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fast-calorie/public/vendor/js/dexie.js

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moved vendor libs
2020-09-20 01:45:42 +00:00
/*
* Dexie.js - a minimalistic wrapper for IndexedDB
* ===============================================
*
* By David Fahlander, david.fahlander@gmail.com
*
* Version 3.0.2, Fri Jul 31 2020
*
* http://dexie.org
*
* Apache License Version 2.0, January 2004, http://www.apache.org/licenses/
*/
var __assign = function() {
__assign = Object.assign || function __assign(t) {
for (var s, i = 1, n = arguments.length; i < n; i++) {
s = arguments[i];
for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];
}
return t;
};
return __assign.apply(this, arguments);
};
function __spreadArrays() {
for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length;
for (var r = Array(s), k = 0, i = 0; i < il; i++)
for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++)
r[k] = a[j];
return r;
}
var keys = Object.keys;
var isArray = Array.isArray;
var _global = typeof self !== 'undefined' ? self :
typeof window !== 'undefined' ? window :
global;
if (typeof Promise !== 'undefined' && !_global.Promise) {
_global.Promise = Promise;
}
function extend(obj, extension) {
if (typeof extension !== 'object')
return obj;
keys(extension).forEach(function (key) {
obj[key] = extension[key];
});
return obj;
}
var getProto = Object.getPrototypeOf;
var _hasOwn = {}.hasOwnProperty;
function hasOwn(obj, prop) {
return _hasOwn.call(obj, prop);
}
function props(proto, extension) {
if (typeof extension === 'function')
extension = extension(getProto(proto));
keys(extension).forEach(function (key) {
setProp(proto, key, extension[key]);
});
}
var defineProperty = Object.defineProperty;
function setProp(obj, prop, functionOrGetSet, options) {
defineProperty(obj, prop, extend(functionOrGetSet && hasOwn(functionOrGetSet, "get") && typeof functionOrGetSet.get === 'function' ?
{ get: functionOrGetSet.get, set: functionOrGetSet.set, configurable: true } :
{ value: functionOrGetSet, configurable: true, writable: true }, options));
}
function derive(Child) {
return {
from: function (Parent) {
Child.prototype = Object.create(Parent.prototype);
setProp(Child.prototype, "constructor", Child);
return {
extend: props.bind(null, Child.prototype)
};
}
};
}
var getOwnPropertyDescriptor = Object.getOwnPropertyDescriptor;
function getPropertyDescriptor(obj, prop) {
var pd = getOwnPropertyDescriptor(obj, prop);
var proto;
return pd || (proto = getProto(obj)) && getPropertyDescriptor(proto, prop);
}
var _slice = [].slice;
function slice(args, start, end) {
return _slice.call(args, start, end);
}
function override(origFunc, overridedFactory) {
return overridedFactory(origFunc);
}
function assert(b) {
if (!b)
throw new Error("Assertion Failed");
}
function asap(fn) {
if (_global.setImmediate)
setImmediate(fn);
else
setTimeout(fn, 0);
}
function arrayToObject(array, extractor) {
return array.reduce(function (result, item, i) {
var nameAndValue = extractor(item, i);
if (nameAndValue)
result[nameAndValue[0]] = nameAndValue[1];
return result;
}, {});
}
function tryCatch(fn, onerror, args) {
try {
fn.apply(null, args);
}
catch (ex) {
onerror && onerror(ex);
}
}
function getByKeyPath(obj, keyPath) {
if (hasOwn(obj, keyPath))
return obj[keyPath];
if (!keyPath)
return obj;
if (typeof keyPath !== 'string') {
var rv = [];
for (var i = 0, l = keyPath.length; i < l; ++i) {
var val = getByKeyPath(obj, keyPath[i]);
rv.push(val);
}
return rv;
}
var period = keyPath.indexOf('.');
if (period !== -1) {
var innerObj = obj[keyPath.substr(0, period)];
return innerObj === undefined ? undefined : getByKeyPath(innerObj, keyPath.substr(period + 1));
}
return undefined;
}
function setByKeyPath(obj, keyPath, value) {
if (!obj || keyPath === undefined)
return;
if ('isFrozen' in Object && Object.isFrozen(obj))
return;
if (typeof keyPath !== 'string' && 'length' in keyPath) {
assert(typeof value !== 'string' && 'length' in value);
for (var i = 0, l = keyPath.length; i < l; ++i) {
setByKeyPath(obj, keyPath[i], value[i]);
}
}
else {
var period = keyPath.indexOf('.');
if (period !== -1) {
var currentKeyPath = keyPath.substr(0, period);
var remainingKeyPath = keyPath.substr(period + 1);
if (remainingKeyPath === "")
if (value === undefined) {
if (isArray(obj) && !isNaN(parseInt(currentKeyPath)))
obj.splice(currentKeyPath, 1);
else
delete obj[currentKeyPath];
}
else
obj[currentKeyPath] = value;
else {
var innerObj = obj[currentKeyPath];
if (!innerObj)
innerObj = (obj[currentKeyPath] = {});
setByKeyPath(innerObj, remainingKeyPath, value);
}
}
else {
if (value === undefined) {
if (isArray(obj) && !isNaN(parseInt(keyPath)))
obj.splice(keyPath, 1);
else
delete obj[keyPath];
}
else
obj[keyPath] = value;
}
}
}
function delByKeyPath(obj, keyPath) {
if (typeof keyPath === 'string')
setByKeyPath(obj, keyPath, undefined);
else if ('length' in keyPath)
[].map.call(keyPath, function (kp) {
setByKeyPath(obj, kp, undefined);
});
}
function shallowClone(obj) {
var rv = {};
for (var m in obj) {
if (hasOwn(obj, m))
rv[m] = obj[m];
}
return rv;
}
var concat = [].concat;
function flatten(a) {
return concat.apply([], a);
}
var intrinsicTypeNames = "Boolean,String,Date,RegExp,Blob,File,FileList,ArrayBuffer,DataView,Uint8ClampedArray,ImageData,Map,Set"
.split(',').concat(flatten([8, 16, 32, 64].map(function (num) { return ["Int", "Uint", "Float"].map(function (t) { return t + num + "Array"; }); }))).filter(function (t) { return _global[t]; });
var intrinsicTypes = intrinsicTypeNames.map(function (t) { return _global[t]; });
var intrinsicTypeNameSet = arrayToObject(intrinsicTypeNames, function (x) { return [x, true]; });
function deepClone(any) {
if (!any || typeof any !== 'object')
return any;
var rv;
if (isArray(any)) {
rv = [];
for (var i = 0, l = any.length; i < l; ++i) {
rv.push(deepClone(any[i]));
}
}
else if (intrinsicTypes.indexOf(any.constructor) >= 0) {
rv = any;
}
else {
rv = any.constructor ? Object.create(any.constructor.prototype) : {};
for (var prop in any) {
if (hasOwn(any, prop)) {
rv[prop] = deepClone(any[prop]);
}
}
}
return rv;
}
var toString = {}.toString;
function toStringTag(o) {
return toString.call(o).slice(8, -1);
}
var getValueOf = function (val, type) {
return type === "Array" ? '' + val.map(function (v) { return getValueOf(v, toStringTag(v)); }) :
type === "ArrayBuffer" ? '' + new Uint8Array(val) :
type === "Date" ? val.getTime() :
ArrayBuffer.isView(val) ? '' + new Uint8Array(val.buffer) :
val;
};
function getObjectDiff(a, b, rv, prfx) {
rv = rv || {};
prfx = prfx || '';
keys(a).forEach(function (prop) {
if (!hasOwn(b, prop))
rv[prfx + prop] = undefined;
else {
var ap = a[prop], bp = b[prop];
if (typeof ap === 'object' && typeof bp === 'object' && ap && bp) {
var apTypeName = toStringTag(ap);
var bpTypeName = toStringTag(bp);
if (apTypeName === bpTypeName) {
if (intrinsicTypeNameSet[apTypeName]) {
if (getValueOf(ap, apTypeName) !== getValueOf(bp, bpTypeName)) {
rv[prfx + prop] = b[prop];
}
}
else {
getObjectDiff(ap, bp, rv, prfx + prop + ".");
}
}
else {
rv[prfx + prop] = b[prop];
}
}
else if (ap !== bp)
rv[prfx + prop] = b[prop];
}
});
keys(b).forEach(function (prop) {
if (!hasOwn(a, prop)) {
rv[prfx + prop] = b[prop];
}
});
return rv;
}
var iteratorSymbol = typeof Symbol !== 'undefined' && Symbol.iterator;
var getIteratorOf = iteratorSymbol ? function (x) {
var i;
return x != null && (i = x[iteratorSymbol]) && i.apply(x);
} : function () { return null; };
var NO_CHAR_ARRAY = {};
function getArrayOf(arrayLike) {
var i, a, x, it;
if (arguments.length === 1) {
if (isArray(arrayLike))
return arrayLike.slice();
if (this === NO_CHAR_ARRAY && typeof arrayLike === 'string')
return [arrayLike];
if ((it = getIteratorOf(arrayLike))) {
a = [];
while (x = it.next(), !x.done)
a.push(x.value);
return a;
}
if (arrayLike == null)
return [arrayLike];
i = arrayLike.length;
if (typeof i === 'number') {
a = new Array(i);
while (i--)
a[i] = arrayLike[i];
return a;
}
return [arrayLike];
}
i = arguments.length;
a = new Array(i);
while (i--)
a[i] = arguments[i];
return a;
}
var isAsyncFunction = typeof Symbol !== 'undefined'
? function (fn) { return fn[Symbol.toStringTag] === 'AsyncFunction'; }
: function () { return false; };
var debug = typeof location !== 'undefined' &&
/^(http|https):\/\/(localhost|127\.0\.0\.1)/.test(location.href);
function setDebug(value, filter) {
debug = value;
libraryFilter = filter;
}
var libraryFilter = function () { return true; };
var NEEDS_THROW_FOR_STACK = !new Error("").stack;
function getErrorWithStack() {
if (NEEDS_THROW_FOR_STACK)
try {
throw new Error();
}
catch (e) {
return e;
}
return new Error();
}
function prettyStack(exception, numIgnoredFrames) {
var stack = exception.stack;
if (!stack)
return "";
numIgnoredFrames = (numIgnoredFrames || 0);
if (stack.indexOf(exception.name) === 0)
numIgnoredFrames += (exception.name + exception.message).split('\n').length;
return stack.split('\n')
.slice(numIgnoredFrames)
.filter(libraryFilter)
.map(function (frame) { return "\n" + frame; })
.join('');
}
var dexieErrorNames = [
'Modify',
'Bulk',
'OpenFailed',
'VersionChange',
'Schema',
'Upgrade',
'InvalidTable',
'MissingAPI',
'NoSuchDatabase',
'InvalidArgument',
'SubTransaction',
'Unsupported',
'Internal',
'DatabaseClosed',
'PrematureCommit',
'ForeignAwait'
];
var idbDomErrorNames = [
'Unknown',
'Constraint',
'Data',
'TransactionInactive',
'ReadOnly',
'Version',
'NotFound',
'InvalidState',
'InvalidAccess',
'Abort',
'Timeout',
'QuotaExceeded',
'Syntax',
'DataClone'
];
var errorList = dexieErrorNames.concat(idbDomErrorNames);
var defaultTexts = {
VersionChanged: "Database version changed by other database connection",
DatabaseClosed: "Database has been closed",
Abort: "Transaction aborted",
TransactionInactive: "Transaction has already completed or failed"
};
function DexieError(name, msg) {
this._e = getErrorWithStack();
this.name = name;
this.message = msg;
}
derive(DexieError).from(Error).extend({
stack: {
get: function () {
return this._stack ||
(this._stack = this.name + ": " + this.message + prettyStack(this._e, 2));
}
},
toString: function () { return this.name + ": " + this.message; }
});
function getMultiErrorMessage(msg, failures) {
return msg + ". Errors: " + Object.keys(failures)
.map(function (key) { return failures[key].toString(); })
.filter(function (v, i, s) { return s.indexOf(v) === i; })
.join('\n');
}
function ModifyError(msg, failures, successCount, failedKeys) {
this._e = getErrorWithStack();
this.failures = failures;
this.failedKeys = failedKeys;
this.successCount = successCount;
this.message = getMultiErrorMessage(msg, failures);
}
derive(ModifyError).from(DexieError);
function BulkError(msg, failures) {
this._e = getErrorWithStack();
this.name = "BulkError";
this.failures = failures;
this.message = getMultiErrorMessage(msg, failures);
}
derive(BulkError).from(DexieError);
var errnames = errorList.reduce(function (obj, name) { return (obj[name] = name + "Error", obj); }, {});
var BaseException = DexieError;
var exceptions = errorList.reduce(function (obj, name) {
var fullName = name + "Error";
function DexieError(msgOrInner, inner) {
this._e = getErrorWithStack();
this.name = fullName;
if (!msgOrInner) {
this.message = defaultTexts[name] || fullName;
this.inner = null;
}
else if (typeof msgOrInner === 'string') {
this.message = "" + msgOrInner + (!inner ? '' : '\n ' + inner);
this.inner = inner || null;
}
else if (typeof msgOrInner === 'object') {
this.message = msgOrInner.name + " " + msgOrInner.message;
this.inner = msgOrInner;
}
}
derive(DexieError).from(BaseException);
obj[name] = DexieError;
return obj;
}, {});
exceptions.Syntax = SyntaxError;
exceptions.Type = TypeError;
exceptions.Range = RangeError;
var exceptionMap = idbDomErrorNames.reduce(function (obj, name) {
obj[name + "Error"] = exceptions[name];
return obj;
}, {});
function mapError(domError, message) {
if (!domError || domError instanceof DexieError || domError instanceof TypeError || domError instanceof SyntaxError || !domError.name || !exceptionMap[domError.name])
return domError;
var rv = new exceptionMap[domError.name](message || domError.message, domError);
if ("stack" in domError) {
setProp(rv, "stack", { get: function () {
return this.inner.stack;
} });
}
return rv;
}
var fullNameExceptions = errorList.reduce(function (obj, name) {
if (["Syntax", "Type", "Range"].indexOf(name) === -1)
obj[name + "Error"] = exceptions[name];
return obj;
}, {});
fullNameExceptions.ModifyError = ModifyError;
fullNameExceptions.DexieError = DexieError;
fullNameExceptions.BulkError = BulkError;
function nop() { }
function mirror(val) { return val; }
function pureFunctionChain(f1, f2) {
if (f1 == null || f1 === mirror)
return f2;
return function (val) {
return f2(f1(val));
};
}
function callBoth(on1, on2) {
return function () {
on1.apply(this, arguments);
on2.apply(this, arguments);
};
}
function hookCreatingChain(f1, f2) {
if (f1 === nop)
return f2;
return function () {
var res = f1.apply(this, arguments);
if (res !== undefined)
arguments[0] = res;
var onsuccess = this.onsuccess,
onerror = this.onerror;
this.onsuccess = null;
this.onerror = null;
var res2 = f2.apply(this, arguments);
if (onsuccess)
this.onsuccess = this.onsuccess ? callBoth(onsuccess, this.onsuccess) : onsuccess;
if (onerror)
this.onerror = this.onerror ? callBoth(onerror, this.onerror) : onerror;
return res2 !== undefined ? res2 : res;
};
}
function hookDeletingChain(f1, f2) {
if (f1 === nop)
return f2;
return function () {
f1.apply(this, arguments);
var onsuccess = this.onsuccess,
onerror = this.onerror;
this.onsuccess = this.onerror = null;
f2.apply(this, arguments);
if (onsuccess)
this.onsuccess = this.onsuccess ? callBoth(onsuccess, this.onsuccess) : onsuccess;
if (onerror)
this.onerror = this.onerror ? callBoth(onerror, this.onerror) : onerror;
};
}
function hookUpdatingChain(f1, f2) {
if (f1 === nop)
return f2;
return function (modifications) {
var res = f1.apply(this, arguments);
extend(modifications, res);
var onsuccess = this.onsuccess,
onerror = this.onerror;
this.onsuccess = null;
this.onerror = null;
var res2 = f2.apply(this, arguments);
if (onsuccess)
this.onsuccess = this.onsuccess ? callBoth(onsuccess, this.onsuccess) : onsuccess;
if (onerror)
this.onerror = this.onerror ? callBoth(onerror, this.onerror) : onerror;
return res === undefined ?
(res2 === undefined ? undefined : res2) :
(extend(res, res2));
};
}
function reverseStoppableEventChain(f1, f2) {
if (f1 === nop)
return f2;
return function () {
if (f2.apply(this, arguments) === false)
return false;
return f1.apply(this, arguments);
};
}
function promisableChain(f1, f2) {
if (f1 === nop)
return f2;
return function () {
var res = f1.apply(this, arguments);
if (res && typeof res.then === 'function') {
var thiz = this, i = arguments.length, args = new Array(i);
while (i--)
args[i] = arguments[i];
return res.then(function () {
return f2.apply(thiz, args);
});
}
return f2.apply(this, arguments);
};
}
var INTERNAL = {};
var LONG_STACKS_CLIP_LIMIT = 100;
var MAX_LONG_STACKS = 20;
var ZONE_ECHO_LIMIT = 100;
var _a = typeof Promise === 'undefined' ?
[] :
(function () {
var globalP = Promise.resolve();
if (typeof crypto === 'undefined' || !crypto.subtle)
return [globalP, globalP.__proto__, globalP];
var nativeP = crypto.subtle.digest("SHA-512", new Uint8Array([0]));
return [
nativeP,
nativeP.__proto__,
globalP
];
})();
var resolvedNativePromise = _a[0];
var nativePromiseProto = _a[1];
var resolvedGlobalPromise = _a[2];
var nativePromiseThen = nativePromiseProto && nativePromiseProto.then;
var NativePromise = resolvedNativePromise && resolvedNativePromise.constructor;
var patchGlobalPromise = !!resolvedGlobalPromise;
var stack_being_generated = false;
var schedulePhysicalTick = resolvedGlobalPromise ?
function () { resolvedGlobalPromise.then(physicalTick); }
:
_global.setImmediate ?
setImmediate.bind(null, physicalTick) :
_global.MutationObserver ?
function () {
var hiddenDiv = document.createElement("div");
(new MutationObserver(function () {
physicalTick();
hiddenDiv = null;
})).observe(hiddenDiv, { attributes: true });
hiddenDiv.setAttribute('i', '1');
} :
function () { setTimeout(physicalTick, 0); };
var asap$1 = function (callback, args) {
microtickQueue.push([callback, args]);
if (needsNewPhysicalTick) {
schedulePhysicalTick();
needsNewPhysicalTick = false;
}
};
var isOutsideMicroTick = true;
var needsNewPhysicalTick = true;
var unhandledErrors = [];
var rejectingErrors = [];
var currentFulfiller = null;
var rejectionMapper = mirror;
var globalPSD = {
id: 'global',
global: true,
ref: 0,
unhandleds: [],
onunhandled: globalError,
pgp: false,
env: {},
finalize: function () {
this.unhandleds.forEach(function (uh) {
try {
globalError(uh[0], uh[1]);
}
catch (e) { }
});
}
};
var PSD = globalPSD;
var microtickQueue = [];
var numScheduledCalls = 0;
var tickFinalizers = [];
function DexiePromise(fn) {
if (typeof this !== 'object')
throw new TypeError('Promises must be constructed via new');
this._listeners = [];
this.onuncatched = nop;
this._lib = false;
var psd = (this._PSD = PSD);
if (debug) {
this._stackHolder = getErrorWithStack();
this._prev = null;
this._numPrev = 0;
}
if (typeof fn !== 'function') {
if (fn !== INTERNAL)
throw new TypeError('Not a function');
this._state = arguments[1];
this._value = arguments[2];
if (this._state === false)
handleRejection(this, this._value);
return;
}
this._state = null;
this._value = null;
++psd.ref;
executePromiseTask(this, fn);
}
var thenProp = {
get: function () {
var psd = PSD, microTaskId = totalEchoes;
function then(onFulfilled, onRejected) {
var _this = this;
var possibleAwait = !psd.global && (psd !== PSD || microTaskId !== totalEchoes);
if (possibleAwait)
decrementExpectedAwaits();
var rv = new DexiePromise(function (resolve, reject) {
propagateToListener(_this, new Listener(nativeAwaitCompatibleWrap(onFulfilled, psd, possibleAwait), nativeAwaitCompatibleWrap(onRejected, psd, possibleAwait), resolve, reject, psd));
});
debug && linkToPreviousPromise(rv, this);
return rv;
}
then.prototype = INTERNAL;
return then;
},
set: function (value) {
setProp(this, 'then', value && value.prototype === INTERNAL ?
thenProp :
{
get: function () {
return value;
},
set: thenProp.set
});
}
};
props(DexiePromise.prototype, {
then: thenProp,
_then: function (onFulfilled, onRejected) {
propagateToListener(this, new Listener(null, null, onFulfilled, onRejected, PSD));
},
catch: function (onRejected) {
if (arguments.length === 1)
return this.then(null, onRejected);
var type = arguments[0], handler = arguments[1];
return typeof type === 'function' ? this.then(null, function (err) {
return err instanceof type ? handler(err) : PromiseReject(err);
})
: this.then(null, function (err) {
return err && err.name === type ? handler(err) : PromiseReject(err);
});
},
finally: function (onFinally) {
return this.then(function (value) {
onFinally();
return value;
}, function (err) {
onFinally();
return PromiseReject(err);
});
},
stack: {
get: function () {
if (this._stack)
return this._stack;
try {
stack_being_generated = true;
var stacks = getStack(this, [], MAX_LONG_STACKS);
var stack = stacks.join("\nFrom previous: ");
if (this._state !== null)
this._stack = stack;
return stack;
}
finally {
stack_being_generated = false;
}
}
},
timeout: function (ms, msg) {
var _this = this;
return ms < Infinity ?
new DexiePromise(function (resolve, reject) {
var handle = setTimeout(function () { return reject(new exceptions.Timeout(msg)); }, ms);
_this.then(resolve, reject).finally(clearTimeout.bind(null, handle));
}) : this;
}
});
if (typeof Symbol !== 'undefined' && Symbol.toStringTag)
setProp(DexiePromise.prototype, Symbol.toStringTag, 'Dexie.Promise');
globalPSD.env = snapShot();
function Listener(onFulfilled, onRejected, resolve, reject, zone) {
this.onFulfilled = typeof onFulfilled === 'function' ? onFulfilled : null;
this.onRejected = typeof onRejected === 'function' ? onRejected : null;
this.resolve = resolve;
this.reject = reject;
this.psd = zone;
}
props(DexiePromise, {
all: function () {
var values = getArrayOf.apply(null, arguments)
.map(onPossibleParallellAsync);
return new DexiePromise(function (resolve, reject) {
if (values.length === 0)
resolve([]);
var remaining = values.length;
values.forEach(function (a, i) { return DexiePromise.resolve(a).then(function (x) {
values[i] = x;
if (!--remaining)
resolve(values);
}, reject); });
});
},
resolve: function (value) {
if (value instanceof DexiePromise)
return value;
if (value && typeof value.then === 'function')
return new DexiePromise(function (resolve, reject) {
value.then(resolve, reject);
});
var rv = new DexiePromise(INTERNAL, true, value);
linkToPreviousPromise(rv, currentFulfiller);
return rv;
},
reject: PromiseReject,
race: function () {
var values = getArrayOf.apply(null, arguments).map(onPossibleParallellAsync);
return new DexiePromise(function (resolve, reject) {
values.map(function (value) { return DexiePromise.resolve(value).then(resolve, reject); });
});
},
PSD: {
get: function () { return PSD; },
set: function (value) { return PSD = value; }
},
newPSD: newScope,
usePSD: usePSD,
scheduler: {
get: function () { return asap$1; },
set: function (value) { asap$1 = value; }
},
rejectionMapper: {
get: function () { return rejectionMapper; },
set: function (value) { rejectionMapper = value; }
},
follow: function (fn, zoneProps) {
return new DexiePromise(function (resolve, reject) {
return newScope(function (resolve, reject) {
var psd = PSD;
psd.unhandleds = [];
psd.onunhandled = reject;
psd.finalize = callBoth(function () {
var _this = this;
run_at_end_of_this_or_next_physical_tick(function () {
_this.unhandleds.length === 0 ? resolve() : reject(_this.unhandleds[0]);
});
}, psd.finalize);
fn();
}, zoneProps, resolve, reject);
});
}
});
if (NativePromise) {
if (NativePromise.allSettled)
setProp(DexiePromise, "allSettled", function () {
var possiblePromises = getArrayOf.apply(null, arguments).map(onPossibleParallellAsync);
return new DexiePromise(function (resolve) {
if (possiblePromises.length === 0)
resolve([]);
var remaining = possiblePromises.length;
var results = new Array(remaining);
possiblePromises.forEach(function (p, i) { return DexiePromise.resolve(p).then(function (value) { return results[i] = { status: "fulfilled", value: value }; }, function (reason) { return results[i] = { status: "rejected", reason: reason }; })
.then(function () { return --remaining || resolve(results); }); });
});
});
if (NativePromise.any && typeof AggregateError !== 'undefined')
setProp(DexiePromise, "any", function () {
var possiblePromises = getArrayOf.apply(null, arguments).map(onPossibleParallellAsync);
return new DexiePromise(function (resolve, reject) {
if (possiblePromises.length === 0)
reject(new AggregateError([]));
var remaining = possiblePromises.length;
var failures = new Array(remaining);
possiblePromises.forEach(function (p, i) { return DexiePromise.resolve(p).then(function (value) { return resolve(value); }, function (failure) {
failures[i] = failure;
if (!--remaining)
reject(new AggregateError(failures));
}); });
});
});
}
function executePromiseTask(promise, fn) {
try {
fn(function (value) {
if (promise._state !== null)
return;
if (value === promise)
throw new TypeError('A promise cannot be resolved with itself.');
var shouldExecuteTick = promise._lib && beginMicroTickScope();
if (value && typeof value.then === 'function') {
executePromiseTask(promise, function (resolve, reject) {
value instanceof DexiePromise ?
value._then(resolve, reject) :
value.then(resolve, reject);
});
}
else {
promise._state = true;
promise._value = value;
propagateAllListeners(promise);
}
if (shouldExecuteTick)
endMicroTickScope();
}, handleRejection.bind(null, promise));
}
catch (ex) {
handleRejection(promise, ex);
}
}
function handleRejection(promise, reason) {
rejectingErrors.push(reason);
if (promise._state !== null)
return;
var shouldExecuteTick = promise._lib && beginMicroTickScope();
reason = rejectionMapper(reason);
promise._state = false;
promise._value = reason;
debug && reason !== null && typeof reason === 'object' && !reason._promise && tryCatch(function () {
var origProp = getPropertyDescriptor(reason, "stack");
reason._promise = promise;
setProp(reason, "stack", {
get: function () {
return stack_being_generated ?
origProp && (origProp.get ?
origProp.get.apply(reason) :
origProp.value) :
promise.stack;
}
});
});
addPossiblyUnhandledError(promise);
propagateAllListeners(promise);
if (shouldExecuteTick)
endMicroTickScope();
}
function propagateAllListeners(promise) {
var listeners = promise._listeners;
promise._listeners = [];
for (var i = 0, len = listeners.length; i < len; ++i) {
propagateToListener(promise, listeners[i]);
}
var psd = promise._PSD;
--psd.ref || psd.finalize();
if (numScheduledCalls === 0) {
++numScheduledCalls;
asap$1(function () {
if (--numScheduledCalls === 0)
finalizePhysicalTick();
}, []);
}
}
function propagateToListener(promise, listener) {
if (promise._state === null) {
promise._listeners.push(listener);
return;
}
var cb = promise._state ? listener.onFulfilled : listener.onRejected;
if (cb === null) {
return (promise._state ? listener.resolve : listener.reject)(promise._value);
}
++listener.psd.ref;
++numScheduledCalls;
asap$1(callListener, [cb, promise, listener]);
}
function callListener(cb, promise, listener) {
try {
currentFulfiller = promise;
var ret, value = promise._value;
if (promise._state) {
ret = cb(value);
}
else {
if (rejectingErrors.length)
rejectingErrors = [];
ret = cb(value);
if (rejectingErrors.indexOf(value) === -1)
markErrorAsHandled(promise);
}
listener.resolve(ret);
}
catch (e) {
listener.reject(e);
}
finally {
currentFulfiller = null;
if (--numScheduledCalls === 0)
finalizePhysicalTick();
--listener.psd.ref || listener.psd.finalize();
}
}
function getStack(promise, stacks, limit) {
if (stacks.length === limit)
return stacks;
var stack = "";
if (promise._state === false) {
var failure = promise._value, errorName, message;
if (failure != null) {
errorName = failure.name || "Error";
message = failure.message || failure;
stack = prettyStack(failure, 0);
}
else {
errorName = failure;
message = "";
}
stacks.push(errorName + (message ? ": " + message : "") + stack);
}
if (debug) {
stack = prettyStack(promise._stackHolder, 2);
if (stack && stacks.indexOf(stack) === -1)
stacks.push(stack);
if (promise._prev)
getStack(promise._prev, stacks, limit);
}
return stacks;
}
function linkToPreviousPromise(promise, prev) {
var numPrev = prev ? prev._numPrev + 1 : 0;
if (numPrev < LONG_STACKS_CLIP_LIMIT) {
promise._prev = prev;
promise._numPrev = numPrev;
}
}
function physicalTick() {
beginMicroTickScope() && endMicroTickScope();
}
function beginMicroTickScope() {
var wasRootExec = isOutsideMicroTick;
isOutsideMicroTick = false;
needsNewPhysicalTick = false;
return wasRootExec;
}
function endMicroTickScope() {
var callbacks, i, l;
do {
while (microtickQueue.length > 0) {
callbacks = microtickQueue;
microtickQueue = [];
l = callbacks.length;
for (i = 0; i < l; ++i) {
var item = callbacks[i];
item[0].apply(null, item[1]);
}
}
} while (microtickQueue.length > 0);
isOutsideMicroTick = true;
needsNewPhysicalTick = true;
}
function finalizePhysicalTick() {
var unhandledErrs = unhandledErrors;
unhandledErrors = [];
unhandledErrs.forEach(function (p) {
p._PSD.onunhandled.call(null, p._value, p);
});
var finalizers = tickFinalizers.slice(0);
var i = finalizers.length;
while (i)
finalizers[--i]();
}
function run_at_end_of_this_or_next_physical_tick(fn) {
function finalizer() {
fn();
tickFinalizers.splice(tickFinalizers.indexOf(finalizer), 1);
}
tickFinalizers.push(finalizer);
++numScheduledCalls;
asap$1(function () {
if (--numScheduledCalls === 0)
finalizePhysicalTick();
}, []);
}
function addPossiblyUnhandledError(promise) {
if (!unhandledErrors.some(function (p) { return p._value === promise._value; }))
unhandledErrors.push(promise);
}
function markErrorAsHandled(promise) {
var i = unhandledErrors.length;
while (i)
if (unhandledErrors[--i]._value === promise._value) {
unhandledErrors.splice(i, 1);
return;
}
}
function PromiseReject(reason) {
return new DexiePromise(INTERNAL, false, reason);
}
function wrap(fn, errorCatcher) {
var psd = PSD;
return function () {
var wasRootExec = beginMicroTickScope(), outerScope = PSD;
try {
switchToZone(psd, true);
return fn.apply(this, arguments);
}
catch (e) {
errorCatcher && errorCatcher(e);
}
finally {
switchToZone(outerScope, false);
if (wasRootExec)
endMicroTickScope();
}
};
}
var task = { awaits: 0, echoes: 0, id: 0 };
var taskCounter = 0;
var zoneStack = [];
var zoneEchoes = 0;
var totalEchoes = 0;
var zone_id_counter = 0;
function newScope(fn, props$$1, a1, a2) {
var parent = PSD, psd = Object.create(parent);
psd.parent = parent;
psd.ref = 0;
psd.global = false;
psd.id = ++zone_id_counter;
var globalEnv = globalPSD.env;
psd.env = patchGlobalPromise ? {
Promise: DexiePromise,
PromiseProp: { value: DexiePromise, configurable: true, writable: true },
all: DexiePromise.all,
race: DexiePromise.race,
allSettled: DexiePromise.allSettled,
any: DexiePromise.any,
resolve: DexiePromise.resolve,
reject: DexiePromise.reject,
nthen: getPatchedPromiseThen(globalEnv.nthen, psd),
gthen: getPatchedPromiseThen(globalEnv.gthen, psd)
} : {};
if (props$$1)
extend(psd, props$$1);
++parent.ref;
psd.finalize = function () {
--this.parent.ref || this.parent.finalize();
};
var rv = usePSD(psd, fn, a1, a2);
if (psd.ref === 0)
psd.finalize();
return rv;
}
function incrementExpectedAwaits() {
if (!task.id)
task.id = ++taskCounter;
++task.awaits;
task.echoes += ZONE_ECHO_LIMIT;
return task.id;
}
function decrementExpectedAwaits(sourceTaskId) {
if (!task.awaits || (sourceTaskId && sourceTaskId !== task.id))
return;
if (--task.awaits === 0)
task.id = 0;
task.echoes = task.awaits * ZONE_ECHO_LIMIT;
}
if (('' + nativePromiseThen).indexOf('[native code]') === -1) {
incrementExpectedAwaits = decrementExpectedAwaits = nop;
}
function onPossibleParallellAsync(possiblePromise) {
if (task.echoes && possiblePromise && possiblePromise.constructor === NativePromise) {
incrementExpectedAwaits();
return possiblePromise.then(function (x) {
decrementExpectedAwaits();
return x;
}, function (e) {
decrementExpectedAwaits();
return rejection(e);
});
}
return possiblePromise;
}
function zoneEnterEcho(targetZone) {
++totalEchoes;
if (!task.echoes || --task.echoes === 0) {
task.echoes = task.id = 0;
}
zoneStack.push(PSD);
switchToZone(targetZone, true);
}
function zoneLeaveEcho() {
var zone = zoneStack[zoneStack.length - 1];
zoneStack.pop();
switchToZone(zone, false);
}
function switchToZone(targetZone, bEnteringZone) {
var currentZone = PSD;
if (bEnteringZone ? task.echoes && (!zoneEchoes++ || targetZone !== PSD) : zoneEchoes && (!--zoneEchoes || targetZone !== PSD)) {
enqueueNativeMicroTask(bEnteringZone ? zoneEnterEcho.bind(null, targetZone) : zoneLeaveEcho);
}
if (targetZone === PSD)
return;
PSD = targetZone;
if (currentZone === globalPSD)
globalPSD.env = snapShot();
if (patchGlobalPromise) {
var GlobalPromise_1 = globalPSD.env.Promise;
var targetEnv = targetZone.env;
nativePromiseProto.then = targetEnv.nthen;
GlobalPromise_1.prototype.then = targetEnv.gthen;
if (currentZone.global || targetZone.global) {
Object.defineProperty(_global, 'Promise', targetEnv.PromiseProp);
GlobalPromise_1.all = targetEnv.all;
GlobalPromise_1.race = targetEnv.race;
GlobalPromise_1.resolve = targetEnv.resolve;
GlobalPromise_1.reject = targetEnv.reject;
if (targetEnv.allSettled)
GlobalPromise_1.allSettled = targetEnv.allSettled;
if (targetEnv.any)
GlobalPromise_1.any = targetEnv.any;
}
}
}
function snapShot() {
var GlobalPromise = _global.Promise;
return patchGlobalPromise ? {
Promise: GlobalPromise,
PromiseProp: Object.getOwnPropertyDescriptor(_global, "Promise"),
all: GlobalPromise.all,
race: GlobalPromise.race,
allSettled: GlobalPromise.allSettled,
any: GlobalPromise.any,
resolve: GlobalPromise.resolve,
reject: GlobalPromise.reject,
nthen: nativePromiseProto.then,
gthen: GlobalPromise.prototype.then
} : {};
}
function usePSD(psd, fn, a1, a2, a3) {
var outerScope = PSD;
try {
switchToZone(psd, true);
return fn(a1, a2, a3);
}
finally {
switchToZone(outerScope, false);
}
}
function enqueueNativeMicroTask(job) {
nativePromiseThen.call(resolvedNativePromise, job);
}
function nativeAwaitCompatibleWrap(fn, zone, possibleAwait) {
return typeof fn !== 'function' ? fn : function () {
var outerZone = PSD;
if (possibleAwait)
incrementExpectedAwaits();
switchToZone(zone, true);
try {
return fn.apply(this, arguments);
}
finally {
switchToZone(outerZone, false);
}
};
}
function getPatchedPromiseThen(origThen, zone) {
return function (onResolved, onRejected) {
return origThen.call(this, nativeAwaitCompatibleWrap(onResolved, zone, false), nativeAwaitCompatibleWrap(onRejected, zone, false));
};
}
var UNHANDLEDREJECTION = "unhandledrejection";
function globalError(err, promise) {
var rv;
try {
rv = promise.onuncatched(err);
}
catch (e) { }
if (rv !== false)
try {
var event, eventData = { promise: promise, reason: err };
if (_global.document && document.createEvent) {
event = document.createEvent('Event');
event.initEvent(UNHANDLEDREJECTION, true, true);
extend(event, eventData);
}
else if (_global.CustomEvent) {
event = new CustomEvent(UNHANDLEDREJECTION, { detail: eventData });
extend(event, eventData);
}
if (event && _global.dispatchEvent) {
dispatchEvent(event);
if (!_global.PromiseRejectionEvent && _global.onunhandledrejection)
try {
_global.onunhandledrejection(event);
}
catch (_) { }
}
if (debug && event && !event.defaultPrevented) {
console.warn("Unhandled rejection: " + (err.stack || err));
}
}
catch (e) { }
}
var rejection = DexiePromise.reject;
function tempTransaction(db, mode, storeNames, fn) {
if (!db._state.openComplete && (!PSD.letThrough)) {
if (!db._state.isBeingOpened) {
if (!db._options.autoOpen)
return rejection(new exceptions.DatabaseClosed());
db.open().catch(nop);
}
return db._state.dbReadyPromise.then(function () { return tempTransaction(db, mode, storeNames, fn); });
}
else {
var trans = db._createTransaction(mode, storeNames, db._dbSchema);
try {
trans.create();
}
catch (ex) {
return rejection(ex);
}
return trans._promise(mode, function (resolve, reject) {
return newScope(function () {
PSD.trans = trans;
return fn(resolve, reject, trans);
});
}).then(function (result) {
return trans._completion.then(function () { return result; });
});
}
}
var DEXIE_VERSION = '3.0.2';
var maxString = String.fromCharCode(65535);
var minKey = -Infinity;
var INVALID_KEY_ARGUMENT = "Invalid key provided. Keys must be of type string, number, Date or Array<string | number | Date>.";
var STRING_EXPECTED = "String expected.";
var connections = [];
var isIEOrEdge = typeof navigator !== 'undefined' && /(MSIE|Trident|Edge)/.test(navigator.userAgent);
var hasIEDeleteObjectStoreBug = isIEOrEdge;
var hangsOnDeleteLargeKeyRange = isIEOrEdge;
var dexieStackFrameFilter = function (frame) { return !/(dexie\.js|dexie\.min\.js)/.test(frame); };
var DBNAMES_DB = '__dbnames';
var READONLY = 'readonly';
var READWRITE = 'readwrite';
function combine(filter1, filter2) {
return filter1 ?
filter2 ?
function () { return filter1.apply(this, arguments) && filter2.apply(this, arguments); } :
filter1 :
filter2;
}
var AnyRange = {
type: 3 ,
lower: -Infinity,
lowerOpen: false,
upper: [[]],
upperOpen: false
};
var Table = (function () {
function Table() {
}
Table.prototype._trans = function (mode, fn, writeLocked) {
var trans = this._tx || PSD.trans;
var tableName = this.name;
function checkTableInTransaction(resolve, reject, trans) {
if (!trans.schema[tableName])
throw new exceptions.NotFound("Table " + tableName + " not part of transaction");
return fn(trans.idbtrans, trans);
}
var wasRootExec = beginMicroTickScope();
try {
return trans && trans.db === this.db ?
trans === PSD.trans ?
trans._promise(mode, checkTableInTransaction, writeLocked) :
newScope(function () { return trans._promise(mode, checkTableInTransaction, writeLocked); }, { trans: trans, transless: PSD.transless || PSD }) :
tempTransaction(this.db, mode, [this.name], checkTableInTransaction);
}
finally {
if (wasRootExec)
endMicroTickScope();
}
};
Table.prototype.get = function (keyOrCrit, cb) {
var _this = this;
if (keyOrCrit && keyOrCrit.constructor === Object)
return this.where(keyOrCrit).first(cb);
return this._trans('readonly', function (trans) {
return _this.core.get({ trans: trans, key: keyOrCrit })
.then(function (res) { return _this.hook.reading.fire(res); });
}).then(cb);
};
Table.prototype.where = function (indexOrCrit) {
if (typeof indexOrCrit === 'string')
return new this.db.WhereClause(this, indexOrCrit);
if (isArray(indexOrCrit))
return new this.db.WhereClause(this, "[" + indexOrCrit.join('+') + "]");
var keyPaths = keys(indexOrCrit);
if (keyPaths.length === 1)
return this
.where(keyPaths[0])
.equals(indexOrCrit[keyPaths[0]]);
var compoundIndex = this.schema.indexes.concat(this.schema.primKey).filter(function (ix) {
return ix.compound &&
keyPaths.every(function (keyPath) { return ix.keyPath.indexOf(keyPath) >= 0; }) &&
ix.keyPath.every(function (keyPath) { return keyPaths.indexOf(keyPath) >= 0; });
})[0];
if (compoundIndex && this.db._maxKey !== maxString)
return this
.where(compoundIndex.name)
.equals(compoundIndex.keyPath.map(function (kp) { return indexOrCrit[kp]; }));
if (!compoundIndex && debug)
console.warn("The query " + JSON.stringify(indexOrCrit) + " on " + this.name + " would benefit of a " +
("compound index [" + keyPaths.join('+') + "]"));
var idxByName = this.schema.idxByName;
var idb = this.db._deps.indexedDB;
function equals(a, b) {
try {
return idb.cmp(a, b) === 0;
}
catch (e) {
return false;
}
}
var _a = keyPaths.reduce(function (_a, keyPath) {
var prevIndex = _a[0], prevFilterFn = _a[1];
var index = idxByName[keyPath];
var value = indexOrCrit[keyPath];
return [
prevIndex || index,
prevIndex || !index ?
combine(prevFilterFn, index && index.multi ?
function (x) {
var prop = getByKeyPath(x, keyPath);
return isArray(prop) && prop.some(function (item) { return equals(value, item); });
} : function (x) { return equals(value, getByKeyPath(x, keyPath)); })
: prevFilterFn
];
}, [null, null]), idx = _a[0], filterFunction = _a[1];
return idx ?
this.where(idx.name).equals(indexOrCrit[idx.keyPath])
.filter(filterFunction) :
compoundIndex ?
this.filter(filterFunction) :
this.where(keyPaths).equals('');
};
Table.prototype.filter = function (filterFunction) {
return this.toCollection().and(filterFunction);
};
Table.prototype.count = function (thenShortcut) {
return this.toCollection().count(thenShortcut);
};
Table.prototype.offset = function (offset) {
return this.toCollection().offset(offset);
};
Table.prototype.limit = function (numRows) {
return this.toCollection().limit(numRows);
};
Table.prototype.each = function (callback) {
return this.toCollection().each(callback);
};
Table.prototype.toArray = function (thenShortcut) {
return this.toCollection().toArray(thenShortcut);
};
Table.prototype.toCollection = function () {
return new this.db.Collection(new this.db.WhereClause(this));
};
Table.prototype.orderBy = function (index) {
return new this.db.Collection(new this.db.WhereClause(this, isArray(index) ?
"[" + index.join('+') + "]" :
index));
};
Table.prototype.reverse = function () {
return this.toCollection().reverse();
};
Table.prototype.mapToClass = function (constructor) {
this.schema.mappedClass = constructor;
var readHook = function (obj) {
if (!obj)
return obj;
var res = Object.create(constructor.prototype);
for (var m in obj)
if (hasOwn(obj, m))
try {
res[m] = obj[m];
}
catch (_) { }
return res;
};
if (this.schema.readHook) {
this.hook.reading.unsubscribe(this.schema.readHook);
}
this.schema.readHook = readHook;
this.hook("reading", readHook);
return constructor;
};
Table.prototype.defineClass = function () {
function Class(content) {
extend(this, content);
}
return this.mapToClass(Class);
};
Table.prototype.add = function (obj, key) {
var _this = this;
return this._trans('readwrite', function (trans) {
return _this.core.mutate({ trans: trans, type: 'add', keys: key != null ? [key] : null, values: [obj] });
}).then(function (res) { return res.numFailures ? DexiePromise.reject(res.failures[0]) : res.lastResult; })
.then(function (lastResult) {
if (!_this.core.schema.primaryKey.outbound) {
try {
setByKeyPath(obj, _this.core.schema.primaryKey.keyPath, lastResult);
}
catch (_) { }
}
return lastResult;
});
};
Table.prototype.update = function (keyOrObject, modifications) {
if (typeof modifications !== 'object' || isArray(modifications))
throw new exceptions.InvalidArgument("Modifications must be an object.");
if (typeof keyOrObject === 'object' && !isArray(keyOrObject)) {
keys(modifications).forEach(function (keyPath) {
setByKeyPath(keyOrObject, keyPath, modifications[keyPath]);
});
var key = getByKeyPath(keyOrObject, this.schema.primKey.keyPath);
if (key === undefined)
return rejection(new exceptions.InvalidArgument("Given object does not contain its primary key"));
return this.where(":id").equals(key).modify(modifications);
}
else {
return this.where(":id").equals(keyOrObject).modify(modifications);
}
};
Table.prototype.put = function (obj, key) {
var _this = this;
return this._trans('readwrite', function (trans) { return _this.core.mutate({ trans: trans, type: 'put', values: [obj], keys: key != null ? [key] : null }); })
.then(function (res) { return res.numFailures ? DexiePromise.reject(res.failures[0]) : res.lastResult; })
.then(function (lastResult) {
if (!_this.core.schema.primaryKey.outbound) {
try {
setByKeyPath(obj, _this.core.schema.primaryKey.keyPath, lastResult);
}
catch (_) { }
}
return lastResult;
});
};
Table.prototype.delete = function (key) {
var _this = this;
return this._trans('readwrite', function (trans) { return _this.core.mutate({ trans: trans, type: 'delete', keys: [key] }); })
.then(function (res) { return res.numFailures ? DexiePromise.reject(res.failures[0]) : undefined; });
};
Table.prototype.clear = function () {
var _this = this;
return this._trans('readwrite', function (trans) { return _this.core.mutate({ trans: trans, type: 'deleteRange', range: AnyRange }); })
.then(function (res) { return res.numFailures ? DexiePromise.reject(res.failures[0]) : undefined; });
};
Table.prototype.bulkGet = function (keys$$1) {
var _this = this;
return this._trans('readonly', function (trans) {
return _this.core.getMany({
keys: keys$$1,
trans: trans
}).then(function (result) { return result.map(function (res) { return _this.hook.reading.fire(res); }); });
});
};
Table.prototype.bulkAdd = function (objects, keysOrOptions, options) {
var _this = this;
var keys$$1 = Array.isArray(keysOrOptions) ? keysOrOptions : undefined;
options = options || (keys$$1 ? undefined : keysOrOptions);
var wantResults = options ? options.allKeys : undefined;
return this._trans('readwrite', function (trans) {
var outbound = _this.core.schema.primaryKey.outbound;
if (!outbound && keys$$1)
throw new exceptions.InvalidArgument("bulkAdd(): keys argument invalid on tables with inbound keys");
if (keys$$1 && keys$$1.length !== objects.length)
throw new exceptions.InvalidArgument("Arguments objects and keys must have the same length");
var numObjects = objects.length;
return _this.core.mutate({ trans: trans, type: 'add', keys: keys$$1, values: objects, wantResults: wantResults })
.then(function (_a) {
var numFailures = _a.numFailures, results = _a.results, lastResult = _a.lastResult, failures = _a.failures;
var result = wantResults ? results : lastResult;
if (numFailures === 0)
return result;
throw new BulkError(_this.name + ".bulkAdd(): " + numFailures + " of " + numObjects + " operations failed", Object.keys(failures).map(function (pos) { return failures[pos]; }));
});
});
};
Table.prototype.bulkPut = function (objects, keysOrOptions, options) {
var _this = this;
var keys$$1 = Array.isArray(keysOrOptions) ? keysOrOptions : undefined;
options = options || (keys$$1 ? undefined : keysOrOptions);
var wantResults = options ? options.allKeys : undefined;
return this._trans('readwrite', function (trans) {
var outbound = _this.core.schema.primaryKey.outbound;
if (!outbound && keys$$1)
throw new exceptions.InvalidArgument("bulkPut(): keys argument invalid on tables with inbound keys");
if (keys$$1 && keys$$1.length !== objects.length)
throw new exceptions.InvalidArgument("Arguments objects and keys must have the same length");
var numObjects = objects.length;
return _this.core.mutate({ trans: trans, type: 'put', keys: keys$$1, values: objects, wantResults: wantResults })
.then(function (_a) {
var numFailures = _a.numFailures, results = _a.results, lastResult = _a.lastResult, failures = _a.failures;
var result = wantResults ? results : lastResult;
if (numFailures === 0)
return result;
throw new BulkError(_this.name + ".bulkPut(): " + numFailures + " of " + numObjects + " operations failed", Object.keys(failures).map(function (pos) { return failures[pos]; }));
});
});
};
Table.prototype.bulkDelete = function (keys$$1) {
var _this = this;
var numKeys = keys$$1.length;
return this._trans('readwrite', function (trans) {
return _this.core.mutate({ trans: trans, type: 'delete', keys: keys$$1 });
}).then(function (_a) {
var numFailures = _a.numFailures, lastResult = _a.lastResult, failures = _a.failures;
if (numFailures === 0)
return lastResult;
throw new BulkError(_this.name + ".bulkDelete(): " + numFailures + " of " + numKeys + " operations failed", failures);
});
};
return Table;
}());
function Events(ctx) {
var evs = {};
var rv = function (eventName, subscriber) {
if (subscriber) {
var i = arguments.length, args = new Array(i - 1);
while (--i)
args[i - 1] = arguments[i];
evs[eventName].subscribe.apply(null, args);
return ctx;
}
else if (typeof (eventName) === 'string') {
return evs[eventName];
}
};
rv.addEventType = add;
for (var i = 1, l = arguments.length; i < l; ++i) {
add(arguments[i]);
}
return rv;
function add(eventName, chainFunction, defaultFunction) {
if (typeof eventName === 'object')
return addConfiguredEvents(eventName);
if (!chainFunction)
chainFunction = reverseStoppableEventChain;
if (!defaultFunction)
defaultFunction = nop;
var context = {
subscribers: [],
fire: defaultFunction,
subscribe: function (cb) {
if (context.subscribers.indexOf(cb) === -1) {
context.subscribers.push(cb);
context.fire = chainFunction(context.fire, cb);
}
},
unsubscribe: function (cb) {
context.subscribers = context.subscribers.filter(function (fn) { return fn !== cb; });
context.fire = context.subscribers.reduce(chainFunction, defaultFunction);
}
};
evs[eventName] = rv[eventName] = context;
return context;
}
function addConfiguredEvents(cfg) {
keys(cfg).forEach(function (eventName) {
var args = cfg[eventName];
if (isArray(args)) {
add(eventName, cfg[eventName][0], cfg[eventName][1]);
}
else if (args === 'asap') {
var context = add(eventName, mirror, function fire() {
var i = arguments.length, args = new Array(i);
while (i--)
args[i] = arguments[i];
context.subscribers.forEach(function (fn) {
asap(function fireEvent() {
fn.apply(null, args);
});
});
});
}
else
throw new exceptions.InvalidArgument("Invalid event config");
});
}
}
function makeClassConstructor(prototype, constructor) {
derive(constructor).from({ prototype: prototype });
return constructor;
}
function createTableConstructor(db) {
return makeClassConstructor(Table.prototype, function Table$$1(name, tableSchema, trans) {
this.db = db;
this._tx = trans;
this.name = name;
this.schema = tableSchema;
this.hook = db._allTables[name] ? db._allTables[name].hook : Events(null, {
"creating": [hookCreatingChain, nop],
"reading": [pureFunctionChain, mirror],
"updating": [hookUpdatingChain, nop],
"deleting": [hookDeletingChain, nop]
});
});
}
function isPlainKeyRange(ctx, ignoreLimitFilter) {
return !(ctx.filter || ctx.algorithm || ctx.or) &&
(ignoreLimitFilter ? ctx.justLimit : !ctx.replayFilter);
}
function addFilter(ctx, fn) {
ctx.filter = combine(ctx.filter, fn);
}
function addReplayFilter(ctx, factory, isLimitFilter) {
var curr = ctx.replayFilter;
ctx.replayFilter = curr ? function () { return combine(curr(), factory()); } : factory;
ctx.justLimit = isLimitFilter && !curr;
}
function addMatchFilter(ctx, fn) {
ctx.isMatch = combine(ctx.isMatch, fn);
}
function getIndexOrStore(ctx, coreSchema) {
if (ctx.isPrimKey)
return coreSchema.primaryKey;
var index = coreSchema.getIndexByKeyPath(ctx.index);
if (!index)
throw new exceptions.Schema("KeyPath " + ctx.index + " on object store " + coreSchema.name + " is not indexed");
return index;
}
function openCursor(ctx, coreTable, trans) {
var index = getIndexOrStore(ctx, coreTable.schema);
return coreTable.openCursor({
trans: trans,
values: !ctx.keysOnly,
reverse: ctx.dir === 'prev',
unique: !!ctx.unique,
query: {
index: index,
range: ctx.range
}
});
}
function iter(ctx, fn, coreTrans, coreTable) {
var filter = ctx.replayFilter ? combine(ctx.filter, ctx.replayFilter()) : ctx.filter;
if (!ctx.or) {
return iterate(openCursor(ctx, coreTable, coreTrans), combine(ctx.algorithm, filter), fn, !ctx.keysOnly && ctx.valueMapper);
}
else {
var set_1 = {};
var union = function (item, cursor, advance) {
if (!filter || filter(cursor, advance, function (result) { return cursor.stop(result); }, function (err) { return cursor.fail(err); })) {
var primaryKey = cursor.primaryKey;
var key = '' + primaryKey;
if (key === '[object ArrayBuffer]')
key = '' + new Uint8Array(primaryKey);
if (!hasOwn(set_1, key)) {
set_1[key] = true;
fn(item, cursor, advance);
}
}
};
return Promise.all([
ctx.or._iterate(union, coreTrans),
iterate(openCursor(ctx, coreTable, coreTrans), ctx.algorithm, union, !ctx.keysOnly && ctx.valueMapper)
]);
}
}
function iterate(cursorPromise, filter, fn, valueMapper) {
var mappedFn = valueMapper ? function (x, c, a) { return fn(valueMapper(x), c, a); } : fn;
var wrappedFn = wrap(mappedFn);
return cursorPromise.then(function (cursor) {
if (cursor) {
return cursor.start(function () {
var c = function () { return cursor.continue(); };
if (!filter || filter(cursor, function (advancer) { return c = advancer; }, function (val) { cursor.stop(val); c = nop; }, function (e) { cursor.fail(e); c = nop; }))
wrappedFn(cursor.value, cursor, function (advancer) { return c = advancer; });
c();
});
}
});
}
var Collection = (function () {
function Collection() {
}
Collection.prototype._read = function (fn, cb) {
var ctx = this._ctx;
return ctx.error ?
ctx.table._trans(null, rejection.bind(null, ctx.error)) :
ctx.table._trans('readonly', fn).then(cb);
};
Collection.prototype._write = function (fn) {
var ctx = this._ctx;
return ctx.error ?
ctx.table._trans(null, rejection.bind(null, ctx.error)) :
ctx.table._trans('readwrite', fn, "locked");
};
Collection.prototype._addAlgorithm = function (fn) {
var ctx = this._ctx;
ctx.algorithm = combine(ctx.algorithm, fn);
};
Collection.prototype._iterate = function (fn, coreTrans) {
return iter(this._ctx, fn, coreTrans, this._ctx.table.core);
};
Collection.prototype.clone = function (props$$1) {
var rv = Object.create(this.constructor.prototype), ctx = Object.create(this._ctx);
if (props$$1)
extend(ctx, props$$1);
rv._ctx = ctx;
return rv;
};
Collection.prototype.raw = function () {
this._ctx.valueMapper = null;
return this;
};
Collection.prototype.each = function (fn) {
var ctx = this._ctx;
return this._read(function (trans) { return iter(ctx, fn, trans, ctx.table.core); });
};
Collection.prototype.count = function (cb) {
var _this = this;
return this._read(function (trans) {
var ctx = _this._ctx;
var coreTable = ctx.table.core;
if (isPlainKeyRange(ctx, true)) {
return coreTable.count({
trans: trans,
query: {
index: getIndexOrStore(ctx, coreTable.schema),
range: ctx.range
}
}).then(function (count) { return Math.min(count, ctx.limit); });
}
else {
var count = 0;
return iter(ctx, function () { ++count; return false; }, trans, coreTable)
.then(function () { return count; });
}
}).then(cb);
};
Collection.prototype.sortBy = function (keyPath, cb) {
var parts = keyPath.split('.').reverse(), lastPart = parts[0], lastIndex = parts.length - 1;
function getval(obj, i) {
if (i)
return getval(obj[parts[i]], i - 1);
return obj[lastPart];
}
var order = this._ctx.dir === "next" ? 1 : -1;
function sorter(a, b) {
var aVal = getval(a, lastIndex), bVal = getval(b, lastIndex);
return aVal < bVal ? -order : aVal > bVal ? order : 0;
}
return this.toArray(function (a) {
return a.sort(sorter);
}).then(cb);
};
Collection.prototype.toArray = function (cb) {
var _this = this;
return this._read(function (trans) {
var ctx = _this._ctx;
if (ctx.dir === 'next' && isPlainKeyRange(ctx, true) && ctx.limit > 0) {
var valueMapper_1 = ctx.valueMapper;
var index = getIndexOrStore(ctx, ctx.table.core.schema);
return ctx.table.core.query({
trans: trans,
limit: ctx.limit,
values: true,
query: {
index: index,
range: ctx.range
}
}).then(function (_a) {
var result = _a.result;
return valueMapper_1 ? result.map(valueMapper_1) : result;
});
}
else {
var a_1 = [];
return iter(ctx, function (item) { return a_1.push(item); }, trans, ctx.table.core).then(function () { return a_1; });
}
}, cb);
};
Collection.prototype.offset = function (offset) {
var ctx = this._ctx;
if (offset <= 0)
return this;
ctx.offset += offset;
if (isPlainKeyRange(ctx)) {
addReplayFilter(ctx, function () {
var offsetLeft = offset;
return function (cursor, advance) {
if (offsetLeft === 0)
return true;
if (offsetLeft === 1) {
--offsetLeft;
return false;
}
advance(function () {
cursor.advance(offsetLeft);
offsetLeft = 0;
});
return false;
};
});
}
else {
addReplayFilter(ctx, function () {
var offsetLeft = offset;
return function () { return (--offsetLeft < 0); };
});
}
return this;
};
Collection.prototype.limit = function (numRows) {
this._ctx.limit = Math.min(this._ctx.limit, numRows);
addReplayFilter(this._ctx, function () {
var rowsLeft = numRows;
return function (cursor, advance, resolve) {
if (--rowsLeft <= 0)
advance(resolve);
return rowsLeft >= 0;
};
}, true);
return this;
};
Collection.prototype.until = function (filterFunction, bIncludeStopEntry) {
addFilter(this._ctx, function (cursor, advance, resolve) {
if (filterFunction(cursor.value)) {
advance(resolve);
return bIncludeStopEntry;
}
else {
return true;
}
});
return this;
};
Collection.prototype.first = function (cb) {
return this.limit(1).toArray(function (a) { return a[0]; }).then(cb);
};
Collection.prototype.last = function (cb) {
return this.reverse().first(cb);
};
Collection.prototype.filter = function (filterFunction) {
addFilter(this._ctx, function (cursor) {
return filterFunction(cursor.value);
});
addMatchFilter(this._ctx, filterFunction);
return this;
};
Collection.prototype.and = function (filter) {
return this.filter(filter);
};
Collection.prototype.or = function (indexName) {
return new this.db.WhereClause(this._ctx.table, indexName, this);
};
Collection.prototype.reverse = function () {
this._ctx.dir = (this._ctx.dir === "prev" ? "next" : "prev");
if (this._ondirectionchange)
this._ondirectionchange(this._ctx.dir);
return this;
};
Collection.prototype.desc = function () {
return this.reverse();
};
Collection.prototype.eachKey = function (cb) {
var ctx = this._ctx;
ctx.keysOnly = !ctx.isMatch;
return this.each(function (val, cursor) { cb(cursor.key, cursor); });
};
Collection.prototype.eachUniqueKey = function (cb) {
this._ctx.unique = "unique";
return this.eachKey(cb);
};
Collection.prototype.eachPrimaryKey = function (cb) {
var ctx = this._ctx;
ctx.keysOnly = !ctx.isMatch;
return this.each(function (val, cursor) { cb(cursor.primaryKey, cursor); });
};
Collection.prototype.keys = function (cb) {
var ctx = this._ctx;
ctx.keysOnly = !ctx.isMatch;
var a = [];
return this.each(function (item, cursor) {
a.push(cursor.key);
}).then(function () {
return a;
}).then(cb);
};
Collection.prototype.primaryKeys = function (cb) {
var ctx = this._ctx;
if (ctx.dir === 'next' && isPlainKeyRange(ctx, true) && ctx.limit > 0) {
return this._read(function (trans) {
var index = getIndexOrStore(ctx, ctx.table.core.schema);
return ctx.table.core.query({
trans: trans,
values: false,
limit: ctx.limit,
query: {
index: index,
range: ctx.range
}
});
}).then(function (_a) {
var result = _a.result;
return result;
}).then(cb);
}
ctx.keysOnly = !ctx.isMatch;
var a = [];
return this.each(function (item, cursor) {
a.push(cursor.primaryKey);
}).then(function () {
return a;
}).then(cb);
};
Collection.prototype.uniqueKeys = function (cb) {
this._ctx.unique = "unique";
return this.keys(cb);
};
Collection.prototype.firstKey = function (cb) {
return this.limit(1).keys(function (a) { return a[0]; }).then(cb);
};
Collection.prototype.lastKey = function (cb) {
return this.reverse().firstKey(cb);
};
Collection.prototype.distinct = function () {
var ctx = this._ctx, idx = ctx.index && ctx.table.schema.idxByName[ctx.index];
if (!idx || !idx.multi)
return this;
var set = {};
addFilter(this._ctx, function (cursor) {
var strKey = cursor.primaryKey.toString();
var found = hasOwn(set, strKey);
set[strKey] = true;
return !found;
});
return this;
};
Collection.prototype.modify = function (changes) {
var _this = this;
var ctx = this._ctx;
return this._write(function (trans) {
var modifyer;
if (typeof changes === 'function') {
modifyer = changes;
}
else {
var keyPaths = keys(changes);
var numKeys = keyPaths.length;
modifyer = function (item) {
var anythingModified = false;
for (var i = 0; i < numKeys; ++i) {
var keyPath = keyPaths[i], val = changes[keyPath];
if (getByKeyPath(item, keyPath) !== val) {
setByKeyPath(item, keyPath, val);
anythingModified = true;
}
}
return anythingModified;
};
}
var coreTable = ctx.table.core;
var _a = coreTable.schema.primaryKey, outbound = _a.outbound, extractKey = _a.extractKey;
var limit = 'testmode' in Dexie ? 1 : 2000;
var cmp = _this.db.core.cmp;
var totalFailures = [];
var successCount = 0;
var failedKeys = [];
var applyMutateResult = function (expectedCount, res) {
var failures = res.failures, numFailures = res.numFailures;
successCount += expectedCount - numFailures;
for (var _i = 0, _a = keys(failures); _i < _a.length; _i++) {
var pos = _a[_i];
totalFailures.push(failures[pos]);
}
};
return _this.clone().primaryKeys().then(function (keys$$1) {
var nextChunk = function (offset) {
var count = Math.min(limit, keys$$1.length - offset);
return coreTable.getMany({ trans: trans, keys: keys$$1.slice(offset, offset + count) }).then(function (values) {
var addValues = [];
var putValues = [];
var putKeys = outbound ? [] : null;
var deleteKeys = [];
for (var i = 0; i < count; ++i) {
var origValue = values[i];
var ctx_1 = {
value: deepClone(origValue),
primKey: keys$$1[offset + i]
};
if (modifyer.call(ctx_1, ctx_1.value, ctx_1) !== false) {
if (ctx_1.value == null) {
deleteKeys.push(keys$$1[offset + i]);
}
else if (!outbound && cmp(extractKey(origValue), extractKey(ctx_1.value)) !== 0) {
deleteKeys.push(keys$$1[offset + i]);
addValues.push(ctx_1.value);
}
else {
putValues.push(ctx_1.value);
if (outbound)
putKeys.push(keys$$1[offset + i]);
}
}
}
return Promise.resolve(addValues.length > 0 &&
coreTable.mutate({ trans: trans, type: 'add', values: addValues })
.then(function (res) {
for (var pos in res.failures) {
deleteKeys.splice(parseInt(pos), 1);
}
applyMutateResult(addValues.length, res);
})).then(function (res) { return putValues.length > 0 &&
coreTable.mutate({ trans: trans, type: 'put', keys: putKeys, values: putValues })
.then(function (res) { return applyMutateResult(putValues.length, res); }); }).then(function () { return deleteKeys.length > 0 &&
coreTable.mutate({ trans: trans, type: 'delete', keys: deleteKeys })
.then(function (res) { return applyMutateResult(deleteKeys.length, res); }); }).then(function () {
return keys$$1.length > offset + count && nextChunk(offset + limit);
});
});
};
return nextChunk(0).then(function () {
if (totalFailures.length > 0)
throw new ModifyError("Error modifying one or more objects", totalFailures, successCount, failedKeys);
return keys$$1.length;
});
});
});
};
Collection.prototype.delete = function () {
var ctx = this._ctx, range = ctx.range;
if (isPlainKeyRange(ctx) &&
((ctx.isPrimKey && !hangsOnDeleteLargeKeyRange) || range.type === 3 ))
{
return this._write(function (trans) {
var primaryKey = ctx.table.core.schema.primaryKey;
var coreRange = range;
return ctx.table.core.count({ trans: trans, query: { index: primaryKey, range: coreRange } }).then(function (count) {
return ctx.table.core.mutate({ trans: trans, type: 'deleteRange', range: coreRange })
.then(function (_a) {
var failures = _a.failures, lastResult = _a.lastResult, results = _a.results, numFailures = _a.numFailures;
if (numFailures)
throw new ModifyError("Could not delete some values", Object.keys(failures).map(function (pos) { return failures[pos]; }), count - numFailures);
return count - numFailures;
});
});
});
}
return this.modify(function (value, ctx) { return ctx.value = null; });
};
return Collection;
}());
function createCollectionConstructor(db) {
return makeClassConstructor(Collection.prototype, function Collection$$1(whereClause, keyRangeGenerator) {
this.db = db;
var keyRange = AnyRange, error = null;
if (keyRangeGenerator)
try {
keyRange = keyRangeGenerator();
}
catch (ex) {
error = ex;
}
var whereCtx = whereClause._ctx;
var table = whereCtx.table;
var readingHook = table.hook.reading.fire;
this._ctx = {
table: table,
index: whereCtx.index,
isPrimKey: (!whereCtx.index || (table.schema.primKey.keyPath && whereCtx.index === table.schema.primKey.name)),
range: keyRange,
keysOnly: false,
dir: "next",
unique: "",
algorithm: null,
filter: null,
replayFilter: null,
justLimit: true,
isMatch: null,
offset: 0,
limit: Infinity,
error: error,
or: whereCtx.or,
valueMapper: readingHook !== mirror ? readingHook : null
};
});
}
function simpleCompare(a, b) {
return a < b ? -1 : a === b ? 0 : 1;
}
function simpleCompareReverse(a, b) {
return a > b ? -1 : a === b ? 0 : 1;
}
function fail(collectionOrWhereClause, err, T) {
var collection = collectionOrWhereClause instanceof WhereClause ?
new collectionOrWhereClause.Collection(collectionOrWhereClause) :
collectionOrWhereClause;
collection._ctx.error = T ? new T(err) : new TypeError(err);
return collection;
}
function emptyCollection(whereClause) {
return new whereClause.Collection(whereClause, function () { return rangeEqual(""); }).limit(0);
}
function upperFactory(dir) {
return dir === "next" ?
function (s) { return s.toUpperCase(); } :
function (s) { return s.toLowerCase(); };
}
function lowerFactory(dir) {
return dir === "next" ?
function (s) { return s.toLowerCase(); } :
function (s) { return s.toUpperCase(); };
}
function nextCasing(key, lowerKey, upperNeedle, lowerNeedle, cmp, dir) {
var length = Math.min(key.length, lowerNeedle.length);
var llp = -1;
for (var i = 0; i < length; ++i) {
var lwrKeyChar = lowerKey[i];
if (lwrKeyChar !== lowerNeedle[i]) {
if (cmp(key[i], upperNeedle[i]) < 0)
return key.substr(0, i) + upperNeedle[i] + upperNeedle.substr(i + 1);
if (cmp(key[i], lowerNeedle[i]) < 0)
return key.substr(0, i) + lowerNeedle[i] + upperNeedle.substr(i + 1);
if (llp >= 0)
return key.substr(0, llp) + lowerKey[llp] + upperNeedle.substr(llp + 1);
return null;
}
if (cmp(key[i], lwrKeyChar) < 0)
llp = i;
}
if (length < lowerNeedle.length && dir === "next")
return key + upperNeedle.substr(key.length);
if (length < key.length && dir === "prev")
return key.substr(0, upperNeedle.length);
return (llp < 0 ? null : key.substr(0, llp) + lowerNeedle[llp] + upperNeedle.substr(llp + 1));
}
function addIgnoreCaseAlgorithm(whereClause, match, needles, suffix) {
var upper, lower, compare, upperNeedles, lowerNeedles, direction, nextKeySuffix, needlesLen = needles.length;
if (!needles.every(function (s) { return typeof s === 'string'; })) {
return fail(whereClause, STRING_EXPECTED);
}
function initDirection(dir) {
upper = upperFactory(dir);
lower = lowerFactory(dir);
compare = (dir === "next" ? simpleCompare : simpleCompareReverse);
var needleBounds = needles.map(function (needle) {
return { lower: lower(needle), upper: upper(needle) };
}).sort(function (a, b) {
return compare(a.lower, b.lower);
});
upperNeedles = needleBounds.map(function (nb) { return nb.upper; });
lowerNeedles = needleBounds.map(function (nb) { return nb.lower; });
direction = dir;
nextKeySuffix = (dir === "next" ? "" : suffix);
}
initDirection("next");
var c = new whereClause.Collection(whereClause, function () { return createRange(upperNeedles[0], lowerNeedles[needlesLen - 1] + suffix); });
c._ondirectionchange = function (direction) {
initDirection(direction);
};
var firstPossibleNeedle = 0;
c._addAlgorithm(function (cursor, advance, resolve) {
var key = cursor.key;
if (typeof key !== 'string')
return false;
var lowerKey = lower(key);
if (match(lowerKey, lowerNeedles, firstPossibleNeedle)) {
return true;
}
else {
var lowestPossibleCasing = null;
for (var i = firstPossibleNeedle; i < needlesLen; ++i) {
var casing = nextCasing(key, lowerKey, upperNeedles[i], lowerNeedles[i], compare, direction);
if (casing === null && lowestPossibleCasing === null)
firstPossibleNeedle = i + 1;
else if (lowestPossibleCasing === null || compare(lowestPossibleCasing, casing) > 0) {
lowestPossibleCasing = casing;
}
}
if (lowestPossibleCasing !== null) {
advance(function () { cursor.continue(lowestPossibleCasing + nextKeySuffix); });
}
else {
advance(resolve);
}
return false;
}
});
return c;
}
function createRange(lower, upper, lowerOpen, upperOpen) {
return {
type: 2 ,
lower: lower,
upper: upper,
lowerOpen: lowerOpen,
upperOpen: upperOpen
};
}
function rangeEqual(value) {
return {
type: 1 ,
lower: value,
upper: value
};
}
var WhereClause = (function () {
function WhereClause() {
}
Object.defineProperty(WhereClause.prototype, "Collection", {
get: function () {
return this._ctx.table.db.Collection;
},
enumerable: true,
configurable: true
});
WhereClause.prototype.between = function (lower, upper, includeLower, includeUpper) {
includeLower = includeLower !== false;
includeUpper = includeUpper === true;
try {
if ((this._cmp(lower, upper) > 0) ||
(this._cmp(lower, upper) === 0 && (includeLower || includeUpper) && !(includeLower && includeUpper)))
return emptyCollection(this);
return new this.Collection(this, function () { return createRange(lower, upper, !includeLower, !includeUpper); });
}
catch (e) {
return fail(this, INVALID_KEY_ARGUMENT);
}
};
WhereClause.prototype.equals = function (value) {
return new this.Collection(this, function () { return rangeEqual(value); });
};
WhereClause.prototype.above = function (value) {
if (value == null)
return fail(this, INVALID_KEY_ARGUMENT);
return new this.Collection(this, function () { return createRange(value, undefined, true); });
};
WhereClause.prototype.aboveOrEqual = function (value) {
if (value == null)
return fail(this, INVALID_KEY_ARGUMENT);
return new this.Collection(this, function () { return createRange(value, undefined, false); });
};
WhereClause.prototype.below = function (value) {
if (value == null)
return fail(this, INVALID_KEY_ARGUMENT);
return new this.Collection(this, function () { return createRange(undefined, value, false, true); });
};
WhereClause.prototype.belowOrEqual = function (value) {
if (value == null)
return fail(this, INVALID_KEY_ARGUMENT);
return new this.Collection(this, function () { return createRange(undefined, value); });
};
WhereClause.prototype.startsWith = function (str) {
if (typeof str !== 'string')
return fail(this, STRING_EXPECTED);
return this.between(str, str + maxString, true, true);
};
WhereClause.prototype.startsWithIgnoreCase = function (str) {
if (str === "")
return this.startsWith(str);
return addIgnoreCaseAlgorithm(this, function (x, a) { return x.indexOf(a[0]) === 0; }, [str], maxString);
};
WhereClause.prototype.equalsIgnoreCase = function (str) {
return addIgnoreCaseAlgorithm(this, function (x, a) { return x === a[0]; }, [str], "");
};
WhereClause.prototype.anyOfIgnoreCase = function () {
var set = getArrayOf.apply(NO_CHAR_ARRAY, arguments);
if (set.length === 0)
return emptyCollection(this);
return addIgnoreCaseAlgorithm(this, function (x, a) { return a.indexOf(x) !== -1; }, set, "");
};
WhereClause.prototype.startsWithAnyOfIgnoreCase = function () {
var set = getArrayOf.apply(NO_CHAR_ARRAY, arguments);
if (set.length === 0)
return emptyCollection(this);
return addIgnoreCaseAlgorithm(this, function (x, a) { return a.some(function (n) { return x.indexOf(n) === 0; }); }, set, maxString);
};
WhereClause.prototype.anyOf = function () {
var _this = this;
var set = getArrayOf.apply(NO_CHAR_ARRAY, arguments);
var compare = this._cmp;
try {
set.sort(compare);
}
catch (e) {
return fail(this, INVALID_KEY_ARGUMENT);
}
if (set.length === 0)
return emptyCollection(this);
var c = new this.Collection(this, function () { return createRange(set[0], set[set.length - 1]); });
c._ondirectionchange = function (direction) {
compare = (direction === "next" ?
_this._ascending :
_this._descending);
set.sort(compare);
};
var i = 0;
c._addAlgorithm(function (cursor, advance, resolve) {
var key = cursor.key;
while (compare(key, set[i]) > 0) {
++i;
if (i === set.length) {
advance(resolve);
return false;
}
}
if (compare(key, set[i]) === 0) {
return true;
}
else {
advance(function () { cursor.continue(set[i]); });
return false;
}
});
return c;
};
WhereClause.prototype.notEqual = function (value) {
return this.inAnyRange([[minKey, value], [value, this.db._maxKey]], { includeLowers: false, includeUppers: false });
};
WhereClause.prototype.noneOf = function () {
var set = getArrayOf.apply(NO_CHAR_ARRAY, arguments);
if (set.length === 0)
return new this.Collection(this);
try {
set.sort(this._ascending);
}
catch (e) {
return fail(this, INVALID_KEY_ARGUMENT);
}
var ranges = set.reduce(function (res, val) { return res ?
res.concat([[res[res.length - 1][1], val]]) :
[[minKey, val]]; }, null);
ranges.push([set[set.length - 1], this.db._maxKey]);
return this.inAnyRange(ranges, { includeLowers: false, includeUppers: false });
};
WhereClause.prototype.inAnyRange = function (ranges, options) {
var _this = this;
var cmp = this._cmp, ascending = this._ascending, descending = this._descending, min = this._min, max = this._max;
if (ranges.length === 0)
return emptyCollection(this);
if (!ranges.every(function (range) {
return range[0] !== undefined &&
range[1] !== undefined &&
ascending(range[0], range[1]) <= 0;
})) {
return fail(this, "First argument to inAnyRange() must be an Array of two-value Arrays [lower,upper] where upper must not be lower than lower", exceptions.InvalidArgument);
}
var includeLowers = !options || options.includeLowers !== false;
var includeUppers = options && options.includeUppers === true;
function addRange(ranges, newRange) {
var i = 0, l = ranges.length;
for (; i < l; ++i) {
var range = ranges[i];
if (cmp(newRange[0], range[1]) < 0 && cmp(newRange[1], range[0]) > 0) {
range[0] = min(range[0], newRange[0]);
range[1] = max(range[1], newRange[1]);
break;
}
}
if (i === l)
ranges.push(newRange);
return ranges;
}
var sortDirection = ascending;
function rangeSorter(a, b) { return sortDirection(a[0], b[0]); }
var set;
try {
set = ranges.reduce(addRange, []);
set.sort(rangeSorter);
}
catch (ex) {
return fail(this, INVALID_KEY_ARGUMENT);
}
var rangePos = 0;
var keyIsBeyondCurrentEntry = includeUppers ?
function (key) { return ascending(key, set[rangePos][1]) > 0; } :
function (key) { return ascending(key, set[rangePos][1]) >= 0; };
var keyIsBeforeCurrentEntry = includeLowers ?
function (key) { return descending(key, set[rangePos][0]) > 0; } :
function (key) { return descending(key, set[rangePos][0]) >= 0; };
function keyWithinCurrentRange(key) {
return !keyIsBeyondCurrentEntry(key) && !keyIsBeforeCurrentEntry(key);
}
var checkKey = keyIsBeyondCurrentEntry;
var c = new this.Collection(this, function () { return createRange(set[0][0], set[set.length - 1][1], !includeLowers, !includeUppers); });
c._ondirectionchange = function (direction) {
if (direction === "next") {
checkKey = keyIsBeyondCurrentEntry;
sortDirection = ascending;
}
else {
checkKey = keyIsBeforeCurrentEntry;
sortDirection = descending;
}
set.sort(rangeSorter);
};
c._addAlgorithm(function (cursor, advance, resolve) {
var key = cursor.key;
while (checkKey(key)) {
++rangePos;
if (rangePos === set.length) {
advance(resolve);
return false;
}
}
if (keyWithinCurrentRange(key)) {
return true;
}
else if (_this._cmp(key, set[rangePos][1]) === 0 || _this._cmp(key, set[rangePos][0]) === 0) {
return false;
}
else {
advance(function () {
if (sortDirection === ascending)
cursor.continue(set[rangePos][0]);
else
cursor.continue(set[rangePos][1]);
});
return false;
}
});
return c;
};
WhereClause.prototype.startsWithAnyOf = function () {
var set = getArrayOf.apply(NO_CHAR_ARRAY, arguments);
if (!set.every(function (s) { return typeof s === 'string'; })) {
return fail(this, "startsWithAnyOf() only works with strings");
}
if (set.length === 0)
return emptyCollection(this);
return this.inAnyRange(set.map(function (str) { return [str, str + maxString]; }));
};
return WhereClause;
}());
function createWhereClauseConstructor(db) {
return makeClassConstructor(WhereClause.prototype, function WhereClause$$1(table, index, orCollection) {
this.db = db;
this._ctx = {
table: table,
index: index === ":id" ? null : index,
or: orCollection
};
var indexedDB = db._deps.indexedDB;
if (!indexedDB)
throw new exceptions.MissingAPI("indexedDB API missing");
this._cmp = this._ascending = indexedDB.cmp.bind(indexedDB);
this._descending = function (a, b) { return indexedDB.cmp(b, a); };
this._max = function (a, b) { return indexedDB.cmp(a, b) > 0 ? a : b; };
this._min = function (a, b) { return indexedDB.cmp(a, b) < 0 ? a : b; };
this._IDBKeyRange = db._deps.IDBKeyRange;
});
}
function safariMultiStoreFix(storeNames) {
return storeNames.length === 1 ? storeNames[0] : storeNames;
}
function getMaxKey(IdbKeyRange) {
try {
IdbKeyRange.only([[]]);
return [[]];
}
catch (e) {
return maxString;
}
}
function eventRejectHandler(reject) {
return wrap(function (event) {
preventDefault(event);
reject(event.target.error);
return false;
});
}
function preventDefault(event) {
if (event.stopPropagation)
event.stopPropagation();
if (event.preventDefault)
event.preventDefault();
}
var Transaction = (function () {
function Transaction() {
}
Transaction.prototype._lock = function () {
assert(!PSD.global);
++this._reculock;
if (this._reculock === 1 && !PSD.global)
PSD.lockOwnerFor = this;
return this;
};
Transaction.prototype._unlock = function () {
assert(!PSD.global);
if (--this._reculock === 0) {
if (!PSD.global)
PSD.lockOwnerFor = null;
while (this._blockedFuncs.length > 0 && !this._locked()) {
var fnAndPSD = this._blockedFuncs.shift();
try {
usePSD(fnAndPSD[1], fnAndPSD[0]);
}
catch (e) { }
}
}
return this;
};
Transaction.prototype._locked = function () {
return this._reculock && PSD.lockOwnerFor !== this;
};
Transaction.prototype.create = function (idbtrans) {
var _this = this;
if (!this.mode)
return this;
var idbdb = this.db.idbdb;
var dbOpenError = this.db._state.dbOpenError;
assert(!this.idbtrans);
if (!idbtrans && !idbdb) {
switch (dbOpenError && dbOpenError.name) {
case "DatabaseClosedError":
throw new exceptions.DatabaseClosed(dbOpenError);
case "MissingAPIError":
throw new exceptions.MissingAPI(dbOpenError.message, dbOpenError);
default:
throw new exceptions.OpenFailed(dbOpenError);
}
}
if (!this.active)
throw new exceptions.TransactionInactive();
assert(this._completion._state === null);
idbtrans = this.idbtrans = idbtrans || idbdb.transaction(safariMultiStoreFix(this.storeNames), this.mode);
idbtrans.onerror = wrap(function (ev) {
preventDefault(ev);
_this._reject(idbtrans.error);
});
idbtrans.onabort = wrap(function (ev) {
preventDefault(ev);
_this.active && _this._reject(new exceptions.Abort(idbtrans.error));
_this.active = false;
_this.on("abort").fire(ev);
});
idbtrans.oncomplete = wrap(function () {
_this.active = false;
_this._resolve();
});
return this;
};
Transaction.prototype._promise = function (mode, fn, bWriteLock) {
var _this = this;
if (mode === 'readwrite' && this.mode !== 'readwrite')
return rejection(new exceptions.ReadOnly("Transaction is readonly"));
if (!this.active)
return rejection(new exceptions.TransactionInactive());
if (this._locked()) {
return new DexiePromise(function (resolve, reject) {
_this._blockedFuncs.push([function () {
_this._promise(mode, fn, bWriteLock).then(resolve, reject);
}, PSD]);
});
}
else if (bWriteLock) {
return newScope(function () {
var p = new DexiePromise(function (resolve, reject) {
_this._lock();
var rv = fn(resolve, reject, _this);
if (rv && rv.then)
rv.then(resolve, reject);
});
p.finally(function () { return _this._unlock(); });
p._lib = true;
return p;
});
}
else {
var p = new DexiePromise(function (resolve, reject) {
var rv = fn(resolve, reject, _this);
if (rv && rv.then)
rv.then(resolve, reject);
});
p._lib = true;
return p;
}
};
Transaction.prototype._root = function () {
return this.parent ? this.parent._root() : this;
};
Transaction.prototype.waitFor = function (promiseLike) {
var root = this._root();
var promise = DexiePromise.resolve(promiseLike);
if (root._waitingFor) {
root._waitingFor = root._waitingFor.then(function () { return promise; });
}
else {
root._waitingFor = promise;
root._waitingQueue = [];
var store = root.idbtrans.objectStore(root.storeNames[0]);
(function spin() {
++root._spinCount;
while (root._waitingQueue.length)
(root._waitingQueue.shift())();
if (root._waitingFor)
store.get(-Infinity).onsuccess = spin;
}());
}
var currentWaitPromise = root._waitingFor;
return new DexiePromise(function (resolve, reject) {
promise.then(function (res) { return root._waitingQueue.push(wrap(resolve.bind(null, res))); }, function (err) { return root._waitingQueue.push(wrap(reject.bind(null, err))); }).finally(function () {
if (root._waitingFor === currentWaitPromise) {
root._waitingFor = null;
}
});
});
};
Transaction.prototype.abort = function () {
this.active && this._reject(new exceptions.Abort());
this.active = false;
};
Transaction.prototype.table = function (tableName) {
var memoizedTables = (this._memoizedTables || (this._memoizedTables = {}));
if (hasOwn(memoizedTables, tableName))
return memoizedTables[tableName];
var tableSchema = this.schema[tableName];
if (!tableSchema) {
throw new exceptions.NotFound("Table " + tableName + " not part of transaction");
}
var transactionBoundTable = new this.db.Table(tableName, tableSchema, this);
transactionBoundTable.core = this.db.core.table(tableName);
memoizedTables[tableName] = transactionBoundTable;
return transactionBoundTable;
};
return Transaction;
}());
function createTransactionConstructor(db) {
return makeClassConstructor(Transaction.prototype, function Transaction$$1(mode, storeNames, dbschema, parent) {
var _this = this;
this.db = db;
this.mode = mode;
this.storeNames = storeNames;
this.schema = dbschema;
this.idbtrans = null;
this.on = Events(this, "complete", "error", "abort");
this.parent = parent || null;
this.active = true;
this._reculock = 0;
this._blockedFuncs = [];
this._resolve = null;
this._reject = null;
this._waitingFor = null;
this._waitingQueue = null;
this._spinCount = 0;
this._completion = new DexiePromise(function (resolve, reject) {
_this._resolve = resolve;
_this._reject = reject;
});
this._completion.then(function () {
_this.active = false;
_this.on.complete.fire();
}, function (e) {
var wasActive = _this.active;
_this.active = false;
_this.on.error.fire(e);
_this.parent ?
_this.parent._reject(e) :
wasActive && _this.idbtrans && _this.idbtrans.abort();
return rejection(e);
});
});
}
function createIndexSpec(name, keyPath, unique, multi, auto, compound, isPrimKey) {
return {
name: name,
keyPath: keyPath,
unique: unique,
multi: multi,
auto: auto,
compound: compound,
src: (unique && !isPrimKey ? '&' : '') + (multi ? '*' : '') + (auto ? "++" : "") + nameFromKeyPath(keyPath)
};
}
function nameFromKeyPath(keyPath) {
return typeof keyPath === 'string' ?
keyPath :
keyPath ? ('[' + [].join.call(keyPath, '+') + ']') : "";
}
function createTableSchema(name, primKey, indexes) {
return {
name: name,
primKey: primKey,
indexes: indexes,
mappedClass: null,
idxByName: arrayToObject(indexes, function (index) { return [index.name, index]; })
};
}
function getKeyExtractor(keyPath) {
if (keyPath == null) {
return function () { return undefined; };
}
else if (typeof keyPath === 'string') {
return getSinglePathKeyExtractor(keyPath);
}
else {
return function (obj) { return getByKeyPath(obj, keyPath); };
}
}
function getSinglePathKeyExtractor(keyPath) {
var split = keyPath.split('.');
if (split.length === 1) {
return function (obj) { return obj[keyPath]; };
}
else {
return function (obj) { return getByKeyPath(obj, keyPath); };
}
}
function getEffectiveKeys(primaryKey, req) {
if (req.type === 'delete')
return req.keys;
return req.keys || req.values.map(primaryKey.extractKey);
}
function getExistingValues(table, req, effectiveKeys) {
return req.type === 'add' ? Promise.resolve(new Array(req.values.length)) :
table.getMany({ trans: req.trans, keys: effectiveKeys });
}
function arrayify(arrayLike) {
return [].slice.call(arrayLike);
}
var _id_counter = 0;
function getKeyPathAlias(keyPath) {
return keyPath == null ?
":id" :
typeof keyPath === 'string' ?
keyPath :
"[" + keyPath.join('+') + "]";
}
function createDBCore(db, indexedDB, IdbKeyRange, tmpTrans) {
var cmp = indexedDB.cmp.bind(indexedDB);
function extractSchema(db, trans) {
var tables = arrayify(db.objectStoreNames);
return {
schema: {
name: db.name,
tables: tables.map(function (table) { return trans.objectStore(table); }).map(function (store) {
var keyPath = store.keyPath, autoIncrement = store.autoIncrement;
var compound = isArray(keyPath);
var outbound = keyPath == null;
var indexByKeyPath = {};
var result = {
name: store.name,
primaryKey: {
name: null,
isPrimaryKey: true,
outbound: outbound,
compound: compound,
keyPath: keyPath,
autoIncrement: autoIncrement,
unique: true,
extractKey: getKeyExtractor(keyPath)
},
indexes: arrayify(store.indexNames).map(function (indexName) { return store.index(indexName); })
.map(function (index) {
var name = index.name, unique = index.unique, multiEntry = index.multiEntry, keyPath = index.keyPath;
var compound = isArray(keyPath);
var result = {
name: name,
compound: compound,
keyPath: keyPath,
unique: unique,
multiEntry: multiEntry,
extractKey: getKeyExtractor(keyPath)
};
indexByKeyPath[getKeyPathAlias(keyPath)] = result;
return result;
}),
getIndexByKeyPath: function (keyPath) { return indexByKeyPath[getKeyPathAlias(keyPath)]; }
};
indexByKeyPath[":id"] = result.primaryKey;
if (keyPath != null) {
indexByKeyPath[getKeyPathAlias(keyPath)] = result.primaryKey;
}
return result;
})
},
hasGetAll: tables.length > 0 && ('getAll' in trans.objectStore(tables[0])) &&
!(typeof navigator !== 'undefined' && /Safari/.test(navigator.userAgent) &&
!/(Chrome\/|Edge\/)/.test(navigator.userAgent) &&
[].concat(navigator.userAgent.match(/Safari\/(\d*)/))[1] < 604)
};
}
function makeIDBKeyRange(range) {
if (range.type === 3 )
return null;
if (range.type === 4 )
throw new Error("Cannot convert never type to IDBKeyRange");
var lower = range.lower, upper = range.upper, lowerOpen = range.lowerOpen, upperOpen = range.upperOpen;
var idbRange = lower === undefined ?
upper === undefined ?
null :
IdbKeyRange.upperBound(upper, !!upperOpen) :
upper === undefined ?
IdbKeyRange.lowerBound(lower, !!lowerOpen) :
IdbKeyRange.bound(lower, upper, !!lowerOpen, !!upperOpen);
return idbRange;
}
function createDbCoreTable(tableSchema) {
var tableName = tableSchema.name;
function mutate(_a) {
var trans = _a.trans, type = _a.type, keys$$1 = _a.keys, values = _a.values, range = _a.range, wantResults = _a.wantResults;
return new Promise(function (resolve, reject) {
resolve = wrap(resolve);
var store = trans.objectStore(tableName);
var outbound = store.keyPath == null;
var isAddOrPut = type === "put" || type === "add";
if (!isAddOrPut && type !== 'delete' && type !== 'deleteRange')
throw new Error("Invalid operation type: " + type);
var length = (keys$$1 || values || { length: 1 }).length;
if (keys$$1 && values && keys$$1.length !== values.length) {
throw new Error("Given keys array must have same length as given values array.");
}
if (length === 0)
return resolve({ numFailures: 0, failures: {}, results: [], lastResult: undefined });
var results = wantResults && __spreadArrays((keys$$1 ?
keys$$1 :
getEffectiveKeys(tableSchema.primaryKey, { type: type, keys: keys$$1, values: values })));
var req;
var failures = [];
var numFailures = 0;
var errorHandler = function (event) {
++numFailures;
preventDefault(event);
if (results)
results[event.target._reqno] = undefined;
failures[event.target._reqno] = event.target.error;
};
var setResult = function (_a) {
var target = _a.target;
results[target._reqno] = target.result;
};
if (type === 'deleteRange') {
if (range.type === 4 )
return resolve({ numFailures: numFailures, failures: failures, results: results, lastResult: undefined });
if (range.type === 3 )
req = store.clear();
else
req = store.delete(makeIDBKeyRange(range));
}
else {
var _a = isAddOrPut ?
outbound ?
[values, keys$$1] :
[values, null] :
[keys$$1, null], args1 = _a[0], args2 = _a[1];
if (isAddOrPut) {
for (var i = 0; i < length; ++i) {
req = (args2 && args2[i] !== undefined ?
store[type](args1[i], args2[i]) :
store[type](args1[i]));
req._reqno = i;
if (results && results[i] === undefined) {
req.onsuccess = setResult;
}
req.onerror = errorHandler;
}
}
else {
for (var i = 0; i < length; ++i) {
req = store[type](args1[i]);
req._reqno = i;
req.onerror = errorHandler;
}
}
}
var done = function (event) {
var lastResult = event.target.result;
if (results)
results[length - 1] = lastResult;
resolve({
numFailures: numFailures,
failures: failures,
results: results,
lastResult: lastResult
});
};
req.onerror = function (event) {
errorHandler(event);
done(event);
};
req.onsuccess = done;
});
}
function openCursor(_a) {
var trans = _a.trans, values = _a.values, query = _a.query, reverse = _a.reverse, unique = _a.unique;
return new Promise(function (resolve, reject) {
resolve = wrap(resolve);
var index = query.index, range = query.range;
var store = trans.objectStore(tableName);
var source = index.isPrimaryKey ?
store :
store.index(index.name);
var direction = reverse ?
unique ?
"prevunique" :
"prev" :
unique ?
"nextunique" :
"next";
var req = values || !('openKeyCursor' in source) ?
source.openCursor(makeIDBKeyRange(range), direction) :
source.openKeyCursor(makeIDBKeyRange(range), direction);
req.onerror = eventRejectHandler(reject);
req.onsuccess = wrap(function (ev) {
var cursor = req.result;
if (!cursor) {
resolve(null);
return;
}
cursor.___id = ++_id_counter;
cursor.done = false;
var _cursorContinue = cursor.continue.bind(cursor);
var _cursorContinuePrimaryKey = cursor.continuePrimaryKey;
if (_cursorContinuePrimaryKey)
_cursorContinuePrimaryKey = _cursorContinuePrimaryKey.bind(cursor);
var _cursorAdvance = cursor.advance.bind(cursor);
var doThrowCursorIsNotStarted = function () { throw new Error("Cursor not started"); };
var doThrowCursorIsStopped = function () { throw new Error("Cursor not stopped"); };
cursor.trans = trans;
cursor.stop = cursor.continue = cursor.continuePrimaryKey = cursor.advance = doThrowCursorIsNotStarted;
cursor.fail = wrap(reject);
cursor.next = function () {
var _this = this;
var gotOne = 1;
return this.start(function () { return gotOne-- ? _this.continue() : _this.stop(); }).then(function () { return _this; });
};
cursor.start = function (callback) {
var iterationPromise = new Promise(function (resolveIteration, rejectIteration) {
resolveIteration = wrap(resolveIteration);
req.onerror = eventRejectHandler(rejectIteration);
cursor.fail = rejectIteration;
cursor.stop = function (value) {
cursor.stop = cursor.continue = cursor.continuePrimaryKey = cursor.advance = doThrowCursorIsStopped;
resolveIteration(value);
};
});
var guardedCallback = function () {
if (req.result) {
try {
callback();
}
catch (err) {
cursor.fail(err);
}
}
else {
cursor.done = true;
cursor.start = function () { throw new Error("Cursor behind last entry"); };
cursor.stop();
}
};
req.onsuccess = wrap(function (ev) {
req.onsuccess = guardedCallback;
guardedCallback();
});
cursor.continue = _cursorContinue;
cursor.continuePrimaryKey = _cursorContinuePrimaryKey;
cursor.advance = _cursorAdvance;
guardedCallback();
return iterationPromise;
};
resolve(cursor);
}, reject);
});
}
function query(hasGetAll) {
return function (request) {
return new Promise(function (resolve, reject) {
resolve = wrap(resolve);
var trans = request.trans, values = request.values, limit = request.limit, query = request.query;
var nonInfinitLimit = limit === Infinity ? undefined : limit;
var index = query.index, range = query.range;
var store = trans.objectStore(tableName);
var source = index.isPrimaryKey ? store : store.index(index.name);
var idbKeyRange = makeIDBKeyRange(range);
if (limit === 0)
return resolve({ result: [] });
if (hasGetAll) {
var req = values ?
source.getAll(idbKeyRange, nonInfinitLimit) :
source.getAllKeys(idbKeyRange, nonInfinitLimit);
req.onsuccess = function (event) { return resolve({ result: event.target.result }); };
req.onerror = eventRejectHandler(reject);
}
else {
var count_1 = 0;
var req_1 = values || !('openKeyCursor' in source) ?
source.openCursor(idbKeyRange) :
source.openKeyCursor(idbKeyRange);
var result_1 = [];
req_1.onsuccess = function (event) {
var cursor = req_1.result;
if (!cursor)
return resolve({ result: result_1 });
result_1.push(values ? cursor.value : cursor.primaryKey);
if (++count_1 === limit)
return resolve({ result: result_1 });
cursor.continue();
};
req_1.onerror = eventRejectHandler(reject);
}
});
};
}
return {
name: tableName,
schema: tableSchema,
mutate: mutate,
getMany: function (_a) {
var trans = _a.trans, keys$$1 = _a.keys;
return new Promise(function (resolve, reject) {
resolve = wrap(resolve);
var store = trans.objectStore(tableName);
var length = keys$$1.length;
var result = new Array(length);
var keyCount = 0;
var callbackCount = 0;
var req;
var successHandler = function (event) {
var req = event.target;
if ((result[req._pos] = req.result) != null)
;
if (++callbackCount === keyCount)
resolve(result);
};
var errorHandler = eventRejectHandler(reject);
for (var i = 0; i < length; ++i) {
var key = keys$$1[i];
if (key != null) {
req = store.get(keys$$1[i]);
req._pos = i;
req.onsuccess = successHandler;
req.onerror = errorHandler;
++keyCount;
}
}
if (keyCount === 0)
resolve(result);
});
},
get: function (_a) {
var trans = _a.trans, key = _a.key;
return new Promise(function (resolve, reject) {
resolve = wrap(resolve);
var store = trans.objectStore(tableName);
var req = store.get(key);
req.onsuccess = function (event) { return resolve(event.target.result); };
req.onerror = eventRejectHandler(reject);
});
},
query: query(hasGetAll),
openCursor: openCursor,
count: function (_a) {
var query = _a.query, trans = _a.trans;
var index = query.index, range = query.range;
return new Promise(function (resolve, reject) {
var store = trans.objectStore(tableName);
var source = index.isPrimaryKey ? store : store.index(index.name);
var idbKeyRange = makeIDBKeyRange(range);
var req = idbKeyRange ? source.count(idbKeyRange) : source.count();
req.onsuccess = wrap(function (ev) { return resolve(ev.target.result); });
req.onerror = eventRejectHandler(reject);
});
}
};
}
var _a = extractSchema(db, tmpTrans), schema = _a.schema, hasGetAll = _a.hasGetAll;
var tables = schema.tables.map(function (tableSchema) { return createDbCoreTable(tableSchema); });
var tableMap = {};
tables.forEach(function (table) { return tableMap[table.name] = table; });
return {
stack: "dbcore",
transaction: db.transaction.bind(db),
table: function (name) {
var result = tableMap[name];
if (!result)
throw new Error("Table '" + name + "' not found");
return tableMap[name];
},
cmp: cmp,
MIN_KEY: -Infinity,
MAX_KEY: getMaxKey(IdbKeyRange),
schema: schema
};
}
function createMiddlewareStack(stackImpl, middlewares) {
return middlewares.reduce(function (down, _a) {
var create = _a.create;
return (__assign(__assign({}, down), create(down)));
}, stackImpl);
}
function createMiddlewareStacks(middlewares, idbdb, _a, tmpTrans) {
var IDBKeyRange = _a.IDBKeyRange, indexedDB = _a.indexedDB;
var dbcore = createMiddlewareStack(createDBCore(idbdb, indexedDB, IDBKeyRange, tmpTrans), middlewares.dbcore);
return {
dbcore: dbcore
};
}
function generateMiddlewareStacks(db, tmpTrans) {
var idbdb = tmpTrans.db;
var stacks = createMiddlewareStacks(db._middlewares, idbdb, db._deps, tmpTrans);
db.core = stacks.dbcore;
db.tables.forEach(function (table) {
var tableName = table.name;
if (db.core.schema.tables.some(function (tbl) { return tbl.name === tableName; })) {
table.core = db.core.table(tableName);
if (db[tableName] instanceof db.Table) {
db[tableName].core = table.core;
}
}
});
}
function setApiOnPlace(db, objs, tableNames, dbschema) {
tableNames.forEach(function (tableName) {
var schema = dbschema[tableName];
objs.forEach(function (obj) {
if (!(tableName in obj)) {
if (obj === db.Transaction.prototype || obj instanceof db.Transaction) {
setProp(obj, tableName, {
get: function () { return this.table(tableName); },
set: function (value) {
defineProperty(this, tableName, { value: value, writable: true, configurable: true, enumerable: true });
}
});
}
else {
obj[tableName] = new db.Table(tableName, schema);
}
}
});
});
}
function removeTablesApi(db, objs) {
objs.forEach(function (obj) {
for (var key in obj) {
if (obj[key] instanceof db.Table)
delete obj[key];
}
});
}
function lowerVersionFirst(a, b) {
return a._cfg.version - b._cfg.version;
}
function runUpgraders(db, oldVersion, idbUpgradeTrans, reject) {
var globalSchema = db._dbSchema;
var trans = db._createTransaction('readwrite', db._storeNames, globalSchema);
trans.create(idbUpgradeTrans);
trans._completion.catch(reject);
var rejectTransaction = trans._reject.bind(trans);
var transless = PSD.transless || PSD;
newScope(function () {
PSD.trans = trans;
PSD.transless = transless;
if (oldVersion === 0) {
keys(globalSchema).forEach(function (tableName) {
createTable(idbUpgradeTrans, tableName, globalSchema[tableName].primKey, globalSchema[tableName].indexes);
});
generateMiddlewareStacks(db, idbUpgradeTrans);
DexiePromise.follow(function () { return db.on.populate.fire(trans); }).catch(rejectTransaction);
}
else
updateTablesAndIndexes(db, oldVersion, trans, idbUpgradeTrans).catch(rejectTransaction);
});
}
function updateTablesAndIndexes(db, oldVersion, trans, idbUpgradeTrans) {
var queue = [];
var versions = db._versions;
var globalSchema = db._dbSchema = buildGlobalSchema(db, db.idbdb, idbUpgradeTrans);
var anyContentUpgraderHasRun = false;
var versToRun = versions.filter(function (v) { return v._cfg.version >= oldVersion; });
versToRun.forEach(function (version) {
queue.push(function () {
var oldSchema = globalSchema;
var newSchema = version._cfg.dbschema;
adjustToExistingIndexNames(db, oldSchema, idbUpgradeTrans);
adjustToExistingIndexNames(db, newSchema, idbUpgradeTrans);
globalSchema = db._dbSchema = newSchema;
var diff = getSchemaDiff(oldSchema, newSchema);
diff.add.forEach(function (tuple) {
createTable(idbUpgradeTrans, tuple[0], tuple[1].primKey, tuple[1].indexes);
});
diff.change.forEach(function (change) {
if (change.recreate) {
throw new exceptions.Upgrade("Not yet support for changing primary key");
}
else {
var store_1 = idbUpgradeTrans.objectStore(change.name);
change.add.forEach(function (idx) { return addIndex(store_1, idx); });
change.change.forEach(function (idx) {
store_1.deleteIndex(idx.name);
addIndex(store_1, idx);
});
change.del.forEach(function (idxName) { return store_1.deleteIndex(idxName); });
}
});
var contentUpgrade = version._cfg.contentUpgrade;
if (contentUpgrade && version._cfg.version > oldVersion) {
generateMiddlewareStacks(db, idbUpgradeTrans);
anyContentUpgraderHasRun = true;
var upgradeSchema_1 = shallowClone(newSchema);
diff.del.forEach(function (table) {
upgradeSchema_1[table] = oldSchema[table];
});
removeTablesApi(db, [db.Transaction.prototype]);
setApiOnPlace(db, [db.Transaction.prototype], keys(upgradeSchema_1), upgradeSchema_1);
trans.schema = upgradeSchema_1;
var contentUpgradeIsAsync_1 = isAsyncFunction(contentUpgrade);
if (contentUpgradeIsAsync_1) {
incrementExpectedAwaits();
}
var returnValue_1;
var promiseFollowed = DexiePromise.follow(function () {
returnValue_1 = contentUpgrade(trans);
if (returnValue_1) {
if (contentUpgradeIsAsync_1) {
var decrementor = decrementExpectedAwaits.bind(null, null);
returnValue_1.then(decrementor, decrementor);
}
}
});
return (returnValue_1 && typeof returnValue_1.then === 'function' ?
DexiePromise.resolve(returnValue_1) : promiseFollowed.then(function () { return returnValue_1; }));
}
});
queue.push(function (idbtrans) {
if (!anyContentUpgraderHasRun || !hasIEDeleteObjectStoreBug) {
var newSchema = version._cfg.dbschema;
deleteRemovedTables(newSchema, idbtrans);
}
removeTablesApi(db, [db.Transaction.prototype]);
setApiOnPlace(db, [db.Transaction.prototype], db._storeNames, db._dbSchema);
trans.schema = db._dbSchema;
});
});
function runQueue() {
return queue.length ? DexiePromise.resolve(queue.shift()(trans.idbtrans)).then(runQueue) :
DexiePromise.resolve();
}
return runQueue().then(function () {
createMissingTables(globalSchema, idbUpgradeTrans);
});
}
function getSchemaDiff(oldSchema, newSchema) {
var diff = {
del: [],
add: [],
change: []
};
var table;
for (table in oldSchema) {
if (!newSchema[table])
diff.del.push(table);
}
for (table in newSchema) {
var oldDef = oldSchema[table], newDef = newSchema[table];
if (!oldDef) {
diff.add.push([table, newDef]);
}
else {
var change = {
name: table,
def: newDef,
recreate: false,
del: [],
add: [],
change: []
};
if (oldDef.primKey.src !== newDef.primKey.src &&
!isIEOrEdge
) {
change.recreate = true;
diff.change.push(change);
}
else {
var oldIndexes = oldDef.idxByName;
var newIndexes = newDef.idxByName;
var idxName = void 0;
for (idxName in oldIndexes) {
if (!newIndexes[idxName])
change.del.push(idxName);
}
for (idxName in newIndexes) {
var oldIdx = oldIndexes[idxName], newIdx = newIndexes[idxName];
if (!oldIdx)
change.add.push(newIdx);
else if (oldIdx.src !== newIdx.src)
change.change.push(newIdx);
}
if (change.del.length > 0 || change.add.length > 0 || change.change.length > 0) {
diff.change.push(change);
}
}
}
}
return diff;
}
function createTable(idbtrans, tableName, primKey, indexes) {
var store = idbtrans.db.createObjectStore(tableName, primKey.keyPath ?
{ keyPath: primKey.keyPath, autoIncrement: primKey.auto } :
{ autoIncrement: primKey.auto });
indexes.forEach(function (idx) { return addIndex(store, idx); });
return store;
}
function createMissingTables(newSchema, idbtrans) {
keys(newSchema).forEach(function (tableName) {
if (!idbtrans.db.objectStoreNames.contains(tableName)) {
createTable(idbtrans, tableName, newSchema[tableName].primKey, newSchema[tableName].indexes);
}
});
}
function deleteRemovedTables(newSchema, idbtrans) {
for (var i = 0; i < idbtrans.db.objectStoreNames.length; ++i) {
var storeName = idbtrans.db.objectStoreNames[i];
if (newSchema[storeName] == null) {
idbtrans.db.deleteObjectStore(storeName);
}
}
}
function addIndex(store, idx) {
store.createIndex(idx.name, idx.keyPath, { unique: idx.unique, multiEntry: idx.multi });
}
function buildGlobalSchema(db, idbdb, tmpTrans) {
var globalSchema = {};
var dbStoreNames = slice(idbdb.objectStoreNames, 0);
dbStoreNames.forEach(function (storeName) {
var store = tmpTrans.objectStore(storeName);
var keyPath = store.keyPath;
var primKey = createIndexSpec(nameFromKeyPath(keyPath), keyPath || "", false, false, !!store.autoIncrement, keyPath && typeof keyPath !== "string", true);
var indexes = [];
for (var j = 0; j < store.indexNames.length; ++j) {
var idbindex = store.index(store.indexNames[j]);
keyPath = idbindex.keyPath;
var index = createIndexSpec(idbindex.name, keyPath, !!idbindex.unique, !!idbindex.multiEntry, false, keyPath && typeof keyPath !== "string", false);
indexes.push(index);
}
globalSchema[storeName] = createTableSchema(storeName, primKey, indexes);
});
return globalSchema;
}
function readGlobalSchema(db, idbdb, tmpTrans) {
db.verno = idbdb.version / 10;
var globalSchema = db._dbSchema = buildGlobalSchema(db, idbdb, tmpTrans);
db._storeNames = slice(idbdb.objectStoreNames, 0);
setApiOnPlace(db, [db._allTables], keys(globalSchema), globalSchema);
}
function adjustToExistingIndexNames(db, schema, idbtrans) {
var storeNames = idbtrans.db.objectStoreNames;
for (var i = 0; i < storeNames.length; ++i) {
var storeName = storeNames[i];
var store = idbtrans.objectStore(storeName);
db._hasGetAll = 'getAll' in store;
for (var j = 0; j < store.indexNames.length; ++j) {
var indexName = store.indexNames[j];
var keyPath = store.index(indexName).keyPath;
var dexieName = typeof keyPath === 'string' ? keyPath : "[" + slice(keyPath).join('+') + "]";
if (schema[storeName]) {
var indexSpec = schema[storeName].idxByName[dexieName];
if (indexSpec) {
indexSpec.name = indexName;
delete schema[storeName].idxByName[dexieName];
schema[storeName].idxByName[indexName] = indexSpec;
}
}
}
}
if (typeof navigator !== 'undefined' && /Safari/.test(navigator.userAgent) &&
!/(Chrome\/|Edge\/)/.test(navigator.userAgent) &&
_global.WorkerGlobalScope && _global instanceof _global.WorkerGlobalScope &&
[].concat(navigator.userAgent.match(/Safari\/(\d*)/))[1] < 604) {
db._hasGetAll = false;
}
}
function parseIndexSyntax(primKeyAndIndexes) {
return primKeyAndIndexes.split(',').map(function (index, indexNum) {
index = index.trim();
var name = index.replace(/([&*]|\+\+)/g, "");
var keyPath = /^\[/.test(name) ? name.match(/^\[(.*)\]$/)[1].split('+') : name;
return createIndexSpec(name, keyPath || null, /\&/.test(index), /\*/.test(index), /\+\+/.test(index), isArray(keyPath), indexNum === 0);
});
}
var Version = (function () {
function Version() {
}
Version.prototype._parseStoresSpec = function (stores, outSchema) {
keys(stores).forEach(function (tableName) {
if (stores[tableName] !== null) {
var indexes = parseIndexSyntax(stores[tableName]);
var primKey = indexes.shift();
if (primKey.multi)
throw new exceptions.Schema("Primary key cannot be multi-valued");
indexes.forEach(function (idx) {
if (idx.auto)
throw new exceptions.Schema("Only primary key can be marked as autoIncrement (++)");
if (!idx.keyPath)
throw new exceptions.Schema("Index must have a name and cannot be an empty string");
});
outSchema[tableName] = createTableSchema(tableName, primKey, indexes);
}
});
};
Version.prototype.stores = function (stores) {
var db = this.db;
this._cfg.storesSource = this._cfg.storesSource ?
extend(this._cfg.storesSource, stores) :
stores;
var versions = db._versions;
var storesSpec = {};
var dbschema = {};
versions.forEach(function (version) {
extend(storesSpec, version._cfg.storesSource);
dbschema = (version._cfg.dbschema = {});
version._parseStoresSpec(storesSpec, dbschema);
});
db._dbSchema = dbschema;
removeTablesApi(db, [db._allTables, db, db.Transaction.prototype]);
setApiOnPlace(db, [db._allTables, db, db.Transaction.prototype, this._cfg.tables], keys(dbschema), dbschema);
db._storeNames = keys(dbschema);
return this;
};
Version.prototype.upgrade = function (upgradeFunction) {
this._cfg.contentUpgrade = upgradeFunction;
return this;
};
return Version;
}());
function createVersionConstructor(db) {
return makeClassConstructor(Version.prototype, function Version$$1(versionNumber) {
this.db = db;
this._cfg = {
version: versionNumber,
storesSource: null,
dbschema: {},
tables: {},
contentUpgrade: null
};
});
}
var databaseEnumerator;
function DatabaseEnumerator(indexedDB) {
var hasDatabasesNative = indexedDB && typeof indexedDB.databases === 'function';
var dbNamesTable;
if (!hasDatabasesNative) {
var db = new Dexie(DBNAMES_DB, { addons: [] });
db.version(1).stores({ dbnames: 'name' });
dbNamesTable = db.table('dbnames');
}
return {
getDatabaseNames: function () {
return hasDatabasesNative
?
DexiePromise.resolve(indexedDB.databases()).then(function (infos) { return infos
.map(function (info) { return info.name; })
.filter(function (name) { return name !== DBNAMES_DB; }); })
:
dbNamesTable.toCollection().primaryKeys();
},
add: function (name) {
return !hasDatabasesNative && name !== DBNAMES_DB && dbNamesTable.put({ name: name }).catch(nop);
},
remove: function (name) {
return !hasDatabasesNative && name !== DBNAMES_DB && dbNamesTable.delete(name).catch(nop);
}
};
}
function initDatabaseEnumerator(indexedDB) {
try {
databaseEnumerator = DatabaseEnumerator(indexedDB);
}
catch (e) { }
}
function vip(fn) {
return newScope(function () {
PSD.letThrough = true;
return fn();
});
}
function dexieOpen(db) {
var state = db._state;
var indexedDB = db._deps.indexedDB;
if (state.isBeingOpened || db.idbdb)
return state.dbReadyPromise.then(function () { return state.dbOpenError ?
rejection(state.dbOpenError) :
db; });
debug && (state.openCanceller._stackHolder = getErrorWithStack());
state.isBeingOpened = true;
state.dbOpenError = null;
state.openComplete = false;
var resolveDbReady = state.dbReadyResolve,
upgradeTransaction = null;
return DexiePromise.race([state.openCanceller, new DexiePromise(function (resolve, reject) {
if (!indexedDB)
throw new exceptions.MissingAPI("indexedDB API not found. If using IE10+, make sure to run your code on a server URL " +
"(not locally). If using old Safari versions, make sure to include indexedDB polyfill.");
var dbName = db.name;
var req = state.autoSchema ?
indexedDB.open(dbName) :
indexedDB.open(dbName, Math.round(db.verno * 10));
if (!req)
throw new exceptions.MissingAPI("IndexedDB API not available");
req.onerror = eventRejectHandler(reject);
req.onblocked = wrap(db._fireOnBlocked);
req.onupgradeneeded = wrap(function (e) {
upgradeTransaction = req.transaction;
if (state.autoSchema && !db._options.allowEmptyDB) {
req.onerror = preventDefault;
upgradeTransaction.abort();
req.result.close();
var delreq = indexedDB.deleteDatabase(dbName);
delreq.onsuccess = delreq.onerror = wrap(function () {
reject(new exceptions.NoSuchDatabase("Database " + dbName + " doesnt exist"));
});
}
else {
upgradeTransaction.onerror = eventRejectHandler(reject);
var oldVer = e.oldVersion > Math.pow(2, 62) ? 0 : e.oldVersion;
db.idbdb = req.result;
runUpgraders(db, oldVer / 10, upgradeTransaction, reject);
}
}, reject);
req.onsuccess = wrap(function () {
upgradeTransaction = null;
var idbdb = db.idbdb = req.result;
var objectStoreNames = slice(idbdb.objectStoreNames);
if (objectStoreNames.length > 0)
try {
var tmpTrans = idbdb.transaction(safariMultiStoreFix(objectStoreNames), 'readonly');
if (state.autoSchema)
readGlobalSchema(db, idbdb, tmpTrans);
else
adjustToExistingIndexNames(db, db._dbSchema, tmpTrans);
generateMiddlewareStacks(db, tmpTrans);
}
catch (e) {
}
connections.push(db);
idbdb.onversionchange = wrap(function (ev) {
state.vcFired = true;
db.on("versionchange").fire(ev);
});
databaseEnumerator.add(dbName);
resolve();
}, reject);
})]).then(function () {
state.onReadyBeingFired = [];
return DexiePromise.resolve(vip(db.on.ready.fire)).then(function fireRemainders() {
if (state.onReadyBeingFired.length > 0) {
var remainders = state.onReadyBeingFired.reduce(promisableChain, nop);
state.onReadyBeingFired = [];
return DexiePromise.resolve(vip(remainders)).then(fireRemainders);
}
});
}).finally(function () {
state.onReadyBeingFired = null;
}).then(function () {
state.isBeingOpened = false;
return db;
}).catch(function (err) {
try {
upgradeTransaction && upgradeTransaction.abort();
}
catch (e) { }
state.isBeingOpened = false;
db.close();
state.dbOpenError = err;
return rejection(state.dbOpenError);
}).finally(function () {
state.openComplete = true;
resolveDbReady();
});
}
function awaitIterator(iterator) {
var callNext = function (result) { return iterator.next(result); }, doThrow = function (error) { return iterator.throw(error); }, onSuccess = step(callNext), onError = step(doThrow);
function step(getNext) {
return function (val) {
var next = getNext(val), value = next.value;
return next.done ? value :
(!value || typeof value.then !== 'function' ?
isArray(value) ? Promise.all(value).then(onSuccess, onError) : onSuccess(value) :
value.then(onSuccess, onError));
};
}
return step(callNext)();
}
function extractTransactionArgs(mode, _tableArgs_, scopeFunc) {
var i = arguments.length;
if (i < 2)
throw new exceptions.InvalidArgument("Too few arguments");
var args = new Array(i - 1);
while (--i)
args[i - 1] = arguments[i];
scopeFunc = args.pop();
var tables = flatten(args);
return [mode, tables, scopeFunc];
}
function enterTransactionScope(db, mode, storeNames, parentTransaction, scopeFunc) {
return DexiePromise.resolve().then(function () {
var transless = PSD.transless || PSD;
var trans = db._createTransaction(mode, storeNames, db._dbSchema, parentTransaction);
var zoneProps = {
trans: trans,
transless: transless
};
if (parentTransaction) {
trans.idbtrans = parentTransaction.idbtrans;
}
else {
trans.create();
}
var scopeFuncIsAsync = isAsyncFunction(scopeFunc);
if (scopeFuncIsAsync) {
incrementExpectedAwaits();
}
var returnValue;
var promiseFollowed = DexiePromise.follow(function () {
returnValue = scopeFunc.call(trans, trans);
if (returnValue) {
if (scopeFuncIsAsync) {
var decrementor = decrementExpectedAwaits.bind(null, null);
returnValue.then(decrementor, decrementor);
}
else if (typeof returnValue.next === 'function' && typeof returnValue.throw === 'function') {
returnValue = awaitIterator(returnValue);
}
}
}, zoneProps);
return (returnValue && typeof returnValue.then === 'function' ?
DexiePromise.resolve(returnValue).then(function (x) { return trans.active ?
x
: rejection(new exceptions.PrematureCommit("Transaction committed too early. See http://bit.ly/2kdckMn")); })
: promiseFollowed.then(function () { return returnValue; })).then(function (x) {
if (parentTransaction)
trans._resolve();
return trans._completion.then(function () { return x; });
}).catch(function (e) {
trans._reject(e);
return rejection(e);
});
});
}
function pad(a, value, count) {
var result = isArray(a) ? a.slice() : [a];
for (var i = 0; i < count; ++i)
result.push(value);
return result;
}
function createVirtualIndexMiddleware(down) {
return __assign(__assign({}, down), { table: function (tableName) {
var table = down.table(tableName);
var schema = table.schema;
var indexLookup = {};
var allVirtualIndexes = [];
function addVirtualIndexes(keyPath, keyTail, lowLevelIndex) {
var keyPathAlias = getKeyPathAlias(keyPath);
var indexList = (indexLookup[keyPathAlias] = indexLookup[keyPathAlias] || []);
var keyLength = keyPath == null ? 0 : typeof keyPath === 'string' ? 1 : keyPath.length;
var isVirtual = keyTail > 0;
var virtualIndex = __assign(__assign({}, lowLevelIndex), { isVirtual: isVirtual, isPrimaryKey: !isVirtual && lowLevelIndex.isPrimaryKey, keyTail: keyTail,
keyLength: keyLength, extractKey: getKeyExtractor(keyPath), unique: !isVirtual && lowLevelIndex.unique });
indexList.push(virtualIndex);
if (!virtualIndex.isPrimaryKey) {
allVirtualIndexes.push(virtualIndex);
}
if (keyLength > 1) {
var virtualKeyPath = keyLength === 2 ?
keyPath[0] :
keyPath.slice(0, keyLength - 1);
addVirtualIndexes(virtualKeyPath, keyTail + 1, lowLevelIndex);
}
indexList.sort(function (a, b) { return a.keyTail - b.keyTail; });
return virtualIndex;
}
var primaryKey = addVirtualIndexes(schema.primaryKey.keyPath, 0, schema.primaryKey);
indexLookup[":id"] = [primaryKey];
for (var _i = 0, _a = schema.indexes; _i < _a.length; _i++) {
var index = _a[_i];
addVirtualIndexes(index.keyPath, 0, index);
}
function findBestIndex(keyPath) {
var result = indexLookup[getKeyPathAlias(keyPath)];
return result && result[0];
}
function translateRange(range, keyTail) {
return {
type: range.type === 1 ?
2 :
range.type,
lower: pad(range.lower, range.lowerOpen ? down.MAX_KEY : down.MIN_KEY, keyTail),
lowerOpen: true,
upper: pad(range.upper, range.upperOpen ? down.MIN_KEY : down.MAX_KEY, keyTail),
upperOpen: true
};
}
function translateRequest(req) {
var index = req.query.index;
return index.isVirtual ? __assign(__assign({}, req), { query: {
index: index,
range: translateRange(req.query.range, index.keyTail)
} }) : req;
}
var result = __assign(__assign({}, table), { schema: __assign(__assign({}, schema), { primaryKey: primaryKey, indexes: allVirtualIndexes, getIndexByKeyPath: findBestIndex }), count: function (req) {
return table.count(translateRequest(req));
},
query: function (req) {
return table.query(translateRequest(req));
},
openCursor: function (req) {
var _a = req.query.index, keyTail = _a.keyTail, isVirtual = _a.isVirtual, keyLength = _a.keyLength;
if (!isVirtual)
return table.openCursor(req);
function createVirtualCursor(cursor) {
function _continue(key) {
key != null ?
cursor.continue(pad(key, req.reverse ? down.MAX_KEY : down.MIN_KEY, keyTail)) :
req.unique ?
cursor.continue(pad(cursor.key, req.reverse ? down.MIN_KEY : down.MAX_KEY, keyTail)) :
cursor.continue();
}
var virtualCursor = Object.create(cursor, {
continue: { value: _continue },
continuePrimaryKey: {
value: function (key, primaryKey) {
cursor.continuePrimaryKey(pad(key, down.MAX_KEY, keyTail), primaryKey);
}
},
key: {
get: function () {
var key = cursor.key;
return keyLength === 1 ?
key[0] :
key.slice(0, keyLength);
}
},
value: {
get: function () {
return cursor.value;
}
}
});
return virtualCursor;
}
return table.openCursor(translateRequest(req))
.then(function (cursor) { return cursor && createVirtualCursor(cursor); });
} });
return result;
} });
}
var virtualIndexMiddleware = {
stack: "dbcore",
name: "VirtualIndexMiddleware",
level: 1,
create: createVirtualIndexMiddleware
};
var hooksMiddleware = {
stack: "dbcore",
name: "HooksMiddleware",
level: 2,
create: function (downCore) { return (__assign(__assign({}, downCore), { table: function (tableName) {
var downTable = downCore.table(tableName);
var primaryKey = downTable.schema.primaryKey;
var tableMiddleware = __assign(__assign({}, downTable), { mutate: function (req) {
var dxTrans = PSD.trans;
var _a = dxTrans.table(tableName).hook, deleting = _a.deleting, creating = _a.creating, updating = _a.updating;
switch (req.type) {
case 'add':
if (creating.fire === nop)
break;
return dxTrans._promise('readwrite', function () { return addPutOrDelete(req); }, true);
case 'put':
if (creating.fire === nop && updating.fire === nop)
break;
return dxTrans._promise('readwrite', function () { return addPutOrDelete(req); }, true);
case 'delete':
if (deleting.fire === nop)
break;
return dxTrans._promise('readwrite', function () { return addPutOrDelete(req); }, true);
case 'deleteRange':
if (deleting.fire === nop)
break;
return dxTrans._promise('readwrite', function () { return deleteRange(req); }, true);
}
return downTable.mutate(req);
function addPutOrDelete(req) {
var dxTrans = PSD.trans;
var keys$$1 = req.keys || getEffectiveKeys(primaryKey, req);
if (!keys$$1)
throw new Error("Keys missing");
req = req.type === 'add' || req.type === 'put' ? __assign(__assign({}, req), { keys: keys$$1, wantResults: true }) :
__assign({}, req);
if (req.type !== 'delete')
req.values = __spreadArrays(req.values);
if (req.keys)
req.keys = __spreadArrays(req.keys);
return getExistingValues(downTable, req, keys$$1).then(function (existingValues) {
var contexts = keys$$1.map(function (key, i) {
var existingValue = existingValues[i];
var ctx = { onerror: null, onsuccess: null };
if (req.type === 'delete') {
deleting.fire.call(ctx, key, existingValue, dxTrans);
}
else if (req.type === 'add' || existingValue === undefined) {
var generatedPrimaryKey = creating.fire.call(ctx, key, req.values[i], dxTrans);
if (key == null && generatedPrimaryKey != null) {
key = generatedPrimaryKey;
req.keys[i] = key;
if (!primaryKey.outbound) {
setByKeyPath(req.values[i], primaryKey.keyPath, key);
}
}
}
else {
var objectDiff = getObjectDiff(existingValue, req.values[i]);
var additionalChanges_1 = updating.fire.call(ctx, objectDiff, key, existingValue, dxTrans);
if (additionalChanges_1) {
var requestedValue_1 = req.values[i];
Object.keys(additionalChanges_1).forEach(function (keyPath) {
setByKeyPath(requestedValue_1, keyPath, additionalChanges_1[keyPath]);
});
}
}
return ctx;
});
return downTable.mutate(req).then(function (_a) {
var failures = _a.failures, results = _a.results, numFailures = _a.numFailures, lastResult = _a.lastResult;
for (var i = 0; i < keys$$1.length; ++i) {
var primKey = results ? results[i] : keys$$1[i];
var ctx = contexts[i];
if (primKey == null) {
ctx.onerror && ctx.onerror(failures[i]);
}
else {
ctx.onsuccess && ctx.onsuccess(req.type === 'put' && existingValues[i] ?
req.values[i] :
primKey
);
}
}
return { failures: failures, results: results, numFailures: numFailures, lastResult: lastResult };
}).catch(function (error) {
contexts.forEach(function (ctx) { return ctx.onerror && ctx.onerror(error); });
return Promise.reject(error);
});
});
}
function deleteRange(req) {
return deleteNextChunk(req.trans, req.range, 10000);
}
function deleteNextChunk(trans, range, limit) {
return downTable.query({ trans: trans, values: false, query: { index: primaryKey, range: range }, limit: limit })
.then(function (_a) {
var result = _a.result;
return addPutOrDelete({ type: 'delete', keys: result, trans: trans }).then(function (res) {
if (res.numFailures > 0)
return Promise.reject(res.failures[0]);
if (result.length < limit) {
return { failures: [], numFailures: 0, lastResult: undefined };
}
else {
return deleteNextChunk(trans, __assign(__assign({}, range), { lower: result[result.length - 1], lowerOpen: true }), limit);
}
});
});
}
} });
return tableMiddleware;
} })); }
};
var Dexie = (function () {
function Dexie(name, options) {
var _this = this;
this._middlewares = {};
this.verno = 0;
var deps = Dexie.dependencies;
this._options = options = __assign({
addons: Dexie.addons, autoOpen: true,
indexedDB: deps.indexedDB, IDBKeyRange: deps.IDBKeyRange }, options);
this._deps = {
indexedDB: options.indexedDB,
IDBKeyRange: options.IDBKeyRange
};
var addons = options.addons;
this._dbSchema = {};
this._versions = [];
this._storeNames = [];
this._allTables = {};
this.idbdb = null;
var state = {
dbOpenError: null,
isBeingOpened: false,
onReadyBeingFired: null,
openComplete: false,
dbReadyResolve: nop,
dbReadyPromise: null,
cancelOpen: nop,
openCanceller: null,
autoSchema: true
};
state.dbReadyPromise = new DexiePromise(function (resolve) {
state.dbReadyResolve = resolve;
});
state.openCanceller = new DexiePromise(function (_, reject) {
state.cancelOpen = reject;
});
this._state = state;
this.name = name;
this.on = Events(this, "populate", "blocked", "versionchange", { ready: [promisableChain, nop] });
this.on.ready.subscribe = override(this.on.ready.subscribe, function (subscribe) {
return function (subscriber, bSticky) {
Dexie.vip(function () {
var state = _this._state;
if (state.openComplete) {
if (!state.dbOpenError)
DexiePromise.resolve().then(subscriber);
if (bSticky)
subscribe(subscriber);
}
else if (state.onReadyBeingFired) {
state.onReadyBeingFired.push(subscriber);
if (bSticky)
subscribe(subscriber);
}
else {
subscribe(subscriber);
var db_1 = _this;
if (!bSticky)
subscribe(function unsubscribe() {
db_1.on.ready.unsubscribe(subscriber);
db_1.on.ready.unsubscribe(unsubscribe);
});
}
});
};
});
this.Collection = createCollectionConstructor(this);
this.Table = createTableConstructor(this);
this.Transaction = createTransactionConstructor(this);
this.Version = createVersionConstructor(this);
this.WhereClause = createWhereClauseConstructor(this);
this.on("versionchange", function (ev) {
if (ev.newVersion > 0)
console.warn("Another connection wants to upgrade database '" + _this.name + "'. Closing db now to resume the upgrade.");
else
console.warn("Another connection wants to delete database '" + _this.name + "'. Closing db now to resume the delete request.");
_this.close();
});
this.on("blocked", function (ev) {
if (!ev.newVersion || ev.newVersion < ev.oldVersion)
console.warn("Dexie.delete('" + _this.name + "') was blocked");
else
console.warn("Upgrade '" + _this.name + "' blocked by other connection holding version " + ev.oldVersion / 10);
});
this._maxKey = getMaxKey(options.IDBKeyRange);
this._createTransaction = function (mode, storeNames, dbschema, parentTransaction) { return new _this.Transaction(mode, storeNames, dbschema, parentTransaction); };
this._fireOnBlocked = function (ev) {
_this.on("blocked").fire(ev);
connections
.filter(function (c) { return c.name === _this.name && c !== _this && !c._state.vcFired; })
.map(function (c) { return c.on("versionchange").fire(ev); });
};
this.use(virtualIndexMiddleware);
this.use(hooksMiddleware);
addons.forEach(function (addon) { return addon(_this); });
}
Dexie.prototype.version = function (versionNumber) {
if (isNaN(versionNumber) || versionNumber < 0.1)
throw new exceptions.Type("Given version is not a positive number");
versionNumber = Math.round(versionNumber * 10) / 10;
if (this.idbdb || this._state.isBeingOpened)
throw new exceptions.Schema("Cannot add version when database is open");
this.verno = Math.max(this.verno, versionNumber);
var versions = this._versions;
var versionInstance = versions.filter(function (v) { return v._cfg.version === versionNumber; })[0];
if (versionInstance)
return versionInstance;
versionInstance = new this.Version(versionNumber);
versions.push(versionInstance);
versions.sort(lowerVersionFirst);
versionInstance.stores({});
this._state.autoSchema = false;
return versionInstance;
};
Dexie.prototype._whenReady = function (fn) {
var _this = this;
return this._state.openComplete || PSD.letThrough ? fn() : new DexiePromise(function (resolve, reject) {
if (!_this._state.isBeingOpened) {
if (!_this._options.autoOpen) {
reject(new exceptions.DatabaseClosed());
return;
}
_this.open().catch(nop);
}
_this._state.dbReadyPromise.then(resolve, reject);
}).then(fn);
};
Dexie.prototype.use = function (_a) {
var stack = _a.stack, create = _a.create, level = _a.level, name = _a.name;
if (name)
this.unuse({ stack: stack, name: name });
var middlewares = this._middlewares[stack] || (this._middlewares[stack] = []);
middlewares.push({ stack: stack, create: create, level: level == null ? 10 : level, name: name });
middlewares.sort(function (a, b) { return a.level - b.level; });
return this;
};
Dexie.prototype.unuse = function (_a) {
var stack = _a.stack, name = _a.name, create = _a.create;
if (stack && this._middlewares[stack]) {
this._middlewares[stack] = this._middlewares[stack].filter(function (mw) {
return create ? mw.create !== create :
name ? mw.name !== name :
false;
});
}
return this;
};
Dexie.prototype.open = function () {
return dexieOpen(this);
};
Dexie.prototype.close = function () {
var idx = connections.indexOf(this), state = this._state;
if (idx >= 0)
connections.splice(idx, 1);
if (this.idbdb) {
try {
this.idbdb.close();
}
catch (e) { }
this.idbdb = null;
}
this._options.autoOpen = false;
state.dbOpenError = new exceptions.DatabaseClosed();
if (state.isBeingOpened)
state.cancelOpen(state.dbOpenError);
state.dbReadyPromise = new DexiePromise(function (resolve) {
state.dbReadyResolve = resolve;
});
state.openCanceller = new DexiePromise(function (_, reject) {
state.cancelOpen = reject;
});
};
Dexie.prototype.delete = function () {
var _this = this;
var hasArguments = arguments.length > 0;
var state = this._state;
return new DexiePromise(function (resolve, reject) {
var doDelete = function () {
_this.close();
var req = _this._deps.indexedDB.deleteDatabase(_this.name);
req.onsuccess = wrap(function () {
databaseEnumerator.remove(_this.name);
resolve();
});
req.onerror = eventRejectHandler(reject);
req.onblocked = _this._fireOnBlocked;
};
if (hasArguments)
throw new exceptions.InvalidArgument("Arguments not allowed in db.delete()");
if (state.isBeingOpened) {
state.dbReadyPromise.then(doDelete);
}
else {
doDelete();
}
});
};
Dexie.prototype.backendDB = function () {
return this.idbdb;
};
Dexie.prototype.isOpen = function () {
return this.idbdb !== null;
};
Dexie.prototype.hasBeenClosed = function () {
var dbOpenError = this._state.dbOpenError;
return dbOpenError && (dbOpenError.name === 'DatabaseClosed');
};
Dexie.prototype.hasFailed = function () {
return this._state.dbOpenError !== null;
};
Dexie.prototype.dynamicallyOpened = function () {
return this._state.autoSchema;
};
Object.defineProperty(Dexie.prototype, "tables", {
get: function () {
var _this = this;
return keys(this._allTables).map(function (name) { return _this._allTables[name]; });
},
enumerable: true,
configurable: true
});
Dexie.prototype.transaction = function () {
var args = extractTransactionArgs.apply(this, arguments);
return this._transaction.apply(this, args);
};
Dexie.prototype._transaction = function (mode, tables, scopeFunc) {
var _this = this;
var parentTransaction = PSD.trans;
if (!parentTransaction || parentTransaction.db !== this || mode.indexOf('!') !== -1)
parentTransaction = null;
var onlyIfCompatible = mode.indexOf('?') !== -1;
mode = mode.replace('!', '').replace('?', '');
var idbMode, storeNames;
try {
storeNames = tables.map(function (table) {
var storeName = table instanceof _this.Table ? table.name : table;
if (typeof storeName !== 'string')
throw new TypeError("Invalid table argument to Dexie.transaction(). Only Table or String are allowed");
return storeName;
});
if (mode == "r" || mode === READONLY)
idbMode = READONLY;
else if (mode == "rw" || mode == READWRITE)
idbMode = READWRITE;
else
throw new exceptions.InvalidArgument("Invalid transaction mode: " + mode);
if (parentTransaction) {
if (parentTransaction.mode === READONLY && idbMode === READWRITE) {
if (onlyIfCompatible) {
parentTransaction = null;
}
else
throw new exceptions.SubTransaction("Cannot enter a sub-transaction with READWRITE mode when parent transaction is READONLY");
}
if (parentTransaction) {
storeNames.forEach(function (storeName) {
if (parentTransaction && parentTransaction.storeNames.indexOf(storeName) === -1) {
if (onlyIfCompatible) {
parentTransaction = null;
}
else
throw new exceptions.SubTransaction("Table " + storeName +
" not included in parent transaction.");
}
});
}
if (onlyIfCompatible && parentTransaction && !parentTransaction.active) {
parentTransaction = null;
}
}
}
catch (e) {
return parentTransaction ?
parentTransaction._promise(null, function (_, reject) { reject(e); }) :
rejection(e);
}
var enterTransaction = enterTransactionScope.bind(null, this, idbMode, storeNames, parentTransaction, scopeFunc);
return (parentTransaction ?
parentTransaction._promise(idbMode, enterTransaction, "lock") :
PSD.trans ?
usePSD(PSD.transless, function () { return _this._whenReady(enterTransaction); }) :
this._whenReady(enterTransaction));
};
Dexie.prototype.table = function (tableName) {
if (!hasOwn(this._allTables, tableName)) {
throw new exceptions.InvalidTable("Table " + tableName + " does not exist");
}
return this._allTables[tableName];
};
return Dexie;
}());
var Dexie$1 = Dexie;
props(Dexie$1, __assign(__assign({}, fullNameExceptions), {
delete: function (databaseName) {
var db = new Dexie$1(databaseName);
return db.delete();
},
exists: function (name) {
return new Dexie$1(name, { addons: [] }).open().then(function (db) {
db.close();
return true;
}).catch('NoSuchDatabaseError', function () { return false; });
},
getDatabaseNames: function (cb) {
return databaseEnumerator ?
databaseEnumerator.getDatabaseNames().then(cb) :
DexiePromise.resolve([]);
},
defineClass: function () {
function Class(content) {
extend(this, content);
}
return Class;
},
ignoreTransaction: function (scopeFunc) {
return PSD.trans ?
usePSD(PSD.transless, scopeFunc) :
scopeFunc();
},
vip: vip, async: function (generatorFn) {
return function () {
try {
var rv = awaitIterator(generatorFn.apply(this, arguments));
if (!rv || typeof rv.then !== 'function')
return DexiePromise.resolve(rv);
return rv;
}
catch (e) {
return rejection(e);
}
};
}, spawn: function (generatorFn, args, thiz) {
try {
var rv = awaitIterator(generatorFn.apply(thiz, args || []));
if (!rv || typeof rv.then !== 'function')
return DexiePromise.resolve(rv);
return rv;
}
catch (e) {
return rejection(e);
}
},
currentTransaction: {
get: function () { return PSD.trans || null; }
}, waitFor: function (promiseOrFunction, optionalTimeout) {
var promise = DexiePromise.resolve(typeof promiseOrFunction === 'function' ?
Dexie$1.ignoreTransaction(promiseOrFunction) :
promiseOrFunction)
.timeout(optionalTimeout || 60000);
return PSD.trans ?
PSD.trans.waitFor(promise) :
promise;
},
Promise: DexiePromise,
debug: {
get: function () { return debug; },
set: function (value) {
setDebug(value, value === 'dexie' ? function () { return true; } : dexieStackFrameFilter);
}
},
derive: derive, extend: extend, props: props, override: override,
Events: Events,
getByKeyPath: getByKeyPath, setByKeyPath: setByKeyPath, delByKeyPath: delByKeyPath, shallowClone: shallowClone, deepClone: deepClone, getObjectDiff: getObjectDiff, asap: asap,
minKey: minKey,
addons: [],
connections: connections,
errnames: errnames,
dependencies: (function () {
try {
return {
indexedDB: _global.indexedDB || _global.mozIndexedDB || _global.webkitIndexedDB || _global.msIndexedDB,
IDBKeyRange: _global.IDBKeyRange || _global.webkitIDBKeyRange
};
}
catch (e) {
return { indexedDB: null, IDBKeyRange: null };
}
})(),
semVer: DEXIE_VERSION, version: DEXIE_VERSION.split('.')
.map(function (n) { return parseInt(n); })
.reduce(function (p, c, i) { return p + (c / Math.pow(10, i * 2)); }),
default: Dexie$1,
Dexie: Dexie$1 }));
Dexie$1.maxKey = getMaxKey(Dexie$1.dependencies.IDBKeyRange);
initDatabaseEnumerator(Dexie.dependencies.indexedDB);
DexiePromise.rejectionMapper = mapError;
setDebug(debug, dexieStackFrameFilter);
export default Dexie;