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Go

IMAP Search with THREAD Semantics

See more IMAP Examples

Demonstrates how to search an IMAP mailbox and return message numbers grouped together in parent/child relationships based on which messages are replies to others.

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Go
    success := false

    // This example requires the Chilkat API to have been previously unlocked.
    // See Global Unlock Sample for sample code.

    imap := chilkat.NewImap()

    // Connect to your IMAP server and authenticate..
    imap.SetSsl(true)
    imap.SetPort(993)
    success = imap.Connect("imap.mail.us-west-2.awsapps.com")
    if success == false {
        fmt.Println(imap.LastErrorText())
        imap.DisposeImap()
        return
    }

    success = imap.Login("myLogin","myPassword")
    if success == false {
        fmt.Println(imap.LastErrorText())
        imap.DisposeImap()
        return
    }

    // Select a mailbox
    success = imap.SelectMailbox("Inbox")
    if success == false {
        fmt.Println(imap.LastErrorText())
        imap.DisposeImap()
        return
    }

    // Search for all message having the letter 'a' somewhere in the Subject,
    // and return the messages as JSON.
    json := chilkat.NewJsonObject()
    success = imap.QueryThread("REFERENCES","SUBJECT a",true,json)
    if success == false {
        fmt.Println(imap.LastErrorText())
        imap.DisposeImap()
        json.DisposeJsonObject()
        return
    }

    // The IMAP server will return a raw response with a format such as this:  (2)(3 6 (4 23)(44 7 96))

    // In tree form, it's like this:
    // 
    //             -- 2
    //             -- 3
    //                 \-- 6
    //                    |-- 4
    //                    |      \-- 23
    //                    |
    //                    |-- 44
    //                               \-- 7
    //                                       \-- 96
    // 

    // It means there are 2 main threads returned, but the 2nd thread splits into two sub-threads.
    // In total, we can think of it as 3 threads -- 2 main threads (with no parents) and one sub-thread w/ a parent.
    // 
    // - The 1st thread contains the message 2, and has no parent thread.
    // - The 2nd thread contains the messages 3, 6, 4, 23, and has no parent thread.
    // - The 3rd thread contains the messages 44, 7, 96 and the parent thread is message 6.
    // 

    // (Yes, this is all highly confusing...)

    // Chilkat will return the above sample response as JSON that looks like this:

    // {
    //   "threads": [
    //     [2],
    //     [3, 6, [4, 23], [44, 7, 96]]
    //   ]
    // }
    // 

    // Use this online tool to generate parsing code from sample JSON: 
    // Generate Parsing Code from JSON
    // In this case, the online tool can help you get a feel for how to write the JSON parsing code..

    numThreads := json.SizeOfArray("threads")
    fmt.Println("The total number of top-level threads is ", numThreads)

    // Let's say we wanted to get the messages in the thread 3, 6, 4, 23.
    // We always follow the 1st branch to the bottom, ignoring the other branches.
    // For example, if we had  [3, 5, [4, 23, [55, 56, 57], [68, 69]], [44, 7, 96]]
    // then the thread would be 3, 5, 4, 43, 55, 56, 57

    // For testing, let's substitute the response from the IMAP server with this sample:
    json.Load("{\"threads\": [[2], [3, 5, [4, 23, [55, 56, 57], [68, 69]], [44, 7, 96]]]}")

    // Begin with the 2nd top-level thread, which is at index 1.
    fmt.Println("Following the 2nd top level thread...")
    arr := json.ArrayOf("threads[1]")
    threadSize := arr.Size()
    i := 0
    for i < threadSize {
        // Do we have an array or integer at this position?
        if arr.TypeAt(i) == 4 {
            // This is a sub-array.
            subArr := arr.ArrayAt(i)
            arr.DisposeJsonArray()
            // Follow the sub-array starting at the 1st position..
            arr = subArr
            i = 0
            threadSize = arr.Size()
        } else {
            // Must be a single integer.
            fmt.Println(arr.IntAt(i))
            i = i + 1
        }

    }

    // The output is:
    // 
    // Following the 2nd top level thread...
    // 3
    // 5
    // 4
    // 23
    // 55
    // 56
    // 57

    imap.DisposeImap()
    json.DisposeJsonObject()