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import.go
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import.go
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package coreg
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"image"
"image/png"
"path"
"strconv"
"strings"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/service/sqs"
"github.com/pixlise/core/v4/api/dbCollections"
"github.com/pixlise/core/v4/api/filepaths"
"github.com/pixlise/core/v4/api/job"
"github.com/pixlise/core/v4/api/ws/wsHelpers"
"github.com/pixlise/core/v4/core/errorwithstatus"
"github.com/pixlise/core/v4/core/fileaccess"
"github.com/pixlise/core/v4/core/gdsfilename"
"github.com/pixlise/core/v4/core/imageedit"
"github.com/pixlise/core/v4/core/imgFormat"
"github.com/pixlise/core/v4/core/utils"
protos "github.com/pixlise/core/v4/generated-protos"
"go.mongodb.org/mongo-driver/bson"
"go.mongodb.org/mongo-driver/mongo"
"go.mongodb.org/mongo-driver/mongo/options"
)
func StartCoregImport(triggerUrl string, hctx wsHelpers.HandlerContext) (string, error) {
if len(triggerUrl) <= 0 {
return "", errorwithstatus.MakeBadRequestError(errors.New("MarsViewerExport trigger Url is empty"))
}
i := coregUpdater{hctx}
// Start an image coreg import job (this is a Lambda function)
// Once it completes, we have the data we need, so we can treat it as a "normal" image importing task
jobStatus, err := job.AddJob("coreg", protos.JobStatus_JT_IMPORT_IMAGE, triggerUrl, uint32(hctx.Svcs.Config.ImportJobMaxTimeSec), hctx.Svcs.MongoDB, hctx.Svcs.IDGen, hctx.Svcs.TimeStamper, hctx.Svcs.Log, i.sendUpdate)
jobId := ""
if jobStatus != nil {
jobId = jobStatus.JobId
}
if err != nil || len(jobId) < 0 {
returnErr := fmt.Errorf("Failed to add job watcher for coreg import Job ID: %v. Error was: %v", jobId, err)
hctx.Svcs.Log.Errorf("%v", returnErr)
return "", returnErr
}
// completeMarsViewerImportJob("coreg-9un1y0fv2gszftw3", hctx)
// completeMarsViewerImportJob("coreg-bjy6epclzutur900", hctx)
// completeMarsViewerImportJob("coreg-dy6kmc5r9rg5t2l7", hctx)
// completeMarsViewerImportJob("coreg-282g38pxwybbboqk", hctx)
// return "", nil
// We can now trigger the lambda
// NOTE: here we build the same structure that triggered us, but we exclude the points data so we don't exceed
// the SQS 256kb limit. The lambda doesn't care about the points anyway, only we do once the lambda has completed!
coregReq := CoregJobRequest{jobId, hctx.Svcs.Config.EnvironmentName, triggerUrl}
msg, err := json.Marshal(coregReq)
if err != nil {
returnErr := fmt.Errorf("Failed to create coreg job trigger message for job ID: %v", jobId)
job.CompleteJob(jobId, false, returnErr.Error(), "", []string{}, hctx.Svcs.MongoDB, hctx.Svcs.TimeStamper, hctx.Svcs.Log)
return "", returnErr
}
_, err = hctx.Svcs.SQS.SendMessage(&sqs.SendMessageInput{
MessageBody: aws.String(string(msg)),
QueueUrl: aws.String(hctx.Svcs.Config.CoregSqsQueueUrl),
})
if err != nil {
returnErr := fmt.Errorf("Failed to trigger coreg job. ID: %v. Error: %v", jobId, err)
job.CompleteJob(jobId, false, returnErr.Error(), "", []string{}, hctx.Svcs.MongoDB, hctx.Svcs.TimeStamper, hctx.Svcs.Log)
return "", returnErr
}
return jobId, nil
}
type coregUpdater struct {
hctx wsHelpers.HandlerContext
}
func (i *coregUpdater) sendUpdate(status *protos.JobStatus) {
// NOTE: The coreg image import job sets state GATHERING_RESULTS when it has downloaded everything
// so here we trigger off that to do our part, after which we can mark the job as COMPLETE or ERROR
if status.Status == protos.JobStatus_GATHERING_RESULTS {
// NOTE: If this fails, it will set the job status to ERROR and we'll
// get another call to update...
completeMarsViewerImportJob(status.JobId, i.hctx)
return
}
wsUpd := protos.WSMessage{
Contents: &protos.WSMessage_ImportMarsViewerImageUpd{
ImportMarsViewerImageUpd: &protos.ImportMarsViewerImageUpd{
Status: status,
},
},
}
wsHelpers.SendForSession(i.hctx.Session, &wsUpd)
}
// Should be called after Coreg Import Lambda has completed successfully
func completeMarsViewerImportJob(jobId string, hctx wsHelpers.HandlerContext) {
// Read the job completion entry from DB
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.CoregJobCollection)
dbResult := coll.FindOne(ctx, bson.M{"_id": jobId}, options.FindOne())
if dbResult.Err() != nil {
failJob(fmt.Sprintf("Failed to find Coreg Job completion record for: %v. Error: %v", jobId, dbResult.Err()), jobId, hctx)
return
}
coregResult := CoregJobResult{}
err := dbResult.Decode(&coregResult)
if err != nil {
failJob(fmt.Sprintf("Failed to decode Coreg Job completion record for: %v. Error: %v", jobId, err), jobId, hctx)
return
}
hctx.Svcs.Log.Infof("marsViewer import job %v importing from %v", jobId, coregResult.MarsViewerExportUrl)
// At this point we should have everything ready to go - our own bucket should contain all images
// and we have the mars viewer export msg containing any points we require so lets import the warped images we received!
// Firstly, read the export from MV
marsViewerExport := &protos.MarsViewerExport{}
mvBucket, err := fileaccess.GetBucketFromS3Url(coregResult.MarsViewerExportUrl)
if err != nil {
failJob(fmt.Sprintf("Failed to read Coreg Job files for: %v. Error: %v", jobId, err), jobId, hctx)
return
}
mvPath, err := fileaccess.GetPathFromS3Url(coregResult.MarsViewerExportUrl)
if err != nil {
failJob(fmt.Sprintf("Failed to read Coreg Job files for: %v. Error: %v", jobId, err), jobId, hctx)
return
}
err = hctx.Svcs.FS.ReadJSON(mvBucket, mvPath, marsViewerExport, false)
if err != nil {
failJob(fmt.Sprintf("Failed to read MarsViewer export json for: %v. Error: %v", jobId, err), jobId, hctx)
return
}
// How MV data is structured:
// "baseImageUrl" represents the image that everything was warped TO.
// Observations contain arrays of points (and CSV file references) for coordinates that were warped to the base image. It seems that if
// a set of coordinates were already relative to that image, we don't get the "translatedPoints" list, which makes sense...
// Therefore, if we find an observation with "translatedPoints", we can look at what image that applies to and store those beam locations
// for the RTT identified by the observation's own "contextImageUrl"
//
// Warped images are also supplied, which take another image and warp it to match the base image. These are able to be rendered relative
// the base image, much like our "matched" images, and so should probably be imported as such.
// First, lets check that we have this base image stored. NOTE: It may not be the same file name as the one in PIXLISE! There are many
// versions and file formats of images that get generated by the pipeline, someone may have picked another version as the base image, so
// we have to search/match it unfortunately :(
// For example:
// PCW_0920_0748651385_000RCM_N04500003226342450005075J01.png <-- PIXLISE contains this
// PCW_0920_0748651385_000FDR_N04500003226342450005075J01.IMG <-- Base image for warping in MV
//
// All matches except the product type AND the extension!
// Get the meta associated with base image
baseRTT, _, err := getRTTAndMeta(marsViewerExport.BaseImageUrl)
if err != nil {
failJob(fmt.Sprintf("Failed to parse baseImageUrl: %v for job %v. Error: %v", marsViewerExport.BaseImageUrl, jobId, err), jobId, hctx)
return
}
// Now we can try to find the corresponding image
ourBaseImage, ourBaseImageItem, err := findImage(marsViewerExport.BaseImageUrl, baseRTT, hctx)
baseImageLocs := &protos.ImageLocations{}
if err != nil {
if err == mongo.ErrNoDocuments {
// We don't have this image. This means we're importing a new image with the observations transformed to it
if len(coregResult.BaseImageUrl.NewUri) <= 0 {
// We don't have the "new" base image to import, so fail here
failJob(fmt.Sprintf("Coreg import job %v failed, base image not available. Original: %v", jobId, coregResult.BaseImageUrl.OriginalUri), jobId, hctx)
}
ourBaseImage, ourBaseImageItem, baseImageLocs, err = importNewImage(jobId, coregResult.BaseImageUrl.NewUri, baseRTT, marsViewerExport, hctx)
}
} else {
// Read the locations
baseImageLocs, err = readExistingLocationsForImage(jobId, ourBaseImage, hctx)
}
if err == nil {
// We are importing images/observations warped TO the base image in question
err = importWarpedToBase(jobId, ourBaseImage, ourBaseImageItem, baseImageLocs, baseRTT, &coregResult, marsViewerExport, hctx)
}
if err != nil {
failJob(fmt.Sprintf("Coreg import job %v failed. Error: %v", jobId, err), jobId, hctx)
return
}
job.CompleteJob(jobId, true, "Coreg import complete", "", []string{}, hctx.Svcs.MongoDB, hctx.Svcs.TimeStamper, hctx.Svcs.Log)
}
func importNewImage(jobId string, imageUrl string, baseRTT string, marsViewerExport *protos.MarsViewerExport, hctx wsHelpers.HandlerContext) (string, *protos.ScanImage, *protos.ImageLocations, error) {
// We're importing an image we haven't heard about before. Once this has been imported, we should be able to import the rest as normal
hctx.Svcs.Log.Infof("importNewImage: %v for RTT %v, job: %v...", imageUrl, baseRTT, jobId)
// Gather all "associated images" - any translated points that we'll be importing. We need to be associated with them
// so we can be shown on their context images
associatedScanIds := []string{baseRTT}
for _, obs := range marsViewerExport.Observations {
if len(obs.TranslatedPoints) > 0 {
contextMeta, err := gdsfilename.ParseFileName(path.Base(obs.ContextImageUrl))
if err != nil {
hctx.Svcs.Log.Errorf("importNewImage: Failed to read RTT from translated points context image file name: %v. Error: %v", obs.ContextImageUrl, err)
} else {
rtt, err := contextMeta.RTT()
if err != nil {
hctx.Svcs.Log.Errorf("importNewImage: Failed to decode RTT from translated points context image file name: %v. Error: %v", obs.ContextImageUrl, err)
} else {
associatedScanIds = append(associatedScanIds, rtt)
}
}
}
}
// We need to:
// Add an item to DB for this image
// Add file to S3
imageFileName := path.Base(imageUrl)
// Expecting file name like this:
// SC3_0614_0721480213_394RAS_N0301172SRLC10600_0000LMJ03.IMG
// Firstly, check that the image type is one that we support
imageExt := strings.ToUpper(path.Ext(imageUrl))
if imageExt != ".PNG" && imageExt != ".JPG" && imageExt != ".IMG" {
return "", nil, nil, fmt.Errorf("Image file type not supported: %v", imageUrl)
}
// Read the bytes
imgBucket, err := fileaccess.GetBucketFromS3Url(imageUrl)
if err != nil {
return "", nil, nil, err
}
imgPath, err := fileaccess.GetPathFromS3Url(imageUrl)
if err != nil {
return "", nil, nil, err
}
imgData, err := hctx.Svcs.FS.ReadObject(imgBucket, imgPath)
if err != nil {
return "", nil, nil, err
}
var img image.Image
if imageExt == ".IMG" {
w, h, d, err := imgFormat.ReadIMGFile(imgData)
if err != nil {
return "", nil, nil, fmt.Errorf("Failed to read IMG file: %v. Error: %v", imageUrl, err)
}
img = imageedit.MakeImageFromRGBA(w, h, d)
// Change the file name! We're saving as PNG
imageFileName = imageFileName[0:len(imageFileName)-3] + "png"
// Meanwhile, create the PNG image so the data we write is the actual PNG
var buf bytes.Buffer
err = png.Encode(&buf, img)
if err != nil {
return "", nil, nil, fmt.Errorf("Failed to write PNG file for IMG file: %v. Error: %v", imageUrl, err)
}
imgData = buf.Bytes()
} else {
img, _, err = image.Decode(bytes.NewReader(imgData))
if err != nil {
return "", nil, nil, fmt.Errorf("Failed to read image file: %v. Error: %v", imageUrl, err)
}
}
savePath := path.Join(baseRTT, imageFileName)
scanImage := utils.MakeScanImage(
savePath,
uint32(len(imgData)),
protos.ScanImageSource_SI_UPLOAD,
protos.ScanImagePurpose_SIP_VIEWING,
associatedScanIds,
"", //baseRTT,
"",
nil,
img)
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
opt := options.Update().SetUpsert(true)
result, err := coll.UpdateByID(ctx, scanImage.ImagePath, bson.D{{Key: "$set", Value: scanImage}}, opt)
if err != nil {
return "", nil, nil, err
}
if result.MatchedCount != 1 {
hctx.Svcs.Log.Errorf("importNewImage failed to upsert DB image: %v. Result: %+v", scanImage.ImagePath, result)
}
// Save the image to S3
s3Path := filepaths.GetImageFilePath(savePath)
err = hctx.Svcs.FS.WriteObject(hctx.Svcs.Config.DatasetsBucket, s3Path, imgData)
if err != nil {
// Failed to upload image data, so no point in having a DB entry now either...
coll = hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
filter := bson.D{{Key: "_id", Value: scanImage.ImagePath}}
delOpt := options.Delete()
_ /*delImgResult*/, err = coll.DeleteOne(ctx, filter, delOpt)
return "", nil, nil, err
}
// Also insert a blank entry for beam locations for this image, as we're expecting to import scans for it
coll = hctx.Svcs.MongoDB.Collection(dbCollections.ImageBeamLocationsName)
beamLocs := &protos.ImageLocations{
ImageName: scanImage.ImagePath,
LocationPerScan: []*protos.ImageLocationsForScan{},
}
beamResult, err := coll.UpdateByID(ctx, scanImage.ImagePath, bson.D{{Key: "$set", Value: beamLocs}}, opt)
if err != nil {
return "", nil, nil, err
}
if beamResult.MatchedCount != 1 {
hctx.Svcs.Log.Errorf("importNewImage failed to upsert initial DB image beam locations: %v. Result: %+v", scanImage.ImagePath, beamResult)
}
return scanImage.ImagePath, scanImage, beamLocs, err
}
func readExistingLocationsForImage(jobId string, image string, hctx wsHelpers.HandlerContext) (*protos.ImageLocations, error) {
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.ImageBeamLocationsName)
// We're adding to the beam locations for the base image! First, read the base image beam locations structure as there should
// already be one!
filter := bson.M{"_id": image}
baseImageBeamsResult := coll.FindOne(ctx, filter)
if baseImageBeamsResult.Err() != nil {
return nil, fmt.Errorf("Coreg import job %v failed to read beams for base image %v. Error: %v", jobId, image, baseImageBeamsResult.Err())
}
baseImageBeams := &protos.ImageLocations{}
err := baseImageBeamsResult.Decode(baseImageBeams)
if err != nil {
return nil, fmt.Errorf("Coreg import job %v failed to decode beams for base image %v. Error: %v", jobId, image, err)
}
return baseImageBeams, nil
}
func importWarpedToBase(jobId string, baseImage string, ourBaseImageItem *protos.ScanImage, baseImageBeams *protos.ImageLocations, baseRtt string, coregResult *CoregJobResult, marsViewerExport *protos.MarsViewerExport, hctx wsHelpers.HandlerContext) error {
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.ImageBeamLocationsName)
locationsPerScan := map[string][]*protos.Coordinate2D{}
for _, locForScan := range baseImageBeams.LocationPerScan {
locationsPerScan[locForScan.ScanId] = locForScan.Locations
}
beamsChanged := false
associatedScanIds := ourBaseImageItem.AssociatedScanIds
for _, obs := range marsViewerExport.Observations {
if len(obs.TranslatedPoints) > 0 {
hctx.Svcs.Log.Infof("marsViewer import job %v importing observation for %v with %v points", jobId, obs.ContextImageUrl, len(obs.TranslatedPoints))
// We have new beam locations, find out which RTT this is for
rtt, _, err := getRTTAndMeta(obs.ContextImageUrl)
if err != nil {
return fmt.Errorf("Failed to parse contextImageUrl: %v for job %v. Error: %v", obs.ContextImageUrl, jobId, err)
}
// Ensure rtt differs from our base image one
if rtt == baseRtt {
return fmt.Errorf("Coreg import job %v expected observation RTT %v to differ from base RTT %v", jobId, rtt, baseRtt)
}
// Ensure we don't have any points already stored for this RTT
for _, locStored := range baseImageBeams.LocationPerScan {
if locStored.ScanId == rtt {
// Print out the fact that we'll be replacing it...
hctx.Svcs.Log.Infof("Coreg is replacing beam locations for scan %v, image %v in job %v", rtt, baseImage, jobId)
//return fmt.Errorf("Coreg import job %v detected beam locations already stored for image %v and scan %v", jobId, baseImage, rtt)
}
}
// Save the points! We get PMCs, but need to store an array with all PMCs, so we need to fill the gaps with nil if needed
// so we maintain "location index" ability. To do this we'll need to read the dataset file!
exprPB, err := wsHelpers.ReadDatasetFile(rtt, hctx.Svcs)
if err != nil {
// NOTE: if we FAIL TO READ IT, this isn't the end of the world. It may be for a dataset we don't yet support
// so just skip it here and continue, while logging an error.
hctx.Svcs.Log.Errorf("Coreg import job %v skipping dataset %v due to failure to load error: %v", jobId, rtt, err)
continue
}
translatedPointsLookup := map[int]*protos.Coordinate2D{}
for _, txPoint := range obs.TranslatedPoints {
if _, ok := translatedPointsLookup[int(txPoint.SpectrumNumber)]; ok {
return fmt.Errorf("Coreg import job %v encounted duplicate SpectrumNumber in translated points for contextImageUrl: %v", jobId, obs.ContextImageUrl)
}
translatedPointsLookup[int(txPoint.SpectrumNumber)] = &protos.Coordinate2D{I: txPoint.Sample, J: txPoint.Line}
}
coords := []*protos.Coordinate2D{}
for _, loc := range exprPB.Locations {
// If our dataset contains a beam, we look up the translated beam location, otherwise store nil
if loc.Beam != nil {
pmc, err := strconv.Atoi(loc.Id)
if err != nil {
return fmt.Errorf("Coreg import job %v failed to read PMC %v from scan: %v", jobId, loc.Id, rtt)
}
// Find it
if coord, ok := translatedPointsLookup[pmc]; ok {
coords = append(coords, coord)
continue
}
}
// Nothing to put here, so put a nil so array matches
coords = append(coords, nil)
}
// Store for this RTT
locationsPerScan[rtt] = coords
beamsChanged = true
// Also store an associated scan id
if !utils.ItemInSlice(rtt, associatedScanIds) {
associatedScanIds = append(associatedScanIds, rtt)
}
}
}
// If we have added beams, save
if beamsChanged {
baseImageBeams.LocationPerScan = []*protos.ImageLocationsForScan{}
for rtt, coords := range locationsPerScan {
baseImageBeams.LocationPerScan = append(baseImageBeams.LocationPerScan, &protos.ImageLocationsForScan{ScanId: rtt, Locations: coords})
}
// TODO: Transaction for these 2?
filter := bson.M{"_id": baseImage}
result, err := coll.ReplaceOne(ctx, filter, &baseImageBeams, options.Replace())
if err != nil {
return fmt.Errorf("Coreg import job %v failed to save new beam locations: %v", jobId, err)
}
if result.MatchedCount != 1 {
hctx.Svcs.Log.Errorf("Coreg import job %v didn't insert new beam locations: %+v", jobId, result)
}
// We also need to modify the image to add to its list of associated images
coll = hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
update := bson.D{bson.E{Key: "associatedscanids", Value: associatedScanIds}}
updImgResult, err := coll.UpdateByID(ctx, baseImage, bson.D{{Key: "$set", Value: update}})
if err != nil {
return fmt.Errorf("Coreg import job %v failed to update image associated scans list: %v", jobId, baseImage)
}
if updImgResult.MatchedCount != 1 {
hctx.Svcs.Log.Errorf("Coreg import job %v didn't update image associated scans list: %+v", jobId, updImgResult)
}
}
// Loop through each warped image, read it, along with beam locations (in observation for it)
for _, item := range coregResult.WarpedImageUrls {
if item.Completed {
if err := importWarpedImage(item.NewUri, baseRtt, baseImage, hctx); err != nil {
return err
}
}
}
return nil
}
// NOTE: we expect URLs like this:
// s3://m20-sstage-ids-crisp-imgcoregi/crisp_data/ICM-PCW_0920_0748651385_000RAS_N045000032263424500050-SC3_0921_0748732957_027RAS_N0450000SRLC11373_0000-0-C02-J01.VIC/67e92f8ba7cd38d07d969f910db5d1d3/crisp_data/ods/surface/sol/00921/ids/rdr/shrlc/warped-zoom_4.478153138946561-win_519_40_1232_1183-SN100D0-SC3_0921_0748732957_027RAS_N0450000SRLC11373_0000LMJ01-A.png
func importWarpedImage(warpedImageUrl string, rttWarpedTo string, baseImage string, hctx wsHelpers.HandlerContext) error {
hctx.Svcs.Log.Infof("importWarpedImage: %v for RTT %v, image: %v...", warpedImageUrl, rttWarpedTo, baseImage)
// We need to:
// Add an item to DB for this image
// Add file to S3
warpedFileName := path.Base(warpedImageUrl)
// Expecting file name like this:
// warped-zoom_4.478153138946561-win_519_40_1232_1183-SN100D0-SC3_0921_0748732957_027RAS_N0450000SRLC11373_0000LMJ01-A.png
// Read the bytes
warpedSrcBucket, err := fileaccess.GetBucketFromS3Url(warpedImageUrl)
if err != nil {
return err
}
warpedSrcPath, err := fileaccess.GetPathFromS3Url(warpedImageUrl)
if err != nil {
return err
}
imgData, err := hctx.Svcs.FS.ReadObject(warpedSrcBucket, warpedSrcPath)
if err != nil {
return err
}
img, _, err := image.Decode(bytes.NewReader(imgData))
if err != nil {
return err
}
matchInfo, nicerSaveName, err := readWarpedImageTransform(warpedFileName)
if err != nil {
return err
}
matchInfo.BeamImageFileName = baseImage
savePath := path.Join(rttWarpedTo, nicerSaveName)
scanImage := utils.MakeScanImage(
savePath,
uint32(len(imgData)),
protos.ScanImageSource_SI_UPLOAD,
protos.ScanImagePurpose_SIP_VIEWING,
[]string{rttWarpedTo},
rttWarpedTo,
"",
matchInfo,
img)
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
opt := options.Update().SetUpsert(true)
result, err := coll.UpdateByID(ctx, scanImage.ImagePath, bson.D{{Key: "$set", Value: scanImage}}, opt)
if err != nil {
if mongo.IsDuplicateKeyError(err) {
return errorwithstatus.MakeBadRequestError(fmt.Errorf("%v already exists", scanImage.ImagePath))
}
return err
}
if result.MatchedCount != 1 {
hctx.Svcs.Log.Errorf("importWarpedImage failed to upsert DB image: %v. Result: %+v", scanImage.ImagePath, result)
}
// Save the image to S3
s3Path := filepaths.GetImageFilePath(savePath)
err = hctx.Svcs.FS.WriteObject(hctx.Svcs.Config.DatasetsBucket, s3Path, imgData)
if err != nil {
// Failed to upload image data, so no point in having a DB entry now either...
coll = hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
filter := bson.D{{Key: "_id", Value: scanImage.ImagePath}}
delOpt := options.Delete()
_ /*delImgResult*/, err = coll.DeleteOne(ctx, filter, delOpt)
return err
}
return nil
}
func failJob(errMsg string, jobId string, hctx wsHelpers.HandlerContext) {
job.CompleteJob(jobId, false, errMsg, "", []string{}, hctx.Svcs.MongoDB, hctx.Svcs.TimeStamper, hctx.Svcs.Log)
}
func getRTTAndMeta(imageUrl string) (string, gdsfilename.FileNameMeta, error) {
srcMeta, err := gdsfilename.ParseFileName(path.Base(imageUrl))
if err != nil {
return "", srcMeta, err
}
rtt, err := srcMeta.RTT()
return rtt, srcMeta, err
}
func findImage(imageName string, imageRTT string, hctx wsHelpers.HandlerContext) (string, *protos.ScanImage, error) {
ctx := context.TODO()
coll := hctx.Svcs.MongoDB.Collection(dbCollections.ImagesName)
foundItems, err := coll.Find(ctx, bson.M{"originscanid": imageRTT}, options.Find())
if err != nil {
return "", nil, err
}
items := []*protos.ScanImage{}
err = foundItems.All(context.TODO(), &items)
if err != nil {
return "", nil, err
}
// Find it within what we've got
comparableBaseName := gdsfilename.MakeComparableName(path.Base(imageName))
for _, item := range items {
comparableName := gdsfilename.MakeComparableName(path.Base(item.ImagePath))
if comparableName == comparableBaseName {
return item.ImagePath, item, nil
}
}
return "", nil, mongo.ErrNoDocuments // fmt.Errorf("Failed to find image: %v for scan %v", imageName, imageRTT)
}
// NOTE: make sure to only pass the file name, not a path like scanid/file.png
func readWarpedImageTransform(fileName string) (*protos.ImageMatchTransform, string, error) {
ext := path.Ext(fileName)
if len(ext) > 0 {
fileName = fileName[0 : len(fileName)-len(ext)]
}
parts := strings.Split(fileName, "-")
// Expecting:
// "warped"
// "zoom_<zoom info>"
// "win_<window info>"
// Don't know what SN100D0 is?
// And the original image file name
// Don't know what -A is though?
if len(parts) < 4 {
// We expect warped, zoom_, win_ and the file name at a bare minimum
return nil, "", fmt.Errorf("Warped image name does not have expected components")
}
// Check each bit
if parts[0] != "warped" {
return nil, "", fmt.Errorf("Expected warped image name to start with warped-")
}
zoomPrefix := "zoom_"
if !strings.HasPrefix(parts[1], zoomPrefix) {
return nil, "", fmt.Errorf("Expected warped image name second part to contain zoom")
}
winPrefix := "win_"
if !strings.HasPrefix(parts[2], winPrefix) {
return nil, "", fmt.Errorf("Expected warped image name second part to contain window")
}
// Ensure we have the gds-formatted file name, and check if we have the optional -A or whatever at the end
endPiece := ""
if len(parts[len(parts)-1]) == 1 { // Just looking for A, eg ends in -A.png...
endPiece = "-" + parts[len(parts)-1]
}
gdsFileName := parts[len(parts)-1]
if len(endPiece) > 0 {
gdsFileName = parts[len(parts)-2]
}
// Verify that we got it
_, err := gdsfilename.ParseFileName(gdsFileName + ext)
if err != nil {
return nil, "", fmt.Errorf("Failed to find GDS file name section in image name: %v. Error: %v", gdsFileName, err)
}
// Read the zoom and window
zoomStr := parts[1][len(zoomPrefix):] // Snipping number out of: zoom_4.478153138946561
zoom, err := strconv.ParseFloat(zoomStr, 64)
if err != nil {
return nil, "", fmt.Errorf("Expected warped image zoom to contain a float, found: %v", zoomStr)
}
winPartsStr := strings.Split(parts[2][len(winPrefix):], "_") // Snipping numbers out of: win_519_40_1232_1183
winParts := []int{}
for c, n := range winPartsStr {
winNum, err := strconv.Atoi(n)
if err != nil {
return nil, "", fmt.Errorf("Expected warped image window value %v to contain a number, found: %v", c+1, n)
}
winParts = append(winParts, winNum)
}
// win_... - this is stored as lines & samples, then width/height of the image
// so line = y, samples = x in our world
// Example: warped-zoom_4.478153138946561-win_519_40_1232_1183-SN100D0-SC3_0921_0748732957_027RAS_N0450000SRLC11373_0000LMJ01-A.png
// Has zoom factor 4.478153138946561 and x, y: (40, 519)
// At this point we should have enough to reconstruct the transform as we interpret it
return &protos.ImageMatchTransform{
XOffset: float32(winParts[1]),
YOffset: float32(winParts[0]),
XScale: float32(zoom),
YScale: float32(zoom),
},
// Provide a nicer file name to save as
// If this image is coregistered in other ways we don't want it to clash, but we also don't want to generate random chars
// for its name so it doesn't just proliferate (and a re-import can overwrite it). So lets try preserve what's likely to be
// unique in the file name - the x,y!
fmt.Sprintf("coreg-%v_%v-%v%v%v", winParts[1], winParts[0], gdsFileName, endPiece, ext),
nil
}