Difference between revisions of "Hex"

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{{LSL Header}}__NOTOC__
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__TOC__


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{{#vardefine:p_value_desc|signed value to be expressed as signed hex}}
{{#vardefine:p_value_desc|signed value to be expressed as negative or nonnegative hex}}
== Function: [[string]] hex([[integer]] {{LSL Param|value}}); ==
== Function: [[string]] hex([[integer]] {{LSL Param|value}}); ==
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Note: Results with eight nybbles begin always with one of the positive signed nybbles 1 2 3 4 5 6 7, never with a zero or unsigned nybble 0 8 9 A B C D E F.
Note: Always begins any result of eight nybbles with one of the positive signed nybbles 1 2 3 4 5 6 7, never with a zero or unsigned nybble 0 8 9 A B C D E F, except for the boundary test case of the most negative integer "-0x80000000".
 
Caution: This page was a work in progress as of 2007-10. The specification, the implementations, the demo, and the sample results may not yet be totally consistent. See the [[Talk:Hex|discussion]] tab.
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== Implementations ==
== Code ==
<div style="padding: 0.5em;">
<div style="padding: 0.5em;">
Below are several different versions of the same two functions, each has been optimized with a different use case. These use cases are titled with the common programing goals they highlight: '''Design Conformance''', '''Readability''', '''Speed''' and '''Size'''. Unfortunately with LSL it is typically very difficult if not impossible to write code that embodies all of these design goals but it is possible to achieve several of them.
The design specification only specifies one function with a specific interface, implementations that do not meet that requirement are not marked as Design Conforming.


=== Design Conforming & Readability ===
The brief, clear, conventional code here implements this specification exactly.


You should feel this code is easy to review, and modify. Upon review it is easy to see this code conforms to the specification and is easy to read. Additionally the comments instruct the user on how to substitute the easy-to-read upper case A B C D E F nybbles of IBM style for the easy-to-type lower case a b c d e f nybbles of AT&T style. The cost of this readability and easy of use is that the code runs substantially slower and has a larger memory footprint. Every other implementation runs faster then this one.
The [[Efficient Hex]] article presents an alternative approach: clever, small, and fast code to implement the same specification and related specifications, and also links to instruments that measure small and fast.


<pre>
<source lang="lsl2">
// http://wiki.secondlife.com/wiki/hex
// http://wiki.secondlife.com/wiki/hex


string XDIGITS = "0123456789abcdef"; // could be "0123456789ABCDEF"
string XDIGITS = "0123456789abcdef"; // could be "0123456789ABCDEF"


string bits2nybbles(integer bits)
string hexes(integer bits)
{
{
     string nybbles = "";
     string nybbles = "";
     while (bits)
     while (bits)
     {
     {
         integer lsbs = bits & 0xF;
         integer lsn = bits & 0xF; // least significant nybble
         string nybble = llGetSubString(XDIGITS, lsbs, lsbs);
         string nybble = llGetSubString(XDIGITS, lsn, lsn);
         nybbles = nybble + nybbles;
         nybbles = nybble + nybbles;
         bits = bits >> 4; // discard the least significant bits at right
         bits = bits >> 4; // discard the least significant bits at right
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     if (value < 0)
     if (value < 0)
     {
     {
         return "-0x" + bits2nybbles(-value);
         return "-0x" + hexes(-value);
     }
     }
     else if (value == 0)
     else if (value == 0)
     {
     {
         return "0x0"; // bits2nybbles(value) == "" when (value == 0)
         return "0x0"; // hexes(value) == "" when (value == 0)
     }
     }
     else // if (0 > value)
     else // if (0 < value)
     {
     {
         return "0x" + bits2nybbles(value);
         return "0x" + hexes(value);
     }
     }
}
}
</pre>
</source>


=== Design Conforming & Speed ===
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In this implementation the readability and size have been scarified for speed. At execution, from call to return the fewest number of operators are executed, specifically the loop has been setup to use the fewest number of operators per iteration. In the double function category, this is the fastest implementation.
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<pre>
== Demo Results ==
// http://wiki.secondlife.com/wiki/hex
<div style="padding: 0.5em;">


string XDIGITS = "0123456789abcdef"; // could be "0123456789ABCDEF"
Running the demo should produce exactly these results:
 
string hexu(integer bits)
{
    integer index = (bits & 0xF);
    string nybbles = llGetSubString(XDIGITS, index, index);
    if ((bits = (0xfffFFFF & (bits >> 4))))
    {
        do
        {
            nybbles = llGetSubString(XDIGITS, index = (bits & 0xF), index) + nybbles;
        } while ((bits = (bits >> 4)));
    }
    return "0x" + nybbles;
}
 
string hex(integer value)
{
    //saves one byte over "value < 0" and is faster.
    if (value & 0x80000000) return "-" + hexu(-value);
    return hexu(value);
}
</pre>
 
=== Design Conforming & Size ===
 
Here is a size optimized implementation. It has a reduced memory footprint but is slower then a Speed implementations.


<pre>
<pre>
// http://wiki.secondlife.com/wiki/hex
Hello
 
0x0 == 0
string hexu(integer bits)
0x400 == (0x00FEDC00 & -0x00FEDC00)
{
0x40000000 == (1 << 30)
    string nybbles = "";
-0x80000000 == 0x80000000
    do
-0x123678a == 0xFEDC9876
    {
-0x1 == -1
        integer index = bits & 0xF;
-0x1 == 0x123456789
        nybbles = llGetSubString("0123456789abcdef", index, index) + nybbles;
OK
    } while ((bits = (0xfffFFFF & (bits >> 4))));
Hello again
    return "0x" + nybbles;
0x7fffffff as base
}
0x7fffffff by owner
 
0x0 by group
string hex(integer value)
0x0 by anyone
{
0x82000 by next owner
    //saves one byte over "value < 0" and is faster.
aka 532480
    if (value & 0x80000000) return "-" + hexu(-value);
OK
    return hexu(value);
}
</pre>
 
 
=== Design Conforming & Size - Signed Only ===
 
Here is an optimized implementation that only uses a single function, this provides an additional reduction to the memory footprint.
 
<pre>
// http://wiki.secondlife.com/wiki/hex
 
string hex(integer value)
{
    string lead = "0x";
    if(value & 0x80000000)
    {//saves one byte over "value < 0" and is faster.
        lead = "-0x";
        value = -value;
    }
    string nybbles = "";
    do
    {
        integer index = value & 0xF;
        nybbles = llGetSubString("0123456789abcdef", index, index) + nybbles;
    } while ((value = (0xfffFFFF & (value >> 4))));
    return lead + nybbles;
}
</pre>
 
=== Size ===
 
Here is a version where the calling interface has been changed to allow for the two functions to be merged. This merge allows for a considerable savings in bytecode. This savings evaporates if the function is explicitly called from more than 10 places in the script (as compared to the double function size implementation). This of course assumes you need both sets of functionality.
 
<pre>
// http://wiki.secondlife.com/wiki/hex
 
string hex(integer value, integer signed)
{
    string lead = "0x";
    if((value & 0x80000000) && signed)
    {//saves one byte over "value < 0" and is faster.
        lead = "-0x";
        value = -value;
    }
    string nybbles = "";
    do //variable recycling is ugly but it saves bytecode
        nybbles = llGetSubString("0123456789abcdef", signed = (value & 0xF), signed) + nybbles;
    while ((value = (0xfffFFFF & (value >> 4))));
    return lead + nybbles;
}
</pre>
</pre>


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Show the most astonishing test cases for the hex function and then also the permission masks of the script running to demo the hex function.
To reproduce exactly the expected demo results above, run the demo code below.
 
We chose test cases that astonish people new to hex and test cases that astonish people new to LSL permission masks.


Code:
You'll get the permission mask results we show if you create a New Script to run this demo in. If instead you try modifying some old script to run this demo, then you might have to edit its permission masks to get the demo results that we show here.
<pre>
 
<source lang="lsl2">
default
default
{
{
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     }
     }
}
}
</pre>
</source>
 
Sample Results:
<pre>
Hello
0x0 == 0
0x400 == (0x00FEDC00 & -0x00FEDC00)
0x40000000 == (1 << 30)
-0x80000000 == 0x80000000
-0x123678a == 0xFEDC9876
-0x1 == -1
-0x1 == 0x123456789
OK
Hello again
0x7fffffff as base
0x7fffffff by owner
0x0 by group
0x0 by anyone
0x82000 by next owner
aka 532480
OK
</pre>


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== Design Rationale ==
== Specification ==
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The first few implementations we present do conform to our specification.


Our specification requires exactly the same results as the hex function of the Python scripting language.
We chose requirements that astonish people who usually write clever, small, or fast code by taking as precedent a specification from the far off world of people who usually write brief, clear, and conventional code.


This specification reproduces how hex integer literals often appear in LSL script, conforming to such arbitrary and traditional AT&T C conventions as:
We require exactly the same results as the hex function of the popular Python scripting language. We thus reproduce how hex integer literals often appear in LSL script, conforming to such arbitrary and traditional AT&T C conventions as:


# return lower case a b c d e f rather than upper case A B C D E F,
# return lower case a b c d e f rather than upper case A B C D E F,
# return a signed 31-bit result if negative, rather than an unsigned 32-bit result,
# return a signed 31-bit result if negative, rather than an unsigned 32-bit result,
# omit the leading quads of zeroed bits, except returns "0x0" rather than "0x" when the result is zero,
# omit the leading zeroed nybbles, except return "0x0" rather than "0x" when the result is zero,
# return a meaningless "0" before the "x",  as LSL and C compilers require,
# return a meaningless "0" before the "x",  as LSL and C compilers require,
# return the "x" on the left as in LSL and C, not the "h" on the right as in Assembly code, and
# return the "x" on the left as in LSL and C, not the "h" on the right as in Assembly code, and
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Disputes over the detailed specification of the Python hex function appear buried deep within http://www.python.org/dev/peps/pep-0237/
Disputes over the detailed specification of the Python hex function appear buried deep within http://www.python.org/dev/peps/pep-0237/


As you read this page, you have to wade thru more than one implementation only because not all our community yet agrees that the only code you wish to see is the code that I like.
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== See Also ==
== See Also ==
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<div style="padding: 0.5em;">
 
'''Articles'''
* [[Efficient Hex]]


'''Functions'''
'''Functions'''
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* [[llGetObjectPermMask]]
* [[llGetObjectPermMask]]
* [[llIntegerToBase64]]
* [[llIntegerToBase64]]
* [[llBase64ToInteger]]
 
* [[llMessageLinked]]
'''Wikipedia'''
* [[llList2Integer]]
* {{Wikipedia|Exemplar}}
* [[llList2String]]
* {{Wikipedia|Principle_of_least_astonishment}}


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Latest revision as of 14:14, 24 January 2015

Function: string hex(integer value);

Returns the hexadecimal nybbles of the signed integer value in order. Specifically returns the nybbles from most to least significant, starting with the first nonzero nybble, folding every nybble to lower case, and beginning with the nonnegative prefix "0x" or the negative prefix "-0x".

Parameters:

• integer value signed value to be expressed as negative or nonnegative hex

Note: Always begins any result of eight nybbles with one of the positive signed nybbles 1 2 3 4 5 6 7, never with a zero or unsigned nybble 0 8 9 A B C D E F, except for the boundary test case of the most negative integer "-0x80000000".

Code

The brief, clear, conventional code here implements this specification exactly.

The Efficient Hex article presents an alternative approach: clever, small, and fast code to implement the same specification and related specifications, and also links to instruments that measure small and fast. 

// http://wiki.secondlife.com/wiki/hex

string XDIGITS = "0123456789abcdef"; // could be "0123456789ABCDEF"

string hexes(integer bits)
{
    string nybbles = "";
    while (bits)
    {
        integer lsn = bits & 0xF; // least significant nybble
        string nybble = llGetSubString(XDIGITS, lsn, lsn);
        nybbles = nybble + nybbles;
        bits = bits >> 4; // discard the least significant bits at right
        bits = bits & 0xfffFFFF; // discard the sign bits at left
    }
    return nybbles;
}

string hex(integer value)
{
    if (value < 0)
    {
        return "-0x" + hexes(-value);
    }
    else if (value == 0)
    {
        return "0x0"; // hexes(value) == "" when (value == 0)
    }
    else // if (0 < value)
    {
        return "0x" + hexes(value);
    }
}

Demo Results

Running the demo should produce exactly these results: 

Hello
0x0 == 0
0x400 == (0x00FEDC00 & -0x00FEDC00)
0x40000000 == (1 << 30)
-0x80000000 == 0x80000000
-0x123678a == 0xFEDC9876
-0x1 == -1
-0x1 == 0x123456789
OK
Hello again
0x7fffffff as base
0x7fffffff by owner
0x0 by group
0x0 by anyone
0x82000 by next owner
aka 532480
OK

Demo

To reproduce exactly the expected demo results above, run the demo code below.

We chose test cases that astonish people new to hex and test cases that astonish people new to LSL permission masks.

You'll get the permission mask results we show if you create a New Script to run this demo in. If instead you try modifying some old script to run this demo, then you might have to edit its permission masks to get the demo results that we show here. 

default
{
    state_entry()
    {
        llOwnerSay("Hello");
        llOwnerSay(hex(0) + " == 0");
        llOwnerSay(hex(0x00FEDC00 & -0x00FEDC00) + " == (0x00FEDC00 & -0x00FEDC00)");
        llOwnerSay(hex(1 << 30) + " == (1 << 30)");
        llOwnerSay(hex(0x80000000) + " == 0x80000000");
        llOwnerSay(hex(0xFEDC9876) + " == 0xFEDC9876");
        llOwnerSay(hex(-1) + " == -1");
        llOwnerSay(hex(0x123456789) + " == 0x123456789");
        llOwnerSay("OK");
        
        llOwnerSay("Hello again");
        string item = llGetScriptName();
        llOwnerSay(hex(llGetInventoryPermMask(item, MASK_BASE)) + " as base");
        llOwnerSay(hex(llGetInventoryPermMask(item, MASK_OWNER)) + " by owner");
        llOwnerSay(hex(llGetInventoryPermMask(item, MASK_GROUP)) + " by group");
        llOwnerSay(hex(llGetInventoryPermMask(item, MASK_EVERYONE)) + " by anyone");
        llOwnerSay(hex(llGetInventoryPermMask(item, MASK_NEXT)) + " by next owner");
        llOwnerSay("aka " + (string) llGetInventoryPermMask(item, MASK_NEXT));
        llOwnerSay("OK");
    }
}

Specification

We chose requirements that astonish people who usually write clever, small, or fast code by taking as precedent a specification from the far off world of people who usually write brief, clear, and conventional code.

We require exactly the same results as the hex function of the popular Python scripting language. We thus reproduce how hex integer literals often appear in LSL script, conforming to such arbitrary and traditional AT&T C conventions as:

  1. return lower case a b c d e f rather than upper case A B C D E F,
  2. return a signed 31-bit result if negative, rather than an unsigned 32-bit result,
  3. omit the leading zeroed nybbles, except return "0x0" rather than "0x" when the result is zero,
  4. return a meaningless "0" before the "x", as LSL and C compilers require,
  5. return the "x" on the left as in LSL and C, not the "h" on the right as in Assembly code, and
  6. return the nybbles listed from most to least significant as in English, not listed from least to most significant as in Arabic.

Brief doc for the Python hex function appears buried deep within http://docs.python.org/lib/built-in-funcs.html

Disputes over the detailed specification of the Python hex function appear buried deep within http://www.python.org/dev/peps/pep-0237/

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