XML/Output
You are encouraged to solve this task according to the task description, using any language you may know.
Create a function that takes a list of character names and a list of corresponding remarks and returns an XML document of <Character>
elements each with a name attributes and each enclosing its remarks.
All <Character>
elements are to be enclosed in turn, in an outer <CharacterRemarks>
element.
As an example, calling the function with the three names of:
April Tam O'Shanter Emily
And three remarks of:
Bubbly: I'm > Tam and <= Emily Burns: "When chapman billies leave the street ..." Short & shrift
Should produce the XML (but not necessarily with the indentation): <lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
The document may include an <?xml?> declaration and document type declaration, but these are optional. If attempting this task by direct string manipulation, the implementation must include code to perform entity substitution for the characters that have entities defined in the XML 1.0 specification.
Note: the example is chosen to show correct escaping of XML strings. Note too that although the task is written to take two lists of corresponding data, a single mapping/hash/dictionary of names to remarks is also acceptable.
Note to editors: Program output with escaped characters will be viewed as the character on the page so you need to 'escape-the-escapes' to make the RC entry display what would be shown in a plain text viewer (See this). Alternately, output can be placed in <lang xml></lang> tags without any special treatment.
AArch64 Assembly
<lang AArch64 Assembly> /* ARM assembly AARCH64 Raspberry PI 3B */ /* program outputXml64.s */ /* use special library libxml2 */ /* special link gcc with options -I/usr/include/libxml2 -lxml2 */
/*******************************************/ /* Constantes file */ /*******************************************/ /* for this file see task include a file in language AArch64 assembly*/ .include "../includeConstantesARM64.inc"
/*********************************/ /* Initialized data */ /*********************************/ .data szMessEndpgm: .asciz "Normal end of program.\n" szFileName: .asciz "file2.xml" szFileMode: .asciz "w" szMessError: .asciz "Error detected !!!!. \n" szName1: .asciz "April" szName2: .asciz "Tam O'Shanter" szName3: .asciz "Emily" szRemark1: .asciz "Bubbly: I'm > Tam and <= Emily" szRemark2: .asciz "Burns: \"When chapman billies leave the street ...\"" szRemark3: .asciz "Short & shrift" szVersDoc: .asciz "1.0" szLibCharRem: .asciz "CharacterRemarks" szLibChar: .asciz "Character"
szLibName: .asciz "Name" szCarriageReturn: .asciz "\n"
tbNames: .quad szName1 // area of pointer string name
.quad szName2 .quad szName3 .quad 0 // area end
tbRemarks: .quad szRemark1 // area of pointer string remark
.quad szRemark2 .quad szRemark3 .quad 0 // area end
/*********************************/ /* UnInitialized data */ /*********************************/ .bss .align 4
/*********************************/ /* code section */ /*********************************/ .text .global main main: // entry of program
ldr x0,qAdrszVersDoc bl xmlNewDoc // create doc mov x19,x0 // doc address mov x0,#0 ldr x1,qAdrszLibCharRem bl xmlNewNode // create root node mov x20,x0 // node characterisation address mov x0,x19 // doc mov x1,x20 // node root bl xmlDocSetRootElement ldr x22,qAdrtbNames ldr x23,qAdrtbRemarks mov x24,#0 // loop counter
1: // start loop
mov x0,#0 ldr x1,qAdrszLibChar // create node bl xmlNewNode mov x21,x0 // node character // x0 = node address ldr x1,qAdrszLibName ldr x2,[x22,x24,lsl #3] // load name string address bl xmlNewProp ldr x0,[x23,x24,lsl #3] // load remark string address bl xmlNewText mov x1,x0 mov x0,x21 bl xmlAddChild mov x0,x20 mov x1,x21 bl xmlAddChild add x24,x24,#1 ldr x2,[x22,x24,lsl #3] // load name string address cmp x2,#0 // = zero ? bne 1b // no -> loop
ldr x0,qAdrszFileName ldr x1,qAdrszFileMode bl fopen // file open cmp x0,#0 blt 99f mov x24,x0 //FD mov x1,x19 mov x2,x20 bl xmlDocDump // write doc on the file
mov x0,x24 // close file bl fclose mov x0,x19 // close document bl xmlFreeDoc bl xmlCleanupParser ldr x0,qAdrszMessEndpgm bl affichageMess b 100f
99: // error
ldr x0,qAdrszMessError bl affichageMess
100: // standard end of the program
mov x0,0 // return code mov x8,EXIT // request to exit program svc 0 // perform the system call
qAdrszMessError: .quad szMessError qAdrszMessEndpgm: .quad szMessEndpgm qAdrszVersDoc: .quad szVersDoc qAdrszLibCharRem: .quad szLibCharRem qAdrszLibChar: .quad szLibChar qAdrszLibName: .quad szLibName qAdrtbNames: .quad tbNames qAdrtbRemarks: .quad tbRemarks qAdrszCarriageReturn: .quad szCarriageReturn qStdout: .quad STDOUT qAdrszFileName: .quad szFileName qAdrszFileMode: .quad szFileMode
/************************************/ /* Strings comparaison */ /************************************/ /* x0 et x1 contains strings addresses */ /* x0 return 0 dans x0 if equal */ /* return -1 if string x0 < string x1 */ /* return 1 if string x0 > string x1 */ comparString:
stp x2,lr,[sp,-16]! // save registers stp x3,x4,[sp,-16]! // save registers mov x2,#0 // indice
1:
ldrb w3,[x0,x2] // one byte string 1 ldrb w4,[x1,x2] // one byte string 2 cmp w3,w4 blt 2f // less bgt 3f // greather cmp w3,#0 // 0 final beq 4f // equal and end add x2,x2,#1 // b 1b // else loop
2:
mov x0,#-1 // less b 100f
3:
mov x0,#1 // greather b 100f
4:
mov x0,#0 // equal b 100f
100:
ldp x3,x4,[sp],16 // restaur 2 registers ldp x2,lr,[sp],16 // restaur 2 registers ret // return to address lr x30
/********************************************************/ /* File Include fonctions */ /********************************************************/ /* for this file see task include a file in language AArch64 assembly */ .include "../includeARM64.inc" </lang>
Ada
Uses XML/Ada from AdaCore.
character_remarks.adb: <lang Ada>with Ada.Strings.Unbounded; with Ada.Text_IO.Text_Streams; with DOM.Core.Documents; with DOM.Core.Elements; with DOM.Core.Nodes;
procedure Character_Remarks is
package DC renames DOM.Core; package IO renames Ada.Text_IO; package US renames Ada.Strings.Unbounded; type Remarks is record Name : US.Unbounded_String; Text : US.Unbounded_String; end record; type Remark_List is array (Positive range <>) of Remarks; My_Remarks : Remark_List := ((US.To_Unbounded_String ("April"), US.To_Unbounded_String ("Bubbly: I'm > Tam and <= Emily")), (US.To_Unbounded_String ("Tam O'Shanter"), US.To_Unbounded_String ("Burns: ""When chapman billies leave the street ...""")), (US.To_Unbounded_String ("Emily"), US.To_Unbounded_String ("Short & shrift"))); My_Implementation : DC.DOM_Implementation; My_Document : DC.Document := DC.Create_Document (My_Implementation); My_Root_Node : DC.Element := DC.Nodes.Append_Child (My_Document, DC.Documents.Create_Element (My_Document, "CharacterRemarks")); My_Element_Node : DC.Element; My_Text_Node : DC.Text;
begin
for I in My_Remarks'Range loop My_Element_Node := DC.Nodes.Append_Child (My_Root_Node, DC.Documents.Create_Element (My_Document, "Character")); DC.Elements.Set_Attribute (My_Element_Node, "Name", US.To_String (My_Remarks (I).Name)); My_Text_Node := DC.Nodes.Append_Child (My_Element_Node, DC.Documents.Create_Text_Node (My_Document, US.To_String (My_Remarks (I).Text))); end loop; DC.Nodes.Write (IO.Text_Streams.Stream (IO.Standard_Output), N => My_Document, Pretty_Print => True);
end Character_Remarks;</lang>
Alternative version using Matreshka
Uses Matreshka SAX API for XML.
<lang Ada>with Ada.Wide_Wide_Text_IO;
with League.Strings; with XML.SAX.Attributes; with XML.SAX.Pretty_Writers;
procedure Main is
function "+" (Item : Wide_Wide_String) return League.Strings.Universal_String renames League.Strings.To_Universal_String;
type Remarks is record Name : League.Strings.Universal_String; Remark : League.Strings.Universal_String; end record;
type Remarks_Array is array (Positive range <>) of Remarks;
------------ -- Output -- ------------
procedure Output (Remarks : Remarks_Array) is Writer : XML.SAX.Pretty_Writers.SAX_Pretty_Writer; Attributes : XML.SAX.Attributes.SAX_Attributes; begin Writer.Set_Offset (2); Writer.Start_Document; Writer.Start_Element (Qualified_Name => +"CharacterRemarks");
for J in Remarks'Range loop Attributes.Clear; Attributes.Set_Value (+"name", Remarks (J).Name); Writer.Start_Element (Qualified_Name => +"Character", Attributes => Attributes); Writer.Characters (Remarks (J).Remark); Writer.End_Element (Qualified_Name => +"Character"); end loop; Writer.End_Element (Qualified_Name => +"CharacterRemarks"); Writer.End_Document; Ada.Wide_Wide_Text_IO.Put_Line (Writer.Text.To_Wide_Wide_String); end Output;
begin
Output (((+"April", +"Bubbly: I'm > Tam and <= Emily"), (+"Tam O'Shanter", +"Burns: ""When chapman billies leave the street ..."""), (+"Emily", +"Short & shrift")));
end Main;</lang>
ALGOL 68
<lang algol68># returns a translation of str suitable for attribute values and content in an XML document # OP TOXMLSTRING = ( STRING str )STRING:
BEGIN STRING result := ""; FOR pos FROM LWB str TO UPB str DO CHAR c = str[ pos ]; result +:= IF c = "<" THEN "<" ELIF c = ">" THEN ">" ELIF c = "&" THEN "&" ELIF c = "'" THEN "'" ELIF c = """" THEN """ ELSE c FI OD; result END; # TOXMLSTRING #
- generate a CharacterRemarks XML document from the characters and remarks #
- the number of elements in characters and remrks must be equal - this is not checked #
- the <?xml?> element is not generated #
PROC generate character remarks document = ( []STRING characters, remarks )STRING:
BEGIN STRING result := "<CharacterRemarks>"; INT remark pos := LWB remarks; FOR char pos FROM LWB characters TO UPB characters DO result +:= "<Character name=""" + TOXMLSTRING characters[ char pos ] + """>" + TOXMLSTRING remarks[ remark pos ] + "</Character>" + REPR 10 ; remark pos +:= 1 OD; result +:= "</CharacterRemarks>"; result END; # generate character remarks document #
- test the generation #
print( ( generate character remarks document( ( "April", "Tam O'Shanter", "Emily" )
, ( "Bubbly: I'm > Tam and <= Emily" , "Burns: ""When chapman billies leave the street ..." , "Short & shrift" ) ) , newline ) )
</lang>
- Output:
<lang xml><CharacterRemarks><Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ...</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks></lang>
ARM Assembly
<lang ARM Assembly> /* ARM assembly Raspberry PI */ /* program outputXml.s */
/* Constantes */ .equ STDOUT, 1 @ Linux output console .equ EXIT, 1 @ Linux syscall .equ WRITE, 4 @ Linux syscall
/*********************************/
/* Initialized data */
/*********************************/
.data
szMessEndpgm: .asciz "Normal end of program.\n"
szFileName: .asciz "file2.xml"
szFileMode: .asciz "w"
szMessError: .asciz "Error detected !!!!. \n"
szName1: .asciz "April"
szName2: .asciz "Tam O'Shanter"
szName3: .asciz "Emily"
szRemark1: .asciz "Bubbly: I'm > Tam and <= Emily"
szRemark2: .asciz "Burns: \"When chapman billies leave the street ...\""
szRemark3: .asciz "Short & shrift"
szVersDoc: .asciz "1.0"
szLibCharRem: .asciz "CharacterRemarks"
szLibChar: .asciz "Character"
//szLibExtract: .asciz "Student" szLibName: .asciz "Name" szCarriageReturn: .asciz "\n"
tbNames: .int szName1 @ area of pointer string name
.int szName2 .int szName3 .int 0 @ area end
tbRemarks: .int szRemark1 @ area of pointer string remark
.int szRemark2 .int szRemark3 .int 0 @ area end
/*********************************/ /* UnInitialized data */ /*********************************/ .bss .align 4
/*********************************/ /* code section */ /*********************************/ .text .global main main: @ entry of program
ldr r0,iAdrszVersDoc bl xmlNewDoc @ create doc mov r9,r0 @ doc address mov r0,#0 ldr r1,iAdrszLibCharRem bl xmlNewNode @ create root node mov r8,r0 @ node characterisation address mov r0,r9 @ doc mov r1,r8 @ node root bl xmlDocSetRootElement ldr r4,iAdrtbNames ldr r5,iAdrtbRemarks mov r6,#0 @ loop counter
1: @ start loop
mov r0,#0 ldr r1,iAdrszLibChar @ create node bl xmlNewNode mov r7,r0 @ node character @ r0 = node address ldr r1,iAdrszLibName ldr r2,[r4,r6,lsl #2] @ load name string address bl xmlNewProp ldr r0,[r5,r6,lsl #2] @ load remark string address bl xmlNewText mov r1,r0 mov r0,r7 bl xmlAddChild mov r0,r8 mov r1,r7 bl xmlAddChild add r6,#1 ldr r2,[r4,r6,lsl #2] @ load name string address cmp r2,#0 @ = zero ? bne 1b @ no -> loop
ldr r0,iAdrszFileName ldr r1,iAdrszFileMode bl fopen @ file open cmp r0,#0 blt 99f mov r6,r0 @FD mov r1,r9 mov r2,r8 bl xmlDocDump @ write doc on the file
mov r0,r6 bl fclose mov r0,r9 bl xmlFreeDoc bl xmlCleanupParser ldr r0,iAdrszMessEndpgm bl affichageMess b 100f
99:
@ error ldr r0,iAdrszMessError bl affichageMess
100: @ standard end of the program
mov r0, #0 @ return code mov r7, #EXIT @ request to exit program svc #0 @ perform the system call
iAdrszMessError: .int szMessError iAdrszMessEndpgm: .int szMessEndpgm iAdrszVersDoc: .int szVersDoc iAdrszLibCharRem: .int szLibCharRem iAdrszLibChar: .int szLibChar iAdrszLibName: .int szLibName iAdrtbNames: .int tbNames iAdrtbRemarks: .int tbRemarks iAdrszCarriageReturn: .int szCarriageReturn iStdout: .int STDOUT iAdrszFileName: .int szFileName iAdrszFileMode: .int szFileMode /******************************************************************/ /* display text with size calculation */ /******************************************************************/ /* r0 contains the address of the message */ affichageMess:
push {r0,r1,r2,r7,lr} @ save registres mov r2,#0 @ counter length
1: @ loop length calculation
ldrb r1,[r0,r2] @ read octet start position + index cmp r1,#0 @ if 0 its over addne r2,r2,#1 @ else add 1 in the length bne 1b @ and loop @ so here r2 contains the length of the message mov r1,r0 @ address message in r1 mov r0,#STDOUT @ code to write to the standard output Linux mov r7, #WRITE @ code call system "write" svc #0 @ call systeme pop {r0,r1,r2,r7,lr} @ restaur registers */ bx lr @ return
/******************************************************************/ /* Converting a register to a decimal */ /******************************************************************/ /* r0 contains value and r1 address area */ .equ LGZONECAL, 10 conversion10:
push {r1-r4,lr} @ save registers mov r3,r1 mov r2,#LGZONECAL
1: @ start loop
bl divisionpar10 @ r0 <- dividende. quotient ->r0 reste -> r1 add r1,#48 @ digit strb r1,[r3,r2] @ store digit on area cmp r0,#0 @ stop if quotient = 0 subne r2,#1 @ previous position bne 1b @ else loop @ end replaces digit in front of area mov r4,#0
2:
ldrb r1,[r3,r2] strb r1,[r3,r4] @ store in area begin add r4,#1 add r2,#1 @ previous position cmp r2,#LGZONECAL @ end ble 2b @ loop mov r1,#' '
3:
strb r1,[r3,r4] add r4,#1 cmp r4,#LGZONECAL @ end ble 3b
100:
pop {r1-r4,lr} @ restaur registres bx lr @return
/***************************************************/ /* division par 10 signé */ /* Thanks to http://thinkingeek.com/arm-assembler-raspberry-pi/* /* and http://www.hackersdelight.org/ */ /***************************************************/ /* r0 dividende */ /* r0 quotient */ /* r1 remainder */ divisionpar10:
/* r0 contains the argument to be divided by 10 */ push {r2-r4} @ save registers */ mov r4,r0 mov r3,#0x6667 @ r3 <- magic_number lower movt r3,#0x6666 @ r3 <- magic_number upper smull r1, r2, r3, r0 @ r1 <- Lower32Bits(r1*r0). r2 <- Upper32Bits(r1*r0) mov r2, r2, ASR #2 @ r2 <- r2 >> 2 mov r1, r0, LSR #31 @ r1 <- r0 >> 31 add r0, r2, r1 @ r0 <- r2 + r1 add r2,r0,r0, lsl #2 @ r2 <- r0 * 5 sub r1,r4,r2, lsl #1 @ r1 <- r4 - (r2 * 2) = r4 - (r0 * 10) pop {r2-r4} bx lr @ return
</lang>
- Output:
more file2.xml = <?xml version="1.0"?> <CharacterRemarks><Character Name="April">Bubbly: I'm > Tam and <= Emily</ Character><Character Name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character><Character Name="Emily">Short & shrift</Character></ CharacterRemarks>
AutoHotkey
<lang AutoHotkey>gosub constants names := xmlescape(names) remarks := xmlescape(remarks)
stringsplit, remarks, remarks, `n xml = "<CharacterRemarks>"
loop, parse, names, `n
xml .= "<Character name=" . A_LoopField . ">" . remarks%A_Index% . "</Character>`n"
xml .= "</CharacterRemarks>"
msgbox % xml return
xmlescape(string) {
static punc = ",>,<,<=,>=,',& ; " xmlpunc = ",>,<,<=,>=,',& if !punc1 {
StringSplit, punc, punc, `, StringSplit, xmlpunc, xmlpunc, `,
} escaped := string loop, parse, punc, `, { StringReplace, escaped, escaped, % A_LoopField, % xmlpunc%A_Index%, All } Return escaped
}
constants:
- LTrim
names = (
April Tam O'Shanter Emily
)
remarks = (
Bubbly: I'm > Tam and <= Emily Burns: "When chapman billies leave the street ..." Short & shrift
) return</lang>
BASIC
Applesoft BASIC
<lang ApplesoftBasic>100 Q$ = CHR$(34) 110 DE$(0) = "April" 120 RE$(0) = "Bubbly: I'm > Tam and <= Emily" 130 DE$(1) = "Tam O'Shanter" 140 RE$(1) = "Burns: " + Q$ + "When chapman billies leave the street ..." + Q$ 150 DE$(2) = "Emily" 160 RE$(2) = "Short & shrift"
200 Print "<CharacterRemarks>" 210 For I = 0 to 2 220 Print " <Character name="Q$; 230 X$=DE$(I) : GOSUB 300xmlquote 240 PRINT Q$">"; 250 X$=RE$(I) : GOSUB 300xmlquote 260 PRINT "</Character>" 270 Next 280 Print "</CharacterRemarks>" 290 End
300 For n = 1 To Len(X$) 310 c$ = Mid$(X$,n,1) 320 IF C$ = "<" THEN C$ = "<" 330 IF C$ = ">" THEN C$ = ">" 340 IF C$ = "&" THEN C$ = "&" 350 IF C$ = Q$ THEN C$ = """ 360 IF C$ = "'" THEN C$ = "'" 370 PRINT C$; 380 NEXT N 390 RETURN</lang>
Commodore BASIC
Not terribly different from the Applesoft BASIC example above, but this allows for a few more character/entity translations.
<lang gwbasic>1 rem xml/output - commodore basic 2 rem rosetta code 5 print chr$(147);chr$(14):gosub 900 10 rem set up array structure for data 11 rem we'll use a multi-dimensional array: 12 rem c$(x,y) where x is the rows and y is the fields 13 rem two fields: 0 = character name, 1 = remarks 15 dim c$(10,1):x=0:q$=chr$(34) 19 rem now read the data to populate the structure 20 for y=0 to 1 25 read t$ 30 if t$="[end]" then x=x-1:goto 45 35 c$(x,y)=t$:print t$ 40 next y:x=x+1:print:goto 20 45 rem need to sanitize for html entities 50 gosub 500 55 rem now we parse it out to xml format 60 print:print:gosub 150 70 end 75 : 150 print "<CharacterRemarks>" 155 for i=0 to x 160 t$="<Character name="+q$+c$(i,0)+q$+">" 165 t$=t$+c$(i,1)+"</Character>" 170 print " ";t$ 175 next i 180 print "</CharacterRemarks>" 185 print 190 return 195 : 500 rem code html entities 505 for i=0 to x 510 for j=0 to 1 515 tm$=c$(i,j):tl=len(tm$):zz$="" 520 for tc=1 to tl 525 tc$=mid$(tm$,tc,1):cv=asc(tc$) and 127 530 zz$=zz$+et$(cv) 535 next tc 540 c$(i,j)=zz$ 545 next j,i 550 return 555 : 900 rem set up entity lookup table 905 dim et$(127):for i=0 to 127:et$(i)=chr$(i):next 910 for i=1 to 15:read ci,et$(ci):next i:return 915 data 34,""",63,"?",35,"#",64,"@",47,"/" 920 data 60,"<",62,">",91,"[",93,"rsqb;",92,"£" 925 data 36,"$",37,"%",94,"↑",95,"←" 930 data 38,"&" 935 : 1000 data "April","Bubble: I'm > Tam and <= Emily" 1005 data "Tam O'Shanter","Burns: 'When chapman billies leave the street...'" 1010 data "Emily","Short & shrift" 1015 data "Joey","Always look ^." 1999 data "[end]","[end]"</lang>
- Output:
April Bubble: I'm > Tam and <= Emily Tam O'Shanter Burns: 'When chapman billies leave the street...' Emily Short & shrift Joey Always look ↑. <CharacterRemarks> <Character name="April">Bubble: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: 'When chapman billies leave the street...'</Character> <Character name="Emily">Short & shrift</Character> <Character name="Joey">Always look ↑.</Character> </CharacterRemarks> ready. █
Bracmat
<lang bracmat>( ( 2XML
= PCDATAentities attributeValueEntities doAll doAttributes , xml . ( attributeValueEntities = a c . @( !arg : ?a (("<"|"&"|\"):?c) ?arg ) & !a "&" ( !c:"<"< | !c:"&"& | quot ) ";" attributeValueEntities$!arg | !arg ) & ( PCDATAentities = a c . @( !arg : ?a (("<"|"&"|">"):?c) ?arg ) & !a "&" ( !c:"<"< | !c:"&"& | gt ) ";" PCDATAentities$!arg | !arg ) & ( doAttributes = a v . !arg:(?a.?v) ?arg & " " PCDATAentities$!a "=\"" attributeValueEntities$!v \" doAttributes$!arg | ) & ( doAll = xml first A B C att XML . !arg:?xml & :?XML & whl ' ( !xml:%?first ?xml & ( !first:(?A.?B) & ( !B:(?att,?C) & !XML ( !C: & "<" !A doAttributes$!att " />\n" | "<" !A doAttributes$!att ">" doAll$!C "</" !A ">\n" ) : ?XML | !A : ( "!"&!XML "<!" !B ">":?XML | "!--" & !XML "":?XML | "?"&!XML "<?" !B "?>\n":?XML | "![CDATA[" & !XML "<![CDATA[" !B "]]>":?XML | "!DOCTYPE" & !XML "<!DOCTYPE" !B ">":?XML | ? & !XML "<" !A doAttributes$!B ">":?XML ) ) | !XML PCDATAentities$!first:?XML ) ) & str$!XML ) & doAll$!arg )
& ( makeList
= characters name names remark remarks . !arg:(?names.?remarks) & :?characters & whl ' ( (!names.!remarks) : (%?name ?names.%?remark ?remarks) & !characters (Character.(name.!name),!remark) : ?characters ) & ("?".xml) (CharacterRemarks.,!characters) )
& put
$ ( 2XML $ ( makeList $ ( April "Tam O'Shanter" Emily . "Bubbly: I'm > Tam and <= Emily" "Burns: \"When chapman billies leave the street ...\"" "Short & shrift" ) ) )
)</lang>
- Output:
<?xml?> <CharacterRemarks><Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
C
<lang c>#include <stdio.h>
- include <stdlib.h>
- include <string.h>
- include <libxml/parser.h>
- include <libxml/tree.h>
const char *names[] = {
"April", "Tam O'Shanter", "Emily", NULL
}; const char *remarks[] = {
"Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift", NULL
};
int main() {
xmlDoc *doc = NULL; xmlNode *root = NULL, *node; const char **next; int a;
doc = xmlNewDoc("1.0"); root = xmlNewNode(NULL, "CharacterRemarks"); xmlDocSetRootElement(doc, root);
for(next = names, a = 0; *next != NULL; next++, a++) { node = xmlNewNode(NULL, "Character"); (void)xmlNewProp(node, "name", *next); xmlAddChild(node, xmlNewText(remarks[a])); xmlAddChild(root, node); }
xmlElemDump(stdout, doc, root);
xmlFreeDoc(doc); xmlCleanupParser(); return EXIT_SUCCESS;
}</lang>
C#
<lang csharp>using System; using System.Collections.Generic; using System.Linq; using System.Xml.Linq;
class Program {
static string CreateXML(Dictionary<string, string> characterRemarks) { var remarks = characterRemarks.Select(r => new XElement("Character", r.Value, new XAttribute("Name", r.Key))); var xml = new XElement("CharacterRemarks", remarks); return xml.ToString(); }
static void Main(string[] args) { var characterRemarks = new Dictionary<string, string> { { "April", "Bubbly: I'm > Tam and <= Emily" }, { "Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\"" }, { "Emily", "Short & shrift" } };
string xml = CreateXML(characterRemarks); Console.WriteLine(xml); }
}</lang>
C++
Library: Boost <lang cpp>#include <vector>
- include <utility>
- include <iostream>
- include <boost/algorithm/string.hpp>
std::string create_xml( std::vector<std::string> & ,std::vector<std::string> & ) ;
int main( ) {
std::vector<std::string> names , remarks ; names.push_back( "April" ) ; names.push_back( "Tam O'Shantor" ) ; names.push_back ( "Emily" ) ; remarks.push_back( "Bubbly, I'm > Tam and <= Emily" ) ; remarks.push_back( "Burns: \"When chapman billies leave the street ...\"" ) ; remarks.push_back( "Short & shrift" ) ; std::cout << "This is in XML:\n" ; std::cout << create_xml( names , remarks ) << std::endl ; return 0 ;
}
std::string create_xml( std::vector<std::string> & names ,
std::vector<std::string> & remarks ) { std::vector<std::pair<std::string , std::string> > entities ; entities.push_back( std::make_pair( "&" , "&" ) ) ; entities.push_back( std::make_pair( "<" , "<" ) ) ; entities.push_back( std::make_pair( ">" , ">" ) ) ; std::string xmlstring ( "<CharacterRemarks>\n" ) ; std::vector<std::string>::iterator vsi = names.begin( ) ; typedef std::vector<std::pair<std::string , std::string> >::iterator Vpss ; for ( ; vsi != names.end( ) ; vsi++ ) { for ( Vpss vs = entities.begin( ) ; vs != entities.end( ) ; vs++ ) {
boost::replace_all ( *vsi , vs->first , vs->second ) ;
} } for ( vsi = remarks.begin( ) ; vsi != remarks.end( ) ; vsi++ ) { for ( Vpss vs = entities.begin( ) ; vs != entities.end( ) ; vs++ ) {
boost::replace_all ( *vsi , vs->first , vs->second ) ;
} } for ( int i = 0 ; i < names.size( ) ; i++ ) { xmlstring.append( "\t<Character name=\"").append( names[ i ] ).append( "\">")
.append( remarks[ i ] ).append( "</Character>\n" ) ;
} xmlstring.append( "</CharacterRemarks>" ) ; return xmlstring ;
}</lang>
Clojure
<lang lisp>(use 'clojure.xml) (defn character-remarks-xml [characters remarks]
(with-out-str (emit-element {:tag :CharacterRemarks, :attrs nil, :content (vec (for [item (map vector characters remarks)] {:tag :Character, :attrs {:name (item 0)}, :content [(item 1)]}) )})))</lang>
Common Lisp
<lang lisp>(defun write-xml (characters lines &optional (out *standard-output*))
(let* ((doc (dom:create-document 'rune-dom:implementation nil nil nil)) (chars (dom:append-child doc (dom:create-element doc "Characters")))) (map nil (lambda (character line) (let ((c (dom:create-element doc "Character"))) (dom:set-attribute c "name" character) (dom:append-child c (dom:create-text-node doc line)) (dom:append-child chars c))) characters lines) (write-string (dom:map-document (cxml:make-rod-sink) doc) out)))</lang>
Example of use:
<lang lisp>(write-xml '("April" "Tam O'Shanter" "Emily")
'("Bubbly: I'm > Tam and <= Emily" "Burns: \"When chapman billies leave the street ...\"" "Short & shrift"))</lang>
- Output:
<?xml version="1.0" encoding="UTF-8"?> <Characters><Character name="April">Bubbly: I'm > Tam and <= Emily</Character><Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character><Character name="Emily">Short & shrift</Character></Characters>
D
<lang d>import kxml.xml; char[][][]characters =
[["April","Bubbly: I'm > Tam and <= Emily"], ["Tam O'Shanter","Burns: \"When chapman billies leave the street ...\""], ["Emily","Short & shrift"]];
void addChars(XmlNode root,char[][][]info) {
auto remarks = new XmlNode("CharacterRemarks"); root.addChild(remarks); foreach(set;info) { remarks.addChild((new XmlNode("Character")).setAttribute("name",set[0]).addCData(set[1])); }
} void main() {
auto root = new XmlNode(""); root.addChild(new XmlPI("xml")); addChars(root,characters); std.stdio.writefln("%s",root.write);
}</lang>
<?xml?> <CharacterRemarks> <Character name="April"> Bubbly: I'm > Tam and <= Emily </Character> <Character name="Tam O'Shanter"> Burns: "When chapman billies leave the street ..." </Character> <Character name="Emily"> Short & shrift </Character> </CharacterRemarks>
Delphi
<lang Delphi> //You need to use these units uses
Classes, Dialogs, XMLIntf, XMLDoc;
//..............................................
//This function creates the XML function CreateXML(aNames, aRemarks: TStringList): string; var
XMLDoc: IXMLDocument; Root: IXMLNode; i: Integer;
begin
//Input check if (aNames = nil) or (aRemarks = nil) then begin Result:= '<CharacterRemarks />'; Exit; end;
//Creating the TXMLDocument instance XMLDoc:= TXMLDocument.Create(nil);
//Activating the document XMLDoc.Active:= True;
//Creating the Root element Root:= XMLDoc.AddChild('CharacterRemarks');
//Creating the inner nodes for i:=0 to Min(aNames.Count, aRemarks.Count) - 1 do with Root.AddChild('Character') do begin Attributes['name']:= aNames[i]; Text:= aRemarks[i]; end;
//Outputting the XML as a string Result:= XMLDoc.XML.Text;
end;
//..............................................
//Consuming code example (fragment) var
Names, Remarks: TStringList;
begin
//Creating the lists objects Names:= TStringList.Create; Remarks:= TStringList.Create; try //Filling the list with names Names.Add('April'); Names.Add('Tam OShanter'); Names.Add('Emily');
//Filling the list with remarks Remarks.Add('Bubbly: Im > Tam and <= Emily'); Remarks.Add('Burns: "When chapman billies leave the street ..."'); Remarks.Add('Short & shrift');
//Constructing and showing the XML Showmessage(CreateXML(Names, Remarks));
finally //Freeing the list objects Names.Free; Remarks.Free; end;
end;
</lang>
Erlang
<lang Erlang> -module( xml_output ).
-export( [task/0] ).
-include_lib("xmerl/include/xmerl.hrl").
task() ->
Data = {'CharacterRemarks', [], [{'Character', [{name, X}], Y} || {X, Y} <- contents()]}, lists:flatten( xmerl:export_simple([Data], xmerl_xml) ).
contents() -> [{"April", "Bubbly: I'm > Tam and <= Emily"}, {"Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""}, {"Emily", "Short & shrift"}].
</lang>
- Output:
4> xml_output:task(). "<?xml version=\"1.0\"?><CharacterRemarks><Character name=\"April\">Bubbly: I'm > Tam and <= Emily</Character><Character name=\"Tam O'Shanter\">Burns: \"When chapman billies leave the street ...\"</Character><Character name=\"Emily\">Short & shrift</Character></CharacterRemarks>"
Euphoria
<lang euphoria>function xmlquote(sequence s)
sequence r r = "" for i = 1 to length(s) do if s[i] = '<' then r &= "<" elsif s[i] = '>' then r &= ">" elsif s[i] = '&' then r &= "&" elsif s[i] = '"' then r &= """ elsif s[i] = '\ then r &= "'" else r &= s[i] end if end for return r
end function
constant CharacterRemarks = {
{"April", "Bubbly: I'm > Tam and <= Emily"}, {"Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""}, {"Emily", "Short & shrift"}
}
puts(1,"<CharacterRemarks>\n") for i = 1 to length(CharacterRemarks) do
printf(1," <CharacterName=\"%s\">",{xmlquote(CharacterRemarks[i][1])}) puts(1,xmlquote(CharacterRemarks[i][2])) puts(1,"</Character>\n")
end for puts(1,"</CharacterRemarks>\n")</lang>
- Output:
<CharacterRemarks> <CharacterName="April">Bubbly: I'm > Tam and <= Emily</Character> <CharacterName="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <CharacterName="Emily">Short & shrift</Character> </CharacterRemarks>
F#
<lang fsharp>#light
open System.Xml type Character = {name : string; comment : string }
let data = [
{ name = "April"; comment = "Bubbly: I'm > Tam and <= Emily"} { name = "Tam O'Shanter"; comment = "Burns: \"When chapman billies leave the street ...\""} { name = "Emily"; comment = "Short & shrift"} ]
let doxml (characters : Character list) =
let doc = new XmlDocument() let root = doc.CreateElement("CharacterRemarks") doc.AppendChild root |> ignore Seq.iter (fun who -> let node = doc.CreateElement("Character") node.SetAttribute("name", who.name) doc.CreateTextNode(who.comment) |> node.AppendChild |> ignore root.AppendChild node |> ignore ) characters doc.OuterXml</lang>
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Factor
<lang factor>USING: sequences xml.syntax xml.writer ;
- print-character-remarks ( names remarks -- )
[ [XML <Character name=<-> ><-></Character> XML] ] 2map [XML <CharacterRemarks><-></CharacterRemarks> XML] pprint-xml ;</lang>
Example of usage: <lang factor>{ "April" "Tam O'Shanter" "Emily" } {
"Bubbly: I'm > Tam and <= Emily" "Burns: \"When chapman billies leave the street ...\"" "Short & shrift"
} print-remarks</lang>
Fantom
<lang fantom> using xml
class XmlOutput {
public static Void main () { Str[] names := ["April", "Tam O'Shanter", "Emily"] Str[] remarks := ["Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"]
doc := XDoc() root := XElem("CharacterRemarks") doc.add (root)
names.each |Str name, Int i| { child := XElem("Character") child.addAttr("Name", name) child.add(XText(remarks[i])) root.add (child) }
doc.write(Env.cur.out) }
} </lang>
- Output:
(not exactly conforming)
<?xml version='1.0' encoding='UTF-8'?> <CharacterRemarks> <Character Name='April'>Bubbly: I'm > Tam and <= Emily</Character> <Character Name='Tam O'Shanter'>Burns: "When chapman billies leave the street ..."</Character> <Character Name='Emily'>Short & shrift</Character> </CharacterRemarks>
Forth
<lang forth>include ffl/est.fs include ffl/xos.fs
\ Input lists 0 value names here ," Emily" here ," Tam O'Shanter" here ," April" here to names , , ,
0 value remarks here ," Short & shrift" here ,\" Burns: \"When chapman billies leave the street ...\"" here ," Bubbly: I'm > Tam and <= Emily" here to remarks , , ,
- s++ ( c-addr1 -- c-addr2 c-addr3 u3 )
dup cell+ swap @ count
\ Create xml writer tos-create xml
- create-xml ( c-addr1 c-addr2 -- )
0 s" CharacterRemarks" xml xos-write-start-tag 3 0 DO swap s++ s" name" 2swap 1 s" Character" xml xos-write-start-tag swap s++ xml xos-write-text s" Character" xml xos-write-end-tag LOOP drop drop s" CharacterRemarks" xml xos-write-end-tag
names remarks create-xml
\ Output xml string xml str-get type cr</lang>
FreeBASIC
<lang basic>Data "April", "Bubbly: I'm > Tam and <= Emily", _
"Tam O'Shanter", "Burns: ""When chapman billies leave the street ...""", _ "Emily", "Short & shrift"
Declare Function xmlquote(ByRef s As String) As String Dim n As Integer, dev As String, remark As String
Print "<CharacterRemarks>" For n = 0 to 2
Read dev, remark Print " <Character name="""; xmlquote(dev); """>"; _ xmlquote(remark); "</Character>"
Next Print "</CharacterRemarks>"
End
Function xmlquote(ByRef s As String) As String
Dim n As Integer Dim r As String For n = 0 To Len(s) Dim c As String c = Mid(s,n,1) Select Case As Const Asc(c) Case Asc("<") r = r + "<" Case Asc(">") r = r + ">" Case Asc("&") r = r + "&" Case Asc("""") r = r + """ Case Asc("'") r = r + "'" Case Else r = r + c End Select Next Function = r
End Function</lang>
Go
Using package xml to marshal from a data structure: <lang go>package main
import (
"encoding/xml" "fmt"
)
// Function required by task description. func xRemarks(r CharacterRemarks) (string, error) {
b, err := xml.MarshalIndent(r, "", " ") return string(b), err
}
// Task description allows the function to take "a single mapping..." // This data structure represents a mapping. type CharacterRemarks struct {
Character []crm
}
type crm struct {
Name string `xml:"name,attr"` Remark string `xml:",chardata"`
}
func main() {
x, err := xRemarks(CharacterRemarks{[]crm{ {`April`, `Bubbly: I'm > Tam and <= Emily`}, {`Tam O'Shanter`, `Burns: "When chapman billies leave the street ..."`}, {`Emily`, `Short & shrift`}, }}) if err != nil { x = err.Error() } fmt.Println(x)
}</lang>
- Output:
<lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
Using the text/template package to generate text: (but still leaning on the xml package for escaping.) <lang go>package main
import (
"encoding/xml" "fmt" "strings" "text/template"
)
type crm struct {
Char, Rem string
}
var tmpl = `<CharacterRemarks> Template:Range . <Character name="Template:Xml .Char">Template:Xml .Rem</Character> Template:End</CharacterRemarks> `
func xmlEscapeString(s string) string {
var b strings.Builder xml.Escape(&b, []byte(s)) return b.String()
}
func main() {
xt := template.New("").Funcs(template.FuncMap{"xml": xmlEscapeString}) template.Must(xt.Parse(tmpl))
// Define function required by task description. xRemarks := func(crms []crm) (string, error) { var b strings.Builder err := xt.Execute(&b, crms) return b.String(), err }
// Call the function with example data. The data is represented as // a "single mapping" as allowed by the task, rather than two lists. x, err := xRemarks([]crm{ {`April`, `Bubbly: I'm > Tam and <= Emily`}, {`Tam O'Shanter`, `Burns: "When chapman billies leave the street ..."`}, {`Emily`, `Short & shrift`}}) if err != nil { x = err.Error() } fmt.Println(x)
}</lang> Output is same as marshalled version.
Groovy
<lang groovy>def writer = new StringWriter() def builder = new groovy.xml.MarkupBuilder(writer) def names = ["April", "Tam O'Shanter", "Emily"] def remarks = ["Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."', "Short & shrift"]
builder.CharacterRemarks() {
names.eachWithIndex() { n, i -> Character(name:n, remarks[i]) };
}
println writer.toString()</lang>
Haskell
This implementation uses the xml
package.
<lang haskell>import Text.XML.Light
characterRemarks :: [String] -> [String] -> String characterRemarks names remarks = showElement $ Element
(unqual "CharacterRemarks") [] (zipWith character names remarks) Nothing where character name remark = Elem $ Element (unqual "Character") [Attr (unqual "name") name] [Text $ CData CDataText remark Nothing] Nothing</lang>
HicEst
<lang HicEst>CHARACTER names="April~Tam O'Shanter~Emily~" CHARACTER remarks*200/%Bubbly: I'm > Tam and <= Emily~Burns: "When chapman billies leave the street ..."~Short & shrift~%/ CHARACTER XML*1000
EDIT(Text=remarks, Right='&', RePLaceby='&', DO) EDIT(Text=remarks, Right='>', RePLaceby='>', DO) EDIT(Text=remarks, Right='<', RePLaceby='<', DO)
XML = "<CharacterRemarks>" // $CRLF DO i = 1, 3
EDIT(Text=names, SePaRators='~', ITeM=i, Parse=name) EDIT(Text=remarks, SePaRators='~', ITeM=i, Parse=remark) XML = TRIM(XML) // '<Character name="' // name // '">' // remark // '</Character>' // $CRLF
ENDDO XML = TRIM(XML) // "</CharacterRemarks>"</lang>
J
First create the table of substitutions and the verb which properly escapes the input string:
<lang j>tbl=: ('"e;'; '&'; '<'; '>') (a.i.'"&<>')} <"0 a. esc=: [:; {&tbl@:i.~&a.</lang>
Then create the verb which combines name with remark: <lang J>cmb=: [:; dyad define &.>
'<Character name="', (esc x), '">', (esc y), '</Character>', LF
)</lang>
Finally, create the verb which creates the final XML: <lang j>xmlify=: '<CharacterRemarks>', LF, cmb, '</CharacterRemarks>'"_</lang>
Example:
<lang j>names=: 'April'; 'Tam OShanter'; 'Emily'
remarks=: <;._2]0 :0
I'm > Tam and <= Emily Burns: "When chapman billies leave the street ..." Short & shrift
)</lang>
<lang> names xmlify remarks <CharacterRemarks> <Character name="April"> I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter"> Burns: "e;When chapman billies leave the street ..."e;</Character> <Character name="Emily"> Short & shrift</Character> </CharacterRemarks></lang>
Java
Using DOM
<lang java>import java.io.StringWriter;
import javax.xml.parsers.DocumentBuilderFactory; import javax.xml.transform.Result; import javax.xml.transform.Source; import javax.xml.transform.Transformer; import javax.xml.transform.TransformerFactory; import javax.xml.transform.dom.DOMSource; import javax.xml.transform.stream.StreamResult;
import org.w3c.dom.Document; import org.w3c.dom.Element;
public class XmlCreation {
private static final String[] names = {"April", "Tam O'Shanter", "Emily"}; private static final String[] remarks = {"Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"}; public static void main(String[] args) { try { // Create a new XML document final Document doc = DocumentBuilderFactory.newInstance().newDocumentBuilder().newDocument(); // Append the root element final Element root = doc.createElement("CharacterRemarks"); doc.appendChild(root); // Read input data and create a new <Character> element for each name. for(int i = 0; i < names.length; i++) { final Element character = doc.createElement("Character"); root.appendChild(character); character.setAttribute("name", names[i]); character.appendChild(doc.createTextNode(remarks[i])); } // Serializing XML in Java is unnecessary complicated // Create a Source from the document. final Source source = new DOMSource(doc); // This StringWriter acts as a buffer final StringWriter buffer = new StringWriter(); // Create a Result as a transformer target. final Result result = new StreamResult(buffer); // The Transformer is used to copy the Source to the Result object. final Transformer transformer = TransformerFactory.newInstance().newTransformer(); transformer.setOutputProperty("indent", "yes"); transformer.transform(source, result); // Now the buffer is filled with the serialized XML and we can print it // to the console. System.out.println(buffer.toString()); } catch (Exception e) { e.printStackTrace(); } }
}</lang>
Result: <lang xml><?xml version="1.0" encoding="UTF-8" standalone="no"?> <CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character></lang>
Using the Streaming API for XML (StAX)
<lang java>import java.io.StringWriter;
import javax.xml.stream.XMLOutputFactory; import javax.xml.stream.XMLStreamWriter;
public class XmlCreationStax {
private static final String[] names = {"April", "Tam O'Shanter", "Emily"}; private static final String[] remarks = {"Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"}; public static void main(String[] args) { try { final StringWriter buffer = new StringWriter(); final XMLStreamWriter out = XMLOutputFactory.newInstance() .createXMLStreamWriter(buffer);
out.writeStartDocument("UTF-8", "1.0"); out.writeStartElement("CharacterRemarks"); for(int i = 0; i < names.length; i++) { out.writeStartElement("Character"); out.writeAttribute("name", names[i]); out.writeCharacters(remarks[i]); out.writeEndElement(); } out.writeEndElement(); out.writeEndDocument(); System.out.println(buffer); } catch (Exception e) { e.printStackTrace(); } }
}</lang>
This produces: <lang xml><?xml version="1.0" encoding="UTF-8"?><CharacterRemarks><Character name="April">Bubbly: I'm > Tam and <= Emily</Character><Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character><Character name="Emily">Short & shrift</Character></CharacterRemarks></lang>
Joy
<lang Joy> DEFINE subst == [[['< "<" putchars]
['> ">" putchars] ['& "&" putchars] [putch]] case] step;
XMLOutput == "<CharacterRemarks>\n" putchars [ "<Character name=\"" putchars uncons swap putchars "\">" putchars first subst "</Character>\n" putchars] step "</CharacterRemarks>\n" putchars.
[ [ "April" "Bubbly: I'm > Tam and <= Emily" ]
[ "Tam O'Shanter" "Burns: \"When chapman billies leave the street ...\"" ] [ "Emily" "Short & shrift" ]
] XMLOutput. </lang>
Julia
<lang julia>using LightXML
dialog = [("April", "Bubbly: I'm > Tam and <= Emily"),
("Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""), ("Emily", "Short & shrift")]
const xdoc = XMLDocument() const xroot = create_root(xdoc, "CharacterRemarks")
for (name, remarks) in dialog
xs1 = new_child(xroot, "Character") set_attribute(xs1, "name", name) add_text(xs1, remarks)
end
println(xdoc)
</lang>
- Output:
<?xml version="1.0" encoding="utf-8"?> <CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Kotlin
<lang scala>// version 1.1.3
import javax.xml.parsers.DocumentBuilderFactory import javax.xml.transform.dom.DOMSource import java.io.StringWriter import javax.xml.transform.stream.StreamResult import javax.xml.transform.TransformerFactory
fun main(args: Array<String>) {
val names = listOf("April", "Tam O'Shanter", "Emily")
val remarks = listOf( "Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift" )
val dbFactory = DocumentBuilderFactory.newInstance() val dBuilder = dbFactory.newDocumentBuilder() val doc = dBuilder.newDocument() val root = doc.createElement("CharacterRemarks") // create root node doc.appendChild(root)
// now create Character elements for (i in 0 until names.size) { val character = doc.createElement("Character") character.setAttribute("name", names[i]) val remark = doc.createTextNode(remarks[i]) character.appendChild(remark) root.appendChild(character) }
val source = DOMSource(doc) val sw = StringWriter() val result = StreamResult(sw) val tFactory = TransformerFactory.newInstance() tFactory.newTransformer().apply { setOutputProperty("omit-xml-declaration", "yes") setOutputProperty("indent", "yes") setOutputProperty("{http://xml.apache.org/xslt}indent-amount", "4") transform(source, result) } println(sw)
} </lang>
- Output:
<lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks> </lang>
Lasso
Lasso has built in support for both creating and parsing xml. <lang Lasso>define character2xml(names::array, remarks::array) => {
fail_if(#names -> size != #remarks -> size, -1, 'Input arrays not of same size')
local( domimpl = xml_domimplementation, doctype = #domimpl -> createdocumenttype( 'svg:svg', '-//W3C//DTD SVG 1.1//EN', 'http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd' ), character_xml = #domimpl -> createdocument( 'http://www.w3.org/2000/svg', 'svg:svg', #docType ), csnode = #character_xml -> createelement('CharacterRemarks'), charnode )
#character_xml -> appendChild(#csnode)
loop(#names -> size) => { #charnode = #character_xml -> createelement('Character') #charnode -> setAttribute('name', #names -> get(loop_count)) #charnode -> nodeValue = encode_xml(#remarks -> get(loop_count)) #csnode -> appendChild(#charnode) } return #character_xml
}
character2xml( array(`April`, `Tam O'Shanter`, `Emily`), array(`Bubbly: I'm > Tam and <= Emily`, `Burns: "When chapman billies leave the street ..."`, `Short & shrift`) )</lang>
- Output:
<lang xml> <?xml version="1.0" encoding="UTF-8"?> <!DOCTYPE svg:svg PUBLIC "-//W3C//DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd"> <svg xmlns:svg="http://www.w3.org/2000/svg"/> <CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks> </lang>
Lua
Using the LuaXML library as available via luarocks. Note that strings in Lua can be enclosed in either single or double quotes to help reduce the need for escape characters. <lang Lua>require("LuaXML")
function addNode(parent, nodeName, key, value, content)
local node = xml.new(nodeName) table.insert(node, content) parent:append(node)[key] = value
end
root = xml.new("CharacterRemarks") addNode(root, "Character", "name", "April", "Bubbly: I'm > Tam and <= Emily") addNode(root, "Character", "name", "Tam O'Shanter", 'Burns: "When chapman billies leave the street ..."') addNode(root, "Character", "name", "Emily", "Short & shrift") print(root)</lang>
- Output:
<lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang> Note also that LuaXML escapes quote marks and apostrophes, which makes the output slightly different to the task requirement. This can be 'fixed' if necessary using Lua's in-built string.gsub function: <lang Lua>xmlStr = xml.str(root):gsub("'", "'"):gsub(""", '"') print(xmlStr)</lang>
- Output:
<lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
Mathematica
Some tricky input with the second remark <lang Mathematica>c = {"April", "Tam O'Shanter","Emily"}; r = {"Bubbly:I'm > Tam and <= Emily" , StringReplace["Burns:\"When chapman billies leave the street ...\"", "\"" -> ""], "Short & shrift"};
ExportString[ XMLElement[ "CharacterRemarks", {}, {XMLElement["Character", {"name" -> c1}, {r1}],
XMLElement["Character", {"name" -> c2}, {r2}], XMLElement["Character", {"name" -> c3}, {r3}]
}], "XML", "AttributeQuoting" -> "\""]</lang>
<CharacterRemarks> <Character name=\"April\">Bubbly:I'm > Tam and <= Emily</Character> <Character name=\"Tam O'Shanter\">Burns:When chapman billies leave the street ...</Character> <Character name=\"Emily\">Short & shrift</Character> </CharacterRemarks>
MATLAB
<lang Matlab>RootXML = com.mathworks.xml.XMLUtils.createDocument('CharacterRemarks'); docRootNode = RootXML.getDocumentElement; thisElement = RootXML.createElement('Character'); thisElement.setAttribute('Name','April') thisElement.setTextContent('Bubbly: Im > Tam and <= Emily'); docRootNode.appendChild(thisElement); thisElement = RootXML.createElement('Character'); thisElement.setAttribute('Name','Tam OShanter') thisElement.setTextContent('Burns: "When chapman billies leave the street ..."'); docRootNode.appendChild(thisElement); thisElement = RootXML.createElement('Character'); thisElement.setAttribute('Name','Emily') thisElement.setTextContent('Short & shrift'); docRootNode.appendChild(thisElement);</lang>
- Output:
xmlwrite(RootXML) ans = <?xml version="1.0" encoding="utf-8"?> <CharacterRemarks> <Character Name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character Name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character Name="Emily">Short & shrift</Character> </CharacterRemarks>
NetRexx
Using DOM
<lang NetRexx>/* NetRexx */
options replace format comments java crossref savelog symbols nobinary
import java.io.StringWriter
import javax.xml.parsers.DocumentBuilderFactory import javax.xml.transform.Result import javax.xml.transform.Source import javax.xml.transform.Transformer import javax.xml.transform.TransformerFactory import javax.xml.transform.dom.DOMSource import javax.xml.transform.stream.StreamResult
import org.w3c.dom.Document import org.w3c.dom.Element
names = [String -
"April", "Tam O'Shanter", "Emily" -
]
remarks = [ String -
"Bubbly: I'm > Tam and <= Emily" - , 'Burns: "When chapman billies leave the street ..."' - , 'Short & shrift' -
]
do
-- Create a new XML document doc = DocumentBuilderFactory.newInstance().newDocumentBuilder().newDocument()
-- Append the root element root = doc.createElement("CharacterRemarks") doc.appendChild(root)
-- Read input data and create a new <Character> element for each name. loop i_ = 0 to names.length - 1 character = doc.createElement("Character") root.appendChild(character) character.setAttribute("name", names[i_]) character.appendChild(doc.createTextNode(remarks[i_])) end i_
-- Serializing XML in Java is unnecessary complicated -- Create a Source from the document. source = DOMSource(doc)
-- This StringWriter acts as a buffer buffer = StringWriter()
-- Create a Result as a transformer target. result = StreamResult(buffer)
-- The Transformer is used to copy the Source to the Result object. transformer = TransformerFactory.newInstance().newTransformer() transformer.setOutputProperty("indent", "yes") transformer.transform(source, result)
-- Now the buffer is filled with the serialized XML and we can print it to the console. say buffer.toString
catch ex = Exception
ex.printStackTrace
end
return </lang>
- Output
<lang xml><?xml version="1.0" encoding="UTF-8" standalone="no"?> <CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks> </lang>
Using the Streaming API for XML (StAX)
<lang NetRexx>/* NetRexx */
options replace format comments java crossref savelog symbols nobinary
import java.io.StringWriter
import javax.xml.stream.XMLOutputFactory import javax.xml.stream.XMLStreamWriter
names = [String -
"April", "Tam O'Shanter", "Emily" -
]
remarks = [ String -
"Bubbly: I'm > Tam and <= Emily" - , 'Burns: "When chapman billies leave the street ..."' - , 'Short & shrift' -
]
do
buffer = StringWriter()
out = XMLOutputFactory.newInstance().createXMLStreamWriter(buffer)
out.writeStartDocument("UTF-8", "1.0") out.writeCharacters('\n')
out.writeStartElement("CharacterRemarks") out.writeCharacters('\n')
loop i_ = 0 to names.length - 1 out.writeStartElement("Character") out.writeAttribute("name", names[i_]) out.writeCharacters(remarks[i_]) out.writeEndElement() out.writeCharacters('\n') end i_
out.writeEndElement() out.writeEndDocument() out.writeCharacters('\n')
say buffer.toString
catch ex = Exception
ex.printStackTrace
end
return </lang>
- Output
<lang xml><?xml version="1.0" encoding="UTF-8"?> <CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks> </lang>
Nim
<lang nim>import xmltree, strtabs, sequtils
proc charsToXML(names, remarks: seq[string]): XmlNode =
result = <>CharacterRemarks() for name, remark in items zip(names, remarks): result.add <>Character(name=name, remark.newText)
echo charsToXML(@["April", "Tam O'Shanter", "Emily"],
@["Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"])</lang>
Output: <lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
Objeck
<lang objeck>use Data.XML; use Collection.Generic;
class Test {
function : Main(args : String[]) ~ Nil { # list of name names := Vector->New()<String>; names->AddBack("April"); names->AddBack("Tam O'Shanter"); names->AddBack("Emily"); # list of comments comments := Vector->New()<String>; comments->AddBack("Bubbly: I'm > Tam and <= Emily"); comments->AddBack("Burns: \"When chapman billies leave the street ...\""); comments->AddBack(XmlElement->EncodeString("Short & shrift"); # build XML document builder := XmlBuilder->New("CharacterRemarks"); root := builder->GetRoot(); if(names->Size() = comments->Size()) { each(i : names) { element := XmlElement->New(XmlElement->Type->ELEMENT, "Character"); element->AddAttribute(XmlAttribute->New("name", names->Get(i))); element->SetContent(XmlElement->EncodeString(comments->Get(i))); root->AddChild(element); }; }; builder->ToString()->PrintLine(); }
} </lang>
OCaml
from the toplevel using the library xml-light:
<lang ocaml># #directory "+xml-light" (* or maybe "+site-lib/xml-light" *) ;;
- #load "xml-light.cma" ;;
- let data = [
("April", "Bubbly: I'm > Tam and <= Emily"); ("Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""); ("Emily", "Short & shrift"); ] in let tags = List.map (fun (name, comment) -> Xml.Element ("Character", [("name", name)], [(Xml.PCData comment)]) ) data in print_endline ( Xml.to_string_fmt (Xml.Element ("CharacterRemarks", [], tags))) ;;
<CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks> - : unit = ()</lang>
Another solution using the library xmlm:
<lang ocaml>#directory "+xmlm"
- load "xmlm.cmo"
open Xmlm
let datas = [
("April", "Bubbly: I'm > Tam and <= Emily"); ("Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""); ("Emily", "Short & shrift"); ]
let xo = make_output (`Channel stdout)
let () =
output xo (`Dtd None); output xo (`El_start (("", "CharacterRemarks"), [])); List.iter (fun (name, content) -> output xo (`El_start (("", "Character"), [(("", "name"), name)])); output xo (`Data content); output xo (`El_end); ) datas; output xo (`El_end); print_newline()</lang>
Oz
It is natural to represent XML document as nested Oz records. Writing a function that serializes records to textual XML is not too difficult.
<lang oz>declare
proc {Main} Names = ["April"
"Tam O'Shanter" "Emily"]
Remarks = ["Bubbly: I'm > Tam and <= Emily"
"Burns: \"When chapman billies leave the street ...\"" "Short & shrift"]
Characters = {List.zip Names Remarks
fun {$ N R} 'Character'(name:N R) end}
DOM = {List.toTuple 'CharacterRemarks' Characters} in {System.showInfo {Serialize DOM}} end
fun {Serialize DOM} "<?xml version=\"1.0\" ?>\n"# {SerializeElement DOM 0} end
fun {SerializeElement El Indent} Name = {Label El} Attributes ChildElements Contents {DestructureElement El ?Attributes ?ChildElements ?Contents} EscContents = {Map Contents Escape} Spaces = {List.make Indent} for S in Spaces do S = & end in Spaces#"<"#Name# {VSConcatMap Attributes SerializeAttribute}#">"# {VSConcat EscContents}#{When ChildElements\=nil "\n"}# {VSConcatMap ChildElements fun {$ E} {SerializeElement E Indent+4} end}# {When ChildElements\=nil Spaces}#"</"#Name#">\n" end
proc {DestructureElement El ?Attrs ?ChildElements ?Contents} SubelementRec AttributeRec {Record.partitionInd El fun {$ I _} {Int.is I} end ?SubelementRec ?AttributeRec} Subelements = {Record.toList SubelementRec} in {List.partition Subelements VirtualString.is ?Contents ?ChildElements} Attrs = {Record.toListInd AttributeRec} end
fun {SerializeAttribute Name#Value} " "#Name#"=\""#{EscapeAttribute Value}#"\"" end
fun {Escape VS} {Flatten {Map {VirtualString.toString VS} EscapeChar}} end
fun {EscapeAttribute VS} {Flatten {Map {VirtualString.toString VS} EscapeAttributeChar}} end
fun {EscapeChar X} case X of 60 then "<" [] 62 then ">" [] 38 then "&" else X end end
fun {EscapeAttributeChar X} case X of 34 then """ else {EscapeChar X} end end
%% concatenates a list to a virtual string fun {VSConcat Xs} {List.toTuple '#' Xs} end
fun {VSConcatMap Xs F} {VSConcat {Map Xs F}} end
fun {When Cond X} if Cond then X else nil end end
in
{Main}</lang>
Output: <lang xml><?xml version="1.0" ?> <CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
Perl
<lang perl>#! /usr/bin/perl use strict; use XML::Mini::Document;
my @students = ( [ "April", "Bubbly: I'm > Tam and <= Emily" ],
[ "Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\"" ],
[ "Emily", "Short & shrift" ]
);
my $doc = XML::Mini::Document->new(); my $root = $doc->getRoot(); my $studs = $root->createChild("CharacterRemarks"); foreach my $s (@students) {
my $stud = $studs->createChild("Character"); $stud->attribute("name", $s->[0]); $stud->text($s->[1]);
} print $doc->toString();</lang>
Phix
<lang Phix>constant {hchars,hsubs} = columnize({{"<","<"},
{">",">"}, {"&","&"}, {"\"","""}, {"\'","'"}})
function xmlquote_all(sequence s)
for i=1 to length(s) do s[i] = substitute_all(s[i],hchars,hsubs) end for return s
end function
function xml_CharacterRemarks(sequence data) string res = "<CharacterRemarks>\n"
for i=1 to length(data) do res &= sprintf(" <CharacterName=\"%s\">%s</Character>\n",xmlquote_all(data[i])) end for return res & "</CharacterRemarks>\n"
end function
constant testset = {
{"April", "Bubbly: I'm > Tam and <= Emily"}, {"Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\""}, {"Emily", "Short & shrift"}
} printf(1,xml_CharacterRemarks(testset))
-- Sample output: -- <CharacterRemarks> -- <CharacterName="April">Bubbly: I'm > Tam and <= Emily</Character> -- <CharacterName="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> -- <CharacterName="Emily">Short & shrift</Character> -- </CharacterRemarks></lang>
PicoLisp
<lang PicoLisp>(load "@lib/xml.l")
(de characterRemarks (Names Remarks)
(xml (cons 'CharacterRemarks NIL (mapcar '((Name Remark) (list 'Character (list (cons 'name Name)) Remark) ) Names Remarks ) ) ) )
(characterRemarks
'("April" "Tam O'Shanter" "Emily") (quote "I'm > Tam and <= Emily" "Burns: \"When chapman billies leave the street ..." "Short & shrift" ) )</lang>
Output:
<CharacterRemarks> <Character name="April">I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ...</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
PureBasic
<lang Purebasic>DataSection
dataItemCount: Data.i 3 names: Data.s "April", "Tam O'Shanter", "Emily" remarks: Data.s "Bubbly: I'm > Tam and <= Emily", ~"Burns: \"When chapman billies leave the street ...\"", "Short & shrift"
EndDataSection
Structure characteristic
name.s remark.s
EndStructure
NewList didel.characteristic() Define item.s, numberOfItems, i
Restore dataItemCount Read.i numberOfItems
- add names
Restore names For i = 1 To numberOfItems
AddElement(didel()) Read.s item didel()\name = item
Next
- add remarks
ResetList(didel()) FirstElement(didel()) Restore remarks: For i = 1 To numberOfItems
Read.s item didel()\remark = item NextElement(didel())
Next
Define xml, mainNode, itemNode ResetList(didel()) FirstElement(didel()) xml = CreateXML(#PB_Any) mainNode = CreateXMLNode(RootXMLNode(xml), "CharacterRemarks") ForEach didel()
itemNode = CreateXMLNode(mainNode, "Character") SetXMLAttribute(itemNode, "name", didel()\name) SetXMLNodeText(itemNode, didel()\remark)
Next FormatXML(xml, #PB_XML_ReFormat | #PB_XML_WindowsNewline | #PB_XML_ReIndent)
If OpenConsole()
PrintN(ComposeXML(xml, #PB_XML_NoDeclaration)) Print(#CRLF$ + #CRLF$ + "Press ENTER to exit"): Input() CloseConsole()
EndIf</lang> Sample output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the st reet ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Python
Normal output is all one line of XML, the .replace(...) makes it more readable. <lang python>>>> from xml.etree import ElementTree as ET >>> from itertools import izip >>> def characterstoxml(names, remarks): root = ET.Element("CharacterRemarks") for name, remark in izip(names, remarks): c = ET.SubElement(root, "Character", {'name': name}) c.text = remark return ET.tostring(root)
>>> print characterstoxml( names = ["April", "Tam O'Shanter", "Emily"], remarks = [ "Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."', 'Short & shrift' ] ).replace('><','>\n<')</lang> Gives the output: <lang xml><CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks></lang>
R
<lang R>library(XML) char2xml <- function(names, remarks){ tt <- xmlHashTree() head <- addNode(xmlNode("CharacterRemarks"), character(), tt) node <- list() for (i in 1:length(names)){ nodei <- addNode(xmlNode("Character", attrs=c(name=names[i])), head, tt) addNode(xmlTextNode(remarks[i]), nodei, tt) } return(tt) } output <- char2xml( names=c("April","Tam O'Shanter","Emily"), remarks=c("Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."', "Short & shrift") )</lang>
Gives the output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Racket
<lang racket>
- lang racket
(require xml)
(define (make-character-xexpr characters remarks)
`(CharacterRemarks ,@(for/list ([character characters] [remark remarks]) `(Character ((name ,character)) ,remark))))
(display-xml/content
(xexpr->xml (make-character-xexpr '("April" "Tam O'Shanter" "Emily") '("Bubbly: I'm > Tam and <= Emily" "Burns: \"When chapman billies leave the street ...\"" "Short & shrift"))))
</lang>
Output:
<lang xml> <CharacterRemarks>
<Character name="April"> Bubbly: I'm > Tam and <= Emily </Character> <Character name="Tam O'Shanter"> Burns: "When chapman billies leave the street ..." </Character> <Character name="Emily"> Short & shrift </Character>
</CharacterRemarks> </lang>
Raku
(formerly Perl 6)
<lang perl6>use XML::Writer;
my @students =
[ Q[April], Q[Bubbly: I'm > Tam and <= Emily] ], [ Q[Tam O'Shanter], Q[Burns: "When chapman billies leave the street ..."] ], [ Q[Emily], Q[Short & shrift] ]
my @lines = map { :Character[:name(.[0]), .[1]] }, @students;
say XML::Writer.serialize( CharacterRemarks => @lines );</lang>
- Output:
<lang XML><CharacterRemarks><Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character></CharacterRemarks></lang>
Rascal
<lang rascal>import Prelude; import lang::xml::DOM;
list[str] charnames = ["April", "Tam O\'Shanter", "Emily"]; list[str] remarks = ["Bubbly: I\'m \> Tam and \<= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"];
public void xmloutput(list[str] n,list[str] r){ if(size(n) != size(r)){ throw "n and r should be of the same size";
}
else{ characters = [element(none(),"Character",[attribute(none(),"name",n[i]), charData(r[i])]),charData("\n")| i <- [0..size(n)-1]]; x = document(element(none(),"CharacterRemarks",characters)); return println(xmlPretty(x));
}
}</lang> This gives an output: <lang rascal>rascal>xmloutput(charnames, remarks) <?xml version="1.0" encoding="UTF-8"?> <CharacterRemarks>
<Character name="April">Bubbly: I'\m > Tam and <= Emily</Character> <Character name="Tam O'\Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks>
ok</lang>
REXX
REXX doesn't have any functions to handle XML entities, an abbreviated version is included here. <lang rexx>/*REXX program creates an HTML (XML) list of character names and corresponding remarks. */ charname. = charname.1 = "April" charname.2 = "Tam O'Shanter" charname.3 = "Emily"
do i=1 while charname.i\== say 'charname' i '=' charname.i end /*i*/; say
remark. = remark.1 = "I'm > Tam and <= Emily" remark.2 = "When chapman billies leave the street ..." remark.3 = "Short & shift"
do k=1 while remark.k\== say ' remark' k '=' remark.k end /*k*/; say
items = 0 header = 'CharacterRemarks' header = header'>'
do j=1 while charname.j\== _=charname.j if j==1 then call create '<'header call create ' <Character name="' ||, char2xml(_)'">"' ||, char2xml(remark.j)'"</Character>' end /*j*/
if create.0\==0 then call create '</'header
do m=1 for create.0 say create.m /*display the Mth entry to terminal. */ end /*m*/
exit /*stick a fork in it, we're all done. */ /*──────────────────────────────────────────────────────────────────────────────────────*/ char2xml: procedure; parse arg $
amper = pos('&', $)\==0 /* & has to be treated special. */ semi = pos(';', $)\==0 /* ; " " " " " */ #=0 /* [↓] find a free/unused character···*/ if amper then do /* ··· and translate freely. */ do j=0 for 255; ?=d2c(j); if pos(?, $)==0 then leave end /*j*/ $=translate($, ?, "&"); #= j + 1 end /* [↓] find a free/unused character···*/ if semi then do /* ··· and translate freely. */ do k=# for 255; ?=d2c(k); if pos(?, $)==0 then leave end /*k*/ $=translate($, ?, ";") end
/*───── Following are most of the characters in the DOS (or DOS Windows) codepage 437 ──────────*/
$=XML_('â',"ETH") ; $=XML_('ƒ',"fnof") ; $=XML_('═',"boxH") ; $=XML_('♥',"hearts") $=XML_('â','#x00e2') ; $=XML_('á',"aacute"); $=XML_('╬',"boxVH") ; $=XML_('♦',"diams") $=XML_('â','#x00e9') ; $=XML_('á','#x00e1'); $=XML_('╧',"boxHu") ; $=XML_('♣',"clubs") $=XML_('ä',"auml") ; $=XML_('í',"iacute"); $=XML_('╨',"boxhU") ; $=XML_('♠',"spades") $=XML_('ä','#x00e4') ; $=XML_('í','#x00ed'); $=XML_('╤',"boxHd") ; $=XML_('♂',"male") $=XML_('à',"agrave") ; $=XML_('ó',"oacute"); $=XML_('╥',"boxhD") ; $=XML_('♀',"female") $=XML_('à','#x00e0') ; $=XML_('ó','#x00f3'); $=XML_('╙',"boxUr") ; $=XML_('☼',"#x263c") $=XML_('å',"aring") ; $=XML_('ú',"uacute"); $=XML_('╘',"boxuR") ; $=XML_('↕',"UpDownArrow") $=XML_('å','#x00e5') ; $=XML_('ú','#x00fa'); $=XML_('╒',"boxdR") ; $=XML_('¶',"para") $=XML_('ç',"ccedil") ; $=XML_('ñ',"ntilde"); $=XML_('╓',"boxDr") ; $=XML_('§',"sect") $=XML_('ç','#x00e7') ; $=XML_('ñ','#x00f1'); $=XML_('╫',"boxVh") ; $=XML_('↑',"uarr") $=XML_('ê',"ecirc") ; $=XML_('Ñ',"Ntilde"); $=XML_('╪',"boxvH") ; $=XML_('↑',"uparrow") $=XML_('ê','#x00ea') ; $=XML_('Ñ','#x00d1'); $=XML_('┘',"boxul") ; $=XML_('↑',"ShortUpArrow") $=XML_('ë',"euml") ; $=XML_('¿',"iquest"); $=XML_('┌',"boxdr") ; $=XML_('↓',"darr") $=XML_('ë','#x00eb') ; $=XML_('⌐',"bnot") ; $=XML_('█',"block") ; $=XML_('↓',"downarrow") $=XML_('è',"egrave") ; $=XML_('¬',"not") ; $=XML_('▄',"lhblk") ; $=XML_('↓',"ShortDownArrow") $=XML_('è','#x00e8') ; $=XML_('½',"frac12"); $=XML_('▀',"uhblk") ; $=XML_('←',"larr") $=XML_('ï',"iuml") ; $=XML_('½',"half") ; $=XML_('α',"alpha") ; $=XML_('←',"leftarrow") $=XML_('ï','#x00ef') ; $=XML_('¼',"frac14"); $=XML_('ß',"beta") ; $=XML_('←',"ShortLeftArrow") $=XML_('î',"icirc") ; $=XML_('¡',"iexcl") ; $=XML_('ß',"szlig") ; $=XML_('1c'x,"rarr") $=XML_('î','#x00ee') ; $=XML_('«',"laqru") ; $=XML_('ß','#x00df') ; $=XML_('1c'x,"rightarrow") $=XML_('ì',"igrave") ; $=XML_('»',"raqru") ; $=XML_('Γ',"Gamma") ; $=XML_('1c'x,"ShortRightArrow") $=XML_('ì','#x00ec') ; $=XML_('░',"blk12") ; $=XML_('π',"pi") ; $=XML_('!',"excl") $=XML_('Ä',"Auml") ; $=XML_('▒',"blk14") ; $=XML_('Σ',"Sigma") ; $=XML_('"',"apos") $=XML_('Ä','#x00c4') ; $=XML_('▓',"blk34") ; $=XML_('σ',"sigma") ; $=XML_('$',"dollar") $=XML_('Å',"Aring") ; $=XML_('│',"boxv") ; $=XML_('µ',"mu") ; $=XML_("'","quot") $=XML_('Å','#x00c5') ; $=XML_('┤',"boxvl") ; $=XML_('τ',"tau") ; $=XML_('*',"ast") $=XML_('É',"Eacute") ; $=XML_('╡',"boxvL") ; $=XML_('Φ',"phi") ; $=XML_('/',"sol") $=XML_('É','#x00c9') ; $=XML_('╢',"boxVl") ; $=XML_('Θ',"Theta") ; $=XML_(':',"colon") $=XML_('æ',"aelig") ; $=XML_('╖',"boxDl") ; $=XML_('δ',"delta") ; $=XML_('<',"lt") $=XML_('æ','#x00e6') ; $=XML_('╕',"boxdL") ; $=XML_('∞',"infin") ; $=XML_('=',"equals") $=XML_('Æ',"AElig") ; $=XML_('╣',"boxVL") ; $=XML_('φ',"Phi") ; $=XML_('>',"gt") $=XML_('Æ','#x00c6') ; $=XML_('║',"boxV") ; $=XML_('ε',"epsilon") ; $=XML_('?',"quest") $=XML_('ô',"ocirc") ; $=XML_('╗',"boxDL") ; $=XML_('∩',"cap") ; $=XML_('_',"commat") $=XML_('ô','#x00f4') ; $=XML_('╝',"boxUL") ; $=XML_('≡',"equiv") ; $=XML_('[',"lbrack") $=XML_('ö',"ouml") ; $=XML_('╜',"boxUl") ; $=XML_('±',"plusmn") ; $=XML_('\',"bsol") $=XML_('ö','#x00f6') ; $=XML_('╛',"boxuL") ; $=XML_('±',"pm") ; $=XML_(']',"rbrack") $=XML_('ò',"ograve") ; $=XML_('┐',"boxdl") ; $=XML_('±',"PlusMinus") ; $=XML_('^',"Hat") $=XML_('ò','#x00f2') ; $=XML_('└',"boxur") ; $=XML_('≥',"ge") ; $=XML_('`',"grave") $=XML_('û',"ucirc") ; $=XML_('┴',"bottom"); $=XML_('≤',"le") ; $=XML_('{',"lbrace") $=XML_('û','#x00fb') ; $=XML_('┴',"boxhu") ; $=XML_('÷',"div") ; $=XML_('{',"lcub") $=XML_('ù',"ugrave") ; $=XML_('┬',"boxhd") ; $=XML_('÷',"divide") ; $=XML_('|',"vert") $=XML_('ù','#x00f9') ; $=XML_('├',"boxvr") ; $=XML_('≈',"approx") ; $=XML_('|',"verbar") $=XML_('ÿ',"yuml") ; $=XML_('─',"boxh") ; $=XML_('∙',"bull") ; $=XML_('}',"rbrace") $=XML_('ÿ','#x00ff') ; $=XML_('┼',"boxvh") ; $=XML_('°',"deg") ; $=XML_('}',"rcub") $=XML_('Ö',"Ouml") ; $=XML_('╞',"boxvR") ; $=XML_('·',"middot") ; $=XML_('Ç',"Ccedil") $=XML_('Ö','#x00d6') ; $=XML_('╟',"boxVr") ; $=XML_('·',"middledot") ; $=XML_('Ç','#x00c7') $=XML_('Ü',"Uuml") ; $=XML_('╚',"boxUR") ; $=XML_('·',"centerdot") ; $=XML_('ü',"uuml") $=XML_('Ü','#x00dc') ; $=XML_('╔',"boxDR") ; $=XML_('·',"CenterDot") ; $=XML_('ü','#x00fc') $=XML_('¢',"cent") ; $=XML_('╩',"boxHU") ; $=XML_('√',"radic") ; $=XML_('é',"eacute") $=XML_('£',"pound") ; $=XML_('╦',"boxHD") ; $=XML_('²',"sup2") ; $=XML_('é','#x00e9') $=XML_('¥',"yen") ; $=XML_('╠',"boxVR") ; $=XML_('■',"square ") ; $=XML_('â',"acirc")
if amper then $=xml_(?, "amp") /*Was there an ampersand? Translate it*/ if semi then $=xml_(??, "semi") /* " " " semicolon? " "*/ return $
/*──────────────────────────────────────────────────────────────────────────────────────*/ create: items= items + 1 /*bump the count of items in the list. */
create.items= arg(1) /*add item to the CREATE list. */ create.0 = items /*indicate how many items in the list. */ return
/*──────────────────────────────────────────────────────────────────────────────────────*/ xml_: parse arg _ /*make an XML entity (&xxxx;) */
if pos(_, $)\==0 then return changestr(_, $, "&"arg(2)";") return $</lang>
Some older REXXes don't have a changestr bif, so one is included here ──► CHANGESTR.REX.
- output (unrendered):
charname 1 = April charname 2 = Tam O'Shanter charname 3 = Emily remark 1 = I'm > Tam and <= Emily remark 2 = When chapman billies leave the street ... remark 3 = Short & shift <CharacterRemarks> <Character name="April">"I"m > Tam and <= Emily"</Character> <Character name="Tam O"Shanter">"When chapman billies leave the street ..."</Character> <Character name="Emily">"Short & shift"</Character> </CharacterRemarks>
Ruby
The library handles character mapping when adding attributes and text.<lang ruby>require 'rexml/document' include REXML
remarks = {
%q(April) => %q(Bubbly: I'm > Tam and <= Emily), %q(Tam O'Shanter) => %q(Burns: "When chapman billies leave the street ..."), %q(Emily) => %q(Short & shrift),
}
doc = Document.new root = doc.add_element("CharacterRemarks")
remarks.each doforeach {name comment} {
April "Bubbly: I'm > Tam and <= Emily" "Tam O'Shanter" "Burns: \"When chapman billies leave the street ...\"" Emily "Short & shrift"
} {
append cmd " \[< Character {Name [xquote $name]} [xquote $comment]\]"
} puts [eval $cmd]</lang>
produces
<CharacterRemarks><Character Name='April'>Bubbly: I'm < Tam and >= Emily</Character> <Character Name='Tam O'Shanter'>Burns: "When chapman billies leave the street ..."</Character> <Character Name='Emily'>Short & shrift</Character></CharacterRemarks>
Working with DOM trees
Using
<lang tcl>package require tdom set xml [dom createDocument CharacterRemarks] foreach {name comment} {
April "Bubbly: I'm > Tam and <= Emily" "Tam O'Shanter" "Burns: \"When chapman billies leave the street ...\"" Emily "Short & shrift"
} {
set elem [$xml createElement Character] $elem setAttribute name $name $elem appendChild [$xml createTextNode $comment] [$xml documentElement] appendChild $elem
} $xml asXML</lang>
<CharacterRemarks> <Character name="April">Bubbly: I'm &gt; Tam and &lt;= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Using
<lang tcl>package require dom set xml [dom::DOMImplementation create] set root [dom::document createElement $xml CharacterRemarks] foreach {name comment} {
April "Bubbly: I'm > Tam and <= Emily" "Tam O'Shanter" "Burns: \"When chapman billies leave the street ...\"" Emily "Short & shrift"
} {
set element [dom::document createElement $root Character] dom::element setAttribute $element name $name dom::document createTextNode $element $comment
} dom::DOMImplementation serialize $xml -indent 1</lang> produces (with line breaks added for clarity:
<?xml version="1.0"?> <CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
TUSCRIPT
<lang tuscript> $$ MODE TUSCRIPT STRUCTURE xmloutput DATA '<CharacterRemarks>' DATA * ' <Character name="' names +'">' remarks +'</Character>' DATA = '</CharacterRemarks>' ENDSTRUCTURE BUILD X_TABLE entitysubst=" >> > << < & & " ERROR/STOP CREATE ("dest",seq-o,-std-) ACCESS d: WRITE/ERASE/STRUCTURE "dest" num,str str="xmloutput"
names=* DATA April DATA Tam O'Shanter DATA Emily remarks=* DATA Bubbly: I'm > Tam and <= Emily DATA Burns: "When chapman billies leave the street ..." DATA Short & shrift remarks=EXCHANGE(remarks,entitysubst)
WRITE/NEXT d ENDACCESS d </lang> Output in file "dest":
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
VBScript
Saves in a file. <lang VBScript}}> Set objXMLDoc = CreateObject("msxml2.domdocument")
Set objRoot = objXMLDoc.createElement("CharacterRemarks") objXMLDoc.appendChild objRoot
Call CreateNode("April","Bubbly: I'm > Tam and <= Emily") Call CreateNode("Tam O'Shanter","Burns: ""When chapman billies leave the street ...""") Call CreateNode("Emily","Short & shrift")
objXMLDoc.save("C:\Temp\Test.xml")
Function CreateNode(attrib_value,node_value) Set objNode = objXMLDoc.createElement("Character") objNode.setAttribute "name", attrib_value objNode.text = node_value objRoot.appendChild objNode End Function </lang>
Vedit macro language
The input data is given in an edit buffer, one name+remark pair on each line line, separated with TAB character. <lang vedit>// Replace special characters with entities: Replace("&", "&", BEGIN+ALL+NOERR) // this must be the first replace! Replace("<", "<", BEGIN+ALL+NOERR) Replace(">", ">", BEGIN+ALL+NOERR) Replace("'", "'", BEGIN+ALL+NOERR) Replace('"', """, BEGIN+ALL+NOERR)
// Insert XML marking BOF IT("<CharacterRemarks>") IN Repeat(ALL) {
Search("^.", REGEXP+ERRBREAK) IT(' <Character name="') Replace('|T', '">') EOL IT('</Character>')
} EOF IT("</CharacterRemarks>") IN</lang>
Example input:
April Bubbly: I'm > Tam and <= Emily Tam O'Shanter Burns: "When chapman billies leave the street ..." Emily Short & shrift
Produces this output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..." </Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Visual Basic .NET
<lang vbnet>Module XMLOutput
Sub Main() Dim charRemarks As New Dictionary(Of String, String) charRemarks.Add("April", "Bubbly: I'm > Tam and <= Emily") charRemarks.Add("Tam O'Shanter", "Burns: ""When chapman billies leave the street ...""") charRemarks.Add("Emily", "Short & shrift")
Dim xml = <CharacterRemarks> <%= From cr In charRemarks Select <Character name=<%= cr.Key %>><%= cr.Value %></Character> %> </CharacterRemarks>
Console.WriteLine(xml) End Sub
End Module</lang>
Output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
Wren
<lang ecmascript>var escapes = [
["&" , "&"], // must do this one first ["\"", """], ["'" , "'"], ["<" , "<"], [">" , ">"]
]
var xmlEscape = Fn.new { |s|
for (esc in escapes) s = s.replace(esc[0], esc[1]) return s
}
var xmlDoc = Fn.new { |names, remarks|
var xml = "<CharacterRemarks>\n" for (i in 0...names.count) { var name = xmlEscape.call(names[i]) var remark = xmlEscape.call(remarks[i]) xml = xml + " <Character name=\"%(name)\">%(remark)</Character>\n" } xml = xml + "</CharacterRemarks>" System.print(xml)
}
var names = ["April", "Tam O'Shanter", "Emily"] var remarks = [
"Bubbly: I'm > Tam and <= Emily", "Burns: \"When chapman billies leave the street ...\"", "Short & shrift"
] xmlDoc.call(names, remarks)</lang>
- Output:
<lang xml><CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks></lang>
XPL0
<lang XPL0>code ChOut=8, CrLf=9, Text=12; string 0; \use zero-terminated strings
proc XmlOut(S); \Output string in XML format char S; repeat case S(0) of \character entity substitutions
^<: Text(0, "<"); ^>: Text(0, ">"); ^&: Text(0, "&"); ^": Text(0, """); ^': Text(0, "'") other ChOut(0, S(0)); S:= S+1;
until S(0) = 0;
int Name, Remark, I; [Name:= ["April", "Tam O'Shanter", "Emily"]; Remark:= ["Bubbly: I'm > Tam and <= Emily",
"Burns: ^"When chapman billies leave the street ...^"", "Short & shrift"];
Text(0, "<CharacterRemarks>"); CrLf(0); for I:= 0 to 3-1 do
[Text(0, " <Character name=^""); XmlOut(Name(I)); Text(0, "^">"); XmlOut(Remark(I)); Text(0, "</Character>"); CrLf(0); ];
Text(0, "</CharacterRemarks>"); CrLf(0); ]</lang>
- Output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
XQuery
First, we create two string sequences (ordered lists), $names and $remarks, through which we then will loop, using a counter, $count, to keep the current iteration index, which we then will apply as XPath predicate to select an item at this index from the second sequence.
In the second variant we use a function 'fn:for-each-pair#3', instead of the FLOWR, to accomplish the same task. XML construction is being encapsulated within a callback function here.
Please note a single derivation from the requested task at the third item of the second list: I had to replace the ampersand (&) character with its XML entity, otherwise the input would have not been valid for the XQuery processor.
Variant #1-1: using a FLOWR expression and element constructors
<lang xquery> let $names := ("April","Tam O'Shanter","Emily") let $remarks := ("Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."',"Short & shrift") return element CharacterRemarks {
for $name at $count in $names return element Character { attribute name { $name } ,text { $remarks[$count] } } }
</lang>
Variant #1-2: using a FLOWR expression and literal XML
<lang xquery> let $names := ("April","Tam O'Shanter","Emily") let $remarks := ("Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."',"Short & shrift") return <CharacterRemarks>
{ for $name at $count in $names return <Character name='{$name}'> {$remarks[$count]} </Character> } </CharacterRemarks>
</lang>
Variant #2-1: using a Higher Order Function and element constructors
<lang xquery> xquery version "3.1";
let $names := ("April","Tam O'Shanter","Emily") let $remarks := ("Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."',"Short & shrift") return element CharacterRemarks {
for-each-pair($names, $remarks, function($name, $remark) { element Character { attribute name { $name } ,text { $remark } } }) }
</lang>
Variant #2-2: using a Higher Order Function and literal XML expressions :)
<lang xquery> xquery version "3.1";
let $names := ("April","Tam O'Shanter","Emily") let $remarks := ("Bubbly: I'm > Tam and <= Emily", 'Burns: "When chapman billies leave the street ..."',"Short & shrift") return <CharacterRemarks>
{ for-each-pair($names, $remarks, function($name, $remark) { <Character name='{$name}'> {$remark} </Character> }) } </CharacterRemarks>
</lang>
Result for all variants:
<lang xml> <CharacterRemarks>
<Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character>
</CharacterRemarks> </lang>
Yabasic
<lang Yabasic>sign$ = "<,<,>,>,&,&" dim sign$(1) long = token(sign$, sign$(), ",")
sub substitute_all$(s$)
local i for i = 1 to long step 2 if s$ = sign$(i) return sign$(i + 1) next i return s$
end sub
sub xmlquote_all$(s$)
local i, res$ for i = 1 to len(s$) res$ = res$ + substitute_all$(mid$(s$, i, 1)) next i return res$
end sub
sub xml_CharacterRemarks$(datos$())
local res$, i, long long = arraysize(datos$(), 1) res$ = "<CharacterRemarks>\n" for i = 1 to long res$ = res$ + " <CharacterName=\"" + xmlquote_all$(datos$(i, 1)) + "\">" + xmlquote_all$(datos$(i, 2)) + "</Character>\n" next i return res$ + "</CharacterRemarks>\n"
end sub
data "April", "Bubbly: I'm > Tam and <= Emily" data "Tam O'Shanter", "Burns: \"When chapman billies leave the street ...\"" data "Emily", "Short & shrift"
dim testset$(3, 2)
for i = 1 to 3
read testset$(i, 1), testset$(i, 2)
next i
print xml_CharacterRemarks$(testset$())</lang>
zkl
<lang zkl>fcn xmlEscape(text){
text.replace(" &"," &") .replace(" \""," "") .replace(" '"," '") .replace(" <"," <") .replace(" >"," >")
} fcn toXML(as,bs){
xml:=Sink("<CharacterRemarks>\n"); as.zipWith('wrap(a,b){ xml.write(" <Character name=\"",xmlEscape(a),"\">",
xmlEscape(b),"</Character>\n");
},bs); xml.write("</CharacterRemarks>\n").close();
}
toXML(T("April", "Tam O'Shanter", "Emily"),
T("Bubbly: I'm > Tam and <= Emily", 0'|Burns: "When chapman billies leave the street ..."|,
"Short & shrift")) .print();</lang>
- Output:
<CharacterRemarks> <Character name="April">Bubbly: I'm > Tam and <= Emily</Character> <Character name="Tam O'Shanter">Burns: "When chapman billies leave the street ..."</Character> <Character name="Emily">Short & shrift</Character> </CharacterRemarks>
- Programming Tasks
- XML
- AArch64 Assembly
- Ada
- ALGOL 68
- ARM Assembly
- AutoHotkey
- BASIC
- Applesoft BASIC
- Commodore BASIC
- Bracmat
- C
- LibXML
- C sharp
- C++
- Clojure
- Common Lisp
- Closure XML
- D
- KXML
- Delphi
- Erlang
- Euphoria
- F Sharp
- Factor
- Fantom
- Forth
- Forth Foundation Library
- FreeBASIC
- Go
- Groovy
- Haskell
- HicEst
- J
- Java
- Joy
- Julia
- Kotlin
- Lasso
- Lua
- Mathematica
- MATLAB
- NetRexx
- Nim
- Objeck
- OCaml
- Oz
- Perl
- Phix
- PicoLisp
- PureBasic
- Python
- R
- Racket
- Raku
- Rascal
- REXX
- Ruby
- REXML
- TDOM
- TclXML
- TUSCRIPT
- VBScript
- Vedit macro language
- Visual Basic .NET
- Wren
- XPL0
- XQuery
- Yabasic
- Zkl
- Batch File/Omit
- PARI/GP/Omit