Modifications pour le document Mission Director Guide

Modifié par Klaus Meyer le 2025/03/31 16:39

From 32961.1 to 32960.1 From 32970.3 to 32970.2

Depuis la version 32970.2

modifié par Owen Lake
sur 2023/10/10 15:34

Commentaire de modification : fighting with formatting

À la version 32961.1

modifié par Daniel Turner
sur 2023/08/24 10:01

Commentaire de modification : Il n'y a aucun commentaire pour cette version

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@@ -1,1 +1,1 @@
--xwiki:XWiki.Owen
++xwiki:XWiki.Daniel

Contenu

@@ -157,7 +157,7 @@
  * With //checkinterval//, you can specify a constant time interval between condition checks. The conditions will be checked regularly forever until they are met, unless the cue's state is changed explicitly by an external event.
--Additionally, you can use the attribute **checktime** to set the time of the first condition check (also possible in combination with //onfail//). The //checktime// can be an expression with variables and is evaluated when the cue is enabled (when the condition checks would normally start - for root cues that happens at game start, otherwise after the parent cue becomes active).
++Additionally, you can use the attribute **checktime** to set the time of the first condition check (also possible in combination with //onfail//). The //checktime// can be an expression with variables and is evaluated when the cue is enabled (when the condition checks would normally start ΓÇô for root cues that happens at game start, otherwise after the parent cue becomes active).
  Examples:
@@ -326,7 +326,7 @@
  </cue>
  {{/code}}
--The values (including default values) can be variable expressions and will be evaluated when the cue is enabled, i.e. when it starts checking the conditions. They will be available to the cue as variables, using the parameter name with a '$' prefix. In the example above, the variables $foo, $bar, and $baz would be created.
++The values (including default values) can be variable expressions and will be evaluated when the cue is enabled, i.e. when it starts checking the conditions. They will be available to the cue as variables, using the parameter name with a ΓÇÿ$' prefix. In the example above, the variables $foo, $bar, and $baz would be created.
  {{code language="xml"}}
  <library name="Lib">
@@ -417,6 +417,8 @@
  Since octal numbers are hardly ever used (usually unknowingly), the parser is will produce a warning if an octal number is encountered."
  {{/info}}
++
++
  You can write string literals by putting the string in single quotes:
  * {{code language="xml"}}'Hello world'{{/code}}
@@ -507,7 +507,7 @@
  \\{{code language="xml"}}typeof 'Hello world'{{/code}}|
  {{code language="xml"}}datatype.null{{/code}}
  \\{{code language="xml"}}datatype.integer{{/code}}
--\\{{code language="xml"}}datatype.string{{/code}}|Yields the [[data type of the following sub-expression>>||anchor="typeof" style="outline-width: 0px !important; user-select: auto !important;"]]
++\\{{code language="xml"}}datatype.string{{/code}}|Yields the [[data type of the following sub-expression>>MediaWiki.NULL]]
  |sin|unary|
  {{code language="xml"}}sin(30deg){{/code}}
  \\{{code language="xml"}}sin(pi){{/code}}|
@@ -517,23 +517,7 @@
  {{code language="xml"}}cos(60deg){{/code}}
  \\{{code language="xml"}}cos(pi){{/code}}|
  {{code language="xml"}}0.5{{/code}}
--\\{{code language="xml"}}-1.0{{/code}}|Cosine (function-style, parentheses required)
--|tan|unary|
--{{code language="xml"}}tan(-45deg){{/code}}
--\\{{code language="xml"}}tan(45deg){{/code}}|
--{{code language="xml"}}-1.0{{/code}}
--\\{{code language="xml"}}1.0{{/code}}|Tangent (function-style, parentheses required)
--|asin|unary|
--{{code language="xml"}}asin(-0.5f){{/code}}
--\\{{code language="xml"}}asin(1){{/code}}|
--{{code language="xml"}}-0.523599rad{{/code}}
--\\{{code language="xml"}}1.5708rad{{/code}}|Inverse sine (function-style, parentheses required)
--|acos|unary|
--{{code language="xml"}}acos(0.5f){{/code}}
--\\{{code language="xml"}}acos(1.0f){{/code}}|
--{{code language="xml"}}asin(2.0944rad){{/code}}
--\\{{code language="xml"}}0rad{{/code}}|Inverse cosine (function-style, parentheses required)
--|atan|unary| | |Inverse tangent (function-style, parentheses required)
++\\{{code language="xml"}}0.0{{/code}}|Cosine (function-style, parentheses required)
  |sqrt|unary|{{code language="xml"}}sqrt(2){{/code}}|{{code language="xml"}}1.414213LF{{/code}}|Square root (function-style, parentheses required)
  |exp|unary|{{code language="xml"}}exp(1){{/code}}|{{code language="xml"}}2.71828LF{{/code}}|Exponential function (function-style, parentheses required)
  |log|unary|{{code language="xml"}}log(8) / log(2){{/code}}|{{code language="xml"}}3.0LF{{/code}}|Natural logarithm (function-style, parentheses required)
@@ -563,12 +563,12 @@
  gt
  \\> (>)|binary|
  {{code language="xml"}}1 gt 3{{/code}}
--\\{{code language="xml"}}1 > 3{{/code}}|{{code language="xml"}}false{{/code}}|Greater than
++\\{{code language="xml"}}1 < 3{{/code}}|{{code language="xml"}}false{{/code}}|Greater than
  |
  ge
  \\>=|binary|
  {{code language="xml"}}1 ge 3{{/code}}
--\\{{code language="xml"}}1 >= 3{{/code}}|{{code language="xml"}}false{{/code}}|Greater than or equal to
++\\{{code language="xml"}}1 <= 3{{/code}}|{{code language="xml"}}false{{/code}}|Greater than or equal to
  |(((
  )))|binary|{{code language="xml"}}1 + 1 == 2.0{{/code}}|{{code language="xml"}}true{{/code}}|Equal to
@@ -637,18 +637,21 @@
  * "and" and "or" use short-circuit semantics: The right side of the operation can be skipped if the left side already determines the outcome of the operation
  ** Example:{{code language="xml"}} false and $foo{{/code}} ⟹ {{code language="xml"}}false{{/code}} (the value of $foo is not checked at all)
  * Unlike != and ==, the comparison operators <, <=, >, >= are only supported **for numeric values**, **difficulty levels**, and **attention levels**. Comparing other non-numeric values will result in an error and an undefined result.
--* <, <=, >, >= cannot be used in XML directly, so lt, le, gt, ge are provided as alternatives. In some cases you won't have to use them, though - using [[range checks>>doc:||anchor="HValuecomparisons"]] with additional XML attributes can be more readable.
++* <, <=, >, >= cannot be used in XML directly, so lt, le, gt, ge are provided as alternatives. In some cases you won't have to use them, though - using [[range checks>>MediaWiki.NULL]] with additional XML attributes can be more readable.
--== (% id="categorybroken_macroanchorstrings-and-formatting" %)Strings and formatting(%%) ==
++(% id="categorybroken_macroanchorstrings-and-formatting" %)== Strings and formatting==
++
++{{{==}}}
++
  You can concatenate string literals using the + operator, but there is also a printf-like formatting syntax, which is easier to use than concatenating lots of small pieces:
  * {{code language="xml"}}'The %1 %2 %3 jumps over the %5 %4'.['quick', 'brown', 'fox', 'dog', 'lazy']{{/code}}
  * {{code language="xml"}}'%1 + %2 = %3'.[$a, $b, $a + $b]{{/code}}
--See also the section about [[value properties>>doc:||anchor="HValueproperties" style="outline-width: 0px !important; user-select: auto !important;"]].
++See also the section about [[value properties>>MediaWiki.NULL]].
--Instead of '%1 %2 %3', you can also use '%s %s %s', which is also compatible with Lua string formatting in the UI system. However, this should only be used if you are sure that the order is the same in all supported languages. If you want to make translators aware that they can change the order of parameters, you should prefer '%1 %2 %3'.
++Instead of ΓÇÿ%1 %2 %3', you can also use ΓÇÿ%s %s %s', which is also compatible with Lua string formatting in the UI system. However, this should only be used if you are sure that the order is the same in all supported languages. If you want to make translators aware that they can change the order of parameters, you should prefer '%1 %2 %3'.
  \\To get a percent character in the result string, use '%%' in the format string.
  \\\\\\If you need a more sophisticated method for text substitution, try **<substitute_text>**. See the XML schema documentation for this script action.
  \\**[New as of X Rebirth 4.0]**
@@ -665,14 +665,14 @@
  * "." must be followed by a single digit (0-9). In case of ".0" any fractional digits are discarded (rounding towards zero, not half away from zero).
  {{info}}
--There are also special methods to [[format money values and time values>>doc:||anchor="HMoneyandtimeformatting" style="outline-width: 0px !important; user-select: auto !important;"]] using the "formatted" property.
++There are also special methods to [[NULL|format money values and time values]] using the "formatted" property.
  {{/info}}
  == Lists ==
--Another example for a non-numeric value is a list: It is an ordered collection of other arbitrary values (called array or vector in other languages). It can be constructed within an expression using the [[~[~] syntax>>doc:||anchor="HOperators"]]. It may also be generated by special actions and conditions, and there are actions that can [[insert or remove values>>doc:||anchor="HCreatingandremovingvariables" style="outline-width: 0px !important; user-select: auto !important;"]].
++Another example for a non-numeric value is a list: It is an ordered collection of other arbitrary values (called array or vector in other languages). It can be constructed within an expression using the [[~[~] syntax>>MediaWiki.NULL]]. It may also be generated by special actions and conditions, and there are actions that can [[insert or remove values>>MediaWiki.NULL]].
--A list can contain values of arbitrary data types, even mixed in the same list - so a list can actually contain other lists. However, some of the things that you can do with lists require that all contained elements are of a certain type. The contents of a list can be accessed via properties, see the section about [[value properties>>doc:||anchor="HValueproperties"]]. Lists can be empty, these are written as "[ ]".
++A list can contain values of arbitrary data types, even mixed in the same list - so a list can actually contain other lists. However, some of the things that you can do with lists require that all contained elements are of a certain type. The contents of a list can be accessed via properties, see the section about [[value properties>>MediaWiki.NULL]]. Lists can be empty, these are written as "[ ]".
  {{info}}
  When accessing a list's elements, the numbering is '''1-based''', so the first element has number 1. This is intuitive but different from 0-based numbering in most programming languages."
@@ -691,7 +691,7 @@
  (% id="categorybroken_macroanchortables" %)
  == Tables ==
--Tables are associative arrays - they are like lists, but you can assign values to (almost) arbitrary keys, not just to index numbers. A table is constructed within an expression using the [[table~[~] syntax>>doc:||anchor="HOperators" style="outline-width: 0px !important; user-select: auto !important;"]]. See the section about [[value properties>>doc:||anchor="HValueproperties" style="outline-width: 0px !important; user-select: auto !important;"]] for how to access the contents of a table. [[Creating and removing entries>>doc:||anchor="HCreatingandremovingvariables" style="outline-width: 0px !important; user-select: auto !important;"]] works similarly to lists, but instead of inserting, you simply assign a value to a table key. If the key does not exist yet, it will be created.
++Tables are associative arrays - they are like lists, but you can assign values to (almost) arbitrary keys, not just to index numbers. A table is constructed within an expression using the [[table~[~] syntax>>MediaWiki.NULL]]. See the section about [[value properties>>MediaWiki.NULL]] for how to access the contents of a table. [[Creating and removing entries>>MediaWiki.NULL]] works similarly to lists, but instead of inserting, you simply assign a value to a table key. If the key does not exist yet, it will be created.
  Almost all values are allowed as table keys, but there are a few exceptions:
@@ -784,7 +784,7 @@
  * {{code language="xml"}}$table.keys.random{{/code}}: A randomly chosen key (which requires that the table is non-empty)
  {{info}}
--The string formatting syntax that you have seen [[above>>doc:||anchor="HStringsandformatting" style="outline-width: 0px !important; user-select: auto !important;"]] is also based on the property system. You basically pass a list as property key to a string. Braces around the brackets are not required, so 'foo'.[...] is just a convenient alternative notation for 'foo'.{[...]}.
++The string formatting syntax that you have seen [[NULL|above]] is also based on the property system. You basically pass a list as property key to a string. Braces around the brackets are not required, so 'foo'.[...] is just a convenient alternative notation for 'foo'.{[...]}.
  {{/info}}
  === (% id="lookup-tests-and-suppressing-errors" %)Lookup tests and suppressing errors(%%) ===
@@ -836,11 +836,11 @@
  |profile|
  profile.flat
  \\profile.increasing
--\\profile.bell|Probability distribution profile (see [[random ranges>>doc:||anchor="HRandomranges" style="outline-width: 0px !important; user-select: auto !important;"]])
++\\profile.bell|Probability distribution profile (see [[random ranges>>MediaWiki.NULL]])
  |cuestate|
  cuestate.waiting
  \\cuestate.active
--\\cuestate.complete|[[Cue states>>||anchor="HCues" style="outline-width: 0px !important; user-select: auto !important;"]]
++\\cuestate.complete|[[Cue states>>MediaWiki.NULL]]
  |level|
  level.easy
  \\level.medium
@@ -860,8 +860,6 @@
  \\faction.argongovernment|Factions
  )))
--{{id name="typeof"/}}
--
  {{info}}
  With the ''typeof'' operator you can get the datatype of any expression and compare it with what you expect, for example:
@@ -909,7 +909,7 @@
  === (% id="categorybroken_macroanchormoney-and-time-formatting" %)Money and time formatting(%%) ===
  **[New as of X Rebirth 4.0]**
--\\Numbers don't have any properties, except for money and time: They have a "**formatted**" property, which allows you to get a custom string representation with more advanced options than the [[generic formatting method>>||anchor="HStringsandformatting" style="outline-width: 0px !important; user-select: auto !important;"]] for numbers.
++\\Numbers don't have any properties, except for money and time: They have a "**formatted**" property, which allows you to get a custom string representation with more advanced options than the [[generic formatting method>>MediaWiki.NULL]] for numbers.
  * {{code language="xml"}}$money.formatted.{'formatstring'}{{/code}}
  * {{code language="xml"}}$money.formatted.default{{/code}} (using default format string '%s')
@@ -945,7 +945,7 @@
  * {{code language="xml"}}(1234Cr).formatted.{'%1s'}{{/code}}⟹{{code language="xml"}}'1 k'{{/code}} (rounding towards zero)
  * {{code language="xml"}}(1234Cr).formatted.{'%cM'}{{/code}}⟹{{code language="xml"}}'0 M'{{/code}}
--For documentation of time format strings, see the Lua function ConvertTimeString() in the [[Lua function overview>>doc:X Rebirth Wiki.Modding support.UI Modding support.Lua function overview.WebHome||style="outline-width: 0px !important; user-select: auto !important;"]].
++For documentation of time format strings, see the Lua function ConvertTimeString() in the [[MediaWiki.ARCHIVE.XRWIKIModding_supportUI_Modding_supportLua_function_overview]].
  Examples:
@@ -1088,6 +1088,7 @@
    <set_value name="$foo" min="-20" max="20" profile="profile.increasing" scale="4"/>
  {{/code}}
++
  = Variables and namespaces =
  As you have seen above, you can easily access variables by writing their name (including $ prefix) in an expression. Namespaces define in which cue the variables are actually stored (and from which cue they are read).
@@ -1142,6 +1142,7 @@
  Removing an entry from a list shifts all following elements down by one. If you want to clear an entry without removing it from the list, just use <set_value> instead.
++
  == Accessing remote variables ==
  You can also read and write variables in other cues by using the variable name as property key:

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