Difference between revisions of "String Parsing Optimization"

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<br> String Parsing is a powerful language for designing content on the Flexible Survival MUD. The language permits read functions, write functions, and allows users to create dynamic content based on a combination of those functions. Its semantics were originally designed by Damaged and later rewritten by Fauna for increased performance.
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<br> String Parsing is a scripting language for designing content on the Flexible Survival MUCK. The language supports read functions, write functions, and allows users to create dynamic content based on a combination of those functions. The language was originally designed and coded by Damaged and later refactored by Fauna for improved performance.
 +
 
 +
String Parsing by nature reduces performance when inserted into plain text. This article exists as a reference for those seeking to squeeze the most performance out of their code without reducing readability. For information on how to write parsing, see the wiki article on [http://wiki.flexiblesurvival.com/w/String_Parsing String Parsing] and review the in-game manual.
  
String Parsing, like other markup languages, does cause a hit in performance when inserted into plain text. This article exists to provide solutions for those seeking to squeeze the most performance out of their code. It will not tell you how to write clean or legible code, NOR will it teach you the fundamental markup of String Parsing. For information on those subjects, see the wiki article on [http://wiki.flexiblesurvival.com/w/String_Parsing String Parsing] and review the in-game manual.
 
 
<br>
 
<br>
  
 +
== Performance: Why should I care? ==
 +
 +
1) Optimized code reduces the perceived latency of navigation in a MUCK.
  
== Performance: Why should I care? ==
+
2) Optimized code reduces the Flexible Survival server load.
  
Performance is important for a number of reasons.
+
3) Optimized code reduces the memory cost of programs and database references (#dbrefs).
:Optimized code reduces the perceived latency of navigation in a MUD. Doing so should be enjoyable on even the most sluggish of connections.
 
:Optimized code reduces the Flexible Survival server load, thus permitting us to provide more and more detailed user-visible content.
 
:Optimized code reduces the memory cost of programs and #dbrefs. In the case of a fatal memory spike or other unforeseen circumstances, the chances of services ceasing function are reduced when baseline memory is kept to a reasonable minimum.
 
  
 
=== How does this relate to String Parsing? ===
 
=== How does this relate to String Parsing? ===
  
String Parsing is a markup language found throughout many aspects of the game. From transformation messages, to sex scenes, to exploration, to NPC interaction, and more, String Parsing is the gold standard for ensuring high quality content with minimal perceived latency and maximum ease of deployment. Despite this, we must keep an eye on our code to ensure continued high quality submissions and end-user satisfaction.
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String Parsing is pervasive. It can be placed in transformation messages, sex scenes, rooms, NPCs, and more. As a result, it's important to ensure that this code is functional, readable, and swift to execute.
 +
 
 +
For the subsequent sections, please use the in-game @viewparse command to indent and colorize markup for better legibility.
 +
 
 +
== Conditionals ==
  
Strictly speaking, a more important language to keep optimized is the MUF backend that Flexible Survival is based upon. However, since this guide is targeted at a general audience and not Mucker-level or higher staff, String Parsing tips and tricks will be the subject matter I'll focus on.
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=== [if ][end if] ===
 +
----
 +
A basic [if ] statement is prone to syntactic errors.
  
For the subsequent sections, please use the in-game @viewparse command to indent and colorize markup for heightened legibility.
+
For genitals, appearance, and time, always use the template [if [target] is <thing>]. The "is" function has been optimized for these checks.
  
== [if ] statements ==
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::'''<span style="color:#FF0000">[if [player] = neuter]
 +
::'''<span style="color:#FF0000">[if [player] = neutral]
 +
::'''<span style="color:#FF0000">[if time = day]
 +
::'''<span style="color:#008000">[if [player] is neuter]
 +
::'''<span style="color:#008000">[if [player] is neutral]
 +
::'''<span style="color:#008000">[if time is day]
  
[if ] statements are the heart, brain, and skeletal structure of the String Parsing body.
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Use "==" to evaluate integers. Benchmarks have shown that this executes faster than checking for a string with "=".
  
 +
::'''<span style="color:#FF0000">[if stat cocks of [player] = 1]
 +
::'''<span style="color:#008000">[if stat cocks of [player] == 1]
  
=== [if ][end if] Mistakes ===
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Avoid not statements when possible. For example, [if time is not night] is the same as [if time is day].
  
A basic [if ][end if] statement is prone to some syntactic errors, but little in terms of optimization woes.
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::'''<span style="color:#FF0000">[if time is not night]
 +
::'''<span style="color:#FF0000">[if time is not day]
 +
::'''<span style="color:#008000">[if time is day]
 +
::'''<span style="color:#008000">[if time is night]
 +
<br>
  
 +
=== [if ][else][end if] ===
 +
----
 +
Try to avoid duplicated words when using the [if ][else] structure.
  
Always use the template [if [target] is <gender>] when checking for a target's gender. Do not use [if [target] = <gender>]. Despite taking less space in the grand scheme of things, the 'is' function is specifically optimized for checking a target's gender.
 
::[if [target] = <gender>]
 
::[if [target] is <gender>]
 
  
Do not check for integers with the '=' sign. This is a function designed to check a string. Use '==' instead.
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::'''<span style="color:#FF0000">[if time is day]A woman in tight jeans and an unassuming blouse mans the counter. She's twirling a pen in her fingers, seemingly disinterested in her body of work.[else]A woman in tight jeans and an unassuming blouse would normally man the counter. However, she doesn't appear to be here right now.[end if]
Thirty minutes benchmarking with Fauna has shown that checking directly for an integer is both faster and cleaner.
 
::[if stat cocks of [target] = 1]
 
::[if stat cocks of [target] == 1]
 
  
Avoid not statements when possible. For example, [if time is not night] is the same as [if time is day].
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::'''<span style="color:#008000">A woman in tight jeans and an unassuming blouse [if time is day]mans the counter. She's twirling a pen in her fingers, seemingly disinterested in her body of work[else]would normally man the counter. However, she doesn't appear to be here right now[end if].
::[if time is not night]
 
::[if time is not day]
 
::[if time is day]
 
::[if time is night]
 
  
=== [if ][else][end if] Mistakes ===
 
  
[else] creates potential for redundancy if a coder is not paying attention. Here is a small before-and-after list of sentences, followed by clear instruction.
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In the above example, repeated text has been removed from the [if ][else] structure and added as a prefix. This provides the exact same user-visible output with less characters. Processing requirements are identical, but the text fits in less space and is just as readable.
  
 +
Note: Do not do this for letters that are part of a word. Splitting words in text results in less readable code and hampers assistive technology like screen readers.
 
<br>
 
<br>
 +
 +
=== [if ][else if ][else][end if] ===
 +
----
 +
This structure checks statements in brackets one after another, left to right. If a statement evaluates as true, the code stops and prints the text within. The structure requires consideration for order of events.
 +
 +
 +
::'''<span style="color:#FF0000">[if [player] is pure male]You are male[else if [player] is pure female]You are female[else if [player] is herm]You are a herm[else]You are neuter[end if].
 +
 +
::'''<span style="color:#008000">[if [player] is herm]You are a herm[else if [player] is female]You are female[else if [player] is male]You are male[else]You are neuter[end if].
 +
 +
 +
The full logic of the first snippet is
 +
 +
:[if (stat cocks of [player] > 0) and (stat cunts of [player] == 0)][else if (stat cunts of [player] > 0) and (stat cocks of [player] == 0)][else if (stat cocks of [player] > 0) and (stat cunts of [player] > 0)][else][end if]
 +
 +
The second snippet simplifies this logic to the equivalent of
 +
 +
:[if (stat cocks of [player] > 0) and (stat cunts of [player] > 0)][else if stat cunts of [player] > 0][else if stat cocks of [player] > 0][else][end if]
 +
 +
=== [case ] ===
 
----
 
----
<br>
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Case-statements are useful where lengthy [if ][else if ][end if] statements would result in redundancy.
 +
 
 +
 
 +
::'''<span style="color:#FF0000">[case stat X of [player] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when 1]E[end when]
 +
 
 +
::'''<span style="color:#008000">[case [stat X of [player]] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when 1]E[end when]
 +
 
 +
 
 +
If something is valid parsing on its own, such as '[stat X of [player]]' and '[the mutation X of [player]]', use that, so the stat will only have to be read once instead of in every [when ]-statement.
 +
 
 +
 
 +
::'''<span style="color:#FF0000">[if stat placeholder of [player] == 1]A[else if stat placeholder of [player] == 2]B[else if stat placeholder of [player] == 3]C[else if stat placeholder of [player] == 4]D[else if stat placeholder of [player] == 5]E[else]F[end if]
 +
 
 +
::'''<span style="color:#008000">[case [stat placeholder of [player]] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when (target) 5]E[end when][when 1]F[end when][end case]
 +
 
  
::''[if time is winter]The large bear returned to his cave to hibernate.[else]The small fox jumped over the fence.[end if]''
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In the above example, a complex [if ]-chain is optimized to only read a stat once and evaluate its stored value.
::''The [if time is winter]large bear returned to his cave to hibernat[else]small fox jumped over the fenc[end if]e.''
 
  
 +
== Randomization ==
  
In the above example, repeated text has been removed from the [if ] statement itself and added as prefix and suffix to the code, respectively. This provides the exact same user-visible output with less characters and processing requirements.
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The following functions display content at random. Input is separated by [or].
  
<br>
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=== [one of][or][at random] ===
 
----
 
----
<br>
+
The standard [one of][or][at random] statement is prone to redundancy.
 +
 
 +
 
 +
::'''<span style="color:#FF0000">Sometimes, you need to do something. [one of]Other times,[or]Sometimes,[at random] you don't.
 +
 
 +
::'''<span style="color:#008000">Sometimes, you need to do something. [one of]Other times[or]Sometimes[at random], you don't.
 +
 
 +
 
 +
In the above example, text redundancy is reduced by moving a comma after [at random].
 +
 
 +
 
 +
==== [with odds: ] ====
 +
 
 +
[with odds: ] allows you to simplify many longer [one of] statements.
 +
 
 +
Example 1:
  
::''A woman in tight jeans and an unassuming blouse [if time is night]would normally [end if]man[if time is day]s[end if] the counter.[if time is day] She's twirling a pen in her fingers, seemingly disinterested in her body of work.[else] However, she doesn't appear to be here right now.[end if]''
 
  
::''A woman in tight jeans and an unassuming blouse [if time is day]mans[else]would normally man[end if] the counter. [if time is day]She's twirling a pen in her fingers, seemingly disinterested in her body of work[else]However, she doesn't appear to be here right now[end if].''
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::'''<span style="color:#FF0000">[one of]1[or]1[or]1[or]1[or]1[or]2[at random]
  
::''A woman in tight jeans and an unassuming blouse [if time is day]mans the counter. She's twirling a pen in her fingers, seemingly disinterested in her body of work[else]would normally man the counter. However, she doesn't appear to be here right now[end if].''
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::'''<span style="color:#008000">[one of]1[or]2[with odds: 5 1]
  
  
In the above example, I've illustrated a two-step series of optimizations.
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Example 2:
  
First step: Move a repeated space at the beginning of the final [if ][else][end if] statement. Move repeated periods in that same statement to the end. Merge two independent [if ][end if] statements into a singular [if ][else][end if] statement.
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::'''<span style="color:#FF0000">[one of]1[or]1[or]1[or]2[or]2[or]3[at random]
  
Second step: Determine whether to simplify the overall parsing. In this case, two separate [if ][else][end if] statements can be merged into one.
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::'''<span style="color:#008000">[one of]1[or]2[or]3[with odds: 3 2 1]
  
<br>
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=== [random x to y] ===
 
----
 
----
<br>
+
This function is specialized for ranges of values. Note that it only accepts integers (negative ones included) and that 'x' should be less than 'y'.
 +
 
 +
 
 +
::'''<span style="color:#FF0000">[one of]1[or]2[or]3[or]4[or]5[or]6[at random]
  
Protip: Saving memory is more important with our as-of-writing server configuration (11.26.2013) than performance. If splitting up an [if ][else][end if] to two [if ][end if] statements results in any significant reduction of characters, feel free to do so.
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::'''<span style="color:#008000">[random 1 to 6]
  
 
<br>
 
<br>
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<br>
 
<br>
  
This document is a work in progress and is thus subject to change. All views and opinions expressed in here are solely Songbird's. Please only modify with either A), explicit permission to do so, or B), a fix for known factual inaccuracy / grammar errors.
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[[Category:Guides]][[Category:Code]]
 
 
[[Category:Guides]]
 

Latest revision as of 20:17, 26 August 2020


String Parsing is a scripting language for designing content on the Flexible Survival MUCK. The language supports read functions, write functions, and allows users to create dynamic content based on a combination of those functions. The language was originally designed and coded by Damaged and later refactored by Fauna for improved performance.

String Parsing by nature reduces performance when inserted into plain text. This article exists as a reference for those seeking to squeeze the most performance out of their code without reducing readability. For information on how to write parsing, see the wiki article on String Parsing and review the in-game manual.


Performance: Why should I care?

1) Optimized code reduces the perceived latency of navigation in a MUCK.

2) Optimized code reduces the Flexible Survival server load.

3) Optimized code reduces the memory cost of programs and database references (#dbrefs).

How does this relate to String Parsing?

String Parsing is pervasive. It can be placed in transformation messages, sex scenes, rooms, NPCs, and more. As a result, it's important to ensure that this code is functional, readable, and swift to execute.

For the subsequent sections, please use the in-game @viewparse command to indent and colorize markup for better legibility.

Conditionals

[if ][end if]


A basic [if ] statement is prone to syntactic errors.

For genitals, appearance, and time, always use the template [if [target] is <thing>]. The "is" function has been optimized for these checks.

[if [player] = neuter]
[if [player] = neutral]
[if time = day]
[if [player] is neuter]
[if [player] is neutral]
[if time is day]

Use "==" to evaluate integers. Benchmarks have shown that this executes faster than checking for a string with "=".

[if stat cocks of [player] = 1]
[if stat cocks of [player] == 1]

Avoid not statements when possible. For example, [if time is not night] is the same as [if time is day].

[if time is not night]
[if time is not day]
[if time is day]
[if time is night]


[if ][else][end if]


Try to avoid duplicated words when using the [if ][else] structure.


[if time is day]A woman in tight jeans and an unassuming blouse mans the counter. She's twirling a pen in her fingers, seemingly disinterested in her body of work.[else]A woman in tight jeans and an unassuming blouse would normally man the counter. However, she doesn't appear to be here right now.[end if]
A woman in tight jeans and an unassuming blouse [if time is day]mans the counter. She's twirling a pen in her fingers, seemingly disinterested in her body of work[else]would normally man the counter. However, she doesn't appear to be here right now[end if].


In the above example, repeated text has been removed from the [if ][else] structure and added as a prefix. This provides the exact same user-visible output with less characters. Processing requirements are identical, but the text fits in less space and is just as readable.

Note: Do not do this for letters that are part of a word. Splitting words in text results in less readable code and hampers assistive technology like screen readers.

[if ][else if ][else][end if]


This structure checks statements in brackets one after another, left to right. If a statement evaluates as true, the code stops and prints the text within. The structure requires consideration for order of events.


[if [player] is pure male]You are male[else if [player] is pure female]You are female[else if [player] is herm]You are a herm[else]You are neuter[end if].
[if [player] is herm]You are a herm[else if [player] is female]You are female[else if [player] is male]You are male[else]You are neuter[end if].


The full logic of the first snippet is

[if (stat cocks of [player] > 0) and (stat cunts of [player] == 0)][else if (stat cunts of [player] > 0) and (stat cocks of [player] == 0)][else if (stat cocks of [player] > 0) and (stat cunts of [player] > 0)][else][end if]

The second snippet simplifies this logic to the equivalent of

[if (stat cocks of [player] > 0) and (stat cunts of [player] > 0)][else if stat cunts of [player] > 0][else if stat cocks of [player] > 0][else][end if]

[case ]


Case-statements are useful where lengthy [if ][else if ][end if] statements would result in redundancy.


[case stat X of [player] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when 1]E[end when]
[case [stat X of [player]] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when 1]E[end when]


If something is valid parsing on its own, such as '[stat X of [player]]' and '[the mutation X of [player]]', use that, so the stat will only have to be read once instead of in every [when ]-statement.


[if stat placeholder of [player] == 1]A[else if stat placeholder of [player] == 2]B[else if stat placeholder of [player] == 3]C[else if stat placeholder of [player] == 4]D[else if stat placeholder of [player] == 5]E[else]F[end if]
[case [stat placeholder of [player]] ==][when (target) 1]A[end when][when (target) 2]B[end when][when (target) 3]C[end when][when (target) 4]D[end when][when (target) 5]E[end when][when 1]F[end when][end case]


In the above example, a complex [if ]-chain is optimized to only read a stat once and evaluate its stored value.

Randomization

The following functions display content at random. Input is separated by [or].

[one of][or][at random]


The standard [one of][or][at random] statement is prone to redundancy.


Sometimes, you need to do something. [one of]Other times,[or]Sometimes,[at random] you don't.
Sometimes, you need to do something. [one of]Other times[or]Sometimes[at random], you don't.


In the above example, text redundancy is reduced by moving a comma after [at random].


[with odds: ]

[with odds: ] allows you to simplify many longer [one of] statements.

Example 1:


[one of]1[or]1[or]1[or]1[or]1[or]2[at random]
[one of]1[or]2[with odds: 5 1]


Example 2:

[one of]1[or]1[or]1[or]2[or]2[or]3[at random]
[one of]1[or]2[or]3[with odds: 3 2 1]

[random x to y]


This function is specialized for ranges of values. Note that it only accepts integers (negative ones included) and that 'x' should be less than 'y'.


[one of]1[or]2[or]3[or]4[or]5[or]6[at random]
[random 1 to 6]