I Have the following model
class Process: Object {
#objc dynamic var processID:Int = 1
let steps = List<Step>()
}
class Step: Object {
#objc private dynamic var stepCode: Int = 0
#objc dynamic var stepDateUTC: Date? = nil
var stepType: ProcessStepType {
get {
return ProcessStepType(rawValue: stepCode) ?? .created
}
set {
stepCode = newValue.rawValue
}
}
}
enum ProcessStepType: Int { // to review - real value
case created = 0
case scheduled = 1
case processing = 2
case paused = 3
case finished = 4
}
A process can start, processing , paused , resume (to be in step processing again), pause , resume again,etc. the current step is the one with the latest stepDateUTC
I am trying to get all Processes, having for last step ,a step of stepType processing "processing ", ie. where for the last stepDate, stepCode is 2 .
I came with the following predicate... which doesn't work. Any idea of the right perform to perform such query ?
my best trial is the one. Is it possible to get to this result via one realm query .
let processes = realm.objects(Process.self).filter(NSPredicate(format: "ANY steps.stepCode = 2 AND NOT (ANY steps.stepCode = 4)")
let ongoingprocesses = processes.filter(){$0.steps.sorted(byKeyPath: "stepDateUTC", ascending: false).first!.stepType == .processing}
what I hoped would work
NSPredicate(format: "steps[LAST].stepCode = \(TicketStepType.processing.rawValue)")
I understand [LAST] is not supported by realm (as per the cheatsheet). but is there anyway around I could achieve my goal through a realm query?
There are a few ways to approach this and it doesn't appear the date property is relevant because lists are stored in sequential order (as long as they are not altered), so the last element in the List was added last.
This first piece of code will filter for processes where the last element is 'processing'. I coded this long-handed so the flow is more understandable.
let results = realm.objects(Process.self).filter { p in
let lastIndex = p.steps.count - 1
let step = p.steps[lastIndex]
let type = step.stepType
if type == .processing {
return true
}
return false
}
Note that Realm objects are lazily loaded - which means thousands of objects have a low memory impact. By filtering using Swift, the objects are filtered in memory so the impact is more significant.
The second piece of code is what I would suggest as it makes filtering much simpler, but would require a slight change to the Process model.
class Process: Object {
#objc dynamic var processID:Int = 1
let stepHistory = List<Step>() //RENAMED: the history of the steps
#objc dynamic var name = ""
//ADDED: new property tracks current step
#objc dynamic var current_step = ProcessStepType.created.index
}
My thought here is that the Process model keeps a 'history' of steps that have occurred so far, and then what the current_step is.
I also modified the ProcessStepType enum to make it more filterable friendly.
enum ProcessStepType: Int { // to review - real value
case created = 0
case scheduled = 1
case processing = 2
case paused = 3
case finished = 4
//this is used when filtering
var index: Int {
switch self {
case .created:
return 0
case .scheduled:
return 1
case .processing:
return 2
case .paused:
return 3
case .finished:
return 4
}
}
}
Then to return all processes where the last step in the list is 'processing' here's the filter
let results2 = realm.objects(Process.self).filter("current_step == %#", ProcessStepType.processing.index)
The final thought is to add some code to the Process model so when a step is added to the list, the current_step var is also updated. Coding that is left to the OP.
Related
If I assign the same value twice or more in succession to a #Published member of an ObservableObject, do both/all writes cause observers/receivers to receive updates with the same value, or does Combine suppress updates for assignments that don't actually change the value?
The answer is no. An #Published property sends a change message every time you set a value on the property:
import Combine
class ModelObject: ObservableObject {
#Published var publishedProperty: Int = 0
}
let observeMe = ModelObject()
let subscription = observeMe
.$publishedProperty
.scan(0) { counter, _ in
counter + 1
}
.sink {
print("The number of changes is \($0)")
}
observeMe.publishedProperty = 1
observeMe.publishedProperty = 2
observeMe.publishedProperty = 2
observeMe.publishedProperty = 3
Prints:
The number of changes is 1
The number of changes is 2
The number of changes is 3
The number of changes is 4
The number of changes is 5
The first change is the original value of the property (0) then each of the four following changes causes the publisher to send an event even when the property is set to the value 2 more than once.
Realm allows you to receive the results of a query in sorted order.
let realm = try! Realm()
let dogs = realm.objects(Dog.self)
let dogsSorted = dogs.sorted(byKeyPath: "name", ascending: false)
I ran this test to see how quickly realm returns sorted data
import Foundation
import RealmSwift
class TestModel: Object {
#Persisted(indexed: true) var value: Int = 0
}
class RealmSortTest {
let documentCount = 1000000
var smallestValue: TestModel = TestModel()
func writeData() {
let realm = try! Realm()
var documents: [TestModel] = []
for _ in 0 ... documentCount {
let newDoc = TestModel()
newDoc.value = Int.random(in: 0 ... Int.max)
documents.append(newDoc)
}
try! realm.write {
realm.deleteAll()
realm.add(documents)
}
}
func readData() {
let realm = try! Realm()
let sortedResults = realm.objects(TestModel.self).sorted(byKeyPath: "value")
let start = Date()
self.smallestValue = sortedResults[0]
let end = Date()
let delta = end.timeIntervalSinceReferenceDate - start.timeIntervalSinceReferenceDate
print("Time Taken: \(delta)")
}
func updateSmallestValue() {
let realm = try! Realm()
let sortedResults = realm.objects(TestModel.self).sorted(byKeyPath: "value")
smallestValue = sortedResults[0]
print("Originally loaded smallest value: \(smallestValue.value)")
let newSmallestValue = TestModel()
newSmallestValue.value = smallestValue.value - 1
try! realm.write {
realm.add(newSmallestValue)
}
print("Originally loaded smallest value after write: \(smallestValue.value)")
let readStart = Date()
smallestValue = sortedResults[0]
let readEnd = Date()
let readDelta = readEnd.timeIntervalSinceReferenceDate - readStart.timeIntervalSinceReferenceDate
print("Reloaded smallest value \(smallestValue.value)")
print("Time Taken to reload the smallest value: \(readDelta)")
}
}
With documentCount = 100000, readData() output:
Time taken to load smallest value: 0.48901796340942383
and updateData() output:
Originally loaded smallest value: 2075613243102
Originally loaded smallest value after write: 2075613243102
Reloaded smallest value 2075613243101
Time taken to reload the smallest value: 0.4624580144882202
With documentCount = 1000000, readData() output:
Time taken to load smallest value: 4.807577967643738
and updateData() output:
Originally loaded smallest value: 4004790407680
Originally loaded smallest value after write: 4004790407680
Reloaded smallest value 4004790407679
Time taken to reload the smallest value: 5.2308430671691895
The time taken to retrieve the first document from a sorted result set is scaling with the number of documents stored in realm rather than the number of documents being retrieved. This indicates to me that realm is sorting all of the documents at query time rather than when the documents are being written. Is there a way to index your data so that you can quickly retrieve a small number of sorted documents?
Edit:
Following discussion in the comments, I updated the code to load only the smallest value from the sorted collection.
Edit 2
I updated the code to observe the results as suggested in the comments.
import Foundation
import RealmSwift
class TestModel: Object {
#Persisted(indexed: true) var value: Int = 0
}
class RealmSortTest {
let documentCount = 1000000
var smallestValue: TestModel = TestModel()
var storedResults: Results<TestModel> = (try! Realm()).objects(TestModel.self).sorted(byKeyPath: "value")
var resultsToken: NotificationToken? = nil
func writeData() {
let realm = try! Realm()
var documents: [TestModel] = []
for _ in 0 ... documentCount {
let newDoc = TestModel()
newDoc.value = Int.random(in: 0 ... Int.max)
documents.append(newDoc)
}
try! realm.write {
realm.deleteAll()
realm.add(documents)
}
}
func observeData() {
let realm = try! Realm()
print("Loading Data")
let startTime = Date()
self.storedResults = realm.objects(TestModel.self).sorted(byKeyPath: "value")
self.resultsToken = self.storedResults.observe { changes in
let observationTime = Date().timeIntervalSince(startTime)
print("Time to first observation: \(observationTime)")
let firstTenElementsSlice = self.storedResults[0..<10]
let elementsArray = Array(firstTenElementsSlice) //print this if you want to see the elements
elementsArray.forEach { print($0.value) }
let moreElapsed = Date().timeIntervalSince(startTime)
print("Time to printed elements: \(moreElapsed)")
}
}
}
and I got the following output
Loading Data
Time to first observation: 5.252112984657288
3792614823099
56006949537408
Time to printed elements: 5.253015995025635
Reading the data with an observer did not reduce the time taken to read the data.
At this time it appears that Realm sorts data when it is accessed rather than when it is written, and there is not a way to have Realm sort data at write time. This means that accessing sorted data scales with the number of documents in the database rather than the number of documents being accessed.
The actual time taken to access the data varies by use case and platform.
dogs and dogsSorted are Realm Results Collection object that essentially contains pointers to the underlying data, not the data itself.
Defining a sort order does NOT load all of the objects and they remain lazy - only loading as needed, which is one of the huge benefits to Realm; giant datasets can be used without worrying about overloading memory.
It's also one of the reasons that Realm Results objects always reflect the current state of the data of the underlying data; that data can change many times and what you see in your app Results vars (and Realm Collections in general) will always show the updated data.
As a side node, at this time working with Realm Collection objects with Swift High Level functions causes that data to load into memory - so don't do that. Sort, Filter etc with Realm functions and everything stays lazy and memory friendly.
Indexing is a trade off; on one hand it can improve the performance of certain queries like an equality ( "name == 'Spot'" ) but on the other hand it can slow down write performance. Additionally, adding indexes takes up a bit more space.
Generally speaking, indexing is best for specific use cases; maybe in a situation were you doing some kind of type ahead autofill where performance is critical. We have several apps with very large datasets (Gb's) and nothing is indexed because the performance advantage received is offset by slower writes, which are done frequently. I suggest starting without indexing.
EDIT:
Going to update the answer based on additional discussion.
First and foremost, copying data from one object to another is not a measure of database loading performance. The real objective here is the user experience and/or being able to access that data - from the time the user expects to see the data to when it's shown. So let's provide some code to demonstrate general performance:
We'll first start with a similar model to what the OP used
class TestModel: Object {
#Persisted(indexed: true) var value: Int = 0
convenience init(withIndex: Int) {
self.init()
self.value = withIndex
}
}
Then define a couple of vars to hold the Results from disk and a notification token which allows us to know when that data is available to be displayed to the user. And then lastly a var to hold the time of when the loading starts
var modelResults: Results<TestModel>!
var modelsToken: NotificationToken?
var startTime = Date()
Here's the function that writes lots of data. The objectCount var will be changed from 10,000 objects on the first run to 1,000,000 objects on the second. Note this is bad coding as I am creating a million objects in memory so don't do this; for demonstration purposes only.
func writeLotsOfData() {
let realm = try! Realm()
let objectCount = 1000000
autoreleasepool {
var testModelArray = [TestModel]()
for _ in 0..<objectCount {
let m = TestModel(withIndex: Int.random(in: 0 ... Int.max))
testModelArray.append(m)
}
try! realm.write {
realm.add(testModelArray)
}
print("data written: \(testModelArray.count) objects")
}
}
and then finally the function that loads those objects from realm and outputs when the data is available to be shown to the user. Note they are sorted per the original question - and in fact will maintain their sort as data is added and changed! Pretty cool stuff.
func loadBigData() {
let realm = try! Realm()
print("Loading Data")
self.startTime = Date()
self.modelResults = realm.objects(TestModel.self).sorted(byKeyPath: "value")
self.modelsToken = self.modelResults?.observe { changes in
let elapsed = Date().timeIntervalSince(self.startTime)
print("Load completed of \(self.modelResults.count) objects - elapsed time of \(elapsed)")
}
}
and the results. Two runs, one with 10,000 objects and one with 1,000,000 objects
data written: 10000 objects
Loading Data
Load completed of 10000 objects - elapsed time of 0.0059670209884643555
data written: 1000000 objects
Loading Data
Load completed of 1000000 objects - elapsed time of 0.6800119876861572
There are three things to note
A Realm Notification object fires an event when the data has
completed loading, and also when there are additional changes. We are
leveraging that to notify the app when the data has completed loading
and is available to be used - shown to the user for example.
We are lazily loading all of the objects! At no point are we going
to run into a memory overloading issue. Once the objects have loaded
into the results, they are then freely available to be shown to the
user or processed in whatever way is needed. Super important to work
with Realm objects in a Realm way when working with large datasets.
Generally speaking, if it's 10 objects well, no problem tossing
them into an array, but when there are 1 Million objects - let Realm
do it's lazy job.
The app is protected using the above code and techniques. There
could be 10 objects or 1,000,000 objects and the memory impact is
minimal.
EDIT 2
(see comment to the OP's question for more info about this edit)
Per a request fromt the OP, they wanted to see the same exercise with printed values and times. Here's the updated code
self.modelsToken = self.modelResults?.observe { changes in
let elapsed = Date().timeIntervalSince(self.startTime)
print("Load completed of \(self.modelResults.count) objects - elapsed time of \(elapsed)")
print("print first 10 object values")
let firstTenElementsSlice = self.modelResults[0..<10]
let elementsArray = Array(firstTenElementsSlice) //print this if you want to see the elements
elementsArray.forEach { print($0.value)}
let moreElapsed = Date().timeIntervalSince(self.startTime)
print("Printing of 10 elements completed: \(moreElapsed)")
}
and then the output
Loading Data
Load completed of 1000000 objects - elapsed time of 0.6730009317398071
print first 10 object values
12264243738520
17242140785413
29611477414437
31558144830373
32913160803785
45399774467128
61700529799916
63929929449365
73833938586206
81739195218861
Printing of 10 elements completed: 0.6745189428329468
After reading the documentation, I'm having a hard time conceptualizing the change feed. Let's take the code from the documentation below. The second change feed is picking up the changes from the last time it was run via the checkpoints. Let's say it is being used to create summary data and there was an issue and it needed to be re-run from a prior time. I don't understand the following:
How to specify a particular time the checkpoint should start. I understand I can save the checkpoint dictionary and use that for each run, but how do you get the changes from X time to maybe rerun some summary data
Secondly, let's say we are rerunning some summary data and we save the last checkpoint used for each summarized data so we know where that one left off. How does one know that a record is in or before that checkpoint?
Code that runs from collection beginning and then from last checkpoint:
Dictionary < string, string > checkpoints = await GetChanges(client, collection, new Dictionary < string, string > ());
await client.CreateDocumentAsync(collection, new DeviceReading {
DeviceId = "xsensr-201", MetricType = "Temperature", Unit = "Celsius", MetricValue = 1000
});
await client.CreateDocumentAsync(collection, new DeviceReading {
DeviceId = "xsensr-212", MetricType = "Pressure", Unit = "psi", MetricValue = 1000
});
// Returns only the two documents created above.
checkpoints = await GetChanges(client, collection, checkpoints);
//
private async Task < Dictionary < string, string >> GetChanges(
DocumentClient client,
string collection,
Dictionary < string, string > checkpoints) {
List < PartitionKeyRange > partitionKeyRanges = new List < PartitionKeyRange > ();
FeedResponse < PartitionKeyRange > pkRangesResponse;
do {
pkRangesResponse = await client.ReadPartitionKeyRangeFeedAsync(collection);
partitionKeyRanges.AddRange(pkRangesResponse);
}
while (pkRangesResponse.ResponseContinuation != null);
foreach(PartitionKeyRange pkRange in partitionKeyRanges) {
string continuation = null;
checkpoints.TryGetValue(pkRange.Id, out continuation);
IDocumentQuery < Document > query = client.CreateDocumentChangeFeedQuery(
collection,
new ChangeFeedOptions {
PartitionKeyRangeId = pkRange.Id,
StartFromBeginning = true,
RequestContinuation = continuation,
MaxItemCount = 1
});
while (query.HasMoreResults) {
FeedResponse < DeviceReading > readChangesResponse = query.ExecuteNextAsync < DeviceReading > ().Result;
foreach(DeviceReading changedDocument in readChangesResponse) {
Console.WriteLine(changedDocument.Id);
}
checkpoints[pkRange.Id] = readChangesResponse.ResponseContinuation;
}
}
return checkpoints;
}
DocumentDB supports check-pointing only by the logical timestamp returned by the server. If you would like to retrieve all changes from X minutes ago, you would have to "remember" the logical timestamp corresponding to the clock time (ETag returned for the collection in the REST API, ResponseContinuation in the SDK), then use that to retrieve changes.
Change feed uses logical time in place of clock time because it can be different across various servers/partitions. If you would like to see change feed support based on clock time (with some caveats on skew), please propose/upvote at https://feedback.azure.com/forums/263030-documentdb/.
To save the last checkpoint per partition key/document, you can just save the corresponding version of the batch in which it was last seen (ETag returned for the collection in the REST API, ResponseContinuation in the SDK), like Fred suggested in his answer.
How to specify a particular time the checkpoint should start.
You could try to provide a logical version/ETag (such as 95488) instead of providing a null value as RequestContinuation property of ChangeFeedOptions.
I have coded a table driven LR(1) parser and it is working very well however I am having a bit of a disconnect on the stage of turing a parse into a syntax tree/abstract syntax tree. This is a project that I m very passionate about but I have really just hit a dead end here. Thank you for your help in advance.
Edit: Also my parser just uses a 2d array and an action object that tells it where to go next or if its a reduction where to go and how many items to pop. I noticed that many people use the visitor pattern. Im not sure how they know what type of node to make.
Here is the pushdown automata for context
while (lexer.hasNext() || parseStack.size() > 0) {
Action topOfStack = parseStack.peek();
token = parseStack.size() > 0 ? lexer.nextToken() : new Token(TokenType.EOF, "EOF");
topOfStack.setToken(token);
int row = topOfStack.getTransitionIndex();
int column = getTerminalIndex(token.getLexeme());
column = token.getType() == TokenType.IDENTIFIER
&& !terminalsContain(token.getLexeme()) ? 0 : column;
Action action = actionTable[row][column];
if (action instanceof Accept) {
System.out.println("valid parse!!!!!!");
} else if (action instanceof Reduction) {
Reduction reduction = (Reduction) action;
popStack(parseStack, reduction.getNumberOfItemsToPop());
column = reduction.getTransitionIndex();
row = parseStack.peek().getTransitionIndex();
parseStack.push(new Action(gotoTable[row][column]));
lexer.backupTokenStream();
} else if (action != null) {
parseStack.push(actionTable[row][column]);
} else {
System.out.println("Parse error");
System.out.println("On token: " + token.getLexeme());
break;
}
Each reduction in the LR parsing process corresponds to an internal node in the parse tree. The rule being reduced is the internal AST node, and the items popped off the stack correspond to the children of that internal node. The item pushed for the goto corresponds to the internal node, while those pushed by shift actions correspond to leaves (tokens) of the AST.
Putting all that together, you can easily build an AST by createing a new internal node every time you do a reduction and wiring everything together appropriately.
We want to add some type of functionality that when a page takes longer than x seconds to load a warning is presented. We don't want that to throw a WaitTimeoutException, because the test can still execute cleanly, just longer than desired. We would still use the default timeout to throw our WaitTimeoutException after 20 seconds. This implies that x is less than 20. It's essentially a performance check on the page itself.
I've tried using the onLoad function:
void onLoad(Page previousPage) {
double warnSeconds = 0.001
LocalDateTime warnTime = LocalDateTime.now().plusMillis((int)(warnSeconds * 1000))
boolean warned = false
boolean pageReady = false
while(!warned && !pageReady) {
if(LocalDateTime.now() > warnTime) {
log.warn("${this.class.simpleName} took longer than ${warnSeconds} seconds to load")
warned = true
}
pageReady = js.exec('return document.readyState') == 'complete'
}
}
However:
"Sets this browser's page to be the given page, which has already been
initialised with this browser instance."
Any help would be great. Thanks.
______________________________________EDIT_______________________________________
Instead of using my own timer, used javascript window.performance. Now I'm looking to be able to access a variable in my test from my pages.
______________________________________EDIT_______________________________________
void onLoad(Page previousPage) {
def performance
//TODO system property page time
def pageTime = 8000
if (browser.driver instanceof InternetExplorerDriver) {
performance = js.exec('return JSON.stringify(window.performance.toJSON());')
} else {
performance = js.exec('return window.performance || window.webkitPerformance || window.mozPerformance ' +
'|| window.msPerformance;')
}
int time = performance['timing']['loadEventEnd'] - performance['timing']['fetchStart']
if (time > pageTime) {
String errorMessage = "${this.class.simpleName} took longer than ${pageTime} milliseconds " +
"to load. Took ${time} milliseconds."
log.error(errorMessage)
//TODO Soft Assert
}
}
New chunk of code to actually get the correct performance data instead of using my own timer. Now where I have //TODO Soft Assert, I have an object in my test that I want to access from my Page Object, but have no context. How can I get context?