////////////////////////////////////////////////////////////////////// // LibFile: strings.scad // String manipulation and formatting functions. // Includes: // include // FileGroup: Data Management // FileSummary: String manipulation functions. // FileFootnotes: STD=Included in std.scad ////////////////////////////////////////////////////////////////////// // Section: Extracting substrings // Function: substr() // Synopsis: Returns a substring from a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // newstr = substr(str, [pos], [len]); // Description: // Returns a substring from a string start at position `pos` with length `len`, or // if `len` isn't given, the rest of the string. // Arguments: // str = string to operate on // pos = starting index of substring, or vector of first and last position. Default: 0 // len = length of substring, or omit it to get the rest of the string. If len is zero or less then the emptry string is returned. // Example: // substr("abcdefg",3,3); // Returns "def" // substr("abcdefg",2); // Returns "cdefg" // substr("abcdefg",len=3); // Returns "abc" // substr("abcdefg",[2,4]); // Returns "cde" // substr("abcdefg",len=-2); // Returns "" function substr(str, pos=0, len=undef) = is_list(pos) ? _substr(str, pos[0], pos[1]-pos[0]+1) : len == undef ? _substr(str, pos, len(str)-pos) : _substr(str,pos,len); function _substr(str,pos,len,substr="") = len <= 0 || pos>=len(str) ? substr : _substr(str, pos+1, len-1, str(substr, str[pos])); // Function: suffix() // Synopsis: Returns the last few characters of a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // newstr = suffix(str,len); // Description: // Returns the last `len` characters from the input string `str`. // If `len` is longer than the length of `str`, then the entirety of `str` is returned. // Arguments: // str = The string to get the suffix of. // len = The number of characters of suffix to get. function suffix(str,len) = len>=len(str)? str : substr(str, len(str)-len,len); // Section: String Searching // Function: str_find() // Synopsis: Finds a substring in a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // ind = str_find(str,pattern,[last=],[all=],[start=]); // Description: // Searches input string `str` for the string `pattern` and returns the index or indices of the matches in `str`. // By default `str_find()` returns the index of the first match in `str`. If `last` is true then it returns the index of the last match. // If the pattern is the empty string the first match is at zero and the last match is the last character of the `str`. // If `start` is set then the search begins at index start, working either forward and backward from that position. If you set `start` // and `last` is true then the search will find the pattern if it begins at index `start`. If no match exists, returns `undef`. // If you set `all` to true then `str_find()` returns all of the matches in a list, or an empty list if there are no matches. // Arguments: // str = String to search. // pattern = string pattern to search for // --- // last = set to true to return the last match. Default: false // all = set to true to return all matches as a list. Overrides last. Default: false // start = index where the search starts // Example: // str_find("abc123def123abc","123"); // Returns 3 // str_find("abc123def123abc","b"); // Returns 1 // str_find("abc123def123abc","1234"); // Returns undef // str_find("abc",""); // Returns 0 // str_find("abc123def123", "123", start=4); // Returns 9 // str_find("abc123def123abc","123",last=true); // Returns 9 // str_find("abc123def123abc","b",last=true); // Returns 13 // str_find("abc123def123abc","1234",last=true); // Returns undef // str_find("abc","",last=true); // Returns 3 // str_find("abc123def123", "123", start=8, last=true)); // Returns 3 // str_find("abc123def123abc","123",all=true); // Returns [3,9] // str_find("abc123def123abc","b",all=true); // Returns [1,13] // str_find("abc123def123abc","1234",all=true); // Returns [] // str_find("abc","",all=true); // Returns [0,1,2] function str_find(str,pattern,start=undef,last=false,all=false) = all? _str_find_all(str,pattern) : let( start = first_defined([start,last?len(str)-len(pattern):0]) ) pattern==""? start : last? _str_find_last(str,pattern,start) : _str_find_first(str,pattern,len(str)-len(pattern),start); function _str_find_first(str,pattern,max_sindex,sindex) = sindex<=max_sindex && !substr_match(str,sindex, pattern)? _str_find_first(str,pattern,max_sindex,sindex+1) : (sindex <= max_sindex ? sindex : undef); function _str_find_last(str,pattern,sindex) = sindex>=0 && !substr_match(str,sindex, pattern)? _str_find_last(str,pattern,sindex-1) : (sindex >=0 ? sindex : undef); function _str_find_all(str,pattern) = pattern == "" ? count(len(str)) : [for(i=[0:1:len(str)-len(pattern)]) if (substr_match(str,i,pattern)) i]; // Function: substr_match() // Synopsis: Returns true if the string `pattern` matches the string `str`. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage // bool = substr_match(str,start,pattern); // Description: // Returns true if the string `pattern` matches the string `str` starting // at `str[start]`. If the string is too short for the pattern, or // `start` is out of bounds – either negative or beyond the end of the // string – then substr_match returns false. // Arguments: // str = String to search // start = Starting index for search in str // pattern = String pattern to search for // Examples: // substr_match("abcde",2,"cd"); // Returns true // substr_match("abcde",2,"cx"); // Returns false // substr_match("abcde",2,"cdef"); // Returns false // substr_match("abcde",-2,"cd"); // Returns false // substr_match("abcde",19,"cd"); // Returns false // substr_match("abc",1,""); // Returns true // // This is carefully optimized for speed. Precomputing the length // cuts run time in half when the string is long. Two other string // comparison methods were slower. function substr_match(str,start,pattern) = len(str)-start = len(list)-1 ? (_i==len(list) ? _result : str(_result,list[_i])) : str_join(list,sep,_i+1,str(_result,list[_i],sep)); // Function: str_strip() // Synopsis: Strips given leading and trailing characters from a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // str = str_strip(s,c,[start],[end]); // Description: // Takes a string `s` and strips off all leading and/or trailing characters that exist in string `c`. // By default strips both leading and trailing characters. If you set start or end to true then // it will strip only the leading or trailing characters respectively. If you set start // or end to false then it will strip only lthe trailing or leading characters. // Arguments: // s = The string to strip leading or trailing characters from. // c = The string of characters to strip. // start = if true then strip leading characters // end = if true then strip trailing characters // Example: // str_strip("--##--123--##--","#-"); // Returns: "123" // str_strip("--##--123--##--","-"); // Returns: "##--123--##" // str_strip("--##--123--##--","#"); // Returns: "--##--123--##--" // str_strip("--##--123--##--","#-",end=true); // Returns: "--##--123" // str_strip("--##--123--##--","-",end=true); // Returns: "--##--123--##" // str_strip("--##--123--##--","#",end=true); // Returns: "--##--123--##--" // str_strip("--##--123--##--","#-",start=true); // Returns: "123--##--" // str_strip("--##--123--##--","-",start=true); // Returns: "##--123--##--" // str_strip("--##--123--##--","#",start=true); // Returns: "--##--123--##--" function _str_count_leading(s,c,_i=0) = (_i>=len(s)||!in_list(s[_i],[each c]))? _i : _str_count_leading(s,c,_i=_i+1); function _str_count_trailing(s,c,_i=0) = (_i>=len(s)||!in_list(s[len(s)-1-_i],[each c]))? _i : _str_count_trailing(s,c,_i=_i+1); function str_strip(s,c,start,end) = let( nstart = (is_undef(start) && !end) ? true : start, nend = (is_undef(end) && !start) ? true : end, startind = nstart ? _str_count_leading(s,c) : 0, endind = len(s) - (nend ? _str_count_trailing(s,c) : 0) ) substr(s,startind, endind-startind); // Function: str_pad() // Synopsis: Pads a string to a given length. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // padded = str_pad(str, length, char, [left]); // Description: // Pad the given string `str` with to length `length` with the specified character, // which must be a length 1 string. If left is true then pad on the left, otherwise // pad on the right. If the string is longer than the specified length the full string // is returned unchanged. // Arguments: // str = string to pad // length = length to pad to // char = character to pad with. Default: " " (space) // left = if true, pad on the left side. Default: false function str_pad(str,length,char=" ",left=false) = assert(is_str(str)) assert(is_str(char) && len(char)==1, "char must be a single character string") assert(is_bool(left)) let( padding = str_join(repeat(char,length-len(str))) ) left ? str(padding,str) : str(str,padding); // Function: str_replace_char() // Synopsis: Replace given chars in a string with another substring. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip() // Usage: // newstr = str_replace_char(str, char, replace); // Description: // Replace every occurence of `char` in the input string with the string `replace` which // can be any string. function str_replace_char(str,char,replace) = assert(is_str(str)) assert(is_str(char) && len(char)==1, "Search pattern 'char' must be a single character string") assert(is_str(replace)) str_join([for(c=str) c==char ? replace : c]); // Function: downcase() // Synopsis: Lowercases all characters in a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip(), upcase(), downcase() // Usage: // newstr = downcase(str); // Description: // Returns the string with the standard ASCII upper case letters A-Z replaced // by their lower case versions. // Arguments: // str = String to convert. // Example: // downcase("ABCdef"); // Returns "abcdef" function downcase(str) = str_join([for(char=str) let(code=ord(char)) code>=65 && code<=90 ? chr(code+32) : char]); // Function: upcase() // Synopsis: Uppercases all characters in a string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip(), upcase(), downcase() // Usage: // newstr = upcase(str); // Description: // Returns the string with the standard ASCII lower case letters a-z replaced // by their upper case versions. // Arguments: // str = String to convert. // Example: // upcase("ABCdef"); // Returns "ABCDEF" function upcase(str) = str_join([for(char=str) let(code=ord(char)) code>=97 && code<=122 ? chr(code-32) : char]); // Section: Random strings // Function: rand_str() // Synopsis: Create a randomized string. // Topics: Strings // See Also: suffix(), str_find(), substr_match(), starts_with(), ends_with(), str_split(), str_join(), str_strip(), upcase(), downcase() // Usage: // str = rand_str(n, [charset], [seed]); // Description: // Produce a random string of length `n`. If you give a string `charset` then the // characters of the random string are drawn from that list, weighted by the number // of times each character appears in the list. If you do not give a character set // then the string is generated with characters ranging from 0 to z (based on // character code). function rand_str(n, charset, seed) = is_undef(charset)? str_join([for(c=rand_int(48,122,n,seed)) chr(c)]) : str_join([for(i=rand_int(0,len(charset)-1,n,seed)) charset[i]]); // Section: Parsing strings into numbers // Function: parse_int() // Synopsis: Parse an integer from a string. // Topics: Strings // See Also: parse_int(), parse_float(), parse_frac(), parse_num() // Usage: // num = parse_int(str, [base]) // Description: // Converts a string into an integer with any base up to 16. Returns NaN if // conversion fails. Digits above 9 are represented using letters A-F in either // upper case or lower case. // Arguments: // str = String to convert. // base = Base for conversion, from 2-16. Default: 10 // Example: // parse_int("349"); // Returns 349 // parse_int("-37"); // Returns -37 // parse_int("+97"); // Returns 97 // parse_int("43.9"); // Returns nan // parse_int("1011010",2); // Returns 90 // parse_int("13",2); // Returns nan // parse_int("dead",16); // Returns 57005 // parse_int("CEDE", 16); // Returns 52958 // parse_int(""); // Returns 0 function parse_int(str,base=10) = str==undef ? undef : len(str)==0 ? 0 : let(str=downcase(str)) str[0] == "-" ? -_parse_int_recurse(substr(str,1),base,len(str)-2) : str[0] == "+" ? _parse_int_recurse(substr(str,1),base,len(str)-2) : _parse_int_recurse(str,base,len(str)-1); function _parse_int_recurse(str,base,i) = let( digit = search(str[i],"0123456789abcdef"), last_digit = digit == [] || digit[0] >= base ? (0/0) : digit[0] ) i==0 ? last_digit : _parse_int_recurse(str,base,i-1)*base + last_digit; // Function: parse_float() // Synopsis: Parse a float from a string. // Topics: Strings // See Also: parse_int(), parse_float(), parse_frac(), parse_num() // Usage: // num = parse_float(str); // Description: // Converts a string to a floating point number. Returns NaN if the // conversion fails. // Arguments: // str = String to convert. // Example: // parse_float("44"); // Returns 44 // parse_float("3.4"); // Returns 3.4 // parse_float("-99.3332"); // Returns -99.3332 // parse_float("3.483e2"); // Returns 348.3 // parse_float("-44.9E2"); // Returns -4490 // parse_float("7.342e-4"); // Returns 0.0007342 // parse_float(""); // Returns 0 function parse_float(str) = str==undef ? undef : len(str) == 0 ? 0 : in_list(str[1], ["+","-"]) ? (0/0) : // Don't allow --3, or +-3 str[0]=="-" ? -parse_float(substr(str,1)) : str[0]=="+" ? parse_float(substr(str,1)) : let(esplit = str_split(str,"eE") ) len(esplit)==2 ? parse_float(esplit[0]) * pow(10,parse_int(esplit[1])) : let( dsplit = str_split(str,["."])) parse_int(dsplit[0])+parse_int(dsplit[1])/pow(10,len(dsplit[1])); // Function: parse_frac() // Synopsis: Parse a float from a fraction string. // Topics: Strings // See Also: parse_int(), parse_float(), parse_frac(), parse_num() // Usage: // num = parse_frac(str,[mixed=],[improper=],[signed=]); // Description: // Converts a string fraction to a floating point number. A string fraction has the form `[-][# ][#/#]` where each `#` is one or more of the // digits 0-9, and there is an optional sign character at the beginning. // The full form is a sign character and an integer, followed by exactly one space, followed by two more // integers separated by a "/" character. The leading integer and // space can be omitted or the trailing fractional part can be omitted. If you set `mixed` to false then the leading integer part is not // accepted and the input must include a slash. If you set `improper` to false then the fractional part must be a proper fraction, where // the numerator is smaller than the denominator. If you set `signed` to false then the leading sign character is not permitted. // The empty string evaluates to zero. Any invalid string evaluates to NaN. // Arguments: // str = String to convert. // --- // mixed = set to true to accept mixed fractions, false to reject them. Default: true // improper = set to true to accept improper fractions, false to reject them. Default: true // signed = set to true to accept a leading sign character, false to reject. Default: true // Example: // parse_frac("3/4"); // Returns 0.75 // parse_frac("-77/9"); // Returns -8.55556 // parse_frac("+1/3"); // Returns 0.33333 // parse_frac("19"); // Returns 19 // parse_frac("2 3/4"); // Returns 2.75 // parse_frac("-2 12/4"); // Returns -5 // parse_frac(""); // Returns 0 // parse_frac("3/0"); // Returns inf // parse_frac("0/0"); // Returns nan // parse_frac("-77/9",improper=false); // Returns nan // parse_frac("-2 12/4",improper=false); // Returns nan // parse_frac("-2 12/4",signed=false); // Returns nan // parse_frac("-2 12/4",mixed=false); // Returns nan // parse_frac("2 1/4",mixed=false); // Returns nan function parse_frac(str,mixed=true,improper=true,signed=true) = str == undef ? undef : len(str)==0 ? 0 : str[0]==" " ? NAN : signed && str[0]=="-" ? -parse_frac(substr(str,1),mixed=mixed,improper=improper,signed=false) : signed && str[0]=="+" ? parse_frac(substr(str,1),mixed=mixed,improper=improper,signed=false) : mixed && (str_find(str," ")!=undef || str_find(str,"/")==undef)? // Mixed allowed and there is a space or no slash let(whole = str_split(str,[" "])) _parse_int_recurse(whole[0],10,len(whole[0])-1) + parse_frac(whole[1], mixed=false, improper=improper, signed=false) : let(split = str_split(str,"/")) len(split)!=2 ? NAN : let( numerator = _parse_int_recurse(split[0],10,len(split[0])-1), denominator = _parse_int_recurse(split[1],10,len(split[1])-1) ) !improper && numerator>=denominator? NAN : denominator<0 ? NAN : numerator/denominator; // Function: parse_num() // Synopsis: Parse a float from a decimal or fraction string. // Topics: Strings // See Also: parse_int(), parse_float(), parse_frac(), parse_num() // Usage: // num = parse_num(str); // Description: // Converts a string to a number. The string can be either a fraction (two integers separated by a "/") or a floating point number. // Returns NaN if the conversion fails. // Example: // parse_num("3/4"); // Returns 0.75 // parse_num("3.4e-2"); // Returns 0.034 function parse_num(str) = str == undef ? undef : let( val = parse_frac(str) ) val == val ? val : parse_float(str); // Section: Formatting numbers into strings // Function: format_int() // Synopsis: Formats an integer into a string, with possible leading zeros. // Topics: Strings // See Also: format_int(), format_fixed(), format_float(), format() // Usage: // str = format_int(i, [mindigits]); // Description: // Formats an integer number into a string. This can handle larger numbers than `str()`. // Arguments: // i = The integer to make a string of. // mindigits = If the number has fewer than this many digits, pad the front with zeros until it does. Default: 1. // Example: // str(123456789012345); // Returns "1.23457e+14" // format_int(123456789012345); // Returns "123456789012345" // format_int(-123456789012345); // Returns "-123456789012345" function format_int(i,mindigits=1) = i<0? str("-", format_int(-i,mindigits)) : let(i=floor(i), e=floor(log(i))) i==0? str_join([for (j=[0:1:mindigits-1]) "0"]) : str_join( concat( [for (j=[0:1:mindigits-e-2]) "0"], [for (j=[e:-1:0]) str(floor(i/pow(10,j)%10))] ) ); // Function: format_fixed() // Synopsis: Formats a float into a string with a fixed number of decimal places. // Topics: Strings // See Also: format_int(), format_fixed(), format_float(), format() // Usage: // s = format_fixed(f, [digits]); // Description: // Given a floating point number, formats it into a string with the given number of digits after the decimal point. // Arguments: // f = The floating point number to format. // digits = The number of digits after the decimal to show. Default: 6 function format_fixed(f,digits=6) = assert(is_int(digits)) assert(digits>0) is_list(f)? str("[",str_join(sep=", ", [for (g=f) format_fixed(g,digits=digits)]),"]") : str(f)=="nan"? "nan" : str(f)=="inf"? "inf" : f<0? str("-",format_fixed(-f,digits=digits)) : assert(is_num(f)) let( sc = pow(10,digits), scaled = floor(f * sc + 0.5), whole = floor(scaled/sc), part = floor(scaled-(whole*sc)) ) str(format_int(whole),".",format_int(part,digits)); // Function: format_float() // Synopsis: Formats a float into a string with a given number of significant digits. // Topics: Strings // See Also: format_int(), format_fixed(), format_float(), format() // Usage: // str = format_float(f,[sig]); // Description: // Formats the given floating point number `f` into a string with `sig` significant digits. // Strips trailing `0`s after the decimal point. Strips trailing decimal point. // If the number can be represented in `sig` significant digits without a mantissa, it will be. // If given a list of numbers, recursively prints each item in the list, returning a string like `[3,4,5]` // Arguments: // f = The floating point number to format. // sig = The number of significant digits to display. Default: 12 // Example: // format_float(PI,12); // Returns: "3.14159265359" // format_float([PI,-16.75],12); // Returns: "[3.14159265359, -16.75]" function format_float(f,sig=12) = assert(is_int(sig)) assert(sig>0) is_list(f)? str("[",str_join(sep=", ", [for (g=f) format_float(g,sig=sig)]),"]") : f==0? "0" : str(f)=="nan"? "nan" : str(f)=="inf"? "inf" : f<0? str("-",format_float(-f,sig=sig)) : assert(is_num(f)) let( e = floor(log(f)), mv = sig - e - 1 ) mv == 0? format_int(floor(f + 0.5)) : (e<-sig/2||mv<0)? str(format_float(f*pow(10,-e),sig=sig),"e",e) : let( ff = f + pow(10,-mv)*0.5, whole = floor(ff), part = floor((ff-whole) * pow(10,mv)) ) str_join([ str(whole), str_strip(end=true, str_join([ ".", format_int(part, mindigits=mv) ]), "0." ) ]); /// Function: _format_matrix() /// Usage: /// _format_matrix(M, [sig], [sep], [eps]) /// Description: /// Convert a numerical matrix into a matrix of strings where every column /// is the same width so it will display in neat columns when printed. /// Values below eps will display as zero. The matrix can include nans, infs /// or undefs and the rows can be different lengths. /// Arguments: /// M = numerical matrix to convert /// sig = significant digits to display. Default: 4 // sep = number of spaces between columns or a text string to separate columns. Default: 1 /// eps = values smaller than this are shown as zero. Default: 1e-9 function _format_matrix(M, sig=4, sep=1, eps=1e-9) = let( figure_dash = chr(8210), space_punc = chr(8200), space_figure = chr(8199), sep = is_num(sep) && sep>=0 ? str_join(repeat(space_figure,sep)) : is_string(sep) ? sep : assert(false,"Invalid separator: must be a string or positive integer giving number of spaces"), strarr= [for(row=M) [for(entry=row) let( text = is_undef(entry) ? "und" : !is_num(entry) ? str_join(repeat(figure_dash,2)) : abs(entry) < eps ? "0" // Replace hyphens with figure dashes : str_replace_char(format_float(entry, sig),"-",figure_dash), have_dot = is_def(str_find(text, ".")) ) // If the text lacks a dot we add a space the same width as a dot to // maintain alignment str(have_dot ? "" : space_punc, text) ] ], maxwidth = max([for(row=M) len(row)]), // Find maximum length for each column. Some entries in a column may be missing. maxlen = [for(i=[0:1:maxwidth-1]) max( [for(j=idx(M)) i>=len(M[j]) ? 0 : len(strarr[j][i])]) ], padded = [for(row=strarr) str_join([for(i=idx(row)) let( extra = ends_with(row[i],"inf") ? 1 : 0 ) str_pad(row[i],maxlen[i]+extra,space_figure,left=true)],sep=sep)] ) padded; // Function: format() // Synopsis: Formats multiple values into a string with a given format. // Topics: Strings // See Also: format_int(), format_fixed(), format_float(), format() // Usage: // s = format(fmt, vals); // Description: // Given a format string and a list of values, inserts the values into the placeholders in the format string and returns it. // Formatting placeholders have the following syntax: // - A leading `{` character to show the start of the placeholder. // - An integer index into the `vals` list to specify which value should be formatted at that place. If not given, the first placeholder will use index `0`, the second will use index `1`, etc. // - An optional `:` separator to indicate that what follows if a formatting specifier. If not given, no formatting info follows. // - An optional `-` character to indicate that the value should be left justified if the value needs field width padding. If not given, right justification is used. // - An optional `0` character to indicate that the field should be padded with `0`s. If not given, spaces will be used for padding. // - An optional integer field width, which the value should be padded to. If not given, no padding will be performed. // - An optional `.` followed by an integer precision length, for specifying how many digits to display in numeric formats. If not give, 6 digits is assumed. // - An optional letter to indicate the formatting style to use. If not given, `s` is assumed, which will do it's generic best to format any data type. // - A trailing `}` character to show the end of the placeholder. // . // Formatting styles, and their effects are as follows: // - `s`: Converts the value to a string with `str()` to display. This is very generic. // - `i` or `d`: Formats numeric values as integers. // - `f`: Formats numeric values with the precision number of digits after the decimal point. NaN and Inf are shown as `nan` and `inf`. // - `F`: Formats numeric values with the precision number of digits after the decimal point. NaN and Inf are shown as `NAN` and `INF`. // - `g`: Formats numeric values with the precision number of total significant digits. NaN and Inf are shown as `nan` and `inf`. Mantissas are demarked by `e`. // - `G`: Formats numeric values with the precision number of total significant digits. NaN and Inf are shown as `NAN` and `INF`. Mantissas are demarked by `E`. // - `b`: If the value logically evaluates as true, it shows as `true`, otherwise `false`. // - `B`: If the value logically evaluates as true, it shows as `TRUE`, otherwise `FALSE`. // Arguments: // fmt = The formatting string, with placeholders to format the values into. // vals = The list of values to format. // Example(NORENDER): // format("The value of {} is {:.14f}.", ["pi", PI]); // Returns: "The value of pi is 3.14159265358979." // format("The value {1:f} is known as {0}.", ["pi", PI]); // Returns: "The value 3.141593 is known as pi." // format("We use a very small value {1:.6g} as {0}.", ["EPSILON", EPSILON]); // Returns: "We use a very small value 1e-9 as EPSILON." // format("{:-5s}{:i}{:b}", ["foo", 12e3, 5]); // Returns: "foo 12000true" // format("{:-10s}{:.3f}", ["plecostamus",27.43982]); // Returns: "plecostamus27.440" // format("{:-10.9s}{:.3f}", ["plecostamus",27.43982]); // Returns: "plecostam 27.440" function format(fmt, vals) = let( parts = str_split(fmt,"{") ) str_join([ for(i = idx(parts)) let( found_brace = i==0 || [for (c=parts[i]) if(c=="}") c] != [], err = assert(found_brace, "Unbalanced { in format string."), p = i==0? [undef,parts[i]] : str_split(parts[i],"}"), fmta = p[0], raw = p[1] ) each [ assert(i<99) is_undef(fmta)? "" : let( fmtb = str_split(fmta,":"), num = is_digit(fmtb[0])? parse_int(fmtb[0]) : (i-1), left = fmtb[1][0] == "-", fmtb1 = default(fmtb[1],""), fmtc = left? substr(fmtb1,1) : fmtb1, zero = fmtc[0] == "0", lch = fmtc==""? "" : fmtc[len(fmtc)-1], hastyp = is_letter(lch), typ = hastyp? lch : "s", fmtd = hastyp? substr(fmtc,0,len(fmtc)-1) : fmtc, fmte = str_split((zero? substr(fmtd,1) : fmtd), "."), wid = parse_int(fmte[0]), prec = parse_int(fmte[1]), val = assert(num>=0&&num1? all([for (v=s) is_lower(v)]) : let(v = ord(s[0])) (v>=ord("a") && v<=ord("z")); // Function: is_upper() // Synopsis: Returns true if all characters in the string are uppercase. // Topics: Strings // See Also: is_lower(), is_upper(), is_digit(), is_hexdigit(), is_letter() // Usage: // x = is_upper(s); // Description: // Returns true if all the characters in the given string are uppercase letters. (A-Z) function is_upper(s) = assert(is_string(s)) s==""? false : len(s)>1? all([for (v=s) is_upper(v)]) : let(v = ord(s[0])) (v>=ord("A") && v<=ord("Z")); // Function: is_digit() // Synopsis: Returns true if all characters in the string are decimal digits. // Topics: Strings // See Also: is_lower(), is_upper(), is_digit(), is_hexdigit(), is_letter() // Usage: // x = is_digit(s); // Description: // Returns true if all the characters in the given string are digits. (0-9) function is_digit(s) = assert(is_string(s)) s==""? false : len(s)>1? all([for (v=s) is_digit(v)]) : let(v = ord(s[0])) (v>=ord("0") && v<=ord("9")); // Function: is_hexdigit() // Synopsis: Returns true if all characters in the string are hexidecimal digits. // Topics: Strings // See Also: is_lower(), is_upper(), is_digit(), is_hexdigit(), is_letter() // Usage: // x = is_hexdigit(s); // Description: // Returns true if all the characters in the given string are valid hexadecimal digits. (0-9 or a-f or A-F)) function is_hexdigit(s) = assert(is_string(s)) s==""? false : len(s)>1? all([for (v=s) is_hexdigit(v)]) : let(v = ord(s[0])) (v>=ord("0") && v<=ord("9")) || (v>=ord("A") && v<=ord("F")) || (v>=ord("a") && v<=ord("f")); // Function: is_letter() // Synopsis: Returns true if all characters in the string are letters. // Topics: Strings // See Also: is_lower(), is_upper(), is_digit(), is_hexdigit(), is_letter() // Usage: // x = is_letter(s); // Description: // Returns true if all the characters in the given string are standard ASCII letters. (A-Z or a-z) function is_letter(s) = assert(is_string(s)) s==""? false : all([for (v=s) is_lower(v) || is_upper(v)]); // vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap