROR")

14

Arithmetic Operators

-

#A-#B

Subtract #s (Subtraction, Take away, Minus)

3-2

=

1

Arithmetic Operators

/

#A/#B

Divide #s (Division)

6/2

=

3

Arithmetic Operators

*

#A*#B

Multiply #s (Multiplication)

6*2

=

12

Arithmetic Operators

^

#A^#B

A to the Power of B (Exponent, Powers, Raised to)

2^3

=

8

Arithmetic Operators

()

(#A-#B)*#C

Parentheses for grouping, Priority, and order of operations

(3-2)*4

4*(3-2)

=

=

4

4

Comparison Operators

==

 

<See String Operators above>

 

 

 

Comparison Operators

>

#A>#B

Greater than

 

 

 

Comparison Operators

>=

#A>#B

Greater than or equal to

 

 

 

Comparison Operators

!=, <>,~=

 

<See String Operators above>

 

 

 

Comparison Operators

<

#A<#B

Less than

 

 

 

Comparison Operators

<=

#A<#B

Less than or equal to

 

 

 

Comparison Operators

|

#A | #B | #C

OR

 

 

 

Comparison Operators

&

#A & #B & #C

AND

 

 

 

Comparison Operators

~,!

#A == !B

 

 

#A!=B

#A~=B

NOT (i.e. Reverse a statement, Opposite)

(

 

 

 

 

 

 

 

 

 

 

 

 

Tilde ~ doesn't work for NOT next to a #.  Only next to operator =

7 == 7

7 == !7

7 == !4

7> 4

7>!4

 

 

 

7 != 7

7>=3

7!>=3

7~=7

7~=4

 

7 == ~7

7 == ~4

"ABC" == !"ABC"

=

=

=

=

=

 

 

 

=

=

=

=

=

 

=

=

=

YES

NO

NO

YES

YES (I guess even mathematically this is strange)

 

NO

YES

NO

NO

YES

 

ERROR

ERROR

ERROR

Mathematical Functions

abs

abs(#)

Returns the absolute value of a number

abs(-2)

=

2

Mathematical Functions

acos

acos(#º)

Returns the arccosine of a number

ACOS(0.125)

=

1.445468496

Mathematical Functions

asin

asin(#º)

Returns the arcsine of a number

ASIN(0.125)

=

0.125327831

Mathematical Functions

atan

atan(#º)

Returns the arctangent of a number

ATAN(0.125)

=

0.124354995

Mathematical Functions

atan2

atan2(#º)

Returns the arctangent (inverse tangent), of the specified x- and y-coordinates

ATAN2(2,3)

=

0.982793723

Mathematical Functions

bound

bound(#x,#lo,#hi)

Forces #x to be within the range of #lo to #hi.

  1. If x ≤ lo,        then output = lo.
  2. If lo ≤ x ≥ hi, then output = x
  3. If x ≥ hi,        then output = hi

 

(kind of the opposite as DEAD(), but not exactly)

 

 

    1. bound(0,5,15)
    2. bound(7.25,5,15)
    3. bound(100.2,5,15)

 

 

=

=

=

 

 

    1. 5.0
    2. 7.25
    3. 15.0

 

cable_len

 

 

 

=

 

Mathematical Functions

ceil

ceil(#)

Round # up

ceil(3.25)

=

4.0000

 

comparegraphs

 

 

 

=

 

Mathematical Functions

cos

cos(#º)

Returns the Cosine of a #

cos(2)

=

-0.416146837

Mathematical Functions

cosh

cosh(#º)

Returns the hyperbolic Cosine of a #

cosh(2)

=

3.762195691

 

dbl_in_tol

 dbl_in_tol (#x, #y, #r)

Checks to see if x and y are within the tolerance of ± r

  • #x, #y, #r are all real numbers
  • Returns TRUE if abs(x-y) ≤ r
  • Returns FALSE if abs(x-y) > r

dbl_in_tol (2, 1, 1)

dbl_in_tol (2,1,0.5)

dbl_in_tol (10,20,9)

dbl_in_tol (10,20,10)

dbl_in_tol (10,20,11)

=

=

=

=

=

YES

NO

NO

YES

YES

Mathematical Functions

dead

dead(#x,#lo,#hi)

"Defines a range of values for x, for which the result of the function is 0."

  1. If x < lo,        then output = x–lo
  2. If lo ≤ x ≥ hi, then output = 0
  3. If x > hi,         then output = x–hi

 

(kind of the opposite as BOUND(), but not exactly)

 

 

    1. bound(0,5,15)
    2. bound(7.25,5,15)
    3. bound(100.2,5,15)

 

 

=

=

=

 

 

      1. -5.0 (0-5)
  • 0
    1. 85.2 (100.2-15)

Cabling, Case Study Functions

eang

 eang(e_ID1, e_ID2)

 Angle in radians between two entities, e_ID1 and e_ID2, of a case study

 

=

 

Cabling, Case Study Functions

ecoordx

 ecoordx(e_ID1)

 x coordinate of the e_ID1 entity of a case study

 

=

 

Cabling, Case Study Functions

ecoordy

 ecoordy(e_ID1)

 y coordinate of the e_ID1 entity of a case study

 

=

 

Cabling, Case Study Functions

edistk

 edistk(e_ID1, e_ID2)

Distance between two entities, e_ID1 and e_ID2

 

=

 

Cabling, Case Study Functions

elen

 elen(e_ID1)

 

Length of the e_ID1 entity of a case study

 

=

 

Graph Evaluation Function

evalgraph

 evalgraph("graph_name", x)

Graph evaluation function enables you to use graph features to drive dimensions through relations. The dimensions can be section, part, or assembly dimensions.

  • graph_name—the name of a graph.
  • x—the value along the x-axis of the graph for which the y value is returned.

 

=

 

Strings as Arguements

exists

 exists("x")

Test if a parameter, variable, or dimension exists or not

 

x is a string

EXISTS("ASM_MBR_NAME")

EXISTS("ASM_MBR_NAME_")

EXISTS("test03")

=

=

=

YES

NO

YES (note test03 is a defined variable in my relations)

Mathematical Functions

exp

exp(#)

e3

Returns e raised to the power of a number, where e = Euler's number = 2.718…

 exp(3)=e3

=

 20.085537

String Operators/Functions

extract

extract(#1,#2,#3)

Extracts pieces of strings.

#1=string analyzing

#2=starting position

#3=length (how many char to extract)

 

e.g.

looking at the entire string (4324870B)

Starting with the first character (4)

Extract 7 characters (4324870)

extract("4324870B",1,7)

 

Extract("4324870B",8,1)

=

 

=

4324870

 

B

Logical Functions

False*

false()

false

False function Returns "No"

(For some reason doesn't return "False"!)

False()

False

=

=

NO

FALSE

Mathematical Functions

floor

floor(#)

Round # down

Floor(3.25)

=

3.0000

Mathematical Functions

if

IF(c,x,y)

Similar to IF() function in Excel:

c= condition statement

x = what to do if true

y= what to do if false

(PTC documentation calls this a switching function but to me is too  basic to earn this title)

IF(10==9,2,10)

=

10.0

Conditional Statements

if, Else, Endif

IF <condition>

   <what to do if condition is met>

 

ELSE <what to do if condition is not met> (optional)

 

ENDIF

If--Starts the if statement

Else--says what to do if statement is not bet (and is optional)

Endif--(closes the if statement)

 

    • Can have IF without ELSE
    • Can't have IF with more than one ELSE (E.g. IF ELSE ELSE ENDIF
    • Can't have IF without ENDIF
    • Can have nested IF statements.  Eg.
      • IF
      • ELSE
        • IF
        • ELSE
          • IF
          • ENDIF
        • ENDIF
      • ENDIF

asm_mbr_name = 4564870B

IF string_length(asm_mbr_name) > 7

   Test01 = extract(asm_mbr_name,1,8)

ELSE

   Test01 = extract(asm_mbr_name,1,7)

ENDIF

=

4564870B

String Operators/Functions

itos

itos(#)

Integer to String-- Reads in an integer and returns a string.  If the input number is a # that is not an integer, itos rounds up, than converts to a string.

itos(6)

itos(6.7)

=

=

6

7

Mathematical Functions

ln

ln(#)

Returns the natural log (base e) of a #

ln(2)

=

0.693147181

Mathematical Functions

log

log(#)

Returns the base 10 logarithm of a #

log(2)

=

0.301029996

 

lookup_inst

lookup_inst ("generic_name", match_mode, "param_name_1", match_value_1, "param_name_2", match_value_2,...)

Used in ProPROGRAM

Used to automatically replace the given Family Table instance with another FT instance:

generic name—Name of the generic model with a prt or asm extension

match_mode—One of the following values:

  • –1 (find closest instance with param values less than or equal to supplied values)
  • 0 (find instance with param values that match supplied values exactly)
  • 1 (find closest instance with param values greater than or equal to supplied values)

param_name_1—Family table parameter name

match_value_1—Value to match against

INPUT

END INPUT

RELATIONS

INST_NAME = LOOKUP_INST ("PEG.PRT", 0, "D2", D6:0, "D1", D5:0 + 1)

END RELATIONS

ADD PART BLOCK

INTERNAL COMPONENT ID 1

END ADD

ADD PART (INST_NAME)

INTERNAL COMPONENT ID 2

PARENTS = 1 (#1)

END ADD

MASSPROP

END MASSPROP

Example: Replacing Family Table-Driven Components

-->

"In this way, the instance of peg.prt being assembled to blockpeg.asm is controlled, based on the dimensions of the hole in block.prt."

 

 

massprop_param

 

 

 

=

 

 

material_param

 

 

 

=

 

Mathematical Functions

max

max(#)

Compares 2 #s and returns the larger one

max(6.2,4)

=

6.2

Mathematical Functions

min

min(#)

Compares 2 #s and returns the smaller one

min(6.2,4)

=

4

Mathematical Functions

mod

 mod(#n,#d)

Modulus function.  Also known as Remainder function because gives just the remainder. e.g. n/d (numerator/denominator):

10/2=5 Remainder=0 (10/2+0/2)

10/3=3 Remainder=1 (9/3+1/3)

10/4=2 Remainder=2 (8/4+2/4)

 

In Programming Modulus can be useful to do many things. e.g.

  1. Determine if Number is Odd/Even
    [if mod(n,2)=0 then n is even]
  2. Clock arithmetic

[mod(9+5,12)=2pm]

  1. Truncating decimal values
  2. Wrapping values into a certain range

[given mod(n,360) to determine what quadrant a particular angle falls in for the unit circle)
if Remainder       0-90, then Quad.1
if Remainder   90-180, then Quad.2
if Remainder 180-270, then Quad.3

If Remainder 270-360, then Quad.4]

 

 

 

Mod(10,2)

Mod(10,3)

Mod(10,4)

 

 

 

 

 

Mod(9+5)

Mod(9+8,12)

 

 

Mod(400,360)

 

Mod(2300,360)

 

 

 

=

=

=

 

 

 

 

 

=

=

 

 

=

 

=

 

 

 

0

1

2

 

 

 

 

 

2 (e.g. 9am+5hrs =2pm)

5 (e.g. 9am+8hrs = 5pm)

 

 

40 (40º is in quadrant 1)

 

140 (140º is in quadrant 2)

 

mp_assigned_mass

 

 

 

=

 

 

mp_cg_x

 

 

 

=

 

 

mp_cg_y

 

 

 

=

 

 

mp_cg_z

 

 

 

=

 

 

mp_mass

 

 

 

=

 

 

mp_surf_area

 

 

 

=

 

 

mp_volume

 

 

 

=

 

Mathematical Functions

near

near(#y,#y,#delta)

determines if the numbers x and y are within delta of each other

near(5,8,3)

near(5,8,1)

=

=

1.0 (i.e. when true)

0.0 (i.e. when false)

Logical Functions

No*

no()

no

No Function Returns "No"

No()

No

=

=

NO

FALSE

Mathematical Functions

pi

pi()

Returns the number for PI

PI()

=

3.141592654

Mathematical Functions

pow

pow(#x,#y)

x^y

Raising x to the Power of y

#1=Base value

#2=Exponent

Pow(1,2)

Pow(2,2)

Pow(2,4)

=

=

=

1.0 (i.e. 1^2)

4.0 (i.e. 2^2)

16.0 (i.e. 2^4)

Strings as Arguements

rel_model_name

rel_model_name

 

or

 

rel_model_name()

 

 

Passing Strings as Arguments in Relations

rel_model_name

 

rel_model_name()

 

=

 

501234

(when done on 501234.drw table repeat region relations)

Strings as Arguements

rel_model_type

 

rel_model_type

 

or

 

rel_model_type()

Returns the current model type.  If you are working in Assembly mode, rel_model_type() is equal to assembly.

 

(note you can use with or without parenthesis)

Passing Strings as Arguments in Relations

rel_model_type

 

rel_model_type()

 

 

=

DRAWING (when used in table repeat region relations)

String Operators/Functions

search

search(string, substring)

Searches for substrings. The resulting value is the position of the substring in the string (0 if not found). You can specify substrings with single or double quotes.

search(asm_mbr_name,"501234")

=

2

(Given asm_mbr_name is 05012340.prt)

Mathematical Functions

sign

 sign(x,y)

 Sign Transfer of y to x

  • If y<0, the result is –abs(x)
  • if y>=0, the result is abs(x).

sign(-2,3)

sign(2,3)

sign(2,-3)

sign(-2,-3)

=

=

=

=

2.0

2.0

-2.0

-2.0

Mathematical Functions

sin

sin(#º)

Returns the sine of a number

sin(2)

=

0.909297427

Mathematical Functions

sinh

sinh(#º)

Returns the hyperbolic sine of a number

sinh(2)

=

3.626860408

 

smt_def_ben_rad

 

 

 

=

 

 

smt_thickness

 

 

 

=

 

Mathematical Functions

sqrt

sqrt(#)

Take the square root of a number

sqrt(4)

=

2

String Operators/Functions

string_ends

string_ends (string1, string2)

Check to see if string1 ends with string2

Case Sensitive ("H" <NOT => "h")

string_ends("h456","56")

string_ends("h456H","56h")

string_ends("h456H","56H")

=

=

=

YES

NO

YES

Strings as Arguements

string_length

string_length(string)

 

string_length(<param>)

Returns the number of characters in a string or parameter.

string_length("als23fj")

string_length(asm_mbr_name)

=

=

7.0

6.0

(when done on 501234.prt table repeat region relations)

String Operators/Functions

string_match

string_match(string1, string2)

Check to see if 2 strings are exactly the same or not

Case insensitive ("H"="h")

string_match("456","456")

string_match("456","4560")

string_match("h456","H456")

=

=

=

YES

NO

YES

String Operators/Functions

string_starts

string_starts(string1, string2)

Check to see if string1 starts with string2

Case Sensitive ("H" <NOT => "h")

string_starts("h456","h4")

string_starts("h456","H4")

string_starts("h456","asd4")

=

=

=

YES

NO

NO

Mathematical Functions

tan

tan(#º)

Returns the tangent of a number

tan(2)

=

-2.185039863

Mathematical Functions

tanh

tanh(#º)

Returns the hyperbolic tangent of a number

tanh(2)

=

0.96402758

 

trajpar

 

"Trajectory Parameter" Returns a system of numbers that varies from 0 to 1 across the length of a given path

http://en.wikipedia.org/wiki/Trajpar

sin(trajpar*8*pi())

=

creates an undulating wave

Composite Curve Trajectory Function

trajpar_of_pnt

trajpar_of_pnt("trajname", "pointname")

The trajectory parameter of a composite curve, trajpar_of_pnt, can be used in relations.

The following function returns a value between 0.0 and 1.0:

 

=

 

Logical Functions

True*

true()

true

True function Returns "YES"

(For some reason doesn't return "True"!)

True()

True

=

=

YES

TRUE

Logical Functions

Yes*

yes()

yes

Yes function Returns "Yes"

Yes()

Yes

=

=

YES

TRUE

 

 

*Relations containing conditional statements are not sorted. A condition is an expression that is either TRUE (or YES) or FALSE (or NO). These values can be used interchangeably in the conditional statement. For example, the following statements can all be evaluated the same way:From <https://support.ptc.com/help/creo/creo_pma/r9.0/usascii/fundamentals/fundamentals/Conditional_Statements_in_Relations.html>

LawrenceS_0-1681942609724.png

 

 

Pro/ENGINEER, Creo Elements/Pro and Creo Parametric

Comments

This is a good start but is far from comprehensive.  Hopefully others will contribute to this doc to get it up to par!

Thank you TomUminn!  I could not find this when I searched the help, searching these forums, tried navigating through the help (I didn't realize to look under fundamentals!), or opening a call/case with PTC and asking them.  After not being able to find it in any of those locations (especially the TS) I thought it didn't exist.  Thanks again!

Fantastic document Lawrence!

Those links do not work any more.  Here is one of them and then you can jump around from there:

https://support.ptc.com/help/creo/creo_pma/usascii/#page/fundamentals%2Ffundamentals%2Ffund_seven_sub%2FAbout_Functions_Used_in_Relations.html%23

Does anyone know if you can put multiple lines on a single line using something like a new line or next line character?

  • E.g. If x=="1" `n y=="2" `n ENDIF

Although this may be useful in the actual code I would really like to use it in the Evaluate Expressions dialog.

LawrenceS_0-1700240596822.png

It looks like no one has answered this. For those who are familiar with the older programming language(s), what languages do you think the BOM relations follows most closely to in syntax and commands?