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24 Commits
20211112 ... 20220509

Author SHA1 Message Date
Bart Jablonski (yabwon)
75029a488f The BasePlus package [ver. 1.16] 
The BasePlus package [ver. 1.16]

- improvement to: %LDSN(), %LVarNm(), and %LVarNmLab() macros. Big thanks to Richard DeVenezia!

hash: 4CD3926B9842925C86B80B5B47B47BEA1FB9707826B545B9B4D52AE97BC3617E
 2022-05-09 19:00:25 +02:00
Bart Jablonski (yabwon)
642bc5ba72 The BasePlus package [ver. 1.15] 
The **BasePlus** package [ver. 1.15]

- 3 new macros added: `%LDSN()`, `%LVarNm()`, and `%LVarNmLab()`

hash: 0331C673052D5221DA98C5CC93295634D8A0BC62C7D2FEF9D0D85B0B2DEDE4E9
 2022-05-08 19:10:55 +02:00
Bart Jablonski
6d10426474 **SAS Packages Framework**, version 20220420 
**SAS Packages Framework**, version 20220420

- Changes in the `%GeneratePackage()` macro:
- check for driving files existence added,
- local `createPackageContentStatus` macro variable added,
- if `createPackageContentStatus` is not zero an _ERROR _is printed and tests are not executed,

- The `kscanx()` function and `kcountw()` function used in macros of the Framework,

- Doc. updated.

- Packages regenerated with new version of the SAS Packages Framework:
- BasePlus
- SQLinDS
- macroArray
- DFA
- dynMacroArray
- GSM
 2022-04-20 22:48:09 +02:00
Bart Jablonski (yabwon)
7048adb3b6 **SAS Packages Framework**, version 20220420 
**SAS Packages Framework**, version 20220420

- Changes in the `%GeneratePackage()` macro:
  - check for driving files existence added,
  - local `createPackageContentStatus` macro variable added,
  - if `createPackageContentStatus` is not zero an _ERROR _is printed and tests are not executed,

- The `kscanx()` function and `kcountw()` function used in macros of the Framework,

- Doc. updated.

- Packages regenerated with new version of the SAS Packages Framework:
  - BasePlus
  - SQLinDS
  - macroArray
  - DFA
  - dynMacroArray
  - GSM
 2022-04-20 22:35:09 +02:00
Bart Jablonski (yabwon)
5ab1f4c73e The GSM package [ver. 0.20] 
The GSM package [ver. 0.20]

- internal bug fix.

hash: BE9508C8E37706B2EB2FBCA68B64F7DCF63C65E8E24775C92E28FE34E547893D
 2022-04-06 18:12:10 +02:00
Bart Jablonski
4452d9ee7c Update README.md 2022-03-18 18:05:46 +01:00
Bart Jablonski (yabwon)
df04e48656 The GSM package [ver. 0.19] 
The `GSM` package [ver. 0.19]

- The code file parsing modified.
- A `lineEnd=` parameter added.
- The `trim=` parameter deprecated.
- A warning about the `/*%` text changed into a note.
- Documentation updated.

hash: F63B8C602C1DB02F4107D9AF78182D87CD64AEA6521163067B7EB6D5C1B368AF
 2022-03-13 20:43:14 +01:00
Bart Jablonski (yabwon)
76c7793e34 The GSM package [ver. 0.18] 
The GSM package [ver. 0.18]

- a bug fix in file scraping fixed

hash: 8D730316043A6523A3AF2AA15D2820BB75A46E06307F2B8916D30AC102AEE31D
 2022-03-07 16:37:15 +01:00
Bart Jablonski (yabwon)
cc6528bbeb Package macroArray, version 1.0 
Package **macroArray**, version 1.0:

- Update in `%mcHashTable()` macro.
- New macro `%mcDictionary()` emulating dictionaries in macro language.
- Doc. updated.
 2022-02-17 14:20:12 +01:00
Bart Jablonski (yabwon)
2bb633a55b Updates in documentation. 
Updates in documentation:
- Getting_Started_with_SAS_Packages.pdf
- SAS(r) packages - the way to share (a how to)- Paper 4725-2020 - extended.pdf
 2022-01-24 16:38:32 +01:00
Bart Jablonski (yabwon)
10009b33ae **SAS Packages Framework**, version 20220113 
**SAS Packages Framework**, version 20220113

- Bug fixes in the SAS Packages Framework.
- Packages regenerated.
  - BasePlus
  - SQLinDS
  - macroArray
  - DFA
  - dynMacroArray
  - GSM
 2022-01-13 16:59:12 +01:00
Bart Jablonski (yabwon)
68e85eb5ba BasePlus package [ver. 1.14] 
BasePlus package [ver. 1.14]:
- bug fix in the `%zipLibrary()` and the `%unzipLibrary()` macro
 2022-01-11 14:08:03 +01:00
Bart Jablonski (yabwon)
0778a71ada BasePlus package [ver. 1.13] 
BasePlus package [ver. 1.13] :
- bug fix in `%zipLibrary()` macro
 2022-01-11 11:01:12 +01:00
Bart Jablonski (yabwon)
0cf35c15a7 Package MacroArray, version 0.9 
Package MacroArray, version 0.9:

-New macro `%sortMacroArra()` added.
-The doc. updated.
 2021-12-28 18:29:24 +01:00
Bart Jablonski (yabwon)
00c63c4d8a SAS Packages Framework, version 20211216 
**SAS Packages Framework**, version 20211216

- Bug fix in the `%verifyPackage()` macro
 2021-12-16 10:40:29 +01:00
Bart Jablonski (yabwon)
9dedc53c31 **SAS Packages Framework**, version 20211216 
**SAS Packages Framework**, version 20211216

- Bug fix in the `%verifyPackage()` macro
 2021-12-16 10:36:08 +01:00
Bart Jablonski (yabwon)
a7d61f6026 SAS Packages Framework, version 220211216 
**SAS Packages Framework**, version 220211216

- Bug fix in the `%verifyPackage()` macro
 2021-12-16 10:15:25 +01:00
Bart Jablonski
9f92b5f5d4 Update gsm.md 
link to video (in Polish) added
 2021-12-02 08:54:39 +01:00
Bart Jablonski (yabwon)
a95c672693 Package BasePlus, version 1.12 
Package BasePlus, version 1.12:

-BugFix in `%unzipLibrary()` macro.
 2021-11-23 12:50:41 +01:00
Bart Jablonski (yabwon)
9bccc4329a Package BasePlus, version 1.11 
Package BasePlus, version 1.11:

-Macro `%unzipLibrary()` updated.
 2021-11-19 17:07:47 +01:00
yabwon
b76b1ed9eb Package BasePlus, version 1.1 
Package BasePlus, version 1.1:

-New macro `%unzipLibrary()` added.
-Macro `%zipLibrary()` updated.
-The doc. updated.
 2021-11-14 16:12:04 +01:00
yabwon
942879a5b8 Package BasePlus, version 1.0 
Package BasePlus, version 1.0:

-New macro `%zipLibrary()` added.
-The doc. updated.
 2021-11-13 22:51:01 +01:00
yabwon
fe631f9e44 Package GSM, version 0.17 
Package GSM, version 0.17:

-New parameter `secret` added.
-The doc. updated.
 2021-11-12 13:56:17 +01:00
yabwon
3f380b4e64 Package GSM, version 0.16 
Package GSM, version 0.16:

-Check for the `SECURE` keyword added.
-Example in the doc. updated.
 2021-11-12 11:43:12 +01:00
20 changed files with 1211 additions and 197 deletions
Expand all files Collapse all files

2
LICENSE
View File

@@ -1,6 +1,6 @@
MIT License
Copyright (c) 2019 - 2021 Bartosz Jablonski
Copyright (c) 2019 - 2022 Bartosz Jablonski
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

34
README.md
View File

@@ -8,7 +8,7 @@ A **SAS package** is an automatically generated, single, stand alone *zip* file
The *purpose of a package* is to be a simple, and easy to access, code sharing medium, which will allow: on the one hand, to separate the code complex dependencies created by the developer from the user experience with the final product and, on the other hand, reduce developer's and user's unnecessary frustration related to a remote deployment process.
In this repository we are presenting the **SAS Packages Framework** which allows to develop and use SAS packages. **The latest version** of SPF is **`20211111`**.
In this repository we are presenting the **SAS Packages Framework** which allows to develop and use SAS packages. **The latest version** of SPF is **`20220420`**.
To get started with SAS Packages try this [**`Getting Started with SAS Packages`**](https://github.com/yabwon/SAS_PACKAGES/blob/main/SPF/Documentation/Getting_Started_with_SAS_Packages.pdf "Getting Started with SAS Packages") presentation (see the `./SPF/Documentation` directory).
@@ -88,12 +88,12 @@ To create your own package:
---
## Where the SAS Packages Framework is used:
This is a list of locations where the SAS Packages Framework is used. If you want to share that you are using SPF let me know and I'll update the list.
This is a list of locations where the SAS Packages Framework is used:
- Warsaw (Poland)
The List:
- Europe
- Poland
- Warsaw
If you want to share that you are using the SPF let me know and I'll update the list.
If you find the SPF useful **share info** about it or **give it a [star](https://github.com/yabwon/SAS_PACKAGES/stargazers)** so more people will know.
---
@@ -106,7 +106,7 @@ Currently the following packages are available (see the `./packages` directory):
set %SQL(select * from sashelp.class order by age);
run;
```
SHA256 digest for SQLinDS: F2BE3CC68C9A34DD324FD35C8287A4F89737E2E28E806E0DD7FB0EBF60F7C569
SHA256 digest for SQLinDS: 701B69BE71B99792803BCE7718ED486259310FFB92E6D77ED1BC029D9CC67B60
[Documentation for SQLinDS](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/sqlinds.md "Documentation for SQLinDS")
@@ -118,11 +118,11 @@ SHA256 digest for MacroCore: A23C29529F3CE7D0C8BEE9545C5D22D5B5594907547374A5135
- **DFA** (Dynamic Function Arrays)\[0.5\], contains set of macros and FCMP functions which implement: a dynamically allocated array, a stack, a fifo queue, an ordered stack, and a priority queue, run `%helpPackage(DFA,createDFArray)` to find examples.
SHA256 digest for DFA: C32A81304A411C1EB6BA7B76EDB8D70550F3935F35A1506E2B8019A2036FB5FF
SHA256 digest for DFA: 6B3FB0B06B47A7EF1BB004B483B0F39B8F553F7F16D02A7E24CDE388BBA704EA
[Documentation for DFA](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/dfa.md "Documentation for DFA")
- **macroArray**\[0.8\], implementation of an array concept in a macrolanguage, e.g.
- **macroArray**\[1.0\], implementation of an array concept in a macrolanguage, e.g.
```sas
%array(ABC[17] (111:127), macarray=Y);
@@ -141,12 +141,12 @@ SHA256 digest for DFA: C32A81304A411C1EB6BA7B76EDB8D70550F3935F35A1506E2B8019A20
which = 1:H:2
);
```
SHA256 digest for macroArray: 9FE227EF3144431B51063D599148BDD8873509D1B32F1AC2979EC566E1BB1487
SHA256 digest for macroArray: DF63B0E027827A82038F1C8422787A0BC569BA93104BA1778DB6DD088A5D255C
[Documentation for macroArray](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/macroarray.md "Documentation for macroArray")
- **BasePlus**\[0.994\] adds a bunch of functionalities I am missing in BASE SAS, such as:
- **BasePlus**\[1.16\] adds a bunch of functionalities I am missing in BASE SAS, such as:
```sas
call arrMissToRight(myArray);
call arrFillMiss(17, myArray);
@@ -159,22 +159,26 @@ string = catXFn("date9.", "#", myArray);
format x bool.;
%put %getVars(sashelp.class, pattern = ght$, sep = +, varRange = _numeric_);
%rainCloudPlot(sashelp.cars,DriveTrain,Invoice)
%zipLibrary(sashelp,libOut=work)
```
SHA256 digest for BasePlus: B34E352EC52E05B8BBE1816E6104F47677CBFDEAF7CD71B8BF04FDBFA01B0EF0
SHA256 digest for BasePlus: 4CD3926B9842925C86B80B5B47B47BEA1FB9707826B545B9B4D52AE97BC3617E
[Documentation for BasePlus](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/baseplus.md "Documentation for BasePlus")
- **GSM** (Generate Secure Macros)\[0.16\], package allows
- **GSM** (Generate Secure Macros)\[0.20\], package allows
to create secured macros stored in SAS Proc FCMP functions.
The dataset with functions can be shared between different operating systems
and allows to generate macros on site without showing their code.
SHA256 digest for GSM: 96B8E8EE268403D81BBB2740A0F47B835EB480F16B47A9B51FD976DEE3595ED7
SHA256 digest for GSM: E6E2A6214EE7DC6E06AA76916A68B216DD7665184E63CF2C01F487A038E71B09
[Documentation for GSM](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/gsm.md "Documentation for GSM")
- **dynMacroArray**\[0.2\], set of macros (wrappers for a hash table) emulating dynamic array in the data step (macro predecessor of DFA)
SHA256 digest for dynMacroArray: 9FE227EF3144431B51063D599148BDD8873509D1B32F1AC2979EC566E1BB1487
SHA256 digest for dynMacroArray: 7DA9BFDED37C18C4FB5BD7579A81A4B2578EEEF1546D1A3AB5C80DE07C88A615
### ======

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23
SPF/SPFinit.md
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@@ -21,7 +21,7 @@ A **SAS package** is an automatically generated, single, stand alone *zip* file
The *purpose of a package* is to be a simple, and easy to access, code sharing medium, which will allow: on the one hand, to separate the code complex dependencies created by the developer from the user experience with the final product and, on the other hand, reduce developer's and user's unnecessary frustration related to a remote deployment process.
In this repository we are presenting the **SAS Packages Framework** which allows to develop and use SAS packages. The latest version of SPF is **`20211111`**.
In this repository we are presenting the **SAS Packages Framework** which allows to develop and use SAS packages. The latest version of SPF is **`20220420`**.
**To get started with SAS Packages** try this [**`Getting Started with SAS Packages`**](https://github.com/yabwon/SAS_PACKAGES/blob/main/SPF/Documentation/Getting_Started_with_SAS_Packages.pdf "Getting Started with SAS Packages") presentation (see the `./SPF/Documentation` directory).
@@ -39,7 +39,7 @@ After assigning the directory do not change them when using the SPF since it may
## This is short help information for the `installPackage` macro <a name="installpackage"></a>
--------------------------------------------------------------------------------------------
Macro to install SAS packages, version `20211111`
Macro to install SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -108,7 +108,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `helpPackage` macro <a name="helppackage"></a>
-------------------------------------------------------------------------------
Macro to get help about SAS packages, version `20211111`
Macro to get help about SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -178,7 +178,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `loadPackage` macro <a name="loadpackage"></a>
-------------------------------------------------------------------------------
Macro to *load* SAS packages, version `20211111`
Macro to *load* SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -251,7 +251,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `loadPackageS` macro <a name="loadpackages"></a>
-------------------------------------------------------------------------------
Macro wrapper for the loadPackage macro, version `20211111`
Macro wrapper for the loadPackage macro, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -300,7 +300,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `unloadPackage` macro <a name="unloadpackage"></a>
-------------------------------------------------------------------------------
Macro to unload SAS packages, version `20211111`
Macro to unload SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -365,7 +365,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `listPackages` macro <a name="listpackages"></a>
-----------------------------------------------------------------------------------------
Macro to list available SAS packages, version `20211111`
Macro to list available SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -406,7 +406,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `verifyPackage` macro <a name="verifypackage"></a>
-------------------------------------------------------------------------------
Macro to verify SAS package with it hash digest, version `20211111`
Macro to verify SAS package with it hash digest, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -414,6 +414,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
The `%verifyPackage()` macro generate package SHA256 hash
and compares it with the one provided by the user.
Works with `zip` packages only.
*Minimum SAS version required for the process is 9.4M6.*
@@ -459,7 +460,7 @@ filename packages "C:/SAS_PACKAGES"; %* set-up a directory for packages;
## This is short help information for the `previewPackage` macro <a name="previewpackage"></a>
-------------------------------------------------------------------------------
Macro to get previwe of a SAS packages, version `20211111`
Macro to get previwe of a SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -526,7 +527,7 @@ filename packages "C:/SAS_PACKAGES"; %* setup a directory for packages;
## This is short help information for the `generatePackage` macro <a name="generatepackage"></a>
-------------------------------------------------------------------------------
Macro to generate SAS packages, version `20211111`
Macro to generate SAS packages, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -702,7 +703,7 @@ All files have to have `.sas` extension. Other files are ignored.
## This is short help information for the `extendPackagesFileref` macro <a name="extendpackagesfileref"></a>
-----------------------------------------------------------------------------------------
Macro to list directories pointed by 'packages' fileref, version `20211111`
Macro to list directories pointed by 'packages' fileref, version `20220420`
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating

200
SPF/SPFinit.sas
View File

@@ -12,7 +12,7 @@
/* */
/* Here is the official version: */
/*
Copyright (c) 2019 - 2021 Bartosz Jablonski (yabwon@gmail.com)
Copyright (c) 2019 - 2022 Bartosz Jablonski (yabwon@gmail.com)
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
@@ -42,7 +42,7 @@
- to unload, or
- to generate SAS packages.
Version 20211111.
Version 20220420.
See examples below.
A SAS package is a zip file containing a group of files
@@ -81,7 +81,7 @@
*/
)/secure
/*** HELP END ***/
des = 'Macro to load SAS package, version 20211111. Run %loadPackage() for help info.'
des = 'Macro to load SAS package, version 20220420. Run %loadPackage() for help info.'
;
%if (%superq(packageName) = ) OR (%qupcase(&packageName.) = HELP) %then
%do;
@@ -96,7 +96,7 @@ des = 'Macro to load SAS package, version 20211111. Run %loadPackage() for help
%put ### This is short help information for the `loadPackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to *load* SAS packages, version `20211111` #;
%put # Macro to *load* SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -190,8 +190,9 @@ des = 'Macro to load SAS package, version 20211111. Run %loadPackage() for help
exists = 0;
length packages $ 32767 p $ 4096;
packages = resolve(symget("path"));
do i = 1 to countw(packages, "()", "QS");
p = dequote(scan(packages, i, "()", "QS"));
if char(packages,1) ^= "(" then packages = quote(strip(packages)); /* for paths with spaces */
do i = 1 to kcountw(packages, "()", "QS");
p = dequote(kscanx(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).&zip."));
if exists then leave;
end;
@@ -270,7 +271,7 @@ des = 'Macro to load SAS package, version 20211111. Run %loadPackage() for help
*/
)/secure
/*** HELP END ***/
des = 'Macro to unload SAS package, version 20211111. Run %unloadPackage() for help info.'
des = 'Macro to unload SAS package, version 20220420. Run %unloadPackage() for help info.'
;
%if (%superq(packageName) = ) OR (%qupcase(&packageName.) = HELP) %then
%do;
@@ -285,7 +286,7 @@ des = 'Macro to unload SAS package, version 20211111. Run %unloadPackage() for h
%put ### This is short help information for the `unloadPackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to unload SAS packages, version `20211111` #;
%put # Macro to unload SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -370,8 +371,9 @@ des = 'Macro to unload SAS package, version 20211111. Run %unloadPackage() for h
exists = 0;
length packages $ 32767 p $ 4096;
packages = resolve(symget("path"));
do i = 1 to countw(packages, "()", "QS");
p = dequote(scan(packages, i, "()", "QS"));
if char(packages,1) ^= "(" then packages = quote(strip(packages)); /* for paths with spaces */
do i = 1 to kcountw(packages, "()", "QS");
p = dequote(kscanx(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).&zip."));
if exists then leave;
end;
@@ -428,7 +430,7 @@ des = 'Macro to unload SAS package, version 20211111. Run %unloadPackage() for h
*/
)/secure
/*** HELP END ***/
des = 'Macro to get help about SAS package, version 20211111. Run %helpPackage() for help info.'
des = 'Macro to get help about SAS package, version 20220420. Run %helpPackage() for help info.'
;
%if (%superq(packageName) = ) OR (%qupcase(&packageName.) = HELP) %then
%do;
@@ -443,7 +445,7 @@ des = 'Macro to get help about SAS package, version 20211111. Run %helpPackage()
%put ### This is short help information for the `helpPackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to get help about SAS packages, version `20211111` #;
%put # Macro to get help about SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -533,8 +535,9 @@ des = 'Macro to get help about SAS package, version 20211111. Run %helpPackage()
exists = 0;
length packages $ 32767 p $ 4096;
packages = resolve(symget("path"));
do i = 1 to countw(packages, "()", "QS");
p = dequote(scan(packages, i, "()", "QS"));
if char(packages,1) ^= "(" then packages = quote(strip(packages)); /* for paths with spaces */
do i = 1 to kcountw(packages, "()", "QS");
p = dequote(kscanx(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).&zip."));
if exists then leave;
end;
@@ -572,7 +575,7 @@ TODO:
- add MD5(&packageName.) value hash instead "package" word in filenames [DONE]
*/
/* Macros to install SAS packages, version 20211111 */
/* Macros to install SAS packages, version 20220420 */
/* A SAS package is a zip file containing a group of files
with SAS code (macros, functions, data steps generating
data, etc.) wrapped up together and %INCLUDEed by
@@ -591,7 +594,7 @@ TODO:
/secure
minoperator
/*** HELP END ***/
des = 'Macro to install SAS package, version 20211111. Run %%installPackage() for help info.'
des = 'Macro to install SAS package, version 20220420. Run %%installPackage() for help info.'
;
%if (%superq(packagesNames) = ) OR (%qupcase(&packagesNames.) = HELP) %then
%do;
@@ -606,7 +609,7 @@ des = 'Macro to install SAS package, version 20211111. Run %%installPackage() fo
%put ### This is short help information for the `installPackage` macro #;
%put #--------------------------------------------------------------------------------------------#;;
%put # #;
%put # Macro to install SAS packages, version `20211111` #;
%put # Macro to install SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -699,7 +702,7 @@ des = 'Macro to install SAS package, version 20211111. Run %%installPackage() fo
/* in case the 'packages' fileref is multi-directory the first directory will be selected as a destination */
data _null_;
/* get the firstPackagesPath */
call symputX("firstPackagesPath", dequote(scan(pathname("packages"), 1, "()", "QS")) ,"L");
call symputX("firstPackagesPath", dequote(kscanx(pathname("packages"), 1, "()", "QS")) ,"L");
run;
%if %superq(sourcePath)= %then
@@ -920,7 +923,7 @@ des = 'Macro to install SAS package, version 20211111. Run %%installPackage() fo
/* Macro to list SAS packages in packages folder.
Version 20211111
Version 20220420
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -939,8 +942,8 @@ des = 'Macro to install SAS package, version 20211111. Run %%installPackage() fo
/*** HELP END ***/
%macro listPackages()/PARMBUFF
des = 'Macro to list SAS packages from `packages` fileref, type %listPackages(HELP) for help, version 20211111.'
%macro listPackages()/secure PARMBUFF
des = 'Macro to list SAS packages from `packages` fileref, type %listPackages(HELP) for help, version 20220420.'
;
%if %QUPCASE(&SYSPBUFF.) = %str(%(HELP%)) %then
%do;
@@ -955,7 +958,7 @@ des = 'Macro to list SAS packages from `packages` fileref, type %listPackages(HE
%put ### This is short help information for the `listPackages` macro #;
%put #-----------------------------------------------------------------------------------------#;;
%put # #;
%put # Macro to list available SAS packages, version `20211111` #;
%put # Macro to list available SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -1018,8 +1021,10 @@ data _null_;
stop;
end;
do k = 1 to countw(baseAll, "()", "QS"); drop k;
base = dequote(scan(baseAll, k, "()", "QS"));
if char(baseAll,1) ^= "(" then baseAll = quote(strip(baseAll)); /* for paths with spaces */
do k = 1 to kcountw(baseAll, "()", "QS"); drop k;
base = dequote(kscanx(baseAll, k, "()", "QS"));
length folder $ 64 file $ 1024 folderRef fileRef $ 8;
@@ -1046,7 +1051,7 @@ data _null_;
fileId = dopen(fileRef);
EOF = 0;
if fileId = 0 and lowcase(scan(folder, -1, ".")) = 'zip' then
if fileId = 0 and lowcase(kscanx(folder, -1, ".")) = 'zip' then
do;
file = catx('/',base, folder);
@@ -1070,9 +1075,9 @@ data _null_;
do until(EOF);
input;
if strip(upcase(scan(_INFILE_,1,":"))) in ("PACKAGE" "TITLE" "VERSION" "AUTHOR" "MAINTAINER" "LICENSE") then
if strip(upcase(kscanx(_INFILE_,1,":"))) in ("PACKAGE" "TITLE" "VERSION" "AUTHOR" "MAINTAINER" "LICENSE") then
do;
_INFILE_ = scan(_INFILE_,1,":") !! ":" !! scan(_INFILE_,2,":");
_INFILE_ = kscanx(_INFILE_,1,":") !! ":" !! kscanx(_INFILE_,2,":");
putlog " * " _INFILE_;
end;
if strip(upcase(strip(_INFILE_))) =: "DESCRIPTION START:" then leave;
@@ -1103,7 +1108,7 @@ options ls = &ls_tmp. ps = &ps_tmp. &notes_tmp. &source_tmp.;
/* Macro to generate SAS packages.
Version 20211111
Version 20220420
A SAS package is a zip file containing a group
of SAS codes (macros, functions, data steps generating
@@ -1136,7 +1141,7 @@ options ls = &ls_tmp. ps = &ps_tmp. &notes_tmp. &source_tmp.;
if set to DEF then the !SASROOT/sasv9.cfg is used */
)/secure minoperator
/*** HELP END ***/
des = 'Macro to generate SAS packages, version 20211111. Run %generatePackage() for help info.'
des = 'Macro to generate SAS packages, version 20220420. Run %generatePackage() for help info.'
;
%if (%superq(filesLocation) = ) OR (%qupcase(&filesLocation.) = HELP) %then
%do;
@@ -1151,7 +1156,7 @@ des = 'Macro to generate SAS packages, version 20211111. Run %generatePackage()
%put ### This is short help information for the `generatePackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to generate SAS packages, version `20211111` #;
%put # Macro to generate SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -1232,16 +1237,16 @@ filename &_LIC_. "&filesLocation./license.sas" lrecl = 1024;
infile &_DESCR_.;
input;
select( strip(upcase(scan(_INFILE_, 1, ":"))) );
when("PACKAGE") call symputX("packageName", scan(_INFILE_, 2, ":"),"L");
when("VERSION") call symputX("packageVersion", scan(_INFILE_, 2, ":"),"L");
when("AUTHOR") call symputX("packageAuthor", scan(_INFILE_, 2, ":"),"L");
when("MAINTAINER") call symputX("packageMaintainer", scan(_INFILE_, 2, ":"),"L");
when("TITLE") call symputX("packageTitle", scan(_INFILE_, 2, ":"),"L");
when("ENCODING") call symputX("packageEncoding", scan(_INFILE_, 2, ":"),"L");
when("LICENSE") call symputX("packageLicense", scan(_INFILE_, 2, ":"),"L");
when("REQUIRED") call symputX("packageRequired", scan(_INFILE_, 2, ":"),"L");
when("REQPACKAGES") call symputX("packageReqPackages", scan(_INFILE_, 2, ":"),"L");
select( strip(upcase(kscanx(_INFILE_, 1, ":"))) );
when("PACKAGE") call symputX("packageName", kscanx(_INFILE_, 2, ":"),"L");
when("VERSION") call symputX("packageVersion", kscanx(_INFILE_, 2, ":"),"L");
when("AUTHOR") call symputX("packageAuthor", kscanx(_INFILE_, 2, ":"),"L");
when("MAINTAINER") call symputX("packageMaintainer", kscanx(_INFILE_, 2, ":"),"L");
when("TITLE") call symputX("packageTitle", kscanx(_INFILE_, 2, ":"),"L");
when("ENCODING") call symputX("packageEncoding", kscanx(_INFILE_, 2, ":"),"L");
when("LICENSE") call symputX("packageLicense", kscanx(_INFILE_, 2, ":"),"L");
when("REQUIRED") call symputX("packageRequired", kscanx(_INFILE_, 2, ":"),"L");
when("REQPACKAGES") call symputX("packageReqPackages", kscanx(_INFILE_, 2, ":"),"L");
/* stop at the beginning of description */
when("DESCRIPTION START") stop;
@@ -1508,8 +1513,8 @@ data &filesWithCodes.;
put;
_abort_ + 1;
end;
order = scan(folder, 1, "_");
type = scan(folder,-1, "_");
order = kscanx(folder, 1, "_");
type = kscanx(folder,-1, "_");
fileRef = "_%sysfunc(datetime(), hex6.)1";
rc = filename(fileRef, catx("/", base, folder));
@@ -1837,9 +1842,9 @@ data _null_;
put ' LP.defineData("vers"); ';
put ' LP.defineDone(); ';
put ' do _N_ = 1 to countw(SYSloadedPackages); ';
put ' req = scan(SYSloadedPackages, _N_, " "); ';
put ' name = lowcase(strip(scan(req, 1, "("))); ';
put ' vers = input(compress(scan(req,-1, "("), ".", "KD"),best32.); ';
put ' req = kscanx(SYSloadedPackages, _N_, " "); ';
put ' name = lowcase(strip(kscanx(req, 1, "("))); ';
put ' vers = input(compress(kscanx(req,-1, "("), ".", "KD"),best32.); ';
put ' _RC_ = LP.add(); ';
put ' end; ';
/* check if elements of the framework are available */
@@ -1848,8 +1853,8 @@ data _null_;
put ' do req = ' / packageReqPackages / ' ; ';
/* put ' req = compress(req, "(.)", "KDF"); ';*/
put ' name = lowcase(strip(scan(req, 1, "("))); ';
put ' verR = input(compress(scan(req,-1, "("), ".", "KD"),best32.); vers = .; ';
put ' name = lowcase(strip(kscanx(req, 1, "("))); ';
put ' verR = input(compress(kscanx(req,-1, "("), ".", "KD"),best32.); vers = .; ';
put ' LP_find = LP.find(); ';
put ' if (LP_find ne 0) or (LP_find = 0 and . < vers < verR) then ';
put ' do; ';
@@ -1879,17 +1884,17 @@ data _null_;
put ' LP.defineData("vers"); ';
put ' LP.defineDone(); ';
put ' do _N_ = 1 to countw(SYSloadedPackages); ';
put ' req = scan(SYSloadedPackages, _N_, " "); ';
put ' name = lowcase(strip(scan(req, 1, "("))); ';
put ' vers = input(compress(scan(req,-1, "("), ".", "KD"), best32.); ';
put ' req = kscanx(SYSloadedPackages, _N_, " "); ';
put ' name = lowcase(strip(kscanx(req, 1, "("))); ';
put ' vers = input(compress(kscanx(req,-1, "("), ".", "KD"), best32.); ';
put ' _RC_ = LP.add(); ';
put ' end; ';
put ' missingPackagr = 0; ';
put ' do req = ' / packageReqPackages / ' ; ';
/* put ' req = compress(req, "(.)", "KDF"); ';*/
put ' name = lowcase(strip(scan(req, 1, "("))); ';
put ' verR = input(compress(scan(req,-1, "("), ".", "KD"),best32.); vers = .; ';
put ' name = lowcase(strip(kscanx(req, 1, "("))); ';
put ' verR = input(compress(kscanx(req,-1, "("), ".", "KD"),best32.); vers = .; ';
put ' LP_find = LP.find(); ';
put ' if (LP_find ne 0) or (LP_find = 0 and . < vers < verR) then ';
put ' do; ';
@@ -1905,8 +1910,8 @@ data _null_;
put ' put "ERROR: No package loaded!"; ';
put ' call symputX("packageRequiredErrors", 1, "L"); ';
put ' do req = ' / packageReqPackages / ' ; ';
put ' name = lowcase(strip(scan(req, 1, "("))); ';
put ' vers = input(compress(scan(req,-1, "("), ".", "KD"), best32.); ';
put ' name = lowcase(strip(kscanx(req, 1, "("))); ';
put ' vers = input(compress(kscanx(req,-1, "("), ".", "KD"), best32.); ';
put ' put "ERROR: SAS package " req "is missing! Download/install it and" ; ';
put ' put ''ERROR- use %loadPackage('' name ", requiredVersion = " vers ") to load it." ; ';
put ' end ; ';
@@ -2050,7 +2055,7 @@ data _null_;
put ' end ; ';
put " else ";
put ' do; ';
put " stringPCKG = scan(substr(SYSloadedPackages, indexPCKG+1), 1, '#'); ";
put " stringPCKG = kscanx(substr(SYSloadedPackages, indexPCKG+1), 1, '#'); ";
put ' SYSloadedPackages = compbl(tranwrd(SYSloadedPackages, strip(stringPCKG), "#")); ';
put " SYSloadedPackages = catx('#', SYSloadedPackages, '&packageName.(&packageVersion.)'); ";
put ' SYSloadedPackages = compbl(translate(SYSloadedPackages, " ", "#")); ';
@@ -2329,7 +2334,7 @@ data _null_;
put ' length req name $ 64; ';
put ' put "NOTE-" / "NOTE: To unload additional required SAS packages execute: " / "NOTE-"; ';
put ' do req = ' / packageReqPackages / ' ; ';
put ' name = strip(scan(req, 1, "(")); ';
put ' name = strip(kscanx(req, 1, "(")); ';
put ' put '' %unloadPackage( '' name ")" ; ';
put ' end ; ';
put ' put "NOTE-" / "NOTE-"; stop; ';
@@ -2550,7 +2555,7 @@ data _null_;
put ' end ; ';
%end;
put 'put "***"; put "* SAS package generated by generatePackage, version 20211111 *"; put "***";';
put 'put "***"; put "* SAS package generated by generatePackage, version 20220420 *"; put "***";';
put 'run; ' /;
@@ -2665,11 +2670,14 @@ options notes source;
%put NOTE-# Creating package content. #;
%put NOTE-######################################################;
options nonotes nosource;
%local createPackageContentStatus;
%let createPackageContentStatus = 0;
data _null_;
/* break if no data */
if NOBS = 0 then stop;
set &filesWithCodes. nobs = NOBS;
set &filesWithCodes. nobs = NOBS end = EOF;
if (upcase(type) not in: ('TEST')); /* test files are not to be copied */
call execute(cat ('filename _SPFIN_ "', catx('/', base, folder, file), '";'));
@@ -2687,7 +2695,10 @@ data _null_;
call execute(' end ;');
call execute(' if ex then put "File " pathname "copied into the package with return code: " rc;');
call execute(' else put "ERROR: File " pathname "NOT copied into the package!" ;');
call execute(' else do;');
call execute(' put "ERROR: File " pathname "NOT copied into the package!" ;');
call execute(' call symputX("createPackageContentStatus",1,"L");');
call execute(' end;');
call execute('run;');
/* test file content for help tags */
@@ -2703,6 +2714,7 @@ data _null_;
call execute(' do; ');
call execute(' put "ERROR: Unmatched or nested HELP tags in ' !! catx('/', folder, file) !! '! Line: " _N_; ');
call execute(' put "ERROR- Aborting! "; ');
call execute(' call symputX("createPackageContentStatus",1,"L"); ');
call execute(' abort; ');
call execute(' end; ');
call execute(' if (EOF and test=.) then put "WARNING: No HELP tags in the file ' !! catx('/', folder, file) !! '." ; ');
@@ -2710,7 +2722,37 @@ data _null_;
call execute('filename _SPFIN_ clear;');
call execute('filename _SPFOUT_ clear;');
if EOF then
do drivFile =
"packagemetadata",
"iceloadpackage ",
"description ",
"lazydata ",
"license ",
"preview ",
"unload ",
"load ",
"help "
;
/* test if "driving" files exist */
call execute(cats("filename _SPFOUT_ ZIP '", base, "/%lowcase(&packageName.).zip' member='", drivFile, ".sas';") );
call execute('data _null_;');
call execute(' pathname = pathname("_SPFIN_");');
call execute(' ex = fexist("_SPFOUT_");');
call execute(' if not ex then do;');
call execute(' put "ERROR: File ' !! strip(drivFile) !! '.sas DOES NOT EXIST in the package!" ;');
call execute(' call symputX("createPackageContentStatus",1,"L"); ');
call execute(' end;');
call execute('run;');
call execute('filename _SPFOUT_ clear;');
stop;
end;
run;
options notes source;
%put NOTE-######################################################;
options &notesSourceOptions.;
@@ -2744,7 +2786,13 @@ filename &zipReferrence. clear;
%end;
/*+++++++++++++++++++++++*/
/* verify if there were errors while package content creation */
%if %bquote(&createPackageContentStatus.) ne 0 %then
%do;
%put ERROR: ** ERRORS IN PACKAGE CONTENT CREATION! **;
%put ERROR- ** NO TESTING WILL BE EXECUTED. **;
%GOTO NOTESTING;
%end;
/* tests of package are executed by default */
%if %bquote(&testPackage.) ne Y %then
@@ -2756,7 +2804,7 @@ filename &zipReferrence. clear;
/* in case the packages macrovariable is multi-directory the first directory will be selected */
data _null_;
call symputX("packages", dequote(scan(resolve(symget("packages")), 1, "()", "QS")) ,"L");
call symputX("packages", dequote(kscanx(resolve(symget("packages")), 1, "()", "QS")) ,"L");
run;
/* check if systask is available */
@@ -2969,7 +3017,7 @@ data _null_;
put '%previewPackage'"(&packageName.,*,";
put " path=&filesLocation.)" /;
/*check if package elements realy exists*/
/*check if package elements realy exist*/
EOF = 0;
do until(EOF);
set &filesWithCodes. end = EOF;
@@ -3327,7 +3375,7 @@ TODO: (in Polish)
*/
)/secure
/*** HELP END ***/
des = 'Macro to load multiple SAS packages at one run, version 20211111. Run %loadPackages() for help info.'
des = 'Macro to load multiple SAS packages at one run, version 20220420. Run %loadPackages() for help info.'
parmbuff
;
%if (%superq(packagesNames) = ) OR (%qupcase(&packagesNames.) = HELP) %then
@@ -3343,7 +3391,7 @@ parmbuff
%put ### This is short help information for the `loadPackageS` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro wrapper for the loadPackage macro, version `20211111` #;
%put # Macro wrapper for the loadPackage macro, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -3429,7 +3477,7 @@ parmbuff
hashing_file() function, SAS 9.4M6 */
)/secure
/*** HELP END ***/
des = 'Macro to verify SAS package with the hash digest, version 20211111. Run %verifyPackage() for help info.'
des = 'Macro to verify SAS package with the hash digest, version 20220420. Run %verifyPackage() for help info.'
;
%if (%superq(packageName) = ) OR (%qupcase(&packageName.) = HELP) %then
%do;
@@ -3444,7 +3492,7 @@ des = 'Macro to verify SAS package with the hash digest, version 20211111. Run %
%put ### This is short help information for the `verifyPackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to verify SAS package with it hash digest, version `20211111` #;
%put # Macro to verify SAS package with it hash digest, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -3519,9 +3567,10 @@ des = 'Macro to verify SAS package with the hash digest, version 20211111. Run %
exists = 0;
length packages $ 32767 p $ 4096;
packages = resolve(symget("path"));
do i = 1 to countw(packages, "()", "QS");
p = dequote(scan(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).&zip."));
if char(packages,1) ^= "(" then packages = quote(strip(packages)); /* for paths with spaces */
do i = 1 to kcountw(packages, "()", "QS");
p = dequote(kscanx(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).zip"));
if exists then leave;
end;
if exists then call symputx("path", p, "L");
@@ -3613,7 +3662,7 @@ des = 'Macro to verify SAS package with the hash digest, version 20211111. Run %
*/
)/secure
/*** HELP END ***/
des = 'Macro to preview content of a SAS package, version 20211111. Run %previewPackage() for help info.'
des = 'Macro to preview content of a SAS package, version 20220420. Run %previewPackage() for help info.'
;
%if (%superq(packageName) = ) OR (%qupcase(&packageName.) = HELP) %then
%do;
@@ -3628,7 +3677,7 @@ des = 'Macro to preview content of a SAS package, version 20211111. Run %preview
%put ### This is short help information for the `previewPackage` macro #;
%put #-------------------------------------------------------------------------------#;
%put # #;
%put # Macro to get previwe of a SAS packages, version `20211111` #;
%put # Macro to get previwe of a SAS packages, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;
@@ -3713,8 +3762,9 @@ des = 'Macro to preview content of a SAS package, version 20211111. Run %preview
exists = 0;
length packages $ 32767 p $ 4096;
packages = resolve(symget("path"));
do i = 1 to countw(packages, "()", "QS");
p = dequote(scan(packages, i, "()", "QS"));
if char(packages,1) ^= "(" then packages = quote(strip(packages)); /* for paths with spaces */
do i = 1 to kcountw(packages, "()", "QS");
p = dequote(kscanx(packages, i, "()", "QS"));
exists + fileexist(catx("/", p, "%lowcase(&packageName.).&zip."));
if exists then leave;
end;
@@ -3754,7 +3804,7 @@ des = 'Macro to preview content of a SAS package, version 20211111. Run %preview
when empty the "packages" value is used */
)/secure
/*** HELP END ***/
des = 'Macro to list directories pointed by "packages" fileref, version 20211111. Run %extendPackagesFileref(HELP) for help info.'
des = 'Macro to list directories pointed by "packages" fileref, version 20220420. Run %extendPackagesFileref(HELP) for help info.'
;
%if %QUPCASE(&packages.) = HELP %then
@@ -3770,7 +3820,7 @@ des = 'Macro to list directories pointed by "packages" fileref, version 20211111
%put ### This is short help information for the `extendPackagesFileref` macro #;
%put #-----------------------------------------------------------------------------------------#;;
%put # #;
%put # Macro to list directories pointed by 'packages' fileref, version `20211111` #;
%put # Macro to list directories pointed by 'packages' fileref, version `20220420` #;
%put # #;
%put # A SAS package is a zip file containing a group #;
%put # of SAS codes (macros, functions, data steps generating #;

2
SPF/license.sas
View File

@@ -1,4 +1,4 @@
Copyright (c) 2019 - 2021 Bartosz Jablonski
Copyright (c) 2019 - 2022 Bartosz Jablonski
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

22
packages/README.md
View File

@@ -18,7 +18,7 @@ data class;
WH = weight + height;
run;
```
SHA256 digest for SQLinDS: F2BE3CC68C9A34DD324FD35C8287A4F89737E2E28E806E0DD7FB0EBF60F7C569
SHA256 digest for SQLinDS: 701B69BE71B99792803BCE7718ED486259310FFB92E6D77ED1BC029D9CC67B60
[Documentation for SQLinDS](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/sqlinds.md "Documentation for SQLinDS")
@@ -59,13 +59,13 @@ data _null_;
end;
run;
```
SHA256 digest for DFA: C32A81304A411C1EB6BA7B76EDB8D70550F3935F35A1506E2B8019A2036FB5FF
SHA256 digest for DFA: 6B3FB0B06B47A7EF1BB004B483B0F39B8F553F7F16D02A7E24CDE388BBA704EA
[Documentation for DFA](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/dfa.md "Documentation for DFA")
---
- **macroArray**\[0.8\], implementation of an array concept in a macro language, e.g.
- **macroArray**\[1.0\], implementation of an array concept in a macro language, e.g.
```sas
%array(ABC[17] (111:127), macarray=Y);
@@ -84,13 +84,13 @@ SHA256 digest for DFA: C32A81304A411C1EB6BA7B76EDB8D70550F3935F35A1506E2B8019A20
which = 1:H:2
);
```
SHA256 digest for macroArray: 70032D27081A0EE15BC82B8F14D2A61700FA7C1F0D88B4DB516AB433CD06C4D3
SHA256 digest for macroArray: DF63B0E027827A82038F1C8422787A0BC569BA93104BA1778DB6DD088A5D255C
[Documentation for macroArray](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/macroarray.md "Documentation for macroArray")
---
- **BasePlus**\[0.994\] adds a bunch of functionalities I am missing in BASE SAS, such as:
- **BasePlus**\[1.16\] adds a bunch of functionalities I am missing in BASE SAS, such as:
```sas
call arrMissToRight(myArray);
call arrFillMiss(17, myArray);
@@ -103,19 +103,23 @@ string = catXFn("date9.", "#", myArray);
format x bool.;
%put %getVars(sashelp.class, pattern = ght$, sep = +, varRange = _numeric_);
%rainCloudPlot(sashelp.cars,DriveTrain,Invoice)
%zipLibrary(sashelp,libOut=work)
```
SHA256 digest for BasePlus: B34E352EC52E05B8BBE1816E6104F47677CBFDEAF7CD71B8BF04FDBFA01B0EF0
SHA256 digest for BasePlus: 4CD3926B9842925C86B80B5B47B47BEA1FB9707826B545B9B4D52AE97BC3617E
[Documentation for BasePlus](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/baseplus.md "Documentation for BasePlus")
---
- **GSM** (Generate Secure Macros)\[0.15\], package allows
- **GSM** (Generate Secure Macros)\[0.20\], package allows
to create secured macros stored in SAS Proc FCMP functions.
The dataset with functions can be shared between different operating systems
and allows to generate macros on site without showing their code.
SHA256 digest for GSM: 96B8E8EE268403D81BBB2740A0F47B835EB480F16B47A9B51FD976DEE3595ED7
SHA256 digest for GSM: E6E2A6214EE7DC6E06AA76916A68B216DD7665184E63CF2C01F487A038E71B09
[Documentation for GSM](https://github.com/yabwon/SAS_PACKAGES/blob/main/packages/gsm.md "Documentation for GSM")
@@ -123,6 +127,6 @@ SHA256 digest for GSM: 96B8E8EE268403D81BBB2740A0F47B835EB480F16B47A9B51FD976DEE
- **dynMacroArray**\[0.2\], set of macros (wrappers for a hash table) emulating dynamic array in the data step (macro predecessor of DFA)
SHA256 digest for dynMacroArray: 9FE227EF3144431B51063D599148BDD8873509D1B32F1AC2979EC566E1BB1487
SHA256 digest for dynMacroArray: 7DA9BFDED37C18C4FB5BD7579A81A4B2578EEEF1546D1A3AB5C80DE07C88A615
---

54
packages/SHA256_for_packages.txt
View File

@@ -1,5 +1,57 @@
/* 20220509 */
BasePlus:4CD3926B9842925C86B80B5B47B47BEA1FB9707826B545B9B4D52AE97BC3617E
/* 20220508 */
BasePlus: 0331C673052D5221DA98C5CC93295634D8A0BC62C7D2FEF9D0D85B0B2DEDE4E9
/* 20220420 */
BasePlus: 12A9A2155D9C6F969DF0A66E3A18D0938B8194FA3AA9D70EDDE1CB71DEF9691E
DFA: 6B3FB0B06B47A7EF1BB004B483B0F39B8F553F7F16D02A7E24CDE388BBA704EA
dynMacroArray: 7DA9BFDED37C18C4FB5BD7579A81A4B2578EEEF1546D1A3AB5C80DE07C88A615
GSM: E6E2A6214EE7DC6E06AA76916A68B216DD7665184E63CF2C01F487A038E71B09
macroArray: DF63B0E027827A82038F1C8422787A0BC569BA93104BA1778DB6DD088A5D255C
SQLinDS: 701B69BE71B99792803BCE7718ED486259310FFB92E6D77ED1BC029D9CC67B60
/* 20220406 */
GSM: BE9508C8E37706B2EB2FBCA68B64F7DCF63C65E8E24775C92E28FE34E547893D
/* 20220307 */
GSM: F63B8C602C1DB02F4107D9AF78182D87CD64AEA6521163067B7EB6D5C1B368AF
/* 20220307 */
GSM: 8D730316043A6523A3AF2AA15D2820BB75A46E06307F2B8916D30AC102AEE31D
/* 20220217 */
macroArray: DAEB87654D99965BF2B7A6AB14626B3E617D0ABF526E77725DF89A1AB4C812C2
/* 20220113 */
BasePlus: A60A300E083628C65DD6899E7EF95588916F8F66B6A25B32B3228987B6F74857
DFA: 5F89AC6AE628EB27D87FF6A9D72A515FFA3FF6694D04DE0D9811BFFB81444ABB
dynMacroArray: 766DF3F330B87E99FAC32A00A569D9A45DA1157F591DE34DD0892CD864779409
GSM: 3B70D8C31F02CB2B6AC47CC1DB3EC9E462796226CBFF519936AF5EEDB0C46B8F
macroArray: 833D747526F4CE83FFD73F9EB3A2A9065401B498DFEC79045A28A42E0E57A8CA
SQLinDS: DCAB62267B52822F416BA7E6713A696D843E8092A4E3A37DF06CBE1E1D5DAD11
/* 20220111 */
BasePlus: 1B6AA5A38846C30B3DD3E9FED86CB4ECACF25FBAF3011CBE108ED996C3FBB823
/* 20211228 */
macroArray: 95164E71AF0B86AC816F13821F6468F611C6E5BB9036AC10459CDEB10487B08E
/* 20211123 */
BasePlus: 105F0CEB95C49102BDB085DF67C785301F623CB337D466F07B5E051626E4AE61
/* 20211119 */
BasePlus: 55AC07F7322F504EF22C5D00D46587744CD373E70A83932F837EA8C6ECB6D987
/* 20211114 */
BasePlus: 319109732B5CBD99ADDA6D48EA26DA5236622F9C5D332F94EF282F1C9DCE73F9
/* 20211113 */
BasePlus: 4EDB786B9D6F6D6C5741B5CAC1CB169DD10D8196600B2CB385DDE479A54F0FA3
/* 20211112 */
GSM: 96B8E8EE268403D81BBB2740A0F47B835EB480F16B47A9B51FD976DEE3595ED7
GSM: F6EE77A3C042E1E083E970BE255D126B52A75205DC1FB9A4A7337D0A89EEC7EB
/* 20211111 */
BasePlus: B34E352EC52E05B8BBE1816E6104F47677CBFDEAF7CD71B8BF04FDBFA01B0EF0

608
packages/baseplus.md
View File

@@ -43,13 +43,19 @@
* [`%QzipEvalf()` macro](#qzipevalf-macro)
* [`%functionExists()` macro](#functionexists-macro)
* [`%RainCloudPlot()` macro](#raincloudplot-macro)
* [`%zipLibrary()` macro](#ziplibrary-macro)
* [`%unzipLibrary()` macro](#unziplibrary-macro)
* [`%LDSN()` macro](#ldsn-macro)
* [`%LVarNm()` macro](#lvarnm-macro)
* [`%LVarNmLab()` macro](#lvarnmlab-macro)
* [License](#license)
---
# The BasePlus package [ver. 0.994] <a name="baseplus-package"></a> ###############################################
# The BasePlus package [ver. 1.16] <a name="baseplus-package"></a> ###############################################
The **BasePlus** package implements useful
functions and functionalities I miss in the BASE SAS.
@@ -65,7 +71,10 @@ Kudos to all who inspired me to generate this package:
*Paul Dorfman*,
*Richard DeVenezia*,
*Christian Graffeuille*,
*Allan Bowe*.
*Allan Bowe*,
*Anamaria Calai*,
*Michal Ludwicki*,
*Quentin McMullen*.
---
@@ -168,7 +177,7 @@ Kudos to all who inspired me to generate this package:
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**Example 7**: Deduplicate values from a space separated list.
**Example 7**: De-duplicate values from a space separated list.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%let list = 4 5 6 1 2 3 1 2 3 4 5 6;
%put *%dedupListS(&list.)*;
@@ -185,61 +194,85 @@ Kudos to all who inspired me to generate this package:
%rainCloudPlot(sashelp.cars,DriveTrain,Invoice)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
![Rain Cloud Plot](./baseplus_RainCloudPlot_Ex0_9.png)
**Example 10**: Zip SAS library.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(sashelp, libOut=work)
%unzipLibrary(%sysfunc(pathname(work)), zip=sashelp, mode=S, clean=1)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**Example 11**: Long dataset names.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
data %LDSN( work. peanut butter & jelly time with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s (drop = sex rename=(name=first_name) where = (age in (12,13,14))) );
set sashelp.class;
run;
proc print data = %LDSN( work. peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s );
run;
data MyNextDataset;
set %LDSN( work. peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s );
where age > 12;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
Package contains:
1. macro deduplistc
2. macro deduplistp
3. macro deduplists
4. macro deduplistx
5. macro functionexists
6. macro getvars
7. macro qdeduplistx
8. macro qgetvars
9. macro qzipevalf
10. macro raincloudplot
11. macro symdelglobal
12. macro zipevalf
13. format bool
14. format boolz
15. format ceil
16. format floor
17. format int
18. functions arrfill
19. functions arrfillc
20. functions arrmissfill
21. functions arrmissfillc
22. functions arrmisstoleft
23. functions arrmisstoleftc
24. functions arrmisstoright
25. functions arrmisstorightc
26. functions bracketsc
27. functions bracketsn
28. functions catxfc
29. functions catxfi
30. functions catxfj
31. functions catxfn
32. functions deldataset
33. functions semicolonc
34. functions semicolonn
35. format brackets
36. format semicolon
37. proto qsortincbyprocproto
38. functions frommissingtonumberbs
39. functions fromnumbertomissing
40. functions quicksort4notmiss
41. functions quicksorthash
42. functions quicksorthashsddv
43. functions quicksortlight
1. macro deduplistc
2. macro deduplistp
3. macro deduplists
4. macro deduplistx
5. macro functionexists
6. macro getvars
7. macro ldsn
8. macro lvarnm
9. macro lvarnmlab
10. macro qdeduplistx
11. macro qgetvars
12. macro qzipevalf
13. macro raincloudplot
14. macro symdelglobal
15. macro unziplibrary
16. macro zipevalf
17. macro ziplibrary
18. format bool
19. format boolz
20. format ceil
21. format floor
22. format int
23. functions arrfill
24. functions arrfillc
25. functions arrmissfill
26. functions arrmissfillc
27. functions arrmisstoleft
28. functions arrmisstoleftc
29. functions arrmisstoright
30. functions arrmisstorightc
31. functions bracketsc
32. functions bracketsn
33. functions catxfc
34. functions catxfi
35. functions catxfj
36. functions catxfn
37. functions deldataset
38. functions semicolonc
39. functions semicolonn
40. format brackets
41. format semicolon
42. proto qsortincbyprocproto
43. functions frommissingtonumberbs
44. functions fromnumbertomissing
45. functions quicksort4notmiss
46. functions quicksorthash
47. functions quicksorthashsddv
48. functions quicksortlight
*SAS package generated by generatePackage, version 20211111*
*SAS package generated by generatePackage, version 20220420*
The SHA256 hash digest for package BasePlus:
`B34E352EC52E05B8BBE1816E6104F47677CBFDEAF7CD71B8BF04FDBFA01B0EF0`
`4CD3926B9842925C86B80B5B47B47BEA1FB9707826B545B9B4D52AE97BC3617E`
---
# Content description ############################################################################################
@@ -3254,6 +3287,479 @@ The output:
![Example 2b](./baseplus_RainCloudPlot_Ex2b.png)
---
## >>> `%zipLibrary()` macro: <<< <a name="ziplibrary-macro"></a> #######################
The zipLibrary() macro allows to zip content of a SAS library.
Files can be zipped into a single file (named as the input library)
or into multiple files (named as "dataset.sas7bdat.zip").
If a file is indexed also the index file is zipped.
Source files can be deleted after compression.
Status of compression and processing time is reported.
See examples below for the details.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(
lib
<,mode=>
<,clean=>
<,libOut=>
<,compression=>
)
~~~~~~~~~~~~~~~~~~~~~~~
**Arguments description**:
1. `lib` - *Required*, a name of the library to be zipped.
Must be a valid SAS V7, V8, or V9 library.
* `mode = S` - *Optional*, default value is `S`,
indicates mode of compression
generates single zip file (`SINGLE/S`)
or multiple files (`MULTI/M`)
* `clean = 0` - *Optional*, default value is `0`,
should datasets be deleted after zipping?
`1` means *yes*, `0` means *no*.
* `libOut =` - *Optional*, default value is empty,
output library for a single zip file.
* `compression =` - *Optional*, default value is `6`,
specifies the compression level
`0` to `9`, where `0` is no compression
and `9` is maximum compression.
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.** Generate data:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options dlcreatedir;
libname test1 "%sysfunc(pathname(work))/test1";
libname test2 "%sysfunc(pathname(work))/test2";
libname test3 (test1 test2);
libname test4 "%sysfunc(pathname(work))/test4";
options nodlcreatedir;
%put %sysfunc(pathname(test3));
%put %sysfunc(pathname(test4));
data
test1.A(index=(model))
test1.B
test2.C
test2.D(index=(model make io=(invoice origin)))
;
set sashelp.cars;
run;
data test1.B2 / view=test1.B2;
set test1.B;
output;
output;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.** Zip content of test3 library
into the same location in one zip file:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(test3)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 3.** Zip content of test3 library
into the same location in multiple zip files:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(test3, mode=MULTI)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 4.** Zip content of test3 library
with maximum compression level
into different location in one zip file
and delete source files:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(test3, clean=1, libOut=test4, compression=9)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
## >>> `%unzipLibrary()` macro: <<< <a name="unziplibrary-macro"></a> #######################
The unzipLibrary() macro allows to unzip content of a SAS library.
It is a *counterpart* to the `%zipLibrary()` macro and is *not* intended to work
with zip files generated by other software (though it may in some cases).
Files can be unzipped from a single file
or from multiple files (named e.g. "dataset.sas7bdat.zip").
If a file is indexed also the index file is unzipped.
Source files can be deleted after decompression.
Status of decompression and processing time is reported.
See examples below for the details.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%unzipLibrary(
path
<,zip=>
<,mode=>
<,clean=>
<,libOut=>
)
~~~~~~~~~~~~~~~~~~~~~~~
**Arguments description**:
1. `path` - *Required*, a path pointing to zipped file(s) location.
* `zip =` - *Optional*, When `mode=S` a name of the
zip file containing SAS files to be unzipped.
* `mode = S` - *Optional*, default value is `S`,
indicates mode of decompression
read from a single zip file (`SINGLE/S`)
or from multiple files (`MULTI/M`)
* `clean = 0` - *Optional*, default value is `0`,
should zip files be deleted after unzipping?
`1` means *yes*, `0` means *no*.
* `libOut =` - *Optional*, default value is empty,
output library for a single zip file
decompression.
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.** Generate data:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options dlcreatedir;
libname test1 "%sysfunc(pathname(work))/test1";
libname test2 "%sysfunc(pathname(work))/test2";
libname test3 (test1 test2);
libname test4 "%sysfunc(pathname(work))/test4";
options nodlcreatedir;
%put %sysfunc(pathname(test3));
%put %sysfunc(pathname(test4));
data
test1.A(index=(model))
test1.B
test2.C
test2.D(index=(model make io=(invoice origin)))
;
set sashelp.cars;
run;
data test1.B2 / view=test1.B2;
set test1.B;
output;
output;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.** Use data from Example 1.
First zip content of the `test3` library
to `test4` location into one zip file
and delete source files.
Next unzip `test3.zip` library into the
`test4` location and delete the zip file.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(test3, clean=1, libOut=test4)
%unzipLibrary(%sysfunc(pathname(test4)), zip=test3, clean=1)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 3.** Use data from Example 1.
First zip content of the `test1` library
into multiple zip files and delete source files.
Next unzip `*.zip` files in `test1`
location and delete zipped files
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(test1, mode=M, clean=1)
%unzipLibrary(%sysfunc(pathname(test1)), mode=M, clean=1)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 4.** First zip content of the `sashelp` library
into `work` library.
Next unzip `sashelp.zip` file in `work`
location and delete zip file.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%zipLibrary(sashelp, mode=S, clean=0, libOut=work)
%unzipLibrary(%sysfunc(pathname(work)), zip=sashelp, mode=S, clean=1)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
## >>> `%LDSN()` macro: <<< <a name="ldsn-macro"></a> #######################
The LDSN (Long DataSet Names) macro function
allows to use an "arbitrary" text string to name a dataset.
---
The idea for the macro came from the following story:
Good friend of mine, who didn't use SAS for quite some time,
told me that he lost a few hours for debugging because
he forgot that the SAS dataset name limitation is 32 bytes.
I replied that it shouldn't be a problem to do a workaround
for this inconvenience with a macro and the `MD5()` hashing function.
I said: *The macro should take an "arbitrary string" for a dataset
name, convert it, with help of `MD5()`, to a hash digest, and
create a dataset with an "artificial" `hex16.` formated name.*
Starting with something like this:
~~~~~~~~~~~~~~~~~~~~~~~sas
data %LDSN(work. peanut butter & jelly with a hot-dog in [a box] and s*t*a*r*s (drop = sex rename=(name=first_name) where = (age in (12,13,14))) );
set sashelp.class;
run;
~~~~~~~~~~~~~~~~~~~~~~~
the macro would do:
~~~~~~~~~~~~~~~~~~~~~~~sas
%sysfunc(MD5(peanut butter & jelly with a hot-dog in [a box] and s*t*a*r*s), hex16.)
~~~~~~~~~~~~~~~~~~~~~~~
and (under the hood) return and execute the following code:
~~~~~~~~~~~~~~~~~~~~~~~sas
data work.DSN_41D599EF51FBA58_(drop = sex rename=(name=first_name) where = (age in (12,13,14))) ;
set sashelp.class;
run;
~~~~~~~~~~~~~~~~~~~~~~~
Also in the next data step user should be able to do:
~~~~~~~~~~~~~~~~~~~~~~~sas
data my_next_data_step;
set %DSN(work. peanut butter & jelly with a hot-dog in [a box] and s*t*a*r*s);
run;
~~~~~~~~~~~~~~~~~~~~~~~
and work without the "dataset-name-length-limitation" issue.
---
See examples below for the details.
The `%LDSN()` macro executes like a pure macro code.
**Known "Limitations":**
- dataset name _cannot_ contain dots (`.`) since they are used as separators!
- dataset name _cannot_ contain round brackets(`(` and `)`) since they are used as separators
(but `[]` and `{}` are allowed)!
- dataset name _cannot_ contain unpaired quotes (`'` and `"`),
text: `a "hot-dog"` is ok, but `John's dog` is not!
**Behaviour:**
- dataset name text is *converted to upcase*
- dataset name text *leading and trailing spaces are ignored*,
e.g. the following will give the same hash digest:
`%ldsn(work.test)`, `%ldsn( work.test)`, `%ldsn(work.test )`,
`%ldsn(work .test)`, `%ldsn(work. test)`, `%ldsn(work . test)`.
- macro calls of the form:
`data %LDSN(); run;`, `data %LDSN( ); run;`, `data %LDSN( . ); run;` or even
`data %LDSN( . (keep=x)); run;` are resolved to empty string, so the result is
equivalent to `data; run;`
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%LDSN(
arbitrary text string (in line with limitations)
)
~~~~~~~~~~~~~~~~~~~~~~~
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.**
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options nomprint source nomlogic nosymbolgen ls = max ps = max;
data %LDSN( work. peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s (drop = sex rename=(name=first_name) where = (age in (12,13,14))) );
set sashelp.class;
run;
proc print data = %LDSN( work. peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s );
run;
data MyNextDataset;
set %LDSN( work. peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s );
where age > 12;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
## >>> `%LVarNm()` macro: <<< <a name="lvarnm-macro"></a> #######################
The LVarNm() macro function works like the LDSN() macro function, but for variables.
Supported by LVarNmLab() macro function which allows to remember "user names" in labels.
The motivation for the macro was similar one as for the LDSN() macro.
---
See examples below for the details.
The `%LVarNm()` macro executes like a pure macro code.
**Known "Limitations":**
- variable name _cannot_ contain unpaired quotes (`'` and `"`),
text: `a "hot-dog"` is ok, but `John's dog` is not!
**Behaviour:**
- variable name text is *converted to upcase*
- variable name text *leading and trailing spaces are ignored*,
e.g. the following will give the same hash digest:
`%LVarNm(test)`, `%LVarNm( test)`, `%LVarNm(test )`.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%LVarNm(
arbitrary text string (in line with limitations)
)
~~~~~~~~~~~~~~~~~~~~~~~
---
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.**
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options ls=max;
data test;
%LVarNmLab( peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s )
do %LVarNm( peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s ) = 1 to 10;
y = 5 + %LVarNm( peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s ) * 17;
output;
end;
run;
data test2;
set test;
where %LVarNm( peanut butter & jelly with a "Hot-Dog" in [a box], popcorn, and s*t*a*r*s ) < 5;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.**
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
data test3;
%LVarNmLab() = 17;
%LVarNm() = 17;
%LVarNm( ) = 42;
%LVarNm( ) = 303;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 3.**
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
data test3;
%LVarNm(test) = 1;
%LVarNm( test) = 2;
%LVarNm(test ) = 3;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 4.**
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
data test4;
array X[*] %LVarNm(some strange! name)_0 - %LVarNm(some strange! name)_10;
do i = lbound(X) to hbound(X);
X[i] = 2**(i-1);
put X[i]=;
end;
run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
## >>> `%LVarNmLab()` macro: <<< <a name="lvarnmlab-macro"></a> #######################
The LVarNmLab() macro function supports LVarNm() and allows to remember "user names" in labels.
The motivation for the macro was similar one as for the LDSN() macro.
---
See examples in LVarNm() documentation for the details.
The `%LVarNmLab()` macro executes like a pure macro code.
**Known "Limitations":**
- variable name _cannot_ contain unpaired quotes (`'` and `"`),
text: `a "hot-dog"` is ok, but `John's dog` is not!
**Behaviour:**
- variable name text is *converted to upcase*
- variable name text *leading and trailing spaces are ignored*,
e.g. the following will give the same hash digest:
`%LVarNmLab(test)`, `%LVarNmLab( test)`, `%LVarNmLab(test )`.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%LVarNmLab(
arbitrary text string (in line with limitations)
)
~~~~~~~~~~~~~~~~~~~~~~~
---
## License ####################################################################

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@@ -52,10 +52,10 @@ Package contains:
12. exec generatearrays
13. clean generatearrays
*SAS package generated by generatePackage, version 20211111*
*SAS package generated by generatePackage, version 20220420*
The SHA256 hash digest for package BasePlus:
`C32A81304A411C1EB6BA7B76EDB8D70550F3935F35A1506E2B8019A2036FB5FF`
`6B3FB0B06B47A7EF1BB004B483B0F39B8F553F7F16D02A7E24CDE388BBA704EA`
---
# Content description ############################################################################################

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@@ -8,7 +8,7 @@
---
# The GSM package [ver. 0.16] <a name="gsm-package"></a> ###############################################
# The GSM package [ver. 0.20] <a name="gsm-package"></a> ###############################################
The **GSM** (a.k.a. *Generate Secure Macros*) package allows
to create secured macros stored in SAS Proc FCMP functions.
@@ -42,6 +42,7 @@ run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
See examples for more details.
Recording of presentation with "how it works" description, in Polish, is avaliable [here](https://www.youtube.com/watch?v=LtaWPe2sgRY&t=1s).
*How to use it:*
- Copy all files with your secured macros code into a directory.
@@ -53,8 +54,33 @@ See examples for more details.
```
- Share generated `ZIP` file (unzip and run the code).
*Limitations:*
Single macro file cannot be longer than 32760 bytes.
**Limitations:**
- Single macro file cannot be longer than 32760 bytes.
- Multiline text variable. Consider the following code text file:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
%macro~test()/SECURE;~#@
data~test;~#@
a~=~"abc~#@
~#@
def";~#@
put~a~hex20.;~#@
run;~#@
%mend~test;~#@
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
where `~` symbols the space character,
`#` symbols the carriage return (`0D`),
and `@` symbols the line feed (`0A`).
The code file is scanned and inserted into
the `resolve()` function argument in a "byte by byte"
fashion hence also the "end of line" characters are included.
As the result value of variable `a` will be:
`a = "abc~#@~#@def"`.
If you want to use the `GSM` package avoid
such "style" of coding in your macros.
---
@@ -65,10 +91,10 @@ Package contains:
Required SAS Components:
`Base SAS Software`
* SAS package generated by generatePackage, version 20211111 *
* SAS package generated by generatePackage, version 20220420 *
The SHA256 hash digest for package BasePlus:
`96B8E8EE268403D81BBB2740A0F47B835EB480F16B47A9B51FD976DEE3595ED7`
The SHA256 hash digest for package GSM:
`E6E2A6214EE7DC6E06AA76916A68B216DD7665184E63CF2C01F487A038E71B09`
## >>> `%GSM()` macro: <<< <a name="gsm-macro"></a> #######################
@@ -91,7 +117,7 @@ be added to the macro definition. See the example:
As a result a zip file, containing dataset with functions and
code to be executed on site, is generated.
code to be executed on site, is generated.
Since encrypted code is stored in a SAS dataset it has
no limitation in sharing between operating systems (like catalogs have).
@@ -115,6 +141,8 @@ The basic syntax is the following, the `<...>` means optional parameters:
<,source2=>
<,outpath=>
<,encodingRestricted=>
<,secret=>
<,lineEnd=>
)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@@ -123,10 +151,6 @@ The basic syntax is the following, the `<...>` means optional parameters:
1. `path` - *Required*, indicates a directory which contains files with macros.
Only files with `sas` extension are used.
* `trim=` - *Optional*, the default value is `0`.
If set to `1` then lines of macro code are trimmed.
If set to `2` then lines of macro code are stripped.
* `cmplib=` - *Optional*, the default value is `work.generateMacros`.
Names the dataset which will contain generated functions.
@@ -142,8 +166,27 @@ The basic syntax is the following, the `<...>` means optional parameters:
encoding of the session which generates the dataset then
the generateMacros() function will not execute macro code.
---
* `secret=` - *Optional*, the default value is null, in such case the
secret is generated from the `sha256(datetime(), hex32.)` function
and is printed in the log. When not null then should be
alphanumerical constant. Non-alphanumerical characters are removed.
Required to execute the `resolve()` function.
User who do not know the value will not be able
to run the `_maxro_XX_()` function.
* `lineEnd=` - *Optional*, the default value is `0D0A`, indicates which of:
line feed, carriage return, or both, or a space be inserted
at the end of line in the intermediate code file that is generated.
Value has to be hexadecimal code (_NOT_ null),
since the value is resolved as `"&lineEnd."x`, so use e.g.
`0A` for line feed, `0D` for carriage return,
`0D0A` for both, and `20` for space.
* `trim=` - *Deprecated*, the default value is `0`.
*Kept for backward compatibility.*
---
### Example: ###################################################################
@@ -188,8 +231,7 @@ run;
%GSM(&path., cmplib=work.myMacros)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
## >>> `%GSMpck_makeFCMPcode()` macro: <<< <a name="gsmpck-makefcmpcode-macro"></a> #######################
## >>> `%GSMpck_makeFCMPcode()` macro: <<< <a name="GSMpck-makeFCMPcode-macro"></a> #######################
The `%GSMpck_makeFCMPcode()` macro is an internal macro of
the **GSM** (a.k.a. *Generate Secure Macros*) package.
@@ -210,10 +252,11 @@ The basic syntax is the following, the `<...>` means optional parameters:
%GSMpck_makeFCMPcode(
path
,number
<,trim=0>
<,outlib=work.generateMacros.secure>
<,source2=>
<,fileNameCode=FNC>
<,secret=123456789>
<,lineEnd=0A>
)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@@ -224,9 +267,6 @@ The basic syntax is the following, the `<...>` means optional parameters:
2. `number` - *Required*, a sequential number.
* `trim=` - *Optional*, the default value is `0`.
If set to `1` then lines of macro code are trimmed.
If set to `2` then lines of macro code are stripped.
* `cmplib=` - *Optional*, the default value is `work.generateMacros`.
Names the dataset which will contain generated functions.
@@ -238,6 +278,22 @@ The basic syntax is the following, the `<...>` means optional parameters:
* `fileNameCode=` - *Optional*, the default value is `FNC`.
Internal fileref.
* `secret=` - *Optional*, internal, the default value is `1234567890`.
Alphanumerical constant required to execute the `resolve()`
function. User who do not know the value will not be able
to run the `_maxro_XX_()` function.
* `lineEnd=` - *Optional*, the default value is `0D0A`, indicates which of:
line feed, carriage return, or both, or a space be inserted
at the end of line in the intermediate code file that is generated.
Value has to be hexadecimal code (_NOT_ null),
since the value is resolved as `"&lineEnd."x`, so use e.g.
`0A` for line feed, `0D` for carriage return,
`0D0A` for both, and `20` for space.
* `trim=` - *Deprecated*, the default value is `0`.
*Kept for backward compatibility.*
---
@@ -263,4 +319,4 @@ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
---
---

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@@ -10,13 +10,16 @@
* [`%do_over3()` macro](#do-over3-macro)
* [`%make_do_over()` macro](#make-do-over-macro)
* [`%mcHashTable()` macro](#mchashtable-macro)
* [`%mcDictionary()` macro](#mcdictionary-macro)
* [`%QzipArrays()` macro](#qziparrays-macro)
* [`%zipArrays()` macro](#ziparrays-macro)
* [`%sortMacroArray()` macro](#sortmacroarray-macro)
* [License](#license)
---
# The macroArray package [ver. 0.8] <a name="macroarray-package"></a> ###############################################
# The macroArray package [ver. 1.0] <a name="macroarray-package"></a> ###############################################
The **macroArray** package implements a macro array facility:
- `%array()`,
@@ -27,6 +30,8 @@ The **macroArray** package implements a macro array facility:
- `%appendcell()`,
- `%mcHashTable()`,
- `%zipArrays()`,
- `%sortMacroArray()`,
- `%mcDictionary()`,
- etc.
The set of macros, which emulates classic
@@ -61,15 +66,19 @@ Package contains:
7. macro do_over2
8. macro do_over3
9. macro make_do_over
10. macro mchashtable
10. macro mcdictionary
11. macro mchashtable
12. macro qziparrays
13. macro sortmacroarray
14. macro ziparrays
Required SAS Components:
*Base SAS Software*
*SAS package generated by generatePackage, version 20211111.*
*SAS package generated by generatePackage, version 20220420.*
The SHA256 hash digest for package macroArray:
`70032D27081A0EE15BC82B8F14D2A61700FA7C1F0D88B4DB516AB433CD06C4D3`
`DF63B0E027827A82038F1C8422787A0BC569BA93104BA1778DB6DD088A5D255C`
---
# Content description ############################################################################################
@@ -1204,7 +1213,7 @@ The basic syntax is the following, the `<...>` means optional parameters:
macrovariables named like "`&H._`" are deleted.
* `HASH=` - *Optional*, indicates which hashing algorithms should be used,
available values are `CRC32` or `MD5`, the `CRC32` is the default.
available values are `CRC32` or `MD5`, the `CRC32` is the default.
---
@@ -1385,7 +1394,7 @@ See examples below to see use cases.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.** Populate macro hash table from a dataset.
**EXAMPLE 3.** Populate macro hash table from a dataset.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcHashTable(CLASS)
@@ -1413,7 +1422,7 @@ run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 3.** Data portion may require quoting and un-quoting..
**EXAMPLE 4.** Data portion may require quoting and un-quoting..
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcHashTable(CODE)
@@ -1430,7 +1439,7 @@ run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 4.** Longer lists.
**EXAMPLE 5.** Longer lists.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%let size = 1000;
@@ -1503,7 +1512,7 @@ run;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 5.** Forbidden names.
**EXAMPLE 6.** Forbidden names.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcHashTable()
@@ -1513,7 +1522,7 @@ run;
%mcHashTable(ABCDEFGHIJKLMNOP) %* good;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 5.** Hashing algorithms.
**EXAMPLE 7.** Hashing algorithms.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcHashTable(H1,DCL,HASH=MD5)
@@ -1522,6 +1531,252 @@ run;
---
## >>> `%mcDictionary()` macro: <<< <a name="mcdictionary-macro"></a> #######################
The `%mcDictionary()` macro provided in the package
is designed to facilitate the idea of a "macro dictionary"
concept, i.e. *a list of macrovariables with common prefix
and suffixes generated as a hash digest* which allows
to use values other than integers as indexes.
The `%mcDictionary()` macro allows to generate other macros
which behaves like a dictionary. See examples below.
The `%mcDictionary()` macro executes like a pure macro code.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%mcDictionary(
H
<,METHOD>
)
~~~~~~~~~~~~~~~~~~~~~~~
**Arguments description**:
1. `H` - *Required*, a dictionary macro name and a declaration/definition,
e.g. `mcDictionary(HT)`. It names a macro which is generated by
the `%mcDictionary()` macro. Provided name cannot be empty
or an underscore (`_`). No longer than *16* characters.
2. `METHOD` - *Optional*, if empty (or DECLARE or DCL) then the code of
a macro dictionary is compiled.
If `DELETE` then the macro dictionary named by `H` and all
macrovariables named like "`&H._`" are deleted.
---
### THE CREATED MACRO `%&H.()`: ####################################################
The created macro imitates behaviour of a dictionary.
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%&H.(
METHOD
<,KEY=>
<,DATA=>
)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**Arguments description**:
1. `METHOD` - *Required*, indicate what behaviour should be executed.
Allowed values are:
- `ADD`, adds key and data portion to the macro dictionary,
*multiple data portions* are NOT available for one key.
- `FIND`, tests if given key exists in the macro dictionary
and, if yes, returns data value associated with the key.
For multiple data portions see the `data=` parameter.
- `CHECK`, returns indicator if the key exists in dictionary.
- `DEL`, removes key and data portion from the macro dictionary.
- `LIST`, prints out a dictionary to the log.
- `CLEAR` removes all data and keys values.
* `KEY=` - *Optional*, provides key value for `ADD`, `FIND`, `CHECK`
and `DEL` methods.
Leading and trimming spaces are removed from the value.
The `MD5(...)` function is used to generate the hash.
Default value is `_`.
* `DATA=` - *Optional*, provides data value for the `ADD` method.
Default value is blank.
When macro is executed and when data are added the following types of
*global* macrovariables are created:
- `&H._########_K`,
- `&H._########_V`,
- `&H._KEYSNUM`.
The `#` represents value generated by the `MD5(...)` function for the given key.
The first type keeps information about the key.
The second type keeps information about the value of a given key
The third type keeps the number of unique values of the key.
See examples below to see use cases.
---
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.** Basic use-case.
Creating macro dictionary, macro `Dict` is generated.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcDictionary(Dict)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Add elements to the `Dict`.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%Dict(ADD,key=x,data=17)
%Dict(ADD,key=y y,data=42)
%Dict(ADD,key=z z z,data=303)
%put _user_;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Add some duplicates for the key x.
See macrovariables created.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%Dict(ADD,key=x,data=18)
%put _user_;
%Dict(ADD,key=x,data=19)
%put _user_;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Check for the key `x` and non existing key `t`.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%put ##%Dict(CHECK,key=x)##;
%put ##%Dict(CHECK,key=t)##;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Prints data values for various keys.
Key `t` does not exist in the macrodictionary.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%put #%Dict(FIND,key=x)#;
%put #%Dict(FIND,key=y y)#;
%put #%Dict(FIND,key=z z z)#;
%put #%Dict(FIND,key=t)#;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
List dictionary content to the log.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%Dict(LIST);
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Delete keys.
Key `t` does not exist in the macrodictionary.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%put #%Dict(DEL,key=z z z)#;
%put _user_;
%put #%Dict(DEL,key=t)#;
%put _user_;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Clear and delete macro dictionary `Dict`.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%Dict(CLEAR)
%put _user_;
%mcDictionary(Dict,DELETE)
%put _user_;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.** Populate macro dictionary from a dataset.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcDictionary(CLASS)
%let t = %sysfunc(datetime());
data _null_;
set sashelp.class;
call execute('%CLASS(ADD,key=' !! name !! ',data=' !! age !! ')');
run;
%put t = %sysevalf(%sysfunc(datetime()) - &t.);
%put _user_;
%CLASS(CLEAR)
%mcDictionary(CARS)
%let t = %sysfunc(datetime());
data _null_;
set sashelp.cars;
call execute('%CARS(ADD,key=' !! catx("|",make,model,type) !! ',data=' !! MPG_CITY !! ')');
run;
%put t = %sysevalf(%sysfunc(datetime()) - &t.);
%put &=CARS_KEYSNUM.;
%CARS(LIST);
%CARS(CLEAR)
%put &=CARS_KEYSNUM.;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 3.** Data portion may require quoting and un-quoting..
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcDictionary(CODE)
%CODE(CLEAR)
%CODE(ADD,key=data, data=%str(data test; x = 42; run;))
%CODE(ADD,key=proc, data=%str(proc print; run;))
%CODE(ADD,key=macro,data=%nrstr(%put *****;))
%CODE(FIND,key=data)
%CODE(FIND,key=proc)
%unquote(%CODE(FIND,key=macro))
%CODE(LIST);
%mcDictionary(CODE,DELETE)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 4.** Longer lists.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%let size = 1000;
%mcDictionary(AAA)
%let t = %sysfunc(datetime());
data _null_;
do i = 1 to &size.;
call execute(cats('%AAA(ADD,key=A', i, ',data=', i, ')'));
end;
run;
%put t = %sysevalf(%sysfunc(datetime()) - &t.);
%put &=AAA_KEYSNUM;
%AAA(CLEAR)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 5.** Forbidden names.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
%mcDictionary()
%mcDictionary(_)
%mcDictionary(ABCDEFGHIJKLMNOPQ) %* bad;
%mcDictionary(ABCDEFGHIJKLMNOP) %* good;
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
## >>> `%QzipArrays()` macro: <<< <a name="qziparrays-macro"></a> #######################
The zipArrays() and QzipArrays() macros
@@ -1833,6 +2088,92 @@ The basic syntax is the following, the `<...>` means optional parameters:
---
## >>> `%sortMacroArray()` macro: <<< <a name="sortmacroarray-macro"></a> #######################
The sortMacroArray() macro
allow to sort elements of a macro array.
The **limitation** is that sorted values are limited to 32767 bytes of length.
See examples below for the details.
### SYNTAX: ###################################################################
The basic syntax is the following, the `<...>` means optional parameters:
~~~~~~~~~~~~~~~~~~~~~~~sas
%sortMacroArray(
array
<,valLength=>
<,outSet=>
<,sortseq=>
)
~~~~~~~~~~~~~~~~~~~~~~~
**Arguments description**:
1. `array` - *Required*, name of an array generated by the `%array()` macro.
* `valLength = 32767` - *Optional*, default value is `32767`,
maximum length of a variable storing macrovariable data.
(the reason of 32767 limitation)
* `outSet = _NULL_` - *Optional*, default value is `_NULL_`,
an optional output dataset name.
* `sortseq =` - *Optional*, default value is `LINGUISTIC(NUMERIC_COLLATION = ON)`,
sorting options for use in an internal `Proc SORT`.
### EXAMPLES AND USECASES: ####################################################
**EXAMPLE 1.** Basic use-case.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options mprint;
ods html;
ods listing close;
%array(hij [4:9] $ 512 ("C33" "B22" "A11" "A01" "A02" "X42"), macarray=Y)
%put NOTE: %do_over(hij);
%sortMacroArray(hij, valLength=3, outSet = A_NULL_(compress=char))
%put NOTE: %do_over(hij);
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
**EXAMPLE 2.** Basic use-case.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~sas
options mprint;
ods html;
ods listing close;
%array(ds = sashelp.class, vars = name|NNN height|h, macarray=Y)
%array(ds = sashelp.cars, vars = model|, macarray=Y)
%put NOTE: %do_over(NNN);
%put NOTE: %do_over(H);
%put NOTE: %do_over(model);
%sortMacroArray(NNN, valLength=30, outSet = A_NULL_(compress=char))
%sortMacroArray(H, valLength=32)
%sortMacroArray(model, valLength=120)
%put NOTE: %do_over(NNN);
%put NOTE: %do_over(H);
%put NOTE: %do_over(model);
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
---
## License ####################################################################
Copyright (c) Bartosz Jablonski, since January 2019

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@@ -46,10 +46,10 @@ Package contains:
Required SAS Components:
*Base SAS Software*
*SAS package generated by generatePackage, version 20211111*
*SAS package generated by generatePackage, version 20220420*
The SHA256 hash digest for package SQLinDS:
`F2BE3CC68C9A34DD324FD35C8287A4F89737E2E28E806E0DD7FB0EBF60F7C569`
`701B69BE71B99792803BCE7718ED486259310FFB92E6D77ED1BC029D9CC67B60`
---
# Content description ############################################################################################

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