Functions wikifmt: Difference between revisions

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==== Complete List of Functions ====
==== Var  ====
==== Var  ====


Line 63: Line 59:
// or
// or
var v3 = or_default(v1, "abc");</syntaxhighlight>
var v3 = or_default(v1, "abc");</syntaxhighlight>
<em>Mutator:</em> defaulter()


|-
|-
Line 86: Line 84:
// or
// or
swap(v1, v2);</syntaxhighlight>
swap(v1, v2);</syntaxhighlight>
|-
|-
|var=||v2.move()||Force the contents of a var to be moved instead of copied. The moved var becomes an empty string.
|var=||v2.move()||Force the contents of a var to be moved instead of copied. The moved var becomes an empty string.
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// or
// or
var v3 = move(v2);</syntaxhighlight>
var v3 = move(v2);</syntaxhighlight>
|-
|-
|var=||v2.clone()||Returns a copy of the var.
|var=||v2.clone()||Returns a copy of the var.
Line 106: Line 106:
// or
// or
var v3 = clone(v2);</syntaxhighlight>
var v3 = clone(v2);</syntaxhighlight>
|-
|-
|var=||v1.dump()||Return a string describing internal data of a var.
|var=||v1.dump()||Return a string describing internal data of a var.
Line 124: Line 125:
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = str("x", 32);
var v1 = str("x", 32);
v1.dump().outputl(); // e.g. var:0x7ffea7462cd0 typ:1 str:0x584d9e9f6e70 "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"
v1.dump().outputl(); /// e.g. var:0x7ffea7462cd0 typ:1 str:0x584d9e9f6e70 "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"
// or
// or
outputl(dump(v1));</syntaxhighlight>
outputl(dump(v1));</syntaxhighlight>
|}
|}
===== Arithmetical Operators  =====
===== Arithmetical Operators  =====
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var v1 = 0.1;
var v1 = 0.1;
var v2 = v1 + 0.2; // 0.3</syntaxhighlight>
var v2 = v1 + 0.2; // 0.3</syntaxhighlight>
|-
|-
|var=||v2 - v3||Subtraction
|var=||v2 - v3||Subtraction
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var v1 = 0.1;
var v1 = 0.1;
v1 += 0.2; // 0.3</syntaxhighlight>
v1 += 0.2; // 0.3</syntaxhighlight>
|-
|-
|||v1 -= v2||Self subtraction
|||v1 -= v2||Self subtraction
Line 194: Line 198:
var v1 = 3;
var v1 = 3;
var v2 = v1 ++; // v2 -> 3 // v1 -> 4</syntaxhighlight>
var v2 = v1 ++; // v2 -> 3 // v1 -> 4</syntaxhighlight>
|-
|-
|||v1 --||Post decrement
|||v1 --||Post decrement
Line 199: Line 204:
var v1 = 3;
var v1 = 3;
var v2 = v1 --; // v2 -> 3 // v1 -> 2</syntaxhighlight>
var v2 = v1 --; // v2 -> 3 // v1 -> 2</syntaxhighlight>
|-
|-
|||++ v1||Pre increment
|||++ v1||Pre increment
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var v1 = 3;
var v1 = 3;
var v2 = ++ v1; // v2 -> 4 // v1 -> 4</syntaxhighlight>
var v2 = ++ v1; // v2 -> 4 // v1 -> 4</syntaxhighlight>
|-
|-
|||-- v1||Pre decrement
|||-- v1||Pre decrement
Line 209: Line 216:
var v1 = 3;
var v1 = 3;
var v2 = -- v1; // v2 -> 2 // v1 -> 2</syntaxhighlight>
var v2 = -- v1; // v2 -> 2 // v1 -> 2</syntaxhighlight>
|}
|}
===== Dynamic Array Creation, Access And Update =====
===== Dynamic Array Creation, Access And Update =====
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<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = "f1^f2^v1]v2^f4"_var; // "f1" _FM "f2" _FM "v1" _VM "v2" _FM "f4"</syntaxhighlight>
var v1 = "f1^f2^v1]v2^f4"_var; // "f1" _FM "f2" _FM "v1" _VM "v2" _FM "f4"</syntaxhighlight>
|-
|-
|||var v1 = {"a", "b", "c" ...}; // Initializer list||Create a dynamic array var from a list. C++ constrains list elements to be all the same type: var, string, double, int, etc. but they all end up as fields of a dynamic array string.
|||var v1 = {"a", "b", "c" ...}; // Initializer list||Create a dynamic array var from a list. C++ constrains list elements to be all the same type: var, string, double, int, etc. but they all end up as fields of a dynamic array string.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = {11, 22, 33}; // "11^22^33"_var</syntaxhighlight>
var v1 = {11, 22, 33}; // "11^22^33"_var</syntaxhighlight>
|-
|-
|var=||v2(fieldno);      v1(fieldno) = v2||Dynamic array - field update and append:
|var=||v2(fieldno);      v1(fieldno) = v2||Dynamic array - field extraction, update and append:


See also inserter() and remover().
See also inserter() and remover().
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var v2 = v1.f(2); // "bb" /// .f() style access. Recommended.
var v2 = v1.f(2); // "bb" /// .f() style access. Recommended.
var v3 =  v1(2); // "bb" ///  () style access. Not recommended.</syntaxhighlight>
var v3 =  v1(2); // "bb" ///  () style access. Not recommended.</syntaxhighlight>
|-
|-
|var=||v2(fieldno, valueno);      v1(fieldno, valueno) = v2||Dynamic array - value update and append
|var=||v2(fieldno, valueno);      v1(fieldno, valueno) = v2||Dynamic array - value update and append
Line 266: Line 277:
var v2 = v1.f(2,2); // "b2" /// .f() style access. Recommended.
var v2 = v1.f(2,2); // "b2" /// .f() style access. Recommended.
var v3 =  v1(2,2); // "b2" ///  () style access. Not recommended.</syntaxhighlight>
var v3 =  v1(2,2); // "b2" ///  () style access. Not recommended.</syntaxhighlight>
|-
|var=||v2(fieldno, valueno, subvalueno);      v1(fieldno, valueno, subvalueno) = v2||Dynamic array - subvalue update and append


See also inserter() and remover().
<syntaxhighlight lang="c++">
var v1 = "aa^bb^cc"_var;
v1(2, 2, 2) = "22"; // v1 -> "aa^bb]}22^cc"_var
// subvalue number -1 causes appending a subvalue when updating.
v1(2, 2, -1) = 33; // v1 -> "aa^bb]}22}33^cc"_var</syntaxhighlight>
Subvalue access:
<syntaxhighlight lang="c++">
var v1 = "aa^b1]b2}s2^cc"_var;
var v2 = v1.f(2, 2, 2); // "s2" /// .f() style access. Recommended.
var v3 =  v1(2, 2, 2); // "s2" ///  () style access. Not recommended.</syntaxhighlight>
|}
|}
===== String Creation  =====
===== String Creation  =====
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At least one side must be a var.
At least one side must be a var.


"aa" ^ "22" will not compile but "aa" "22".
"aa" ^ "22" will not compile but "aa" "22" will.


Floating point numbers are implicitly converted to strings with no more than 12 significant digits of precision. This practically eliminates all floatng point rounding errors.
Floating point numbers are implicitly converted to strings with no more than 12 significant digits of precision. This practically eliminates all floatng point rounding errors.
Line 296: Line 294:
var v2 = "aa";
var v2 = "aa";
var v1 = v2 ^ 22; // "aa22"</syntaxhighlight>
var v1 = v2 ^ 22; // "aa22"</syntaxhighlight>
|-
|-
|||v1 ^= v2||String self concatention ^= (append)
|||v1 ^= v2||String self concatention ^= (append)
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let v2 = round(123456.789, -1); // "123460"
let v2 = round(123456.789, -1); // "123460"
let v3 = round(123456.789, -2); // "123500"</syntaxhighlight>
let v3 = round(123456.789, -2); // "123500"</syntaxhighlight>
|-
|-
|var=||var().chr(num)||Get a char given an integer 0-255.
|var=||var::chr(num)||Get a char given an integer 0-255.


<em>Returns:</em> A string containing a single char
<em>Returns:</em> A string containing a single char
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0-127 -> ASCII, 128-255 -> invalid UTF-8 which cannot be written to the database or used in many exodus string operations
0-127 -> ASCII, 128-255 -> invalid UTF-8 which cannot be written to the database or used in many exodus string operations
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = var().chr(0x61); // "a"
let v1 = var::chr(0x61); // "a"
// or
// or
let v2 = chr(0x61);</syntaxhighlight>
let v2 = chr(0x61);</syntaxhighlight>
|-
|-
|var=||var().textchr(num)||Get a Unicode character given a Unicode Code Point (Number)
|var=||var::textchr(num)||Get a Unicode character given a Unicode Code Point (Number)


<em>Returns:</em> A single Unicode character in UTF8 encoding.
<em>Returns:</em> A single Unicode character in UTF8 encoding.
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To get UTF code points > 2^63 you must provide negative ints because var doesnt provide an implicit constructor to unsigned int due to getting ambigious conversions because int and unsigned int are parallel priority in c++ implicit conversions.
To get UTF code points > 2^63 you must provide negative ints because var doesnt provide an implicit constructor to unsigned int due to getting ambigious conversions because int and unsigned int are parallel priority in c++ implicit conversions.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = var().textchr(171416); // "𩶘" // or "\xF0A9B698"
let v1 = var::textchr(171416); // "𩶘" // or "\xF0A9B698"
// or
// or
let v2 = textchr(171416);</syntaxhighlight>
let v2 = textchr(171416);</syntaxhighlight>
|-
|-
|var=||var().str(num)||Get a string of repeated substrings.
|var=||varstr.str(num)||Get a string of repeated substrings.


<em>var:</em> The substring to be repeated
<em>var:</em> The substring to be repeated
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// or
// or
let v2 = str("ab", 3);</syntaxhighlight>
let v2 = str("ab", 3);</syntaxhighlight>
|-
|-
|var=||varnum.space()||Get a string containing a given number of spaces.
|var=||var::space(nspaces)||Get a string containing a given number of spaces.


<em>var:</em> The number of spaces required.
<em>nspaces:</em> The number of spaces required.


<em>Returns:</em> A string of space chars.
<em>Returns:</em> A string of space chars.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = var(3).space(); // "␣␣␣"
let v1 = var::space(3); // "␣␣␣"
// or
// or
let v2 = space(3);</syntaxhighlight>
let v2 = space(3);</syntaxhighlight>
|-
|-
|var=||varnum.numberinwords(locale = "")||Returns: A string representing a given number written in words instead of digits.
|var=||varnum.numberinwords(locale = "")||Returns: A string representing a given number written in words instead of digits.
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let softhyphen = "\xc2\xad";
let softhyphen = "\xc2\xad";
let v1 = var(123.45).numberinwords("de_DE").replace(softhyphen, " "); // "ein␣hundert␣drei␣und␣zwanzig␣Komma␣vier␣fünf"</syntaxhighlight>
let v1 = var(123.45).numberinwords("de_DE").replace(softhyphen, " "); // "ein␣hundert␣drei␣und␣zwanzig␣Komma␣vier␣fünf"</syntaxhighlight>
|}
|}
===== String Scanning =====
===== String Scanning =====
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// or
// or
let v2 = seq("abc");</syntaxhighlight>
let v2 = seq("abc");</syntaxhighlight>
|-
|-
|var=||strvar.textseq()||Get the Unicode Code Point of a Unicode character.
|var=||strvar.textseq()||Get the Unicode Code Point of a Unicode character.
Line 415: Line 421:
// or
// or
let v2 = textseq("Γ");</syntaxhighlight>
let v2 = textseq("Γ");</syntaxhighlight>
|-
|-
|var=||strvar.len()||Get the length of a source string in number of chars
|var=||strvar.len()||Get the length of a source string in number of chars
Line 423: Line 430:
// or
// or
let v2 = len("abc");</syntaxhighlight>
let v2 = len("abc");</syntaxhighlight>
|-
|-
|if||strvar.empty()||Checks if the var is an empty string.
|if||strvar.empty()||Checks if the var is an empty string.
Line 436: Line 444:
// or
// or
if (not empty(v1)) ... ok // true</syntaxhighlight>
if (not empty(v1)) ... ok // true</syntaxhighlight>
|-
|-
|var=||strvar.textwidth()||Count the number of output columns required for a given source string.
|var=||strvar.textwidth()||Count the number of output columns required for a given source string.
Line 450: Line 459:
// or
// or
let v2 = textwidth("🤡x🤡");</syntaxhighlight>
let v2 = textwidth("🤡x🤡");</syntaxhighlight>
|-
|-
|var=||strvar.textlen()||Count the number of Unicode code points in a source string.
|var=||strvar.textlen()||Count the number of Unicode code points in a source string.
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// or
// or
let v2 = textlen("Γιάννης");</syntaxhighlight>
let v2 = textlen("Γιάννης");</syntaxhighlight>
|-
|-
|var=||strvar.fcount(sepstr)||Count the number of fields in a source string.
|var=||strvar.fcount(sepstr)||Count the number of fields in a source string.
Line 470: Line 481:
// or
// or
let v2 = fcount("aa**cc", "*");</syntaxhighlight>
let v2 = fcount("aa**cc", "*");</syntaxhighlight>
|-
|-
|var=||strvar.count(sepstr)||Count the number of occurrences of a given substr in a source string.
|var=||strvar.count(sepstr)||Count the number of occurrences of a given substr in a source string.
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// or
// or
let v2 = count("aa**cc", "*");</syntaxhighlight>
let v2 = count("aa**cc", "*");</syntaxhighlight>
|-
|-
|if||strvar.starts(prefix)||Checks if a source string starts with a given prefix (substr).
|if||strvar.starts(prefix)||Checks if a source string starts with a given prefix (substr).
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// or
// or
if (starts("abc", "ab")) ... true</syntaxhighlight>
if (starts("abc", "ab")) ... true</syntaxhighlight>
|-
|-
|if||strvar.ends(suffix)||Checks if a source string ends with a given suffix (substr).
|if||strvar.ends(suffix)||Checks if a source string ends with a given suffix (substr).
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// or
// or
if (ends("abc", "bc")) ... true</syntaxhighlight>
if (ends("abc", "bc")) ... true</syntaxhighlight>
|-
|-
|if||strvar.contains(substr)||Checks if a given substr exists in a source string.
|if||strvar.contains(substr)||Checks if a given substr exists in a source string.
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// or
// or
if (contains("abcd", "bc")) ... true</syntaxhighlight>
if (contains("abcd", "bc")) ... true</syntaxhighlight>
|-
|-
|var=||strvar.index(substr, startchar1 = 1)||Find a substr in a source string.
|var=||strvar.index(substr, startchar1 = 1)||Find a substr in a source string.
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// or
// or
let v2 = index("abcd", "bc");</syntaxhighlight>
let v2 = index("abcd", "bc");</syntaxhighlight>
|-
|-
|var=||strvar.indexn(substr, occurrence)||Find the nth occurrence of a substr in a source string.
|var=||strvar.indexn(substr, occurrence)||Find the nth occurrence of a substr in a source string.
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// or
// or
let v2 = index("abcabc", "bc", 2);</syntaxhighlight>
let v2 = index("abcabc", "bc", 2);</syntaxhighlight>
|-
|-
|var=||strvar.indexr(substr, startchar1 = -1)||Find the position of substr working backwards from the end of the string towards the beginning.
|var=||strvar.indexr(substr, startchar1 = -1)||Find the position of substr working backwards from the end of the string towards the beginning.
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// or
// or
let v2 = indexr("abcabc", "bc");</syntaxhighlight>
let v2 = indexr("abcabc", "bc");</syntaxhighlight>
|-
|-
|var=||strvar.match(regex_str, regex_options = "")||Finds all matches of a given regular expression.
|var=||strvar.match(regex_str, regex_options = "")||Finds all matches of a given regular expression.
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</pre>
</pre>
|-
|-
|var=||strvar.match(regex)||Ditto
|var=||strvar.match(regex)||Ditto
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startchar1 = 1;
startchar1 = 1;
let v2 = search("abc1abc2", "BC(\\d)", startchar1, "i");</syntaxhighlight>
let v2 = search("abc1abc2", "BC(\\d)", startchar1, "i");</syntaxhighlight>
|-
|-
|var=||strvar.search(regex_str)||Ditto starting from first char
|var=||strvar.search(regex_str)||Ditto starting from first char
Line 637: Line 659:
// or
// or
let v2 = hash("abc");</syntaxhighlight>
let v2 = hash("abc");</syntaxhighlight>
|}
|}
===== String Conversion - Non-Mutating - Chainable =====
===== String Conversion - Non-Mutating - Chainable =====
Line 648: Line 671:
// or
// or
let v2 = ucase("Γιάννης");</syntaxhighlight>
let v2 = ucase("Γιάννης");</syntaxhighlight>
|-
|-
|var=||strvar.lcase()||Convert to lower case
|var=||strvar.lcase()||Convert to lower case
Line 654: Line 678:
// or
// or
let v2 = lcase("ΓΙΆΝΝΗΣ");</syntaxhighlight>
let v2 = lcase("ΓΙΆΝΝΗΣ");</syntaxhighlight>
|-
|-
|var=||strvar.tcase()||Convert to title case.
|var=||strvar.tcase()||Convert to title case.
Line 662: Line 687:
// or
// or
let v2 = tcase("γιάννης παππάς");</syntaxhighlight>
let v2 = tcase("γιάννης παππάς");</syntaxhighlight>
|-
|-
|var=||strvar.fcase()||Convert to folded case.
|var=||strvar.fcase()||Convert to folded case.
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Case folding is the process of converting text to a case independent representation.
Case folding is the process of converting text to a case independent representation.


https://www.w3.org/International/wiki/Case_folding
<em>https:</em>//www.w3.org/International/wiki/Case_folding


Accents can be significant. As in French cote, coté, côte and côté.
Accents can be significant. As in French cote, coté, côte and côté.
Line 678: Line 704:
// or
// or
let v2 = tcase("Grüßen");</syntaxhighlight>
let v2 = tcase("Grüßen");</syntaxhighlight>
|-
|-
|var=||strvar.normalize()||Replace Unicode character sequences with their standardised NFC form.
|var=||strvar.normalize()||Replace Unicode character sequences with their standardised NFC form.
Line 690: Line 717:
// or
// or
let v2 = normalize("cafe\u0301");</syntaxhighlight>
let v2 = normalize("cafe\u0301");</syntaxhighlight>
|-
|-
|var=||strvar.invert()||Simple reversible disguising of string text.
|var=||strvar.invert()||Simple reversible disguising of string text.
Line 708: Line 736:
// or
// or
let v2 = invert("abc");</syntaxhighlight>
let v2 = invert("abc");</syntaxhighlight>
|-
|-
|var=||strvar.lower()||Reduce all types of field mark chars by one level.
|var=||strvar.lower()||Reduce all types of field mark chars by one level.
Line 722: Line 751:
// or
// or
let v2 = lower("a1^b2^c3"_var);</syntaxhighlight>
let v2 = lower("a1^b2^c3"_var);</syntaxhighlight>
|-
|-
|var=||strvar.raise()||Increase all types of field mark chars by one level.
|var=||strvar.raise()||Increase all types of field mark chars by one level.
Line 736: Line 766:
// or
// or
let v2 = "a1]b2]c3"_var;</syntaxhighlight>
let v2 = "a1]b2]c3"_var;</syntaxhighlight>
|-
|-
|var=||strvar.crop()||Remove any redundant FM, VM etc. chars (Trailing FM; VM before FM etc.)
|var=||strvar.crop()||Remove any redundant FM, VM etc. chars (Trailing FM; VM before FM etc.)
Line 742: Line 773:
// or
// or
let v2 = crop("a1^b2]]^c3^^"_var);</syntaxhighlight>
let v2 = crop("a1^b2]]^c3^^"_var);</syntaxhighlight>
|-
|-
|var=||strvar.quote()||Wrap in double quotes.
|var=||strvar.quote()||Wrap in double quotes.
Line 748: Line 780:
// or
// or
let v2 = quote("abc");</syntaxhighlight>
let v2 = quote("abc");</syntaxhighlight>
|-
|-
|var=||strvar.squote()||Wrap in single quotes.
|var=||strvar.squote()||Wrap in single quotes.
Line 754: Line 787:
// or
// or
let v2 = squote("abc");</syntaxhighlight>
let v2 = squote("abc");</syntaxhighlight>
|-
|-
|var=||strvar.unquote()||Remove one pair of surrounding double or single quotes.
|var=||strvar.unquote()||Remove one pair of surrounding double or single quotes.
Line 760: Line 794:
// or
// or
let v2 = unquote("'abc'");</syntaxhighlight>
let v2 = unquote("'abc'");</syntaxhighlight>
|-
|-
|var=||strvar.trim(trimchars = " ")||Remove all leading, trailing and excessive inner bytes.
|var=||strvar.trim(trimchars = " ")||Remove all leading, trailing and excessive inner bytes.
Line 768: Line 803:
// or
// or
let v2 = trim("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
let v2 = trim("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
|-
|-
|var=||strvar.trimfirst(trimchars = " ")||Ditto but only leading.
|var=||strvar.trimfirst(trimchars = " ")||Ditto but only leading.
Line 774: Line 810:
// or
// or
let v2 = trimfirst("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
let v2 = trimfirst("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
|-
|-
|var=||strvar.trimlast(trimchars = " ")||Ditto but only trailing.
|var=||strvar.trimlast(trimchars = " ")||Ditto but only trailing.
Line 780: Line 817:
// or
// or
let v2 = trimlast("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
let v2 = trimlast("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
|-
|-
|var=||strvar.trimboth(trimchars = " ")||Ditto but only leading and trailing, not inner.
|var=||strvar.trimboth(trimchars = " ")||Ditto but only leading and trailing, not inner.
Line 786: Line 824:
// or
// or
let v2 = trimboth("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
let v2 = trimboth("␣␣a1␣␣b2␣c3␣␣");</syntaxhighlight>
|-
|-
|var=||strvar.first()||Get the first char of a string.
|var=||strvar.first()||Get the first char of a string.
Line 796: Line 835:
// or
// or
let v2 = first("abc");</syntaxhighlight>
let v2 = first("abc");</syntaxhighlight>
|-
|-
|var=||strvar.last()||Get the last char of a string.
|var=||strvar.last()||Get the last char of a string.
Line 806: Line 846:
// or
// or
let v2 = last("abc");</syntaxhighlight>
let v2 = last("abc");</syntaxhighlight>
|-
|-
|var=||strvar.first(std::size_t length)||Get the first n chars of a source string.
|var=||strvar.first(std::size_t length)||Get the first n chars of a source string.
Line 818: Line 859:
// or
// or
let v2 = first("abc", 2);</syntaxhighlight>
let v2 = first("abc", 2);</syntaxhighlight>
|-
|-
|var=||strvar.last(std::size_t length)||Extract up to length trailing chars
|var=||strvar.last(std::size_t length)||Extract up to length trailing chars
Line 826: Line 868:
// or
// or
let v2 = last("abc", 2);</syntaxhighlight>
let v2 = last("abc", 2);</syntaxhighlight>
|-
|-
|var=||strvar.cut(length)||Remove n chars (bytes) from the source string.
|var=||strvar.cut(length)||Remove n chars (bytes) from the source string.
Line 838: Line 881:
// or
// or
let v2 = cut("abcd", 2);</syntaxhighlight>
let v2 = cut("abcd", 2);</syntaxhighlight>
|-
|-
|var=||strvar.paste(pos1, length, insertstr)||Insert a substr at an given position after removing a given number of chars.
|var=||strvar.paste(pos1, length, replacestr)||Insert a substr at an given position after removing a given number of chars.




Line 856: Line 900:
// or
// or
let v2 = paste("abcd", 2, 2, "XYZ");</syntaxhighlight>
let v2 = paste("abcd", 2, 2, "XYZ");</syntaxhighlight>
|-
|-
|var=||strvar.paste(pos1, insertstr)||Insert text at char position without overwriting any following chars
|var=||strvar.paste(pos1, insertstr)||Insert text at char position without overwriting any following chars
Line 864: Line 909:
// or
// or
let v2 = paste("abcd", 2, "XYZ");</syntaxhighlight>
let v2 = paste("abcd", 2, "XYZ");</syntaxhighlight>
|-
|-
|var=||strvar.prefix(insertstr)||Insert text at the beginning
|var=||strvar.prefix(insertstr)||Insert text at the beginning
Line 872: Line 918:
// or
// or
let v2 = prefix("abc", "XYZ");</syntaxhighlight>
let v2 = prefix("abc", "XYZ");</syntaxhighlight>
|-
|-
|var=||strvar.append(appendable, ...)||Append anything at the end of a string
|var=||strvar.append(appendable, ...)||Append anything at the end of a string
Line 886: Line 933:
// or
// or
let v2 = pop("abc");</syntaxhighlight>
let v2 = pop("abc");</syntaxhighlight>
|-
|-
|var=||strvar.field(delimiter, fieldnx = 1, nfieldsx = 1)||Copies one or more consecutive fields from a string given a delimiter
|var=||strvar.field(delimiter, fieldnx = 1, nfieldsx = 1)||Copies one or more consecutive fields from a string given a delimiter
Line 902: Line 950:
// or
// or
let v2 = field("aa*bb*cc", "*", -1);</syntaxhighlight>
let v2 = field("aa*bb*cc", "*", -1);</syntaxhighlight>
|-
|-
|var=||strvar.fieldstore(separator, fieldno, nfields, replacement)||fieldstore() replaces, inserts or deletes subfields in a string.
|var=||strvar.fieldstore(separator, fieldno, nfields, replacement)||fieldstore() replaces, inserts or deletes subfields in a string.
Line 960: Line 1,009:
// or
// or
let v2 = substr("abcd", 3, -2); // "cb"</syntaxhighlight>
let v2 = substr("abcd", 3, -2); // "cb"</syntaxhighlight>
|-
|-
|var=||strvar.b(pos1, length)||Abbreviated alias of substr version 1.
|var=||strvar.b(pos1, length)||Abbreviated alias of substr version 1.
Line 978: Line 1,028:
// or
// or
let v2 = substr("abcd", 2);</syntaxhighlight>
let v2 = substr("abcd", 2);</syntaxhighlight>
|-
|-
|var=||strvar.b(pos1)||Shorthand alias of substr version 2.
|var=||strvar.b(pos1)||Shorthand alias of substr version 2.
Line 1,009: Line 1,060:
// or
// or
let v2 = substr("12,45 78", COL2 + 1, ", ", COL2); // v2 -> "78" // COL2 -> 9 // 9 is one after the end of the string meaning that none of the delimiter chars were found.</syntaxhighlight>
let v2 = substr("12,45 78", COL2 + 1, ", ", COL2); // v2 -> "78" // COL2 -> 9 // 9 is one after the end of the string meaning that none of the delimiter chars were found.</syntaxhighlight>
|-
|-
|var=||strvar.b(pos1, delimiterchars, out pos2)||Shorthand alias of substr version 3.
|var=||strvar.b(pos1, delimiterchars, out pos2)||Shorthand alias of substr version 3.
Line 1,044: Line 1,096:
// or
// or
let v2 = substr2("12^45^78"_var, pos1, field_mark_no); // "78" // pos1 -> 9 // field_mark_no -> 0 // field_mark_no 0 means that none of the standard field marks were found.</syntaxhighlight>
let v2 = substr2("12^45^78"_var, pos1, field_mark_no); // "78" // pos1 -> 9 // field_mark_no -> 0 // field_mark_no 0 means that none of the standard field marks were found.</syntaxhighlight>
|-
|-
|var=||strvar.b2(io pos1, out field_mark_no)||Shorthand alias of substr version 4.
|var=||strvar.b2(io pos1, out field_mark_no)||Shorthand alias of substr version 4.
|-
|-
|var=||strvar.convert(from_chars, to_chars)||Convert or delete chars one for one to other chars
|var=||strvar.convert(fromchars, tochars)||Convert or delete chars one for one to other chars


<em>from_chars:</em> chars to convert. If longer than to_chars then delete those characters instead of converting them.
<em>from_chars:</em> chars to convert. If longer than to_chars then delete those characters instead of converting them.
Line 1,058: Line 1,111:
// or
// or
let v2 = convert("abcde", "aZd", "XY");</syntaxhighlight>
let v2 = convert("abcde", "aZd", "XY");</syntaxhighlight>
|-
|-
|var=||strvar.textconvert(from_characters, to_characters)||Ditto for Unicode code points.
|var=||strvar.textconvert(fromchars, tochars)||Ditto for Unicode code points.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = "a🤡b😀c🌍d"_var.textconvert("🤡😀", "👋"); // "a👋bc🌍d"
let v1 = "a🤡b😀c🌍d"_var.textconvert("🤡😀", "👋"); // "a👋bc🌍d"
// or
// or
let v2 = textconvert("a🤡b😀c🌍d", "🤡😀", "👋");</syntaxhighlight>
let v2 = textconvert("a🤡b😀c🌍d", "🤡😀", "👋");</syntaxhighlight>
|-
|-
|var=||strvar.replace(fromstr, tostr)||Replace all occurrences of one substr with another.
|var=||strvar.replace(fromstr, tostr)||Replace all occurrences of one substr with another.
Line 1,072: Line 1,127:
// or
// or
let v2 = replace("Abc Abc", "bc", "X");</syntaxhighlight>
let v2 = replace("Abc Abc", "bc", "X");</syntaxhighlight>
|-
|-
|var=||strvar.replace(regex, tostr)||Replace substring(s) using a regular expression.
|var=||strvar.replace(regex, tostr)||Replace substring(s) using a regular expression.
Line 1,080: Line 1,136:
// or
// or
let v2 = replace("A a B b", "[A-Z]"_rex, "'$0'");</syntaxhighlight>
let v2 = replace("A a B b", "[A-Z]"_rex, "'$0'");</syntaxhighlight>
|-
|-
|var=||strvar.unique()||Remove duplicate fields in an FM or VM etc. separated list
|var=||strvar.unique()||Remove duplicate fields in an FM or VM etc. separated list
Line 1,086: Line 1,143:
// or
// or
let v2 = unique("a1^b2^a1^c2"_var);</syntaxhighlight>
let v2 = unique("a1^b2^a1^c2"_var);</syntaxhighlight>
|-
|-
|var=||strvar.sort(delimiter = FM)||Reorder fields in an FM or VM etc. separated list in ascending order
|var=||strvar.sort(delimiter = FM)||Reorder fields in an FM or VM etc. separated list in ascending order
Line 1,099: Line 1,157:
// or
// or
let v2 = sort("b1^a1^c20^c10^c2^c1^b2"_var);</syntaxhighlight>
let v2 = sort("b1^a1^c20^c10^c2^c1^b2"_var);</syntaxhighlight>
|-
|-
|var=||strvar.reverse(delimiter = FM)||Reorder fields in an FM or VM etc. separated list in descending order
|var=||strvar.reverse(delimiter = FM)||Reorder fields in an FM or VM etc. separated list in descending order
Line 1,105: Line 1,164:
// or
// or
let v2 = reverse("20^10^2^1^1.1"_var);</syntaxhighlight>
let v2 = reverse("20^10^2^1^1.1"_var);</syntaxhighlight>
|-
|-
|var=||strvar.shuffle(delimiter = FM)||Randomise the order of fields in an FM, VM separated list
|var=||strvar.shuffle(delimiter = FM)||Randomise the order of fields in an FM, VM separated list
Line 1,111: Line 1,171:
// or
// or
let v2 = shuffle("20^10^2^1^1.1"_var);</syntaxhighlight>
let v2 = shuffle("20^10^2^1^1.1"_var);</syntaxhighlight>
|-
|-
|var=||strvar.parse(char sepchar = ' ')||Split a delimited string with embedded quotes into a dynamic array.
|var=||strvar.parse(char sepchar = ' ')||Split a delimited string with embedded quotes into a dynamic array.
Line 1,121: Line 1,182:
// or
// or
let v2 = parse("abc,\"def,\"123\" fgh\",12.34", ',');</syntaxhighlight>
let v2 = parse("abc,\"def,\"123\" fgh\",12.34", ',');</syntaxhighlight>
|-
|-
|dim=||strvar.split(delimiter = FM)||Split a delimited string into a dim array.
|dim=||strvar.split(delimiter = FM)||Split a delimited string into a dim array.


The delimiter can be multibyte Unicode.
The delimiter can be multibyte Unicode.
<em>Returns:</em> A dim array.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
dim d1 = "a^b^c"_var.split(); // A dimensioned array with three elements (vars)
dim d1 = "a^b^c"_var.split(); // A dimensioned array with three elements (vars)
// or
// or
dim d2 = split("a^b^c"_var);</syntaxhighlight>
dim d2 = split("a^b^c"_var);</syntaxhighlight>
|-
|var=||strvar.fieldstore(delimiter, fieldno, nfields, replacement)||
|}
|}
===== String Mutation - Standalone Commands =====
===== String Mutation - Standalone Commands =====
Line 1,143: Line 1,210:
// or
// or
ucaser(v1);</syntaxhighlight>
ucaser(v1);</syntaxhighlight>
|-
|-
|||strvar.lcaser()||
|||strvar.lcaser()||
Line 1,234: Line 1,302:
// or
// or
let v2 = oconv(30123, "D/E");</syntaxhighlight>
let v2 = oconv(30123, "D/E");</syntaxhighlight>
|-
|-
|var=||var.iconv(convstr)||Converts external data to internal format according to a given conversion code or pattern
|var=||var.iconv(convstr)||Converts external data to internal format according to a given conversion code or pattern
Line 1,246: Line 1,315:
// or
// or
let v2 = iconv("21 JUN 2050", "D/E");</syntaxhighlight>
let v2 = iconv("21 JUN 2050", "D/E");</syntaxhighlight>
|-
|-
|var=||var.format(fmt_str, args, ...)||Classic format function in printf style
|var=||var.format(fmt_str, args, ...)||Classic format function in printf style
Line 1,258: Line 1,328:
var v3 = format("'{:_>8.2f}'", var(12.345)); // "'___12.35'"
var v3 = format("'{:_>8.2f}'", var(12.345)); // "'___12.35'"
var v4 = format("'{::MD20P|R(_)#8}'", var(12.345));</syntaxhighlight>
var v4 = format("'{::MD20P|R(_)#8}'", var(12.345));</syntaxhighlight>
|-
|-
|var=||strvar.from_codepage(codepage)||Converts from codepage encoded text to UTF-8 encoded text
|var=||strvar.from_codepage(codepage)||Converts from codepage encoded text to UTF-8 encoded text
Line 1,269: Line 1,340:
let v2 = from_codepage("\xa4", "CP1124");
let v2 = from_codepage("\xa4", "CP1124");
// U+0404 Cyrillic Capital Letter Ukrainian Ie Unicode character</syntaxhighlight>
// U+0404 Cyrillic Capital Letter Ukrainian Ie Unicode character</syntaxhighlight>
|-
|-
|var=||strvar.to_codepage(codepage)||Converts to codepage encoded text from UTF-8 encoded text
|var=||strvar.to_codepage(codepage)||Converts to codepage encoded text from UTF-8 encoded text
Line 1,275: Line 1,347:
// or
// or
let v2 = to_codepage("Є", "CP1124").oconv("HEX");</syntaxhighlight>
let v2 = to_codepage("Є", "CP1124").oconv("HEX");</syntaxhighlight>
|}
|}
===== Dynamic Array Functions =====
===== Dynamic Array Functions =====
Line 1,291: Line 1,364:
let v1 = "f1^f2v1]f2v2]f2v3^f2"_var;
let v1 = "f1^f2v1]f2v2]f2v3^f2"_var;
let v2 = v1.f(2, 2); // "f2v2"</syntaxhighlight>
let v2 = v1.f(2, 2); // "f2v2"</syntaxhighlight>
|-
|-
|var=||strvar.extract(fieldno, valueno = 0, subvalueno = 0)||Extract a specific field, value or subvalue from a dynamic array.
|var=||strvar.extract(fieldno, valueno = 0, subvalueno = 0)||Extract a specific field, value or subvalue from a dynamic array.
Line 1,299: Line 1,373:
// For brevity the function alias "f()" (standing for "field") is normally used instead of "extract()" as follows:
// For brevity the function alias "f()" (standing for "field") is normally used instead of "extract()" as follows:
var v3 = v1.f(2, 2);</syntaxhighlight>
var v3 = v1.f(2, 2);</syntaxhighlight>
|-
|-
|var=||strvar.update(fieldno, valueno, subvalueno, replacement)||Same as var.updater() function but returns a new string instead of updating a variable in place.<br>Rarely used.
|var=||strvar.update(fieldno, valueno, subvalueno, replacement)||Same as var.updater() function but returns a new string instead of updating a variable in place.<br>Rarely used.
"update()" was called "replace()" in Pick OS/Basic.
|-
|-
|var=||strvar.update(fieldno, valueno, replacement)||Ditto for a specific multivalue
|var=||strvar.update(fieldno, valueno, replacement)||Ditto for a specific multivalue
Line 1,314: Line 1,391:
|var=||strvar.remove(fieldno, valueno = 0, subvalueno = 0)||Same as var.remover() function but returns a new string instead of updating a variable in place.
|var=||strvar.remove(fieldno, valueno = 0, subvalueno = 0)||Same as var.remover() function but returns a new string instead of updating a variable in place.


"remove" was called "delete" in Pick OS.
"remove()" was called "delete()" in Pick OS/Basic.
|}
|}
===== Dynamic Array Filters =====
===== Dynamic Array Filters =====
Line 1,326: Line 1,403:
// or
// or
let v2 = sum("1]2]3^4]5]6"_var);</syntaxhighlight>
let v2 = sum("1]2]3^4]5]6"_var);</syntaxhighlight>
|-
|-
|var=||strvar.sumall()||Sum up all levels into a single figure
|var=||strvar.sumall()||Sum up all levels into a single figure
Line 1,332: Line 1,410:
// or
// or
let v2 = sumall("1]2]3^4]5]6"_var);</syntaxhighlight>
let v2 = sumall("1]2]3^4]5]6"_var);</syntaxhighlight>
|-
|-
|var=||strvar.sum(delimiter)||Ditto allowing commas etc.
|var=||strvar.sum(delimiter)||Ditto allowing commas etc.
Line 1,338: Line 1,417:
// or
// or
let v2 = sum("10,20,30", ",");</syntaxhighlight>
let v2 = sum("10,20,30", ",");</syntaxhighlight>
|-
|-
|var=||strvar.mv(opcode, var2)||Binary ops (+, -, *, /) in parallel on multiple values
|var=||strvar.mv(opcode, var2)||Binary ops (+, -, *, /) in parallel on multiple values
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = "10]20]30"_var.mv("+","2]3]4"_var); // "12]23]34"_var</syntaxhighlight>
let v1 = "10]20]30"_var.mv("+","2]3]4"_var); // "12]23]34"_var</syntaxhighlight>
|}
|}
===== Dynamic Array Mutators Standalone Commands =====
===== Dynamic Array Mutators Standalone Commands =====
Line 1,356: Line 1,437:
// or
// or
updater(v1, 2, "X");</syntaxhighlight>
updater(v1, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.updater(fieldno, valueno, replacement)||Replace a specific value of a specific field in a dynamic array.
|||strvar.updater(fieldno, valueno, replacement)||Replace a specific value of a specific field in a dynamic array.
Line 1,365: Line 1,447:
// or
// or
updater(v1, 2, 2, "X");</syntaxhighlight>
updater(v1, 2, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.updater(fieldno, valueno, subvalueno, replacement)||Replace a specific subvalue of a specific value of a specific field in a dynamic array.
|||strvar.updater(fieldno, valueno, subvalueno, replacement)||Replace a specific subvalue of a specific value of a specific field in a dynamic array.
Line 1,374: Line 1,457:
// or
// or
updater(v1, 2, 2, 2, "X");</syntaxhighlight>
updater(v1, 2, 2, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.inserter(fieldno, insertion)||Insert a specific field in a dynamic array, moving all other fields up.
|||strvar.inserter(fieldno, insertion)||Insert a specific field in a dynamic array, moving all other fields up.
Line 1,381: Line 1,465:
// or
// or
inserter(v1, 2, "X");</syntaxhighlight>
inserter(v1, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.inserter(fieldno, valueno, insertion)||Ditto for a specific value in a specific field, moving all other values up.
|||strvar.inserter(fieldno, valueno, insertion)||Ditto for a specific value in a specific field, moving all other values up.
Line 1,388: Line 1,473:
// or
// or
inserter(v1, 2, 2, "X");</syntaxhighlight>
inserter(v1, 2, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.inserter(fieldno, valueno, subvalueno, insertion)||Ditto for a specific subvalue in a dynamic array, moving all other subvalues up.
|||strvar.inserter(fieldno, valueno, subvalueno, insertion)||Ditto for a specific subvalue in a dynamic array, moving all other subvalues up.
Line 1,395: Line 1,481:
// or
// or
v1.inserter(2, 2, 2, "X");</syntaxhighlight>
v1.inserter(2, 2, 2, "X");</syntaxhighlight>
|-
|-
|||strvar.remover(fieldno, valueno = 0, subvalueno = 0)||Remove a specific field (or value, or subvalue) from a dynamic array, moving all other fields (or values, or subvalues)  down.
|||strvar.remover(fieldno, valueno = 0, subvalueno = 0)||Remove a specific field (or value, or subvalue) from a dynamic array, moving all other fields (or values, or subvalues)  down.
Line 1,402: Line 1,489:
// or
// or
remover(v1, 2, 2);</syntaxhighlight>
remover(v1, 2, 2);</syntaxhighlight>
|}
|}
===== Dynamic Array Search =====
===== Dynamic Array Search =====
Line 1,417: Line 1,505:
// or
// or
if (locate("US", "UK^US^UA"_var)) ... ok</syntaxhighlight>
if (locate("US", "UK^US^UA"_var)) ... ok</syntaxhighlight>
|-
|-
|if||strvar.locate(target, out valueno)||locate() with only the target substr provided and setting returned searches unordered values separated by any type of field mark chars.
|if||strvar.locate(target, out valueno)||locate() with only the target substr provided and setting returned searches unordered values separated by any type of field mark chars.
Line 1,428: Line 1,517:
// or
// or
if (locate("US", "UK]US]UA"_var, setting)) ... ok</syntaxhighlight>
if (locate("US", "UK]US]UA"_var, setting)) ... ok</syntaxhighlight>
|-
|-
|if||strvar.locate(target, out setting, fieldno, valueno = 0)||locate() the target in unordered fields if fieldno is 0, or values if a fieldno is specified, or subvalues if the valueno argument is provided.
|if||strvar.locate(target, out setting, fieldno, valueno = 0)||locate() the target in unordered fields if fieldno is 0, or values if a fieldno is specified, or subvalues if the valueno argument is provided.
Line 1,437: Line 1,527:
var setting;
var setting;
if ("f1^f2v1]f2v2]s1}s2}s3}s4^f3^f4"_var.locate("s4", setting, 2, 3)) ... ok // setting -> 4 // returns true</syntaxhighlight>
if ("f1^f2v1]f2v2]s1}s2}s3}s4^f3^f4"_var.locate("s4", setting, 2, 3)) ... ok // setting -> 4 // returns true</syntaxhighlight>
|-
|-
|if||strvar.locateby(ordercode, target, out valueno)||locateby() without fieldno or valueno arguments searches ordered values separated by VM chars.
|if||strvar.locateby(ordercode, target, out valueno)||locateby() without fieldno or valueno arguments searches ordered values separated by VM chars.
Line 1,453: Line 1,544:
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var valueno; if ("aaa]bbb]ccc"_var.locateby("AL", "bb", valueno)) ... // valueno -> 2 // returns false and valueno = where it could be correctly inserted.</syntaxhighlight>
var valueno; if ("aaa]bbb]ccc"_var.locateby("AL", "bb", valueno)) ... // valueno -> 2 // returns false and valueno = where it could be correctly inserted.</syntaxhighlight>
|-
|-
|if||strvar.locateby(ordercode, target, out setting, fieldno, valueno = 0)||locateby() ordered as above but in fields if fieldno is 0, or values in a specific fieldno, or subvalues in a specific valueno.
|if||strvar.locateby(ordercode, target, out setting, fieldno, valueno = 0)||locateby() ordered as above but in fields if fieldno is 0, or values in a specific fieldno, or subvalues in a specific valueno.
Line 1,458: Line 1,550:
var setting;
var setting;
if ("f1^f2^aaa]bbb]ccc^f4"_var.locateby("AL", "bb", setting, 3)) ... // setting -> 2 // return false and where it could be correctly inserted.</syntaxhighlight>
if ("f1^f2^aaa]bbb]ccc^f4"_var.locateby("AL", "bb", setting, 3)) ... // setting -> 2 // return false and where it could be correctly inserted.</syntaxhighlight>
|-
|-
|if||strvar.locateusing(usingchar, target)||locate() a target substr in the whole unordered string using a given delimiter char returning true if found.
|if||strvar.locateusing(usingchar, target)||locate() a target substr in the whole unordered string using a given delimiter char returning true if found.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
if ("AB,EF,CD"_var.locateusing(",", "EF")) ... ok</syntaxhighlight>
if ("AB,EF,CD"_var.locateusing(",", "EF")) ... ok</syntaxhighlight>
|-
|-
|if||strvar.locateusing(usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0)||locate() the target in a specific field, value or subvalue using a specified delimiter and unordered data
|if||strvar.locateusing(usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0)||locate() the target in a specific field, value or subvalue using a specified delimiter and unordered data
Line 1,473: Line 1,567:
var setting;
var setting;
if ("f1^f2^f3c1,f3c2,f3c3^f4"_var.locateusing(",", "f3c2", setting, 3)) ... ok // setting -> 2 // returns true</syntaxhighlight>
if ("f1^f2^f3c1,f3c2,f3c3^f4"_var.locateusing(",", "f3c2", setting, 3)) ... ok // setting -> 2 // returns true</syntaxhighlight>
|-
|-
|if||strvar.locatebyusing(ordercode, usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0)||locatebyusing() supports all the above features in a single function.
|if||strvar.locatebyusing(ordercode, usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0)||locatebyusing() supports all the above features in a single function.
Line 1,503: Line 1,598:
// or
// or
if (not connect("exodus")) ...</syntaxhighlight>
if (not connect("exodus")) ...</syntaxhighlight>
|-
|-
|if||conn.attach(filenames)||Attach (connect) specific files by name to specific connections.
|if||conn.attach(filenames)||"attach" causes the given filenames to be associated with a specific connection for the remainder of the session.


It is not necessary to attach files before opening them. Attach is meant to control the defaults.
It is not necessary to attach files before opening them.


For the remainder of the session, opening the db file by name without specifying a connection will automatically use the specified connection applies during the attach command.
Attachments can changed by calling attach() or open() on a different connection or they can be removed by calling detach().


If conn is not specified then filename will be attached to the default connection.
<em>var:</em> Defaults to the default connection.


Multiple file names must be separated by FM
<em>filenames:</em> FM separated list.
 
<em>Returns:</em> false if any filename does not exist and cannot be opened on the given connection. All filenames that can be opened on the conneciton are attached even if some cannot.
 
Internally, attach merely opens each filename on the given connection causing them to be added to an internal cache.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let filenames = "xo_clients^dict.xo_clients"_var, conn = "exodus";
let filenames = "xo_clients^dict.xo_clients"_var, conn = "exodus";
Line 1,518: Line 1,618:
// or
// or
if (attach(filenames)) ... ok</syntaxhighlight>
if (attach(filenames)) ... ok</syntaxhighlight>
|-
|-
|||conn.detach(filenames)||Detach (disconnect) files that have been attached using attach().
|||conn.detach(filenames)||Removes files from the internal cache created by previous open() and attach() calls.
 
<em>var:</em> Defaults to the default connection.
 
<em>filenames:</em> FM separated list.
 
 
|-
|-
|if||conn.begintrans()||Begin a db transaction.
|if||conn.begintrans()||Begin a db transaction.
Line 1,526: Line 1,633:
// or
// or
if (not begintrans()) ...</syntaxhighlight>
if (not begintrans()) ...</syntaxhighlight>
|-
|-
|if||conn.statustrans()||Check if a db transaction is in progress.
|if||conn.statustrans()||Check if a db transaction is in progress.
Line 1,532: Line 1,640:
// or
// or
if (statustrans()) ... ok</syntaxhighlight>
if (statustrans()) ... ok</syntaxhighlight>
|-
|-
|if||conn.rollbacktrans()||Rollback a db transaction.
|if||conn.rollbacktrans()||Rollback a db transaction.
Line 1,538: Line 1,647:
// or
// or
if (rollbacktrans()) ... ok</syntaxhighlight>
if (rollbacktrans()) ... ok</syntaxhighlight>
|-
|-
|if||conn.committrans()||Commit a db transaction.
|if||conn.committrans()||Commit a db transaction.
Line 1,546: Line 1,656:
// or
// or
if (committrans()) ... ok</syntaxhighlight>
if (committrans()) ... ok</syntaxhighlight>
|-
|-
|if||conn.sqlexec(sqlcmd)||Execute an sql command.
|if||conn.sqlexec(sqlcmd)||Execute an sql command.
Line 1,554: Line 1,665:
// or
// or
if (sqlexec("select 1")) ... ok</syntaxhighlight>
if (sqlexec("select 1")) ... ok</syntaxhighlight>
|-
|-
|if||conn.sqlexec(sqlcmd, io response)||Execute an SQL command and capture the response.
|if||conn.sqlexec(sqlcmd, io response)||Execute an SQL command and capture the response.
Line 1,568: Line 1,680:
// or
// or
if (sqlexec(sqlcmd, response)) ... ok</syntaxhighlight>
if (sqlexec(sqlcmd, response)) ... ok</syntaxhighlight>
|-
|-
|||conn.disconnect()||Closes db connection and frees process resources both locally and in the database server.
|||conn.disconnect()||Closes db connection and frees process resources both locally and in the database server.
Line 1,574: Line 1,687:
// or
// or
disconnect();</syntaxhighlight>
disconnect();</syntaxhighlight>
|-
|-
|||conn.disconnectall()||Closes all connections and frees process resources both locally and in the database server(s).
|||conn.disconnectall()||Closes all connections and frees process resources both locally and in the database server(s).
Line 1,582: Line 1,696:
// or
// or
disconnectall();</syntaxhighlight>
disconnectall();</syntaxhighlight>
|-
|-
|var=||conn.lasterror()||Returns: The last os or db error message.
|var=||var::lasterror()||Returns: The last os or db error message.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = var().lasterror();
var v1 = var::lasterror();
// or
// or
var v2 = lasterror();</syntaxhighlight>
var v2 = lasterror();</syntaxhighlight>
|-
|-
|var=||conn.loglasterror(source = "")||Log the last os or db error message.
|||var::loglasterror(source = "")||Log the last os or db error message.


<em>Output:</em> to stdlog
<em>Output:</em> to stdlog
Line 1,595: Line 1,711:
Prefixes the output with source if provided.
Prefixes the output with source if provided.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var().loglasterror("main:");
<em>var:</em>:loglasterror("main:");
// or
// or
loglasterror("main:");</syntaxhighlight>
loglasterror("main:");</syntaxhighlight>
|}
|}
===== Database Management =====
===== Database Management =====
Line 1,615: Line 1,732:
// or
// or
if (dbcreate("xo_gendoc_testdb")) ...</syntaxhighlight>
if (dbcreate("xo_gendoc_testdb")) ...</syntaxhighlight>
|-
|-
|if||conn.dbcopy(from_dbname, to_dbname)||Create a named database as a copy of an existing database.
|if||conn.dbcopy(from_dbname, to_dbname)||Create a named database as a copy of an existing database.
Line 1,627: Line 1,745:
// or
// or
if (dbcopy("xo_gendoc_testdb", "xo_gendoc_testdb2")) ...</syntaxhighlight>
if (dbcopy("xo_gendoc_testdb", "xo_gendoc_testdb2")) ...</syntaxhighlight>
|-
|-
|var=||conn.dblist()||Returns: A list of available databases on a particular connection.
|var=||conn.dblist()||Returns: A list of available databases on a particular connection.
Line 1,633: Line 1,752:
// or
// or
let v2 = dblist();</syntaxhighlight>
let v2 = dblist();</syntaxhighlight>
|-
|-
|if||conn.dbdelete(dbname)||Delete (drop) a named database.
|if||conn.dbdelete(dbname)||Delete (drop) a named database.
Line 1,642: Line 1,762:
// or
// or
if (dbdelete("xo_gendoc_testdb2")) ...</syntaxhighlight>
if (dbdelete("xo_gendoc_testdb2")) ...</syntaxhighlight>
|-
|-
|if||conn.createfile(filename)||Create a named db file.
|if||conn.createfile(filename)||Create a named db file.
filenames ending with "_temp" only last until the connection is closed.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let filename = "xo_gendoc_temp", conn = "exodus";
let filename = "xo_gendoc_temp", conn = "exodus";
Line 1,649: Line 1,772:
// or
// or
if (createfile(filename)) ...</syntaxhighlight>
if (createfile(filename)) ...</syntaxhighlight>
|-
|-
|if||conn.renamefile(filename, newfilename)||Rename a db file.
|if||conn.renamefile(filename, newfilename)||Rename a db file.
Line 1,656: Line 1,780:
// or
// or
if (renamefile(filename, new_filename)) ...</syntaxhighlight>
if (renamefile(filename, new_filename)) ...</syntaxhighlight>
|-
|-
|var=||conn.listfiles()||Returns: A list of all files in a database
|var=||conn.listfiles()||Returns: A list of all files in a database
Line 1,663: Line 1,788:
// or
// or
if (not listfiles()) ...</syntaxhighlight>
if (not listfiles()) ...</syntaxhighlight>
|-
|-
|if||conn.clearfile(filename)||Delete all records in a db file
|if||conn.clearfile(filename)||Delete all records in a db file
Line 1,670: Line 1,796:
// or
// or
if (not clearfile(filename)) ...</syntaxhighlight>
if (not clearfile(filename)) ...</syntaxhighlight>
|-
|-
|if||conn.deletefile(filename)||Delete a db file
|if||conn.deletefile(filename)||Delete a db file
Line 1,677: Line 1,804:
// or
// or
if (deletefile(filename)) ...</syntaxhighlight>
if (deletefile(filename)) ...</syntaxhighlight>
|-
|-
|var=||conn_or_file.reccount(filename = "")||Returns: The approx. number of records in a db file
|var=||conn_or_file.reccount(filename = "")||Returns: The approx. number of records in a db file.
 
Might return -1 if not known.
 
Not very accurate inside transactions.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let conn = "exodus", filename = "xo_clients";
let conn = "exodus", filename = "xo_clients";
Line 1,684: Line 1,816:
// or
// or
var nrecs2 = reccount(filename);</syntaxhighlight>
var nrecs2 = reccount(filename);</syntaxhighlight>
|-
|-
|if||conn_or_file.flushindex(filename = "")||Calls db maintenance function (vacuum)
|if||conn_or_file.flushindex(filename = "")||Calls db maintenance function for a file or all files.


This doesnt actually flush any indexes but does make sure that reccount() function is reasonably accurate.
This doesnt actually flush any indexes but does make sure that reccount() function is reasonably accurate.
<em>Returns:</em> True if successful otherwise false if not and with lasterror() set.
|}
|}
===== Database File I/O =====
===== Database File I/O =====
Line 1,694: Line 1,829:
!Use!!Function!!Description
!Use!!Function!!Description
|-
|-
|if||file.open(dbfilename, connection = "")||Opens a db file to a var which can be used in subsequent functions to work on the specified file and database connection.
|if||file.open(dbfilename, connection = "")||Opens a db file to a var which can be used in subsequent db function calls to access a specific file using a specific connection.
 
<em>connection:</em> If not specified and the filename is present in an internal cache of filenames and connections created by previous calls to open() or attach() then open() returns true. If it is not present in the cache then the default connection will be checked.
 
<em>Returns:</em> True if the filename was present in the cache OR if the db connection reports that the file is present.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var file, filename = "xo_clients";
var file, filename = "xo_clients";
Line 1,700: Line 1,839:
// or
// or
if (not open(filename to file)) ...</syntaxhighlight>
if (not open(filename to file)) ...</syntaxhighlight>
|-
|-
|||file.close()||Closes db file var
|||file.close()||Closes db file var
Line 1,709: Line 1,849:
// or
// or
close(file);</syntaxhighlight>
close(file);</syntaxhighlight>
|-
|-
|if||file.createindex(fieldname, dictfile = "")||Creates a secondary index for a given db file and field name.
|if||file.createindex(fieldname, dictfile = "")||Creates a secondary index for a given db file and field name.
Line 1,731: Line 1,872:
// or
// or
if (createindex(filename, fieldname)) ...</syntaxhighlight>
if (createindex(filename, fieldname)) ...</syntaxhighlight>
|-
|-
|var=||file|conn.listindex(file_or_filename = "", fieldname = "")||Lists secondary indexes in a database or for a db file
|var=||file|conn.listindex(file_or_filename = "", fieldname = "")||Lists secondary indexes in a database or for a db file
Line 1,740: Line 1,882:
// or
// or
if (listindex()) ... ok</syntaxhighlight>
if (listindex()) ... ok</syntaxhighlight>
|-
|-
|if||file.deleteindex(fieldname)||Deletes a secondary index for a db file and field name.
|if||file.deleteindex(fieldname)||Deletes a secondary index for a db file and field name.
Line 1,753: Line 1,896:
// or
// or
if (deleteindex(file, fieldname)) ...</syntaxhighlight>
if (deleteindex(file, fieldname)) ...</syntaxhighlight>
|-
|-
|var=||file.lock(key)||Places a metaphorical db lock on a particular record given a db file and key.
|var=||file.lock(key)||Places a metaphorical db lock on a particular record given a db file and key.
Line 1,768: Line 1,912:
Locks can be used to avoid processing a transaction simultaneously with another connection only to have one of them fail due to mutually updating the same records.
Locks can be used to avoid processing a transaction simultaneously with another connection only to have one of them fail due to mutually updating the same records.


Returns::
<em>Returns:</em>:


* 0: Failure: Another connection has already placed the same lock.
* 0: Failure: Another connection has already placed the same lock.
Line 1,782: Line 1,926:
// or
// or
if (lock(file, key)) ...</syntaxhighlight>
if (lock(file, key)) ...</syntaxhighlight>
|-
|-
|if||file.unlock(key)||Removes a db lock placed by the lock function.
|if||file.unlock(key)||Removes a db lock placed by the lock function.
Line 1,795: Line 1,940:
// or
// or
if (unlock(file, key)) ...</syntaxhighlight>
if (unlock(file, key)) ...</syntaxhighlight>
|-
|-
|if||file.unlockall()||Removes all db locks placed by the lock function in the specified connection.
|if||file.unlockall()||Removes all db locks placed by the lock function in the specified connection.
Line 1,804: Line 1,950:
// or
// or
if (not unlockall(conn)) ...</syntaxhighlight>
if (not unlockall(conn)) ...</syntaxhighlight>
|-
|-
|||record.write(file, key)||Writes a record into a db file given a unique primary key.
|||record.write(file, key)||Writes a record into a db file given a unique primary key.
Line 1,809: Line 1,956:
Either inserts a new record or updates an existing record.
Either inserts a new record or updates an existing record.


It always succeeds so no result code is returned.
<em>Returns:</em> Nothing since writes always succeed.
 
<em>Throws:</em> VarDBException if the file does not exist. Like most db functions.


Any memory cached record is deleted.
Any memory cached record is deleted.
Line 1,815: Line 1,964:
let record = "Client GD^G^20855^30000^1001.00^20855.76539"_var;
let record = "Client GD^G^20855^30000^1001.00^20855.76539"_var;
let file = "xo_clients", key = "GD001";
let file = "xo_clients", key = "GD001";
if (not deleterecord("xo_clients", "GD001")) {}; // Cleanup first
//if (not "xo_clients"_var.deleterecord("GD001")) {}; // Cleanup first
record.write(file, key);
record.write(file, key);
// or
// or
write(record on file, key);</syntaxhighlight>
write(record on file, key);</syntaxhighlight>
|-
|-
|if||record.read(file, key)||Reads a record from a db file for a given key.
|if||record.read(file, key)||Reads a record from a db file for a given key.
<em>file:</em> A db filename or a var opened to a db file.
<em>key:</em> The key of the record to be read.


<em>Returns:</em> False if the key doesnt exist
<em>Returns:</em> False if the key doesnt exist


<em>var:</em> Contains the record if it exists or is unassigned if not.
<em>var:</em> Contains the record if it exists or is unassigned if not.
A special case of the key being "%RECORDS%" results in a fictitious "record" being returned as an FM separated list of all the keys in the db file up to a maximum size of 4Mib, sorted in natural order.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var record;
var record;
Line 1,831: Line 1,987:
// or
// or
if (not read(record from file, key)) ...</syntaxhighlight>
if (not read(record from file, key)) ...</syntaxhighlight>
|-
|-
|if||file.deleterecord(key)||Deletes a record from a db file given a key.
|if||file.deleterecord(key)||Deletes a record from a db file given a key.
Line 1,837: Line 1,994:


Any memory cached record is deleted.
Any memory cached record is deleted.
deleterecord(in file), a one argument free function, is available that deletes multiple records using the currently active select list.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let file = "xo_clients", key = "GD001";
let file = "xo_clients", key = "GD001";
if (file.deleterecord(key)) ... ok
if (file.deleterecord(key)) ... ok
// or
// or
if (deleterecord(file, key)) ...</syntaxhighlight>
//if (deleterecord(file, key)) ...</syntaxhighlight>
 
|-
|-
|if||record.insertrecord(file, key)||Inserts a new record in a db file.
|if||record.insertrecord(file, key)||Inserts a new record in a db file.
Line 1,854: Line 2,014:
// or
// or
if (insertrecord(record on file, key)) ...</syntaxhighlight>
if (insertrecord(record on file, key)) ...</syntaxhighlight>
|-
|-
|if||record.updaterecord(file, key)||Updates an existing record in a db file.
|if||record.updaterecord(file, key)||Updates an existing record in a db file.


<em>Returns:</em> False if the key doesnt already exist
<em>Returns:</em> False if no record with the given key exists.


Any memory cached record is deleted.
Any memory cached record is deleted.
Line 1,866: Line 2,027:
// or
// or
if (not updaterecord(record on file, key)) ...</syntaxhighlight>
if (not updaterecord(record on file, key)) ...</syntaxhighlight>
|-
|if||record.updatekey(key, newkey)||Updates the key of an existing record in a db file.
<em>Returns:</em> True if successful or false if no record with the given key exists, or a record with newkey already exists
Any memory cached records of either key are deleted.
<syntaxhighlight lang="c++">
let file = "xo_clients", key = "GD001", newkey = "GD002";
if (not file.updatekey(key, newkey)) ...
// or
if (not updatekey(file, newkey, key)) ... // Reverse the above change.</syntaxhighlight>
|-
|-
|if||strvar.readf(file, key, fieldno)||"Read field" Same as read() but only returns a specific field number from the record.
|if||strvar.readf(file, key, fieldno)||"Read field" Same as read() but only returns a specific field number from the record.
Line 1,873: Line 2,047:
// or
// or
if (not readf(field from file, key, fieldno)) ...</syntaxhighlight>
if (not readf(field from file, key, fieldno)) ...</syntaxhighlight>
|-
|-
|||strvar.writef(file, key, fieldno)||"write field" Same as write() but only writes to a specific field number in the record
|||strvar.writef(file, key, fieldno)||"write field" Same as write() but only writes to a specific field number in the record
Line 1,880: Line 2,055:
// or
// or
writef(field on file, key, fieldno);</syntaxhighlight>
writef(field on file, key, fieldno);</syntaxhighlight>
|-
|-
|||record.writec(file, key)||"Write cache" Writes a record and key into a memory cached "db file".
|||record.writec(file, key)||"Write cache" Writes a record and key into a memory cached "db file".
Line 1,896: Line 2,072:
// or
// or
writec(record on file, key);</syntaxhighlight>
writec(record on file, key);</syntaxhighlight>
|-
|-
|if||record.readc(file, key)||"Read cache" Same as "read() but first reads from a memory cache.
|if||record.readc(file, key)||"Read cache" Same as "read() but first reads from a memory cache.
Line 1,905: Line 2,082:
2b. Writes the record and key to the memory cache and returns true.
2b. Writes the record and key to the memory cache and returns true.


Cached db file data lives in exodus process memory and is lost when the process terminates or cleardbcache() is called.
Cached db file data lives in exodus process memory and is lost when the process terminates or clearcache() is called.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var record;
var record;
Line 1,915: Line 2,092:
// Verify not in actual database file by using read() not readc()
// Verify not in actual database file by using read() not readc()
if (read(record from file, key)) abort("Error: " ^ key ^ " should not be in the actual database file"); // error</syntaxhighlight>
if (read(record from file, key)) abort("Error: " ^ key ^ " should not be in the actual database file"); // error</syntaxhighlight>
|-
|-
|if||dbfile.deletec(key)||Deletes a record and key from a memory cached "file".
|if||dbfile.deletec(key)||Deletes a record and key from a memory cached "file".
Line 1,926: Line 2,104:
// or
// or
if (deletec(file, key)) ...</syntaxhighlight>
if (deletec(file, key)) ...</syntaxhighlight>
|-
|-
|||conn.cleardbcache()||Clears the memory cache of all records for the given connection
|||conn.clearcache()||Clears the memory cache of all records for the given connection


All future cache readc() function calls will be forced to obtain records from the actual database and refresh the cache.
All future cache readc() function calls will be forced to obtain records from the actual database and refresh the cache.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
conn.cleardbcache();
conn.clearcache();
// or
// or
cleardbcache(conn);</syntaxhighlight>
clearcache(conn);</syntaxhighlight>
 
|-
|-
|var=||strvar.xlate(filename, fieldno, mode)||The xlate ("translate") function is similar to readf() but, when called as an exodus program member function, it can be used efficiently with exodus file dictionaries using column names and functions and multivalued data.
|var=||strvar.xlate(filename, fieldno, mode)||The xlate ("translate") function is similar to readf() but, when called as an exodus program member function, it can be used efficiently with exodus file dictionaries using column names and functions and multivalued data.
Line 1,963: Line 2,143:
// or
// or
let name_and_type = xlate("xo_clients", key, "NAME_AND_TYPE", "X"); // "Client AAA (A)"</syntaxhighlight>
let name_and_type = xlate("xo_clients", key, "NAME_AND_TYPE", "X"); // "Client AAA (A)"</syntaxhighlight>
|}
|}
===== Database Sort/Select =====
===== Database Sort/Select =====
Line 2,001: Line 2,182:
     while (readnext(ID))
     while (readnext(ID))
         println("Client code is {}", ID);</syntaxhighlight>
         println("Client code is {}", ID);</syntaxhighlight>
|-
|-
|if||dbfile.selectkeys(keys)||Create an active select list from a string of keys.
|if||dbfile.selectkeys(keys)||Create an active select list from a string of keys.
Line 2,017: Line 2,199:
if (selectkeys(keys)) ... ok
if (selectkeys(keys)) ... ok
assert(readnext(ID) and ID == "A01");</syntaxhighlight>
assert(readnext(ID) and ID == "A01");</syntaxhighlight>
|-
|-
|if||dbfile.hasnext()||Checks if a select list is active.
|if||dbfile.hasnext()||Checks if a select list is active.
Line 2,034: Line 2,217:
     assert(hasnext());
     assert(hasnext());
}</syntaxhighlight>
}</syntaxhighlight>
|-
|-
|if||dbfile.readnext(out key)||Acquires and consumes one key from an active select list of database record keys.
|if||dbfile.readnext(out key)||Acquires and consumes one key from an active select list of database record keys.
Line 2,048: Line 2,232:


See select() for example code.
See select() for example code.
|-
|-
|if||dbfile.readnext(out key, out valueno)||Similar to readnext(key) but multivalued.
|if||dbfile.readnext(out key, out valueno)||Similar to readnext(key) but multivalued.


If the active list was ordered by multivalued database fields then pairs of key and multivalue number will be available to the readnext function.
If the active list was ordered by multivalued database fields then pairs of key and multivalue number will be available to the readnext function.
|-
|-
|if||dbfile.readnext(out record, out key, out valueno)||Similar to readnext(key) but acquires the database record as well.
|if||dbfile.readnext(out record, out key, out valueno)||Similar to readnext(key) but acquires the database record as well.
Line 2,070: Line 2,258:
     while (readnext(RECORD, ID, MV))
     while (readnext(RECORD, ID, MV))
         println("Code is {}, Name is {}", calculate("CODE"), calculate("NAME"));</syntaxhighlight>
         println("Code is {}, Name is {}", calculate("CODE"), calculate("NAME"));</syntaxhighlight>
|-
|-
|||dbfile.clearselect()||Deactivates an active select list.
|||dbfile.clearselect()||Deactivates an active select list.
Line 2,085: Line 2,274:
clearselect();
clearselect();
if (not hasnext()) ... ok</syntaxhighlight>
if (not hasnext()) ... ok</syntaxhighlight>
|-
|-
|if||dbfile.savelist(listname)||Stores an active select list for later retrieval.
|if||dbfile.savelist(listname)||Stores an active select list for later retrieval.
Line 2,115: Line 2,305:
     if (savelist("mylist")) ... ok
     if (savelist("mylist")) ... ok
}</syntaxhighlight>
}</syntaxhighlight>
|-
|-
|if||dbfile.getlist(listname)||Retrieve and reactivate a saved select list.
|if||dbfile.getlist(listname)||Retrieve and reactivate a saved select list.
Line 2,138: Line 2,329:
         println("Key is {}", ID);
         println("Key is {}", ID);
}</syntaxhighlight>
}</syntaxhighlight>
|-
|-
|if||dbfile.deletelist(listname)||Delete a saved select list.
|if||dbfile.deletelist(listname)||Delete a saved select list.
Line 2,150: Line 2,342:
if (conn.deletelist("mylist")) ... ok
if (conn.deletelist("mylist")) ... ok
// or
// or
if (deletelist("mylist")) ... ok</syntaxhighlight>
if (deletelist("mylist")) ...</syntaxhighlight>
 
|}
|}
===== OS Time/Date =====
===== OS Time/Date =====
Line 2,157: Line 2,350:
!Use!!Function!!Description
!Use!!Function!!Description
|-
|-
|var=||var().date()||Number of whole days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.
|var=||var::date()||Number of whole days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.


e.g. was 20821 from 2025-01-01 00:00:00 UTC for 24 hours
e.g. was 20821 from 2025-01-01 00:00:00 UTC for 24 hours
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let today1 = var().date();
let today1 = var::date();
// or
// or
let today2 = date();</syntaxhighlight>
let today2 = date();</syntaxhighlight>
|-
|-
|var=||var().time()||Number of whole seconds since last 00:00:00 (UTC).
|var=||var::time()||Number of whole seconds since last 00:00:00 (UTC).


e.g. 43200 if time is 12:00
e.g. 43200 if time is 12:00
Line 2,171: Line 2,365:
Range 0 - 86399 since there are 24*60*60 (86400) seconds in a day.
Range 0 - 86399 since there are 24*60*60 (86400) seconds in a day.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let now1 = var().time();
let now1 = var::time();
// or
// or
let now2 = time();</syntaxhighlight>
let now2 = time();</syntaxhighlight>
|-
|-
|var=||var().ostime()||Number of fractional seconds since last 00:00:00 (UTC).
|var=||var::ostime()||Number of fractional seconds since last 00:00:00 (UTC).


A floating point with approx. nanosecond resolution depending on hardware.
A floating point with approx. nanosecond resolution depending on hardware.
Line 2,181: Line 2,376:
e.g. 23343.704387955 approx. 06:29:03 UTC
e.g. 23343.704387955 approx. 06:29:03 UTC
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let now1 = var().ostime();
let now1 = var::ostime();
// or
// or
let now2 = ostime();</syntaxhighlight>
let now2 = ostime();</syntaxhighlight>
|-
|-
|var=||var().timestamp()||Number of fractional days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.
|var=||var::ostimestamp()||Number of fractional days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.


A floating point with approx. nanosecond resolution depending on hardware.
A floating point with approx. nanosecond resolution depending on hardware.
Line 2,191: Line 2,387:
e.g. Was 20821.99998842593 around 2025-01-01 23:59:59 UTC
e.g. Was 20821.99998842593 around 2025-01-01 23:59:59 UTC
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let now1 = var().timestamp();
let now1 = var::ostimestamp();
// or
// or
let now2 = timestamp();</syntaxhighlight>
let now2 = ostimestamp();</syntaxhighlight>
 
|-
|-
|var=||var().timestamp(ostime)||Construct a timestamp from a date and time
|var=||vardate.ostimestamp(ostime)||Construct a timestamp from a date and time
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let idate = iconv("2025-01-01", "D"), itime = iconv("23:59:59", "MT");
let idate = iconv("2025-01-01", "D"), itime = iconv("23:59:59", "MT");
let ts1 = idate.timestamp(itime); // 20821.99998842593
let ts1 = idate.ostimestamp(itime); // 20821.99998842593
// or
// or
let ts2 = timestamp(idate, itime);</syntaxhighlight>
let ts2 = ostimestamp(idate, itime);</syntaxhighlight>
 
|-
|-
|||var().ossleep(milliseconds)||Sleep/pause/wait for a number of milliseconds
|||var::ossleep(milliseconds)||Sleep/pause/wait for a number of milliseconds


Releases the processor if not needed for a period of time or a delay is required.
Releases the processor if not needed for a period of time or a delay is required.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var().ossleep(100); // sleep for 100ms
<em>var:</em>:ossleep(100); // sleep for 100ms
// or
// or
ossleep(100);</syntaxhighlight>
ossleep(100);</syntaxhighlight>
|-
|-
|var=||file_dir_list.oswait(milliseconds)||Sleep/pause/wait up to a given number of milliseconds or until any changes occur in an FM delimited list of directories and/or files.
|var=||file_dir_list.oswait(milliseconds)||Sleep/pause/wait up to a given number of milliseconds or until any changes occur in an FM delimited list of directories and/or files.
Line 2,260: Line 2,459:


</pre>
</pre>
|}
|}
===== OS File I/O =====
===== OS File I/O =====
Line 2,266: Line 2,467:
!Use!!Function!!Description
!Use!!Function!!Description
|-
|-
|if||osfilevar.osopen(osfilename, utf8 = true)||Initialises an os file handle var that can be used in subsequent random access osbread and osbwrite functions.
|if||osfilevar.osopen(osfilename, utf8 = true)||Initialises an os file handle var that can be used for random read and write


<em>osfilename:</em> The name of an existing os file name including path.
<em>osfilename:</em> The name of an existing os file name including path.


<em>utf8:</em> Defaults to true which causes trimming of partial utf-8 Unicode byte sequences from the end of osbreads. For raw untrimmed osbreads pass tf8 = false;
<em>utf8:</em> Defaults to true which causes trimming of partial utf-8 Unicode byte sequences from the end of osbreads. For raw untrimmed osbreads pass tf8 = false;
<em>osfilevar:</em> [out] To be used in subsequent calls to osbread() and osbwrite()


<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Target doesnt exist, permissions etc.
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Target doesnt exist, permissions etc.
Line 2,276: Line 2,479:
The file will be opened for writing if possible otherwise for reading.
The file will be opened for writing if possible otherwise for reading.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (oswrite("" on osfilename)) ... ok /// Create an empty os file
if (oswrite("" on osfilename)) ... ok /// Create an empty os file
var ostempfile;
var ostempfile;
Line 2,282: Line 2,485:
// or
// or
if (osopen(osfilename to ostempfile)) ... ok</syntaxhighlight>
if (osopen(osfilename to ostempfile)) ... ok</syntaxhighlight>
|-
|-
|if||osfilevar.osbwrite(osfilevar, io offset)||Writes data to an existing os file starting at a given byte offset (0 based).
|if||osfilevar.osbwrite(osfilevar, io offset)||Writes data to an existing os file starting at a given byte offset (0 based).
Line 2,287: Line 2,491:
See osbread for more info.
See osbread for more info.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let text = "aaa=123\nbbb=456\n";
let text = "aaa=123\nbbb=456\n";
var offset = osfile(osfilename).f(1); /// Size of file therefore append
var offset = osfile(osfilename).f(1); /// Size of file therefore append
Line 2,293: Line 2,497:
// or
// or
if (not osbwrite(text on osfilename, offset)) ...</syntaxhighlight>
if (not osbwrite(text on osfilename, offset)) ...</syntaxhighlight>
|-
|-
|if||osfilevar.osbread(osfilevar, io offset, length)||Reads length bytes from an existing os file starting at a given byte offset (0 based).
|if||osfilevar.osbread(osfilevar, io offset, length)||Reads length bytes from an existing os file starting at a given byte offset (0 based).
Line 2,302: Line 2,507:
If reading UTF8 data (the default) then the length of data actually returned may be a few bytes shorter than requested in order to be a complete number of UTF-8 code points.
If reading UTF8 data (the default) then the length of data actually returned may be a few bytes shorter than requested in order to be a complete number of UTF-8 code points.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
var text, offset = 0;
var text, offset = 0;
if (text.osbread(osfilename, offset, 8)) ... ok // text -> "aaa=123\n" // offset -> 8
if (text.osbread(osfilename, offset, 8)) ... ok // text -> "aaa=123\n" // offset -> 8
// or
// or
if (osbread(text from osfilename, offset, 8)) ... ok // text -> "bbb=456\n" // offset -> 16</syntaxhighlight>
if (osbread(text from osfilename, offset, 8)) ... ok // text -> "bbb=456\n" // offset -> 16</syntaxhighlight>
|-
|-
|||osfilevar.osclose()||Removes an osfilevar handle from the internal memory cache of os file handles. This frees up both exodus process memory and operating system resources.
|||osfilevar.osclose()||Removes an osfilevar handle from the internal memory cache of os file handles. This frees up both exodus process memory and operating system resources.
Line 2,315: Line 2,521:
// or
// or
osclose(osfilevar);</syntaxhighlight>
osclose(osfilevar);</syntaxhighlight>
|-
|-
|if||strvar.oswrite(osfilename, codepage = "")||Create a complete os file from a var.
|if||strvar.oswrite(osfilename, codepage = "")||Create a complete os file from a var.


Any existing os file is removed first.
<em>strvar:</em> The text or data to be used to create the file.


<em>Returns:</em> True if successful or false if not possible for any reason.
<em>osfilename:</em> Absolute or relative path and filename to be written. Any existing os file is removed first.


e.g. Path is not writeable, permissions etc.
<em>codepage:</em> If specified then output is converted from utf-8 to that codepage before being written. Otherwise no conversion is done.


If codepage is specified then output is converted from utf-8 to that codepage. Otherwise no conversion is done.
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Path is not writeable, permissions etc.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let text = "aaa = 123\nbbb = 456";
let text = "aaa = 123\nbbb = 456";
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (text.oswrite(osfilename)) ... ok
if (text.oswrite(osfilename)) ... ok
// or
// or
if (oswrite(text on osfilename)) ... ok</syntaxhighlight>
if (oswrite(text on osfilename)) ... ok</syntaxhighlight>
|-
|-
|if||strvar.osread(osfilename, codepage = "")||Read a complete os file into a var.
|if||strvar.osread(osfilename, codepage = "")||Read a complete os file into a var.


If codepage is specified then input is converted from that codepage to utf-8 otherwise no conversion is done.
<em>osfilename:</em> Absolute or relative path and filename to be read.


<em>Returns:</em> True if successful or false if not possible for any reason.
<em>codepage:</em> If specified then input is converted from that codepage to utf-8 after being read. Otherwise no conversion is done.


e.g. File doesnt exist, permissions etc.
<em>strvar:</em> [out] is currently set to "" in case of any failure but this is may be changed in a future release to either force var to be unassigned or to leave it untouched. To guarantee future behaviour either add a line 'xxxx.defaulter("")' or set var manually in case osread() returns false. Or use the one argument free function version of osread() which always returns "" in case of failure to read.
 
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. File doesnt exist, insufficient permissions etc.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var text;
var text;
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (text.osread(osfilename)) ... ok // text -> "aaa = 123\nbbb = 456"
if (text.osread(osfilename)) ... ok // text -> "aaa = 123\nbbb = 456"
// or
// or
if (osread(text from osfilename)) ... ok</syntaxhighlight>
if (osread(text from osfilename)) ... ok
let text2 = osread(osfilename);</syntaxhighlight>
 
|-
|-
|if||osfile_or_dirname.osrename(new_dirpath_or_filepath)||Renames an os file or dir in the OS file system.
|if||osfile_or_dirname.osrename(new_dirpath_or_filepath)||Renames an os file or dir in the OS file system.


Will not overwrite an existing os file or dir.
The source and target must exist in the same storage device.


Source and target must exist in the same storage device.
<em>osfile_or_dirname:</em> Absolute or relative path and file or dir name to be renamed.


<em>Returns:</em> True if successful or false if not possible for any reason.
<em>new_dirpath_or_filepath:</em> Will not overwrite an existing os file or dir.


e.g. Target already exists, path is not writeable, permissions etc.
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Target already exists, path is not writeable, permissions etc.


Uses std::filesystem::rename internally.
Uses std::filesystem::rename internally.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let from_osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let to_osfilename = from_osfilename ^ ".bak";
let to_osfilename = from_osfilename ^ ".bak";
if (not osremove(ostempdirpath() ^ "xo_gendoc_test.conf.bak")) {}; // Cleanup first
if (not osremove(ostempdir() ^ "xo_gendoc_test.conf.bak")) {}; // Cleanup first


if (from_osfilename.osrename(to_osfilename)) ... ok
if (from_osfilename.osrename(to_osfilename)) ... ok
// or
// or
if (osrename(from_osfilename, to_osfilename)) ...</syntaxhighlight>
if (osrename(from_osfilename, to_osfilename)) ...</syntaxhighlight>
|-
|-
|if||osfile_or_dirname.osmove(to_osfilename)||"Moves" an os file or dir within the os file system.
|if||osfile_or_dirname.osmove(to_osfilename)||"Moves" an os file or dir within the os file system.


Will not overwrite an existing os file or dir.
Attempts osrename first, then oscopy followed by osremove original.


<em>Returns:</em> True if successful or false if not possible for any reason.
<em>osfile_or_dirname:</em> Absolute or relative path and file or dir name to be moved.


e.g. Source doesnt exist or cannot be accessed, target already exists, source or target is not writeable, permissions etc.
<em>to_osfilename:</em> Will not overwrite an existing os file or dir.


Attempts osrename first then oscopy followed by osremove original.
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Source doesnt exist or cannot be accessed, target already exists, source or target is not writeable, permissions, storage space etc.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let from_osfilename = ostempdirpath() ^ "xo_gendoc_test.conf.bak";
let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf.bak";
let to_osfilename = from_osfilename.cut(-4);
let to_osfilename = from_osfilename.cut(-4);


if (not osremove(ostempdirpath() ^ "xo_gendoc_test.conf")) {}; // Cleanup first
if (not osremove(ostempdir() ^ "xo_gendoc_test.conf")) {}; // Cleanup first
if (from_osfilename.osmove(to_osfilename)) ... ok
if (from_osfilename.osmove(to_osfilename)) ... ok
// or
// or
if (osmove(from_osfilename, to_osfilename)) ...</syntaxhighlight>
if (osmove(from_osfilename, to_osfilename)) ...</syntaxhighlight>
|-
|-
|if||osfile_or_dirname.oscopy(to_osfilename)||Copies an os file or directory recursively within the os file system.
|if||osfile_or_dirname.oscopy(to_osfilename)||Copies an os file or directory recursively within the os file system.


Will overwrite an existing os file or dir.
<em>osfile_or_dirname:</em> Absolute or relative path and file or dir name to be copied.
 
<em>to_osfilename:</em> Will overwrite an existing os file or merge into an existing dir.
 
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Source doesnt exist or cannot be accessed, target is not writeable, permissions, storage space, etc.


Uses std::filesystem::copy internally with recursive and overwrite options
Uses std::filesystem::copy internally with recursive and overwrite options
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let from_osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let to_osfilename = from_osfilename ^ ".bak";
let to_osfilename = from_osfilename ^ ".bak";


Line 2,396: Line 2,614:
// or
// or
if (oscopy(from_osfilename, to_osfilename)) ... ok</syntaxhighlight>
if (oscopy(from_osfilename, to_osfilename)) ... ok</syntaxhighlight>
|-
|-
|if||osfilename.osremove()||Removes/deletes an os file from the OS file system given path and name.
|if||osfilename.osremove()||Removes/deletes an os file from the OS file system.


Will not remove directories. Use osrmdir() to remove directories
Will not remove directories. Use osrmdir() to remove directories


<em>Returns:</em> True if successful or false if not possible for any reason.
<em>osfilename:</em> Absolute or relative path and file name to be removed.


e.g. Target doesnt exist, path is not writeable, permissions etc.
<em>Returns:</em> True if successful or false if not possible for any reason. e.g. Target doesnt exist, path is not writeable, permissions etc.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let osfilename = ostempdirpath() ^ "xo_gendoc_test.conf";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (osfilename.osremove()) ... ok
if (osfilename.osremove()) ... ok
// or
// or
if (osremove(osfilename)) ...</syntaxhighlight>
if (osremove(osfilename)) ...</syntaxhighlight>
|}
|}
===== OS Directories =====
===== OS Directories =====
Line 2,473: Line 2,693:
if (osmkdir(osdirname)) ...</syntaxhighlight>
if (osmkdir(osdirname)) ...</syntaxhighlight>
|-
|-
|if||dirpath.oscwd(newpath)||Changes the current working dir and returns true if successful.
|if||var::oscwd(newpath)||Changes the current working dir and returns true if successful.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let osdirname = "xo_test/aaa";
let osdirname = "xo_test/aaa";
Line 2,481: Line 2,701:
if (oscwd("../..")) ... ok /// Change back to avoid errors in following code.</syntaxhighlight>
if (oscwd("../..")) ... ok /// Change back to avoid errors in following code.</syntaxhighlight>
|-
|-
|var=||dirpath.oscwd()||Returns: The current working directory
|var=||var::oscwd()||Returns: The current working directory


e.g. "/root/exodus/cli/src/xo_test/aaa"
e.g. "/root/exodus/cli/src/xo_test/aaa"
Line 2,538: Line 2,758:
if (osshellwrite(outtext, "grep xyz")) ... ok</syntaxhighlight>
if (osshellwrite(outtext, "grep xyz")) ... ok</syntaxhighlight>
|-
|-
|var=||var().ostempdirpath()||Returns: The path of the tmp dir
|var=||var::ostempdir()||Returns: The path of the tmp dir


e.g. "/tmp/"
e.g. "/tmp/"
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = var().ostempdirpath();
let v1 = var::ostempdir();
// or
// or
let v2 = ostempdirpath();</syntaxhighlight>
let v2 = ostempdir();</syntaxhighlight>
|-
|-
|var=||var().ostempfilename()||Returns: The name of a new temporary file
|var=||var::ostempfile()||Returns: The name of a new temporary file


e.g. Something like "/tmp/~exoEcLj3C"
e.g. Something like "/tmp/~exoEcLj3C"
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var temposfilename1 = var().ostempfilename();
var temposfilename1 = var::ostempfile();
// or
// or
var temposfilename2 = ostempfilename();</syntaxhighlight>
var temposfilename2 = ostempfile();</syntaxhighlight>
|-
|-
|||envvalue.ossetenv(envcode)||Set the value of an environment variable code
|||envvalue.ossetenv(envcode)||Set the value of an environment variable code
Line 2,560: Line 2,780:
// or
// or
ossetenv(envcode, envvalue);</syntaxhighlight>
ossetenv(envcode, envvalue);</syntaxhighlight>
|-
|-
|if||envvalue.osgetenv(envcode)||Get the value of an environment variable.
|if||envvalue.osgetenv(envcode)||Get the value of an environment variable.
Line 2,580: Line 2,801:
if (envvalue1.osgetenv("HOME")) ... ok // e.g. "/home/exodus"
if (envvalue1.osgetenv("HOME")) ... ok // e.g. "/home/exodus"
// or
// or
var envvalue2 = osgetenv("EXO_ABC"); // "XYZ"</syntaxhighlight>
let envvalue2 = osgetenv("EXO_ABC"); // "XYZ"</syntaxhighlight>
 
|-
|-
|var=||var().ospid()||Get the os process id
|var=||var::ospid()||Get the os process id
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let pid1 = var().ospid(); /// e.g. 663237
let pid1 = var::ospid(); /// e.g. 663237
// or
// or
let pid2 = ospid();</syntaxhighlight>
let pid2 = ospid();</syntaxhighlight>
|-
|-
|var=||var().ostid()||Get the os thread process id
|var=||var::ostid()||Get the os thread process id
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let tid1 = var().ostid(); /// e.g. 663237
let tid1 = var::ostid(); /// e.g. 663237
// or
// or
let tid2 = ostid();</syntaxhighlight>
let tid2 = ostid();</syntaxhighlight>
|-
|-
|var=||var().version()||Get the libexodus build date and time
|var=||var::version()||Get the local and remote git branch commit details
<syntaxhighlight lang="c++">
 
let v1 = var().version(); /// e.g. "29 JAN 2025 14:56:52"</syntaxhighlight>
 
 
<em>Local:</em>  doc 2025-03-19 18:15:31 +0000 219cdad8a
 
<em>Remote:</em> doc 2025-03-17 15:03:00 +0000 958f412f0
 
<em>https:</em>//github.com/exodusdb/exodusdb/commit/219cdad8a
 
<em>https:</em>//github.com/exodusdb/exodusdb/archive/958f412f0.tar.gz
<syntaxhighlight lang="c++">
let v1 = var::version();
// or
let v2 = version();</syntaxhighlight>
 
|-
|-
|if||strvar.setxlocale()||Sets the current thread's default locale codepage code
|if||strvar.setxlocale()||Sets the current thread's default locale codepage code
Line 2,605: Line 2,842:
// or
// or
if (setxlocale("en_US.utf8")) ... ok</syntaxhighlight>
if (setxlocale("en_US.utf8")) ... ok</syntaxhighlight>
|-
|-
|var=||var.getxlocale()||Returns: The current thread's default locale codepage code
|var=||var.getxlocale()||Returns: The current thread's default locale codepage code
Line 2,611: Line 2,849:
// or
// or
let v2 = getxlocale();</syntaxhighlight>
let v2 = getxlocale();</syntaxhighlight>
|}
|}
===== Output =====
===== Output =====
Line 2,628: Line 2,867:
// or
// or
outputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
outputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
|-
|-
|expr||varstr.output(prefix = "")|| Same as outputl() but doesnt append an NL char and is BUFFERED, not flushed.
|expr||varstr.output(prefix = "")|| Same as outputl() but doesnt append an NL char and is BUFFERED, not flushed.
Line 2,644: Line 2,884:
// or
// or
logputl("xyz = ", "abc");; /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
logputl("xyz = ", "abc");; /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
|-
|-
|expr||varstr.logput(prefix = "")|| Same as logputl() but doesnt append an NL char.
|expr||varstr.logput(prefix = "")|| Same as logputl() but doesnt append an NL char.
Line 2,658: Line 2,899:
// or
// or
errputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
errputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.</syntaxhighlight>
|-
|-
|expr||varstr.errput(prefix = "")|| Same as errputl() but doesnt append an NL char and is BUFFERED not flushed.
|expr||varstr.errput(prefix = "")|| Same as errputl() but doesnt append an NL char and is BUFFERED not flushed.
Line 2,666: Line 2,908:


The raw string bytes are output. No character or byte conversion is performed.
The raw string bytes are output. No character or byte conversion is performed.
|-
|-
|||var().osflush()||Flush any and all buffered output to stdout and stdlog.
|||var().osflush()||Flush any and all buffered output to stdout and stdlog.
Line 2,672: Line 2,916:
// or
// or
osflush();</syntaxhighlight>
osflush();</syntaxhighlight>
|}
|}
===== Input =====
===== Input =====
Line 2,694: Line 2,939:
// or
// or
// var v2 = input();</syntaxhighlight>
// var v2 = input();</syntaxhighlight>
|-
|expr||var.inputn(nchars)||Get raw bytes from standard input.
Any new line chars are treated like any other bytes.
Care must be taken to handle incomplete UTF8 byte sequences at the end of one block and the beginning of the next block.
<em>Returns:</em> The requested number of bytes or fewer if not available.
<em>nchars:</em>
99 : Get up to 99 bytes or fewer if not available. Caution required with UTF8.
⋅0 : Get all bytes presently available.
⋅1 : Same as keypressed(true). Deprecated.
-1 : Same as keypressed(). Deprecated.
|-
|-
|expr||var.keypressed(wait = false)||Return the code of the current terminal key pressed.
|expr||var.keypressed(wait = false)||Return the code of the current terminal key pressed.
Line 2,710: Line 2,976:
// or
// or
var v2 = keypressed();</syntaxhighlight>
var v2 = keypressed();</syntaxhighlight>
|-
|-
|if||var().isterminal(arg = 1)||Checks if one of stdin, stdout, stderr is a terminal or a file/pipe.
|if||var().isterminal(arg = 1)||Checks if one of stdin, stdout, stderr is a terminal or a file/pipe.
Line 2,724: Line 2,991:
// or
// or
var v2 = isterminal();</syntaxhighlight>
var v2 = isterminal();</syntaxhighlight>
|-
|-
|if||var().hasinput(milliseconds = 0)||Checks if stdin has any bytes available for input.
|if||var().hasinput(milliseconds = 0)||Checks if stdin has any bytes available for input.
Line 2,732: Line 3,000:


It only takes a few µsecs to return false if no bytes are available and no wait time has been requested.
It only takes a few µsecs to return false if no bytes are available and no wait time has been requested.
|-
|-
|if||var().eof()||True if stdin is at end of file
|if||var().eof()||True if stdin is at end of file
|-
|-
|if||var().echo(on_off = true)||Sets terminal echo on or off.
|if||var().echo(on_off = true)||Sets terminal echo on or off.
Line 2,742: Line 3,014:


<em>Returns:</em> True if successful.
<em>Returns:</em> True if successful.
|-
|-
|||var().breakon()||Install various interrupt handlers.
|||var().breakon()||Install various interrupt handlers.
Line 2,749: Line 3,023:
SIGINT - Ctrl+C -> "Interrupted. (C)ontinue (Q)uit (B)acktrace (D)ebug (A)bort ?"
SIGINT - Ctrl+C -> "Interrupted. (C)ontinue (Q)uit (B)acktrace (D)ebug (A)bort ?"


SIGHUP - Sets a static variable "RELOAD_req" which may be handled or ignored by the program.
SIGHUP - Sets a variable "RELOAD_req" which may be handled or ignored by the program.
 
SIGTERM - Sets a variable "TERMINATE_req" which may be handled or ignored by the program.
 


SIGTERM - Sets a static variable "TERMINATE_req" which may be handled or ignored by the program.
|-
|-
|||var().breakoff()||Disable keyboard interrupt.
|||var().breakoff()||Disable keyboard interrupt.


Ctrl+C becomes inactive in terminal.
Ctrl+C becomes inactive in terminal.
|}
|}
===== Math/Boolean =====
===== Math/Boolean =====
Line 2,768: Line 3,046:
// or
// or
let v3 = abs(v1);</syntaxhighlight>
let v3 = abs(v1);</syntaxhighlight>
|-
|-
|var=||varnum.pwr(exponent)||Power
|var=||varnum.pwr(exponent)||Power
Line 2,774: Line 3,053:
// or
// or
let v2 = pwr(2, 8);</syntaxhighlight>
let v2 = pwr(2, 8);</syntaxhighlight>
|-
|-
|||varnum.initrnd()||Initialise the seed for rnd()
|||varnum.initrnd()||Initialise the seed for rnd()
Line 2,784: Line 3,064:
// or
// or
initrnd(123);</syntaxhighlight>
initrnd(123);</syntaxhighlight>
|-
|-
|var=||varnum.rnd()||Pseudo random number generator
|var=||varnum.rnd()||Pseudo random number generator
Line 2,794: Line 3,075:
// or
// or
let v2 = rnd(100);</syntaxhighlight>
let v2 = rnd(100);</syntaxhighlight>
|-
|-
|var=||varnum.exp()||Power of e
|var=||varnum.exp()||Power of e
Line 2,800: Line 3,082:
// or
// or
let v2 = exp(1);</syntaxhighlight>
let v2 = exp(1);</syntaxhighlight>
|-
|-
|var=||varnum.sqrt()||Square root
|var=||varnum.sqrt()||Square root
Line 2,806: Line 3,089:
// or
// or
let v2 = sqrt(100);</syntaxhighlight>
let v2 = sqrt(100);</syntaxhighlight>
|-
|-
|var=||varnum.sin()||Sine of degrees
|var=||varnum.sin()||Sine of degrees
Line 2,812: Line 3,096:
// or
// or
let v2 = sin(30);</syntaxhighlight>
let v2 = sin(30);</syntaxhighlight>
|-
|-
|var=||varnum.cos()||Cosine of degrees
|var=||varnum.cos()||Cosine of degrees
Line 2,818: Line 3,103:
// or
// or
let v2 = cos(60);</syntaxhighlight>
let v2 = cos(60);</syntaxhighlight>
|-
|-
|var=||varnum.tan()||Tangent of degrees
|var=||varnum.tan()||Tangent of degrees
Line 2,824: Line 3,110:
// or
// or
let v2 = tan(45);</syntaxhighlight>
let v2 = tan(45);</syntaxhighlight>
|-
|-
|var=||varnum.atan()||Arctangent of degrees
|var=||varnum.atan()||Arctangent of degrees
Line 2,830: Line 3,117:
// or
// or
let v2 = atan(1);</syntaxhighlight>
let v2 = atan(1);</syntaxhighlight>
|-
|-
|var=||varnum.loge()||Natural logarithm
|var=||varnum.loge()||Natural logarithm
Line 2,838: Line 3,126:
// or
// or
let v2 = loge(2.718281828459045);</syntaxhighlight>
let v2 = loge(2.718281828459045);</syntaxhighlight>
|-
|-
|var=||varnum.integer()||Truncate decimal numbers towards zero
|var=||varnum.integer()||Truncate decimal numbers towards zero
Line 2,850: Line 3,139:
// or
// or
var v4 = integer(-2.9);</syntaxhighlight>
var v4 = integer(-2.9);</syntaxhighlight>
|-
|-
|var=||varnum.floor()||Truncate decimal numbers towards negative
|var=||varnum.floor()||Truncate decimal numbers towards negative
Line 2,862: Line 3,152:
// or
// or
var v4 = floor(-2.9);</syntaxhighlight>
var v4 = floor(-2.9);</syntaxhighlight>
|-
|-
|var=||varnum.mod(modulus)||Modulus function
|var=||varnum.mod(modulus)||Modulus function
Line 2,883: Line 3,174:
let v4 = mod(11, -5); // -4
let v4 = mod(11, -5); // -4
let v5 = mod(-11, -5); // -1</syntaxhighlight>
let v5 = mod(-11, -5); // -1</syntaxhighlight>
|-
|int=||var::setprecision(newprecision)||Set the maximum floating point precision.
This is the number of post-decimal point digits to consider for floating point comparison and implicit conversion to strings.
The default precision is 4 which is 0.0001.
NUMBERS AND DIFFERENCES SMALLER THAN 0.0001 ARE TREATED AS ZERO UNLESS PRECISION IS INCREASED.
<em>newprecision:</em> New precision between -307 and 308 inclusive.
<em>Returns:</em> The new precision if successful or the old precision if not.
Not required if using common numbers or using the explicit rounding and formatting functions to convert numbers to strings.
Increasing the precision allows comparing and outputting smaller numbers but creates errors handling large numbers.
Setting precision inside a perform, execute or dictionary function lasts until termination of the function.
See cli/demo_precision for more info.
<syntaxhighlight lang="c++">
assert(0.000001_var == 0); /// NOTE WELL: Default precision 4.
let new_precision1 = var::setprecision(6); // 6 // Increase the precision.
// or
let new_precision2 = setprecision(6);
assert(0.000001_var != 0); /// NOTE: Precision 6.</syntaxhighlight>
|-
|int=||var::getprecision()||Returns: The current precision setting.
See setprecision() for more info.
<syntaxhighlight lang="c++">
let curr_precision1 = var::getprecision();
// or
let curr_precision2 = getprecision();</syntaxhighlight>
|}
|}
==== I/O Conversion Codes  ====
==== I/O Conversion Codes  ====
Line 2,895: Line 3,223:
<em>Flags:</em> See examples below.
<em>Flags:</em> See examples below.


Any multifield/multivalue structure is preserved.
Any Dynamic array structure is preserved.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
let v1 = 12345;
let v1 = 19002;
assert( v1.oconv( "D"  ) == "18 OCT 2001" ); // Default
var v2;
assert( v1.oconv( "D/"  ) == "10/18/2001"  ); // / separator
v2 =  v1.oconv( "D"  ) ; //  "09 JAN 2020"  // Default
assert( v1.oconv( "D-" ) == "10-18-2001); // - separator
 
assert( v1.oconv( "D2"  ) == "18 OCT 01"    ); // 2 digit year
v2 =  v1.oconv( "D/"  ) ; //  "01/09/2020"   // mm/dd/yyyy - American numeric
assert( v1.oconv( "D/E" ) == "18/10/2001"  ); // International order with /
v2 =  v1.oconv( "D-"  ) ; //  "01-09-2020"   // mm-dd-yyyy - American numeric
assert( v1.oconv( "DS"  ) == "2001 OCT 18" ); // ISO Year first
assert( v1.oconv( "DS-" ) == "2001-10-18"  ); // ISO Year first with -
assert( v1.oconv( "DM) == "10"          ); // Month number
assert( v1.oconv( "DMA" ) == "OCTOBER"      ); // Month name
assert( v1.oconv( "DY" ) == "2001"        ); // Year number
assert( v1.oconv( "DY2" ) == "01"          ); // Year 2 digits
assert( v1.oconv( "DD"  ) == "18"          ); // Day number in month (1-31)
assert( v1.oconv( "DW"  ) == "4"            ); // Weekday number (1-7)
assert( v1.oconv( "DWA" ) == "THURSDAY"    ); // Weekday name
assert( v1.oconv( "DQ" ) == "4"            ); // Quarter number
assert( v1.oconv( "DJ) == "291"          ); // Day number in year
assert( v1.oconv( "DL" ) == "31"           ); // Last day number of month (28-31)


// Multifield/multivalue
v2 =  v1.oconv( "D/E" ) ; // "09/01/2020"   // dd/mm/yyyy - International numeric
var v2 = "12345^12346]12347"_var;
v2 =  v1.oconv( "D-E" ) ; //  "09-01-2020"   // dd-mm-yyyy - International numeric
assert(v2.oconv("D") == "18 OCT 2001^19 OCT 2001]20 OCT 2001"_var);


  // or
v2 =  v1.oconv( "D2" ) ; // "09 JAN 20"    // 2 digit year
  assert( oconv(v1, "D"   ) == "18 OCT 2001"  );</syntaxhighlight>
v2 = v1.oconv( "D0"  ) ; //  "09 JAN"        // No year
 
v2 =  v1.oconv( "DS"  ) ; //  "2020 JAN 09"  // yyyy mmm dd - ISO year first, alpha month
v2 =  v1.oconv( "DS-" ) ; //  "2020-01-09"    // yyyy-mm-dd  - ISO year first, numeric month
 
v2 =  v1.oconv( "DZ"  ) ; //  " 9 JAN 2020"  // Leading 0 become spaces
v2 =  v1.oconv( "DZZ" ) ; //  "9 JAN 2020"    // Leading 0 are suppressed
v2 =  v1.oconv( "D!"  ) ; //  "09JAN2020"    // No separators
v2 =  v1.oconv( "DS-!") ; //  "20200109"      // yyyymmdd packed
 
v2 =  v1.oconv( "DM"  ) ; //  "1"            // Month number
v2 =  v1.oconv( "DMA" ) ; //  "JANUARY"      // Month name
v2 =  v1.oconv( "DY"  ) ; //  "2020"          // Year number
v2 =  v1.oconv( "DY2" ) ; //  "20"            // Year 2 digits
v2 =  v1.oconv( "DD"  ) ; //  "9"            // Day number in month (1-31)
v2 =  v1.oconv( "DW"  ) ; //  "4"            // Weekday number (1-7)
v2 =  v1.oconv( "DWA" ) ; //  "THURSDAY"      // Weekday name
v2 =  v1.oconv( "DQ"  ) ; //  "1"            // Quarter number
v2 =  v1.oconv( "DJ"  ) ; //  "9"            // Day number in year
v2 =  v1.oconv( "DL" ) ; //  "31"            // Last day number of month (28-31)
 
// Dynamic array
let v3 = "12345^12346]12347"_var;
v2 = v3.oconv("D") ; //  "18 OCT 2001^19 OCT 2001]20 OCT 2001"_var
 
// or
v2 = oconv(v3, "D"  ) ; //  "18 OCT 2001"  </syntaxhighlight>
|-
|-
|var=||varstr.iconv("D")||Date input: Convert human readable date to internal date format.
|var=||varstr.iconv("D")||Date input: Convert human readable date to internal date format.
Line 2,929: Line 3,270:
Internal date format is whole days since 1967-12-31 00:00:00 which is day 0.
Internal date format is whole days since 1967-12-31 00:00:00 which is day 0.


Any multifield/multivalue structure is preserved.
Any Dynamic array structure is preserved.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
// International order "DE"
// International order "DE"
assert(            oconv(19005, "DE") == "12 JAN 2020");
var v2;
assert(  "12/1/2020"_var.iconv("DE") == 19005);
v2 =            oconv(19005, "DE") ; //  "12 JAN 2020"
assert(  "12 1 2020"_var.iconv("DE") == 19005);
v2 =    "12/1/2020"_var.iconv("DE") ; //  19005
assert(  "12-1-2020"_var.iconv("DE") == 19005);
v2 =    "12 1 2020"_var.iconv("DE") ; //  19005
assert( "12 JAN 2020"_var.iconv("DE") == 19005);
v2 =    "12-1-2020"_var.iconv("DE") ; //  19005
assert( "jan 12 2020"_var.iconv("DE") == 19005);
v2 =  "12 JAN 2020"_var.iconv("DE") ; //  19005
v2 =  "jan 12 2020"_var.iconv("DE") ; //  19005


// American order "D"
// American order "D"
assert(            oconv(19329, "D") == "01 DEC 2020");
v2 =            oconv(19329, "D") ; //  "01 DEC 2020"
assert(  "12/1/2020"_var.iconv("D") == 19329);
v2 =    "12/1/2020"_var.iconv("D") ; //  19329
assert(  "DEC 1 2020"_var.iconv("D") == 19329);
v2 =  "DEC 1 2020"_var.iconv("D") ; //  19329
assert(  "1 dec 2020"_var.iconv("D") == 19329);
v2 =  "1 dec 2020"_var.iconv("D") ; //  19329


// Reverse order
// Reverse order
assert(  "2020/12/1"_var.iconv("DE") == 19329);
v2 =  "2020/12/1"_var.iconv("DE") ; //  19329
assert(  "2020-12-1"_var.iconv("D") == 19329);
v2 =    "2020-12-1"_var.iconv("D") ; //  19329
assert(  "2020 1 dec"_var.iconv("D") == 19329);
v2 =  "2020 1 dec"_var.iconv("D") ; //  19329


//Invalid date
//Invalid date
assert(  "2/29/2021"_var.iconv("D") == "");
v2 =    "2/29/2021"_var.iconv("D") ; //  ""
assert(  "29/2/2021"_var.iconv("DE") == "");
v2 =  "29/2/2021"_var.iconv("DE") ; //  ""


// or
// or
assert(iconv("12/1/2020"_var, "DE") == 19005);</syntaxhighlight>
v2 = iconv("12/1/2020"_var, "DE") ; //  19005</syntaxhighlight>
 
|-
|-
|var=||vartime.oconv("MT")||Time output: Convert internal time format to human readable time e.g. "10:30:59".
|var=||vartime.oconv("MT")||Time output: Convert internal time format to human readable time e.g. "10:30:59".
Line 2,973: Line 3,316:
":" - Any other flag is used as the separator char instead of ":"
":" - Any other flag is used as the separator char instead of ":"


Any multifield/multivalue structure is preserved.
Any Dynamic array structure is preserved.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = 234800;
let v1 = 62000;
assert( v1.oconv( "MT"   ) == "17:13"      ); // Default
var v2;
assert( v1.oconv( "MTH" ) == "05:13PM"    ); // 'H' flag for AM/PM
v2 = v1.oconv("MT" ); // "17:13"      // Default
assert( v1.oconv( "MTS" ) == "17:13:20"  ); // 'S' flag for seconds
v2 = v1.oconv("MTH" ); // "05:13PM"    // 'H' flag for AM/PM
assert( v1.oconv( "MTHS" ) == "05:13:20PM" ); // Both flags
v2 = v1.oconv("MTS" ); // "17:13:20"  // 'S' flag for seconds
v2 = v1.oconv("MTHS"); // "05:13:20PM" // Both flags


var v2 = 0;
let v3  = 0;
assert( v2.oconv( "MT"   ) == "00:00"     );
v2 = v3.oconv("MT" ); // "00:00"
assert( v2.oconv( "MTH" ) == "12:00AM"   );
v2 = v3.oconv("MTH" ); // "12:00AM"
assert( v2.oconv( "MTS" ) == "00:00:00"   );
v2 = v3.oconv("MTS" ); // "00:00:00"
assert( v2.oconv( "MTHS" ) == "12:00:00AM" );
v2 = v3.oconv("MTHS"); // "12:00:00AM"


// Multifield/multivalue
// Dynamic array
var v3 = "234800^234860]234920"_var;
let v4  = "61980^62040]62100"_var;
assert(v3.oconv("MT") == "17:13^17:14]17:15"_var);
v2 = v4.oconv("MT");    // "17:13^17:14]17:15"_var


// or
// or
assert( oconv(v1, "MT"   ) == "17:13"     );</syntaxhighlight>
v2 = oconv(v1, "MT");    // "17:13"</syntaxhighlight>
 
|-
|-
|var=||varstr.iconv("MT")||Time input: Convert human readable time (e.g. "10:30:59") to internal time format.
|var=||varstr.iconv("MT")||Time input: Convert human readable time (e.g. "10:30:59") to internal time format.
Line 3,002: Line 3,347:
<em>Accepts:</em> Two or three groups of digits surrounded and separated by any non-digits char(s).
<em>Accepts:</em> Two or three groups of digits surrounded and separated by any non-digits char(s).


Any multifield/multivalue structure is preserved.
Any Dynamic array structure is preserved.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
assert(      "17:13"_var.iconv( "MT" ) == 61980);
var v2;
assert(    "05:13PM"_var.iconv( "MT" ) == 61980);
v2 =      "17:13"_var.iconv( "MT" ) ; //  61980
assert(  "17:13:20"_var.iconv( "MT" ) == 62000);
v2 =    "05:13PM"_var.iconv( "MT" ) ; //  61980
assert( "05:13:20PM"_var.iconv( "MT" ) == 62000);
v2 =    "17:13:20"_var.iconv( "MT" ) ; //  62000
v2 =  "05:13:20PM"_var.iconv( "MT" ) ; //  62000


assert(      "00:00"_var.iconv( "MT" ) == 0);
v2 =      "00:00"_var.iconv( "MT" ) ; //  0
assert(    "12:00AM"_var.iconv( "MT" ) == 0);     // Midnight
v2 =    "12:00AM"_var.iconv( "MT" ) ; //  0    // Midnight
assert(    "12:00PM"_var.iconv( "MT" ) == 43200); // Noon
v2 =    "12:00PM"_var.iconv( "MT" ) ; //  43200 // Noon
assert(  "00:00:00"_var.iconv( "MT" ) == 0);
v2 =    "00:00:00"_var.iconv( "MT" ) ; //  0
assert( "12:00:00AM"_var.iconv( "MT" ) == 0);
v2 =  "12:00:00AM"_var.iconv( "MT" ) ; //  0


// Multifield/multivalue
// Dynamic array
assert("17:13^05:13PM]17:13:20"_var.iconv("MT") == "61980^61980]62000"_var);
v2 = "17:13^05:13PM]17:13:20"_var.iconv("MT") ; //  "61980^61980]62000"_var


// or
// or
assert(iconv("17:13", "MT") == 61980);</syntaxhighlight>
v2 = iconv("17:13", "MT") ; //  61980</syntaxhighlight>
 
|-
|-
|var=||varnum.oconv("MD")||Number output: Convert internal numbers to external text format after rounding and optional scaling.
|var=||varnum.oconv("MD")||Number output: Convert internal numbers to external text format after rounding and optional scaling.
Line 3,061: Line 3,408:




  Any multifield/multivalue structure is preserved.
  Any Dynamic array structure is preserved.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = -1234.567;
var v1 = -1234.567;
assert( v1.oconv( "MD20"  ) ==  "-1234.57"   );
var v2;
assert( v1.oconv( "MD20,"  ) == "-1,234.57"   ); // , flag
v2 =  v1.oconv( "MD20"  ) ; //  "-1234.57"
assert( v1.oconv( "MC20,"  ) == "-1.234,57"   ); // MC code
v2 =  v1.oconv( "MD20,"  ) ; //  "-1,234.57"   // , flag
assert( v1.oconv( "MD20,-" ) ==  "1,234.57-" ); // - flag
v2 =  v1.oconv( "MC20,"  ) ; //  "-1.234,57"   // MC code
assert( v1.oconv( "MD20,<" ) == "<1,234.57>" ); // < flag
v2 =  v1.oconv( "MD20,-" ) ; //  "1,234.57-"   // - flag
assert( v1.oconv( "MD20,C" ) ==  "1,234.57CR" ); // C flag
v2 =  v1.oconv( "MD20,<" ) ; //  "<1,234.57>"   // < flag
assert( v1.oconv( "MD20,D" ) ==  "1,234.57DB" ); // D flag
v2 =  v1.oconv( "MD20,C" ) ; //  "1,234.57CR" // C flag
v2 =  v1.oconv( "MD20,D" ) ; //  "1,234.57DB" // D flag


// Multifield/multivalue
// Dynamic array
var v2 = "1.1^2.1]2.2"_var;
var v3 = "1.1^2.1]2.2"_var;
assert( v2.oconv( "MD20"  ) == "1.10^2.10]2.20"_var);
v2 =  v3.oconv( "MD20"  ) ; //  "1.10^2.10]2.20"_var


// or
// or
assert( oconv(v1, "MD20"  ) ==  "-1234.57"  );</syntaxhighlight>
v2 =  oconv(v1, "MD20"  ) ; //  "-1234.57"  </syntaxhighlight>
|-
|-
|var=||var.oconv("LRC")||Text justification: Left, right and center. Padding and truncating. See Procrustes.
|var=||var.oconv("LRC")||Text justification: Left, right and center. Padding and truncating. See Procrustes.
Line 3,085: Line 3,433:
Useful when outputting to terminal devices where spaces are used for alignment.
Useful when outputting to terminal devices where spaces are used for alignment.


Multifield/multivalue structure is preserved.
Dynamic array structure is preserved.


ASCII only.
ASCII only.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
assert(    "abcde"_var.oconv( "L#3" ) == "abc" ); // Truncating
var v2;
assert(    "abcde"_var.oconv( "R#3" ) == "cde" );
v2 =      "abcde"_var.oconv( "L#3" ) ; //  "abc" // Truncating
assert(    "abcde"_var.oconv( "C#3" ) == "abc" );
v2 =      "abcde"_var.oconv( "R#3" ) ; //  "cde"
v2 =      "abcde"_var.oconv( "C#3" ) ; //  "abc"


assert(    "ab"_var.oconv( "L#6" ) == "ab␣␣␣␣" ); // Padding
v2 =      "ab"_var.oconv( "L#6" ) ; //  "ab␣␣␣␣" // Padding
assert(    "ab"_var.oconv( "R#6" ) == "␣␣␣␣ab" );
v2 =      "ab"_var.oconv( "R#6" ) ; //  "␣␣␣␣ab"
assert(    "ab"_var.oconv( "C#6" ) == "␣␣ab␣␣" );
v2 =      "ab"_var.oconv( "C#6" ) ; //  "␣␣ab␣␣"


assert(      var(42).oconv( "L(0)#5" ) == "42000" ); // Padding char (x)
v2 =      var(42).oconv( "L(0)#5" ) ; //  "42000" // Padding char (x)
assert(      var(42).oconv( "R(0)#5" ) == "00042" );
v2 =      var(42).oconv( "R(0)#5" ) ; //  "00042"
assert(      var(42).oconv( "C(0)#5" ) == "04200" );
v2 =      var(42).oconv( "C(0)#5" ) ; //  "04200"
assert(      var(42).oconv( "C(0)#5" ) == "04200" );
v2 =      var(42).oconv( "C(0)#5" ) ; //  "04200"


// Multifield/multivalue
// Dynamic array
assert(      "f1^v1]v2"_var.oconv("L(_)#5") == "f1___^v1___]v2___"_var);
v2 =      "f1^v1]v2"_var.oconv("L(_)#5") ; //  "f1___^v1___]v2___"_var


// Fail for non-ASCII (Should be 5)
// Fail for non-ASCII (Should be 5)
assert(    "🐱"_var.oconv("L#5").textwidth() == 3);
v2 =      "🐱"_var.oconv("L#5").textwidth() ; //  3


// or
// or
assert(    oconv("abcd", "L#3" ) == "abc" );</syntaxhighlight>
v2 =      oconv("abcd", "L#3" ) ; //  "abc" </syntaxhighlight>
 
|-
|-
|var=||varstr.oconv("T")||Text folding and justification.
|var=||varstr.oconv("T")||Text folding and justification.
Line 3,121: Line 3,471:
ASCII only.
ASCII only.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
var v1 = "Have a nice day";
let v1 = "Have a nice day";
assert(  v1.oconv("T#10") == "Have a␣␣␣␣|nice day␣␣"_var);
v2 =  v1.oconv("T#10") ; //  "Have a␣␣␣␣|nice day␣␣"_var
// or
// or
assert( oconv(v1, "T#10") == "Have a␣␣␣␣|nice day␣␣"_var );</syntaxhighlight>
v2 =  oconv(v1, "T#10") ; //  "Have a␣␣␣␣|nice day␣␣"_var </syntaxhighlight>
 
|-
|-
|var=||varstr.oconv("HEX")||Convert a string of bytes to a string of hexadecimal digits. The size of the output is precisely double that of the input.
|expr||varnum.oconv("MR")||Character replacement


Multifield/multivalue structure is not preserved. Field marks are converted to HEX as for all other bytes.
e.g. MRU
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
assert(    "ab01"_var.oconv( "HEX" ) == "61" "62" "30" "31" );
let v1 = "123/abC.";
assert( "\xff\x00"_var.oconv( "HEX" ) == "FF" "00"           ); // Any bytes are ok.
var v2;
assert(        var(10).oconv( "HEX" ) == "31" "30"           ); // Uses ASCII string equivalent of 10 i.e. "10".
v2 = v1.oconv("MRL") ; //  "123/abc." // lcase
assert(  "\u0393"_var.oconv( "HEX" ) == "CE" "93"           ); // Greek capital Gamma in UTF8 bytes.
v2 = v1.oconv("MRU") ; //  "123/ABC." // ucase
assert(    "a^]b"_var.oconv( "HEX" ) == "61" "1E" "1D" "62" ); // Field and value marks.
v2 = v1.oconv("MRT") ; //  "123/Abc." // tcase
// or
v2 = v1.oconv("MRN") ; //  "123"     // Return only digits
assert(      oconv("ab01"_var, "HEX") == "61" "62" "30" "31");</syntaxhighlight>
v2 = v1.oconv("MRA") ; // "abC"     // Return only alphabetic
v2 = v1.oconv("MRB") ; //  "123abC"   // Return only alphanumeric
v2 = v1.oconv("MR/N") ; // "/abC."  // Remove digits
v2 = v1.oconv("MR/A") ; // "123/.// Remove alphabetic
v2 = v1.oconv("MR/B") ; //  "/."     // Remove alphanumeric</syntaxhighlight>
 
|-
|-
|var=||varstr.iconv("HEX")||Convert a string of hexadecimal digits to a string of bytes. After prefixing a "0" to an odd sized input, the size of the output is precisely half that of the input.
|var=||varstr.oconv("HEX")||Convert the chars of a string to a string of pairs of hexadecimal digits.


Reverse of oconv("HEX") above.
<em>varstr:</em> A string. Numbers will be converted to strings for conversion. 1.2 -> "1.2" -> hex "312E32"
|-
 
|var=||varnum.oconv("MX")||Number to hex format: Convert number to hexadecimal string
Dynamic array structure is not preserved. Field marks are converted to HEX as for all other bytes.
 
The size of the output is always precisely double that of the input.


If the value is not numeric then no conversion is performed and the original value is returned.
This function is the exact inverse of iconv("HEX").
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
assert( var("255").oconv("MX") == "FF");
// var v2;
v2 =      "ab01"_var.oconv( "HEX" ) ; //  "61" "62" "30" "31"
v2 =  "\xff\x00"_var.oconv( "HEX" ) ; //  "FF" "00"            // Any bytes are ok.
v2 =        var(10).oconv( "HEX" ) ; //  "31" "30"            // Uses ASCII string equivalent of 10 i.e. "10".
v2 =    "\u0393"_var.oconv( "HEX" ) ; //  "CE" "93"            // Greek capital Gamma in UTF8 bytes.
v2 =     "a^]b"_var.oconv( "HEX" ) ; //  "61" "1E" "1D" "62"  // Field and value marks.
// or
// or
assert( oconv(var("255"), "MX") == "FF");</syntaxhighlight>
v2 =      oconv("ab01"_var, "HEX") ; //  "61" "62" "30" "31"</syntaxhighlight>
 
|-
|-
|var=||varnum.oconv("MB")||Number to binary format: Convert number to strings of 1s and 0s
|var=||varstr.iconv("HEX")||Convert a string of pairs of hexadecimal digits to a string of chars.
 
<em>varstr:</em> Must be a string of only hex digits 0-9, a-f or A-F.
 
<em>Returns:</em> A string if all input was hex digits otherwise "".
 
Dynamic array structure is not preserved. Any field marks prevent conversion.


If the value is not numeric then no conversion is performed and the original value is returned.
This function is the exact inverse of oconv("HEX").
<syntaxhighlight lang="c++">
assert( var(255).oconv("MB") == 1111'1111);
// or
assert( oconv(var(255), "MB") == 1111'1111);</syntaxhighlight>
|-
|var=||varstr.oconv("TX")||Convert dynamic arrays to standard text format.


Useful for using text editors on dynamic arrays.
After prefixing a "0" to an odd sized input, the size of the output is always precisely half that of the input.


FMs -> NL after escaping any embedded NL
<syntaxhighlight lang="c++">
  // backslash in text remains backslash
  assert(var(_BS).oconv("TX") == _BS);


  // 1. Double escape any _BS "n" -> _BS _BS "n"
|-
  assert(var(_BS "n").oconv("TX") == _BS _BS "n");
|var=||varnum.oconv("MX")||Convert number to hexadecimal string.


  // 2. Single escape any _NL -> _BS "n"
"MX":   Convert and trim leading zeros                      e.g. oconv(1025, "MX") -> "401"
   assert(var(_NL).oconv("TX") == _BS "n");


  // 3. FMs -> _NL (⏎)
"MXn":  Pad with up to n leading zeros but do not truncate. e.g. oconv(1025, "MX8") -> "00000401"
  assert("🌍^🌍"_var.oconv("TX") == "🌍" _NL "🌍");


  // 4. VMs -> _BS _NL (\⏎)
"MXnT": Pad and truncate to n characters.                  e.g. oconv(1025, "MX2") -> "01"
  assert("🌍]🌍"_var.oconv("TX") == "🌍" _BS _NL "🌍");


  // 5. SMs -> _BS _BS _NL (\\⏎)
"n":    Width. 0-9, A-G = 10 - 16.
  assert("🌍}🌍"_var.oconv("TX") == "🌍" _BS _BS _NL "🌍");


  // 6. TMs -> _BS _BS _BS _NL (\\\⏎)
<em>varnum:</em> A number or dynamic array of numbers. Floating point numbers are rounded to integers before conversion.
  assert("🌍|🌍"_var.oconv("TX") == "🌍" _BS _BS _BS _NL "🌍");


  // 7. STs -> _BS _BS _BS _BS _NL (\\\\⏎)
<em>Returns:</em> A string of hexadecimal digits or a dynamic array of the same. Elements that are not numeric are left untouched and unconverted.
  assert("🌍~🌍"_var.oconv("TX") == "🌍" _BS _BS _BS _BS _NL "🌍");</syntaxhighlight>
|-
|var=||varstr.iconv("TX")||Convert standard text format to dynamic array.


Reverse of oconv("TX") above.
Dynamic array structure is preserved.
|}


Negative numbers are treated as unsigned 8 byte integers (uint64).


0  -> "00"


1  -> "01"


==== Dim  ====
15 -> "0F"


{|class="wikitable"
-1 -> "FFFF" "FFFF" "FFFF" "FFFF" (8 x "FF")
!Use!!Function!!Description
 
|}
This function is a near inverse of iconv("MX").
===== Dimensioned Array Construction  =====
<syntaxhighlight lang="c++">
let v1 = var("14.5]QQ]65535").oconv("MX"); // "F]QQ]FFFF"_var
// or
let v2 = oconv("14.5]QQ]65535"_var, "MX");</syntaxhighlight>


{|class="wikitable"
!Use!!Function!!Description
|-
|-
|||dim d1;||Create an dimensioned array of vars pending actual dimensions.
|var=||varstr.iconv("MX")||Convert hexadecimal string to number.
|-
 
|||dim d1(nrows, ncols = 1);||Create an array of vars with a fixed number of columns and rows. All vars are unassigned.
<em>varstr:</em> A string or dynamic array of up to 16 hex digits: 0-9, a-f, A-F.
|-
 
|||dim d1 = d2; // Copy||Create a copy of an array.
<em>Returns:</em> An integer or dynamic array of integers. Invalid elements are converted to "".
|-
 
|||dim d1 = dim(); // Move||Save an array created elsewhere.
Dynamic array structure is preserved.
|-
 
|||dim d1 = {"a", "b", "c" ...}; // Initializer list||Create an array from a list. All elements must be the same type. var, string, double, int, etc..
Hex strings are converted to unsigned 8 byte integers (uint64)
|-
 
|||dim d1 = v1;||Initialise all elements of an array to some single value or constant. A var, "", 0 etc.
Leading zeros are ignored.
|-
 
|||d1.redim(nrows, ncols = 1)||Resize an array to a different number of rows and columns.
"0" -> 0


Existing data will be retained as far as possible. Any additional elements are unassigned.
"00" -> 0


Resizing rows to 0 clears all data.
"1" -> 1


Resizing cols to 0 clears all data and changes its status to "undimensioned".
Hex "FFFFFFFFFFFFFFFF" (8 x "FF") -> -1.
|-
|||d1.swap(d2) ||Swap one array with another.


Either or both may be undimensioned.
Hex "7FFFFFFFFFFFFFFF" is the maximum positive integer: 9223372036854775805.
|}
===== Array Access =====


{|class="wikitable"
Hex "8000000000000000" is the maximum negative integer: -9223372036854775808.
!Use!!Function!!Description
|-
|||var v1 = d1[rowno];</br>d1[rowno] = v1;||Access and update elements of a one dimensional array using [] brackets
|-
|||var v1 = d1[rowno, colno];</br>d1[rowno, colno] = v1;||Access and update elements of an two dimensional array using [] brackets
|-
|var=||d1.rows()||Get the number of rows in the dimensioned array


<em>Returns:</em> A count. Can be zero, indicating an empty array.
This function is the exact inverse of oconv("MX").
|-
<syntaxhighlight lang="c++">
|var=||d1.cols()||Get the number of columns in the dimensioned array
let v1 = "F]QQ]FFFF"_var.iconv("MX"); // "15]]65535"_var
// or
let v2 = iconv("F]QQ]FFFF", "MX");</syntaxhighlight>


<em>Returns:</em> A count.  0 if the array is undimensioned.
|-
|-
|var=||d1.join(delimiter = FM)||Joins all elements into a single delimited string
|var=||varnum.oconv("MB")||Number to binary format: Convert number to strings of 1s and 0s


<em>Returns:</em> A string var.
<em>varnum:</em> If not numeric then no conversion is performed and the original value is returned.
|}
<syntaxhighlight lang="c++">
===== Array Mutation =====
let v1 = var(255).oconv("MB"); // 1111'1111
// or
let v2 = oconv(255, "MB");</syntaxhighlight>


{|class="wikitable"
!Use!!Function!!Description
|-
|-
|||d1.splitter(str1, delimiter = FM)||Creates or updates the array from a given string.
|var=||varstr.oconv("TX")||Convert dynamic arrays to standard text format.
 
Useful for using text editors on dynamic arrays.


If the dim array has not been dimensioned (nrows and ncols are 0), it will be dimensioned with the number of elements that the string has fields.
FMs -> \n after escaping any embedded NL


If the dim array has already been dimensioned, and has more elements than there are fields in the string, the excess array elements are initialised to "". If the record has more fields than there are elements in the array, the excess fields are all left unsplit in the final element of the array.
VMs -> literal "\" \n


Predimensioning arrays allows efficient reuse of arrays in loops.
SMs -> literal "\\" \n


In either case, all elements of the array are updated.
etc.
<syntaxhighlight lang="c++">
<syntaxhighlight lang="c++">
dim d1;
// 1. Backslash in text remains backslash
d1.splitter("f1^f2^f3"_var); // d1.rows() -> 3
//
dim d2(10);
d2.splitter("f1^f2^f3"_var); // d2.rows() -> 10</syntaxhighlight>
|-
|||d1.sorter(reverse = false)||Sort the elements of the array. In place.


<em>reverse:</em> Defaults to false. If true, then the order is reversed.
let v1 = var(_BS).oconv("TX");    // _BS
|-
|||d1.reverser()||Reverse the elements of the array. In place.
|-
|||d1.shuffler()||Randomly shuffle the order of the elements of the array. In place.
|}
===== Array Conversion =====


{|class="wikitable"
// 2. Literal "\n" -> literal "\\n" (Double escape any escaped NL chars)
!Use!!Function!!Description
|-
|dim=||d1.sort(reverse = false)||Same as sorter() but returns a new array leaving the original untouched.
|-
|dim=||d1.reverse()||Same as reverser() but returns a new array leaving the original untouched.
|-
|dim=||d1.shuffle()||Same as shuffler() but returns a new array leaving the original untouched.
|}
===== Array DB I/O =====


{|class="wikitable"
let v2 = var(_BS "n").oconv("TX"); // _BS _BS "n"
!Use!!Function!!Description
|-
|||d1.write(dbfile, key)||Writes a db file record created from an array.


Each element in the array becomes a separate field in the db record. Any redundant trailing FMs are suppressed.
// 3. \n becomes literal "\n" (Single escape any NL chars)
<syntaxhighlight lang="c++">
dim d1 = "Client GD^G^20855^30000^1001.00^20855.76539"_var.split();
let file = "xo_clients", key = "GD001";
if (not deleterecord("xo_clients", "GD001")) {}; // Cleanup first
d1.write(file, key);
// or
write(d1 on file, key);</syntaxhighlight>
|-
|if||d1.read(dbfile, key)||Read a db file record into an array.


Each field in the database record becomes a single element in the array.
let v3 = var(_NL).oconv("TX");    // _BS "n"


<em>Returns:</em> True if the record exists or false if not,
// 4. FM -> \n


If the array is predimensioned then any excess array elements are initialised to "" and any excess record fields are left unsplit in the final array element. See dim splitter for more info.
let v4 = "f1^f2"_var.oconv("TX");  // "f1" _NL "f2"


If the array is not predimensioned (rows and cols = 0) then it will be dimensioned to have exactly the same number of rows as there are fields in the record being read.
// 5. VM -> "\" \n
<syntaxhighlight lang="c++">
dim d1(10);
let file = "xo_clients", key = "GD001";
if (not d1.read(file, key)) ... // d1.join() -> "Client GD^G^20855^30000^1001.00^20855.76539"_var
// or
if (not read(d1 from file, key)) ...</syntaxhighlight>
|}
===== Array OS I/O =====


{|class="wikitable"
let v5 = "v1]v2"_var.oconv("TX");  // "v1" _BS _NL "v2"
!Use!!Function!!Description
|-
|if||d1.oswrite(osfilename, codepage = "")||Creates an entire os text file from an array


Each element of the array becomes one line in the os file delimited by \n
// 6. SM -> "\\" \n


Any existing os file is overwritten and replaced.
let v6 = "s1}s1"_var.oconv("TX");  // "s2" _BS _BS _NL "s2"


<em>codepage:</em> Optional: Data is converted from UTF8 to the required codepage/encoding before output. If the conversion cannot be performed then return false.
// 7. TM -> "\\\" \n


<em>Returns:</em> True if successful or false if not.
let v7 = "t1|t2"_var.oconv("TX"); // "t1" _BS _BS _BS _NL "t2"
<syntaxhighlight lang="c++">
dim d1 = "aaa=1\nbbb=2\nccc=3\n"_var.split("\n");
if (not osremove("xo_conf.txt")) {}; // Cleanup first
let osfilename = "xo_conf.txt";
if (not d1.oswrite(osfilename)) ...
// or
if (not oswrite(d1 on osfilename)) ...</syntaxhighlight>
|-
|if||d1.osread(osfilename, codepage = "")||Read an entire os text file into an array.


Each line in the os file, delimited by \n or \r\n, becomes a separate element in the array.
// 8. ST -> "\\\\" \n


<em>codepage:</em> Optional. Data will be converted from the specified codepage/encoding to UTF8 after being read. If the conversion cannot be performed then return false.
let v8 = "st1~st2"_var.oconv("TX"); // "st1" _BS _BS _BS _BS _NL "st2"</syntaxhighlight>


<em>Returns:</em> True if successful or false if not.
|-
|var=||varstr.iconv("TX")||Convert standard text format to dynamic array.


If the first \n in the file is \r\n then the whole file will be split using \r\n as delimiter.
Reverse of oconv("TX") above.
<syntaxhighlight lang="c++">
|}
dim d1;
let osfilename = "xo_conf.txt";
if (not d1.osread(osfilename)) ... // d1.join("\n") -> "aaa=1\nbbb=2\nccc=3\n"_var0
// or
if (not osread(d1 from osfilename)) ...</syntaxhighlight>
|}:

Latest revision as of 07:36, 24 March 2025

Var

Use Function Description
Var Creation
Use Function Description
var v1; Create an unassigned var.

Where-ever possible, variables should be assigned an initial value immediately at their point of definition, and marked as const if appropriate. However variables often have no real single initial value and are commonly defined in advance of being assigned a particular value. For example, a variable may be assigned differently on different branches of a conditional statement, or be provided as an outbound argument of a function call.

Even when not assigned, "use before initialisation" bugs do not occur because a runtime error VarUnassigned is thrown if a var is used before it has been assigned a value.


Use "let" instead of "var" as a shorthand way of writing "const var" whereever possible.

let clients = "xo_clients", key = "SB001"; // const vars
var client;                                // Unassigned var
if (not read(client from clients, key)) ...
var v1 = expression; Assign a var using a literal or an expression. Alternatively, use "let" instead of "var" as a shorthand way of writing "const var" where appropriate.
var v1 = 42;                 // Integer
var v2 = 42.3;               // Double
var v3 = "abc";              // String
var v4 = 'x';                // char
var v5 = true;               // bool

var v6 = v1 + 100;           // Arithmetic
var v7 = v3 ^ "xyz";         // Concatenation
var v8 = oslist(".").sort(); // Built in functions

let v9 = 12345;              // A const var

var v10 = 12'345_var;        // A literal var integer
var v11 = 123.45_var;        // A literal var double
var v12 = "f1^v1]v2^f3"_var; // A literal var string

var x = 0.1, y = "0.2", z = x + y; // z -> 0.3
if v1.assigned() Returns: True if the var is assigned, otherwise false
if v1.unassigned() Returns: True if the var is unassigned, otherwise false
var= v2.or_default(defaultvalue) Returns: A copy of the var if it is assigned or the default value if it is not.

Can be used to handle optional arguments in functions.

defaultvalue: Cannot be unassigned.

var v1; // Unassigned
var v2 = v1.or_default("abc"); // v2 -> "abc"
// or
var v3 = or_default(v1, "abc");

Mutator: defaulter()


v1.defaulter(defaultvalue) If the var is unassigned then assign the default value to it, otherwise do nothing.

defaultvalue: Cannot be unassigned.

var v1; // Unassigned
v1.defaulter("abc"); // v1 -> "abc"
// or
defaulter(v1, "abc");
v1.swap(io v2) Swap the contents of one var with another.

Useful for stashing large strings quickly. They are moved using pointers without making copies or allocating memory.

Eiher or both variables may be unassigned.

var v1 = space(65'536);
var v2 = "";
v1.swap(v2); // v1 -> "" // v2.len() -> 65'536
// or
swap(v1, v2);
var= v2.move() Force the contents of a var to be moved instead of copied. The moved var becomes an empty string.

This allows large strings to be handled efficiently. They are moved using pointers without making copies or allocating memory.

The moved var must be assigned otherwise a VarUnassigned error is thrown.

var v1 = space(65'536);
var v2 = v1.move(); // v2.len() -> 65'536 // v1 -> ""
// or
var v3 = move(v2);
var= v2.clone() Returns a copy of the var.

The cloned var may be unassigned, in which case the copy will be unassigned too.

var v1 = "abc";
var v2 = v1.clone(); // "abc"
// or
var v3 = clone(v2);
var= v1.dump() Return a string describing internal data of a var.

If the str is located on the heap then its address is given.

typ:

0x01 str is available.

0x02 int is available.

0x04 dbl is available.

0x08 nan: str is not a number.

0x16 osfile: str, int and dbl have special meaning.

var v1 = str("x", 32);
v1.dump().outputl(); /// e.g. var:0x7ffea7462cd0 typ:1 str:0x584d9e9f6e70 "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"
// or
outputl(dump(v1));
Arithmetical Operators
Use Function Description
if v1.isnum() Checks if a var is numeric.

Returns: True if a var holds a double, an integer, or a string that is defined as numeric.

A string is defined as numeric only if it consists of one or more digits 0-9, with an optional decimal point "." placed anywhere, with an optional + or - sign prefix, or it is the empty string "", which is defined to be zero.

if ("+123.45"_var.isnum()) ... ok
if (       ""_var.isnum()) ... ok
if (not   "."_var.isnum()) ... ok
// or
if (isnum("123.")) ... ok
var= v1.num() Returns a copy of the var if it is numeric or 0 otherwise.

Returns: A guaranteed numeric var

Allows working numerically with data that may be non-numeric.

var v1 = "123.45"_var.num();    // 123.45
var v2 = "abc"_var.num() + 100; // 100
var= v2 + v3 Addition

Attempts to perform numeric operations on non-numeric strings will throw a runtime error VarNonNumeric.

Floating point numbers are implicitly converted to strings with no more than 12 significant digits of precision. This practically eliminates all floatng point rounding errors.

Internally, 0.1 + 0.2 looks like this using doubles.

0.10000000000000003 + 0.20000000000000004 -> 0.30000000000000004

var v1 = 0.1;
var v2 = v1 + 0.2; // 0.3
var= v2 - v3 Subtraction
var= v2 * v3 Multiplication
var= v2 / v3 Division
var= v2 % v3 Modulus
v1 += v2 Self addition
var v1 = 0.1;
v1 += 0.2; // 0.3
v1 -= v2 Self subtraction
v1 *= v2 Self multiplication
v1 /= v2 Self division
v1 %= v2 Self modulus
v1 ++ Post increment
var v1 = 3;
var v2 = v1 ++; // v2 -> 3 // v1 -> 4
v1 -- Post decrement
var v1 = 3;
var v2 = v1 --; // v2 -> 3 // v1 -> 2
++ v1 Pre increment
var v1 = 3;
var v2 = ++ v1; // v2 -> 4 // v1 -> 4
-- v1 Pre decrement
var v1 = 3;
var v2 = -- v1; // v2 -> 2 // v1 -> 2
Dynamic Array Creation, Access And Update
Use Function Description
var= ""_var The literal suffix "_var" allows dynamic arrays to be seamlessly embedded in code using a predefined set of visible equivalents of unprintable field mark characters as follows:

` = RM, Record mark

^ = FM, Field mark

] = VM, Value mark

} = SM, Subvalue mark

= TM, Text mark

~ = ST, Subtext mark

var v1 = "f1^f2^v1]v2^f4"_var; // "f1" _FM "f2" _FM "v1" _VM "v2" _FM "f4"
var v1 = {"a", "b", "c" ...}; // Initializer list Create a dynamic array var from a list. C++ constrains list elements to be all the same type: var, string, double, int, etc. but they all end up as fields of a dynamic array string.
var v1 = {11, 22, 33}; // "11^22^33"_var
var= v2(fieldno); v1(fieldno) = v2 Dynamic array - field extraction, update and append:

See also inserter() and remover().

var v1 = "aa^bb"_var;
v1(4) = 44; // v1 -> "aa^bb^^44"_var
// Field number -1 causes appending a field when updating.
v1(-1) = "55"; // v1 -> "aa^bb^^44^55"_var

Field access:

It is recommended to use "v1.f(fieldno)" syntax using a ".f(" prefix to access fields in expressions instead of plain "v1(fieldno)". The former syntax (using .f()) will always compile whereas the latter does not compile in all contexts. It will compile only if being called on a constant var or in a location which requires a var. This is due to C++ not making a clear distinction between usage on the left and right side of assignment operator =.

Furthermore using plain round brackets without the leading .f can be confused with function call syntax.

var v1 = "aa^bb^cc"_var;
var v2 = v1.f(2); // "bb" /// .f() style access. Recommended.
var v3 =   v1(2); // "bb" ///   () style access. Not recommended.
var= v2(fieldno, valueno); v1(fieldno, valueno) = v2 Dynamic array - value update and append

See also inserter() and remover().

var v1 = "aa^b1]b2^cc"_var;
v1(2, 4) = "44"; // v1 -> "aa^b1]b2]]44^cc"_var
// value number -1 causes appending a value when updating.
v1(2, -1) = 55; // v1 -> "aa^b1]b2]]44]55^cc"_var

Value access:

var v1 = "aa^b1]b2^cc"_var;
var v2 = v1.f(2,2); // "b2" /// .f() style access. Recommended.
var v3 =   v1(2,2); // "b2" ///   () style access. Not recommended.
String Creation
Use Function Description
var= v2 ^ v3 String concatention operator ^

At least one side must be a var.

"aa" ^ "22" will not compile but "aa" "22" will.

Floating point numbers are implicitly converted to strings with no more than 12 significant digits of precision. This practically eliminates all floatng point rounding errors.

var v2 = "aa";
var v1 = v2 ^ 22; // "aa22"
v1 ^= v2 String self concatention ^= (append)
var v1 = "aa";
v1 ^= 22; // v1 -> "aa22"
var= varnum.round(ndecimals = 0) Convert a number into a string after rounding it to a given number of decimal places.

Trailing zeros are not omitted. A leading "0." is shown where appropriate.

0.5 always rounds away from zero. i.e. 1.5 -> 2 and -2.5 -> -3

var: The number to be converted.

ndecimals: Determines how many decimal places are shown to the right of the decimal point or, if ndecimals is negative, how many 0's to the left of it.

Returns: A var containing an ASCII string of digits with a leading "-" if negative, and a decimal point "." if ndecimals is > 0.

let v1 = var(0.295).round(2);  //  "0.30"
// or
let v2 = round(1.295, 2);      //  "1.30"

var v3 = var(-0.295).round(2); // "-0.30"
// or
var v4 = round(-1.295, 2);     // "-1.30"

var v5 = round(0, 1);           // "0.0"
var v6 = round(0, 0);           // "0"
var v7 = round(0, -1);          // "0"

Negative number of decimals rounds to the left of the decimal point

let v1 = round(123456.789,  0); // "123457"
let v2 = round(123456.789, -1); // "123460"
let v3 = round(123456.789, -2); // "123500"
var= var::chr(num) Get a char given an integer 0-255.

Returns: A string containing a single char

0-127 -> ASCII, 128-255 -> invalid UTF-8 which cannot be written to the database or used in many exodus string operations

let v1 = var::chr(0x61); // "a"
// or
let v2 = chr(0x61);
var= var::textchr(num) Get a Unicode character given a Unicode Code Point (Number)

Returns: A single Unicode character in UTF8 encoding.

To get UTF code points > 2^63 you must provide negative ints because var doesnt provide an implicit constructor to unsigned int due to getting ambigious conversions because int and unsigned int are parallel priority in c++ implicit conversions.

let v1 = var::textchr(171416); // "𩶘" // or "\xF0A9B698"
// or
let v2 = textchr(171416);
var= varstr.str(num) Get a string of repeated substrings.

var: The substring to be repeated

num: How many times to repeat the substring

Returns: A string

let v1 = "ab"_var.str(3); // "ababab"
// or
let v2 = str("ab", 3);
var= var::space(nspaces) Get a string containing a given number of spaces.

nspaces: The number of spaces required.

Returns: A string of space chars.

let v1 = var::space(3); // "␣␣␣"
// or
let v2 = space(3);
var= varnum.numberinwords(locale = "") Returns: A string representing a given number written in words instead of digits.

locale: e.g. en_GB, ar_AE, el_CY, es_US, fr_FR etc or a language name e.g. "french".

let softhyphen = "\xc2\xad";
let v1 = var(123.45).numberinwords("de_DE").replace(softhyphen, " "); // "ein␣hundert␣drei␣und␣zwanzig␣Komma␣vier␣fünf"
String Scanning
Use Function Description
var= strvar.at(pos1) Get a single char from a string.

pos1: First char is 1. Last char is -1.

Returns: A single char if pos1 ± the length of the string, or "" if greater. Returns the first char if pos1 is 0 or (-pos1) > length.

var v1 = "abc";
var v2 = v1.at(2);  // "b"
var v3 = v1.at(-3); // "a"
var v4 = v1.at(4);  // ""
var= strvar.seq() Get the char number of a char

Returns: A number between 0 and 255.

If given a string, then only the first char is considered.

let v1 = "abc"_var.seq(); // 0x61 // decimal 97, 'a'
// or
let v2 = seq("abc");
var= strvar.textseq() Get the Unicode Code Point of a Unicode character.

var: A UTF-8 string. Only the first Unicode character is considered.

Returns: A number.

let v1 = "Γ"_var.textseq(); // 915 // U+0393: Greek Capital Letter Gamma (Unicode character)
// or
let v2 = textseq("Γ");
var= strvar.len() Get the length of a source string in number of chars

Returns: A number

let v1 = "abc"_var.len(); // 3
// or
let v2 = len("abc");
if strvar.empty() Checks if the var is an empty string.

Returns: True if it is empty amd false if not.

This is a shorthand and more expressive way of writing 'if (var == "")' or 'if (var.len() == 0)' or 'if (not var.len())'

Note that 'if (var.empty())' is not exactly the same as 'if (not var)' because 'if (var("0.0")' is also defined as false. If a string can be converted to 0 then it is considered to be false. Contrast this with common scripting languages where 'if (var("0"))' is defined to be true.

let v1 = "0";
if (not v1.empty()) ... ok // true
// or
if (not empty(v1)) ... ok // true
var= strvar.textwidth() Count the number of output columns required for a given source string.

Returns: A number

Allows wide multi-column Unicode characters that occupy more than one space in a text file or terminal screen.

Reduces combining characters to a single column. e.g. "e" followed by grave accent is multiple bytes but only occupies one output column.

Does not properly calculate all possible combining sequences of graphemes e.g. face followed by colour

let v1 = "🤡x🤡"_var.textwidth(); // 5
// or
let v2 = textwidth("🤡x🤡");
var= strvar.textlen() Count the number of Unicode code points in a source string.

Returns: A number.

let v1 = "Γιάννης"_var.textlen(); // 7
// or
let v2 = textlen("Γιάννης");
var= strvar.fcount(sepstr) Count the number of fields in a source string.

sepstr: The separator character or substr that delimits individual fields.

Returns: The count of the number of fields

This is similar to "var.count(sepstr) + 1" but it returns 0 for an empty source string.

let v1 = "aa**cc"_var.fcount("*"); // 3
// or
let v2 = fcount("aa**cc", "*");
var= strvar.count(sepstr) Count the number of occurrences of a given substr in a source string.

substr: The substr to count.

Returns: The count of the number of sepstr found.

Overlapping substrings are not counted.

let v1 = "aa**cc"_var.count("*"); // 2
// or
let v2 = count("aa**cc", "*");
if strvar.starts(prefix) Checks if a source string starts with a given prefix (substr).

prefix: The substr to check for.

Returns: True if the source string starts with the given prefix.

Returns: False if prefix is "". DIFFERS from c++, javascript, python3. See contains() for more info.

if ("abc"_var.starts("ab")) ... true
// or
if (starts("abc", "ab")) ... true
if strvar.ends(suffix) Checks if a source string ends with a given suffix (substr).

suffix: The substr to check for.

Returns: True if the source string ends with given suffix.

Returns: False if suffix is "". DIFFERS from c++, javascript, python3. See contains() for more info.

if ("abc"_var.ends("bc")) ... true
// or
if (ends("abc", "bc")) ... true
if strvar.contains(substr) Checks if a given substr exists in a source string.

substr: The substr to check for.

Returns: True if the source string starts with, ends with or contains the given substr.

Returns: False if suffix is "". DIFFERS from c++, javascript, python3

Human logic: "" is not equal to "x" therefore x does not contain "".

Human logic: Check each item (character) in the list for equality with what I am looking for and return success if any are equal.

Programmer logic: Compare as many characters as are in the search string for presence in the list of characters and return success if there are no failures.

if ("abcd"_var.contains("bc")) ... true
// or
if (contains("abcd", "bc")) ... true
var= strvar.index(substr, startchar1 = 1) Find a substr in a source string.

substr: The substr to search for.

startchar1: The char position (1 based) to start the search at. The default is 1, the first char.

Returns: The char position (1 based) that the substr is found at or 0 if not present.

let v1 = "abcd"_var.index("bc"); // 2
// or
let v2 = index("abcd", "bc");
var= strvar.indexn(substr, occurrence) Find the nth occurrence of a substr in a source string.

substr: The string to search for.

Returns: char position (1 based) or 0 if not present.

let v1 = "abcabc"_var.index("bc", 2); // 2
// or
let v2 = index("abcabc", "bc", 2);
var= strvar.indexr(substr, startchar1 = -1) Find the position of substr working backwards from the end of the string towards the beginning.

substr: The string to search for.

Returns: The char position of the substr if found, or 0 if not.

startchar1: defaults to -1 meaning start searching from the last char. Positive start1char1 counts from the beginning of the source string and negative startchar1 counts backwards from the last char.

let v1 = "abcabc"_var.indexr("bc"); // 5
// or
let v2 = indexr("abcabc", "bc");
var= strvar.match(regex_str, regex_options = "") Finds all matches of a given regular expression.

Returns: Zero or more matching substrings separated by FMs. Any groups are in VMs.

let v1 = "abc1abc2"_var.match("BC(\\d)", "i"); // "bc1]1^bc2]2"_var
// or
let v2 = match("abc1abc2", "BC(\\d)", "i");

regex_options:

l - Literal (any regex chars are treated as normal chars)

i - Case insensitive

p - ECMAScript/Perl (the default)

b - Basic POSIX (same as sed)

e - Extended POSIX

a - awk

g - grep

eg - egrep or grep -E



char ranges like a-z are locale sensitive if ECMAScript



m - Multiline. Default in boost (and therefore exodus)

s - Single line. Default in std::regex

f - First only. Only for replace() (not match() or search())

w - Wildcard glob style (e.g. *.cfg) not regex style. Only for match() and search(). Not replace().


var= strvar.match(regex) Ditto
var= strvar.search(regex_str, io startchar1, regex_options = "") Search for the first match of a regular expression.

startchar1: [in] char position to start the search from

startchar1: [out] char position to start the next search from

Returns: The 1st match like match()

regex_options as for match()

var startchar1 = 1;
let v1 = "abc1abc2"_var.search("BC(\\d)", startchar1, "i"); // "bc1]1"_var // startchar1 -> 5 /// Ready for the next search
// or
startchar1 = 1;
let v2 = search("abc1abc2", "BC(\\d)", startchar1, "i");
var= strvar.search(regex_str) Ditto starting from first char
var= strvar.search(regex, io startchar1) Ditto given a rex
var= strvar.search(regex) Ditto starting from first char.
var= strvar.hash(std::uint64_t modulus = 0) Get a hash of a source string.

modulus: The result is limited to [0, modulus)

Returns: A 64 bit signed integer.

MurmurHash3 is used.

let v1 = "abc"_var.hash(); assert(v1 == var(6'715'211'243'465'481'821));
// or
let v2 = hash("abc");
String Conversion - Non-Mutating - Chainable
Use Function Description
var= strvar.ucase() Convert to upper case
let v1 = "Γιάννης"_var.ucase(); // "ΓΙΆΝΝΗΣ"
// or
let v2 = ucase("Γιάννης");
var= strvar.lcase() Convert to lower case
let v1 = "ΓΙΆΝΝΗΣ"_var.lcase(); // "γιάννης"
// or
let v2 = lcase("ΓΙΆΝΝΗΣ");
var= strvar.tcase() Convert to title case.

Returns: Original source string with the first letter of each word is capitalised.

let v1 = "γιάννης παππάς"_var.tcase(); // "Γιάννης Παππάς"
// or
let v2 = tcase("γιάννης παππάς");
var= strvar.fcase() Convert to folded case.

Returns the source string standardised in a way to enable consistent indexing and searching,

Case folding is the process of converting text to a case independent representation.

https://www.w3.org/International/wiki/Case_folding

Accents can be significant. As in French cote, coté, côte and côté.

Case folding is not locale-dependent.

let v1 = "Grüßen"_var.fcase(); // "grüssen"
// or
let v2 = tcase("Grüßen");
var= strvar.normalize() Replace Unicode character sequences with their standardised NFC form.

Unicode normalization is the process of converting Unicode strings to a standard form, making them binary comparable and suitable for text processing and comparison. It is an important part of Unicode text processing.

For example, Unicode character "é" can be represented by either a single Unicode character, which is Unicode Code Point (\u00E9" - Latin Small Letter E with Acute), or a combination of two Unicode code points i.e. the ASCII letter "e" and a combining acute accent (Unicode Code Point "\u0301"). Unicode NFC definition converts the pair of code points to the single code point.

Normalization is not locale-dependent.

let v1 = "cafe\u0301"_var.normalize(); // "caf\u00E9" // "café"
// or
let v2 = normalize("cafe\u0301");
var= strvar.invert() Simple reversible disguising of string text.

It works by treating the string as UTF8 encoded Unicode code points and inverting the first 8 bits of their Unicode Code Points.

Returns: A string.

invert(invert()) returns to the original text.

ASCII bytes become multibyte UTF-8 so string sizes increase.

Inverted characters remain on their original Unicode Code Page but are jumbled up.

Non-existant Unicode Code Points may be created but UTF8 encoding remains valid.

let v1 = "abc"_var.invert(); // "\xC2" "\x9E" "\xC2" "\x9D" "\xC2" "\x9C"
// or
let v2 = invert("abc");
var= strvar.lower() Reduce all types of field mark chars by one level.

Convert all FM to VM, VM to SM etc.

Returns: The converted string.

Note that subtext ST chars are not converted because they are already the lowest level.

String size remains identical.

let v1 = "a1^b2^c3"_var.lower(); // "a1]b2]c3"_var
// or
let v2 = lower("a1^b2^c3"_var);
var= strvar.raise() Increase all types of field mark chars by one level.

Convert all VM to FM, SM to VM etc.

Returns: The converted string.

The record mark char RM is not converted because it is already the highest level.

String size remains identical.

let v1 = "a1]b2]c3"_var.raise(); // "a1^b2^c3"_var
// or
let v2 = "a1]b2]c3"_var;
var= strvar.crop() Remove any redundant FM, VM etc. chars (Trailing FM; VM before FM etc.)
let v1 = "a1^b2]]^c3^^"_var.crop(); // "a1^b2^c3"_var
// or
let v2 = crop("a1^b2]]^c3^^"_var);
var= strvar.quote() Wrap in double quotes.
let v1 = "abc"_var.quote(); // "\"abc\""
// or
let v2 = quote("abc");
var= strvar.squote() Wrap in single quotes.
let v1 = "abc"_var.squote(); // "'abc'"
// or
let v2 = squote("abc");
var= strvar.unquote() Remove one pair of surrounding double or single quotes.
let v1 = "'abc'"_var.unquote(); // "abc"
// or
let v2 = unquote("'abc'");
var= strvar.trim(trimchars = " ") Remove all leading, trailing and excessive inner bytes.

trimchars: The chars (bytes) to remove. The default is space.

let v1 = "␣␣a1␣␣b2␣c3␣␣"_var.trim(); // "a1␣b2␣c3"
// or
let v2 = trim("␣␣a1␣␣b2␣c3␣␣");
var= strvar.trimfirst(trimchars = " ") Ditto but only leading.
let v1 = "␣␣a1␣␣b2␣c3␣␣"_var.trimfirst(); // "a1␣␣b2␣c3␣␣"
// or
let v2 = trimfirst("␣␣a1␣␣b2␣c3␣␣");
var= strvar.trimlast(trimchars = " ") Ditto but only trailing.
let v1 = "␣␣a1␣␣b2␣c3␣␣"_var.trimlast(); // "␣␣a1␣␣b2␣c3"
// or
let v2 = trimlast("␣␣a1␣␣b2␣c3␣␣");
var= strvar.trimboth(trimchars = " ") Ditto but only leading and trailing, not inner.
let v1 = "␣␣a1␣␣b2␣c3␣␣"_var.trimboth(); // "a1␣␣b2␣c3"
// or
let v2 = trimboth("␣␣a1␣␣b2␣c3␣␣");
var= strvar.first() Get the first char of a string.

Returns: A char, or "" if empty.

Equivalent to var.substr(1,length) or var[1, length] in Pick OS

let v1 = "abc"_var.first(); // "a"
// or
let v2 = first("abc");
var= strvar.last() Get the last char of a string.

Returns: A char, or "" if empty.

Equivalent to var.substr(-1, 1) or var[-1, 1] in Pick OS

let v1 = "abc"_var.last(); // "c"
// or
let v2 = last("abc");
var= strvar.first(std::size_t length) Get the first n chars of a source string.

length: The number of chars (bytes) to get.

Returns: A string of up to n chars.

Equivalent to var.substr(1, length) or var[1, length] in Pick OS

let v1 = "abc"_var.first(2); // "ab"
// or
let v2 = first("abc", 2);
var= strvar.last(std::size_t length) Extract up to length trailing chars

Equivalent to var.substr(-length, length) or var[-length, length] in Pick OS

let v1 = "abc"_var.last(2); // "bc"
// or
let v2 = last("abc", 2);
var= strvar.cut(length) Remove n chars (bytes) from the source string.

length: Positive to remove first n chars or negative to remove the last n chars.

If the absolute value of length is >= the number of chars in the source string then all chars will be removed.

Equivalent to var.substr(length) or var[1, length] = "" in Pick OS

let v1 = "abcd"_var.cut(2); // "cd"
// or
let v2 = cut("abcd", 2);
var= strvar.paste(pos1, length, replacestr) Insert a substr at an given position after removing a given number of chars.


pos1: 0 or 1 : Remove length chars from the beginning and insert at the beginning.

pos1: > than the length of the source string. Insert after the last char.

pos1: -1 : Remove up to length chars before inserting.Insert on or before the last char.

pos1: -2 : Insert on or before the penultimate char.

Equivalent to var[pos1, length] = substr in Pick OS

let v1 = "abcd"_var.paste(2, 2, "XYZ"); // "aXYZd"
// or
let v2 = paste("abcd", 2, 2, "XYZ");
var= strvar.paste(pos1, insertstr) Insert text at char position without overwriting any following chars

Equivalent to var[pos1, 0] = substr in Pick OS

let v1 = "abcd"_var.paste(2, "XYZ"); // "aXYZbcd"
// or
let v2 = paste("abcd", 2, "XYZ");
var= strvar.prefix(insertstr) Insert text at the beginning

Equivalent to var[0, 0] = substr in Pick OS

let v1 = "abc"_var.prefix("XYZ"); // "XYZabc"
// or
let v2 = prefix("abc", "XYZ");
var= strvar.append(appendable, ...) Append anything at the end of a string
let v1 = "abc"_var.append(" is ", 10, " ok", '.'); // "abc is 10 ok."
// or
let v2 = append("abc", " is ", 10, " ok", '.');
var= strvar.pop() Remove one trailing char.

Equivalent to var[-1, 1] = "" in Pick OS

let v1 = "abc"_var.pop(); // "ab"
// or
let v2 = pop("abc");
var= strvar.field(delimiter, fieldnx = 1, nfieldsx = 1) Copies one or more consecutive fields from a string given a delimiter

delimiter: A Unicode character.

fieldno: The first field is 1, the last field is -1.

Returns: A substring

let v1 = "aa*bb*cc"_var.field("*", 2); // "bb"
// or
let v2 = field("aa*bb*cc", "*", 2);
let v1 = "aa*bb*cc"_var.field("*", -1); // "cc"
// or
let v2 = field("aa*bb*cc", "*", -1);
var= strvar.fieldstore(separator, fieldno, nfields, replacement) fieldstore() replaces, inserts or deletes subfields in a string.

fieldno: The field number to replace or, if not 1, the field number to start at. Negative fieldno counts backwards from the last field.

nfields: The number of fields to replace or, if negative, the number of fields to delete first. Can be 0 to cause simple insertion of fields.

replacement: A string that is the replacement field or fields.

Returns: A modified copy of the original string.

There is no way to simply delete n fields because the replacement argument cannot be omitted, however one can achieve the same result by replacing n+1 fields with the n+1th field.


The replacement can contain multiple fields itself. If replacing n fields and the replacement contains < n fields then the remaining fields become "". Conversely, if the replacement contains more fields than are required, they are discarded.

let v1 = "aa,bb,cc,dd,ee"_var.fieldstore(",", 2, 3, "11,22"); // "aa,11,22,,ee"
// or
let v2 = fieldstore("aa,bb,cc,dd,ee", ",", 2, 3, "11,22");

If nfields is 0 then insert the replacement field(s) before fieldno

let v1 = "aa,bb,cc,dd,ee"_var.fieldstore(",", 2, 0, "11,22"); // "aa,11,22,bb,cc,dd,ee"

If nfields is negative then delete abs(n) fields before inserting whatever fields the replacement has.

let v1 = "aa,bb,cc,dd,ee"_var.fieldstore(",", 2, -2, "11"); // "aa,11,dd,ee"

If nfields exceeds the number of fields in the input then additional empty fields are added.

let v1 = "aa,bb,cc"_var.fieldstore(",", 6, 2, "11"); // "aa,bb,cc,,,11,"
var= strvar.substr(pos1, length) substr version 1.

Copies a substr of length chars from a given a starting char position.

Returns: A substr or "".

pos1: The char position to start at. If negative then start from a position counting backwards from the last char

length: The number of chars to copy. If negative then copy backwards. This reverses the order of the chars in the returned substr.

Equivalent to var[start, length] in Pick OS

Not Unicode friendly.

let v1 = "abcd"_var.substr(2, 2); // "bc"
// or
let v2 = substr("abcd", 2, 2);

If pos1 is negative then start counting backwards from the last char

let v1 = "abcd"_var.substr(-3, 2); // "bc"
// or
let v2 = substr("abcd", -3, 2);

If length is negative then work backwards and return chars reversed

let v1 = "abcd"_var.substr(3, -2); // "cb"
// or
let v2 = substr("abcd", 3, -2); // "cb"
var= strvar.b(pos1, length) Abbreviated alias of substr version 1.
var= strvar.substr(pos1) substr version 2.

Copies a substr from a given char position up to the end of the source string

Returns: A substr or "".

pos1: The char position to start at. If negative then start from a position counting backwards from the last char

Equivalent to var[pos1, 9999999] in Pick OS

Partially Unicode friendly but pos1 is in chars.

let v1 = "abcd"_var.substr(2); // "bcd"
// or
let v2 = substr("abcd", 2);
var= strvar.b(pos1) Shorthand alias of substr version 2.
var= strvar.substr(pos1, delimiterchars, out pos2) substr version 3.

Copies a substr from a given char position up to (but excluding) any one of some given delimiter chars

Returns: A substr or "".

pos1: [in] The position of the first char to copy. Negative positions count backwards from the last char of the string.

pos2: [out] The position of the next delimiter char, or one char position after the end of the source string if no subsequent delimiter chars are found.

COL2: is a predefined variable that can be used for pos2 instead of declaring a variable.

An empty string may be returned if pos1 [in] points to one of the delimiter chars or points beyond the end of the source string.

Equivalent to var[pos1, ",."] in Pick OS (non-numeric length).

Works with any encoding including UTF8 for the source string but the delimiter chars are bytes.

Add 1 to pos2 to skip over the next delimiter char to copy the next substr

Works with any encoding including UTF8 for the source string but the delimiter chars are bytes.

This function is similar to std::string::find_first_of but that function only returns pos2.

var pos1 = 4;
let v1 = "12,45 78"_var.substr(pos1, ", ", COL2);  // v1 -> "45" // COL2 -> 6 // 6 is the position of the next delimiter char found.
// or
let v2 = substr("12,45 78", COL2 + 1, ", ", COL2); // v2 -> "78" // COL2 -> 9 // 9 is one after the end of the string meaning that none of the delimiter chars were found.
var= strvar.b(pos1, delimiterchars, out pos2) Shorthand alias of substr version 3.
var= strvar.substr2(io pos1, out delimiterno) substr version 4.

Copies a substr from a given char position up to (but excluding) the next field mark char (RM, FM, VM, SM, TM, ST).

Returns: A substr or "".

pos1: [in] The position of the first char to copy. Negative positions count backwards from the last char of the string.

pos1: [out] The position of the first char of the next substr after whatever field mark char is found, or one char position after the end of the source string if no subsequent field mark char is found.

field_mark_no: [out] A number (1-6) indicating which of the standard field mark chars was found, or 0 if not.

An empty string may be returned if the pos1 [in] points to one of the field marks or beyond the end of the source string.

pos1 [out] is correctly positioned to copy the next substr.

Works with any encoding including UTF8. Was called "remove" in Pick OS.

The equivalent in Pick OS was the statement "Remove variable From string At column Setting flag"

...

This function is valuable for high performance processing of dynamic arrays.

It is notably used in "list" to print parallel columns of mixed combinations of multivalues/subvalues and text marks correctly lined up mv to mv, sv to sv, tm to tm even when particular values, subvalues and text fragments are missing from particular columns.

It is similar to version 3 of substr - substr(pos1, delimiterchars, pos2) except that in this version the delimiter chars are hard coded as the standard field mark chars (RM, FM, VM, SM, TM, ST) and it returns the first char position of the next substr, not the char position of the next field mark char.

var pos1 = 4, field_mark_no;
let v1 = "12^45^78"_var.substr2(pos1, field_mark_no);  // "45" // pos1 -> 7 // field_mark_no -> 2 // field_mark_no 2 means that a FM was found.
// or
let v2 = substr2("12^45^78"_var, pos1, field_mark_no); // "78" // pos1 -> 9 // field_mark_no -> 0 // field_mark_no 0 means that none of the standard field marks were found.
var= strvar.b2(io pos1, out field_mark_no) Shorthand alias of substr version 4.
var= strvar.convert(fromchars, tochars) Convert or delete chars one for one to other chars

from_chars: chars to convert. If longer than to_chars then delete those characters instead of converting them.

to_chars: chars to convert to

Not UTF8 compatible.

let v1 = "abcde"_var.convert("aZd", "XY"); // "Xbce" // a is replaced and d is removed
// or
let v2 = convert("abcde", "aZd", "XY");
var= strvar.textconvert(fromchars, tochars) Ditto for Unicode code points.
let v1 = "a🤡b😀c🌍d"_var.textconvert("🤡😀", "👋"); // "a👋bc🌍d"
// or
let v2 = textconvert("a🤡b😀c🌍d", "🤡😀", "👋");
var= strvar.replace(fromstr, tostr) Replace all occurrences of one substr with another.

Case sensitive.

let v1 = "Abc.Abc"_var.replace("bc", "X"); // "AX.AX"
// or
let v2 = replace("Abc Abc", "bc", "X");
var= strvar.replace(regex, tostr) Replace substring(s) using a regular expression.

Use $0, $1, $2 in tostr to refer to groups defined in the regex.

let v1 = "A a B b"_var.replace("[A-Z]"_rex, "'$0'"); // "'A' a 'B' b"
// or
let v2 = replace("A a B b", "[A-Z]"_rex, "'$0'");
var= strvar.unique() Remove duplicate fields in an FM or VM etc. separated list
let v1 = "a1^b2^a1^c2"_var.unique(); // "a1^b2^c2"_var
// or
let v2 = unique("a1^b2^a1^c2"_var);
var= strvar.sort(delimiter = FM) Reorder fields in an FM or VM etc. separated list in ascending order

Numeric data:

let v1 = "20^10^2^1^1.1"_var.sort(); // "1^1.1^2^10^20"_var
// or
let v2 = sort("20^10^2^1^1.1"_var);

Alphabetic data:

let v1 = "b1^a1^c20^c10^c2^c1^b2"_var.sort(); // "a1^b1^b2^c1^c10^c2^c20"_var
// or
let v2 = sort("b1^a1^c20^c10^c2^c1^b2"_var);
var= strvar.reverse(delimiter = FM) Reorder fields in an FM or VM etc. separated list in descending order
let v1 = "20^10^2^1^1.1"_var.reverse(); // "1.1^1^2^10^20"_var
// or
let v2 = reverse("20^10^2^1^1.1"_var);
var= strvar.shuffle(delimiter = FM) Randomise the order of fields in an FM, VM separated list
let v1 = "20^10^2^1^1.1"_var.shuffle(); /// e.g. "2^1^20^1.1^10" (random order depending on initrand())
// or
let v2 = shuffle("20^10^2^1^1.1"_var);
var= strvar.parse(char sepchar = ' ') Split a delimited string with embedded quotes into a dynamic array.

Can be used to process CSV data.

Replaces separator chars with FM chars except inside double or single quotes and ignoring escaped quotes \" \'

let v1 = "abc,\"def,\"123\" fgh\",12.34"_var.parse(','); // "abc^\"def,\"123\" fgh\"^12.34"_var
// or
let v2 = parse("abc,\"def,\"123\" fgh\",12.34", ',');
dim= strvar.split(delimiter = FM) Split a delimited string into a dim array.

The delimiter can be multibyte Unicode.

Returns: A dim array.

dim d1 = "a^b^c"_var.split(); // A dimensioned array with three elements (vars)
// or
dim d2 = split("a^b^c"_var);
var= strvar.fieldstore(delimiter, fieldno, nfields, replacement)
String Mutation - Standalone Commands
Use Function Description
strvar.ucaser() Upper case

All string mutators follow the same pattern as ucaser.
See the non-mutating functions for details.

var v1 = "abc";
v1.ucaser(); // "ABC"
// or
ucaser(v1);
strvar.lcaser()
strvar.tcaser()
strvar.fcaser()
strvar.normalizer()
strvar.inverter()
strvar.quoter()
strvar.squoter()
strvar.unquoter()
strvar.lowerer()
strvar.raiser()
strvar.cropper()
strvar.trimmer(trimchars = " ")
strvar.trimmerfirst(trimchars = " ")
strvar.trimmerlast(trimchars = " ")
strvar.trimmerboth(trimchars = " ")
strvar.firster()
strvar.laster()
strvar.firster(std::size_t length)
strvar.laster(std::size_t length)
strvar.cutter(length)
strvar.paster(pos1, length, insertstr)
strvar.paster(pos1, insertstr)
strvar.prefixer(insertstr)
strvar.appender(appendable, ...)
strvar.popper()
strvar.fieldstorer(delimiter, fieldno, nfields, replacement)
strvar.substrer(pos1, length)
strvar.substrer(pos1)
strvar.converter(from_chars, to_chars)
strvar.textconverter(from_characters, to_characters)
strvar.replacer(regex, tostr)
strvar.replacer(fromstr, tostr)
strvar.uniquer()
strvar.sorter(delimiter = FM)
strvar.reverser(delimiter = FM)
strvar.shuffler(delimiter = FM)
strvar.parser(char sepchar = ' ')
I/O Conversion
Use Function Description
var= var.oconv(convstr) Converts internal data to output external display format according to a given conversion code or pattern

If the internal data is invalid and cannot be converted then most conversions return the ORIGINAL data unconverted

Throws a runtime error VarNotImplemented if convstr is invalid

See #ICONV/OCONV PATTERNS

let v1 = var(30123).oconv("D/E"); // "21/06/2050"
// or
let v2 = oconv(30123, "D/E");
var= var.iconv(convstr) Converts external data to internal format according to a given conversion code or pattern

If the external data is invalid and cannot be converted then most conversions return the EMPTY STRING ""

Throws a runtime error VarNotImplemented if convstr is invalid

See #ICONV/OCONV PATTERNS

let v1 = "21 JUN 2050"_var.iconv("D/E"); // 30123
// or
let v2 = iconv("21 JUN 2050", "D/E");
var= var.format(fmt_str, args, ...) Classic format function in printf style

vars can be formatted either with C++ format codes e.g. {:_>8.2f}

or with exodus oconv codes e.g. {::MD20P|R(_)#8} as in the below example.

let v1 = var(12.345).format("'{:_>8.2f}'"); // "'___12.35'"
let v2 = var(12.345).format("'{::MD20P|R(_)#8}'");
// or
var v3 = format("'{:_>8.2f}'", var(12.345)); // "'___12.35'"
var v4 = format("'{::MD20P|R(_)#8}'", var(12.345));
var= strvar.from_codepage(codepage) Converts from codepage encoded text to UTF-8 encoded text

e.g. Codepage "CP1124" (Ukrainian).

Use Linux command "iconv -l" for complete list of code pages and encodings.

let v1 = "\xa4"_var.from_codepage("CP1124"); // "Є"
// or
let v2 = from_codepage("\xa4", "CP1124");
// U+0404 Cyrillic Capital Letter Ukrainian Ie Unicode character
var= strvar.to_codepage(codepage) Converts to codepage encoded text from UTF-8 encoded text
let v1 = "Є"_var.to_codepage("CP1124").oconv("HEX"); // "A4"
// or
let v2 = to_codepage("Є", "CP1124").oconv("HEX");
Dynamic Array Functions
Use Function Description
var= strvar.f(fieldno, valueno = 0, subvalueno = 0) f() is a highly abbreviated alias for the Pick OS field/value/subvalue extract() function.

"f()" can be thought of as "field" although the function can extract values and subvalues as well.

The convenient Pick OS angle bracket syntax for field extraction (e.g. xxx<20>) is not available in C++.

The abbreviated exodus field extraction function (e.g. xxx.f(20)) is provided instead since field access is extremely heavily used in source code.

let v1 = "f1^f2v1]f2v2]f2v3^f2"_var;
let v2 = v1.f(2, 2); // "f2v2"
var= strvar.extract(fieldno, valueno = 0, subvalueno = 0) Extract a specific field, value or subvalue from a dynamic array.
let v1 = "f1^f2v1]f2v2]f2v3^f2"_var;
let v2 = v1.extract(2, 2); // "f2v2"
//
// For brevity the function alias "f()" (standing for "field") is normally used instead of "extract()" as follows:
var v3 = v1.f(2, 2);
var= strvar.update(fieldno, valueno, subvalueno, replacement) Same as var.updater() function but returns a new string instead of updating a variable in place.
Rarely used.

"update()" was called "replace()" in Pick OS/Basic.

var= strvar.update(fieldno, valueno, replacement) Ditto for a specific multivalue
var= strvar.update(fieldno, replacement) Ditto for a specific field
var= strvar.insert(fieldno, valueno, subvalueno, insertion) Same as var.inserter() function but returns a new string instead of updating a variable in place.
var= strvar.insert(fieldno, valueno, insertion) Ditto for a specific multivalue
var= strvar.insert(fieldno, insertion) Ditto for a specific field
var= strvar.remove(fieldno, valueno = 0, subvalueno = 0) Same as var.remover() function but returns a new string instead of updating a variable in place.

"remove()" was called "delete()" in Pick OS/Basic.

Dynamic Array Filters
Use Function Description
var= strvar.sum() Sum up multiple values into one higher level
let v1 = "1]2]3^4]5]6"_var.sum(); // "6^15"_var
// or
let v2 = sum("1]2]3^4]5]6"_var);
var= strvar.sumall() Sum up all levels into a single figure
let v1 = "1]2]3^4]5]6"_var.sumall(); // 21
// or
let v2 = sumall("1]2]3^4]5]6"_var);
var= strvar.sum(delimiter) Ditto allowing commas etc.
let v1 = "10,20,30"_var.sum(","); // 60
// or
let v2 = sum("10,20,30", ",");
var= strvar.mv(opcode, var2) Binary ops (+, -, *, /) in parallel on multiple values
let v1 = "10]20]30"_var.mv("+","2]3]4"_var); // "12]23]34"_var
Dynamic Array Mutators Standalone Commands
Use Function Description
strvar.updater(fieldno, replacement) Replace a specific field in a dynamic array
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.updater(2, "X"); // "f1^X^f3"_var
// or
v1(2) = "X"; /// Easiest.
// or
updater(v1, 2, "X");
strvar.updater(fieldno, valueno, replacement) Replace a specific value of a specific field in a dynamic array.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.updater(2, 2, "X"); // "f1^v1]X^f3"_var
// or
v1(2, 2) = "X"; /// Easiest.
// or
updater(v1, 2, 2, "X");
strvar.updater(fieldno, valueno, subvalueno, replacement) Replace a specific subvalue of a specific value of a specific field in a dynamic array.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.updater(2, 2, 2, "X"); // "f1^v1]v2}X}s3^f3"_var
// or
v1(2, 2, 2) = "X"; /// Easiest.
// or
updater(v1, 2, 2, 2, "X");
strvar.inserter(fieldno, insertion) Insert a specific field in a dynamic array, moving all other fields up.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.inserter(2, "X"); // "f1^X^v1]v2}s2}s3^f3"_var
// or
inserter(v1, 2, "X");
strvar.inserter(fieldno, valueno, insertion) Ditto for a specific value in a specific field, moving all other values up.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.inserter(2, 2, "X"); // "f1^v1]X]v2}s2}s3^f3"_var
// or
inserter(v1, 2, 2, "X");
strvar.inserter(fieldno, valueno, subvalueno, insertion) Ditto for a specific subvalue in a dynamic array, moving all other subvalues up.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.inserter(2, 2, 2, "X"); // "f1^v1]v2}X}s2}s3^f3"_var
// or
v1.inserter(2, 2, 2, "X");
strvar.remover(fieldno, valueno = 0, subvalueno = 0) Remove a specific field (or value, or subvalue) from a dynamic array, moving all other fields (or values, or subvalues) down.
var v1 = "f1^v1]v2}s2}s3^f3"_var;
v1.remover(2, 2); // "f1^v1^f3"_var
// or
remover(v1, 2, 2);
Dynamic Array Search
Use Function Description
var= strvar.locate(target) locate() with only the target substr argument provided searches unordered values separated by any of the field mark chars.

Returns: The field, value, subvalue etc. number if found or 0 if not.

Searching for empty fields, values etc. (i.e. "") will work. Locating "" in "]yy" will return 1, in "xx]]zz" 2, and in "xx]yy]" 3, however, locating "" in "xx" will return 0 because there is conceptually no empty value in "xx". Locate "" in "" will return 1.

if ("UK^US^UA"_var.locate("US")) ... ok // 2
// or
if (locate("US", "UK^US^UA"_var)) ... ok
if strvar.locate(target, out valueno) locate() with only the target substr provided and setting returned searches unordered values separated by any type of field mark chars.

Returns: True if found

Setting: Field, value, subvalue etc. number if found or the max number + 1 if not. Suitable for additiom of new values

var setting;
if ("UK]US]UA"_var.locate("US", setting)) ... ok // setting -> 2
// or
if (locate("US", "UK]US]UA"_var, setting)) ... ok
if strvar.locate(target, out setting, fieldno, valueno = 0) locate() the target in unordered fields if fieldno is 0, or values if a fieldno is specified, or subvalues if the valueno argument is provided.

Returns: True if found and with the field, value or subvalue number in setting.

Returns: False if not found and with the max field, value or subvalue number found + 1 in setting. Suitable for replacement of new fields, values or subvalues.

var setting;
if ("f1^f2v1]f2v2]s1}s2}s3}s4^f3^f4"_var.locate("s4", setting, 2, 3)) ... ok // setting -> 4 // returns true
if strvar.locateby(ordercode, target, out valueno) locateby() without fieldno or valueno arguments searches ordered values separated by VM chars.

The order code can be AL, DL, AR, DR meaning Ascending Left, Descending Right, Ascending Right, Ascending Left.

Left is used to indicate alphabetic order where 10 < 2.

Right is used to indicate numeric order where 10 > 2.

Data must be in the correct order for searching to work properly.

Returns: True if found.

In case the target is not exactly found then the correct value no for inserting the target is returned in setting.

var valueno; if ("aaa]bbb]ccc"_var.locateby("AL", "bb", valueno)) ... // valueno -> 2 // returns false and valueno = where it could be correctly inserted.
if strvar.locateby(ordercode, target, out setting, fieldno, valueno = 0) locateby() ordered as above but in fields if fieldno is 0, or values in a specific fieldno, or subvalues in a specific valueno.
var setting;
if ("f1^f2^aaa]bbb]ccc^f4"_var.locateby("AL", "bb", setting, 3)) ... // setting -> 2 // return false and where it could be correctly inserted.
if strvar.locateusing(usingchar, target) locate() a target substr in the whole unordered string using a given delimiter char returning true if found.
if ("AB,EF,CD"_var.locateusing(",", "EF")) ... ok
if strvar.locateusing(usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0) locate() the target in a specific field, value or subvalue using a specified delimiter and unordered data

Returns: True If found and returns in setting the number of the delimited field found.

Returns: False if not found and returns in setting the maximum number of delimited fields + 1 if not found.

This is similar to the main locate command but the delimiter char can be specified e.g. a comma or TM etc.

var setting;
if ("f1^f2^f3c1,f3c2,f3c3^f4"_var.locateusing(",", "f3c2", setting, 3)) ... ok // setting -> 2 // returns true
if strvar.locatebyusing(ordercode, usingchar, target, out setting, fieldno = 0, valueno = 0, subvalueno = 0) locatebyusing() supports all the above features in a single function.

Returns: True if found.

Database Access
Use Function Description
if conn.connect(conninfo = "") For all db operations, the operative var can either be a db connection created with dbconnect() or be any var and a default connection will be established on the fly.

The db connection string (conninfo) parameters are merged from the following places in descending priority.

1. Provided in connect()'s conninfo argument. See 4. for the complete list of parameters.

2. Any environment variables EXO_HOST EXO_PORT EXO_USER EXO_DATA EXO_PASS EXO_TIME

3. Any parameters found in a configuration file at ~/.config/exodus/exodus.cfg

4. The default conninfo is "host=127.0.0.1 port=5432 dbname=exodus user=exodus password=somesillysecret connect_timeout=10"

Setting environment variable EXO_DBTRACE=1 will cause tracing of db interface including SQL commands.

let conninfo = "dbname=exodus user=exodus password=somesillysecret";
if (not conn.connect(conninfo)) ...;
// or
if (not connect()) ...
// or
if (not connect("exodus")) ...
if conn.attach(filenames) "attach" causes the given filenames to be associated with a specific connection for the remainder of the session.

It is not necessary to attach files before opening them.

Attachments can changed by calling attach() or open() on a different connection or they can be removed by calling detach().

var: Defaults to the default connection.

filenames: FM separated list.

Returns: false if any filename does not exist and cannot be opened on the given connection. All filenames that can be opened on the conneciton are attached even if some cannot.

Internally, attach merely opens each filename on the given connection causing them to be added to an internal cache.

let filenames = "xo_clients^dict.xo_clients"_var, conn = "exodus";
if (conn.attach(filenames)) ... ok
// or
if (attach(filenames)) ... ok
conn.detach(filenames) Removes files from the internal cache created by previous open() and attach() calls.

var: Defaults to the default connection.

filenames: FM separated list.


if conn.begintrans() Begin a db transaction.
if (not conn.begintrans()) ...
// or
if (not begintrans()) ...
if conn.statustrans() Check if a db transaction is in progress.
if (conn.statustrans()) ... ok
// or
if (statustrans()) ... ok
if conn.rollbacktrans() Rollback a db transaction.
if (conn.rollbacktrans()) ... ok
// or
if (rollbacktrans()) ... ok
if conn.committrans() Commit a db transaction.

Returns: True if successfully committed or if there was no transaction in progress, otherwise false.

if (conn.committrans()) ... ok
// or
if (committrans()) ... ok
if conn.sqlexec(sqlcmd) Execute an sql command.

Returns: True if there was no sql error otherwise lasterror() returns a detailed error message.

if (conn.sqlexec("select 1")) ... ok
// or
if (sqlexec("select 1")) ... ok
if conn.sqlexec(sqlcmd, io response) Execute an SQL command and capture the response.

Returns: True if there was no sql error otherwise response contains a detailed error message.

response: Any rows and columns returned are separated by RM and FM respectively. The first row is the column names.

Recommended: Don't use sql directly unless you must to manage or configure a database.

let sqlcmd = "select 'xxx' as col1, 'yyy' as col2";
var response;
if (conn.sqlexec(sqlcmd, response)) ... ok // response -> "col1^col2\x1fxxx^yyy"_var /// \x1f is the Record Mark (RM) char. The backtick char is used here by gendoc to deliminate source code.
// or
if (sqlexec(sqlcmd, response)) ... ok
conn.disconnect() Closes db connection and frees process resources both locally and in the database server.
conn.disconnect();
// or
disconnect();
conn.disconnectall() Closes all connections and frees process resources both locally and in the database server(s).

All connections are closed automatically when a process terminates.

conn.disconnectall();
// or
disconnectall();
var= var::lasterror() Returns: The last os or db error message.
var v1 = var::lasterror();
// or
var v2 = lasterror();
var::loglasterror(source = "") Log the last os or db error message.

Output: to stdlog

Prefixes the output with source if provided.

<em>var:</em>:loglasterror("main:");
// or
loglasterror("main:");
Database Management
Use Function Description
if conn.dbcreate(new_dbname, old_dbname = "") Create a named database on a particular connection.

The target database cannot already exist.

Optionally copies an existing database from the same connection and which cannot have any current connections.

var conn = "exodus";
if (not dbdelete("xo_gendoc_testdb")) {}; // Cleanup first
if (conn.dbcreate("xo_gendoc_testdb")) ... ok
// or
if (dbcreate("xo_gendoc_testdb")) ...
if conn.dbcopy(from_dbname, to_dbname) Create a named database as a copy of an existing database.

The target database cannot already exist.

The source database must exist on the same connection and cannot have any current connections.

var conn = "exodus";
if (not dbdelete("xo_gendoc_testdb2")) {}; // Cleanup first
if (conn.dbcopy("xo_gendoc_testdb", "xo_gendoc_testdb2")) ... ok
// or
if (dbcopy("xo_gendoc_testdb", "xo_gendoc_testdb2")) ...
var= conn.dblist() Returns: A list of available databases on a particular connection.
let v1 = conn.dblist();
// or
let v2 = dblist();
if conn.dbdelete(dbname) Delete (drop) a named database.

The target database must exist and cannot have any current connections.

var conn = "exodus";
if (conn.dbdelete("xo_gendoc_testdb2")) ... ok
// or
if (dbdelete("xo_gendoc_testdb2")) ...
if conn.createfile(filename) Create a named db file.

filenames ending with "_temp" only last until the connection is closed.

let filename = "xo_gendoc_temp", conn = "exodus";
if (conn.createfile(filename)) ... ok
// or
if (createfile(filename)) ...
if conn.renamefile(filename, newfilename) Rename a db file.
let conn = "exodus", filename = "xo_gendoc_temp", new_filename = "xo_gendoc_temp2";
if (conn.renamefile(filename, new_filename)) ... ok
// or
if (renamefile(filename, new_filename)) ...
var= conn.listfiles() Returns: A list of all files in a database
var conn = "exodus";
if (not conn.listfiles()) ...
// or
if (not listfiles()) ...
if conn.clearfile(filename) Delete all records in a db file
let conn = "exodus", filename = "xo_gendoc_temp2";
if (not conn.clearfile(filename)) ...
// or
if (not clearfile(filename)) ...
if conn.deletefile(filename) Delete a db file
let conn = "exodus", filename = "xo_gendoc_temp2";
if (conn.deletefile(filename)) ... ok
// or
if (deletefile(filename)) ...
var= conn_or_file.reccount(filename = "") Returns: The approx. number of records in a db file.

Might return -1 if not known.

Not very accurate inside transactions.

let conn = "exodus", filename = "xo_clients";
var nrecs1 = conn.reccount(filename);
// or
var nrecs2 = reccount(filename);
if conn_or_file.flushindex(filename = "") Calls db maintenance function for a file or all files.

This doesnt actually flush any indexes but does make sure that reccount() function is reasonably accurate.

Returns: True if successful otherwise false if not and with lasterror() set.

Database File I/O
Use Function Description
if file.open(dbfilename, connection = "") Opens a db file to a var which can be used in subsequent db function calls to access a specific file using a specific connection.

connection: If not specified and the filename is present in an internal cache of filenames and connections created by previous calls to open() or attach() then open() returns true. If it is not present in the cache then the default connection will be checked.

Returns: True if the filename was present in the cache OR if the db connection reports that the file is present.

var file, filename = "xo_clients";
if (not file.open(filename)) ...
// or
if (not open(filename to file)) ...
file.close() Closes db file var

Does nothing currently since database file vars consume no resources

var file = "xo_clients";
file.close();
// or
close(file);
if file.createindex(fieldname, dictfile = "") Creates a secondary index for a given db file and field name.

The fieldname must exist in a dictionary file. The default dictionary is "dict." ^ filename.

Returns: False if the index cannot be created for any reason.

  • Index already exists
  • File does not exist
  • The dictionary file does not have a record with a key of the given field name.
  • The dictionary file does not exist. Default is "dict." ^ filename.
  • The dictionary field defines a calculated field that uses an exodus function. Using a psql function is OK.
var filename = "xo_clients", fieldname = "DATE_CREATED";
if (not deleteindex("xo_clients", "DATE_CREATED")) {}; // Cleanup first
if (filename.createindex(fieldname)) ... ok
// or
if (createindex(filename, fieldname)) ...
var= conn.listindex(file_or_filename = "", fieldname = "") Lists secondary indexes in a database or for a db file

Returns: False if the db file or fieldname are given and do not exist

var conn = "exodus";
if (conn.listindex()) ... ok // includes "xo_clients__date_created"
// or
if (listindex()) ... ok
if file.deleteindex(fieldname) Deletes a secondary index for a db file and field name.

Returns: False if the index cannot be deleted for any reason

  • File does not exist
  • Index does not already exists
var file = "xo_clients", fieldname = "DATE_CREATED";
if (file.deleteindex(fieldname)) ... ok
// or
if (deleteindex(file, fieldname)) ...
var= file.lock(key) Places a metaphorical db lock on a particular record given a db file and key.

This is a advisory lock, not a physical lock, since it makes no restriction on the access or modification of data by other connections.

Neither the db file nor the record key need to actually exist since a lock is just a hash of the db file name and key combined.

If another connection attempts to place an identical lock on the same database it will be denied.

Locks can be removed by unlock() or unlockall() or will be automatically removed at the end of a transaction or when the connection is closed.

If the same process attempts to place an identical lock more than once it may be denied (if not in a transaction) or succeed but be ignored (if in a transaction).

Locks can be used to avoid processing a transaction simultaneously with another connection only to have one of them fail due to mutually updating the same records.

Returns::

  • 0: Failure: Another connection has already placed the same lock.
  • "" Failure: The lock has already been placed.
  • 1: Success: A new lock has been placed.
  • 2: Success: The lock has already been placed and the connection is in a transaction.
var file = "xo_clients", key = "1000";
if (file.lock(key)) ... ok
// or
if (lock(file, key)) ...
if file.unlock(key) Removes a db lock placed by the lock function.

Only locks placed on the specified connection can be removed.

Locks cannot be removed while a connection is in a transaction.

Returns: False if the lock is not present in a connection.

var file = "xo_clients", key = "1000";
if (file.unlock(key)) ... ok
// or
if (unlock(file, key)) ...
if file.unlockall() Removes all db locks placed by the lock function in the specified connection.

Locks cannot be removed while in a transaction.

var conn = "exodus";
if (not conn.unlockall()) ...
// or
if (not unlockall(conn)) ...
record.write(file, key) Writes a record into a db file given a unique primary key.

Either inserts a new record or updates an existing record.

Returns: Nothing since writes always succeed.

Throws: VarDBException if the file does not exist. Like most db functions.

Any memory cached record is deleted.

let record = "Client GD^G^20855^30000^1001.00^20855.76539"_var;
let file = "xo_clients", key = "GD001";
//if (not "xo_clients"_var.deleterecord("GD001")) {}; // Cleanup first
record.write(file, key);
// or
write(record on file, key);
if record.read(file, key) Reads a record from a db file for a given key.

file: A db filename or a var opened to a db file.

key: The key of the record to be read.

Returns: False if the key doesnt exist

var: Contains the record if it exists or is unassigned if not.

A special case of the key being "%RECORDS%" results in a fictitious "record" being returned as an FM separated list of all the keys in the db file up to a maximum size of 4Mib, sorted in natural order.

var record;
let file = "xo_clients", key = "GD001";
if (not record.read(file, key)) ... // record -> "Client GD^G^20855^30000^1001.00^20855.76539"_var
// or
if (not read(record from file, key)) ...
if file.deleterecord(key) Deletes a record from a db file given a key.

Returns: False if the key doesnt exist

Any memory cached record is deleted.

deleterecord(in file), a one argument free function, is available that deletes multiple records using the currently active select list.

let file = "xo_clients", key = "GD001";
if (file.deleterecord(key)) ... ok
// or
//if (deleterecord(file, key)) ...
if record.insertrecord(file, key) Inserts a new record in a db file.

Returns: False if the key already exists

Any memory cached record is deleted.

let record = "Client GD^G^20855^30000^1001.00^20855.76539"_var;
let file = "xo_clients", key = "GD001";
if (record.insertrecord(file, key)) ... ok
// or
if (insertrecord(record on file, key)) ...
if record.updaterecord(file, key) Updates an existing record in a db file.

Returns: False if no record with the given key exists.

Any memory cached record is deleted.

let record = "Client GD^G^20855^30000^1001.00^20855.76539"_var;
let file = "xo_clients", key = "GD001";
if (not record.updaterecord(file, key)) ...
// or
if (not updaterecord(record on file, key)) ...
if record.updatekey(key, newkey) Updates the key of an existing record in a db file.

Returns: True if successful or false if no record with the given key exists, or a record with newkey already exists

Any memory cached records of either key are deleted.

let file = "xo_clients", key = "GD001", newkey = "GD002";
if (not file.updatekey(key, newkey)) ...
// or
if (not updatekey(file, newkey, key)) ... // Reverse the above change.
if strvar.readf(file, key, fieldno) "Read field" Same as read() but only returns a specific field number from the record.
var field, file = "xo_clients", key = "GD001", fieldno = 2;
if (not field.readf(file, key, fieldno)) ... // field -> "G"
// or
if (not readf(field from file, key, fieldno)) ...
strvar.writef(file, key, fieldno) "write field" Same as write() but only writes to a specific field number in the record
var field = "f3", file = "xo_clients", key = "1000", fieldno = 3;
field.writef(file, key, fieldno);
// or
writef(field on file, key, fieldno);
record.writec(file, key) "Write cache" Writes a record and key into a memory cached "db file".

The actual database file is NOT updated.

writec() either updates an existing cache record if the key already exists or otherwise inserts a new record into the cache.

It always succeeds so no result code is returned.

Neither the db file nor the record key need to actually exist in the actual db.

let record = "Client XD^X^20855^30000^1001.00^20855.76539"_var;
let file = "xo_clients", key = "XD001";
record.writec(file, key);
// or
writec(record on file, key);
if record.readc(file, key) "Read cache" Same as "read() but first reads from a memory cache.

1. Tries to read from a memory cache. Returns true if successful.

2a. Tries to read from the actual db file and returns false if unsuccessful.

2b. Writes the record and key to the memory cache and returns true.

Cached db file data lives in exodus process memory and is lost when the process terminates or clearcache() is called.

var record;
let file = "xo_clients", key = "XD001";
if (record.readc(file, key)) ... ok
// or
if (readc(record from file, key)) ... ok

// Verify not in actual database file by using read() not readc()
if (read(record from file, key)) abort("Error: " ^ key ^ " should not be in the actual database file"); // error
if dbfile.deletec(key) Deletes a record and key from a memory cached "file".

The actual database file is NOT updated.

Returns: False if the key doesnt exist

var file = "xo_clients", key = "XD001";
if (file.deletec(key)) ... ok
// or
if (deletec(file, key)) ...
conn.clearcache() Clears the memory cache of all records for the given connection

All future cache readc() function calls will be forced to obtain records from the actual database and refresh the cache.

conn.clearcache();
// or
clearcache(conn);
var= strvar.xlate(filename, fieldno, mode) The xlate ("translate") function is similar to readf() but, when called as an exodus program member function, it can be used efficiently with exodus file dictionaries using column names and functions and multivalued data.

Arguments:

strvar: Used as the primary key to lookup a field in a given file and field no or field name.

filename: The db file in which to look up data.

If var key is multivalued then a multivalued field is returned.

fieldno: Determines which field of the record is returned.

  • Integer returns that field number
  • 0 means return the key unchanged.
  • "" means return the whole record.

mode: Determines what is returned if the record does not exist for the given key and file.

  • "X" returns ""
  • "C" returns the key unconverted.
let key = "SB001";
let client_name = key.xlate("xo_clients", 1, "X"); // "Client AAA"
// or
let name_and_type = xlate("xo_clients", key, "NAME_AND_TYPE", "X"); // "Client AAA (A)"
Database Sort/Select
Use Function Description
if dbfile.select(sort_select_command = "") Create an active select list of keys of a database file.

The select(command) function searches and orders database records for subsequent processing given an English language-like command.

The primary job of a database, beyond mere storage and retrieval of information, is to allow rapid searching and ordering of information on demand.

In Exodus, searching and ordering of information is known as "sort/select" and is performed by the select() function.

Executing the select() function creates an "active select list" which can then be consumed by the readnext() function.

dbfile: A opened database file or file name, or an open connection or an empty var for default connections. Subsequent readnext calls must use the same.

sort_select_command: A natural language command using dictionary field names. The command can be blank if a dbfile or filename is given in dbfile or just a file name and all keys will be selected in undefined order.

Example: "select xo_clients with type 'B' and with balance ge 100 by type by name"

Option: "(R)" appended to the sort_select_command acquires the database records as well.

Returns: True if any records are selected or false if none.

Throws: VarDBException in case of any syntax error in the command.

Active select lists created using var.select()'s member function syntax cannot be consumed by the free function form of readnext() and vice versa.

var clients = "xo_clients";
if (clients.select("with type 'B' and with balance ge 100 by type by name"))
    while (clients.readnext(ID))
        println("Client code is {}", ID);
// or
if (select("xo_clients with type 'B' and with balance ge 100 by type by name"))
    while (readnext(ID))
        println("Client code is {}", ID);
if dbfile.selectkeys(keys) Create an active select list from a string of keys.

Similar to select() but creates the list directly from a var.

keys: An FM separated list of keys or key^VM^valueno pairs.

Returns: True if any keys are provided or false if not.

var dbfile = "";
let keys = "A01^B02^C03"_var;
if (dbfile.selectkeys(keys)) ... ok
assert(dbfile.readnext(ID) and ID == "A01");
// or
if (selectkeys(keys)) ... ok
assert(readnext(ID) and ID == "A01");
if dbfile.hasnext() Checks if a select list is active.

dbfile: A file or connection var used in a prior select, selectkeys or getlist function call.

Returns: True if a select list is active and false if not.

If it returns true then a call to readnext() will return a database record key, otherwise not.

var clients = "xo_clients", key;
if (clients.select()) {
    assert(clients.hasnext());
}
// or
if (select("xo_clients")) {
    assert(hasnext());
}
if dbfile.readnext(out key) Acquires and consumes one key from an active select list of database record keys.

dbfile: A file or connection var used in a prior select, selectkeys or getlist function call.

key: Returns the first (next) key present in an active select list or "" if no select list is active.

Returns: True if a list is active and a key is available, false if not.

Each call to readnext consumes one key from the list.

Once all the keys in an active select list have been consumed by calls to readnext, the list becomes inactive.

See select() for example code.


if dbfile.readnext(out key, out valueno) Similar to readnext(key) but multivalued.

If the active list was ordered by multivalued database fields then pairs of key and multivalue number will be available to the readnext function.


if dbfile.readnext(out record, out key, out valueno) Similar to readnext(key) but acquires the database record as well.

record: Returns the next database record from the select list assuming that the select list was created with the (R) option otherwise "" if not.

key: Returns the next database record key in the select list.

valueno: The multivalue number if the select list was ordered on multivalued database record fields or 1 if not.

var clients = "xo_clients";
if (clients.select("with type 'B' and with balance ge 100 by type by name (R)"))
    while (clients.readnext(RECORD, ID, MV))
        println("Code is {}, Name is {}", ID, RECORD.f(1));
// or
DICT = "dict.xo_clients";
if (select("xo_clients with type 'B' and with balance ge 100 by type by name (R)"))
    while (readnext(RECORD, ID, MV))
        println("Code is {}, Name is {}", calculate("CODE"), calculate("NAME"));
dbfile.clearselect() Deactivates an active select list.

dbfile: A file or connection var used in a prior select, selectkeys or getlist function call.

Returns: Nothing

Has no effect if no select list is active for dbfile.

var clients = "xo_clients";
clients.clearselect();
if (not clients.hasnext()) ... ok
// or
clearselect();
if (not hasnext()) ... ok
if dbfile.savelist(listname) Stores an active select list for later retrieval.

dbfile: A file or connection var used in a prior select, selectkeys or getlist function call.

listname: A suitable name that will be required for later retrieval.

Returns: True if saved successfully or false if there was no active list to be saved.

Any existing list with the same name will be overwritten.

Only the remaining unconsumed part of the active select list is saved.

Saved lists are stand-alone and are not tied to specific database files although they usually hold keys related to specific files.

Saved lists can be created from one file and used to access another.

savelist() merely writes an FM separated string of keys as a record in the "lists" database file using the list name as the key of the record.

If a saved list is very long, additional blocks of keys for the same list may be stored with keys like listname*2, listname*3 etc.

Select lists saved in the lists database file may be created, deleted and listed like database records in any other database file.

var clients = "xo_clients";
if (clients.select("with type 'B' by name")) {
}
// or
if (select("xo_clients with type 'B' by name")) {
    if (savelist("mylist")) ... ok
}
if dbfile.getlist(listname) Retrieve and reactivate a saved select list.

dbfile: A file or connection var to be used by subsequent readnext function calls.

listname: The name of an existing list in the "lists" database file, either created by savelist or manually.

Returns: True if the list was successfully retrieved and activated, or false if the list name doesnt exist.

Any currently active select list is replaced.

Retrieving a list does not delete it and a list can be retrieved more than once until specifically deleted.

var file = "";
if (file.getlist("mylist")) {
    while (file.readnext(ID))
        println("Key is {}", ID);
}
// or
if (getlist("mylist")) {
    while (readnext(ID))
        println("Key is {}", ID);
}
if dbfile.deletelist(listname) Delete a saved select list.

dbfile: A file or connection to the desired database.

listname: The name of an existing list in the "lists" database file.

Returns: True if successful or false if the list name doesnt exist.

var conn = "";
if (conn.deletelist("mylist")) ... ok
// or
if (deletelist("mylist")) ...
OS Time/Date
Use Function Description
var= var::date() Number of whole days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.

e.g. was 20821 from 2025-01-01 00:00:00 UTC for 24 hours

let today1 = var::date();
// or
let today2 = date();
var= var::time() Number of whole seconds since last 00:00:00 (UTC).

e.g. 43200 if time is 12:00

Range 0 - 86399 since there are 24*60*60 (86400) seconds in a day.

let now1 = var::time();
// or
let now2 = time();
var= var::ostime() Number of fractional seconds since last 00:00:00 (UTC).

A floating point with approx. nanosecond resolution depending on hardware.

e.g. 23343.704387955 approx. 06:29:03 UTC

let now1 = var::ostime();
// or
let now2 = ostime();
var= var::ostimestamp() Number of fractional days since pick epoch 1967-12-31 00:00:00 UTC. Negative for dates before.

A floating point with approx. nanosecond resolution depending on hardware.

e.g. Was 20821.99998842593 around 2025-01-01 23:59:59 UTC

let now1 = var::ostimestamp();
// or
let now2 = ostimestamp();
var= vardate.ostimestamp(ostime) Construct a timestamp from a date and time
let idate = iconv("2025-01-01", "D"), itime = iconv("23:59:59", "MT");
let ts1 = idate.ostimestamp(itime); // 20821.99998842593
// or
let ts2 = ostimestamp(idate, itime);
var::ossleep(milliseconds) Sleep/pause/wait for a number of milliseconds

Releases the processor if not needed for a period of time or a delay is required.

<em>var:</em>:ossleep(100); // sleep for 100ms
// or
ossleep(100);
var= file_dir_list.oswait(milliseconds) Sleep/pause/wait up to a given number of milliseconds or until any changes occur in an FM delimited list of directories and/or files.

Any terminal input (e.g. a key press) will also terminate the wait.

An FM array of event information is returned. See below.

Multiple events are returned in multivalues.

let v1 = ".^/etc/hosts"_var.oswait(100); /// e.g. "IN_CLOSE_WRITE^/etc^hosts^f"_var
// or
let v2 = oswait(".^/etc/hosts"_var, 100);

Returned array fields

1. Event type codes

2. dirpaths

3. filenames

4. d=dir, f=file

Possible event type codes are as follows:

* IN_CLOSE_WRITE - A file opened for writing was closed

* IN_ACCESS      - Data was read from file

* IN_MODIFY      - Data was written to file

* IN_ATTRIB      - File attributes changed

* IN_CLOSE       - File was closed (read or write)

* IN_MOVED_FROM  - File was moved away from watched directory

* IN_MOVED_TO    - File was moved into watched directory

* IN_MOVE        - File was moved (in or out of directory)

* IN_CREATE      - A file was created in the directory

* IN_DELETE      - A file was deleted from the directory

* IN_DELETE_SELF - Directory or file under observation was deleted

* IN_MOVE_SELF   - Directory or file under observation was moved


OS File I/O
Use Function Description
if osfilevar.osopen(osfilename, utf8 = true) Initialises an os file handle var that can be used for random read and write

osfilename: The name of an existing os file name including path.

utf8: Defaults to true which causes trimming of partial utf-8 Unicode byte sequences from the end of osbreads. For raw untrimmed osbreads pass tf8 = false;

osfilevar: [out] To be used in subsequent calls to osbread() and osbwrite()

Returns: True if successful or false if not possible for any reason. e.g. Target doesnt exist, permissions etc.

The file will be opened for writing if possible otherwise for reading.

let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (oswrite("" on osfilename)) ... ok /// Create an empty os file
var ostempfile;
if (ostempfile.osopen(osfilename)) ... ok
// or
if (osopen(osfilename to ostempfile)) ... ok
if osfilevar.osbwrite(osfilevar, io offset) Writes data to an existing os file starting at a given byte offset (0 based).

See osbread for more info.

let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let text = "aaa=123\nbbb=456\n";
var offset = osfile(osfilename).f(1); /// Size of file therefore append
if (text.osbwrite(osfilename, offset)) ... ok // offset -> 16
// or
if (not osbwrite(text on osfilename, offset)) ...
if osfilevar.osbread(osfilevar, io offset, length) Reads length bytes from an existing os file starting at a given byte offset (0 based).

The osfilevar file handle may either be initialised by osopen or be just be a normal string variable holding the path and name of the os file.

After reading, the offset is updated to point to the correct offset for a subsequent sequential read.

If reading UTF8 data (the default) then the length of data actually returned may be a few bytes shorter than requested in order to be a complete number of UTF-8 code points.

let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
var text, offset = 0;
if (text.osbread(osfilename, offset, 8)) ... ok // text -> "aaa=123\n" // offset -> 8
// or
if (osbread(text from osfilename, offset, 8)) ... ok // text -> "bbb=456\n" // offset -> 16
osfilevar.osclose() Removes an osfilevar handle from the internal memory cache of os file handles. This frees up both exodus process memory and operating system resources.

It is advisable to osclose any file handles after use, regardless of whether they were specifically opened using osopen or not, especially in long running programs. Exodus performs caching of internal os file handles per thread and os file. If not closed, then the operating system will probably not flush deleted files from storage until the process is terminated. This can potentially create an memory issue or file system resource issue especially if osopening/osreading/oswriting many perhaps temporary files in a long running process.

osfilevar.osclose();
// or
osclose(osfilevar);
if strvar.oswrite(osfilename, codepage = "") Create a complete os file from a var.

strvar: The text or data to be used to create the file.

osfilename: Absolute or relative path and filename to be written. Any existing os file is removed first.

codepage: If specified then output is converted from utf-8 to that codepage before being written. Otherwise no conversion is done.

Returns: True if successful or false if not possible for any reason. e.g. Path is not writeable, permissions etc.

let text = "aaa = 123\nbbb = 456";
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (text.oswrite(osfilename)) ... ok
// or
if (oswrite(text on osfilename)) ... ok
if strvar.osread(osfilename, codepage = "") Read a complete os file into a var.

osfilename: Absolute or relative path and filename to be read.

codepage: If specified then input is converted from that codepage to utf-8 after being read. Otherwise no conversion is done.

strvar: [out] is currently set to "" in case of any failure but this is may be changed in a future release to either force var to be unassigned or to leave it untouched. To guarantee future behaviour either add a line 'xxxx.defaulter("")' or set var manually in case osread() returns false. Or use the one argument free function version of osread() which always returns "" in case of failure to read.

Returns: True if successful or false if not possible for any reason. e.g. File doesnt exist, insufficient permissions etc.

var text;
let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (text.osread(osfilename)) ... ok // text -> "aaa = 123\nbbb = 456"
// or
if (osread(text from osfilename)) ... ok
let text2 = osread(osfilename);
if osfile_or_dirname.osrename(new_dirpath_or_filepath) Renames an os file or dir in the OS file system.

The source and target must exist in the same storage device.

osfile_or_dirname: Absolute or relative path and file or dir name to be renamed.

new_dirpath_or_filepath: Will not overwrite an existing os file or dir.

Returns: True if successful or false if not possible for any reason. e.g. Target already exists, path is not writeable, permissions etc.

Uses std::filesystem::rename internally.

let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let to_osfilename = from_osfilename ^ ".bak";
if (not osremove(ostempdir() ^ "xo_gendoc_test.conf.bak")) {}; // Cleanup first

if (from_osfilename.osrename(to_osfilename)) ... ok
// or
if (osrename(from_osfilename, to_osfilename)) ...
if osfile_or_dirname.osmove(to_osfilename) "Moves" an os file or dir within the os file system.

Attempts osrename first, then oscopy followed by osremove original.

osfile_or_dirname: Absolute or relative path and file or dir name to be moved.

to_osfilename: Will not overwrite an existing os file or dir.

Returns: True if successful or false if not possible for any reason. e.g. Source doesnt exist or cannot be accessed, target already exists, source or target is not writeable, permissions, storage space etc.

let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf.bak";
let to_osfilename = from_osfilename.cut(-4);

if (not osremove(ostempdir() ^ "xo_gendoc_test.conf")) {}; // Cleanup first
if (from_osfilename.osmove(to_osfilename)) ... ok
// or
if (osmove(from_osfilename, to_osfilename)) ...
if osfile_or_dirname.oscopy(to_osfilename) Copies an os file or directory recursively within the os file system.

osfile_or_dirname: Absolute or relative path and file or dir name to be copied.

to_osfilename: Will overwrite an existing os file or merge into an existing dir.

Returns: True if successful or false if not possible for any reason. e.g. Source doesnt exist or cannot be accessed, target is not writeable, permissions, storage space, etc.

Uses std::filesystem::copy internally with recursive and overwrite options

let from_osfilename = ostempdir() ^ "xo_gendoc_test.conf";
let to_osfilename = from_osfilename ^ ".bak";

if (from_osfilename.oscopy(to_osfilename)) ... ok;
// or
if (oscopy(from_osfilename, to_osfilename)) ... ok
if osfilename.osremove() Removes/deletes an os file from the OS file system.

Will not remove directories. Use osrmdir() to remove directories

osfilename: Absolute or relative path and file name to be removed.

Returns: True if successful or false if not possible for any reason. e.g. Target doesnt exist, path is not writeable, permissions etc.

let osfilename = ostempdir() ^ "xo_gendoc_test.conf";
if (osfilename.osremove()) ... ok
// or
if (osremove(osfilename)) ...
OS Directories
Use Function Description
var= dirpath.oslist(globpattern = "", mode = 0) Returns: A FM delimited string containing all matching dir entries given a dir path

A glob pattern (e.g. *.conf) can be appended to the path or passed as argument.

var entries1 = "/etc/"_var.oslist("*.cfg"); /// e.g. "adduser.conf^ca-certificates.con^... etc."
// or
var entries2 = oslist("/etc/" "*.conf");
var= dirpath.oslistf(globpattern = "") Same as oslist for files only
var= dirpath.oslistd(globpattern = "") Same as oslist for files only
var= osfile_or_dirpath.osinfo(mode = 0) Returns: Dir info for any dir entry or "" if it doesnt exist

A short string containing size ^ FM ^ modified_time ^ FM ^ modified_time

mode 0 default

mode 1 returns "" if not an os file

mode 2 returns "" if not an os dir

See also osfile() and osdir()

var info1 = "/etc/hosts"_var.osinfo(); /// e.g. "221^20597^78309"_var
// or
var info2 = osinfo("/etc/hosts");
var= osfilename.osfile() Returns: Dir info for a os file

A short string containing size ^ FM ^ modified_time ^ FM ^ modified_time

Alias for osinfo(1)

var fileinfo1 = "/etc/hosts"_var.osfile(); /// e.g. "221^20597^78309"_var
// or
var fileinfo2 = osfile("/etc/hosts");
var= dirpath.osdir() Returns: Dir info for a dir.

A short string containing FM ^ modified_time ^ FM ^ modified_time

Alias for osinfo(2)

var dirinfo1 = "/etc/"_var.osdir(); /// e.g. "^20848^44464"_var
// or
var dirinfo2 = osfile("/etc/");
if dirpath.osmkdir() Makes a new directory and returns true if successful.

Including parent dirs if necessary.

let osdirname = "xo_test/aaa";
if (osrmdir("xo_test/aaa")) {}; // Cleanup first
if (osdirname.osmkdir()) ... ok
// or
if (osmkdir(osdirname)) ...
if var::oscwd(newpath) Changes the current working dir and returns true if successful.
let osdirname = "xo_test/aaa";
if (osdirname.oscwd()) ... ok
// or
if (oscwd(osdirname)) ... ok
if (oscwd("../..")) ... ok /// Change back to avoid errors in following code.
var= var::oscwd() Returns: The current working directory

e.g. "/root/exodus/cli/src/xo_test/aaa"

var cwd1 = var().oscwd();
// or
var cwd2 = oscwd();
if dirpath.osrmdir(evenifnotempty = false) Removes a os dir and returns true if successful.

Optionally even if not empty. Including subdirs.

let osdirname = "xo_test/aaa";
if (osdirname.osrmdir()) ... ok
// or
if (osrmdir(osdirname)) ...
OS Shell/Environment
Use Function Description
if command.osshell() Execute a shell command.

Returns: True if the process terminates with error status 0 and false otherwise.

Append "&>/dev/null" to the command to suppress terminal output.

let cmd = "echo $HOME";
if (cmd.osshell()) ... ok
// or
if (osshell(cmd)) ... ok
if instr.osshellread(oscmd) Same as osshell but captures and returns stdout

Returns: The stout of the shell command.

Append "2>&1" to the command to capture stderr/stdlog output as well.

let cmd = "echo $HOME";
var text;
if (text.osshellread(cmd)) ... ok

// or capturing stdout but ignoring exit status
text = osshellread(cmd);
if outstr.osshellwrite(oscmd) Same as osshell but provides stdin to the process

Returns: True if the process terminates with error status 0 and false otherwise.

Append "&> somefile" to the command to suppress and/or capture output.

let outtext = "abc xyz";
if (outtext.osshellwrite("grep xyz")) ... ok
// or
if (osshellwrite(outtext, "grep xyz")) ... ok
var= var::ostempdir() Returns: The path of the tmp dir

e.g. "/tmp/"

let v1 = var::ostempdir();
// or
let v2 = ostempdir();
var= var::ostempfile() Returns: The name of a new temporary file

e.g. Something like "/tmp/~exoEcLj3C"

var temposfilename1 = var::ostempfile();
// or
var temposfilename2 = ostempfile();
envvalue.ossetenv(envcode) Set the value of an environment variable code
let envcode = "EXO_ABC", envvalue = "XYZ";
envvalue.ossetenv(envcode);
// or
ossetenv(envcode, envvalue);
if envvalue.osgetenv(envcode) Get the value of an environment variable.

envcode: The code of the desired environment variable or "" for all.

Returns: True if set or false if not.

var: If envcode exists: var is set to the value of the environment variable

var: If envcode doesnt exist: var is set to ""

var: If envcode is "": var is set to an dynamic array of all environment variables LIKE CODE1=VALUE1^CODE2=VALUE2...

osgetenv and ossetenv work with a per thread copy of the process environment. This avoids multithreading issues but not actually changing the process environment.

For the actual system environment, see "man environ". extern char **environ; // environ is a pointer to an array of pointers to char* env pairs like xxx=yyy and the last pointer in the array is nullptr.

var envvalue1;
if (envvalue1.osgetenv("HOME")) ... ok // e.g. "/home/exodus"
// or
let envvalue2 = osgetenv("EXO_ABC"); // "XYZ"
var= var::ospid() Get the os process id
let pid1 = var::ospid(); /// e.g. 663237
// or
let pid2 = ospid();
var= var::ostid() Get the os thread process id
let tid1 = var::ostid(); /// e.g. 663237
// or
let tid2 = ostid();
var= var::version() Get the local and remote git branch commit details


Local: doc 2025-03-19 18:15:31 +0000 219cdad8a

Remote: doc 2025-03-17 15:03:00 +0000 958f412f0

https://github.com/exodusdb/exodusdb/commit/219cdad8a

https://github.com/exodusdb/exodusdb/archive/958f412f0.tar.gz

let v1 = var::version();
// or
let v2 = version();
if strvar.setxlocale() Sets the current thread's default locale codepage code

True if successful

if ("en_US.utf8"_var.setxlocale()) ... ok
// or
if (setxlocale("en_US.utf8")) ... ok
var= var.getxlocale() Returns: The current thread's default locale codepage code
let v1 = var().getxlocale(); // "en_US.utf8"
// or
let v2 = getxlocale();
Output
Use Function Description
expr varstr.outputl(prefix = "") Output to stdout with optional prefix.

Appends an NL char.

Is FLUSHED, not buffered.

The raw string bytes are output. No character or byte conversion is performed.

"abc"_var.outputl("xyz = "); /// Sends "xyz = abc\n" to stdout and flushes.
// or
outputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.
expr varstr.output(prefix = "") Same as outputl() but doesnt append an NL char and is BUFFERED, not flushed.
expr varstr.outputt(prefix = "") Same as outputl() but appends a tab char instead of an NL char and is BUFFERED, not flushed.
expr varstr.logputl(prefix = "") Output to stdlog with optional prefix.

Appends an NL char.

Is BUFFERED not flushed.

Any of the six types of field mark chars present are converted to their visible versions,

"abc"_var.logputl("xyz = "); /// Sends "xyz = abc\n" to stdlog buffer and is not flushed.
// or
logputl("xyz = ", "abc");; /// Any number of arguments is allowed. All will be output.
expr varstr.logput(prefix = "") Same as logputl() but doesnt append an NL char.
expr varstr.errputl(prefix = "") Output to stderr with optional prefix.

Appends an NL char.

Is FLUSHED not buffered.

Any of the six types of field mark chars present are converted to their visible versions,

"abc"_var.errputl("xyz = "); /// Sends "xyz = abc\n" to stderr
// or
errputl("xyz = ", "abc"); /// Any number of arguments is allowed. All will be output.
expr varstr.errput(prefix = "") Same as errputl() but doesnt append an NL char and is BUFFERED not flushed.
expr varstr.put(std::ostream& ostream1) Output to a given stream.

Is BUFFERED not flushed.

The raw string bytes are output. No character or byte conversion is performed.


var().osflush() Flush any and all buffered output to stdout and stdlog.
var().osflush();
// or
osflush();
Input
Use Function Description
if var.input(prompt = "") Returns one line of input from stdin.

Returns: True if successful or false if EOF or user pressed Esc or Ctrl+X in a terminal.

var: [in] The default value for terminal input and editing. Ignored if not a terminal.

var: [out] Raw bytes up to but excluding the first new line char. In case of EOF or user pressed Esc or Ctrl+X in a terminal it will be changed to "".

Prompt: If provided, it will be displayed on the terminal.

Multibyte/UTF8 friendly.

// var v1 = "defaultvalue";
// if (v1.input("Prompt:")) ... ok
// or
// var v2 = input();
expr var.inputn(nchars) Get raw bytes from standard input.

Any new line chars are treated like any other bytes.

Care must be taken to handle incomplete UTF8 byte sequences at the end of one block and the beginning of the next block.

Returns: The requested number of bytes or fewer if not available.

nchars:

99 : Get up to 99 bytes or fewer if not available. Caution required with UTF8.

⋅0 : Get all bytes presently available.

⋅1 : Same as keypressed(true). Deprecated.

-1 : Same as keypressed(). Deprecated.


expr var.keypressed(wait = false) Return the code of the current terminal key pressed.

wait: Defaults to false. True means wait for a key to be pressed if not already pressed.

Returns: ASCII or key code defined according to terminal protocol.

Returns: "" if stdin is not a terminal.

e.g. The PgDn key if pressed might return an escape sequence like "\x1b[6~"

It only takes a few µsecs to return false if no key is pressed.

var v1; v1.keypressed();
// or
var v2 = keypressed();
if var().isterminal(arg = 1) Checks if one of stdin, stdout, stderr is a terminal or a file/pipe.

arg: 0 - stdin, 1 - stdout (Default), 2 - stderr.

Returns: True if it is a terminal or false if it is a file or pipe.

Note that if the process is at the start or end of a pipeline, then only stdin or stdout will be a terminal.

The type of stdout terminal can be obtained from the TERM environment variable.

var v1 = var().isterminal(); /// 1 or 0
// or
var v2 = isterminal();
if var().hasinput(milliseconds = 0) Checks if stdin has any bytes available for input.

If no bytes are immediately available, the process sleeps for up to the given number of milliseconds, returning true immediately any bytes become available or false if the period expires without any bytes becoming available.

Returns: True if any bytes are available otherwise false.

It only takes a few µsecs to return false if no bytes are available and no wait time has been requested.


if var().eof() True if stdin is at end of file


if var().echo(on_off = true) Sets terminal echo on or off.

"On" causes all stdin data to be reflected to stdout if stdin is a terminal.

Turning terminal echo off can be used to prevent display of confidential information.

Returns: True if successful.


var().breakon() Install various interrupt handlers.

Automatically called in program/thread initialisation by exodus_main.

SIGINT - Ctrl+C -> "Interrupted. (C)ontinue (Q)uit (B)acktrace (D)ebug (A)bort ?"

SIGHUP - Sets a variable "RELOAD_req" which may be handled or ignored by the program.

SIGTERM - Sets a variable "TERMINATE_req" which may be handled or ignored by the program.


var().breakoff() Disable keyboard interrupt.

Ctrl+C becomes inactive in terminal.


Math/Boolean
Use Function Description
var= varnum.abs() Absolute value
let v1 = -12.34;
let v2 = v1.abs(); // 12.34
// or
let v3 = abs(v1);
var= varnum.pwr(exponent) Power
let v1 = var(2).pwr(8); // 256
// or
let v2 = pwr(2, 8);
varnum.initrnd() Initialise the seed for rnd()

Allows the stream of pseudo random numbers generated by rnd() to be reproduced.

Seeded from std::chrono::high_resolution_clock::now() if the argument is 0;

var(123).initrnd(); /// Set seed to 123
// or
initrnd(123);
var= varnum.rnd() Pseudo random number generator

Returns: a pseudo random integer between 0 and the provided maximum minus 1.

Uses std::mt19937 and std::uniform_int_distribution<int>

let v1 = var(100).rnd(); /// Random 0 to 99
// or
let v2 = rnd(100);
var= varnum.exp() Power of e
let v1 = var(1).exp(); // 2.718281828459045
// or
let v2 = exp(1);
var= varnum.sqrt() Square root
let v1 = var(100).sqrt(); // 10
// or
let v2 = sqrt(100);
var= varnum.sin() Sine of degrees
let v1 = var(30).sin(); // 0.5
// or
let v2 = sin(30);
var= varnum.cos() Cosine of degrees
let v1 = var(60).cos(); // 0.5
// or
let v2 = cos(60);
var= varnum.tan() Tangent of degrees
let v1 = var(45).tan(); // 1
// or
let v2 = tan(45);
var= varnum.atan() Arctangent of degrees
let v1 = var(1).atan(); // 45
// or
let v2 = atan(1);
var= varnum.loge() Natural logarithm

Returns: Floating point ver (double)

let v1 = var(2.718281828459045).loge(); // 1
// or
let v2 = loge(2.718281828459045);
var= varnum.integer() Truncate decimal numbers towards zero

Returns: An integer var

let v1 = var(2.9).integer(); // 2
// or
let v2 = integer(2.9);

var v3 = var(-2.9).integer(); // -2
// or
var v4 = integer(-2.9);
var= varnum.floor() Truncate decimal numbers towards negative

Returns: An integer var

let v1 = var(2.9).floor(); // 2
// or
let v2 = floor(2.9);

var v3 = var(-2.9).floor(); // -3
// or
var v4 = floor(-2.9);
var= varnum.mod(modulus) Modulus function

Identical to C++ % operator only for positive numbers and modulus

Negative denominators are considered as periodic with positiive numbers

Result is between [0, modulus) if modulus is positive

Result is between (modulus, 0] if modulus is negative (symmetric)

Throws: VarDivideByZero if modulus is zero.

Floating point works.

let v1 = var(11).mod(5); // 1
// or
let v2 = mod(11, 5); // 1
let v3 = mod(-11, 5); // 4
let v4 = mod(11, -5); // -4
let v5 = mod(-11, -5); // -1
int= var::setprecision(newprecision) Set the maximum floating point precision.

This is the number of post-decimal point digits to consider for floating point comparison and implicit conversion to strings.

The default precision is 4 which is 0.0001.

NUMBERS AND DIFFERENCES SMALLER THAN 0.0001 ARE TREATED AS ZERO UNLESS PRECISION IS INCREASED.

newprecision: New precision between -307 and 308 inclusive.

Returns: The new precision if successful or the old precision if not.

Not required if using common numbers or using the explicit rounding and formatting functions to convert numbers to strings.

Increasing the precision allows comparing and outputting smaller numbers but creates errors handling large numbers.

Setting precision inside a perform, execute or dictionary function lasts until termination of the function.

See cli/demo_precision for more info.

assert(0.000001_var == 0); /// NOTE WELL: Default precision 4.
let new_precision1 = var::setprecision(6); // 6 // Increase the precision.
// or
let new_precision2 = setprecision(6);
assert(0.000001_var != 0); /// NOTE: Precision 6.
int= var::getprecision() Returns: The current precision setting.

See setprecision() for more info.

let curr_precision1 = var::getprecision();
// or
let curr_precision2 = getprecision();

I/O Conversion Codes

Use Function Description
var= vardate.oconv("D") Date output: Convert internal date format to human readable date or calendar info in text format.

Returns: Human readable date or calendar info, or the original value unconverted if non-numeric.

Flags: See examples below.

Any Dynamic array structure is preserved.

let v1 = 19002;
var v2;
v2 =  v1.oconv( "D"   ) ; //  "09 JAN 2020"   // Default

v2 =  v1.oconv( "D/"  ) ; //  "01/09/2020"    // mm/dd/yyyy - American numeric
v2 =  v1.oconv( "D-"  ) ; //  "01-09-2020"    // mm-dd-yyyy - American numeric

v2 =  v1.oconv( "D/E" ) ; //  "09/01/2020"    // dd/mm/yyyy - International numeric
v2 =  v1.oconv( "D-E" ) ; //  "09-01-2020"    // dd-mm-yyyy - International numeric

v2 =  v1.oconv( "D2"  ) ; //  "09 JAN 20"     // 2 digit year
v2 =  v1.oconv( "D0"  ) ; //  "09 JAN"        // No year

v2 =  v1.oconv( "DS"  ) ; //  "2020 JAN 09"   // yyyy mmm dd - ISO year first, alpha month
v2 =  v1.oconv( "DS-" ) ; //  "2020-01-09"    // yyyy-mm-dd  - ISO year first, numeric month

v2 =  v1.oconv( "DZ"  ) ; //  " 9 JAN 2020"   // Leading 0 become spaces
v2 =  v1.oconv( "DZZ" ) ; //  "9 JAN 2020"    // Leading 0 are suppressed
v2 =  v1.oconv( "D!"  ) ; //  "09JAN2020"     // No separators
v2 =  v1.oconv( "DS-!") ; //  "20200109"      // yyyymmdd packed

v2 =  v1.oconv( "DM"  ) ; //  "1"             // Month number
v2 =  v1.oconv( "DMA" ) ; //  "JANUARY"       // Month name
v2 =  v1.oconv( "DY"  ) ; //  "2020"          // Year number
v2 =  v1.oconv( "DY2" ) ; //  "20"            // Year 2 digits
v2 =  v1.oconv( "DD"  ) ; //  "9"             // Day number in month (1-31)
v2 =  v1.oconv( "DW"  ) ; //  "4"             // Weekday number (1-7)
v2 =  v1.oconv( "DWA" ) ; //  "THURSDAY"      // Weekday name
v2 =  v1.oconv( "DQ"  ) ; //  "1"             // Quarter number
v2 =  v1.oconv( "DJ"  ) ; //  "9"             // Day number in year
v2 =  v1.oconv( "DL"  ) ; //  "31"            // Last day number of month (28-31)

// Dynamic array
let v3 = "12345^12346]12347"_var;
v2 = v3.oconv("D") ; //  "18 OCT 2001^19 OCT 2001]20 OCT 2001"_var

 // or
 v2 =  oconv(v3, "D"   ) ; //  "18 OCT 2001"
var= varstr.iconv("D") Date input: Convert human readable date to internal date format.

Returns: Internal date or "" if the input is an invalid date.

Internal date format is whole days since 1967-12-31 00:00:00 which is day 0.

Any Dynamic array structure is preserved.

// International order "DE"
var v2;
v2 =             oconv(19005, "DE") ; //  "12 JAN 2020"
v2 =    "12/1/2020"_var.iconv("DE") ; //  19005
v2 =    "12 1 2020"_var.iconv("DE") ; //  19005
v2 =    "12-1-2020"_var.iconv("DE") ; //  19005
v2 =  "12 JAN 2020"_var.iconv("DE") ; //  19005
v2 =  "jan 12 2020"_var.iconv("DE") ; //  19005

// American order "D"
v2 =             oconv(19329, "D") ; //  "01 DEC 2020"
v2 =    "12/1/2020"_var.iconv("D") ; //  19329
v2 =   "DEC 1 2020"_var.iconv("D") ; //  19329
v2 =   "1 dec 2020"_var.iconv("D") ; //  19329

// Reverse order
v2 =   "2020/12/1"_var.iconv("DE") ; //  19329
v2 =    "2020-12-1"_var.iconv("D") ; //  19329
v2 =   "2020 1 dec"_var.iconv("D") ; //  19329

//Invalid date
v2 =    "2/29/2021"_var.iconv("D") ; //  ""
v2 =   "29/2/2021"_var.iconv("DE") ; //  ""

// or
v2 = iconv("12/1/2020"_var, "DE") ; //  19005
var= vartime.oconv("MT") Time output: Convert internal time format to human readable time e.g. "10:30:59".

Returns: Human readable time or the original value unconverted if non-numeric.

Conversion code (e.g. "MTHS") is "MT" + flags ...

Flags:

"H" - Show AM/PM otherwise 24 hour clock is used.

"S" - Output seconds

"2" = Ignored (used in iconv)

":" - Any other flag is used as the separator char instead of ":"

Any Dynamic array structure is preserved.

let v1  = 62000;
var v2;
v2 = v1.oconv("MT"  ); // "17:13"      // Default
v2 = v1.oconv("MTH" ); // "05:13PM"    // 'H' flag for AM/PM
v2 = v1.oconv("MTS" ); // "17:13:20"   // 'S' flag for seconds
v2 = v1.oconv("MTHS"); // "05:13:20PM" // Both flags

let v3  = 0;
v2 = v3.oconv("MT"  ); // "00:00"
v2 = v3.oconv("MTH" ); // "12:00AM"
v2 = v3.oconv("MTS" ); // "00:00:00"
v2 = v3.oconv("MTHS"); // "12:00:00AM"

// Dynamic array
let v4  = "61980^62040]62100"_var;
v2 = v4.oconv("MT");    // "17:13^17:14]17:15"_var

// or
v2 = oconv(v1, "MT");    // "17:13"
var= varstr.iconv("MT") Time input: Convert human readable time (e.g. "10:30:59") to internal time format.

Returns: Internal time or "" if the input is an invalid time.

Internal time format is whole seconds since midnight.

Accepts: Two or three groups of digits surrounded and separated by any non-digits char(s).

Any Dynamic array structure is preserved.

var v2;
v2 =       "17:13"_var.iconv( "MT" ) ; //  61980
v2 =     "05:13PM"_var.iconv( "MT" ) ; //  61980
v2 =    "17:13:20"_var.iconv( "MT" ) ; //  62000
v2 =  "05:13:20PM"_var.iconv( "MT" ) ; //  62000

v2 =       "00:00"_var.iconv( "MT" ) ; //  0
v2 =     "12:00AM"_var.iconv( "MT" ) ; //  0     // Midnight
v2 =     "12:00PM"_var.iconv( "MT" ) ; //  43200 // Noon
v2 =    "00:00:00"_var.iconv( "MT" ) ; //  0
v2 =  "12:00:00AM"_var.iconv( "MT" ) ; //  0

// Dynamic array
v2 = "17:13^05:13PM]17:13:20"_var.iconv("MT") ; //  "61980^61980]62000"_var

// or
v2 = iconv("17:13", "MT") ; //  61980
var= varnum.oconv("MD") Number output: Convert internal numbers to external text format after rounding and optional scaling.

Returns: A string or, if the value is not numeric, then no conversion is performed and the original value is returned.

Conversion code (e.g. "MD20") is "MD" or "MC", 1st digit, 2nd digit, flags ...


MD outputs like 123.45 (International)

MC outputs like 123,45 (European)


1st digit = Decimal places to display. Also decimal places to move if 2nd digit not present and no P flag present.

2nd digit = Optional decimal places to move left if P flag not present.


Flags:

"P" - Preserve decimal places. Same as 2nd digit = 0;

"Z" - Zero flag - return "" if zero.

"X" - No conversion - return as is.

"." or "," - Separate thousands depending on MD or MC.

"-" means suffix negatives with "-" and positives with " " (space).

"<" means wrap negatives in "<" and ">" chars.

"C" means suffix negatives with "CR" and positives or zero with "DB".

"D" means suffix negatives with "DB" and positives or zero with "CR".


Any Dynamic array structure is preserved.
var v1 = -1234.567;
var v2;
v2 =  v1.oconv( "MD20"   ) ; //   "-1234.57"
v2 =  v1.oconv( "MD20,"  ) ; //  "-1,234.57"    // , flag
v2 =  v1.oconv( "MC20,"  ) ; //  "-1.234,57"    // MC code
v2 =  v1.oconv( "MD20,-" ) ; //   "1,234.57-"   // - flag
v2 =  v1.oconv( "MD20,<" ) ; //  "<1,234.57>"   // < flag
v2 =  v1.oconv( "MD20,C" ) ; //   "1,234.57CR"  // C flag
v2 =  v1.oconv( "MD20,D" ) ; //   "1,234.57DB"  // D flag

// Dynamic array
var v3 = "1.1^2.1]2.2"_var;
v2 =  v3.oconv( "MD20"   ) ; //  "1.10^2.10]2.20"_var

// or
v2 =  oconv(v1, "MD20"   ) ; //   "-1234.57"
var= var.oconv("LRC") Text justification: Left, right and center. Padding and truncating. See Procrustes.

e.g. "L#10", "R#10", "C#10"

Useful when outputting to terminal devices where spaces are used for alignment.

Dynamic array structure is preserved.

ASCII only.

var v2;
v2 =      "abcde"_var.oconv( "L#3" ) ; //  "abc"  // Truncating
v2 =      "abcde"_var.oconv( "R#3" ) ; //  "cde"
v2 =      "abcde"_var.oconv( "C#3" ) ; //  "abc"

v2 =      "ab"_var.oconv( "L#6" ) ; //  "ab␣␣␣␣"  // Padding
v2 =      "ab"_var.oconv( "R#6" ) ; //  "␣␣␣␣ab"
v2 =      "ab"_var.oconv( "C#6" ) ; //  "␣␣ab␣␣"

v2 =       var(42).oconv( "L(0)#5" ) ; //  "42000"  // Padding char (x)
v2 =       var(42).oconv( "R(0)#5" ) ; //  "00042"
v2 =       var(42).oconv( "C(0)#5" ) ; //  "04200"
v2 =       var(42).oconv( "C(0)#5" ) ; //  "04200"

// Dynamic array
v2 =       "f1^v1]v2"_var.oconv("L(_)#5") ; //  "f1___^v1___]v2___"_var

// Fail for non-ASCII (Should be 5)
v2 =      "🐱"_var.oconv("L#5").textwidth() ; //  3

// or
v2 =      oconv("abcd", "L#3" ) ; //  "abc"
var= varstr.oconv("T") Text folding and justification.

e.g. T#20

Useful when outputting to terminal devices where spaces are used for alignment.

Splits text into multiple fixed length lines by inserting spaces and TM chars.

ASCII only.

let v1 = "Have a nice day";
v2 =   v1.oconv("T#10") ; //  "Have a␣␣␣␣|nice day␣␣"_var
// or
v2 =  oconv(v1, "T#10") ; //  "Have a␣␣␣␣|nice day␣␣"_var
expr varnum.oconv("MR") Character replacement

e.g. MRU

let v1 = "123/abC.";
var v2;
v2 = v1.oconv("MRL") ; //  "123/abc." // lcase
v2 = v1.oconv("MRU") ; //  "123/ABC." // ucase
v2 = v1.oconv("MRT") ; //  "123/Abc." // tcase
v2 = v1.oconv("MRN") ; //  "123"      // Return only digits
v2 = v1.oconv("MRA") ; //  "abC"      // Return only alphabetic
v2 = v1.oconv("MRB") ; //  "123abC"   // Return only alphanumeric
v2 = v1.oconv("MR/N") ; //  "/abC."   // Remove digits
v2 = v1.oconv("MR/A") ; //  "123/."   // Remove alphabetic
v2 = v1.oconv("MR/B") ; //  "/."      // Remove alphanumeric
var= varstr.oconv("HEX") Convert the chars of a string to a string of pairs of hexadecimal digits.

varstr: A string. Numbers will be converted to strings for conversion. 1.2 -> "1.2" -> hex "312E32"

Dynamic array structure is not preserved. Field marks are converted to HEX as for all other bytes.

The size of the output is always precisely double that of the input.

This function is the exact inverse of iconv("HEX").

// var v2;
v2 =      "ab01"_var.oconv( "HEX" ) ; //  "61" "62" "30" "31"
v2 =  "\xff\x00"_var.oconv( "HEX" ) ; //  "FF" "00"            // Any bytes are ok.
v2 =         var(10).oconv( "HEX" ) ; //  "31" "30"            // Uses ASCII string equivalent of 10 i.e. "10".
v2 =    "\u0393"_var.oconv( "HEX" ) ; //  "CE" "93"            // Greek capital Gamma in UTF8 bytes.
v2 =      "a^]b"_var.oconv( "HEX" ) ; //  "61" "1E" "1D" "62"  // Field and value marks.
// or
v2 =       oconv("ab01"_var, "HEX") ; //  "61" "62" "30" "31"
var= varstr.iconv("HEX") Convert a string of pairs of hexadecimal digits to a string of chars.

varstr: Must be a string of only hex digits 0-9, a-f or A-F.

Returns: A string if all input was hex digits otherwise "".

Dynamic array structure is not preserved. Any field marks prevent conversion.

This function is the exact inverse of oconv("HEX").

After prefixing a "0" to an odd sized input, the size of the output is always precisely half that of the input.


var= varnum.oconv("MX") Convert number to hexadecimal string.

"MX": Convert and trim leading zeros e.g. oconv(1025, "MX") -> "401"

"MXn": Pad with up to n leading zeros but do not truncate. e.g. oconv(1025, "MX8") -> "00000401"

"MXnT": Pad and truncate to n characters. e.g. oconv(1025, "MX2") -> "01"

"n": Width. 0-9, A-G = 10 - 16.

varnum: A number or dynamic array of numbers. Floating point numbers are rounded to integers before conversion.

Returns: A string of hexadecimal digits or a dynamic array of the same. Elements that are not numeric are left untouched and unconverted.

Dynamic array structure is preserved.

Negative numbers are treated as unsigned 8 byte integers (uint64).

0 -> "00"

1 -> "01"

15 -> "0F"

-1 -> "FFFF" "FFFF" "FFFF" "FFFF" (8 x "FF")

This function is a near inverse of iconv("MX").

let v1 = var("14.5]QQ]65535").oconv("MX"); // "F]QQ]FFFF"_var
// or
let v2 = oconv("14.5]QQ]65535"_var, "MX");
var= varstr.iconv("MX") Convert hexadecimal string to number.

varstr: A string or dynamic array of up to 16 hex digits: 0-9, a-f, A-F.

Returns: An integer or dynamic array of integers. Invalid elements are converted to "".

Dynamic array structure is preserved.

Hex strings are converted to unsigned 8 byte integers (uint64)

Leading zeros are ignored.

"0" -> 0

"00" -> 0

"1" -> 1

Hex "FFFFFFFFFFFFFFFF" (8 x "FF") -> -1.

Hex "7FFFFFFFFFFFFFFF" is the maximum positive integer: 9223372036854775805.

Hex "8000000000000000" is the maximum negative integer: -9223372036854775808.

This function is the exact inverse of oconv("MX").

let v1 = "F]QQ]FFFF"_var.iconv("MX"); // "15]]65535"_var
// or
let v2 = iconv("F]QQ]FFFF", "MX");
var= varnum.oconv("MB") Number to binary format: Convert number to strings of 1s and 0s

varnum: If not numeric then no conversion is performed and the original value is returned.

let v1 = var(255).oconv("MB"); // 1111'1111
// or
let v2 = oconv(255, "MB");
var= varstr.oconv("TX") Convert dynamic arrays to standard text format.

Useful for using text editors on dynamic arrays.

FMs -> \n after escaping any embedded NL

VMs -> literal "\" \n

SMs -> literal "\\" \n

etc.

// 1. Backslash in text remains backslash

let v1 = var(_BS).oconv("TX");     // _BS

// 2. Literal "\n" -> literal "\\n" (Double escape any escaped NL chars)

let v2 = var(_BS "n").oconv("TX"); // _BS _BS "n"

// 3. \n becomes literal "\n" (Single escape any NL chars)

let v3 = var(_NL).oconv("TX");     // _BS "n"

// 4. FM -> \n

let v4 = "f1^f2"_var.oconv("TX");  // "f1" _NL "f2"

// 5. VM -> "\" \n

let v5 = "v1]v2"_var.oconv("TX");  // "v1" _BS _NL "v2"

// 6. SM -> "\\" \n

let v6 = "s1}s1"_var.oconv("TX");  // "s2" _BS _BS _NL "s2"

// 7. TM -> "\\\" \n

let v7 = "t1|t2"_var.oconv("TX");  // "t1" _BS _BS _BS _NL "t2"

// 8. ST -> "\\\\" \n

let v8 = "st1~st2"_var.oconv("TX"); // "st1" _BS _BS _BS _BS _NL "st2"
var= varstr.iconv("TX") Convert standard text format to dynamic array.

Reverse of oconv("TX") above.