Difference between revisions of "LlSetText"

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m (adjusted colors in example script to hurt the eyes less)
(clarified the floating text uses UTF-8 encoding, and multibyte characters are just deleted if they cross the boundary instead of resulting in garbage)
 
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{{LSL_Function
{{LSL_Function
|inject-2={{:PRIM_TEXT|set}}{{Issues/SVC-4539}}
|inject-2={{:PRIM_TEXT|set}}{{Issues/SVC-4539}}{{Issues/BUG-11077}}
|func_id=152
|func_id=152
|func_sleep=0.0
|func_sleep=0.0
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|caveats=
|caveats=
*If more than one [[llSetText]] is called (By reset,interaction or script state) within a prim the latest call will take priority over the previous.
*If more than one [[llSetText]] is called (By reset,interaction or script state) within a prim the latest call will take priority over the previous.
*{{LSLP|text}} is limited to 254 [[bytes]] (compare [[Limits#Building]]), if the [[string]] is longer it will be truncated to 254 [[bytes]], even if that means the truncation will chop a character in half.
*{{LSLP|text}} is limited to 254 [[bytes]] (compare [[Limits#Building]]) in UTF-8 encoding. If the [[string]] is longer it will be truncated to 254 [[bytes]], and any multibyte characters getting split will be removed entirely.
*An unbroken line of text of a great length may be broken automatically into two lines (one above the other).
*An unbroken line of text of a great length may be broken automatically into two lines (one above the other).
*{{LSLP|text}} can be seen through walls and other object. Be considerate of neighbors in malls and apartment buildings.
*{{LSLP|text}} can be seen through walls and other object. Be considerate of neighbors in malls and apartment buildings.
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{{!}}-
{{!}}-
{{!!}}
{{!!}}
<lsl>
<syntaxhighlight lang="lsl2">
//  empty string & black & transparent
//  empty string & black & transparent
     llSetText("", ZERO_VECTOR, 0);
     llSetText("", ZERO_VECTOR, 0);
</lsl>
</syntaxhighlight>
{{!!}}
{{!!}}
<lsl>
<syntaxhighlight lang="lsl2">
//  empty string & black & transparent
//  empty string & black & transparent
     llSetText("", <0.0, 0.0, 0.0>, 0.0);
     llSetText("", <0.0, 0.0, 0.0>, 0.0);
</lsl>
</syntaxhighlight>
{{!}}}
{{!}}}
*Vertical whitespace is removed from the end of the {{LSLP|text}} string, so if you want vertical whitespace put any character (like a space) on the last line.
*Vertical whitespace is removed from the end of the {{LSLP|text}} string, so if you want vertical whitespace put any character (like a space) on the last line.
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{{!}}-
{{!}}-
{{!!}}
{{!!}}
<lsl>
<syntaxhighlight lang="lsl2">
     vector COLOR_WHITE = <1.0, 1.0, 1.0>;
     vector COLOR_WHITE = <1.0, 1.0, 1.0>;
     float  OPAQUE      = 1.0;
     float  OPAQUE      = 1.0;


     llSetText("Monkeys\n \n \n \n \n ", COLOR_WHITE, OPAQUE);
     llSetText("Monkeys\n \n \n \n \n ", COLOR_WHITE, OPAQUE);
</lsl>
</syntaxhighlight>
{{!!}}
{{!!}}
<lsl>
<syntaxhighlight lang="lsl2">
     vector COLOR_WHITE = <1.0, 1.0, 1.0>;
     vector COLOR_WHITE = <1.0, 1.0, 1.0>;
     float  OPAQUE      = 1.0;
     float  OPAQUE      = 1.0;


     llSetText("Monkeys\n\n\n\n\n", COLOR_WHITE, OPAQUE);
     llSetText("Monkeys\n\n\n\n\n", COLOR_WHITE, OPAQUE);
</lsl>
</syntaxhighlight>
{{!}}}
{{!}}}
*'''Measurements showed a high impact of process time when doing numerous iterations in a while loop'''. For approx. 65 thousand iterations the process times are ca. 5 seconds without floating text, 24 seconds with [[llSetText]] and 96 seconds when using [[llSetPrimitiveParams#llSetLinkPrimitiveParamsFast]] in combination with [[PRIM_TEXT]]. Thats why you are '''not advised''' to make excessive use of changing a prim's {{LSLP|text}} within such iterations.
*'''Measurements showed a high impact of process time when doing numerous iterations in a while loop'''. For approx. 65 thousand iterations the process times are ca. 5 seconds without floating text, 24 seconds with [[llSetText]] and 96 seconds when using [[llSetPrimitiveParams#llSetLinkPrimitiveParamsFast]] in combination with [[PRIM_TEXT]]. Thats why you are '''not advised''' to make excessive use of changing a prim's {{LSLP|text}} within such iterations.
|examples=
|examples=
Example of how [[llSetText]] could be used to show prim's name in green {{LSLP|text}}:
Example of how [[llSetText]] could be used to show prim's name in green {{LSLP|text}}:
<lsl>
<syntaxhighlight lang="lsl2">
default
default
{
{
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//      prim's name (not necessarily object's)
//      prim's name (not necessarily object's)
         llSetText(llGetObjectName(), <0.0, 1.0, 0.0>, 1.0 );
         llSetText(llGetObjectName(), COLOR_GREEN, OPAQUE );


//      delete the script as we only needed it to change the floating text property
//      delete the script as we only needed it to change the floating text property
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     }
     }
}
}
</lsl>
</syntaxhighlight>
By default the floating {{LSLP|text}} will appear on a single line. However, it can be spread over multiple lines by using a line break <code>"\n"</code> (read [[SplitLine]] in section 'See Also').
By default the floating {{LSLP|text}} will appear on a single line. However, it can be spread over multiple lines by using a line break <code>"\n"</code> (read [[SplitLine]] in section 'See Also').


===String escape codes:===
===String escape codes:===


LSL has four [[string]] [[String#Escape_Codes|escape codes]]:
LSL has four [[String#Escape Codes|string escape codes]]:
* <code>\n</code> for a new line
* <code>\n</code> for a new line
* <code>\\</code> for a backslash
* <code>\\</code> for a backslash
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===Color & Alpha===
===Color & Alpha===


{{{!}} class="sortable" {{Prettytable}}
{{{!}} class="sortable" {{Prettytable}}
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{{!}}-
{{!}}-
{{!}} style="color: white; background: #111111" {{!}}BLACK
{{!}} style="color: white; background: #111111" {{!}}BLACK
{{!}}<code><0.067, 0.067, 0.067></code>
{{!}}<code><0.000, 0.000, 0.000></code>
{{!}}}
{{!}}}


The x, y & z [[Vector#Components|components of the vector]] are used to represent red, green, and blue respectively. The range is <span style="background-color: yellow">different from traditional RGB</span>, instead of being 0 -> 255, LSL uses 0 -> 1. <code><1.0, 1.0, 1.0></code> represents "white" and <code><0.0, 0.0, 0.0></code> represents "black":
The x, y & z [[Vector#Components|components of the vector]] are used to represent red, green, and blue respectively. The range is <span style="background-color: yellow">different from traditional RGB</span>, instead of being 0 -> 255, LSL uses 0 -> 1. <code><1.0, 1.0, 1.0></code> represents "white" and <code><0.0, 0.0, 0.0></code> represents "black":
<lsl>
<syntaxhighlight lang="lsl2">
//  white & opaque
//  white & opaque
     llSetText("I am white", <1.0, 1.0, 1.0>, 1.0);
     llSetText("I am white", <1.0, 1.0, 1.0>, 1.0);
</lsl>
</syntaxhighlight>
<lsl>
<syntaxhighlight lang="lsl2">
     vector myColor;// defaults to ZERO_VECTOR or <0.0, 0.0, 0.0> which is black
     vector myColor;// defaults to ZERO_VECTOR or <0.0, 0.0, 0.0> which is black


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     llSetText("I am now red and 10% transparent.", myColor, 0.9);
     llSetText("I am now red and 10% transparent.", myColor, 0.9);
</lsl>
</syntaxhighlight>
If {{LSLP|alpha}} is 1.0 it means the {{LSLP|text}} is fully opaque (alpha), 0.0 would make it completely transparent (invisible):
If {{LSLP|alpha}} is 1.0 it means the {{LSLP|text}} is fully opaque (alpha), 0.0 would make it completely transparent (invisible):
<lsl>
<syntaxhighlight lang="lsl2">
     llSetText("green text with alpha 0.7", <0.0, 1.0, 0.0>, 0.7);
     llSetText("green text with alpha 0.7", <0.0, 1.0, 0.0>, 0.7);


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     llSetText("invisible black text with alpha 0.0\nfully transparent", ZERO_VECTOR, 0);
     llSetText("invisible black text with alpha 0.0\nfully transparent", ZERO_VECTOR, 0);
     llSetText("invisible black text with alpha 0.0\nfully transparent", <0.0, 0.0, 0.0>, 0.0);
     llSetText("invisible black text with alpha 0.0\nfully transparent", <0.0, 0.0, 0.0>, 0.0);
</lsl>
</syntaxhighlight>
===Multiple lines===
===Multiple lines===
<lsl>
<syntaxhighlight lang="lsl2">
//  two lines of orange text
//  two lines of orange text


     llSetText("I am\non two lines!", <1.0, 0.4, 0.0>, 1.0);
     llSetText("I am\non two lines!", <1.0, 0.4, 0.0>, 1.0);
</lsl>
</syntaxhighlight>
|helpers=
|helpers=
Drag this script out of inventory onto an object to erase its set text:
Drag this script out of inventory onto an object to erase its set text:
<lsl>
<syntaxhighlight lang="lsl2">
// http://wiki.secondlife.com/wiki/llSetText
// http://wiki.secondlife.com/wiki/llSetText


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     }
     }
}
}
</lsl>
</syntaxhighlight>
Code to easily specify appearance of hovertext:
Code to easily specify appearance of hovertext:
<lsl>
<syntaxhighlight lang="lsl2">
vector NAVY    = <0,    0.122, 0.247>;
vector NAVY    = <0,    0.122, 0.247>;
vector BLUE    = <0,    0.455, 0.851>;
vector BLUE    = <0,    0.455, 0.851>;
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vector SILVER  = <0.867, 0.867, 0.867>;
vector SILVER  = <0.867, 0.867, 0.867>;
vector GRAY    = <0.667, 0.667, 0.667>;
vector GRAY    = <0.667, 0.667, 0.667>;
vector BLACK  = <0.067, 0.067, 0.067>;
vector BLACK  = <0.000, 0.000, 0.000>;


string  hoverText  = "TEXT GOES HERE";
string  hoverText  = "TEXT GOES HERE";
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     }
     }
}
}
</lsl>
</syntaxhighlight>
To make hovertext under linked prims you can use this simple function:
To make hovertext when using linked prims you can use this simple function:
<lsl>
<syntaxhighlight lang="lsl2">
mySetLinkText(integer linknum, string text, vector color, float alpha) {
mySetLinkText(integer linknum, string text, vector color, float alpha) {
     llSetLinkPrimitiveParamsFast(linknum, [PRIM_TEXT, text, color, alpha]);
     llSetLinkPrimitiveParamsFast(linknum, [PRIM_TEXT, text, color, alpha]);
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     }
     }
}
}
</lsl>
</syntaxhighlight>
|also
|also
|also_functions
|also_functions
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{{LSL DefineRow||[[:Category:LSL Examples|Examples]]: [[SplitLine]]|Insert 'new line' escape codes at certain positions of a string}}
{{LSL DefineRow||[[:Category:LSL Examples|Examples]]: [[SplitLine]]|Insert 'new line' escape codes at certain positions of a string}}
{{LSL DefineRow||Useful snippet: [[llGetObjectPermMask]]|Label an object with text and newlines to give away or sell}}
{{LSL DefineRow||Useful snippet: [[llGetObjectPermMask]]|Label an object with text and newlines to give away or sell}}
{{LSL DefineRow||[[escape codes]]|for details on how and when they work}}
|notes=To actually display text on a prim, see [[XyzzyText]], or consider using parcel prim [[:Category:LSL_Media|Media]] options (useful only if you have control over the land's media settings.)
|notes=To actually display text on a prim, see [[XyzzyText]], or consider using parcel prim [[:Category:LSL_Media|Media]] options (useful only if you have control over the land's media settings.)
----
----

Latest revision as of 13:19, 26 May 2024

Summary

Function: llSetText( string text, vector color, float alpha );
0.0 Forced Delay
10.0 Energy

Displays text that hovers over the prim with specific color and translucency (specified with alpha).

• string text floating text to display
• vector color color in RGB <R, G, B> (<0.0, 0.0, 0.0> = black, <1.0, 1.0, 1.0> = white)
• float alpha from 0.0 (clear) to 1.0 (solid) (0.0 <= alpha <= 1.0)

Caveats

  • Do not rely on Floating Text as a storage medium; it is neither secure nor finalized.
    • Floating text has been altered in past server updates, breaking existing content; future changes may occur.
    • Even "invisible"[1] floating text is transmitted to the client.
      • It can be viewed by anyone with a client that is capable of rendering text that is supposed to be invisible.
      • The network packets that contain the text can be sniffed and the text read.
  • If more than one llSetText is called (By reset,interaction or script state) within a prim the latest call will take priority over the previous.
  • text is limited to 254 bytes (compare Limits#Building) in UTF-8 encoding. If the string is longer it will be truncated to 254 bytes, and any multibyte characters getting split will be removed entirely.
  • An unbroken line of text of a great length may be broken automatically into two lines (one above the other).
  • text can be seen through walls and other object. Be considerate of neighbors in malls and apartment buildings.
    • Visibility distance increases with prim size.
  • Removing the script or deactivating it will not remove a prim's text property. Floating text is not dependent on a script for its continued existence but only when wanting to change it.
  • To remove a prim's text, use the following:
Preferred method to remove a prim's floating text Second method does the same effect-wise.
//  empty string & black & transparent
    llSetText("", ZERO_VECTOR, 0);
//  empty string & black & transparent
    llSetText("", <0.0, 0.0, 0.0>, 0.0);
  • Vertical whitespace is removed from the end of the text string, so if you want vertical whitespace put any character (like a space) on the last line.
  • Multiple linebreaks with empty lines are converted to a single linebreak, so add a whitespace character on every line you want to skip:
Good Bad
    vector COLOR_WHITE = <1.0, 1.0, 1.0>;
    float  OPAQUE      = 1.0;

    llSetText("Monkeys\n \n \n \n \n ", COLOR_WHITE, OPAQUE);
    vector COLOR_WHITE = <1.0, 1.0, 1.0>;
    float  OPAQUE      = 1.0;

    llSetText("Monkeys\n\n\n\n\n", COLOR_WHITE, OPAQUE);
  • Measurements showed a high impact of process time when doing numerous iterations in a while loop. For approx. 65 thousand iterations the process times are ca. 5 seconds without floating text, 24 seconds with llSetText and 96 seconds when using llSetPrimitiveParams#llSetLinkPrimitiveParamsFast in combination with PRIM_TEXT. Thats why you are not advised to make excessive use of changing a prim's text within such iterations.

Examples

Example of how llSetText could be used to show prim's name in green text:

default
{
    state_entry()
    {
        vector COLOR_GREEN = <0.0, 1.0, 0.0>;
        float  OPAQUE      = 1.0;

//      prim's name (not necessarily object's)
        llSetText(llGetObjectName(), COLOR_GREEN, OPAQUE );

//      delete the script as we only needed it to change the floating text property
        llRemoveInventory(llGetScriptName());
    }
}

By default the floating text will appear on a single line. However, it can be spread over multiple lines by using a line break "\n" (read SplitLine in section 'See Also').

String escape codes:

LSL has four string escape codes:

  • \n for a new line
  • \\ for a backslash
  • \t for a tab
  • \" for a double-quote

Color & Alpha

Color Code
NAVY <0.000, 0.122, 0.247>
BLUE <0.000, 0.455, 0.851>
AQUA <0.498, 0.859, 1.000>
TEAL <0.224, 0.800, 0.800>
OLIVE <0.239, 0.600, 0.439>
GREEN <0.180, 0.800, 0.251>
LIME <0.004, 1.000, 0.439>
YELLOW <1.000, 0.863, 0.000>
ORANGE <1.000, 0.522, 0.106>
RED <1.000, 0.255, 0.212>
MAROON <0.522, 0.078, 0.294>
FUCHSIA <0.941, 0.071, 0.745>
PURPLE <0.694, 0.051, 0.788>
WHITE <1.000, 1.000, 1.000>
SILVER <0.867, 0.867, 0.867>
GRAY <0.667, 0.667, 0.667>
BLACK <0.000, 0.000, 0.000>

The x, y & z components of the vector are used to represent red, green, and blue respectively. The range is different from traditional RGB, instead of being 0 -> 255, LSL uses 0 -> 1. <1.0, 1.0, 1.0> represents "white" and <0.0, 0.0, 0.0> represents "black":

//  white & opaque
    llSetText("I am white", <1.0, 1.0, 1.0>, 1.0);
    vector myColor;// defaults to ZERO_VECTOR or <0.0, 0.0, 0.0> which is black

    llSetText("I am black and 30% transparent.", myColor, 0.7);

    llSleep(7.5);   // before: <0.0, 0.0, 0.0> black
    myColor.x = 1.0;// now:    <1.0, 0.0, 0.0> red

    llSetText("I am now red and 10% transparent.", myColor, 0.9);

If alpha is 1.0 it means the text is fully opaque (alpha), 0.0 would make it completely transparent (invisible):

    llSetText("green text with alpha 0.7", <0.0, 1.0, 0.0>, 0.7);

    llSetText("white text with alpha 0.4\n60% transparent", <1.0, 1.0, 1.0>, 0.4);
    llSetText("white text with alpha 1.0\nfully opaque", <1.0, 1.0, 1.0>, 1.0);

//  next to lines have the same effect
    llSetText("invisible black text with alpha 0.0\nfully transparent", ZERO_VECTOR, 0);
    llSetText("invisible black text with alpha 0.0\nfully transparent", <0.0, 0.0, 0.0>, 0.0);

Multiple lines

//  two lines of orange text

    llSetText("I am\non two lines!", <1.0, 0.4, 0.0>, 1.0);

Useful Snippets

Drag this script out of inventory onto an object to erase its set text:

// http://wiki.secondlife.com/wiki/llSetText

default
{
    state_entry()
    {
//      remove floating text (empty string & black & 100% transparent)
        llSetText("", ZERO_VECTOR, 0.0);

//      delete the script as we only needed it to change the floating text property
        llRemoveInventory(llGetScriptName());
    }
}

Code to easily specify appearance of hovertext:

vector NAVY    = <0,     0.122, 0.247>;
vector BLUE    = <0,     0.455, 0.851>;
vector AQUA    = <0.498, 0.859, 1    >;
vector TEAL    = <0.224, 0.8,   0.8  >;
vector OLIVE   = <0.239, 0.6,   0.439>;
vector GREEN   = <0.18,  0.8,   0.251>;
vector LIME    = <0.004, 1    , 0.439>;
vector YELLOW  = <1    , 0.863, 0    >;
vector ORANGE  = <1    , 0.522, 0.106>;
vector RED     = <1    , 0.255, 0.212>;
vector MAROON  = <0.522, 0.078, 0.294>;
vector FUCHSIA = <0.941, 0.071, 0.745>;
vector PURPLE  = <0.694, 0.051, 0.788>;
vector WHITE   = <1    , 1    , 1    >;
vector SILVER  = <0.867, 0.867, 0.867>;
vector GRAY    = <0.667, 0.667, 0.667>;
vector BLACK   = <0.000, 0.000, 0.000>;

string  hoverText   = "TEXT GOES HERE";
vector  hoverColor  = LIME;//  set predefined color or any RGB color vector in float form
float   hoverAlpha  = 1.0; // Sets the text's transparency, 1.0 being opaque, while 0.0 would be transparent

default
{
    state_entry()
    {
        llSetText(hoverText, hoverColor, hoverAlpha);
    }
}

To make hovertext when using linked prims you can use this simple function:

mySetLinkText(integer linknum, string text, vector color, float alpha) {
    llSetLinkPrimitiveParamsFast(linknum, [PRIM_TEXT, text, color, alpha]);
}

// For example:

default
{
    touch_start(integer total_number)
    {
        mySetLinkText(LINK_SET, "TEST", <0, 1, 0>, 0.5);
    }
}

Notes

To actually display text on a prim, see XyzzyText, or consider using parcel prim Media options (useful only if you have control over the land's media settings.)


The function displays text that hover over the prim's center, the prim position. The height over the center is proportional to the prim's Z-dimension exclusively

  • It doesn't matter how the prim is rotated, so if Z is smaller than X and Y the text may be seen on the prim

See Also

Constants

•  PRIM_TEXT

Articles

•  Limits SL limits and constrictions
•  Color in LSL
•  Translucent Color
•  Examples: SplitLine Insert 'new line' escape codes at certain positions of a string
•  Useful snippet: llGetObjectPermMask Label an object with text and newlines to give away or sell
•  escape codes for details on how and when they work

Deep Notes

Footnotes

  1. ^ Floating text with an alpha set to 0.0 is rendered "invisible"

Signature

function void llSetText( string text, vector color, float alpha );