'use strict' ;
var obsidian = require ( 'obsidian' ) ;
var fs _1 = require ( 'fs' ) ;
var path _1 = require ( 'path' ) ;
function _interopDefaultLegacy ( e ) { return e && typeof e === 'object' && 'default' in e ? e : { 'default' : e } ; }
var fs _1 _ _default = /*#__PURE__*/ _interopDefaultLegacy ( fs _1 ) ;
var path _1 _ _default = /*#__PURE__*/ _interopDefaultLegacy ( path _1 ) ;
var EditMode ;
( function ( EditMode ) {
EditMode [ "AllSingle" ] = "All Single" ;
EditMode [ "AllMulti" ] = "All Multi" ;
EditMode [ "SomeMulti" ] = "Some Multi" ;
} ) ( EditMode || ( EditMode = { } ) ) ;
function noop ( ) { }
function run ( fn ) {
return fn ( ) ;
}
function blank _object ( ) {
return Object . create ( null ) ;
}
function run _all ( fns ) {
fns . forEach ( run ) ;
}
function is _function ( thing ) {
return typeof thing === 'function' ;
}
function safe _not _equal ( a , b ) {
return a != a ? b == b : a !== b || ( ( a && typeof a === 'object' ) || typeof a === 'function' ) ;
}
function is _empty ( obj ) {
return Object . keys ( obj ) . length === 0 ;
}
function append ( target , node ) {
target . appendChild ( node ) ;
}
function append _styles ( target , style _sheet _id , styles ) {
const append _styles _to = get _root _for _style ( target ) ;
if ( ! append _styles _to . getElementById ( style _sheet _id ) ) {
const style = element ( 'style' ) ;
style . id = style _sheet _id ;
style . textContent = styles ;
append _stylesheet ( append _styles _to , style ) ;
}
}
function get _root _for _style ( node ) {
if ( ! node )
return document ;
const root = node . getRootNode ? node . getRootNode ( ) : node . ownerDocument ;
if ( root && root . host ) {
return root ;
}
return node . ownerDocument ;
}
function append _stylesheet ( node , style ) {
append ( node . head || node , style ) ;
}
function insert ( target , node , anchor ) {
target . insertBefore ( node , anchor || null ) ;
}
function detach ( node ) {
node . parentNode . removeChild ( node ) ;
}
function destroy _each ( iterations , detaching ) {
for ( let i = 0 ; i < iterations . length ; i += 1 ) {
if ( iterations [ i ] )
iterations [ i ] . d ( detaching ) ;
}
}
function element ( name ) {
return document . createElement ( name ) ;
}
function text ( data ) {
return document . createTextNode ( data ) ;
}
function space ( ) {
return text ( ' ' ) ;
}
function listen ( node , event , handler , options ) {
node . addEventListener ( event , handler , options ) ;
return ( ) => node . removeEventListener ( event , handler , options ) ;
}
function attr ( node , attribute , value ) {
if ( value == null )
node . removeAttribute ( attribute ) ;
else if ( node . getAttribute ( attribute ) !== value )
node . setAttribute ( attribute , value ) ;
}
function children ( element ) {
return Array . from ( element . childNodes ) ;
}
function set _data ( text , data ) {
data = '' + data ;
if ( text . wholeText !== data )
text . data = data ;
}
function set _input _value ( input , value ) {
input . value = value == null ? '' : value ;
}
function set _style ( node , key , value , important ) {
if ( value === null ) {
node . style . removeProperty ( key ) ;
}
else {
node . style . setProperty ( key , value , important ? 'important' : '' ) ;
}
}
function select _option ( select , value ) {
for ( let i = 0 ; i < select . options . length ; i += 1 ) {
const option = select . options [ i ] ;
if ( option . _ _value === value ) {
option . selected = true ;
return ;
}
}
select . selectedIndex = - 1 ; // no option should be selected
}
function select _value ( select ) {
const selected _option = select . querySelector ( ':checked' ) || select . options [ 0 ] ;
return selected _option && selected _option . _ _value ;
}
let current _component ;
function set _current _component ( component ) {
current _component = component ;
}
function get _current _component ( ) {
if ( ! current _component )
throw new Error ( 'Function called outside component initialization' ) ;
return current _component ;
}
function onMount ( fn ) {
get _current _component ( ) . $$ . on _mount . push ( fn ) ;
}
const dirty _components = [ ] ;
const binding _callbacks = [ ] ;
const render _callbacks = [ ] ;
const flush _callbacks = [ ] ;
const resolved _promise = Promise . resolve ( ) ;
let update _scheduled = false ;
function schedule _update ( ) {
if ( ! update _scheduled ) {
update _scheduled = true ;
resolved _promise . then ( flush ) ;
}
}
function add _render _callback ( fn ) {
render _callbacks . push ( fn ) ;
}
// flush() calls callbacks in this order:
// 1. All beforeUpdate callbacks, in order: parents before children
// 2. All bind:this callbacks, in reverse order: children before parents.
// 3. All afterUpdate callbacks, in order: parents before children. EXCEPT
// for afterUpdates called during the initial onMount, which are called in
// reverse order: children before parents.
// Since callbacks might update component values, which could trigger another
// call to flush(), the following steps guard against this:
// 1. During beforeUpdate, any updated components will be added to the
// dirty_components array and will cause a reentrant call to flush(). Because
// the flush index is kept outside the function, the reentrant call will pick
// up where the earlier call left off and go through all dirty components. The
// current_component value is saved and restored so that the reentrant call will
// not interfere with the "parent" flush() call.
// 2. bind:this callbacks cannot trigger new flush() calls.
// 3. During afterUpdate, any updated components will NOT have their afterUpdate
// callback called a second time; the seen_callbacks set, outside the flush()
// function, guarantees this behavior.
const seen _callbacks = new Set ( ) ;
let flushidx = 0 ; // Do *not* move this inside the flush() function
function flush ( ) {
const saved _component = current _component ;
do {
// first, call beforeUpdate functions
// and update components
while ( flushidx < dirty _components . length ) {
const component = dirty _components [ flushidx ] ;
flushidx ++ ;
set _current _component ( component ) ;
update ( component . $$ ) ;
}
set _current _component ( null ) ;
dirty _components . length = 0 ;
flushidx = 0 ;
while ( binding _callbacks . length )
binding _callbacks . pop ( ) ( ) ;
// then, once components are updated, call
// afterUpdate functions. This may cause
// subsequent updates...
for ( let i = 0 ; i < render _callbacks . length ; i += 1 ) {
const callback = render _callbacks [ i ] ;
if ( ! seen _callbacks . has ( callback ) ) {
// ...so guard against infinite loops
seen _callbacks . add ( callback ) ;
callback ( ) ;
}
}
render _callbacks . length = 0 ;
} while ( dirty _components . length ) ;
while ( flush _callbacks . length ) {
flush _callbacks . pop ( ) ( ) ;
}
update _scheduled = false ;
seen _callbacks . clear ( ) ;
set _current _component ( saved _component ) ;
}
function update ( $$ ) {
if ( $$ . fragment !== null ) {
$$ . update ( ) ;
run _all ( $$ . before _update ) ;
const dirty = $$ . dirty ;
$$ . dirty = [ - 1 ] ;
$$ . fragment && $$ . fragment . p ( $$ . ctx , dirty ) ;
$$ . after _update . forEach ( add _render _callback ) ;
}
}
const outroing = new Set ( ) ;
function transition _in ( block , local ) {
if ( block && block . i ) {
outroing . delete ( block ) ;
block . i ( local ) ;
}
}
function mount _component ( component , target , anchor , customElement ) {
const { fragment , on _mount , on _destroy , after _update } = component . $$ ;
fragment && fragment . m ( target , anchor ) ;
if ( ! customElement ) {
// onMount happens before the initial afterUpdate
add _render _callback ( ( ) => {
const new _on _destroy = on _mount . map ( run ) . filter ( is _function ) ;
if ( on _destroy ) {
on _destroy . push ( ... new _on _destroy ) ;
}
else {
// Edge case - component was destroyed immediately,
// most likely as a result of a binding initialising
run _all ( new _on _destroy ) ;
}
component . $$ . on _mount = [ ] ;
} ) ;
}
after _update . forEach ( add _render _callback ) ;
}
function destroy _component ( component , detaching ) {
const $$ = component . $$ ;
if ( $$ . fragment !== null ) {
run _all ( $$ . on _destroy ) ;
$$ . fragment && $$ . fragment . d ( detaching ) ;
// TODO null out other refs, including component.$$ (but need to
// preserve final state?)
$$ . on _destroy = $$ . fragment = null ;
$$ . ctx = [ ] ;
}
}
function make _dirty ( component , i ) {
if ( component . $$ . dirty [ 0 ] === - 1 ) {
dirty _components . push ( component ) ;
schedule _update ( ) ;
component . $$ . dirty . fill ( 0 ) ;
}
component . $$ . dirty [ ( i / 31 ) | 0 ] |= ( 1 << ( i % 31 ) ) ;
}
function init ( component , options , instance , create _fragment , not _equal , props , append _styles , dirty = [ - 1 ] ) {
const parent _component = current _component ;
set _current _component ( component ) ;
const $$ = component . $$ = {
fragment : null ,
ctx : null ,
// state
props ,
update : noop ,
not _equal ,
bound : blank _object ( ) ,
// lifecycle
on _mount : [ ] ,
on _destroy : [ ] ,
on _disconnect : [ ] ,
before _update : [ ] ,
after _update : [ ] ,
context : new Map ( options . context || ( parent _component ? parent _component . $$ . context : [ ] ) ) ,
// everything else
callbacks : blank _object ( ) ,
dirty ,
skip _bound : false ,
root : options . target || parent _component . $$ . root
} ;
append _styles && append _styles ( $$ . root ) ;
let ready = false ;
$$ . ctx = instance
? instance ( component , options . props || { } , ( i , ret , ... rest ) => {
const value = rest . length ? rest [ 0 ] : ret ;
if ( $$ . ctx && not _equal ( $$ . ctx [ i ] , $$ . ctx [ i ] = value ) ) {
if ( ! $$ . skip _bound && $$ . bound [ i ] )
$$ . bound [ i ] ( value ) ;
if ( ready )
make _dirty ( component , i ) ;
}
return ret ;
} )
: [ ] ;
$$ . update ( ) ;
ready = true ;
run _all ( $$ . before _update ) ;
// `false` as a special case of no DOM component
$$ . fragment = create _fragment ? create _fragment ( $$ . ctx ) : false ;
if ( options . target ) {
if ( options . hydrate ) {
const nodes = children ( options . target ) ;
// eslint-disable-next-line @typescript-eslint/no-non-null-assertion
$$ . fragment && $$ . fragment . l ( nodes ) ;
nodes . forEach ( detach ) ;
}
else {
// eslint-disable-next-line @typescript-eslint/no-non-null-assertion
$$ . fragment && $$ . fragment . c ( ) ;
}
if ( options . intro )
transition _in ( component . $$ . fragment ) ;
mount _component ( component , options . target , options . anchor , options . customElement ) ;
flush ( ) ;
}
set _current _component ( parent _component ) ;
}
/ * *
* Base class for Svelte components . Used when dev = false .
* /
class SvelteComponent {
$destroy ( ) {
destroy _component ( this , 1 ) ;
this . $destroy = noop ;
}
$on ( type , callback ) {
const callbacks = ( this . $$ . callbacks [ type ] || ( this . $$ . callbacks [ type ] = [ ] ) ) ;
callbacks . push ( callback ) ;
return ( ) => {
const index = callbacks . indexOf ( callback ) ;
if ( index !== - 1 )
callbacks . splice ( index , 1 ) ;
} ;
}
$set ( $$props ) {
if ( this . $$set && ! is _empty ( $$props ) ) {
this . $$ . skip _bound = true ;
this . $$set ( $$props ) ;
this . $$ . skip _bound = false ;
}
}
}
var ProgressPropertyOptions ;
( function ( ProgressPropertyOptions ) {
ProgressPropertyOptions [ "TaskTotal" ] = "Total Tasks" ;
ProgressPropertyOptions [ "TaskComplete" ] = "Completed Tasks" ;
ProgressPropertyOptions [ "TaskIncomplete" ] = "Incomplete Tasks" ;
} ) ( ProgressPropertyOptions || ( ProgressPropertyOptions = { } ) ) ;
/* src/Modals/ProgressPropertiesSettingModal/ProgressPropertiesModalContent.svelte generated by Svelte v3.46.4 */
function add _css$3 ( target ) {
append _styles ( target , "svelte-kqcr7b" , ".buttonContainer.svelte-kqcr7b{display:flex;justify-content:center;margin-top:1rem}select.svelte-kqcr7b{border-radius:4px;width:100%;height:30px;border:1px solid #dbdbdc;color:#383a42;background-color:#fff;padding:3px}button.svelte-kqcr7b{margin-left:5px;margin-right:5px;font-size:15px}" ) ;
}
function get _each _context$3 ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 10 ] = list [ i ] ;
child _ctx [ 11 ] = list ;
child _ctx [ 12 ] = i ;
return child _ctx ;
}
function get _each _context _1$1 ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 13 ] = list [ i ] ;
return child _ctx ;
}
// (32:24) {#each options as text}
function create _each _block _1$1 ( ctx ) {
let option ;
return {
c ( ) {
option = element ( "option" ) ;
option . _ _value = /*text*/ ctx [ 13 ] ;
option . value = option . _ _value ;
attr ( option , "label" , /*text*/ ctx [ 13 ] ) ;
} ,
m ( target , anchor ) {
insert ( target , option , anchor ) ;
} ,
p : noop ,
d ( detaching ) {
if ( detaching ) detach ( option ) ;
}
} ;
}
// (25:8) {#each properties as property}
function create _each _block$3 ( ctx ) {
let tr ;
let td0 ;
let input0 ;
let t0 ;
let td1 ;
let select ;
let t1 ;
let td2 ;
let input1 ;
let t2 ;
let mounted ;
let dispose ;
function input0 _input _handler ( ) {
/*input0_input_handler*/ ctx [ 5 ] . call ( input0 , /*each_value*/ ctx [ 11 ] , /*property_index*/ ctx [ 12 ] ) ;
}
let each _value _1 = /*options*/ ctx [ 2 ] ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value _1 . length ; i += 1 ) {
each _blocks [ i ] = create _each _block _1$1 ( get _each _context _1$1 ( ctx , each _value _1 , i ) ) ;
}
function select _change _handler ( ) {
/*select_change_handler*/ ctx [ 7 ] . call ( select , /*each_value*/ ctx [ 11 ] , /*property_index*/ ctx [ 12 ] ) ;
}
function click _handler ( ) {
return /*click_handler*/ ctx [ 9 ] ( /*property*/ ctx [ 10 ] ) ;
}
return {
c ( ) {
tr = element ( "tr" ) ;
td0 = element ( "td" ) ;
input0 = element ( "input" ) ;
t0 = space ( ) ;
td1 = element ( "td" ) ;
select = element ( "select" ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t1 = space ( ) ;
td2 = element ( "td" ) ;
input1 = element ( "input" ) ;
t2 = space ( ) ;
attr ( input0 , "type" , "text" ) ;
attr ( input0 , "placeholder" , "Property name" ) ;
attr ( select , "class" , "svelte-kqcr7b" ) ;
if ( /*property*/ ctx [ 10 ] . type === void 0 ) add _render _callback ( select _change _handler ) ;
attr ( input1 , "type" , "button" ) ;
attr ( input1 , "class" , "not-a-button" ) ;
input1 . value = "❌" ;
} ,
m ( target , anchor ) {
insert ( target , tr , anchor ) ;
append ( tr , td0 ) ;
append ( td0 , input0 ) ;
set _input _value ( input0 , /*property*/ ctx [ 10 ] . name ) ;
append ( tr , t0 ) ;
append ( tr , td1 ) ;
append ( td1 , select ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( select , null ) ;
}
select _option ( select , /*property*/ ctx [ 10 ] . type ) ;
append ( tr , t1 ) ;
append ( tr , td2 ) ;
append ( td2 , input1 ) ;
append ( tr , t2 ) ;
if ( ! mounted ) {
dispose = [
listen ( input0 , "input" , input0 _input _handler ) ,
listen ( input0 , "change" , /*change_handler*/ ctx [ 6 ] ) ,
listen ( select , "change" , select _change _handler ) ,
listen ( select , "change" , /*change_handler_1*/ ctx [ 8 ] ) ,
listen ( input1 , "click" , click _handler )
] ;
mounted = true ;
}
} ,
p ( new _ctx , dirty ) {
ctx = new _ctx ;
if ( dirty & /*properties, options*/ 5 && input0 . value !== /*property*/ ctx [ 10 ] . name ) {
set _input _value ( input0 , /*property*/ ctx [ 10 ] . name ) ;
}
if ( dirty & /*options*/ 4 ) {
each _value _1 = /*options*/ ctx [ 2 ] ;
let i ;
for ( i = 0 ; i < each _value _1 . length ; i += 1 ) {
const child _ctx = get _each _context _1$1 ( ctx , each _value _1 , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block _1$1 ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( select , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value _1 . length ;
}
if ( dirty & /*properties, options*/ 5 ) {
select _option ( select , /*property*/ ctx [ 10 ] . type ) ;
}
} ,
d ( detaching ) {
if ( detaching ) detach ( tr ) ;
destroy _each ( each _blocks , detaching ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function create _fragment$4 ( ctx ) {
let div1 ;
let table ;
let thead ;
let t3 ;
let t4 ;
let div0 ;
let button ;
let mounted ;
let dispose ;
let each _value = /*properties*/ ctx [ 0 ] ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value . length ; i += 1 ) {
each _blocks [ i ] = create _each _block$3 ( get _each _context$3 ( ctx , each _value , i ) ) ;
}
return {
c ( ) {
div1 = element ( "div" ) ;
table = element ( "table" ) ;
thead = element ( "thead" ) ;
thead . innerHTML = ` <tr><th>Name</th>
< th > Type < / t h > < / t r > ` ;
t3 = space ( ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t4 = space ( ) ;
div0 = element ( "div" ) ;
button = element ( "button" ) ;
button . textContent = "Add" ;
set _style ( table , "width" , "100%" ) ;
attr ( button , "class" , "mod-cta svelte-kqcr7b" ) ;
attr ( div0 , "class" , "buttonContainer svelte-kqcr7b" ) ;
attr ( div1 , "class" , "centerSettingContent" ) ;
} ,
m ( target , anchor ) {
insert ( target , div1 , anchor ) ;
append ( div1 , table ) ;
append ( table , thead ) ;
append ( table , t3 ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( table , null ) ;
}
append ( div1 , t4 ) ;
append ( div1 , div0 ) ;
append ( div0 , button ) ;
if ( ! mounted ) {
dispose = listen ( button , "click" , /*addNewProperty*/ ctx [ 3 ] ) ;
mounted = true ;
}
} ,
p ( ctx , [ dirty ] ) {
if ( dirty & /*removeProperty, properties, save, options*/ 23 ) {
each _value = /*properties*/ ctx [ 0 ] ;
let i ;
for ( i = 0 ; i < each _value . length ; i += 1 ) {
const child _ctx = get _each _context$3 ( ctx , each _value , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block$3 ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( table , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value . length ;
}
} ,
i : noop ,
o : noop ,
d ( detaching ) {
if ( detaching ) detach ( div1 ) ;
destroy _each ( each _blocks , detaching ) ;
mounted = false ;
dispose ( ) ;
}
} ;
}
function instance$4 ( $$self , $$props , $$invalidate ) {
const options = Object . keys ( ProgressPropertyOptions ) . map ( k => ProgressPropertyOptions [ k ] ) ;
let { save } = $$props ;
let { properties } = $$props ;
function addNewProperty ( ) {
let newProp = {
name : "" ,
type : ProgressPropertyOptions . TaskTotal
} ;
$$invalidate ( 0 , properties = [ ... properties , newProp ] ) ;
save ( properties ) ;
}
function removeProperty ( property ) {
$$invalidate ( 0 , properties = properties . filter ( prop => prop !== property ) ) ;
save ( properties ) ;
}
function input0 _input _handler ( each _value , property _index ) {
each _value [ property _index ] . name = this . value ;
$$invalidate ( 0 , properties ) ;
$$invalidate ( 2 , options ) ;
}
const change _handler = ( ) => save ( properties ) ;
function select _change _handler ( each _value , property _index ) {
each _value [ property _index ] . type = select _value ( this ) ;
$$invalidate ( 0 , properties ) ;
$$invalidate ( 2 , options ) ;
}
const change _handler _1 = ( ) => save ( properties ) ;
const click _handler = property => removeProperty ( property ) ;
$$self . $$set = $$props => {
if ( 'save' in $$props ) $$invalidate ( 1 , save = $$props . save ) ;
if ( 'properties' in $$props ) $$invalidate ( 0 , properties = $$props . properties ) ;
} ;
return [
properties ,
save ,
options ,
addNewProperty ,
removeProperty ,
input0 _input _handler ,
change _handler ,
select _change _handler ,
change _handler _1 ,
click _handler
] ;
}
class ProgressPropertiesModalContent extends SvelteComponent {
constructor ( options ) {
super ( ) ;
init ( this , options , instance$4 , create _fragment$4 , safe _not _equal , { save : 1 , properties : 0 } , add _css$3 ) ;
}
}
/* src/Modals/AutoPropertiesSettingModal/AutoPropertiesModalContent.svelte generated by Svelte v3.46.4 */
function add _css$2 ( target ) {
append _styles ( target , "svelte-kqcr7b" , ".buttonContainer.svelte-kqcr7b{display:flex;justify-content:center;margin-top:1rem}button.svelte-kqcr7b{margin-left:5px;margin-right:5px;font-size:15px}" ) ;
}
function get _each _context$2 ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 13 ] = list [ i ] ;
child _ctx [ 14 ] = list ;
child _ctx [ 15 ] = i ;
return child _ctx ;
}
function get _each _context _1 ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 16 ] = list [ i ] ;
child _ctx [ 17 ] = list ;
child _ctx [ 18 ] = i ;
return child _ctx ;
}
// (49:20) {#each property.choices as choice, i}
function create _each _block _1 ( ctx ) {
let div ;
let input0 ;
let t0 ;
let input1 ;
let t1 ;
let mounted ;
let dispose ;
function input0 _input _handler ( ) {
/*input0_input_handler*/ ctx [ 10 ] . call ( input0 , /*each_value_1*/ ctx [ 17 ] , /*i*/ ctx [ 18 ] ) ;
}
function click _handler _1 ( ) {
return /*click_handler_1*/ ctx [ 11 ] ( /*property*/ ctx [ 13 ] , /*i*/ ctx [ 18 ] ) ;
}
return {
c ( ) {
div = element ( "div" ) ;
input0 = element ( "input" ) ;
t0 = space ( ) ;
input1 = element ( "input" ) ;
t1 = space ( ) ;
attr ( input0 , "type" , "text" ) ;
attr ( input1 , "class" , "not-a-button" ) ;
attr ( input1 , "type" , "button" ) ;
input1 . value = "❌" ;
set _style ( div , "display" , "block" ) ;
} ,
m ( target , anchor ) {
insert ( target , div , anchor ) ;
append ( div , input0 ) ;
set _input _value ( input0 , /*choice*/ ctx [ 16 ] ) ;
append ( div , t0 ) ;
append ( div , input1 ) ;
append ( div , t1 ) ;
if ( ! mounted ) {
dispose = [
listen ( input0 , "change" , /*change_handler_1*/ ctx [ 9 ] ) ,
listen ( input0 , "input" , input0 _input _handler ) ,
listen ( input1 , "click" , click _handler _1 )
] ;
mounted = true ;
}
} ,
p ( new _ctx , dirty ) {
ctx = new _ctx ;
if ( dirty & /*autoProperties*/ 1 && input0 . value !== /*choice*/ ctx [ 16 ] ) {
set _input _value ( input0 , /*choice*/ ctx [ 16 ] ) ;
}
} ,
d ( detaching ) {
if ( detaching ) detach ( div ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
// (40:8) {#each autoProperties as property}
function create _each _block$2 ( ctx ) {
let tr ;
let td0 ;
let input0 ;
let t0 ;
let td1 ;
let input1 ;
let t1 ;
let td2 ;
let t2 ;
let td3 ;
let div ;
let input2 ;
let t3 ;
let br ;
let mounted ;
let dispose ;
function click _handler ( ) {
return /*click_handler*/ ctx [ 6 ] ( /*property*/ ctx [ 13 ] ) ;
}
function input1 _input _handler ( ) {
/*input1_input_handler*/ ctx [ 8 ] . call ( input1 , /*each_value*/ ctx [ 14 ] , /*property_index*/ ctx [ 15 ] ) ;
}
let each _value _1 = /*property*/ ctx [ 13 ] . choices ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value _1 . length ; i += 1 ) {
each _blocks [ i ] = create _each _block _1 ( get _each _context _1 ( ctx , each _value _1 , i ) ) ;
}
function click _handler _2 ( ) {
return /*click_handler_2*/ ctx [ 12 ] ( /*property*/ ctx [ 13 ] ) ;
}
return {
c ( ) {
tr = element ( "tr" ) ;
td0 = element ( "td" ) ;
input0 = element ( "input" ) ;
t0 = space ( ) ;
td1 = element ( "td" ) ;
input1 = element ( "input" ) ;
t1 = space ( ) ;
td2 = element ( "td" ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t2 = space ( ) ;
td3 = element ( "td" ) ;
div = element ( "div" ) ;
input2 = element ( "input" ) ;
t3 = space ( ) ;
br = element ( "br" ) ;
attr ( input0 , "type" , "button" ) ;
input0 . value = "❌" ;
attr ( input0 , "class" , "not-a-button" ) ;
attr ( input1 , "type" , "text" ) ;
attr ( input1 , "placeholder" , "Property name" ) ;
attr ( input2 , "class" , "not-a-button" ) ;
attr ( input2 , "type" , "button" ) ;
input2 . value = "➕ " ;
set _style ( div , "width" , "50%" ) ;
set _style ( div , "text-align" , "center" ) ;
set _style ( div , "margin" , "5px auto auto" ) ;
} ,
m ( target , anchor ) {
insert ( target , tr , anchor ) ;
append ( tr , td0 ) ;
append ( td0 , input0 ) ;
append ( tr , t0 ) ;
append ( tr , td1 ) ;
append ( td1 , input1 ) ;
set _input _value ( input1 , /*property*/ ctx [ 13 ] . name ) ;
append ( tr , t1 ) ;
append ( tr , td2 ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( td2 , null ) ;
}
append ( tr , t2 ) ;
append ( tr , td3 ) ;
append ( td3 , div ) ;
append ( div , input2 ) ;
insert ( target , t3 , anchor ) ;
insert ( target , br , anchor ) ;
if ( ! mounted ) {
dispose = [
listen ( input0 , "click" , click _handler ) ,
listen ( input1 , "change" , /*change_handler*/ ctx [ 7 ] ) ,
listen ( input1 , "input" , input1 _input _handler ) ,
listen ( input2 , "click" , click _handler _2 )
] ;
mounted = true ;
}
} ,
p ( new _ctx , dirty ) {
ctx = new _ctx ;
if ( dirty & /*autoProperties*/ 1 && input1 . value !== /*property*/ ctx [ 13 ] . name ) {
set _input _value ( input1 , /*property*/ ctx [ 13 ] . name ) ;
}
if ( dirty & /*removeChoice, autoProperties, save*/ 19 ) {
each _value _1 = /*property*/ ctx [ 13 ] . choices ;
let i ;
for ( i = 0 ; i < each _value _1 . length ; i += 1 ) {
const child _ctx = get _each _context _1 ( ctx , each _value _1 , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block _1 ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( td2 , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value _1 . length ;
}
} ,
d ( detaching ) {
if ( detaching ) detach ( tr ) ;
destroy _each ( each _blocks , detaching ) ;
if ( detaching ) detach ( t3 ) ;
if ( detaching ) detach ( br ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function create _fragment$3 ( ctx ) {
let div1 ;
let table ;
let thead ;
let t4 ;
let t5 ;
let div0 ;
let button ;
let mounted ;
let dispose ;
let each _value = /*autoProperties*/ ctx [ 0 ] ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value . length ; i += 1 ) {
each _blocks [ i ] = create _each _block$2 ( get _each _context$2 ( ctx , each _value , i ) ) ;
}
return {
c ( ) {
div1 = element ( "div" ) ;
table = element ( "table" ) ;
thead = element ( "thead" ) ;
thead . innerHTML = ` <tr><th></th>
< th > Name < / t h >
< th > Values < / t h > < / t r > ` ;
t4 = space ( ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t5 = space ( ) ;
div0 = element ( "div" ) ;
button = element ( "button" ) ;
button . textContent = "Add" ;
attr ( button , "class" , "mod-cta svelte-kqcr7b" ) ;
attr ( div0 , "class" , "buttonContainer svelte-kqcr7b" ) ;
attr ( div1 , "class" , "centerSettingContent" ) ;
} ,
m ( target , anchor ) {
insert ( target , div1 , anchor ) ;
append ( div1 , table ) ;
append ( table , thead ) ;
append ( table , t4 ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( table , null ) ;
}
append ( div1 , t5 ) ;
append ( div1 , div0 ) ;
append ( div0 , button ) ;
if ( ! mounted ) {
dispose = listen ( button , "click" , /*addNewProperty*/ ctx [ 2 ] ) ;
mounted = true ;
}
} ,
p ( ctx , [ dirty ] ) {
if ( dirty & /*addChoice, autoProperties, removeChoice, save, removeProperty*/ 59 ) {
each _value = /*autoProperties*/ ctx [ 0 ] ;
let i ;
for ( i = 0 ; i < each _value . length ; i += 1 ) {
const child _ctx = get _each _context$2 ( ctx , each _value , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block$2 ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( table , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value . length ;
}
} ,
i : noop ,
o : noop ,
d ( detaching ) {
if ( detaching ) detach ( div1 ) ;
destroy _each ( each _blocks , detaching ) ;
mounted = false ;
dispose ( ) ;
}
} ;
}
function instance$3 ( $$self , $$props , $$invalidate ) {
let { save } = $$props ;
let { autoProperties = [ ] } = $$props ;
function addNewProperty ( ) {
let newProp = { name : "" , choices : [ "" ] } ;
if ( typeof autoProperties [ Symbol . iterator ] !== 'function' ) $$invalidate ( 0 , autoProperties = [ newProp ] ) ; else $$invalidate ( 0 , autoProperties = [ ... autoProperties , newProp ] ) ;
save ( autoProperties ) ;
}
function removeProperty ( property ) {
$$invalidate ( 0 , autoProperties = autoProperties . filter ( ac => ac !== property ) ) ;
save ( autoProperties ) ;
}
function removeChoice ( property , i ) {
property . choices . splice ( i , 1 ) ;
$$invalidate ( 0 , autoProperties ) ; // Svelte
save ( autoProperties ) ;
}
function addChoice ( property ) {
$$invalidate ( 0 , autoProperties = autoProperties . map ( prop => {
if ( prop === property ) {
prop . choices . push ( "" ) ;
}
return prop ;
} ) ) ;
save ( autoProperties ) ;
}
const click _handler = property => removeProperty ( property ) ;
const change _handler = ( ) => save ( autoProperties ) ;
function input1 _input _handler ( each _value , property _index ) {
each _value [ property _index ] . name = this . value ;
$$invalidate ( 0 , autoProperties ) ;
}
const change _handler _1 = ( ) => save ( autoProperties ) ;
function input0 _input _handler ( each _value _1 , i ) {
each _value _1 [ i ] = this . value ;
$$invalidate ( 0 , autoProperties ) ;
}
const click _handler _1 = ( property , i ) => removeChoice ( property , i ) ;
const click _handler _2 = property => addChoice ( property ) ;
$$self . $$set = $$props => {
if ( 'save' in $$props ) $$invalidate ( 1 , save = $$props . save ) ;
if ( 'autoProperties' in $$props ) $$invalidate ( 0 , autoProperties = $$props . autoProperties ) ;
} ;
return [
autoProperties ,
save ,
addNewProperty ,
removeProperty ,
removeChoice ,
addChoice ,
click _handler ,
change _handler ,
input1 _input _handler ,
change _handler _1 ,
input0 _input _handler ,
click _handler _1 ,
click _handler _2
] ;
}
class AutoPropertiesModalContent extends SvelteComponent {
constructor ( options ) {
super ( ) ;
init ( this , options , instance$3 , create _fragment$3 , safe _not _equal , { save : 1 , autoProperties : 0 } , add _css$2 ) ;
}
}
var top = 'top' ;
var bottom = 'bottom' ;
var right = 'right' ;
var left = 'left' ;
var auto = 'auto' ;
var basePlacements = [ top , bottom , right , left ] ;
var start = 'start' ;
var end = 'end' ;
var clippingParents = 'clippingParents' ;
var viewport = 'viewport' ;
var popper = 'popper' ;
var reference = 'reference' ;
var variationPlacements = /*#__PURE__*/ basePlacements . reduce ( function ( acc , placement ) {
return acc . concat ( [ placement + "-" + start , placement + "-" + end ] ) ;
} , [ ] ) ;
var placements = /*#__PURE__*/ [ ] . concat ( basePlacements , [ auto ] ) . reduce ( function ( acc , placement ) {
return acc . concat ( [ placement , placement + "-" + start , placement + "-" + end ] ) ;
} , [ ] ) ; // modifiers that need to read the DOM
var beforeRead = 'beforeRead' ;
var read = 'read' ;
var afterRead = 'afterRead' ; // pure-logic modifiers
var beforeMain = 'beforeMain' ;
var main = 'main' ;
var afterMain = 'afterMain' ; // modifier with the purpose to write to the DOM (or write into a framework state)
var beforeWrite = 'beforeWrite' ;
var write = 'write' ;
var afterWrite = 'afterWrite' ;
var modifierPhases = [ beforeRead , read , afterRead , beforeMain , main , afterMain , beforeWrite , write , afterWrite ] ;
function getNodeName ( element ) {
return element ? ( element . nodeName || '' ) . toLowerCase ( ) : null ;
}
function getWindow ( node ) {
if ( node == null ) {
return window ;
}
if ( node . toString ( ) !== '[object Window]' ) {
var ownerDocument = node . ownerDocument ;
return ownerDocument ? ownerDocument . defaultView || window : window ;
}
return node ;
}
function isElement ( node ) {
var OwnElement = getWindow ( node ) . Element ;
return node instanceof OwnElement || node instanceof Element ;
}
function isHTMLElement ( node ) {
var OwnElement = getWindow ( node ) . HTMLElement ;
return node instanceof OwnElement || node instanceof HTMLElement ;
}
function isShadowRoot ( node ) {
// IE 11 has no ShadowRoot
if ( typeof ShadowRoot === 'undefined' ) {
return false ;
}
var OwnElement = getWindow ( node ) . ShadowRoot ;
return node instanceof OwnElement || node instanceof ShadowRoot ;
}
// and applies them to the HTMLElements such as popper and arrow
function applyStyles ( _ref ) {
var state = _ref . state ;
Object . keys ( state . elements ) . forEach ( function ( name ) {
var style = state . styles [ name ] || { } ;
var attributes = state . attributes [ name ] || { } ;
var element = state . elements [ name ] ; // arrow is optional + virtual elements
if ( ! isHTMLElement ( element ) || ! getNodeName ( element ) ) {
return ;
} // Flow doesn't support to extend this property, but it's the most
// effective way to apply styles to an HTMLElement
// $FlowFixMe[cannot-write]
Object . assign ( element . style , style ) ;
Object . keys ( attributes ) . forEach ( function ( name ) {
var value = attributes [ name ] ;
if ( value === false ) {
element . removeAttribute ( name ) ;
} else {
element . setAttribute ( name , value === true ? '' : value ) ;
}
} ) ;
} ) ;
}
function effect$2 ( _ref2 ) {
var state = _ref2 . state ;
var initialStyles = {
popper : {
position : state . options . strategy ,
left : '0' ,
top : '0' ,
margin : '0'
} ,
arrow : {
position : 'absolute'
} ,
reference : { }
} ;
Object . assign ( state . elements . popper . style , initialStyles . popper ) ;
state . styles = initialStyles ;
if ( state . elements . arrow ) {
Object . assign ( state . elements . arrow . style , initialStyles . arrow ) ;
}
return function ( ) {
Object . keys ( state . elements ) . forEach ( function ( name ) {
var element = state . elements [ name ] ;
var attributes = state . attributes [ name ] || { } ;
var styleProperties = Object . keys ( state . styles . hasOwnProperty ( name ) ? state . styles [ name ] : initialStyles [ name ] ) ; // Set all values to an empty string to unset them
var style = styleProperties . reduce ( function ( style , property ) {
style [ property ] = '' ;
return style ;
} , { } ) ; // arrow is optional + virtual elements
if ( ! isHTMLElement ( element ) || ! getNodeName ( element ) ) {
return ;
}
Object . assign ( element . style , style ) ;
Object . keys ( attributes ) . forEach ( function ( attribute ) {
element . removeAttribute ( attribute ) ;
} ) ;
} ) ;
} ;
} // eslint-disable-next-line import/no-unused-modules
var applyStyles$1 = {
name : 'applyStyles' ,
enabled : true ,
phase : 'write' ,
fn : applyStyles ,
effect : effect$2 ,
requires : [ 'computeStyles' ]
} ;
function getBasePlacement ( placement ) {
return placement . split ( '-' ) [ 0 ] ;
}
var max = Math . max ;
var min = Math . min ;
var round = Math . round ;
function getBoundingClientRect ( element , includeScale ) {
if ( includeScale === void 0 ) {
includeScale = false ;
}
var rect = element . getBoundingClientRect ( ) ;
var scaleX = 1 ;
var scaleY = 1 ;
if ( isHTMLElement ( element ) && includeScale ) {
var offsetHeight = element . offsetHeight ;
var offsetWidth = element . offsetWidth ; // Do not attempt to divide by 0, otherwise we get `Infinity` as scale
// Fallback to 1 in case both values are `0`
if ( offsetWidth > 0 ) {
scaleX = round ( rect . width ) / offsetWidth || 1 ;
}
if ( offsetHeight > 0 ) {
scaleY = round ( rect . height ) / offsetHeight || 1 ;
}
}
return {
width : rect . width / scaleX ,
height : rect . height / scaleY ,
top : rect . top / scaleY ,
right : rect . right / scaleX ,
bottom : rect . bottom / scaleY ,
left : rect . left / scaleX ,
x : rect . left / scaleX ,
y : rect . top / scaleY
} ;
}
// means it doesn't take into account transforms.
function getLayoutRect ( element ) {
var clientRect = getBoundingClientRect ( element ) ; // Use the clientRect sizes if it's not been transformed.
// Fixes https://github.com/popperjs/popper-core/issues/1223
var width = element . offsetWidth ;
var height = element . offsetHeight ;
if ( Math . abs ( clientRect . width - width ) <= 1 ) {
width = clientRect . width ;
}
if ( Math . abs ( clientRect . height - height ) <= 1 ) {
height = clientRect . height ;
}
return {
x : element . offsetLeft ,
y : element . offsetTop ,
width : width ,
height : height
} ;
}
function contains ( parent , child ) {
var rootNode = child . getRootNode && child . getRootNode ( ) ; // First, attempt with faster native method
if ( parent . contains ( child ) ) {
return true ;
} // then fallback to custom implementation with Shadow DOM support
else if ( rootNode && isShadowRoot ( rootNode ) ) {
var next = child ;
do {
if ( next && parent . isSameNode ( next ) ) {
return true ;
} // $FlowFixMe[prop-missing]: need a better way to handle this...
next = next . parentNode || next . host ;
} while ( next ) ;
} // Give up, the result is false
return false ;
}
function getComputedStyle ( element ) {
return getWindow ( element ) . getComputedStyle ( element ) ;
}
function isTableElement ( element ) {
return [ 'table' , 'td' , 'th' ] . indexOf ( getNodeName ( element ) ) >= 0 ;
}
function getDocumentElement ( element ) {
// $FlowFixMe[incompatible-return]: assume body is always available
return ( ( isElement ( element ) ? element . ownerDocument : // $FlowFixMe[prop-missing]
element . document ) || window . document ) . documentElement ;
}
function getParentNode ( element ) {
if ( getNodeName ( element ) === 'html' ) {
return element ;
}
return ( // this is a quicker (but less type safe) way to save quite some bytes from the bundle
// $FlowFixMe[incompatible-return]
// $FlowFixMe[prop-missing]
element . assignedSlot || // step into the shadow DOM of the parent of a slotted node
element . parentNode || ( // DOM Element detected
isShadowRoot ( element ) ? element . host : null ) || // ShadowRoot detected
// $FlowFixMe[incompatible-call]: HTMLElement is a Node
getDocumentElement ( element ) // fallback
) ;
}
function getTrueOffsetParent ( element ) {
if ( ! isHTMLElement ( element ) || // https://github.com/popperjs/popper-core/issues/837
getComputedStyle ( element ) . position === 'fixed' ) {
return null ;
}
return element . offsetParent ;
} // `.offsetParent` reports `null` for fixed elements, while absolute elements
// return the containing block
function getContainingBlock ( element ) {
var isFirefox = navigator . userAgent . toLowerCase ( ) . indexOf ( 'firefox' ) !== - 1 ;
var isIE = navigator . userAgent . indexOf ( 'Trident' ) !== - 1 ;
if ( isIE && isHTMLElement ( element ) ) {
// In IE 9, 10 and 11 fixed elements containing block is always established by the viewport
var elementCss = getComputedStyle ( element ) ;
if ( elementCss . position === 'fixed' ) {
return null ;
}
}
var currentNode = getParentNode ( element ) ;
while ( isHTMLElement ( currentNode ) && [ 'html' , 'body' ] . indexOf ( getNodeName ( currentNode ) ) < 0 ) {
var css = getComputedStyle ( currentNode ) ; // This is non-exhaustive but covers the most common CSS properties that
// create a containing block.
// https://developer.mozilla.org/en-US/docs/Web/CSS/Containing_block#identifying_the_containing_block
if ( css . transform !== 'none' || css . perspective !== 'none' || css . contain === 'paint' || [ 'transform' , 'perspective' ] . indexOf ( css . willChange ) !== - 1 || isFirefox && css . willChange === 'filter' || isFirefox && css . filter && css . filter !== 'none' ) {
return currentNode ;
} else {
currentNode = currentNode . parentNode ;
}
}
return null ;
} // Gets the closest ancestor positioned element. Handles some edge cases,
// such as table ancestors and cross browser bugs.
function getOffsetParent ( element ) {
var window = getWindow ( element ) ;
var offsetParent = getTrueOffsetParent ( element ) ;
while ( offsetParent && isTableElement ( offsetParent ) && getComputedStyle ( offsetParent ) . position === 'static' ) {
offsetParent = getTrueOffsetParent ( offsetParent ) ;
}
if ( offsetParent && ( getNodeName ( offsetParent ) === 'html' || getNodeName ( offsetParent ) === 'body' && getComputedStyle ( offsetParent ) . position === 'static' ) ) {
return window ;
}
return offsetParent || getContainingBlock ( element ) || window ;
}
function getMainAxisFromPlacement ( placement ) {
return [ 'top' , 'bottom' ] . indexOf ( placement ) >= 0 ? 'x' : 'y' ;
}
function within ( min$1 , value , max$1 ) {
return max ( min$1 , min ( value , max$1 ) ) ;
}
function withinMaxClamp ( min , value , max ) {
var v = within ( min , value , max ) ;
return v > max ? max : v ;
}
function getFreshSideObject ( ) {
return {
top : 0 ,
right : 0 ,
bottom : 0 ,
left : 0
} ;
}
function mergePaddingObject ( paddingObject ) {
return Object . assign ( { } , getFreshSideObject ( ) , paddingObject ) ;
}
function expandToHashMap ( value , keys ) {
return keys . reduce ( function ( hashMap , key ) {
hashMap [ key ] = value ;
return hashMap ;
} , { } ) ;
}
var toPaddingObject = function toPaddingObject ( padding , state ) {
padding = typeof padding === 'function' ? padding ( Object . assign ( { } , state . rects , {
placement : state . placement
} ) ) : padding ;
return mergePaddingObject ( typeof padding !== 'number' ? padding : expandToHashMap ( padding , basePlacements ) ) ;
} ;
function arrow ( _ref ) {
var _state$modifiersData$ ;
var state = _ref . state ,
name = _ref . name ,
options = _ref . options ;
var arrowElement = state . elements . arrow ;
var popperOffsets = state . modifiersData . popperOffsets ;
var basePlacement = getBasePlacement ( state . placement ) ;
var axis = getMainAxisFromPlacement ( basePlacement ) ;
var isVertical = [ left , right ] . indexOf ( basePlacement ) >= 0 ;
var len = isVertical ? 'height' : 'width' ;
if ( ! arrowElement || ! popperOffsets ) {
return ;
}
var paddingObject = toPaddingObject ( options . padding , state ) ;
var arrowRect = getLayoutRect ( arrowElement ) ;
var minProp = axis === 'y' ? top : left ;
var maxProp = axis === 'y' ? bottom : right ;
var endDiff = state . rects . reference [ len ] + state . rects . reference [ axis ] - popperOffsets [ axis ] - state . rects . popper [ len ] ;
var startDiff = popperOffsets [ axis ] - state . rects . reference [ axis ] ;
var arrowOffsetParent = getOffsetParent ( arrowElement ) ;
var clientSize = arrowOffsetParent ? axis === 'y' ? arrowOffsetParent . clientHeight || 0 : arrowOffsetParent . clientWidth || 0 : 0 ;
var centerToReference = endDiff / 2 - startDiff / 2 ; // Make sure the arrow doesn't overflow the popper if the center point is
// outside of the popper bounds
var min = paddingObject [ minProp ] ;
var max = clientSize - arrowRect [ len ] - paddingObject [ maxProp ] ;
var center = clientSize / 2 - arrowRect [ len ] / 2 + centerToReference ;
var offset = within ( min , center , max ) ; // Prevents breaking syntax highlighting...
var axisProp = axis ;
state . modifiersData [ name ] = ( _state$modifiersData$ = { } , _state$modifiersData$ [ axisProp ] = offset , _state$modifiersData$ . centerOffset = offset - center , _state$modifiersData$ ) ;
}
function effect$1 ( _ref2 ) {
var state = _ref2 . state ,
options = _ref2 . options ;
var _options$element = options . element ,
arrowElement = _options$element === void 0 ? '[data-popper-arrow]' : _options$element ;
if ( arrowElement == null ) {
return ;
} // CSS selector
if ( typeof arrowElement === 'string' ) {
arrowElement = state . elements . popper . querySelector ( arrowElement ) ;
if ( ! arrowElement ) {
return ;
}
}
if ( process . env . NODE _ENV !== "production" ) {
if ( ! isHTMLElement ( arrowElement ) ) {
console . error ( [ 'Popper: "arrow" element must be an HTMLElement (not an SVGElement).' , 'To use an SVG arrow, wrap it in an HTMLElement that will be used as' , 'the arrow.' ] . join ( ' ' ) ) ;
}
}
if ( ! contains ( state . elements . popper , arrowElement ) ) {
if ( process . env . NODE _ENV !== "production" ) {
console . error ( [ 'Popper: "arrow" modifier\'s `element` must be a child of the popper' , 'element.' ] . join ( ' ' ) ) ;
}
return ;
}
state . elements . arrow = arrowElement ;
} // eslint-disable-next-line import/no-unused-modules
var arrow$1 = {
name : 'arrow' ,
enabled : true ,
phase : 'main' ,
fn : arrow ,
effect : effect$1 ,
requires : [ 'popperOffsets' ] ,
requiresIfExists : [ 'preventOverflow' ]
} ;
function getVariation ( placement ) {
return placement . split ( '-' ) [ 1 ] ;
}
var unsetSides = {
top : 'auto' ,
right : 'auto' ,
bottom : 'auto' ,
left : 'auto'
} ; // Round the offsets to the nearest suitable subpixel based on the DPR.
// Zooming can change the DPR, but it seems to report a value that will
// cleanly divide the values into the appropriate subpixels.
function roundOffsetsByDPR ( _ref ) {
var x = _ref . x ,
y = _ref . y ;
var win = window ;
var dpr = win . devicePixelRatio || 1 ;
return {
x : round ( x * dpr ) / dpr || 0 ,
y : round ( y * dpr ) / dpr || 0
} ;
}
function mapToStyles ( _ref2 ) {
var _Object$assign2 ;
var popper = _ref2 . popper ,
popperRect = _ref2 . popperRect ,
placement = _ref2 . placement ,
variation = _ref2 . variation ,
offsets = _ref2 . offsets ,
position = _ref2 . position ,
gpuAcceleration = _ref2 . gpuAcceleration ,
adaptive = _ref2 . adaptive ,
roundOffsets = _ref2 . roundOffsets ,
isFixed = _ref2 . isFixed ;
var _offsets$x = offsets . x ,
x = _offsets$x === void 0 ? 0 : _offsets$x ,
_offsets$y = offsets . y ,
y = _offsets$y === void 0 ? 0 : _offsets$y ;
var _ref3 = typeof roundOffsets === 'function' ? roundOffsets ( {
x : x ,
y : y
} ) : {
x : x ,
y : y
} ;
x = _ref3 . x ;
y = _ref3 . y ;
var hasX = offsets . hasOwnProperty ( 'x' ) ;
var hasY = offsets . hasOwnProperty ( 'y' ) ;
var sideX = left ;
var sideY = top ;
var win = window ;
if ( adaptive ) {
var offsetParent = getOffsetParent ( popper ) ;
var heightProp = 'clientHeight' ;
var widthProp = 'clientWidth' ;
if ( offsetParent === getWindow ( popper ) ) {
offsetParent = getDocumentElement ( popper ) ;
if ( getComputedStyle ( offsetParent ) . position !== 'static' && position === 'absolute' ) {
heightProp = 'scrollHeight' ;
widthProp = 'scrollWidth' ;
}
} // $FlowFixMe[incompatible-cast]: force type refinement, we compare offsetParent with window above, but Flow doesn't detect it
offsetParent = offsetParent ;
if ( placement === top || ( placement === left || placement === right ) && variation === end ) {
sideY = bottom ;
var offsetY = isFixed && win . visualViewport ? win . visualViewport . height : // $FlowFixMe[prop-missing]
offsetParent [ heightProp ] ;
y -= offsetY - popperRect . height ;
y *= gpuAcceleration ? 1 : - 1 ;
}
if ( placement === left || ( placement === top || placement === bottom ) && variation === end ) {
sideX = right ;
var offsetX = isFixed && win . visualViewport ? win . visualViewport . width : // $FlowFixMe[prop-missing]
offsetParent [ widthProp ] ;
x -= offsetX - popperRect . width ;
x *= gpuAcceleration ? 1 : - 1 ;
}
}
var commonStyles = Object . assign ( {
position : position
} , adaptive && unsetSides ) ;
var _ref4 = roundOffsets === true ? roundOffsetsByDPR ( {
x : x ,
y : y
} ) : {
x : x ,
y : y
} ;
x = _ref4 . x ;
y = _ref4 . y ;
if ( gpuAcceleration ) {
var _Object$assign ;
return Object . assign ( { } , commonStyles , ( _Object$assign = { } , _Object$assign [ sideY ] = hasY ? '0' : '' , _Object$assign [ sideX ] = hasX ? '0' : '' , _Object$assign . transform = ( win . devicePixelRatio || 1 ) <= 1 ? "translate(" + x + "px, " + y + "px)" : "translate3d(" + x + "px, " + y + "px, 0)" , _Object$assign ) ) ;
}
return Object . assign ( { } , commonStyles , ( _Object$assign2 = { } , _Object$assign2 [ sideY ] = hasY ? y + "px" : '' , _Object$assign2 [ sideX ] = hasX ? x + "px" : '' , _Object$assign2 . transform = '' , _Object$assign2 ) ) ;
}
function computeStyles ( _ref5 ) {
var state = _ref5 . state ,
options = _ref5 . options ;
var _options$gpuAccelerat = options . gpuAcceleration ,
gpuAcceleration = _options$gpuAccelerat === void 0 ? true : _options$gpuAccelerat ,
_options$adaptive = options . adaptive ,
adaptive = _options$adaptive === void 0 ? true : _options$adaptive ,
_options$roundOffsets = options . roundOffsets ,
roundOffsets = _options$roundOffsets === void 0 ? true : _options$roundOffsets ;
if ( process . env . NODE _ENV !== "production" ) {
var transitionProperty = getComputedStyle ( state . elements . popper ) . transitionProperty || '' ;
if ( adaptive && [ 'transform' , 'top' , 'right' , 'bottom' , 'left' ] . some ( function ( property ) {
return transitionProperty . indexOf ( property ) >= 0 ;
} ) ) {
console . warn ( [ 'Popper: Detected CSS transitions on at least one of the following' , 'CSS properties: "transform", "top", "right", "bottom", "left".' , '\n\n' , 'Disable the "computeStyles" modifier\'s `adaptive` option to allow' , 'for smooth transitions, or remove these properties from the CSS' , 'transition declaration on the popper element if only transitioning' , 'opacity or background-color for example.' , '\n\n' , 'We recommend using the popper element as a wrapper around an inner' , 'element that can have any CSS property transitioned for animations.' ] . join ( ' ' ) ) ;
}
}
var commonStyles = {
placement : getBasePlacement ( state . placement ) ,
variation : getVariation ( state . placement ) ,
popper : state . elements . popper ,
popperRect : state . rects . popper ,
gpuAcceleration : gpuAcceleration ,
isFixed : state . options . strategy === 'fixed'
} ;
if ( state . modifiersData . popperOffsets != null ) {
state . styles . popper = Object . assign ( { } , state . styles . popper , mapToStyles ( Object . assign ( { } , commonStyles , {
offsets : state . modifiersData . popperOffsets ,
position : state . options . strategy ,
adaptive : adaptive ,
roundOffsets : roundOffsets
} ) ) ) ;
}
if ( state . modifiersData . arrow != null ) {
state . styles . arrow = Object . assign ( { } , state . styles . arrow , mapToStyles ( Object . assign ( { } , commonStyles , {
offsets : state . modifiersData . arrow ,
position : 'absolute' ,
adaptive : false ,
roundOffsets : roundOffsets
} ) ) ) ;
}
state . attributes . popper = Object . assign ( { } , state . attributes . popper , {
'data-popper-placement' : state . placement
} ) ;
} // eslint-disable-next-line import/no-unused-modules
var computeStyles$1 = {
name : 'computeStyles' ,
enabled : true ,
phase : 'beforeWrite' ,
fn : computeStyles ,
data : { }
} ;
var passive = {
passive : true
} ;
function effect ( _ref ) {
var state = _ref . state ,
instance = _ref . instance ,
options = _ref . options ;
var _options$scroll = options . scroll ,
scroll = _options$scroll === void 0 ? true : _options$scroll ,
_options$resize = options . resize ,
resize = _options$resize === void 0 ? true : _options$resize ;
var window = getWindow ( state . elements . popper ) ;
var scrollParents = [ ] . concat ( state . scrollParents . reference , state . scrollParents . popper ) ;
if ( scroll ) {
scrollParents . forEach ( function ( scrollParent ) {
scrollParent . addEventListener ( 'scroll' , instance . update , passive ) ;
} ) ;
}
if ( resize ) {
window . addEventListener ( 'resize' , instance . update , passive ) ;
}
return function ( ) {
if ( scroll ) {
scrollParents . forEach ( function ( scrollParent ) {
scrollParent . removeEventListener ( 'scroll' , instance . update , passive ) ;
} ) ;
}
if ( resize ) {
window . removeEventListener ( 'resize' , instance . update , passive ) ;
}
} ;
} // eslint-disable-next-line import/no-unused-modules
var eventListeners = {
name : 'eventListeners' ,
enabled : true ,
phase : 'write' ,
fn : function fn ( ) { } ,
effect : effect ,
data : { }
} ;
var hash$1 = {
left : 'right' ,
right : 'left' ,
bottom : 'top' ,
top : 'bottom'
} ;
function getOppositePlacement ( placement ) {
return placement . replace ( /left|right|bottom|top/g , function ( matched ) {
return hash$1 [ matched ] ;
} ) ;
}
var hash = {
start : 'end' ,
end : 'start'
} ;
function getOppositeVariationPlacement ( placement ) {
return placement . replace ( /start|end/g , function ( matched ) {
return hash [ matched ] ;
} ) ;
}
function getWindowScroll ( node ) {
var win = getWindow ( node ) ;
var scrollLeft = win . pageXOffset ;
var scrollTop = win . pageYOffset ;
return {
scrollLeft : scrollLeft ,
scrollTop : scrollTop
} ;
}
function getWindowScrollBarX ( element ) {
// If <html> has a CSS width greater than the viewport, then this will be
// incorrect for RTL.
// Popper 1 is broken in this case and never had a bug report so let's assume
// it's not an issue. I don't think anyone ever specifies width on <html>
// anyway.
// Browsers where the left scrollbar doesn't cause an issue report `0` for
// this (e.g. Edge 2019, IE11, Safari)
return getBoundingClientRect ( getDocumentElement ( element ) ) . left + getWindowScroll ( element ) . scrollLeft ;
}
function getViewportRect ( element ) {
var win = getWindow ( element ) ;
var html = getDocumentElement ( element ) ;
var visualViewport = win . visualViewport ;
var width = html . clientWidth ;
var height = html . clientHeight ;
var x = 0 ;
var y = 0 ; // NB: This isn't supported on iOS <= 12. If the keyboard is open, the popper
// can be obscured underneath it.
// Also, `html.clientHeight` adds the bottom bar height in Safari iOS, even
// if it isn't open, so if this isn't available, the popper will be detected
// to overflow the bottom of the screen too early.
if ( visualViewport ) {
width = visualViewport . width ;
height = visualViewport . height ; // Uses Layout Viewport (like Chrome; Safari does not currently)
// In Chrome, it returns a value very close to 0 (+/-) but contains rounding
// errors due to floating point numbers, so we need to check precision.
// Safari returns a number <= 0, usually < -1 when pinch-zoomed
// Feature detection fails in mobile emulation mode in Chrome.
// Math.abs(win.innerWidth / visualViewport.scale - visualViewport.width) <
// 0.001
// Fallback here: "Not Safari" userAgent
if ( ! /^((?!chrome|android).)*safari/i . test ( navigator . userAgent ) ) {
x = visualViewport . offsetLeft ;
y = visualViewport . offsetTop ;
}
}
return {
width : width ,
height : height ,
x : x + getWindowScrollBarX ( element ) ,
y : y
} ;
}
// of the `<html>` and `<body>` rect bounds if horizontally scrollable
function getDocumentRect ( element ) {
var _element$ownerDocumen ;
var html = getDocumentElement ( element ) ;
var winScroll = getWindowScroll ( element ) ;
var body = ( _element$ownerDocumen = element . ownerDocument ) == null ? void 0 : _element$ownerDocumen . body ;
var width = max ( html . scrollWidth , html . clientWidth , body ? body . scrollWidth : 0 , body ? body . clientWidth : 0 ) ;
var height = max ( html . scrollHeight , html . clientHeight , body ? body . scrollHeight : 0 , body ? body . clientHeight : 0 ) ;
var x = - winScroll . scrollLeft + getWindowScrollBarX ( element ) ;
var y = - winScroll . scrollTop ;
if ( getComputedStyle ( body || html ) . direction === 'rtl' ) {
x += max ( html . clientWidth , body ? body . clientWidth : 0 ) - width ;
}
return {
width : width ,
height : height ,
x : x ,
y : y
} ;
}
function isScrollParent ( element ) {
// Firefox wants us to check `-x` and `-y` variations as well
var _getComputedStyle = getComputedStyle ( element ) ,
overflow = _getComputedStyle . overflow ,
overflowX = _getComputedStyle . overflowX ,
overflowY = _getComputedStyle . overflowY ;
return /auto|scroll|overlay|hidden/ . test ( overflow + overflowY + overflowX ) ;
}
function getScrollParent ( node ) {
if ( [ 'html' , 'body' , '#document' ] . indexOf ( getNodeName ( node ) ) >= 0 ) {
// $FlowFixMe[incompatible-return]: assume body is always available
return node . ownerDocument . body ;
}
if ( isHTMLElement ( node ) && isScrollParent ( node ) ) {
return node ;
}
return getScrollParent ( getParentNode ( node ) ) ;
}
/ *
given a DOM element , return the list of all scroll parents , up the list of ancesors
until we get to the top window object . This list is what we attach scroll listeners
to , because if any of these parent elements scroll , we ' ll need to re - calculate the
reference element ' s position .
* /
function listScrollParents ( element , list ) {
var _element$ownerDocumen ;
if ( list === void 0 ) {
list = [ ] ;
}
var scrollParent = getScrollParent ( element ) ;
var isBody = scrollParent === ( ( _element$ownerDocumen = element . ownerDocument ) == null ? void 0 : _element$ownerDocumen . body ) ;
var win = getWindow ( scrollParent ) ;
var target = isBody ? [ win ] . concat ( win . visualViewport || [ ] , isScrollParent ( scrollParent ) ? scrollParent : [ ] ) : scrollParent ;
var updatedList = list . concat ( target ) ;
return isBody ? updatedList : // $FlowFixMe[incompatible-call]: isBody tells us target will be an HTMLElement here
updatedList . concat ( listScrollParents ( getParentNode ( target ) ) ) ;
}
function rectToClientRect ( rect ) {
return Object . assign ( { } , rect , {
left : rect . x ,
top : rect . y ,
right : rect . x + rect . width ,
bottom : rect . y + rect . height
} ) ;
}
function getInnerBoundingClientRect ( element ) {
var rect = getBoundingClientRect ( element ) ;
rect . top = rect . top + element . clientTop ;
rect . left = rect . left + element . clientLeft ;
rect . bottom = rect . top + element . clientHeight ;
rect . right = rect . left + element . clientWidth ;
rect . width = element . clientWidth ;
rect . height = element . clientHeight ;
rect . x = rect . left ;
rect . y = rect . top ;
return rect ;
}
function getClientRectFromMixedType ( element , clippingParent ) {
return clippingParent === viewport ? rectToClientRect ( getViewportRect ( element ) ) : isElement ( clippingParent ) ? getInnerBoundingClientRect ( clippingParent ) : rectToClientRect ( getDocumentRect ( getDocumentElement ( element ) ) ) ;
} // A "clipping parent" is an overflowable container with the characteristic of
// clipping (or hiding) overflowing elements with a position different from
// `initial`
function getClippingParents ( element ) {
var clippingParents = listScrollParents ( getParentNode ( element ) ) ;
var canEscapeClipping = [ 'absolute' , 'fixed' ] . indexOf ( getComputedStyle ( element ) . position ) >= 0 ;
var clipperElement = canEscapeClipping && isHTMLElement ( element ) ? getOffsetParent ( element ) : element ;
if ( ! isElement ( clipperElement ) ) {
return [ ] ;
} // $FlowFixMe[incompatible-return]: https://github.com/facebook/flow/issues/1414
return clippingParents . filter ( function ( clippingParent ) {
return isElement ( clippingParent ) && contains ( clippingParent , clipperElement ) && getNodeName ( clippingParent ) !== 'body' ;
} ) ;
} // Gets the maximum area that the element is visible in due to any number of
// clipping parents
function getClippingRect ( element , boundary , rootBoundary ) {
var mainClippingParents = boundary === 'clippingParents' ? getClippingParents ( element ) : [ ] . concat ( boundary ) ;
var clippingParents = [ ] . concat ( mainClippingParents , [ rootBoundary ] ) ;
var firstClippingParent = clippingParents [ 0 ] ;
var clippingRect = clippingParents . reduce ( function ( accRect , clippingParent ) {
var rect = getClientRectFromMixedType ( element , clippingParent ) ;
accRect . top = max ( rect . top , accRect . top ) ;
accRect . right = min ( rect . right , accRect . right ) ;
accRect . bottom = min ( rect . bottom , accRect . bottom ) ;
accRect . left = max ( rect . left , accRect . left ) ;
return accRect ;
} , getClientRectFromMixedType ( element , firstClippingParent ) ) ;
clippingRect . width = clippingRect . right - clippingRect . left ;
clippingRect . height = clippingRect . bottom - clippingRect . top ;
clippingRect . x = clippingRect . left ;
clippingRect . y = clippingRect . top ;
return clippingRect ;
}
function computeOffsets ( _ref ) {
var reference = _ref . reference ,
element = _ref . element ,
placement = _ref . placement ;
var basePlacement = placement ? getBasePlacement ( placement ) : null ;
var variation = placement ? getVariation ( placement ) : null ;
var commonX = reference . x + reference . width / 2 - element . width / 2 ;
var commonY = reference . y + reference . height / 2 - element . height / 2 ;
var offsets ;
switch ( basePlacement ) {
case top :
offsets = {
x : commonX ,
y : reference . y - element . height
} ;
break ;
case bottom :
offsets = {
x : commonX ,
y : reference . y + reference . height
} ;
break ;
case right :
offsets = {
x : reference . x + reference . width ,
y : commonY
} ;
break ;
case left :
offsets = {
x : reference . x - element . width ,
y : commonY
} ;
break ;
default :
offsets = {
x : reference . x ,
y : reference . y
} ;
}
var mainAxis = basePlacement ? getMainAxisFromPlacement ( basePlacement ) : null ;
if ( mainAxis != null ) {
var len = mainAxis === 'y' ? 'height' : 'width' ;
switch ( variation ) {
case start :
offsets [ mainAxis ] = offsets [ mainAxis ] - ( reference [ len ] / 2 - element [ len ] / 2 ) ;
break ;
case end :
offsets [ mainAxis ] = offsets [ mainAxis ] + ( reference [ len ] / 2 - element [ len ] / 2 ) ;
break ;
}
}
return offsets ;
}
function detectOverflow ( state , options ) {
if ( options === void 0 ) {
options = { } ;
}
var _options = options ,
_options$placement = _options . placement ,
placement = _options$placement === void 0 ? state . placement : _options$placement ,
_options$boundary = _options . boundary ,
boundary = _options$boundary === void 0 ? clippingParents : _options$boundary ,
_options$rootBoundary = _options . rootBoundary ,
rootBoundary = _options$rootBoundary === void 0 ? viewport : _options$rootBoundary ,
_options$elementConte = _options . elementContext ,
elementContext = _options$elementConte === void 0 ? popper : _options$elementConte ,
_options$altBoundary = _options . altBoundary ,
altBoundary = _options$altBoundary === void 0 ? false : _options$altBoundary ,
_options$padding = _options . padding ,
padding = _options$padding === void 0 ? 0 : _options$padding ;
var paddingObject = mergePaddingObject ( typeof padding !== 'number' ? padding : expandToHashMap ( padding , basePlacements ) ) ;
var altContext = elementContext === popper ? reference : popper ;
var popperRect = state . rects . popper ;
var element = state . elements [ altBoundary ? altContext : elementContext ] ;
var clippingClientRect = getClippingRect ( isElement ( element ) ? element : element . contextElement || getDocumentElement ( state . elements . popper ) , boundary , rootBoundary ) ;
var referenceClientRect = getBoundingClientRect ( state . elements . reference ) ;
var popperOffsets = computeOffsets ( {
reference : referenceClientRect ,
element : popperRect ,
strategy : 'absolute' ,
placement : placement
} ) ;
var popperClientRect = rectToClientRect ( Object . assign ( { } , popperRect , popperOffsets ) ) ;
var elementClientRect = elementContext === popper ? popperClientRect : referenceClientRect ; // positive = overflowing the clipping rect
// 0 or negative = within the clipping rect
var overflowOffsets = {
top : clippingClientRect . top - elementClientRect . top + paddingObject . top ,
bottom : elementClientRect . bottom - clippingClientRect . bottom + paddingObject . bottom ,
left : clippingClientRect . left - elementClientRect . left + paddingObject . left ,
right : elementClientRect . right - clippingClientRect . right + paddingObject . right
} ;
var offsetData = state . modifiersData . offset ; // Offsets can be applied only to the popper element
if ( elementContext === popper && offsetData ) {
var offset = offsetData [ placement ] ;
Object . keys ( overflowOffsets ) . forEach ( function ( key ) {
var multiply = [ right , bottom ] . indexOf ( key ) >= 0 ? 1 : - 1 ;
var axis = [ top , bottom ] . indexOf ( key ) >= 0 ? 'y' : 'x' ;
overflowOffsets [ key ] += offset [ axis ] * multiply ;
} ) ;
}
return overflowOffsets ;
}
function computeAutoPlacement ( state , options ) {
if ( options === void 0 ) {
options = { } ;
}
var _options = options ,
placement = _options . placement ,
boundary = _options . boundary ,
rootBoundary = _options . rootBoundary ,
padding = _options . padding ,
flipVariations = _options . flipVariations ,
_options$allowedAutoP = _options . allowedAutoPlacements ,
allowedAutoPlacements = _options$allowedAutoP === void 0 ? placements : _options$allowedAutoP ;
var variation = getVariation ( placement ) ;
var placements$1 = variation ? flipVariations ? variationPlacements : variationPlacements . filter ( function ( placement ) {
return getVariation ( placement ) === variation ;
} ) : basePlacements ;
var allowedPlacements = placements$1 . filter ( function ( placement ) {
return allowedAutoPlacements . indexOf ( placement ) >= 0 ;
} ) ;
if ( allowedPlacements . length === 0 ) {
allowedPlacements = placements$1 ;
if ( process . env . NODE _ENV !== "production" ) {
console . error ( [ 'Popper: The `allowedAutoPlacements` option did not allow any' , 'placements. Ensure the `placement` option matches the variation' , 'of the allowed placements.' , 'For example, "auto" cannot be used to allow "bottom-start".' , 'Use "auto-start" instead.' ] . join ( ' ' ) ) ;
}
} // $FlowFixMe[incompatible-type]: Flow seems to have problems with two array unions...
var overflows = allowedPlacements . reduce ( function ( acc , placement ) {
acc [ placement ] = detectOverflow ( state , {
placement : placement ,
boundary : boundary ,
rootBoundary : rootBoundary ,
padding : padding
} ) [ getBasePlacement ( placement ) ] ;
return acc ;
} , { } ) ;
return Object . keys ( overflows ) . sort ( function ( a , b ) {
return overflows [ a ] - overflows [ b ] ;
} ) ;
}
function getExpandedFallbackPlacements ( placement ) {
if ( getBasePlacement ( placement ) === auto ) {
return [ ] ;
}
var oppositePlacement = getOppositePlacement ( placement ) ;
return [ getOppositeVariationPlacement ( placement ) , oppositePlacement , getOppositeVariationPlacement ( oppositePlacement ) ] ;
}
function flip ( _ref ) {
var state = _ref . state ,
options = _ref . options ,
name = _ref . name ;
if ( state . modifiersData [ name ] . _skip ) {
return ;
}
var _options$mainAxis = options . mainAxis ,
checkMainAxis = _options$mainAxis === void 0 ? true : _options$mainAxis ,
_options$altAxis = options . altAxis ,
checkAltAxis = _options$altAxis === void 0 ? true : _options$altAxis ,
specifiedFallbackPlacements = options . fallbackPlacements ,
padding = options . padding ,
boundary = options . boundary ,
rootBoundary = options . rootBoundary ,
altBoundary = options . altBoundary ,
_options$flipVariatio = options . flipVariations ,
flipVariations = _options$flipVariatio === void 0 ? true : _options$flipVariatio ,
allowedAutoPlacements = options . allowedAutoPlacements ;
var preferredPlacement = state . options . placement ;
var basePlacement = getBasePlacement ( preferredPlacement ) ;
var isBasePlacement = basePlacement === preferredPlacement ;
var fallbackPlacements = specifiedFallbackPlacements || ( isBasePlacement || ! flipVariations ? [ getOppositePlacement ( preferredPlacement ) ] : getExpandedFallbackPlacements ( preferredPlacement ) ) ;
var placements = [ preferredPlacement ] . concat ( fallbackPlacements ) . reduce ( function ( acc , placement ) {
return acc . concat ( getBasePlacement ( placement ) === auto ? computeAutoPlacement ( state , {
placement : placement ,
boundary : boundary ,
rootBoundary : rootBoundary ,
padding : padding ,
flipVariations : flipVariations ,
allowedAutoPlacements : allowedAutoPlacements
} ) : placement ) ;
} , [ ] ) ;
var referenceRect = state . rects . reference ;
var popperRect = state . rects . popper ;
var checksMap = new Map ( ) ;
var makeFallbackChecks = true ;
var firstFittingPlacement = placements [ 0 ] ;
for ( var i = 0 ; i < placements . length ; i ++ ) {
var placement = placements [ i ] ;
var _basePlacement = getBasePlacement ( placement ) ;
var isStartVariation = getVariation ( placement ) === start ;
var isVertical = [ top , bottom ] . indexOf ( _basePlacement ) >= 0 ;
var len = isVertical ? 'width' : 'height' ;
var overflow = detectOverflow ( state , {
placement : placement ,
boundary : boundary ,
rootBoundary : rootBoundary ,
altBoundary : altBoundary ,
padding : padding
} ) ;
var mainVariationSide = isVertical ? isStartVariation ? right : left : isStartVariation ? bottom : top ;
if ( referenceRect [ len ] > popperRect [ len ] ) {
mainVariationSide = getOppositePlacement ( mainVariationSide ) ;
}
var altVariationSide = getOppositePlacement ( mainVariationSide ) ;
var checks = [ ] ;
if ( checkMainAxis ) {
checks . push ( overflow [ _basePlacement ] <= 0 ) ;
}
if ( checkAltAxis ) {
checks . push ( overflow [ mainVariationSide ] <= 0 , overflow [ altVariationSide ] <= 0 ) ;
}
if ( checks . every ( function ( check ) {
return check ;
} ) ) {
firstFittingPlacement = placement ;
makeFallbackChecks = false ;
break ;
}
checksMap . set ( placement , checks ) ;
}
if ( makeFallbackChecks ) {
// `2` may be desired in some cases – research later
var numberOfChecks = flipVariations ? 3 : 1 ;
var _loop = function _loop ( _i ) {
var fittingPlacement = placements . find ( function ( placement ) {
var checks = checksMap . get ( placement ) ;
if ( checks ) {
return checks . slice ( 0 , _i ) . every ( function ( check ) {
return check ;
} ) ;
}
} ) ;
if ( fittingPlacement ) {
firstFittingPlacement = fittingPlacement ;
return "break" ;
}
} ;
for ( var _i = numberOfChecks ; _i > 0 ; _i -- ) {
var _ret = _loop ( _i ) ;
if ( _ret === "break" ) break ;
}
}
if ( state . placement !== firstFittingPlacement ) {
state . modifiersData [ name ] . _skip = true ;
state . placement = firstFittingPlacement ;
state . reset = true ;
}
} // eslint-disable-next-line import/no-unused-modules
var flip$1 = {
name : 'flip' ,
enabled : true ,
phase : 'main' ,
fn : flip ,
requiresIfExists : [ 'offset' ] ,
data : {
_skip : false
}
} ;
function getSideOffsets ( overflow , rect , preventedOffsets ) {
if ( preventedOffsets === void 0 ) {
preventedOffsets = {
x : 0 ,
y : 0
} ;
}
return {
top : overflow . top - rect . height - preventedOffsets . y ,
right : overflow . right - rect . width + preventedOffsets . x ,
bottom : overflow . bottom - rect . height + preventedOffsets . y ,
left : overflow . left - rect . width - preventedOffsets . x
} ;
}
function isAnySideFullyClipped ( overflow ) {
return [ top , right , bottom , left ] . some ( function ( side ) {
return overflow [ side ] >= 0 ;
} ) ;
}
function hide ( _ref ) {
var state = _ref . state ,
name = _ref . name ;
var referenceRect = state . rects . reference ;
var popperRect = state . rects . popper ;
var preventedOffsets = state . modifiersData . preventOverflow ;
var referenceOverflow = detectOverflow ( state , {
elementContext : 'reference'
} ) ;
var popperAltOverflow = detectOverflow ( state , {
altBoundary : true
} ) ;
var referenceClippingOffsets = getSideOffsets ( referenceOverflow , referenceRect ) ;
var popperEscapeOffsets = getSideOffsets ( popperAltOverflow , popperRect , preventedOffsets ) ;
var isReferenceHidden = isAnySideFullyClipped ( referenceClippingOffsets ) ;
var hasPopperEscaped = isAnySideFullyClipped ( popperEscapeOffsets ) ;
state . modifiersData [ name ] = {
referenceClippingOffsets : referenceClippingOffsets ,
popperEscapeOffsets : popperEscapeOffsets ,
isReferenceHidden : isReferenceHidden ,
hasPopperEscaped : hasPopperEscaped
} ;
state . attributes . popper = Object . assign ( { } , state . attributes . popper , {
'data-popper-reference-hidden' : isReferenceHidden ,
'data-popper-escaped' : hasPopperEscaped
} ) ;
} // eslint-disable-next-line import/no-unused-modules
var hide$1 = {
name : 'hide' ,
enabled : true ,
phase : 'main' ,
requiresIfExists : [ 'preventOverflow' ] ,
fn : hide
} ;
function distanceAndSkiddingToXY ( placement , rects , offset ) {
var basePlacement = getBasePlacement ( placement ) ;
var invertDistance = [ left , top ] . indexOf ( basePlacement ) >= 0 ? - 1 : 1 ;
var _ref = typeof offset === 'function' ? offset ( Object . assign ( { } , rects , {
placement : placement
} ) ) : offset ,
skidding = _ref [ 0 ] ,
distance = _ref [ 1 ] ;
skidding = skidding || 0 ;
distance = ( distance || 0 ) * invertDistance ;
return [ left , right ] . indexOf ( basePlacement ) >= 0 ? {
x : distance ,
y : skidding
} : {
x : skidding ,
y : distance
} ;
}
function offset ( _ref2 ) {
var state = _ref2 . state ,
options = _ref2 . options ,
name = _ref2 . name ;
var _options$offset = options . offset ,
offset = _options$offset === void 0 ? [ 0 , 0 ] : _options$offset ;
var data = placements . reduce ( function ( acc , placement ) {
acc [ placement ] = distanceAndSkiddingToXY ( placement , state . rects , offset ) ;
return acc ;
} , { } ) ;
var _data$state$placement = data [ state . placement ] ,
x = _data$state$placement . x ,
y = _data$state$placement . y ;
if ( state . modifiersData . popperOffsets != null ) {
state . modifiersData . popperOffsets . x += x ;
state . modifiersData . popperOffsets . y += y ;
}
state . modifiersData [ name ] = data ;
} // eslint-disable-next-line import/no-unused-modules
var offset$1 = {
name : 'offset' ,
enabled : true ,
phase : 'main' ,
requires : [ 'popperOffsets' ] ,
fn : offset
} ;
function popperOffsets ( _ref ) {
var state = _ref . state ,
name = _ref . name ;
// Offsets are the actual position the popper needs to have to be
// properly positioned near its reference element
// This is the most basic placement, and will be adjusted by
// the modifiers in the next step
state . modifiersData [ name ] = computeOffsets ( {
reference : state . rects . reference ,
element : state . rects . popper ,
strategy : 'absolute' ,
placement : state . placement
} ) ;
} // eslint-disable-next-line import/no-unused-modules
var popperOffsets$1 = {
name : 'popperOffsets' ,
enabled : true ,
phase : 'read' ,
fn : popperOffsets ,
data : { }
} ;
function getAltAxis ( axis ) {
return axis === 'x' ? 'y' : 'x' ;
}
function preventOverflow ( _ref ) {
var state = _ref . state ,
options = _ref . options ,
name = _ref . name ;
var _options$mainAxis = options . mainAxis ,
checkMainAxis = _options$mainAxis === void 0 ? true : _options$mainAxis ,
_options$altAxis = options . altAxis ,
checkAltAxis = _options$altAxis === void 0 ? false : _options$altAxis ,
boundary = options . boundary ,
rootBoundary = options . rootBoundary ,
altBoundary = options . altBoundary ,
padding = options . padding ,
_options$tether = options . tether ,
tether = _options$tether === void 0 ? true : _options$tether ,
_options$tetherOffset = options . tetherOffset ,
tetherOffset = _options$tetherOffset === void 0 ? 0 : _options$tetherOffset ;
var overflow = detectOverflow ( state , {
boundary : boundary ,
rootBoundary : rootBoundary ,
padding : padding ,
altBoundary : altBoundary
} ) ;
var basePlacement = getBasePlacement ( state . placement ) ;
var variation = getVariation ( state . placement ) ;
var isBasePlacement = ! variation ;
var mainAxis = getMainAxisFromPlacement ( basePlacement ) ;
var altAxis = getAltAxis ( mainAxis ) ;
var popperOffsets = state . modifiersData . popperOffsets ;
var referenceRect = state . rects . reference ;
var popperRect = state . rects . popper ;
var tetherOffsetValue = typeof tetherOffset === 'function' ? tetherOffset ( Object . assign ( { } , state . rects , {
placement : state . placement
} ) ) : tetherOffset ;
var normalizedTetherOffsetValue = typeof tetherOffsetValue === 'number' ? {
mainAxis : tetherOffsetValue ,
altAxis : tetherOffsetValue
} : Object . assign ( {
mainAxis : 0 ,
altAxis : 0
} , tetherOffsetValue ) ;
var offsetModifierState = state . modifiersData . offset ? state . modifiersData . offset [ state . placement ] : null ;
var data = {
x : 0 ,
y : 0
} ;
if ( ! popperOffsets ) {
return ;
}
if ( checkMainAxis ) {
var _offsetModifierState$ ;
var mainSide = mainAxis === 'y' ? top : left ;
var altSide = mainAxis === 'y' ? bottom : right ;
var len = mainAxis === 'y' ? 'height' : 'width' ;
var offset = popperOffsets [ mainAxis ] ;
var min$1 = offset + overflow [ mainSide ] ;
var max$1 = offset - overflow [ altSide ] ;
var additive = tether ? - popperRect [ len ] / 2 : 0 ;
var minLen = variation === start ? referenceRect [ len ] : popperRect [ len ] ;
var maxLen = variation === start ? - popperRect [ len ] : - referenceRect [ len ] ; // We need to include the arrow in the calculation so the arrow doesn't go
// outside the reference bounds
var arrowElement = state . elements . arrow ;
var arrowRect = tether && arrowElement ? getLayoutRect ( arrowElement ) : {
width : 0 ,
height : 0
} ;
var arrowPaddingObject = state . modifiersData [ 'arrow#persistent' ] ? state . modifiersData [ 'arrow#persistent' ] . padding : getFreshSideObject ( ) ;
var arrowPaddingMin = arrowPaddingObject [ mainSide ] ;
var arrowPaddingMax = arrowPaddingObject [ altSide ] ; // If the reference length is smaller than the arrow length, we don't want
// to include its full size in the calculation. If the reference is small
// and near the edge of a boundary, the popper can overflow even if the
// reference is not overflowing as well (e.g. virtual elements with no
// width or height)
var arrowLen = within ( 0 , referenceRect [ len ] , arrowRect [ len ] ) ;
var minOffset = isBasePlacement ? referenceRect [ len ] / 2 - additive - arrowLen - arrowPaddingMin - normalizedTetherOffsetValue . mainAxis : minLen - arrowLen - arrowPaddingMin - normalizedTetherOffsetValue . mainAxis ;
var maxOffset = isBasePlacement ? - referenceRect [ len ] / 2 + additive + arrowLen + arrowPaddingMax + normalizedTetherOffsetValue . mainAxis : maxLen + arrowLen + arrowPaddingMax + normalizedTetherOffsetValue . mainAxis ;
var arrowOffsetParent = state . elements . arrow && getOffsetParent ( state . elements . arrow ) ;
var clientOffset = arrowOffsetParent ? mainAxis === 'y' ? arrowOffsetParent . clientTop || 0 : arrowOffsetParent . clientLeft || 0 : 0 ;
var offsetModifierValue = ( _offsetModifierState$ = offsetModifierState == null ? void 0 : offsetModifierState [ mainAxis ] ) != null ? _offsetModifierState$ : 0 ;
var tetherMin = offset + minOffset - offsetModifierValue - clientOffset ;
var tetherMax = offset + maxOffset - offsetModifierValue ;
var preventedOffset = within ( tether ? min ( min$1 , tetherMin ) : min$1 , offset , tether ? max ( max$1 , tetherMax ) : max$1 ) ;
popperOffsets [ mainAxis ] = preventedOffset ;
data [ mainAxis ] = preventedOffset - offset ;
}
if ( checkAltAxis ) {
var _offsetModifierState$2 ;
var _mainSide = mainAxis === 'x' ? top : left ;
var _altSide = mainAxis === 'x' ? bottom : right ;
var _offset = popperOffsets [ altAxis ] ;
var _len = altAxis === 'y' ? 'height' : 'width' ;
var _min = _offset + overflow [ _mainSide ] ;
var _max = _offset - overflow [ _altSide ] ;
var isOriginSide = [ top , left ] . indexOf ( basePlacement ) !== - 1 ;
var _offsetModifierValue = ( _offsetModifierState$2 = offsetModifierState == null ? void 0 : offsetModifierState [ altAxis ] ) != null ? _offsetModifierState$2 : 0 ;
var _tetherMin = isOriginSide ? _min : _offset - referenceRect [ _len ] - popperRect [ _len ] - _offsetModifierValue + normalizedTetherOffsetValue . altAxis ;
var _tetherMax = isOriginSide ? _offset + referenceRect [ _len ] + popperRect [ _len ] - _offsetModifierValue - normalizedTetherOffsetValue . altAxis : _max ;
var _preventedOffset = tether && isOriginSide ? withinMaxClamp ( _tetherMin , _offset , _tetherMax ) : within ( tether ? _tetherMin : _min , _offset , tether ? _tetherMax : _max ) ;
popperOffsets [ altAxis ] = _preventedOffset ;
data [ altAxis ] = _preventedOffset - _offset ;
}
state . modifiersData [ name ] = data ;
} // eslint-disable-next-line import/no-unused-modules
var preventOverflow$1 = {
name : 'preventOverflow' ,
enabled : true ,
phase : 'main' ,
fn : preventOverflow ,
requiresIfExists : [ 'offset' ]
} ;
function getHTMLElementScroll ( element ) {
return {
scrollLeft : element . scrollLeft ,
scrollTop : element . scrollTop
} ;
}
function getNodeScroll ( node ) {
if ( node === getWindow ( node ) || ! isHTMLElement ( node ) ) {
return getWindowScroll ( node ) ;
} else {
return getHTMLElementScroll ( node ) ;
}
}
function isElementScaled ( element ) {
var rect = element . getBoundingClientRect ( ) ;
var scaleX = round ( rect . width ) / element . offsetWidth || 1 ;
var scaleY = round ( rect . height ) / element . offsetHeight || 1 ;
return scaleX !== 1 || scaleY !== 1 ;
} // Returns the composite rect of an element relative to its offsetParent.
// Composite means it takes into account transforms as well as layout.
function getCompositeRect ( elementOrVirtualElement , offsetParent , isFixed ) {
if ( isFixed === void 0 ) {
isFixed = false ;
}
var isOffsetParentAnElement = isHTMLElement ( offsetParent ) ;
var offsetParentIsScaled = isHTMLElement ( offsetParent ) && isElementScaled ( offsetParent ) ;
var documentElement = getDocumentElement ( offsetParent ) ;
var rect = getBoundingClientRect ( elementOrVirtualElement , offsetParentIsScaled ) ;
var scroll = {
scrollLeft : 0 ,
scrollTop : 0
} ;
var offsets = {
x : 0 ,
y : 0
} ;
if ( isOffsetParentAnElement || ! isOffsetParentAnElement && ! isFixed ) {
if ( getNodeName ( offsetParent ) !== 'body' || // https://github.com/popperjs/popper-core/issues/1078
isScrollParent ( documentElement ) ) {
scroll = getNodeScroll ( offsetParent ) ;
}
if ( isHTMLElement ( offsetParent ) ) {
offsets = getBoundingClientRect ( offsetParent , true ) ;
offsets . x += offsetParent . clientLeft ;
offsets . y += offsetParent . clientTop ;
} else if ( documentElement ) {
offsets . x = getWindowScrollBarX ( documentElement ) ;
}
}
return {
x : rect . left + scroll . scrollLeft - offsets . x ,
y : rect . top + scroll . scrollTop - offsets . y ,
width : rect . width ,
height : rect . height
} ;
}
function order ( modifiers ) {
var map = new Map ( ) ;
var visited = new Set ( ) ;
var result = [ ] ;
modifiers . forEach ( function ( modifier ) {
map . set ( modifier . name , modifier ) ;
} ) ; // On visiting object, check for its dependencies and visit them recursively
function sort ( modifier ) {
visited . add ( modifier . name ) ;
var requires = [ ] . concat ( modifier . requires || [ ] , modifier . requiresIfExists || [ ] ) ;
requires . forEach ( function ( dep ) {
if ( ! visited . has ( dep ) ) {
var depModifier = map . get ( dep ) ;
if ( depModifier ) {
sort ( depModifier ) ;
}
}
} ) ;
result . push ( modifier ) ;
}
modifiers . forEach ( function ( modifier ) {
if ( ! visited . has ( modifier . name ) ) {
// check for visited object
sort ( modifier ) ;
}
} ) ;
return result ;
}
function orderModifiers ( modifiers ) {
// order based on dependencies
var orderedModifiers = order ( modifiers ) ; // order based on phase
return modifierPhases . reduce ( function ( acc , phase ) {
return acc . concat ( orderedModifiers . filter ( function ( modifier ) {
return modifier . phase === phase ;
} ) ) ;
} , [ ] ) ;
}
function debounce ( fn ) {
var pending ;
return function ( ) {
if ( ! pending ) {
pending = new Promise ( function ( resolve ) {
Promise . resolve ( ) . then ( function ( ) {
pending = undefined ;
resolve ( fn ( ) ) ;
} ) ;
} ) ;
}
return pending ;
} ;
}
function format ( str ) {
for ( var _len = arguments . length , args = new Array ( _len > 1 ? _len - 1 : 0 ) , _key = 1 ; _key < _len ; _key ++ ) {
args [ _key - 1 ] = arguments [ _key ] ;
}
return [ ] . concat ( args ) . reduce ( function ( p , c ) {
return p . replace ( /%s/ , c ) ;
} , str ) ;
}
var INVALID _MODIFIER _ERROR = 'Popper: modifier "%s" provided an invalid %s property, expected %s but got %s' ;
var MISSING _DEPENDENCY _ERROR = 'Popper: modifier "%s" requires "%s", but "%s" modifier is not available' ;
var VALID _PROPERTIES = [ 'name' , 'enabled' , 'phase' , 'fn' , 'effect' , 'requires' , 'options' ] ;
function validateModifiers ( modifiers ) {
modifiers . forEach ( function ( modifier ) {
[ ] . concat ( Object . keys ( modifier ) , VALID _PROPERTIES ) // IE11-compatible replacement for `new Set(iterable)`
. filter ( function ( value , index , self ) {
return self . indexOf ( value ) === index ;
} ) . forEach ( function ( key ) {
switch ( key ) {
case 'name' :
if ( typeof modifier . name !== 'string' ) {
console . error ( format ( INVALID _MODIFIER _ERROR , String ( modifier . name ) , '"name"' , '"string"' , "\"" + String ( modifier . name ) + "\"" ) ) ;
}
break ;
case 'enabled' :
if ( typeof modifier . enabled !== 'boolean' ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"enabled"' , '"boolean"' , "\"" + String ( modifier . enabled ) + "\"" ) ) ;
}
break ;
case 'phase' :
if ( modifierPhases . indexOf ( modifier . phase ) < 0 ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"phase"' , "either " + modifierPhases . join ( ', ' ) , "\"" + String ( modifier . phase ) + "\"" ) ) ;
}
break ;
case 'fn' :
if ( typeof modifier . fn !== 'function' ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"fn"' , '"function"' , "\"" + String ( modifier . fn ) + "\"" ) ) ;
}
break ;
case 'effect' :
if ( modifier . effect != null && typeof modifier . effect !== 'function' ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"effect"' , '"function"' , "\"" + String ( modifier . fn ) + "\"" ) ) ;
}
break ;
case 'requires' :
if ( modifier . requires != null && ! Array . isArray ( modifier . requires ) ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"requires"' , '"array"' , "\"" + String ( modifier . requires ) + "\"" ) ) ;
}
break ;
case 'requiresIfExists' :
if ( ! Array . isArray ( modifier . requiresIfExists ) ) {
console . error ( format ( INVALID _MODIFIER _ERROR , modifier . name , '"requiresIfExists"' , '"array"' , "\"" + String ( modifier . requiresIfExists ) + "\"" ) ) ;
}
break ;
case 'options' :
case 'data' :
break ;
default :
console . error ( "PopperJS: an invalid property has been provided to the \"" + modifier . name + "\" modifier, valid properties are " + VALID _PROPERTIES . map ( function ( s ) {
return "\"" + s + "\"" ;
} ) . join ( ', ' ) + "; but \"" + key + "\" was provided." ) ;
}
modifier . requires && modifier . requires . forEach ( function ( requirement ) {
if ( modifiers . find ( function ( mod ) {
return mod . name === requirement ;
} ) == null ) {
console . error ( format ( MISSING _DEPENDENCY _ERROR , String ( modifier . name ) , requirement , requirement ) ) ;
}
} ) ;
} ) ;
} ) ;
}
function uniqueBy ( arr , fn ) {
var identifiers = new Set ( ) ;
return arr . filter ( function ( item ) {
var identifier = fn ( item ) ;
if ( ! identifiers . has ( identifier ) ) {
identifiers . add ( identifier ) ;
return true ;
}
} ) ;
}
function mergeByName ( modifiers ) {
var merged = modifiers . reduce ( function ( merged , current ) {
var existing = merged [ current . name ] ;
merged [ current . name ] = existing ? Object . assign ( { } , existing , current , {
options : Object . assign ( { } , existing . options , current . options ) ,
data : Object . assign ( { } , existing . data , current . data )
} ) : current ;
return merged ;
} , { } ) ; // IE11 does not support Object.values
return Object . keys ( merged ) . map ( function ( key ) {
return merged [ key ] ;
} ) ;
}
var INVALID _ELEMENT _ERROR = 'Popper: Invalid reference or popper argument provided. They must be either a DOM element or virtual element.' ;
var INFINITE _LOOP _ERROR = 'Popper: An infinite loop in the modifiers cycle has been detected! The cycle has been interrupted to prevent a browser crash.' ;
var DEFAULT _OPTIONS = {
placement : 'bottom' ,
modifiers : [ ] ,
strategy : 'absolute'
} ;
function areValidElements ( ) {
for ( var _len = arguments . length , args = new Array ( _len ) , _key = 0 ; _key < _len ; _key ++ ) {
args [ _key ] = arguments [ _key ] ;
}
return ! args . some ( function ( element ) {
return ! ( element && typeof element . getBoundingClientRect === 'function' ) ;
} ) ;
}
function popperGenerator ( generatorOptions ) {
if ( generatorOptions === void 0 ) {
generatorOptions = { } ;
}
var _generatorOptions = generatorOptions ,
_generatorOptions$def = _generatorOptions . defaultModifiers ,
defaultModifiers = _generatorOptions$def === void 0 ? [ ] : _generatorOptions$def ,
_generatorOptions$def2 = _generatorOptions . defaultOptions ,
defaultOptions = _generatorOptions$def2 === void 0 ? DEFAULT _OPTIONS : _generatorOptions$def2 ;
return function createPopper ( reference , popper , options ) {
if ( options === void 0 ) {
options = defaultOptions ;
}
var state = {
placement : 'bottom' ,
orderedModifiers : [ ] ,
options : Object . assign ( { } , DEFAULT _OPTIONS , defaultOptions ) ,
modifiersData : { } ,
elements : {
reference : reference ,
popper : popper
} ,
attributes : { } ,
styles : { }
} ;
var effectCleanupFns = [ ] ;
var isDestroyed = false ;
var instance = {
state : state ,
setOptions : function setOptions ( setOptionsAction ) {
var options = typeof setOptionsAction === 'function' ? setOptionsAction ( state . options ) : setOptionsAction ;
cleanupModifierEffects ( ) ;
state . options = Object . assign ( { } , defaultOptions , state . options , options ) ;
state . scrollParents = {
reference : isElement ( reference ) ? listScrollParents ( reference ) : reference . contextElement ? listScrollParents ( reference . contextElement ) : [ ] ,
popper : listScrollParents ( popper )
} ; // Orders the modifiers based on their dependencies and `phase`
// properties
var orderedModifiers = orderModifiers ( mergeByName ( [ ] . concat ( defaultModifiers , state . options . modifiers ) ) ) ; // Strip out disabled modifiers
state . orderedModifiers = orderedModifiers . filter ( function ( m ) {
return m . enabled ;
} ) ; // Validate the provided modifiers so that the consumer will get warned
// if one of the modifiers is invalid for any reason
if ( process . env . NODE _ENV !== "production" ) {
var modifiers = uniqueBy ( [ ] . concat ( orderedModifiers , state . options . modifiers ) , function ( _ref ) {
var name = _ref . name ;
return name ;
} ) ;
validateModifiers ( modifiers ) ;
if ( getBasePlacement ( state . options . placement ) === auto ) {
var flipModifier = state . orderedModifiers . find ( function ( _ref2 ) {
var name = _ref2 . name ;
return name === 'flip' ;
} ) ;
if ( ! flipModifier ) {
console . error ( [ 'Popper: "auto" placements require the "flip" modifier be' , 'present and enabled to work.' ] . join ( ' ' ) ) ;
}
}
var _getComputedStyle = getComputedStyle ( popper ) ,
marginTop = _getComputedStyle . marginTop ,
marginRight = _getComputedStyle . marginRight ,
marginBottom = _getComputedStyle . marginBottom ,
marginLeft = _getComputedStyle . marginLeft ; // We no longer take into account `margins` on the popper, and it can
// cause bugs with positioning, so we'll warn the consumer
if ( [ marginTop , marginRight , marginBottom , marginLeft ] . some ( function ( margin ) {
return parseFloat ( margin ) ;
} ) ) {
console . warn ( [ 'Popper: CSS "margin" styles cannot be used to apply padding' , 'between the popper and its reference element or boundary.' , 'To replicate margin, use the `offset` modifier, as well as' , 'the `padding` option in the `preventOverflow` and `flip`' , 'modifiers.' ] . join ( ' ' ) ) ;
}
}
runModifierEffects ( ) ;
return instance . update ( ) ;
} ,
// Sync update – it will always be executed, even if not necessary. This
// is useful for low frequency updates where sync behavior simplifies the
// logic.
// For high frequency updates (e.g. `resize` and `scroll` events), always
// prefer the async Popper#update method
forceUpdate : function forceUpdate ( ) {
if ( isDestroyed ) {
return ;
}
var _state$elements = state . elements ,
reference = _state$elements . reference ,
popper = _state$elements . popper ; // Don't proceed if `reference` or `popper` are not valid elements
// anymore
if ( ! areValidElements ( reference , popper ) ) {
if ( process . env . NODE _ENV !== "production" ) {
console . error ( INVALID _ELEMENT _ERROR ) ;
}
return ;
} // Store the reference and popper rects to be read by modifiers
state . rects = {
reference : getCompositeRect ( reference , getOffsetParent ( popper ) , state . options . strategy === 'fixed' ) ,
popper : getLayoutRect ( popper )
} ; // Modifiers have the ability to reset the current update cycle. The
// most common use case for this is the `flip` modifier changing the
// placement, which then needs to re-run all the modifiers, because the
// logic was previously ran for the previous placement and is therefore
// stale/incorrect
state . reset = false ;
state . placement = state . options . placement ; // On each update cycle, the `modifiersData` property for each modifier
// is filled with the initial data specified by the modifier. This means
// it doesn't persist and is fresh on each update.
// To ensure persistent data, use `${name}#persistent`
state . orderedModifiers . forEach ( function ( modifier ) {
return state . modifiersData [ modifier . name ] = Object . assign ( { } , modifier . data ) ;
} ) ;
var _ _debug _loops _ _ = 0 ;
for ( var index = 0 ; index < state . orderedModifiers . length ; index ++ ) {
if ( process . env . NODE _ENV !== "production" ) {
_ _debug _loops _ _ += 1 ;
if ( _ _debug _loops _ _ > 100 ) {
console . error ( INFINITE _LOOP _ERROR ) ;
break ;
}
}
if ( state . reset === true ) {
state . reset = false ;
index = - 1 ;
continue ;
}
var _state$orderedModifie = state . orderedModifiers [ index ] ,
fn = _state$orderedModifie . fn ,
_state$orderedModifie2 = _state$orderedModifie . options ,
_options = _state$orderedModifie2 === void 0 ? { } : _state$orderedModifie2 ,
name = _state$orderedModifie . name ;
if ( typeof fn === 'function' ) {
state = fn ( {
state : state ,
options : _options ,
name : name ,
instance : instance
} ) || state ;
}
}
} ,
// Async and optimistically optimized update – it will not be executed if
// not necessary (debounced to run at most once-per-tick)
update : debounce ( function ( ) {
return new Promise ( function ( resolve ) {
instance . forceUpdate ( ) ;
resolve ( state ) ;
} ) ;
} ) ,
destroy : function destroy ( ) {
cleanupModifierEffects ( ) ;
isDestroyed = true ;
}
} ;
if ( ! areValidElements ( reference , popper ) ) {
if ( process . env . NODE _ENV !== "production" ) {
console . error ( INVALID _ELEMENT _ERROR ) ;
}
return instance ;
}
instance . setOptions ( options ) . then ( function ( state ) {
if ( ! isDestroyed && options . onFirstUpdate ) {
options . onFirstUpdate ( state ) ;
}
} ) ; // Modifiers have the ability to execute arbitrary code before the first
// update cycle runs. They will be executed in the same order as the update
// cycle. This is useful when a modifier adds some persistent data that
// other modifiers need to use, but the modifier is run after the dependent
// one.
function runModifierEffects ( ) {
state . orderedModifiers . forEach ( function ( _ref3 ) {
var name = _ref3 . name ,
_ref3$options = _ref3 . options ,
options = _ref3$options === void 0 ? { } : _ref3$options ,
effect = _ref3 . effect ;
if ( typeof effect === 'function' ) {
var cleanupFn = effect ( {
state : state ,
name : name ,
instance : instance ,
options : options
} ) ;
var noopFn = function noopFn ( ) { } ;
effectCleanupFns . push ( cleanupFn || noopFn ) ;
}
} ) ;
}
function cleanupModifierEffects ( ) {
effectCleanupFns . forEach ( function ( fn ) {
return fn ( ) ;
} ) ;
effectCleanupFns = [ ] ;
}
return instance ;
} ;
}
var defaultModifiers = [ eventListeners , popperOffsets$1 , computeStyles$1 , applyStyles$1 , offset$1 , flip$1 , preventOverflow$1 , arrow$1 , hide$1 ] ;
var createPopper = /*#__PURE__*/ popperGenerator ( {
defaultModifiers : defaultModifiers
} ) ; // eslint-disable-next-line import/no-unused-modules
// Sam stole all this from Liam's Periodic Notes Plugin: https://github.com/liamcain/obsidian-periodic-notes
const wrapAround = ( value , size ) => {
return ( ( value % size ) + size ) % size ;
} ;
class Suggest {
constructor ( owner , containerEl , scope ) {
this . owner = owner ;
this . containerEl = containerEl ;
containerEl . on ( "click" , ".suggestion-item" , this . onSuggestionClick . bind ( this ) ) ;
containerEl . on ( "mousemove" , ".suggestion-item" , this . onSuggestionMouseover . bind ( this ) ) ;
scope . register ( [ ] , "ArrowUp" , ( event ) => {
if ( ! event . isComposing ) {
this . setSelectedItem ( this . selectedItem - 1 , true ) ;
return false ;
}
} ) ;
scope . register ( [ ] , "ArrowDown" , ( event ) => {
if ( ! event . isComposing ) {
this . setSelectedItem ( this . selectedItem + 1 , true ) ;
return false ;
}
} ) ;
scope . register ( [ ] , "Enter" , ( event ) => {
if ( ! event . isComposing ) {
this . useSelectedItem ( event ) ;
return false ;
}
} ) ;
}
onSuggestionClick ( event , el ) {
event . preventDefault ( ) ;
const item = this . suggestions . indexOf ( el ) ;
this . setSelectedItem ( item , false ) ;
this . useSelectedItem ( event ) ;
}
onSuggestionMouseover ( _event , el ) {
const item = this . suggestions . indexOf ( el ) ;
this . setSelectedItem ( item , false ) ;
}
setSuggestions ( values ) {
this . containerEl . empty ( ) ;
const suggestionEls = [ ] ;
values . forEach ( ( value ) => {
const suggestionEl = this . containerEl . createDiv ( "suggestion-item" ) ;
this . owner . renderSuggestion ( value , suggestionEl ) ;
suggestionEls . push ( suggestionEl ) ;
} ) ;
this . values = values ;
this . suggestions = suggestionEls ;
this . setSelectedItem ( 0 , false ) ;
}
useSelectedItem ( event ) {
const currentValue = this . values [ this . selectedItem ] ;
if ( currentValue ) {
this . owner . selectSuggestion ( currentValue , event ) ;
}
}
setSelectedItem ( selectedIndex , scrollIntoView ) {
const normalizedIndex = wrapAround ( selectedIndex , this . suggestions . length ) ;
const prevSelectedSuggestion = this . suggestions [ this . selectedItem ] ;
const selectedSuggestion = this . suggestions [ normalizedIndex ] ;
prevSelectedSuggestion === null || prevSelectedSuggestion === void 0 ? void 0 : prevSelectedSuggestion . removeClass ( "is-selected" ) ;
selectedSuggestion === null || selectedSuggestion === void 0 ? void 0 : selectedSuggestion . addClass ( "is-selected" ) ;
this . selectedItem = normalizedIndex ;
if ( scrollIntoView ) {
selectedSuggestion . scrollIntoView ( false ) ;
}
}
}
class TextInputSuggest {
constructor ( app , inputEl ) {
this . app = app ;
this . inputEl = inputEl ;
this . scope = new obsidian . Scope ( ) ;
this . suggestEl = createDiv ( "suggestion-container" ) ;
const suggestion = this . suggestEl . createDiv ( "suggestion" ) ;
this . suggest = new Suggest ( this , suggestion , this . scope ) ;
this . scope . register ( [ ] , "Escape" , this . close . bind ( this ) ) ;
this . inputEl . addEventListener ( "input" , this . onInputChanged . bind ( this ) ) ;
this . inputEl . addEventListener ( "focus" , this . onInputChanged . bind ( this ) ) ;
this . inputEl . addEventListener ( "blur" , this . close . bind ( this ) ) ;
this . suggestEl . on ( "mousedown" , ".suggestion-container" , ( event ) => {
event . preventDefault ( ) ;
} ) ;
}
onInputChanged ( ) {
const inputStr = this . inputEl . value ;
const suggestions = this . getSuggestions ( inputStr ) ;
if ( ! suggestions ) {
this . close ( ) ;
return ;
}
if ( suggestions . length > 0 ) {
this . suggest . setSuggestions ( suggestions ) ;
// eslint-disable-next-line @typescript-eslint/no-explicit-any
this . open ( this . app . dom . appContainerEl , this . inputEl ) ;
}
else {
this . close ( ) ;
}
}
open ( container , inputEl ) {
// eslint-disable-next-line @typescript-eslint/no-explicit-any
this . app . keymap . pushScope ( this . scope ) ;
container . appendChild ( this . suggestEl ) ;
this . popper = createPopper ( inputEl , this . suggestEl , {
placement : "bottom-start" ,
modifiers : [
{
name : "sameWidth" ,
enabled : true ,
fn : ( { state , instance } ) => {
// Note: positioning needs to be calculated twice -
// first pass - positioning it according to the width of the popper
// second pass - position it with the width bound to the reference element
// we need to early exit to avoid an infinite loop
const targetWidth = ` ${ state . rects . reference . width } px ` ;
if ( state . styles . popper . width === targetWidth ) {
return ;
}
state . styles . popper . width = targetWidth ;
instance . update ( ) ;
} ,
phase : "beforeWrite" ,
requires : [ "computeStyles" ] ,
} ,
] ,
} ) ;
}
close ( ) {
// eslint-disable-next-line @typescript-eslint/no-explicit-any
this . app . keymap . popScope ( this . scope ) ;
this . suggest . setSuggestions ( [ ] ) ;
this . popper . destroy ( ) ;
this . suggestEl . detach ( ) ;
}
}
class KanbanHelperSettingSuggester extends TextInputSuggest {
constructor ( app , inputEl , boards ) {
super ( app , inputEl ) ;
this . app = app ;
this . inputEl = inputEl ;
this . boards = boards ;
}
getSuggestions ( inputStr ) {
const inputLowerCase = inputStr . toLowerCase ( ) ;
return this . boards . map ( board => {
if ( board . basename . toLowerCase ( ) . contains ( inputLowerCase ) )
return board ;
} ) ;
}
selectSuggestion ( item ) {
this . inputEl . value = item . basename ;
this . inputEl . trigger ( "input" ) ;
this . close ( ) ;
}
renderSuggestion ( value , el ) {
if ( value )
el . setText ( value . basename ) ;
}
}
class LogManager {
register ( logger ) {
LogManager . loggers . push ( logger ) ;
return this ;
}
logError ( message ) {
LogManager . loggers . forEach ( logger => logger . logError ( message ) ) ;
throw new Error ( ) ;
}
logWarning ( message ) {
LogManager . loggers . forEach ( logger => logger . logError ( message ) ) ;
}
logMessage ( message ) {
LogManager . loggers . forEach ( logger => logger . logMessage ( message ) ) ;
}
}
LogManager . loggers = [ ] ;
const log = new LogManager ( ) ;
/* src/Modals/KanbanHelperSetting/KanbanHelperSettingContent.svelte generated by Svelte v3.46.4 */
function add _css$1 ( target ) {
append _styles ( target , "svelte-kqcr7b" , ".buttonContainer.svelte-kqcr7b{display:flex;justify-content:center;margin-top:1rem}button.svelte-kqcr7b{margin-left:5px;margin-right:5px;font-size:15px}" ) ;
}
function get _each _context$1 ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 15 ] = list [ i ] ;
child _ctx [ 16 ] = list ;
child _ctx [ 17 ] = i ;
return child _ctx ;
}
// (55:8) {#each kanbanProperties as kanbanProperty, i}
function create _each _block$1 ( ctx ) {
let tr ;
let td0 ;
let input0 ;
let t0 ;
let td1 ;
let t1 _value = /*kanbanProperty*/ ctx [ 15 ] . boardName + "" ;
let t1 ;
let t2 ;
let td2 ;
let input1 ;
let t3 ;
let td3 ;
let t4 _value = /*getHeadingsInBoard*/ ctx [ 6 ] ( /*kanbanProperty*/ ctx [ 15 ] . boardName ) + "" ;
let t4 ;
let t5 ;
let br ;
let mounted ;
let dispose ;
function click _handler ( ) {
return /*click_handler*/ ctx [ 9 ] ( /*i*/ ctx [ 17 ] ) ;
}
function input1 _input _handler ( ) {
/*input1_input_handler*/ ctx [ 11 ] . call ( input1 , /*each_value*/ ctx [ 16 ] , /*i*/ ctx [ 17 ] ) ;
}
return {
c ( ) {
tr = element ( "tr" ) ;
td0 = element ( "td" ) ;
input0 = element ( "input" ) ;
t0 = space ( ) ;
td1 = element ( "td" ) ;
t1 = text ( t1 _value ) ;
t2 = space ( ) ;
td2 = element ( "td" ) ;
input1 = element ( "input" ) ;
t3 = space ( ) ;
td3 = element ( "td" ) ;
t4 = text ( t4 _value ) ;
t5 = space ( ) ;
br = element ( "br" ) ;
attr ( input0 , "type" , "button" ) ;
input0 . value = "❌" ;
attr ( input0 , "class" , "not-a-button" ) ;
attr ( input1 , "type" , "text" ) ;
attr ( input1 , "placeholder" , "Property name" ) ;
} ,
m ( target , anchor ) {
insert ( target , tr , anchor ) ;
append ( tr , td0 ) ;
append ( td0 , input0 ) ;
append ( tr , t0 ) ;
append ( tr , td1 ) ;
append ( td1 , t1 ) ;
append ( tr , t2 ) ;
append ( tr , td2 ) ;
append ( td2 , input1 ) ;
set _input _value ( input1 , /*kanbanProperty*/ ctx [ 15 ] . property ) ;
append ( tr , t3 ) ;
append ( tr , td3 ) ;
append ( td3 , t4 ) ;
insert ( target , t5 , anchor ) ;
insert ( target , br , anchor ) ;
if ( ! mounted ) {
dispose = [
listen ( input0 , "click" , click _handler ) ,
listen ( input1 , "change" , /*change_handler*/ ctx [ 10 ] ) ,
listen ( input1 , "input" , input1 _input _handler )
] ;
mounted = true ;
}
} ,
p ( new _ctx , dirty ) {
ctx = new _ctx ;
if ( dirty & /*kanbanProperties*/ 1 && t1 _value !== ( t1 _value = /*kanbanProperty*/ ctx [ 15 ] . boardName + "" ) ) set _data ( t1 , t1 _value ) ;
if ( dirty & /*kanbanProperties*/ 1 && input1 . value !== /*kanbanProperty*/ ctx [ 15 ] . property ) {
set _input _value ( input1 , /*kanbanProperty*/ ctx [ 15 ] . property ) ;
}
if ( dirty & /*kanbanProperties*/ 1 && t4 _value !== ( t4 _value = /*getHeadingsInBoard*/ ctx [ 6 ] ( /*kanbanProperty*/ ctx [ 15 ] . boardName ) + "" ) ) set _data ( t4 , t4 _value ) ;
} ,
d ( detaching ) {
if ( detaching ) detach ( tr ) ;
if ( detaching ) detach ( t5 ) ;
if ( detaching ) detach ( br ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function create _fragment$2 ( ctx ) {
let div1 ;
let table ;
let thead ;
let t6 ;
let t7 ;
let input ;
let t8 ;
let div0 ;
let button ;
let mounted ;
let dispose ;
let each _value = /*kanbanProperties*/ ctx [ 0 ] ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value . length ; i += 1 ) {
each _blocks [ i ] = create _each _block$1 ( get _each _context$1 ( ctx , each _value , i ) ) ;
}
return {
c ( ) {
div1 = element ( "div" ) ;
table = element ( "table" ) ;
thead = element ( "thead" ) ;
thead . innerHTML = ` <tr><th></th>
< th > Board < / t h >
< th > Property in link < / t h >
< th > Possible values < / t h > < / t r > ` ;
t6 = space ( ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t7 = space ( ) ;
input = element ( "input" ) ;
t8 = space ( ) ;
div0 = element ( "div" ) ;
button = element ( "button" ) ;
button . textContent = "Add" ;
set _style ( table , "width" , "100%" ) ;
attr ( input , "type" , "text" ) ;
attr ( button , "class" , "mod-cta svelte-kqcr7b" ) ;
attr ( div0 , "class" , "buttonContainer svelte-kqcr7b" ) ;
attr ( div1 , "class" , "centerSettingContent" ) ;
} ,
m ( target , anchor ) {
insert ( target , div1 , anchor ) ;
append ( div1 , table ) ;
append ( table , thead ) ;
append ( table , t6 ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( table , null ) ;
}
append ( div1 , t7 ) ;
append ( div1 , input ) ;
/*input_binding*/ ctx [ 12 ] ( input ) ;
set _input _value ( input , /*inputValue*/ ctx [ 3 ] ) ;
append ( div1 , t8 ) ;
append ( div1 , div0 ) ;
append ( div0 , button ) ;
if ( ! mounted ) {
dispose = [
listen ( input , "input" , /*input_input_handler*/ ctx [ 13 ] ) ,
listen ( button , "click" , /*addNewProperty*/ ctx [ 4 ] )
] ;
mounted = true ;
}
} ,
p ( ctx , [ dirty ] ) {
if ( dirty & /*getHeadingsInBoard, kanbanProperties, save, removeProperty*/ 99 ) {
each _value = /*kanbanProperties*/ ctx [ 0 ] ;
let i ;
for ( i = 0 ; i < each _value . length ; i += 1 ) {
const child _ctx = get _each _context$1 ( ctx , each _value , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block$1 ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( table , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value . length ;
}
if ( dirty & /*inputValue*/ 8 && input . value !== /*inputValue*/ ctx [ 3 ] ) {
set _input _value ( input , /*inputValue*/ ctx [ 3 ] ) ;
}
} ,
i : noop ,
o : noop ,
d ( detaching ) {
if ( detaching ) detach ( div1 ) ;
destroy _each ( each _blocks , detaching ) ;
/*input_binding*/ ctx [ 12 ] ( null ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function instance$2 ( $$self , $$props , $$invalidate ) {
let { save } = $$props ;
let { kanbanProperties = [ ] } = $$props ;
let { boards } = $$props ;
let { app } = $$props ;
let suggestEl ;
let inputValue ;
onMount ( ( ) => {
new KanbanHelperSettingSuggester ( app , suggestEl , boards ) ;
} ) ;
function addNewProperty ( ) {
const board = boards . find ( board => board . basename === inputValue ) ;
const exists = ! ! kanbanProperties . find ( kp => kp . boardName === board . basename ) ;
if ( ! board || exists ) return ;
kanbanProperties . push ( { property : "" , boardName : board . basename } ) ;
$$invalidate ( 0 , kanbanProperties ) ; // Svelte
save ( kanbanProperties ) ;
}
function removeProperty ( i ) {
kanbanProperties . splice ( i , 1 ) ;
$$invalidate ( 0 , kanbanProperties ) ; // Svelte
save ( kanbanProperties ) ;
}
function getHeadingsInBoard ( boardName ) {
const file = boards . find ( board => board . basename === boardName ) ;
if ( ! file ) {
log . logWarning ( ` file ${ boardName } not found. ` ) ;
return "FILE NOT FOUND" ;
}
const headings = app . metadataCache . getFileCache ( file ) . headings ;
if ( ! headings ) return "" ;
return headings . map ( heading => heading . heading ) . join ( ", " ) ;
}
const click _handler = i => removeProperty ( i ) ;
const change _handler = ( ) => save ( kanbanProperties ) ;
function input1 _input _handler ( each _value , i ) {
each _value [ i ] . property = this . value ;
$$invalidate ( 0 , kanbanProperties ) ;
}
function input _binding ( $$value ) {
binding _callbacks [ $$value ? 'unshift' : 'push' ] ( ( ) => {
suggestEl = $$value ;
$$invalidate ( 2 , suggestEl ) ;
} ) ;
}
function input _input _handler ( ) {
inputValue = this . value ;
$$invalidate ( 3 , inputValue ) ;
}
$$self . $$set = $$props => {
if ( 'save' in $$props ) $$invalidate ( 1 , save = $$props . save ) ;
if ( 'kanbanProperties' in $$props ) $$invalidate ( 0 , kanbanProperties = $$props . kanbanProperties ) ;
if ( 'boards' in $$props ) $$invalidate ( 7 , boards = $$props . boards ) ;
if ( 'app' in $$props ) $$invalidate ( 8 , app = $$props . app ) ;
} ;
return [
kanbanProperties ,
save ,
suggestEl ,
inputValue ,
addNewProperty ,
removeProperty ,
getHeadingsInBoard ,
boards ,
app ,
click _handler ,
change _handler ,
input1 _input _handler ,
input _binding ,
input _input _handler
] ;
}
class KanbanHelperSettingContent extends SvelteComponent {
constructor ( options ) {
super ( ) ;
init (
this ,
options ,
instance$2 ,
create _fragment$2 ,
safe _not _equal ,
{
save : 1 ,
kanbanProperties : 0 ,
boards : 7 ,
app : 8
} ,
add _css$1
) ;
}
}
/* src/Modals/shared/SingleValueTableEditorContent.svelte generated by Svelte v3.46.4 */
function add _css ( target ) {
append _styles ( target , "svelte-kqcr7b" , ".buttonContainer.svelte-kqcr7b{display:flex;justify-content:center;margin-top:1rem}button.svelte-kqcr7b{margin-left:5px;margin-right:5px;font-size:15px}" ) ;
}
function get _each _context ( ctx , list , i ) {
const child _ctx = ctx . slice ( ) ;
child _ctx [ 7 ] = list [ i ] ;
child _ctx [ 8 ] = list ;
child _ctx [ 9 ] = i ;
return child _ctx ;
}
// (23:8) {#each properties as property, i}
function create _each _block ( ctx ) {
let tr ;
let td0 ;
let input0 ;
let t0 ;
let td1 ;
let input1 ;
let t1 ;
let mounted ;
let dispose ;
function click _handler ( ) {
return /*click_handler*/ ctx [ 4 ] ( /*i*/ ctx [ 9 ] ) ;
}
function input1 _input _handler ( ) {
/*input1_input_handler*/ ctx [ 6 ] . call ( input1 , /*each_value*/ ctx [ 8 ] , /*i*/ ctx [ 9 ] ) ;
}
return {
c ( ) {
tr = element ( "tr" ) ;
td0 = element ( "td" ) ;
input0 = element ( "input" ) ;
t0 = space ( ) ;
td1 = element ( "td" ) ;
input1 = element ( "input" ) ;
t1 = space ( ) ;
attr ( input0 , "type" , "button" ) ;
input0 . value = "❌" ;
attr ( input0 , "class" , "not-a-button" ) ;
set _style ( input1 , "width" , "100%" ) ;
attr ( input1 , "type" , "text" ) ;
attr ( input1 , "placeholder" , "Property name" ) ;
} ,
m ( target , anchor ) {
insert ( target , tr , anchor ) ;
append ( tr , td0 ) ;
append ( td0 , input0 ) ;
append ( tr , t0 ) ;
append ( tr , td1 ) ;
append ( td1 , input1 ) ;
set _input _value ( input1 , /*property*/ ctx [ 7 ] ) ;
append ( tr , t1 ) ;
if ( ! mounted ) {
dispose = [
listen ( input0 , "click" , click _handler ) ,
listen ( input1 , "change" , /*change_handler*/ ctx [ 5 ] ) ,
listen ( input1 , "input" , input1 _input _handler )
] ;
mounted = true ;
}
} ,
p ( new _ctx , dirty ) {
ctx = new _ctx ;
if ( dirty & /*properties*/ 1 && input1 . value !== /*property*/ ctx [ 7 ] ) {
set _input _value ( input1 , /*property*/ ctx [ 7 ] ) ;
}
} ,
d ( detaching ) {
if ( detaching ) detach ( tr ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function create _fragment$1 ( ctx ) {
let div1 ;
let table ;
let thead ;
let t2 ;
let t3 ;
let div0 ;
let button ;
let mounted ;
let dispose ;
let each _value = /*properties*/ ctx [ 0 ] ;
let each _blocks = [ ] ;
for ( let i = 0 ; i < each _value . length ; i += 1 ) {
each _blocks [ i ] = create _each _block ( get _each _context ( ctx , each _value , i ) ) ;
}
return {
c ( ) {
div1 = element ( "div" ) ;
table = element ( "table" ) ;
thead = element ( "thead" ) ;
thead . innerHTML = ` <tr><th></th>
< th > Property < / t h > < / t r > ` ;
t2 = space ( ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . c ( ) ;
}
t3 = space ( ) ;
div0 = element ( "div" ) ;
button = element ( "button" ) ;
button . textContent = "Add" ;
set _style ( table , "width" , "100%" ) ;
attr ( button , "class" , "mod-cta svelte-kqcr7b" ) ;
attr ( div0 , "class" , "buttonContainer svelte-kqcr7b" ) ;
attr ( div1 , "class" , "centerSettingContent" ) ;
} ,
m ( target , anchor ) {
insert ( target , div1 , anchor ) ;
append ( div1 , table ) ;
append ( table , thead ) ;
append ( table , t2 ) ;
for ( let i = 0 ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . m ( table , null ) ;
}
append ( div1 , t3 ) ;
append ( div1 , div0 ) ;
append ( div0 , button ) ;
if ( ! mounted ) {
dispose = listen ( button , "click" , /*addNewProperty*/ ctx [ 2 ] ) ;
mounted = true ;
}
} ,
p ( ctx , [ dirty ] ) {
if ( dirty & /*properties, save, removeProperty*/ 11 ) {
each _value = /*properties*/ ctx [ 0 ] ;
let i ;
for ( i = 0 ; i < each _value . length ; i += 1 ) {
const child _ctx = get _each _context ( ctx , each _value , i ) ;
if ( each _blocks [ i ] ) {
each _blocks [ i ] . p ( child _ctx , dirty ) ;
} else {
each _blocks [ i ] = create _each _block ( child _ctx ) ;
each _blocks [ i ] . c ( ) ;
each _blocks [ i ] . m ( table , null ) ;
}
}
for ( ; i < each _blocks . length ; i += 1 ) {
each _blocks [ i ] . d ( 1 ) ;
}
each _blocks . length = each _value . length ;
}
} ,
i : noop ,
o : noop ,
d ( detaching ) {
if ( detaching ) detach ( div1 ) ;
destroy _each ( each _blocks , detaching ) ;
mounted = false ;
dispose ( ) ;
}
} ;
}
function instance$1 ( $$self , $$props , $$invalidate ) {
let { save } = $$props ;
let { properties = [ ] } = $$props ;
function addNewProperty ( ) {
properties . push ( "" ) ;
$$invalidate ( 0 , properties ) ; // Svelte
save ( properties ) ;
}
function removeProperty ( i ) {
properties . splice ( i , 1 ) ;
$$invalidate ( 0 , properties ) ; // Svelte
save ( properties ) ;
}
const click _handler = i => removeProperty ( i ) ;
const change _handler = async ( ) => save ( properties ) ;
function input1 _input _handler ( each _value , i ) {
each _value [ i ] = this . value ;
$$invalidate ( 0 , properties ) ;
}
$$self . $$set = $$props => {
if ( 'save' in $$props ) $$invalidate ( 1 , save = $$props . save ) ;
if ( 'properties' in $$props ) $$invalidate ( 0 , properties = $$props . properties ) ;
} ;
return [
properties ,
save ,
addNewProperty ,
removeProperty ,
click _handler ,
change _handler ,
input1 _input _handler
] ;
}
class SingleValueTableEditorContent extends SvelteComponent {
constructor ( options ) {
super ( ) ;
init ( this , options , instance$1 , create _fragment$1 , safe _not _equal , { save : 1 , properties : 0 } , add _css ) ;
}
}
function toggleHiddenEl ( el , bShow ) {
if ( el && ! bShow ) {
el . style . display = "none" ;
return true ;
}
else if ( el && bShow ) {
el . style . display = "block" ;
return false ;
}
return bShow ;
}
class MetaEditSettingsTab extends obsidian . PluginSettingTab {
constructor ( app , plugin ) {
super ( app , plugin ) ;
this . svelteElements = [ ] ;
this . plugin = plugin ;
}
display ( ) {
let { containerEl } = this ;
containerEl . empty ( ) ;
containerEl . createEl ( 'h2' , { text : 'MetaEdit Settings' } ) ;
this . addProgressPropertiesSetting ( containerEl ) ;
this . addAutoPropertiesSetting ( containerEl ) ;
this . addIgnorePropertiesSetting ( containerEl ) ;
this . addEditModeSetting ( containerEl ) ;
this . addKanbanHelperSetting ( containerEl ) ;
this . addUIElementsSetting ( containerEl ) ;
}
addProgressPropertiesSetting ( containerEl ) {
let modal , div , hidden = true ;
const setting = new obsidian . Setting ( containerEl )
. setName ( "Progress Properties" )
. setDesc ( "Update properties automatically." )
. addToggle ( toggle => {
toggle
. setTooltip ( "Toggle Progress Properties" )
. setValue ( this . plugin . settings . ProgressProperties . enabled )
. onChange ( async ( value ) => {
if ( value === this . plugin . settings . ProgressProperties . enabled )
return ;
this . plugin . settings . ProgressProperties . enabled = value ;
this . plugin . toggleAutomators ( ) ;
await this . plugin . saveSettings ( ) ;
} ) ;
} )
. addExtraButton ( button => button . onClick ( ( ) => hidden = toggleHiddenEl ( div , hidden ) ) ) ;
div = setting . settingEl . createDiv ( ) ;
setting . settingEl . style . display = "block" ;
div . style . display = "none" ;
modal = new ProgressPropertiesModalContent ( {
target : div ,
props : {
properties : this . plugin . settings . ProgressProperties . properties ,
save : async ( progressProperties ) => {
this . plugin . settings . ProgressProperties . properties = progressProperties ;
await this . plugin . saveSettings ( ) ;
}
} ,
} ) ;
this . svelteElements . push ( modal ) ;
}
addAutoPropertiesSetting ( containerEl ) {
let modal , div , hidden = true ;
const setting = new obsidian . Setting ( containerEl )
. setName ( "Auto Properties" )
. setDesc ( "Quick switch for values you know the value of." )
. addToggle ( toggle => {
toggle
. setTooltip ( "Toggle Auto Properties" )
. setValue ( this . plugin . settings . AutoProperties . enabled )
. onChange ( async ( value ) => {
if ( value === this . plugin . settings . AutoProperties . enabled )
return ;
this . plugin . settings . AutoProperties . enabled = value ;
await this . plugin . saveSettings ( ) ;
} ) ;
} )
. addExtraButton ( b => b . onClick ( ( ) => hidden = toggleHiddenEl ( div , hidden ) ) ) ;
div = setting . settingEl . createDiv ( ) ;
setting . settingEl . style . display = "block" ;
div . style . display = "none" ;
modal = new AutoPropertiesModalContent ( {
target : div ,
props : {
autoProperties : this . plugin . settings . AutoProperties . properties ,
save : async ( autoProperties ) => {
this . plugin . settings . AutoProperties . properties = autoProperties ;
await this . plugin . saveSettings ( ) ;
}
} ,
} ) ;
this . svelteElements . push ( modal ) ;
}
addIgnorePropertiesSetting ( containerEl ) {
let modal , div , hidden = true ;
const setting = new obsidian . Setting ( containerEl )
. setName ( "Ignore Properties" )
. setDesc ( "Hide these properties from the menu." )
. addToggle ( toggle => {
toggle
. setTooltip ( "Toggle Ignored Properties" )
. setValue ( this . plugin . settings . IgnoredProperties . enabled )
. onChange ( async ( value ) => {
if ( value === this . plugin . settings . IgnoredProperties . enabled )
return ;
this . plugin . settings . IgnoredProperties . enabled = value ;
await this . plugin . saveSettings ( ) ;
this . display ( ) ;
} ) ;
} ) . addExtraButton ( b => b . onClick ( ( ) => hidden = toggleHiddenEl ( div , hidden ) ) ) ;
if ( this . plugin . settings . IgnoredProperties . enabled ) {
div = setting . settingEl . createDiv ( ) ;
setting . settingEl . style . display = "block" ;
div . style . display = "none" ;
modal = new SingleValueTableEditorContent ( {
target : div ,
props : {
properties : this . plugin . settings . IgnoredProperties . properties ,
save : async ( ignoredProperties ) => {
this . plugin . settings . IgnoredProperties . properties = ignoredProperties ;
await this . plugin . saveSettings ( ) ;
}
} ,
} ) ;
this . svelteElements . push ( modal ) ;
}
}
addEditModeSetting ( containerEl ) {
let modal , div , bDivToggle = true , extraButtonEl ;
// For linebreaks
const df = new DocumentFragment ( ) ;
df . createEl ( 'p' , { text : "Single: property values are just one value. " } ) ;
df . createEl ( 'p' , { text : "Multi: properties are arrays. " } ) ;
df . createEl ( 'p' , { text : "Some Multi: all options are single, except those specified in the settings (click button)." } ) ;
const setting = new obsidian . Setting ( containerEl )
. setName ( "Edit Mode" )
. setDesc ( df )
. addDropdown ( dropdown => {
dropdown
. addOption ( EditMode . AllSingle , EditMode . AllSingle )
. addOption ( EditMode . AllMulti , EditMode . AllMulti )
. addOption ( EditMode . SomeMulti , EditMode . SomeMulti )
. setValue ( this . plugin . settings . EditMode . mode )
. onChange ( async ( value ) => {
switch ( value ) {
case EditMode . AllMulti :
this . plugin . settings . EditMode . mode = EditMode . AllMulti ;
toggleHiddenEl ( extraButtonEl , false ) ;
bDivToggle = toggleHiddenEl ( div , false ) ;
break ;
case EditMode . AllSingle :
this . plugin . settings . EditMode . mode = EditMode . AllSingle ;
toggleHiddenEl ( extraButtonEl , false ) ;
bDivToggle = toggleHiddenEl ( div , false ) ;
break ;
case EditMode . SomeMulti :
this . plugin . settings . EditMode . mode = EditMode . SomeMulti ;
toggleHiddenEl ( extraButtonEl , true ) ;
break ;
}
await this . plugin . saveSettings ( ) ;
} ) ;
} )
. addExtraButton ( b => {
extraButtonEl = b . extraSettingsEl ;
b . setTooltip ( "Configure which properties are Multi." ) ;
return b . onClick ( ( ) => bDivToggle = toggleHiddenEl ( div , bDivToggle ) ) ;
} ) ;
if ( this . plugin . settings . EditMode . mode != EditMode . SomeMulti ) {
toggleHiddenEl ( extraButtonEl , false ) ;
}
div = setting . settingEl . createDiv ( ) ;
setting . settingEl . style . display = "block" ;
div . style . display = "none" ;
modal = new SingleValueTableEditorContent ( {
target : div ,
props : {
properties : this . plugin . settings . EditMode . properties ,
save : async ( properties ) => {
this . plugin . settings . EditMode . properties = properties ;
await this . plugin . saveSettings ( ) ;
}
} ,
} ) ;
this . svelteElements . push ( modal ) ;
}
hide ( ) {
this . svelteElements . forEach ( el => el . $destroy ( ) ) ;
return super . hide ( ) ;
}
addKanbanHelperSetting ( containerEl ) {
let modal , div , hidden = true ;
const setting = new obsidian . Setting ( containerEl )
. setName ( "Kanban Board Helper" )
. setDesc ( "Update properties in links in kanban boards automatically when a card is moved to a new lane." )
. addToggle ( toggle => {
toggle
. setTooltip ( "Toggle Kanban Helper" )
. setValue ( this . plugin . settings . KanbanHelper . enabled )
. onChange ( async ( value ) => {
if ( value === this . plugin . settings . KanbanHelper . enabled )
return ;
this . plugin . settings . KanbanHelper . enabled = value ;
this . plugin . toggleAutomators ( ) ;
await this . plugin . saveSettings ( ) ;
} ) ;
} )
. addExtraButton ( button => button . onClick ( ( ) => hidden = toggleHiddenEl ( div , hidden ) ) ) ;
div = setting . settingEl . createDiv ( ) ;
setting . settingEl . style . display = "block" ;
div . style . display = "none" ;
modal = new KanbanHelperSettingContent ( {
target : div ,
props : {
kanbanProperties : this . plugin . settings . KanbanHelper . boards ,
boards : this . plugin . getFilesWithProperty ( "kanban-plugin" ) ,
app : this . app ,
save : async ( kanbanProperties ) => {
this . plugin . settings . KanbanHelper . boards = kanbanProperties ;
await this . plugin . saveSettings ( ) ;
}
} ,
} ) ;
this . svelteElements . push ( modal ) ;
}
addUIElementsSetting ( containerEl ) {
new obsidian . Setting ( containerEl )
. setName ( "UI Elements" )
. setDesc ( "Toggle UI elements: the 'Edit Meta' right-click menu option." )
. addToggle ( toggle => {
toggle
. setTooltip ( "Toggle UI elements" )
. setValue ( this . plugin . settings . UIElements . enabled )
. onChange ( async ( value ) => {
if ( value === this . plugin . settings . UIElements . enabled )
return ;
this . plugin . settings . UIElements . enabled = value ;
value ? this . plugin . linkMenu . registerEvent ( ) : this . plugin . linkMenu . unregisterEvent ( ) ;
await this . plugin . saveSettings ( ) ;
} ) ;
} ) ;
}
}
var MetaType ;
( function ( MetaType ) {
MetaType [ MetaType [ "YAML" ] = 0 ] = "YAML" ;
MetaType [ MetaType [ "Dataview" ] = 1 ] = "Dataview" ;
MetaType [ MetaType [ "Tag" ] = 2 ] = "Tag" ;
MetaType [ MetaType [ "Option" ] = 3 ] = "Option" ;
} ) ( MetaType || ( MetaType = { } ) ) ;
const ADD _FIRST _ELEMENT = "cmd:addfirst" ;
const ADD _TO _BEGINNING = "cmd:beg" ;
const ADD _TO _END = "cmd:end" ;
const newDataView = "New Dataview field" ;
const newYaml = "New YAML property" ;
const MAIN _SUGGESTER _OPTIONS = [
{ key : newYaml , content : newYaml , type : MetaType . Option } ,
{ key : newDataView , content : newDataView , type : MetaType . Option }
] ;
var commonjsGlobal = typeof globalThis !== 'undefined' ? globalThis : typeof window !== 'undefined' ? window : typeof global !== 'undefined' ? global : typeof self !== 'undefined' ? self : { } ;
function createCommonjsModule ( fn ) {
var module = { exports : { } } ;
return fn ( module , module . exports ) , module . exports ;
}
function commonjsRequire ( path ) {
throw new Error ( 'Could not dynamically require "' + path + '". Please configure the dynamicRequireTargets or/and ignoreDynamicRequires option of @rollup/plugin-commonjs appropriately for this require call to work.' ) ;
}
var utils = createCommonjsModule ( function ( module , exports ) {
var _ _createBinding = ( commonjsGlobal && commonjsGlobal . _ _createBinding ) || ( Object . create ? ( function ( o , m , k , k2 ) {
if ( k2 === undefined ) k2 = k ;
Object . defineProperty ( o , k2 , { enumerable : true , get : function ( ) { return m [ k ] ; } } ) ;
} ) : ( function ( o , m , k , k2 ) {
if ( k2 === undefined ) k2 = k ;
o [ k2 ] = m [ k ] ;
} ) ) ;
var _ _setModuleDefault = ( commonjsGlobal && commonjsGlobal . _ _setModuleDefault ) || ( Object . create ? ( function ( o , v ) {
Object . defineProperty ( o , "default" , { enumerable : true , value : v } ) ;
} ) : function ( o , v ) {
o [ "default" ] = v ;
} ) ;
var _ _importStar = ( commonjsGlobal && commonjsGlobal . _ _importStar ) || function ( mod ) {
if ( mod && mod . _ _esModule ) return mod ;
var result = { } ;
if ( mod != null ) for ( var k in mod ) if ( k !== "default" && Object . prototype . hasOwnProperty . call ( mod , k ) ) _ _createBinding ( result , mod , k ) ;
_ _setModuleDefault ( result , mod ) ;
return result ;
} ;
Object . defineProperty ( exports , "__esModule" , { value : true } ) ;
exports . JAVASCRIPT _RESERVED _KEYWORD _SET = exports . setProp = exports . findUp = exports . isValidLocalPath = exports . hasDepInstalled = exports . getIncludePaths = exports . concat = exports . importAny = void 0 ;
async function importAny ( ... modules ) {
try {
const mod = await modules . reduce ( ( acc , moduleName ) => acc . catch ( ( ) => Promise . resolve ( ) . then ( ( ) => _ _importStar ( commonjsRequire ( moduleName ) ) ) ) , Promise . reject ( ) ) ;
return mod ;
}
catch ( e ) {
throw new Error ( ` Cannot find any of modules: ${ modules } \n \n ${ e } ` ) ;
}
}
exports . importAny = importAny ;
function concat ( ... arrs ) {
return arrs . reduce ( ( acc , a ) => {
if ( a ) {
return acc . concat ( a ) ;
}
return acc ;
} , [ ] ) ;
}
exports . concat = concat ;
/** Paths used by preprocessors to resolve @imports */
function getIncludePaths ( fromFilename , base = [ ] ) {
if ( fromFilename == null )
return [ ] ;
return [
... new Set ( [ ... base , 'node_modules' , process . cwd ( ) , ( 0 , path _1 _ _default [ "default" ] . dirname ) ( fromFilename ) ] ) ,
] ;
}
exports . getIncludePaths = getIncludePaths ;
const depCheckCache = { } ;
/ * *
* Checks if a package is installed .
*
* @ export
* @ param { string } dep
* @ returns boolean
* /
async function hasDepInstalled ( dep ) {
if ( depCheckCache [ dep ] != null ) {
return depCheckCache [ dep ] ;
}
let result = false ;
try {
await Promise . resolve ( ) . then ( ( ) => _ _importStar ( commonjsRequire ( dep ) ) ) ;
result = true ;
}
catch ( e ) {
result = false ;
}
return ( depCheckCache [ dep ] = result ) ;
}
exports . hasDepInstalled = hasDepInstalled ;
const REMOTE _SRC _PATTERN = /^(https?:)?\/\// ;
function isValidLocalPath ( path ) {
return ( path . match ( REMOTE _SRC _PATTERN ) == null &&
// only literal strings allowed
! path . startsWith ( '{' ) &&
! path . endsWith ( '}' ) ) ;
}
exports . isValidLocalPath = isValidLocalPath ;
// finds a existing path up the tree
function findUp ( { what , from } ) {
const { root , dir } = ( 0 , path _1 _ _default [ "default" ] . parse ) ( from ) ;
let cur = dir ;
try {
while ( cur !== root ) {
const possiblePath = ( 0 , path _1 _ _default [ "default" ] . join ) ( cur , what ) ;
if ( ( 0 , fs _1 _ _default [ "default" ] . existsSync ) ( possiblePath ) ) {
return possiblePath ;
}
cur = ( 0 , path _1 _ _default [ "default" ] . dirname ) ( cur ) ;
}
}
catch ( e ) {
console . error ( e ) ;
}
return null ;
}
exports . findUp = findUp ;
// set deep property in object
function setProp ( obj , keyList , value ) {
let i = 0 ;
for ( ; i < keyList . length - 1 ; i ++ ) {
const key = keyList [ i ] ;
if ( typeof obj [ key ] !== 'object' ) {
obj [ key ] = { } ;
}
obj = obj [ key ] ;
}
obj [ keyList [ i ] ] = value ;
}
exports . setProp = setProp ;
exports . JAVASCRIPT _RESERVED _KEYWORD _SET = new Set ( [
'arguments' ,
'await' ,
'break' ,
'case' ,
'catch' ,
'class' ,
'const' ,
'continue' ,
'debugger' ,
'default' ,
'delete' ,
'do' ,
'else' ,
'enum' ,
'eval' ,
'export' ,
'extends' ,
'false' ,
'finally' ,
'for' ,
'function' ,
'if' ,
'implements' ,
'import' ,
'in' ,
'instanceof' ,
'interface' ,
'let' ,
'new' ,
'null' ,
'package' ,
'private' ,
'protected' ,
'public' ,
'return' ,
'static' ,
'super' ,
'switch' ,
'this' ,
'throw' ,
'true' ,
'try' ,
'typeof' ,
'var' ,
'void' ,
'while' ,
'with' ,
'yield' ,
] ) ;
} ) ;
class MetaEditSuggester extends obsidian . FuzzySuggestModal {
constructor ( app , plugin , data , file , controller ) {
super ( app ) ;
this . file = file ;
this . app = app ;
this . plugin = plugin ;
this . data = this . removeIgnored ( data ) ;
this . controller = controller ;
this . options = MAIN _SUGGESTER _OPTIONS ;
this . setSuggestValues ( ) ;
this . setInstructions ( [
{ command : "❌" , purpose : "Delete property" } ,
{ command : "🔃" , purpose : "Transform to YAML/Dataview" }
] ) ;
}
renderSuggestion ( item , el ) {
super . renderSuggestion ( item , el ) ;
if ( Object . values ( this . options ) . find ( v => v === item . item ) ) {
el . style . fontWeight = "bold" ;
}
else {
this . createButton ( el , "❌" , this . deleteItem ( item ) ) ;
this . createButton ( el , "🔃" , this . transformProperty ( item ) ) ;
}
}
getItemText ( item ) {
return item . key ;
}
getItems ( ) {
return utils . concat ( this . options , this . data ) ;
}
async onChooseItem ( item , evt ) {
if ( item . content === newYaml ) {
const newProperty = await this . controller . createNewProperty ( this . suggestValues ) ;
if ( ! newProperty )
return null ;
const { propName , propValue } = newProperty ;
await this . controller . addYamlProp ( propName , propValue , this . file ) ;
return ;
}
if ( item . content === newDataView ) {
const newProperty = await this . controller . createNewProperty ( this . suggestValues ) ;
if ( ! newProperty )
return null ;
const { propName , propValue } = newProperty ;
await this . controller . addDataviewField ( propName , propValue , this . file ) ;
return ;
}
await this . controller . editMetaElement ( item , this . data , this . file ) ;
}
deleteItem ( item ) {
return async ( evt ) => {
evt . stopPropagation ( ) ;
await this . controller . deleteProperty ( item . item , this . file ) ;
this . close ( ) ;
} ;
}
transformProperty ( item ) {
return async ( evt ) => {
evt . stopPropagation ( ) ;
const { item : property } = item ;
if ( property . type === MetaType . YAML ) {
await this . toDataview ( property ) ;
}
else {
await this . toYaml ( property ) ;
}
this . close ( ) ;
} ;
}
async toYaml ( property ) {
await this . controller . deleteProperty ( property , this . file ) ;
await this . controller . addYamlProp ( property . key , property . content , this . file ) ;
}
async toDataview ( property ) {
await this . controller . deleteProperty ( property , this . file ) ;
await this . controller . addDataviewField ( property . key , property . content , this . file ) ;
}
createButton ( el , content , callback ) {
const itemButton = el . createEl ( "button" ) ;
itemButton . textContent = content ;
itemButton . classList . add ( "not-a-button" ) ;
itemButton . style . float = "right" ;
itemButton . style . marginRight = "4px" ;
itemButton . addEventListener ( "click" , callback ) ;
}
removeIgnored ( data ) {
const ignored = this . plugin . settings . IgnoredProperties . properties ;
let purged = [ ] ;
for ( let item in data ) {
if ( ! ignored . contains ( data [ item ] . key ) )
purged . push ( data [ item ] ) ;
}
return purged ;
}
setSuggestValues ( ) {
const autoProps = this . plugin . settings . AutoProperties . properties ;
this . suggestValues = autoProps . reduce ( ( arr , val ) => {
if ( ! this . data . find ( prop => val . name === prop . key || val . name . startsWith ( '#' ) ) ) {
arr . push ( val . name ) ;
}
return arr ;
} , [ ] ) ;
}
}
class MetaEditParser {
constructor ( app ) {
this . app = app ;
}
async getTagsForFile ( file ) {
const cache = this . app . metadataCache . getFileCache ( file ) ;
if ( ! cache )
return [ ] ;
const tags = cache . tags ;
if ( ! tags )
return [ ] ;
let mTags = [ ] ;
tags . forEach ( tag => mTags . push ( { key : tag . tag , content : tag . tag , type : MetaType . Tag } ) ) ;
return mTags ;
}
async parseFrontmatter ( file ) {
var _a ;
const frontmatter = ( _a = this . app . metadataCache . getFileCache ( file ) ) === null || _a === void 0 ? void 0 : _a . frontmatter ;
if ( ! frontmatter )
return [ ] ;
const { position : { start , end } } = frontmatter ;
const filecontent = await this . app . vault . cachedRead ( file ) ;
const yamlContent = filecontent . split ( "\n" ) . slice ( start . line , end . line ) . join ( "\n" ) ;
const parsedYaml = obsidian . parseYaml ( yamlContent ) ;
let metaYaml = [ ] ;
for ( const key in parsedYaml ) {
metaYaml . push ( { key , content : parsedYaml [ key ] , type : MetaType . YAML } ) ;
}
return metaYaml ;
}
async parseInlineFields ( file ) {
const content = await this . app . vault . cachedRead ( file ) ;
return content . split ( "\n" ) . reduce ( ( obj , str ) => {
let parts = str . split ( "::" ) ;
if ( parts [ 0 ] && parts [ 1 ] ) {
obj . push ( { key : parts [ 0 ] , content : parts [ 1 ] . trim ( ) , type : MetaType . Dataview } ) ;
}
else if ( str . includes ( "::" ) ) {
const key = str . replace ( "::" , '' ) ;
obj . push ( { key , content : "" , type : MetaType . Dataview } ) ;
}
return obj ;
} , [ ] ) ;
}
}
class GenericTextSuggester extends TextInputSuggest {
constructor ( app , inputEl , items ) {
super ( app , inputEl ) ;
this . app = app ;
this . inputEl = inputEl ;
this . items = items ;
}
getSuggestions ( inputStr ) {
const inputLowerCase = inputStr . toLowerCase ( ) ;
const filtered = this . items . filter ( item => {
if ( item . toLowerCase ( ) . contains ( inputLowerCase ) )
return item ;
} ) ;
if ( ! filtered )
this . close ( ) ;
if ( ( filtered === null || filtered === void 0 ? void 0 : filtered . length ) === 1 )
return [ ... filtered , inputStr ] ;
if ( ( filtered === null || filtered === void 0 ? void 0 : filtered . length ) > 1 )
return filtered ;
}
selectSuggestion ( item ) {
this . inputEl . value = item ;
this . inputEl . trigger ( "input" ) ;
this . close ( ) ;
}
renderSuggestion ( value , el ) {
if ( value )
el . setText ( value ) ;
}
}
/* src/Modals/GenericPrompt/GenericPromptContent.svelte generated by Svelte v3.46.4 */
function create _fragment ( ctx ) {
let div ;
let h1 ;
let t0 ;
let t1 ;
let input ;
let mounted ;
let dispose ;
return {
c ( ) {
div = element ( "div" ) ;
h1 = element ( "h1" ) ;
t0 = text ( /*header*/ ctx [ 1 ] ) ;
t1 = space ( ) ;
input = element ( "input" ) ;
set _style ( h1 , "text-align" , "center" ) ;
attr ( input , "class" , "metaEditPromptInput" ) ;
attr ( input , "placeholder" , /*placeholder*/ ctx [ 2 ] ) ;
set _style ( input , "width" , "100%" ) ;
attr ( input , "type" , "text" ) ;
attr ( div , "class" , "metaEditPrompt" ) ;
} ,
m ( target , anchor ) {
insert ( target , div , anchor ) ;
append ( div , h1 ) ;
append ( h1 , t0 ) ;
append ( div , t1 ) ;
append ( div , input ) ;
/*input_binding*/ ctx [ 8 ] ( input ) ;
set _input _value ( input , /*value*/ ctx [ 0 ] ) ;
if ( ! mounted ) {
dispose = [
listen ( input , "input" , /*input_input_handler*/ ctx [ 9 ] ) ,
listen ( input , "keydown" , /*submit*/ ctx [ 4 ] )
] ;
mounted = true ;
}
} ,
p ( ctx , [ dirty ] ) {
if ( dirty & /*header*/ 2 ) set _data ( t0 , /*header*/ ctx [ 1 ] ) ;
if ( dirty & /*placeholder*/ 4 ) {
attr ( input , "placeholder" , /*placeholder*/ ctx [ 2 ] ) ;
}
if ( dirty & /*value*/ 1 && input . value !== /*value*/ ctx [ 0 ] ) {
set _input _value ( input , /*value*/ ctx [ 0 ] ) ;
}
} ,
i : noop ,
o : noop ,
d ( detaching ) {
if ( detaching ) detach ( div ) ;
/*input_binding*/ ctx [ 8 ] ( null ) ;
mounted = false ;
run _all ( dispose ) ;
}
} ;
}
function instance ( $$self , $$props , $$invalidate ) {
let { app } = $$props ;
let { header = "" } = $$props ;
let { placeholder = "" } = $$props ;
let { value = "" } = $$props ;
let { onSubmit } = $$props ;
let { suggestValues } = $$props ;
let inputEl ;
onMount ( ( ) => {
if ( suggestValues && suggestValues . length > 0 ) new GenericTextSuggester ( app , inputEl , suggestValues ) ;
inputEl . select ( ) ;
inputEl . focus ( ) ;
} ) ;
function submit ( evt ) {
if ( evt . key === "Enter" ) {
evt . preventDefault ( ) ;
onSubmit ( value ) ;
}
}
function input _binding ( $$value ) {
binding _callbacks [ $$value ? 'unshift' : 'push' ] ( ( ) => {
inputEl = $$value ;
$$invalidate ( 3 , inputEl ) ;
} ) ;
}
function input _input _handler ( ) {
value = this . value ;
$$invalidate ( 0 , value ) ;
}
$$self . $$set = $$props => {
if ( 'app' in $$props ) $$invalidate ( 5 , app = $$props . app ) ;
if ( 'header' in $$props ) $$invalidate ( 1 , header = $$props . header ) ;
if ( 'placeholder' in $$props ) $$invalidate ( 2 , placeholder = $$props . placeholder ) ;
if ( 'value' in $$props ) $$invalidate ( 0 , value = $$props . value ) ;
if ( 'onSubmit' in $$props ) $$invalidate ( 6 , onSubmit = $$props . onSubmit ) ;
if ( 'suggestValues' in $$props ) $$invalidate ( 7 , suggestValues = $$props . suggestValues ) ;
} ;
return [
value ,
header ,
placeholder ,
inputEl ,
submit ,
app ,
onSubmit ,
suggestValues ,
input _binding ,
input _input _handler
] ;
}
class GenericPromptContent extends SvelteComponent {
constructor ( options ) {
super ( ) ;
init ( this , options , instance , create _fragment , safe _not _equal , {
app : 5 ,
header : 1 ,
placeholder : 2 ,
value : 0 ,
onSubmit : 6 ,
suggestValues : 7
} ) ;
}
}
class GenericPrompt extends obsidian . Modal {
constructor ( app , header , placeholder , value , suggestValues ) {
super ( app ) ;
this . didSubmit = false ;
this . modalContent = new GenericPromptContent ( {
target : this . contentEl ,
props : {
app ,
header ,
placeholder ,
value ,
suggestValues ,
onSubmit : ( input ) => {
this . input = input ;
this . didSubmit = true ;
this . close ( ) ;
}
}
} ) ;
this . waitForClose = new Promise ( ( resolve , reject ) => {
this . resolvePromise = resolve ;
this . rejectPromise = reject ;
} ) ;
this . open ( ) ;
}
static Prompt ( app , header , placeholder , value , suggestValues ) {
const newPromptModal = new GenericPrompt ( app , header , placeholder , value , suggestValues ) ;
return newPromptModal . waitForClose ;
}
onOpen ( ) {
super . onOpen ( ) ;
const modalPrompt = document . querySelector ( '.metaEditPrompt' ) ;
const modalInput = modalPrompt . querySelector ( '.metaEditPromptInput' ) ;
modalInput . focus ( ) ;
modalInput . select ( ) ;
}
onClose ( ) {
super . onClose ( ) ;
this . modalContent . $destroy ( ) ;
if ( ! this . didSubmit )
this . rejectPromise ( "No input given." ) ;
else
this . resolvePromise ( this . input ) ;
}
}
class GenericSuggester extends obsidian . FuzzySuggestModal {
constructor ( app , displayItems , items ) {
super ( app ) ;
this . displayItems = displayItems ;
this . items = items ;
this . promise = new Promise ( ( resolve ) => ( this . resolvePromise = resolve ) ) ;
this . open ( ) ;
}
static Suggest ( app , displayItems , items ) {
const newSuggester = new GenericSuggester ( app , displayItems , items ) ;
return newSuggester . promise ;
}
getItemText ( item ) {
return this . displayItems [ this . items . indexOf ( item ) ] ;
}
getItems ( ) {
return this . items ;
}
onChooseItem ( item , evt ) {
this . resolvePromise ( item ) ;
}
}
class MetaController {
constructor ( app , plugin ) {
this . hasTrackerPlugin = false ;
this . useTrackerPlugin = false ;
this . app = app ;
this . parser = new MetaEditParser ( app ) ;
this . plugin = plugin ;
// @ts-ignore
this . hasTrackerPlugin = ! ! this . app . plugins . plugins [ "obsidian-tracker" ] ;
}
async getPropertiesInFile ( file ) {
const yaml = await this . parser . parseFrontmatter ( file ) ;
const inlineFields = await this . parser . parseInlineFields ( file ) ;
const tags = await this . parser . getTagsForFile ( file ) ;
return [ ... tags , ... yaml , ... inlineFields ] ;
}
async addYamlProp ( propName , propValue , file ) {
const fileContent = await this . app . vault . read ( file ) ;
const frontmatter = await this . parser . parseFrontmatter ( file ) ;
const isYamlEmpty = ( ( ! frontmatter || frontmatter . length === 0 ) && ! fileContent . match ( /^-{3}\s*\n*\r*-{3}/ ) ) ;
if ( frontmatter . some ( value => value . key === propName ) ) {
new obsidian . Notice ( ` Frontmatter in file ' ${ file . name } ' already has property ' ${ propName } . Will not add.' ` ) ;
return ;
}
const settings = this . plugin . settings ;
if ( settings . EditMode . mode === EditMode . AllMulti ||
( settings . EditMode . mode === EditMode . SomeMulti && settings . EditMode . properties . contains ( propName ) ) ) {
propValue = ` [ ${ propValue } ] ` ;
}
let splitContent = fileContent . split ( "\n" ) ;
if ( isYamlEmpty ) {
splitContent . unshift ( "---" ) ;
splitContent . unshift ( ` ${ propName } : ${ propValue } ` ) ;
splitContent . unshift ( "---" ) ;
}
else {
splitContent . splice ( 1 , 0 , ` ${ propName } : ${ propValue } ` ) ;
}
const newFileContent = splitContent . join ( "\n" ) ;
await this . app . vault . modify ( file , newFileContent ) ;
}
async addDataviewField ( propName , propValue , file ) {
const fileContent = await this . app . vault . read ( file ) ;
let lines = fileContent . split ( "\n" ) . reduce ( ( obj , line , idx ) => {
obj [ idx ] = ! ! line ? line : "" ;
return obj ;
} , { } ) ;
let appendAfter = await GenericSuggester . Suggest ( this . app , Object . values ( lines ) , Object . keys ( lines ) ) ;
if ( ! appendAfter )
return ;
let splitContent = fileContent . split ( "\n" ) ;
if ( typeof appendAfter === "number" || parseInt ( appendAfter ) ) {
splitContent . splice ( parseInt ( appendAfter ) , 0 , ` ${ propName } :: ${ propValue } ` ) ;
}
const newFileContent = splitContent . join ( "\n" ) ;
await this . app . vault . modify ( file , newFileContent ) ;
}
async editMetaElement ( property , meta , file ) {
const mode = this . plugin . settings . EditMode . mode ;
if ( property . type === MetaType . Tag )
await this . editTag ( property , file ) ;
else if ( mode === EditMode . AllMulti || mode === EditMode . SomeMulti )
await this . multiValueMode ( property , file ) ;
else
await this . standardMode ( property , file ) ;
}
async editTag ( property , file ) {
const splitTag = property . key . split ( "/" ) ;
const allButLast = splitTag . slice ( 0 , splitTag . length - 1 ) . join ( "/" ) ;
const trackerPluginMethod = "Use Tracker" , metaEditMethod = "Use MetaEdit" , choices = [ trackerPluginMethod , metaEditMethod ] ;
let newValue ;
let method = metaEditMethod ;
if ( this . hasTrackerPlugin )
method = await GenericSuggester . Suggest ( this . app , choices , choices ) ;
if ( ! method )
return ;
if ( method === trackerPluginMethod ) {
newValue = await GenericPrompt . Prompt ( this . app , ` Enter a new value for ${ property . key } ` ) ;
this . useTrackerPlugin = true ;
}
else if ( method === metaEditMethod ) {
const autoProp = await this . handleAutoProperties ( allButLast ) ;
if ( autoProp )
newValue = autoProp ;
else
newValue = await GenericPrompt . Prompt ( this . app , ` Enter a new value for ${ property . key } ` ) ;
}
if ( newValue ) {
await this . updatePropertyInFile ( property , newValue , file ) ;
}
}
async handleProgressProps ( meta , file ) {
var _a , _b ;
try {
const { enabled , properties } = this . plugin . settings . ProgressProperties ;
if ( ! enabled )
return ;
const tasks = ( _b = ( _a = this . app . metadataCache . getFileCache ( file ) ) === null || _a === void 0 ? void 0 : _a . listItems ) === null || _b === void 0 ? void 0 : _b . filter ( li => li . task ) ;
if ( ! tasks )
return ;
let total = 0 , complete = 0 , incomplete = 0 ;
total = tasks . length ;
complete = tasks . filter ( i => i . task != " " ) . length ;
incomplete = total - complete ;
const props = await this . progressPropHelper ( properties , meta , { total , complete , incomplete } ) ;
await this . updateMultipleInFile ( props , file ) ;
}
catch ( e ) {
log . logError ( e ) ;
}
}
async createNewProperty ( suggestValues ) {
let propName = await GenericPrompt . Prompt ( this . app , "Enter a property name" , "Property" , "" , suggestValues ) ;
if ( ! propName )
return null ;
let propValue ;
const autoProp = await this . handleAutoProperties ( propName ) ;
if ( autoProp ) {
propValue = autoProp ;
}
else {
propValue = await GenericPrompt . Prompt ( this . app , "Enter a property value" , "Value" )
. catch ( ( ) => null ) ;
}
if ( propValue === null )
return null ;
return { propName , propValue : propValue . trim ( ) } ;
}
async deleteProperty ( property , file ) {
const fileContent = await this . app . vault . read ( file ) ;
const splitContent = fileContent . split ( "\n" ) ;
const regexp = new RegExp ( ` ^ \s * ${ property . key } : ` ) ;
const idx = splitContent . findIndex ( s => s . match ( regexp ) ) ;
const newFileContent = splitContent . filter ( ( v , i ) => {
if ( i != idx )
return true ;
} ) . join ( "\n" ) ;
await this . app . vault . modify ( file , newFileContent ) ;
}
async progressPropHelper ( progressProps , meta , counts ) {
return progressProps . reduce ( ( obj , el ) => {
const property = meta . find ( prop => prop . key === el . name ) ;
if ( property ) {
switch ( el . type ) {
case ProgressPropertyOptions . TaskComplete :
obj . push ( Object . assign ( Object . assign ( { } , property ) , { content : counts . complete . toString ( ) } ) ) ;
break ;
case ProgressPropertyOptions . TaskIncomplete :
obj . push ( Object . assign ( Object . assign ( { } , property ) , { content : counts . incomplete . toString ( ) } ) ) ;
break ;
case ProgressPropertyOptions . TaskTotal :
obj . push ( Object . assign ( Object . assign ( { } , property ) , { content : counts . total . toString ( ) } ) ) ;
break ;
}
}
return obj ;
} , [ ] ) ;
}
async standardMode ( property , file ) {
const autoProp = await this . handleAutoProperties ( property . key ) ;
let newValue ;
if ( autoProp )
newValue = autoProp ;
else
newValue = await GenericPrompt . Prompt ( this . app , ` Enter a new value for ${ property . key } ` , property . content , property . content ) ;
if ( newValue ) {
await this . updatePropertyInFile ( property , newValue , file ) ;
}
}
async multiValueMode ( property , file ) {
const settings = this . plugin . settings ;
let newValue ;
if ( settings . EditMode . mode == EditMode . SomeMulti && ! settings . EditMode . properties . includes ( property . key ) ) {
await this . standardMode ( property , file ) ;
return false ;
}
let selectedOption , tempValue , splitValues ;
let currentPropValue = property . content ;
if ( currentPropValue !== null )
currentPropValue = currentPropValue . toString ( ) ;
else
currentPropValue = "" ;
if ( property . type === MetaType . YAML ) {
splitValues = currentPropValue . split ( '' ) . filter ( c => ! c . includes ( "[]" ) ) . join ( '' ) . split ( "," ) ;
}
else {
splitValues = currentPropValue . split ( "," ) . map ( prop => prop . trim ( ) ) ;
}
if ( splitValues . length == 0 || ( splitValues . length == 1 && splitValues [ 0 ] == "" ) ) {
const options = [ "Add new value" ] ;
selectedOption = await GenericSuggester . Suggest ( this . app , options , [ ADD _FIRST _ELEMENT ] ) ;
}
else if ( splitValues . length == 1 ) {
const options = [ splitValues [ 0 ] , "Add to end" , "Add to beginning" ] ;
selectedOption = await GenericSuggester . Suggest ( this . app , options , [ splitValues [ 0 ] , ADD _TO _END , ADD _TO _BEGINNING ] ) ;
}
else {
const options = [ "Add to end" , ... splitValues , "Add to beginning" ] ;
selectedOption = await GenericSuggester . Suggest ( this . app , options , [ ADD _TO _END , ... splitValues , ADD _TO _BEGINNING ] ) ;
}
if ( ! selectedOption )
return ;
let selectedIndex ;
const autoProp = await this . handleAutoProperties ( property . key ) ;
if ( autoProp ) {
tempValue = autoProp ;
}
else if ( selectedOption . includes ( "cmd" ) ) {
tempValue = await GenericPrompt . Prompt ( this . app , "Enter a new value" ) ;
}
else {
selectedIndex = splitValues . findIndex ( el => el == selectedOption ) ;
tempValue = await GenericPrompt . Prompt ( this . app , ` Change ${ selectedOption } to ` , selectedOption ) ;
}
if ( ! tempValue )
return ;
switch ( selectedOption ) {
case ADD _FIRST _ELEMENT :
newValue = ` ${ tempValue } ` ;
break ;
case ADD _TO _BEGINNING :
newValue = ` ${ [ tempValue , ... splitValues ] . join ( ", " ) } ` ;
break ;
case ADD _TO _END :
newValue = ` ${ [ ... splitValues , tempValue ] . join ( ", " ) } ` ;
break ;
default :
if ( selectedIndex )
splitValues [ selectedIndex ] = tempValue ;
else
splitValues = [ tempValue ] ;
newValue = ` ${ splitValues . join ( ", " ) } ` ;
break ;
}
if ( property . type === MetaType . YAML )
newValue = ` [ ${ newValue } ] ` ;
if ( newValue ) {
await this . updatePropertyInFile ( property , newValue , file ) ;
return true ;
}
return false ;
}
async handleAutoProperties ( propertyName ) {
const autoProp = this . plugin . settings . AutoProperties . properties . find ( a => a . name === propertyName ) ;
if ( this . plugin . settings . AutoProperties . enabled && autoProp ) {
const options = autoProp . choices ;
return await GenericPrompt . Prompt ( this . app , ` Enter a new value for ${ propertyName } ` , '' , '' , options ) ;
}
return null ;
}
async updatePropertyInFile ( property , newValue , file ) {
const fileContent = await this . app . vault . read ( file ) ;
const newFileContent = fileContent . split ( "\n" ) . map ( line => {
if ( this . lineMatch ( property , line ) ) {
return this . updatePropertyLine ( property , newValue ) ;
}
return line ;
} ) . join ( "\n" ) ;
await this . app . vault . modify ( file , newFileContent ) ;
}
lineMatch ( property , line ) {
const propertyRegex = new RegExp ( ` ^ \s * ${ property . key } \: {1,2} ` ) ;
const tagRegex = new RegExp ( ` ^ \s * ${ property . key } ` ) ;
if ( property . key . contains ( '#' ) ) {
return tagRegex . test ( line ) ;
}
return propertyRegex . test ( line ) ;
}
updatePropertyLine ( property , newValue ) {
let newLine ;
switch ( property . type ) {
case MetaType . Dataview :
newLine = ` ${ property . key } :: ${ newValue } ` ;
break ;
case MetaType . YAML :
newLine = ` ${ property . key } : ${ newValue } ` ;
break ;
case MetaType . Tag :
if ( this . useTrackerPlugin ) {
newLine = ` ${ property . key } : ${ newValue } ` ;
}
else {
const splitTag = property . key . split ( "/" ) ;
if ( splitTag . length === 1 )
newLine = ` ${ splitTag [ 0 ] } / ${ newValue } ` ;
else if ( splitTag . length > 1 ) {
const allButLast = splitTag . slice ( 0 , splitTag . length - 1 ) . join ( "/" ) ;
newLine = ` ${ allButLast } / ${ newValue } ` ;
}
else
newLine = property . key ;
}
break ;
default :
newLine = property . key ;
break ;
}
return newLine ;
}
async updateMultipleInFile ( properties , file ) {
let fileContent = ( await this . app . vault . read ( file ) ) . split ( "\n" ) ;
for ( const prop of properties ) {
fileContent = fileContent . map ( line => {
if ( this . lineMatch ( prop , line ) ) {
return this . updatePropertyLine ( prop , prop . content ) ;
}
return line ;
} ) ;
}
const newFileContent = fileContent . join ( "\n" ) ;
await this . app . vault . modify ( file , newFileContent ) ;
}
}
const DEFAULT _SETTINGS = Object . freeze ( {
ProgressProperties : {
enabled : false ,
properties : [ ]
} ,
IgnoredProperties : {
enabled : false ,
properties : [ ]
} ,
AutoProperties : {
enabled : false ,
properties : [ ]
} ,
EditMode : {
mode : EditMode . AllSingle ,
properties : [ ] ,
} ,
KanbanHelper : {
enabled : false ,
boards : [ ]
} ,
UIElements : {
enabled : true
}
} ) ;
class LinkMenu {
constructor ( plugin ) {
this . plugin = plugin ;
}
registerEvent ( ) {
this . eventRef = this . plugin . app . workspace . on ( 'file-menu' , ( menu , file , source ) => this . onMenuOpenCallback ( menu , file , source ) ) ;
this . plugin . registerEvent ( this . eventRef ) ;
}
unregisterEvent ( ) {
if ( this . eventRef ) {
this . plugin . app . workspace . offref ( this . eventRef ) ;
}
}
onMenuOpenCallback ( menu , file , source ) {
const bCorrectSource = ( source === "link-context-menu" ||
source === "calendar-context-menu" ||
source == "file-explorer-context-menu" ) ;
if ( bCorrectSource ) {
if ( file instanceof obsidian . TFile && file . extension === "md" ) {
this . targetFile = file ;
this . addFileOptions ( menu ) ;
}
if ( file instanceof obsidian . TFolder && file . children && file . children . some ( f => f instanceof obsidian . TFile && f . extension === "md" ) ) {
this . targetFolder = file ;
this . addFolderOptions ( menu ) ;
}
}
}
addFileOptions ( menu ) {
menu . addItem ( item => {
item . setIcon ( 'pencil' ) ;
item . setTitle ( "Edit Meta" ) ;
item . onClick ( async ( evt ) => {
await this . plugin . runMetaEditForFile ( this . targetFile ) ;
} ) ;
} ) ;
}
addFolderOptions ( menu ) {
menu . addItem ( item => {
item . setIcon ( 'pencil' ) ;
item . setTitle ( "Add YAML property to all files in this folder (and subfolders)" ) ;
item . onClick ( async ( evt ) => {
await this . plugin . runMetaEditForFolder ( this . targetFolder ) ;
} ) ;
} ) ;
}
}
class MetaEditApi {
constructor ( plugin ) {
this . plugin = plugin ;
}
make ( ) {
return {
autoprop : this . getAutopropFunction ( ) ,
update : this . getUpdateFunction ( ) ,
getPropertyValue : this . getGetPropertyValueFunction ( ) ,
getFilesWithProperty : this . getGetFilesWithPropertyFunction ( ) ,
createYamlProperty : this . getCreateYamlPropertyFunction ( ) ,
getPropertiesInFile : this . getGetPropertiesInFile ( ) ,
} ;
}
getAutopropFunction ( ) {
return ( propertyName ) => new MetaController ( this . plugin . app , this . plugin ) . handleAutoProperties ( propertyName ) ;
}
getUpdateFunction ( ) {
return async ( propertyName , propertyValue , file ) => {
const targetFile = this . getFileFromTFileOrPath ( file ) ;
if ( ! targetFile )
return ;
const controller = new MetaController ( this . plugin . app , this . plugin ) ;
const propsInFile = await controller . getPropertiesInFile ( targetFile ) ;
const targetProperty = propsInFile . find ( prop => prop . key === propertyName ) ;
if ( ! targetProperty )
return ;
return controller . updatePropertyInFile ( targetProperty , propertyValue , targetFile ) ;
} ;
}
getFileFromTFileOrPath ( file ) {
let targetFile ;
if ( file instanceof obsidian . TFile )
targetFile = file ;
if ( typeof file === "string" ) {
const abstractFile = this . plugin . app . vault . getAbstractFileByPath ( file ) ;
if ( abstractFile instanceof obsidian . TFile ) {
targetFile = abstractFile ;
}
}
return targetFile ;
}
getGetPropertyValueFunction ( ) {
return async ( propertyName , file ) => {
const targetFile = this . getFileFromTFileOrPath ( file ) ;
if ( ! targetFile )
return ;
const controller = new MetaController ( this . plugin . app , this . plugin ) ;
const propsInFile = await controller . getPropertiesInFile ( targetFile ) ;
const targetProperty = propsInFile . find ( prop => prop . key === propertyName ) ;
if ( ! targetProperty )
return ;
return targetProperty . content ;
} ;
}
getGetFilesWithPropertyFunction ( ) {
return ( propertyName ) => {
return this . plugin . getFilesWithProperty ( propertyName ) ;
} ;
}
getCreateYamlPropertyFunction ( ) {
return async ( propertyName , propertyValue , file ) => {
const targetFile = this . getFileFromTFileOrPath ( file ) ;
if ( ! targetFile )
return ;
const controller = new MetaController ( this . plugin . app , this . plugin ) ;
await controller . addYamlProp ( propertyName , propertyValue , targetFile ) ;
} ;
}
getGetPropertiesInFile ( ) {
return async ( file ) => {
const targetFile = this . getFileFromTFileOrPath ( file ) ;
if ( ! targetFile )
return ;
const controller = new MetaController ( this . plugin . app , this . plugin ) ;
return await controller . getPropertiesInFile ( targetFile ) ;
} ;
}
}
function getActiveMarkdownFile ( app ) {
const activeFile = app . workspace . getActiveFile ( ) ;
const activeMarkdownFile = abstractFileToMarkdownTFile ( activeFile ) ;
if ( ! activeMarkdownFile ) {
this . logError ( "could not get current file." ) ;
return null ;
}
return activeMarkdownFile ;
}
function abstractFileToMarkdownTFile ( file ) {
if ( file instanceof obsidian . TFile && file . extension === "md" )
return file ;
return null ;
}
var ErrorLevel ;
( function ( ErrorLevel ) {
ErrorLevel [ "Error" ] = "ERROR" ;
ErrorLevel [ "Warning" ] = "WARNING" ;
ErrorLevel [ "Log" ] = "LOG" ;
} ) ( ErrorLevel || ( ErrorLevel = { } ) ) ;
class MetaEditLogger {
formatOutputString ( error ) {
return ` MetaEdit: ( ${ error . level } ) ${ error . message } ` ;
}
getMetaEditError ( message , level ) {
return { message , level , time : Date . now ( ) } ;
}
}
class ConsoleErrorLogger extends MetaEditLogger {
constructor ( ) {
super ( ... arguments ) ;
this . ErrorLog = [ ] ;
}
logError ( errorMsg ) {
const error = this . getMetaEditError ( errorMsg , ErrorLevel . Error ) ;
this . addMessageToErrorLog ( error ) ;
console . error ( this . formatOutputString ( error ) ) ;
}
logWarning ( warningMsg ) {
const warning = this . getMetaEditError ( warningMsg , ErrorLevel . Warning ) ;
this . addMessageToErrorLog ( warning ) ;
console . warn ( this . formatOutputString ( warning ) ) ;
}
logMessage ( logMsg ) {
const log = this . getMetaEditError ( logMsg , ErrorLevel . Log ) ;
this . addMessageToErrorLog ( log ) ;
console . log ( this . formatOutputString ( log ) ) ;
}
addMessageToErrorLog ( error ) {
this . ErrorLog . push ( error ) ;
}
}
class GuiLogger extends MetaEditLogger {
constructor ( plugin ) {
super ( ) ;
this . plugin = plugin ;
}
logError ( msg ) {
const error = this . getMetaEditError ( msg , ErrorLevel . Error ) ;
new obsidian . Notice ( this . formatOutputString ( error ) ) ;
}
logWarning ( msg ) {
const warning = this . getMetaEditError ( msg , ErrorLevel . Warning ) ;
new obsidian . Notice ( this . formatOutputString ( warning ) ) ;
}
logMessage ( msg ) { }
}
class UniqueQueue {
constructor ( ) {
this . elements = [ ] ;
}
enqueue ( item ) {
if ( this . elements . find ( i => i === item ) ) {
return false ;
}
this . elements . push ( item ) ;
return true ;
}
dequeue ( ) {
return this . elements . shift ( ) ;
}
peek ( ) {
return this . elements [ 0 ] ;
}
isEmpty ( ) {
return this . elements . length === 0 ;
}
length ( ) {
return this . elements . length ;
}
}
class UpdatedFileCache {
constructor ( ) {
this . map = new Map ( ) ;
}
get ( key ) {
return this . map . get ( key ) ;
}
set ( key , content ) {
if ( this . map . has ( key ) && this . map . get ( key ) . content === content )
return false ;
this . map . set ( key , { content , updateTime : Date . now ( ) } ) ;
this . clean ( ) ;
return true ;
}
delete ( key ) {
this . map . delete ( key ) ;
}
clean ( ) {
const five _minutes = 300000 ;
this . map . forEach ( ( item , key ) => {
if ( item . updateTime < Date . now ( ) - five _minutes ) {
this . delete ( key ) ;
}
} ) ;
}
}
class OnFileModifyAutomatorManager {
constructor ( plugin ) {
this . updateFileQueue = new UniqueQueue ( ) ;
this . updatedFileCache = new UpdatedFileCache ( ) ;
this . automators = [ ] ;
this . notifyDelay = 5000 ;
this . notifyAutomators = obsidian . debounce ( async ( ) => {
while ( ! this . updateFileQueue . isEmpty ( ) ) {
const file = this . updateFileQueue . dequeue ( ) ;
for ( const automator of this . automators ) {
await automator . onFileModify ( file ) ;
}
}
} , this . notifyDelay , true ) ;
this . plugin = plugin ;
this . app = plugin . app ;
}
startAutomators ( ) {
this . plugin . registerEvent ( this . plugin . app . vault . on ( "modify" , ( file ) => this . onFileModify ( file ) ) ) ;
return this ;
}
attach ( automator ) {
const isExist = this . automators . some ( tAuto => tAuto . type === automator . type ) ;
if ( isExist ) {
log . logWarning ( ` a ${ automator . type } automator is already attached. ` ) ;
return this ;
}
this . automators . push ( automator ) ;
return this ;
}
detach ( automatorType ) {
const automatorIndex = this . automators . findIndex ( automator => automator . type === automatorType ) ;
if ( automatorIndex === - 1 ) {
log . logMessage ( ` automator of type ' ${ automatorType } ' does not exist. ` ) ;
return this ;
}
this . automators . splice ( automatorIndex , 1 ) ;
return this ;
}
async onFileModify ( file ) {
const outfile = abstractFileToMarkdownTFile ( file ) ;
if ( ! outfile )
return ;
// Return on Excalidraw files to prevent conflict with its auto-save feature.
const metadata = await this . app . metadataCache . getFileCache ( outfile ) ;
const keys = Object . keys ( metadata === null || metadata === void 0 ? void 0 : metadata . frontmatter ) ;
if ( keys && keys . some ( key => key . toLowerCase ( ) . contains ( "excalidraw" ) ) ) {
return ;
}
const fileContent = await this . app . vault . cachedRead ( outfile ) ;
if ( ! this . updatedFileCache . set ( outfile . path , fileContent ) )
return ;
if ( this . updateFileQueue . enqueue ( outfile ) ) {
this . notifyAutomators ( ) ;
}
}
}
class OnFileModifyAutomator {
constructor ( plugin , type ) {
this . plugin = plugin ;
this . app = plugin . app ;
this . type = type ;
}
}
var OnModifyAutomatorType ;
( function ( OnModifyAutomatorType ) {
OnModifyAutomatorType [ "KanbanHelper" ] = "KanbanHelper" ;
OnModifyAutomatorType [ "ProgressProperties" ] = "ProgressProperties" ;
} ) ( OnModifyAutomatorType || ( OnModifyAutomatorType = { } ) ) ;
class KanbanHelper extends OnFileModifyAutomator {
get boards ( ) { return this . plugin . settings . KanbanHelper . boards ; }
constructor ( plugin ) {
super ( plugin , OnModifyAutomatorType . KanbanHelper ) ;
}
async onFileModify ( file ) {
const kanbanBoardFileContent = await this . app . vault . cachedRead ( file ) ;
const kanbanBoardFileCache = this . app . metadataCache . getFileCache ( file ) ;
const targetBoard = this . findBoardByName ( file . basename ) ;
if ( ! targetBoard || ! kanbanBoardFileCache )
return ;
const { links } = kanbanBoardFileCache ;
if ( ! links )
return ;
await this . updateFilesInBoard ( links , targetBoard , kanbanBoardFileContent ) ;
}
findBoardByName ( boardName ) {
return this . boards . find ( board => board . boardName === boardName ) ;
}
getLinkFile ( link ) {
const markdownFiles = this . app . vault . getMarkdownFiles ( ) ;
return markdownFiles . find ( f => f . path . includes ( ` ${ link . link } .md ` ) ) ;
}
async updateFilesInBoard ( links , board , kanbanBoardFileContent ) {
for ( const link of links ) {
const linkFile = this . getLinkFile ( link ) ;
const linkIsMarkdownFile = ! ! abstractFileToMarkdownTFile ( linkFile ) ;
if ( ! linkFile || ! linkIsMarkdownFile ) {
log . logMessage ( ` ${ link . link } is not updatable for the KanbanHelper. ` ) ;
return ;
}
await this . updateFileInBoard ( link , linkFile , board , kanbanBoardFileContent ) ;
}
}
async updateFileInBoard ( link , linkFile , board , kanbanBoardFileContent ) {
const heading = this . getTaskHeading ( link . original , kanbanBoardFileContent ) ;
if ( ! heading ) {
log . logWarning ( "found linked file but could not get heading for task." ) ;
return ;
}
const fileProperties = await this . plugin . controller . getPropertiesInFile ( linkFile ) ;
if ( ! fileProperties ) {
log . logWarning ( ` No properties found in ' ${ board . boardName } ', cannot update ' ${ board . property } '. ` ) ;
return ;
}
const targetProperty = fileProperties . find ( prop => prop . key === board . property ) ;
if ( ! targetProperty ) {
log . logWarning ( ` ' ${ board . property } not found in ${ board . boardName } for file " ${ linkFile . name } ".' ` ) ;
new obsidian . Notice ( ` ' ${ board . property } not found in ${ board . boardName } for file " ${ linkFile . name } ".' ` ) ; // This notice will help users debug "Property not found in board" errors.
return ;
}
const propertyHasChanged = ( targetProperty . content != heading ) ; // Kanban Helper will check if the file's property is different from its current heading in the kanban and will only make changes to the file if there's a difference
if ( propertyHasChanged ) {
console . debug ( "Updating " + targetProperty . key + " of file " + linkFile . name + " to " + heading ) ;
await this . plugin . controller . updatePropertyInFile ( targetProperty , heading , linkFile ) ;
}
}
getTaskHeading ( targetTaskContent , fileContent ) {
const MARKDOWN _HEADING = new RegExp ( /#+\s+(.+)/ ) ;
const TASK _REGEX = new RegExp ( /(\s*)-\s*\[([ Xx\.]?)\]\s*(.+)/ , "i" ) ;
let lastHeading = "" ;
const contentLines = fileContent . split ( "\n" ) ;
for ( const line of contentLines ) {
const headingMatch = MARKDOWN _HEADING . exec ( line ) ;
if ( headingMatch ) {
const headingText = headingMatch [ 1 ] ;
lastHeading = headingText ;
}
const taskMatch = TASK _REGEX . exec ( line ) ;
if ( taskMatch ) {
const taskContent = taskMatch [ 3 ] ;
if ( taskContent . includes ( targetTaskContent ) ) {
return lastHeading ;
}
}
}
return null ;
}
}
class ProgressPropertyHelper extends OnFileModifyAutomator {
constructor ( plugin ) {
super ( plugin , OnModifyAutomatorType . ProgressProperties ) ;
}
async onFileModify ( file ) {
const data = await this . plugin . controller . getPropertiesInFile ( file ) ;
if ( ! data )
return ;
await this . plugin . controller . handleProgressProps ( data , file ) ;
}
}
class MetaEdit extends obsidian . Plugin {
async onload ( ) {
console . log ( 'Loading MetaEdit' ) ;
this . controller = new MetaController ( this . app , this ) ;
await this . loadSettings ( ) ;
this . addCommand ( {
id : 'metaEditRun' ,
name : 'Run MetaEdit' ,
callback : async ( ) => {
const file = getActiveMarkdownFile ( this . app ) ;
if ( ! file )
return ;
await this . runMetaEditForFile ( file ) ;
}
} ) ;
this . addSettingTab ( new MetaEditSettingsTab ( this . app , this ) ) ;
this . linkMenu = new LinkMenu ( this ) ;
if ( this . settings . UIElements . enabled ) {
this . linkMenu . registerEvent ( ) ;
}
this . api = new MetaEditApi ( this ) . make ( ) ;
log . register ( new ConsoleErrorLogger ( ) )
. register ( new GuiLogger ( this ) ) ;
this . automatorManager = new OnFileModifyAutomatorManager ( this ) . startAutomators ( ) ;
this . toggleAutomators ( ) ;
}
toggleAutomators ( ) {
if ( this . settings . KanbanHelper . enabled )
this . automatorManager . attach ( new KanbanHelper ( this ) ) ;
else
this . automatorManager . detach ( OnModifyAutomatorType . KanbanHelper ) ;
if ( this . settings . ProgressProperties . enabled )
this . automatorManager . attach ( new ProgressPropertyHelper ( this ) ) ;
else
this . automatorManager . detach ( OnModifyAutomatorType . ProgressProperties ) ;
}
async runMetaEditForFile ( file ) {
const data = await this . controller . getPropertiesInFile ( file ) ;
if ( ! data )
return ;
const suggester = new MetaEditSuggester ( this . app , this , data , file , this . controller ) ;
suggester . open ( ) ;
}
onunload ( ) {
console . log ( 'Unloading MetaEdit' ) ;
this . linkMenu . unregisterEvent ( ) ;
}
async loadSettings ( ) {
this . settings = Object . assign ( { } , DEFAULT _SETTINGS , await this . loadData ( ) ) ;
}
async saveSettings ( ) {
await this . saveData ( this . settings ) ;
}
getFilesWithProperty ( property ) {
const markdownFiles = this . app . vault . getMarkdownFiles ( ) ;
let files = [ ] ;
markdownFiles . forEach ( file => {
const fileCache = this . app . metadataCache . getFileCache ( file ) ;
if ( fileCache ) {
const fileFrontmatter = fileCache . frontmatter ;
if ( fileFrontmatter && fileFrontmatter [ property ] ) {
files . push ( file ) ;
}
}
} ) ;
return files ;
}
async runMetaEditForFolder ( targetFolder ) {
const pName = await GenericPrompt . Prompt ( this . app , ` Add a new property to all files in ${ targetFolder . name } (and subfolders) ` ) ;
if ( ! pName )
return ;
const pVal = await GenericPrompt . Prompt ( this . app , "Enter a value" ) ;
if ( ! pVal )
return ;
const updateFilesInFolder = async ( targetFolder , propertyName , propertyValue ) => {
for ( const child of targetFolder . children ) {
if ( child instanceof obsidian . TFile && child . extension == "md" )
await this . controller . addYamlProp ( pName , pVal , child ) ;
if ( child instanceof obsidian . TFolder )
await updateFilesInFolder ( child ) ;
}
} ;
await updateFilesInFolder ( targetFolder ) ;
}
}
module . exports = MetaEdit ;