Var` package: ‘sym$’ markup reused in ‘$E$’ functions

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[TECHNICAL SLIDE TRAIL] The Webel libraries for Wolfram Mathematica: With SysMLv1 models.
Section
SECTION: The Webel Var` package Entity-based variable registry
Mathematica keywords
Entity
Webel Mathematica keywords
Var`
W`Base`
'sym$'
'$E$' variant
Keywords
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For reference, some associated Policy Notes (you don't need to visit these links yet):
Webel: Mathematica: CONVENTION: An '$E$' in a function name indicates that it is symbolic (takes Blank expression arguments). An '$E$' function can also be used with Quantity inputs and can be used to generate '$C$' compiled function variants.
Webel: Mathematica: CONVENTION: A prefix 'sym$' indicates a markup variable "symbol" for a documented variable. It need not be a String, but each referenced part MUST be a String - not a Mathematica Symbol - to avoid namespace clashes!
Webel: Mathematica: CONVENTION: A '$C$' in a function name indicates that it is a compiled variant. Typically it is compiled from an '$E$' symbolic function or an '$SI$' Real convention function.
Webel: Mathematica: CONVENTION: An '$SI$' in a function variant name indicates that all arguments are SI Real convention (no Quantity arguments with units). An '$SI$' function can also be used to generate '$C$' compiled function variants.
In a later slide (in another trail section) we'll see how to generate an '$SI$' Real convention variant from a '$E$' "symbolic" function variant and a '$C$' compiled function variant from an '$SI$' Real function variant (safest) or from a '$E$' function variant (depends on the form).

Note also that in the example hex$E$fin$m is a '$E$' symbolic function, not a '$EQ$' symbolic equation:

Webel: Mathematica: CONVENTION: A '$EQ$' in a function name indicates that it is a symbolic equation (with LHS == RHS). An '$EQ$ function can be used in combination with 'sym$' markup to create human-friendly formatted equations.
And a subtle "loophole" policy (to cover some Webel physics library functions that preceded introduction of the '$E$' and '$EQ$' policies):
Webel: Mathematica: CONVENTION: An '$E$' or '$EQ$' in a function name indicates that it is symbolic (takes Blank expression arguments), but the absence of '$E$' or '$EQ$' does not necessarily imply that it does not take Blank arguments.
There is more explanation and demonstration of these conventions in these slides from a later trail section:
CONVENTION: ‘$EQ$’, ‘$E$’, ‘eq$’ and ‘sym$’: Examples from the Psy` Psychrometrics package
‘$E$’, ‘$Q$’,‘$SI$’ and ‘$C$’ function variants: Simple demo using a trivial Psy` function
But it's best for now to stay with this trail section (or view them quickly in another tab).
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Var` package: Extracted Associations
Notes
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: An '$E$' in a function name indicates that it is symbolic (takes Blank expression arguments). An '$E$' function can also be used with Quantity inputs and can be used to generate '$C$' compiled function variants.
[CONVENTION, NAMING]{STRICT} Webel: Mathematica: CONVENTION: A prefix 'sym$' indicates a markup variable "symbol" for a documented variable. It need not be a String, but each referenced part MUST be a String - not a Mathematica Symbol - to avoid namespace clashes!
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: A '$EQ$' in a function name indicates that it is a symbolic equation (with LHS == RHS). An '$EQ$ function can be used in combination with 'sym$' markup to create human-friendly formatted equations.
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: An '$E$' or '$EQ$' in a function name indicates that it is symbolic (takes Blank expression arguments), but the absence of '$E$' or '$EQ$' does not necessarily imply that it does not take Blank arguments.
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: An '$SI$' in a function variant name indicates that all arguments are SI Real convention (no Quantity arguments with units). An '$SI$' function can also be used to generate '$C$' compiled function variants.
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: A '$C$' in a function name indicates that it is a compiled variant. Typically it is compiled from an '$E$' symbolic function or an '$SI$' Real convention function.
[CONVENTION, NAMING, PATTERN, POLICY]{STRICT} Webel: Mathematica: CONVENTION: A '$Q$' in a function variant name indicates that it is a variant where every argument is strictly either a Quantity or dimensionless Real. Compare with '$SI$' functions.
Snippets (quotes/extracts)
Visit also
Visit also (backlinks)
Related slides (includes other tutorials)
Incremental benefit through Doc`, Var`, HelpF`, HelpO`, HelpM`
Var` package: Extracted Associations
Related slides (backlinks, includes other tutorials)
About the Webel Var` package variables registry
Var` package variables registry example: Heat exchanger calculations (just p1 of 227 variables!)
Var` package variables registry example: Heat exchanger calculations (just p2 of 227 variables!)
Var` package: Special '$e$' field convention
Var` package: Package function ::usage overview
Var` package: “qualified name” String as key
Var` package: Register variables with e$var$add
CONVENTION: ‘$EQ$’, ‘$E$’, ‘eq$’ and ‘sym$’: Examples from the Psy` Psychrometrics package
hex$E$Shah$twophase$htc$combined as a single expression using ‘sym$’ markup
Gungor-Winterton method for boiling heat transfer 1987 as SysML Activity Diagram ('$SI$' Real convention version)
hex$E$GungorWinterton$1987$twophase$htc$horizontal as a single expression using ‘sym$’ markup
SysMLv1 Parametric Diagram of the Effectiveness-NTU Method for a finned tube cross flow air conditioner heat exchanger