User:Strife Onizuka
Scite/ESL
My config files:
- lsl.api
- lsl.properties
- stripper.zip - Whitespace stripper
- clipboard - copies text to clipboard
- patch.esl - make lslint not choke on new keywords
- lslint
- indent - code beautifier (picks up where the whitespace stripper leaves off)
- MSVC Express
About Me
I'm an immigrant from URU. Was in all 3 of it's beta's.
Wiki Gnome (causing drama isn't why I'm here).
I have a webpage but haven't updated it in a few months...
Wiki's are the way of the future when it comes to making documentation Ad-hoc but eventually become static as graffiti grows with popularity as a way of controlling it.
also contribute to some other wiki's History Wiki AviSynth:BlindWanderer
When it comes to writing I tend to go towards concise. A short accurate description is better then a long equally accurate description; less to get confused with, easier to find the important information (because it is all important).
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TightList
See TightList
Float <-Union-> Integer
<lsl> integer fui(float a)//Mono Safe, LSO Safe, Doubles Unsupported, LSLEditor Unsafe {//union float to integer
if((a)){//is it non zero?
integer b = (a < 0) << 31;//the sign, but later this variable is reused to store the shift
if((a = llFabs(a)) < 2.3509887016445750159374730744445e-38)//Denormalized range check & last stirde of normalized range
return b | (integer)(a / 1.4012984643248170709237295832899e-45);//the math overlaps; saves cpu time.
integer c = llFloor((llLog(a) / 0.69314718055994530941723212145818));//extremes will error towards extremes. following yuch corrects it.
return (0x7FFFFF & (integer)(a * (0x1000000 >> b))) | (((c + 126 + (b = ((integer)a - (3 <= (a /= (float)("0x1p"+(string)(c -= ((c >> 31) | 1)))))))) << 23 ) | b);
}//for grins, detect the sign on zero. it's not pretty but it works. the previous requires alot of unwinding to understand it.
return ((string)a == (string)(-0.0)) << 31;
}
float iuf(integer a) {//union integer to float
return ((float)("0x1p"+(string)((a | !a) - 150))) * ((!!(a = (0xff & (a >> 23))) << 23) | ((a & 0x7fffff))) * (1 | (a >> 31));
}//will crash if the raw exponent == 0xff; reason for crash deviates from float standard; though a crash is warented. </lsl>
As a specialized mode of transport, this is faster the Float2Hex and just as lossless. <lsl> string fuis(float a){//float union to base64ed integer
if(a){//is it non zero?
integer b = (a < 0) << 31;//the sign, but later this variable is reused to store the shift
if((a = llFabs(a)) < 2.3509887016445750159374730744445e-38)//Denormalized range check & last stirde of normalized range
b = b | (integer)(a / 1.4012984643248170709237295832899e-45);//the math overlaps; saves cpu time.
else
{
integer c = llFloor(llLog(a) / 0.69314718055994530941723212145818);//extremes will error towards extremes. following yuch corrects it.
b = (0x7FFFFF & (integer)(a * (0x1000000 >> b))) | (((c + 126 + (b = ((integer)a - (3 <= (a /= (float)("0x1p"+(string)(c -= (c == 128)))))))) << 23 ) | b);
}
return llGetSubString(llIntegerToBase64(b),0,5)
}//for grins, detect the sign on zero. it's not pretty but it works. the previous requires alot of unwinding to understand it.
if((string)a == (string)(0.0))
return "AAAAAA";
return "gAAAAA";
}
float siuf(string b) {//base64ed integer union to float
integer a = llBase64ToInteger(b);
return ((float)("0x1p"+(string)((a | !a) - 150))) * ((!!(a = (0xff & (a >> 23))) << 23) | ((a & 0x7fffff))) * (1 | (a >> 31));
}//will crash if the raw exponent == 0xff; reason for crash deviates from float standard; though a crash is warented. </lsl>
Float Compare
<lsl>integer FloatCompare(float a, float b, integer c) {//compare floats and allow for a margin of error, requires fui().
if(a - b)//(c) Strife Onizuka 2006
{//they are not equal
//First we convert the floats to integer form, as they would be in memory;
integer a_i = fui(a);
integer b_i = fui(b);
integer a_e = (a_i >> 23) & 0xff;
integer b_e = (b_i >> 23) & 0xff;
if(!(a_e || b_e) || //to disable the +/- roll under support put a // just before the !
((a_i & 0x80000000) == (b_i & 0x80000000)))//sign match check
{//start by getting and testing the difference, this is what limits c
integer diff = a_e - b_e;//ugly is fast, basicly, it gets the mantissa, sets the sign on the mantisa,
if(diff >= -1 || diff <= 1)//shifts it depending on exponent, finaly executes the test.
if(llAbs(((((a_i & 0x7FFFFF) | (!!a_e << 23)) * ((a_i >> 31) | 1)) >> !~-diff) -
((((b_i & 0x7FFFFF) | (!!b_e << 23)) * ((b_i >> 31) | 1)) >> !~diff)) <= c)
jump out;
}
return (a > b) - (a < b);
}
@out;
return 0;
}</lsl>
FUI2HexFloat
<lsl> string FUI2HexFloat(integer b) {//Dump FUI float-integer to a hex-float string
string c = "";
integer d = 0;
integer e = 0xff & (b >> 23);
string f = "0x"+(string)(!!e) + ".";
if(b & 0x80000000)
f = "-"+ f;
if(e ^ 127) c = "p" + (string)((e | !e) - 127);
if((e = 0xfffffe & (b << 1)))
{
while(!((e >> d) & 0xf))
d+=4;
while(d < 24)
{
c = llGetSubString(hexc, b = 0xf & (e >> d), b) + c;
d += 4;
}
}
return f + c;
}
string Float2Hex(float a) {//Another way to do Float2Hex, i wrote this for the heck of it; not because it's a good idea.
return FUI2HexFloat(fui(a));
} </lsl>
BitCount
<lsl>integer bitcount(integer n) {//MIT Hackmem 169, modified to work in LSL
integer tmp = n - ((n >> 1) & 0x5B6DB6DB)//modified mask
- ((n >> 2) & 0x49249249);
return (((tmp + (tmp >> 3)) & 0xC71C71C7) % 63) - (n >> 31);
}</lsl>