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Mike Phares 2022-02-18 16:43:19 -07:00
parent 5183414f2b
commit 112cc94296
120 changed files with 13406 additions and 5361 deletions
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723
Adaptation/.vscode/format-report.json vendored
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"FileName": "IScopeInfo.cs",
"FilePath": "L:\\Workspaces\\33_CS29_79_72\\MIT_EAF_Adaptations\\Trunk\\MET08RESIHGCV\\06_SourceCode\\MET08RESIHGCV\\Adaptation\\Shared\\Properties\\IScopeInfo.cs",
"FileChanges": [
{
"LineNumber": 20,
"CharNumber": 2,
"DiagnosticId": "FINALNEWLINE",
"FormatDescription": "Fix final newline. Delete 2 characters."
}
]
},
{
"DocumentId": {
"ProjectId": {
"Id": "39ed7366-e68d-48fb-8c3f-a640836170aa"
},
"Id": "5a076f2e-46dd-4e9d-a58f-331bf5ff5f56"
},
"FileName": "Test.cs",
"FilePath": "L:\\Workspaces\\33_CS29_79_72\\MIT_EAF_Adaptations\\Trunk\\MET08RESIHGCV\\06_SourceCode\\MET08RESIHGCV\\Adaptation\\Shared\\Test.cs",
"FileChanges": [
{
"LineNumber": 57,
"CharNumber": 2,
"DiagnosticId": "FINALNEWLINE",
"FormatDescription": "Fix final newline. Delete 2 characters."
}
]
},
{
"DocumentId": {
"ProjectId": {
"Id": "39ed7366-e68d-48fb-8c3f-a640836170aa"
},
"Id": "9e1cd5e7-2f78-4af5-a51a-accca7322480"
},
"FileName": "Logistics.cs",
"FilePath": "L:\\Workspaces\\33_CS29_79_72\\MIT_EAF_Adaptations\\Trunk\\MET08RESIHGCV\\06_SourceCode\\MET08RESIHGCV\\Adaptation\\Shared\\Logistics.cs",
"FileChanges": [
{
"LineNumber": 1,
"CharNumber": 1,
"DiagnosticId": "IMPORTS",
"FormatDescription": "Fix imports ordering."
}
]
},
{
"DocumentId": {
"ProjectId": {
"Id": "39ed7366-e68d-48fb-8c3f-a640836170aa"
},
"Id": "9e1cd5e7-2f78-4af5-a51a-accca7322480"
},
"FileName": "Logistics.cs",
"FilePath": "L:\\Workspaces\\33_CS29_79_72\\MIT_EAF_Adaptations\\Trunk\\MET08RESIHGCV\\06_SourceCode\\MET08RESIHGCV\\Adaptation\\Shared\\Logistics.cs",
"FileChanges": [
{
"LineNumber": 186,
"CharNumber": 31,
"DiagnosticId": "IDE0003",
"FormatDescription": "error IDE0003: Name can be simplified."
}
]
},
{
"DocumentId": {
"ProjectId": {
"Id": "39ed7366-e68d-48fb-8c3f-a640836170aa"
},
"Id": "eb4f7a88-7379-4241-879f-195bc633541c"
},
"FileName": "ProcessData.FileRead.Description.cs",
"FilePath": "L:\\Workspaces\\33_CS29_79_72\\MIT_EAF_Adaptations\\Trunk\\MET08RESIHGCV\\06_SourceCode\\MET08RESIHGCV\\Adaptation\\Helpers\\ProcessData.FileRead.Description.cs",
"FileChanges": [
{
"LineNumber": 398,
"CharNumber": 41,
"DiagnosticId": "CS1503",
"FormatDescription": "error CS1503: Argument 1: cannot convert from \u0027Adaptation.Helpers.ProcessData.FileRead.Description\u0027 to \u0027IProcessDataDescription\u0027"
}
]
}
]
[]

40
Adaptation/.vscode/settings.json vendored Normal file
View File

@ -0,0 +1,40 @@
{
"cSpell.words": [
"Ccomp",
"EQPT",
"HGCV",
"horiz",
"IKVM",
"ISMTP",
"JOBID",
"linc",
"messa",
"Navg",
"NOPAUSE",
"PDFC",
"pdmodel",
"PDSF",
"RESIHGCV",
"Rhosl"
],
"workbench.colorCustomizations": {
"activityBar.activeBackground": "#79b2e4",
"activityBar.activeBorder": "#d42b85",
"activityBar.background": "#79b2e4",
"activityBar.foreground": "#15202b",
"activityBar.inactiveForeground": "#15202b99",
"activityBarBadge.background": "#d42b85",
"activityBarBadge.foreground": "#e7e7e7",
"sash.hoverBorder": "#79b2e4",
"statusBar.background": "#4e9adc",
"statusBar.foreground": "#15202b",
"statusBarItem.hoverBackground": "#2981ce",
"statusBarItem.remoteBackground": "#4e9adc",
"statusBarItem.remoteForeground": "#15202b",
"titleBar.activeBackground": "#4e9adc",
"titleBar.activeForeground": "#15202b",
"titleBar.inactiveBackground": "#4e9adc99",
"titleBar.inactiveForeground": "#15202b99"
},
"peacock.color": "#4e9adc"
}

7
Adaptation/Eaf/Core/AutoGenerated/BackboneComponent.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.Core
namespace Adaptation.Eaf.Core;
public class BackboneComponent
{
public class BackboneComponent
{
}
}

7
Adaptation/Eaf/Core/AutoGenerated/BackboneStatusCache.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.Core
namespace Adaptation.Eaf.Core;
public class BackboneStatusCache
{
public class BackboneStatusCache
{
}
}

7
Adaptation/Eaf/Core/AutoGenerated/ILoggingSetupManager.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.Core
namespace Adaptation.Eaf.Core;
public interface ILoggingSetupManager
{
public interface ILoggingSetupManager
{
}
}

7
Adaptation/Eaf/Core/AutoGenerated/StatusItem.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.Core
namespace Adaptation.Eaf.Core;
public class StatusItem
{
public class StatusItem
{
}
}

83
Adaptation/Eaf/Core/Backbone.cs
View File

@ -2,47 +2,52 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Eaf.Core
namespace Adaptation.Eaf.Core;
public class Backbone
{
public class Backbone
{
public const string STATE_ERROR = "Error";
public const string STATE_OFFLINE = "Offline";
public const string STATE_RUNNING = "Running";
public const string STATE_SHUTDOWN = "Shutting Down";
public const string STATE_STARTING = "Starting";
protected Backbone() { }
#pragma warning disable CA1822
#pragma warning disable CA2254
#pragma warning disable IDE0060
[NotNull]
public static Backbone Instance { get; }
[NotNull]
public ILoggingSetupManager LoggingConfigurationManager { get; set; }
public BackboneStatusCache Status { get; }
public bool IsAutomatedRestartActive { get; }
public bool IsReadyForRestart { get; }
public string StartTime { get; }
public string State { get; }
public string Name { get; }
public string ConfigurationServiceAddress { get; }
public string CellName { get; }
protected bool IsInitialized { get; set; }
protected Dictionary<string, BackboneComponent> BackboneComponents { get; }
public const string STATE_ERROR = "Error";
public const string STATE_OFFLINE = "Offline";
public const string STATE_RUNNING = "Running";
public const string STATE_SHUTDOWN = "Shutting Down";
public const string STATE_STARTING = "Starting";
protected Backbone() { }
[NotNull]
public static Backbone Instance { get; }
[NotNull]
public ILoggingSetupManager LoggingConfigurationManager { get; set; }
public BackboneStatusCache Status { get; }
public bool IsAutomatedRestartActive { get; }
public bool IsReadyForRestart { get; }
public string StartTime { get; }
public string State { get; }
public string Name { get; }
public string ConfigurationServiceAddress { get; }
public string CellName { get; }
protected bool IsInitialized { get; set; }
protected Dictionary<string, BackboneComponent> BackboneComponents { get; }
public void AddBackboneComponent(BackboneComponent backboneComponent) { }
public bool ContainsBackboneComponent(string id) => throw new NotImplementedException();
[Obsolete("Use the capabilities exposed via the Status property -> GetAll. Will be removed with next major release.")]
public List<StatusItem> GetAllStatuses() => throw new NotImplementedException();
public BackboneComponent GetBackboneComponentById(string id) => throw new NotImplementedException();
public List<T> GetBackboneComponentsOfType<T>() => throw new NotImplementedException();
public List<BackboneComponent> GetBackboneComponentsOfType(Type type) => throw new NotImplementedException();
public void RegisterSubprocess(int pid) { }
[Obsolete("Use the capabilities exposed via the Status property -> SetValue. Will be removed with next major release.")]
public void SetStatus(string statusName, string statusValue) { }
[Obsolete("Use the capabilities exposed via the Status property -> SetValue. Will be removed with next major release.")]
public void SetStatus(BackboneComponent source, string statusName, string statusValue) { }
protected void CloseConnectionOfComponents(List<BackboneComponent> components) { }
protected virtual void StopAllComponents() { }
protected void StopComponents(List<BackboneComponent> components) { }
public void AddBackboneComponent(BackboneComponent backboneComponent) { }
public bool ContainsBackboneComponent(string id) { throw new NotImplementedException(); }
[Obsolete("Use the capabilities exposed via the Status property -> GetAll. Will be removed with next major release.")]
public List<StatusItem> GetAllStatuses() { throw new NotImplementedException(); }
public BackboneComponent GetBackboneComponentById(string id) { throw new NotImplementedException(); }
public List<T> GetBackboneComponentsOfType<T>() { throw new NotImplementedException(); }
public List<BackboneComponent> GetBackboneComponentsOfType(Type type) { throw new NotImplementedException(); }
public void RegisterSubprocess(int pid) { }
[Obsolete("Use the capabilities exposed via the Status property -> SetValue. Will be removed with next major release.")]
public void SetStatus(string statusName, string statusValue) { }
[Obsolete("Use the capabilities exposed via the Status property -> SetValue. Will be removed with next major release.")]
public void SetStatus(BackboneComponent source, string statusName, string statusValue) { }
protected void CloseConnectionOfComponents(List<BackboneComponent> components) { }
protected virtual void StopAllComponents() { }
protected void StopComponents(List<BackboneComponent> components) { }
}
}

31
Adaptation/Eaf/Core/Smtp/EmailMessage.cs
View File

@ -1,24 +1,25 @@
using System;
namespace Adaptation.Eaf.Core.Smtp
namespace Adaptation.Eaf.Core.Smtp;
public class EmailMessage
{
public class EmailMessage
{
public EmailMessage() { }
public EmailMessage(string subject, string body, MailPriority priority = MailPriority.Normal) { }
#pragma warning disable CA2254
#pragma warning disable IDE0060
public string Body { get; }
public MailPriority Priority { get; }
public string Subject { get; }
public EmailMessage() { }
public EmailMessage(string subject, string body, MailPriority priority = MailPriority.Normal) { }
public EmailMessage PriorityHigh() { throw new NotImplementedException(); }
public EmailMessage PriorityLow() { throw new NotImplementedException(); }
public EmailMessage PriorityNormal() { throw new NotImplementedException(); }
public EmailMessage SetBody(string body) { throw new NotImplementedException(); }
public EmailMessage SetPriority(MailPriority priority) { throw new NotImplementedException(); }
public EmailMessage SetSubject(string subject) { throw new NotImplementedException(); }
public string Body { get; }
public MailPriority Priority { get; }
public string Subject { get; }
}
public EmailMessage PriorityHigh() => throw new NotImplementedException();
public EmailMessage PriorityLow() => throw new NotImplementedException();
public EmailMessage PriorityNormal() => throw new NotImplementedException();
public EmailMessage SetBody(string body) => throw new NotImplementedException();
public EmailMessage SetPriority(MailPriority priority) => throw new NotImplementedException();
public EmailMessage SetSubject(string subject) => throw new NotImplementedException();
}

11
Adaptation/Eaf/Core/Smtp/ISmtp.cs
View File

@ -1,9 +1,6 @@
namespace Adaptation.Eaf.Core.Smtp
namespace Adaptation.Eaf.Core.Smtp;
public interface ISmtp
{
public interface ISmtp
{
void Send(EmailMessage message);
}
void Send(EmailMessage message);
}

15
Adaptation/Eaf/Core/Smtp/MailPriority.cs
View File

@ -1,11 +1,8 @@
namespace Adaptation.Eaf.Core.Smtp
namespace Adaptation.Eaf.Core.Smtp;
public enum MailPriority
{
public enum MailPriority
{
Low = 0,
Normal = 1,
High = 2
}
Low = 0,
Normal = 1,
High = 2
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/ChangeDataCollectionHandler.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class ChangeDataCollectionHandler
{
public class ChangeDataCollectionHandler
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/DataCollectionRequest.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class DataCollectionRequest
{
public class DataCollectionRequest
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/EquipmentEvent.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class EquipmentEvent
{
public class EquipmentEvent
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/EquipmentException.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class EquipmentException
{
public class EquipmentException
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/EquipmentSelfDescription.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class EquipmentSelfDescription
{
public class EquipmentSelfDescription
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/GetParameterValuesHandler.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class GetParameterValuesHandler
{
public class GetParameterValuesHandler
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IConnectionControl.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IConnectionControl
{
public interface IConnectionControl
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IDataTracingHandler.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IDataTracingHandler
{
public interface IDataTracingHandler
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IEquipmentCommandService.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IEquipmentCommandService
{
public interface IEquipmentCommandService
{
}
}

23
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IEquipmentControl.cs
View File

@ -1,16 +1,15 @@
using Adaptation.PeerGroup.GCL.Annotations;
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IEquipmentControl : IPackageSource
{
public interface IEquipmentControl : IPackageSource
{
[NotNull]
IEquipmentSelfDescriptionBuilder SelfDescriptionBuilder { get; }
[NotNull]
IEquipmentDataCollection DataCollection { get; }
[NotNull]
IEquipmentCommandService Commands { get; }
[NotNull]
IConnectionControl Connection { get; }
}
[NotNull]
IEquipmentSelfDescriptionBuilder SelfDescriptionBuilder { get; }
[NotNull]
IEquipmentDataCollection DataCollection { get; }
[NotNull]
IEquipmentCommandService Commands { get; }
[NotNull]
IConnectionControl Connection { get; }
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IEquipmentSelfDescriptionBuilder.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IEquipmentSelfDescriptionBuilder
{
public interface IEquipmentSelfDescriptionBuilder
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IPackage.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IPackage
{
public interface IPackage
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/ISelfDescriptionLookup.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface ISelfDescriptionLookup
{
public interface ISelfDescriptionLookup
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/IVirtualParameterValuesHandler.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IVirtualParameterValuesHandler
{
public interface IVirtualParameterValuesHandler
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/SetParameterValuesHandler.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class SetParameterValuesHandler
{
public class SetParameterValuesHandler
{
}
}

7
Adaptation/Eaf/EquipmentCore/Control/AutoGenerated/TraceRequest.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public class TraceRequest
{
public class TraceRequest
{
}
}

63
Adaptation/Eaf/EquipmentCore/Control/IEquipmentDataCollection.cs
View File

@ -3,37 +3,36 @@ using Adaptation.Eaf.EquipmentCore.SelfDescription.ElementDescription;
using System;
using System.Collections.Generic;
namespace Adaptation.Eaf.EquipmentCore.Control
{
public interface IEquipmentDataCollection
{
IVirtualParameterValuesHandler VirtualParameterValuesHandler { get; }
ISelfDescriptionLookup SelfDescriptionLookup { get; }
EquipmentSelfDescription SelfDescription { get; }
IEnumerable<DataCollectionRequest> ActiveRequests { get; }
IDataTracingHandler DataTracingHandler { get; }
namespace Adaptation.Eaf.EquipmentCore.Control;
ParameterValue CreateParameterValue(EquipmentParameter parameter, object value);
void NotifyDataTracingAvailable(bool isAvailable);
void RegisterChangeDataCollectionHandler(ChangeDataCollectionHandler handler);
void RegisterDataTracingHandler(IDataTracingHandler handler);
void RegisterGetParameterValuesHandler(GetParameterValuesHandler handler);
void RegisterSetParameterValuesHandler(SetParameterValuesHandler handler);
void TriggerDeactivate(DataCollectionRequest deactivateRequest);
void TriggerEvent(EquipmentEvent equipmentEvent, IEnumerable<ParameterValue> parameters);
void TriggerEvent(EquipmentEvent equipmentEvent, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters);
void TriggerPerformanceRestored();
void TriggerPerformanceWarning();
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters);
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters, DateTime equipmentTimeStamp);
}
public interface IEquipmentDataCollection
{
IVirtualParameterValuesHandler VirtualParameterValuesHandler { get; }
ISelfDescriptionLookup SelfDescriptionLookup { get; }
EquipmentSelfDescription SelfDescription { get; }
IEnumerable<DataCollectionRequest> ActiveRequests { get; }
IDataTracingHandler DataTracingHandler { get; }
ParameterValue CreateParameterValue(EquipmentParameter parameter, object value);
void NotifyDataTracingAvailable(bool isAvailable);
void RegisterChangeDataCollectionHandler(ChangeDataCollectionHandler handler);
void RegisterDataTracingHandler(IDataTracingHandler handler);
void RegisterGetParameterValuesHandler(GetParameterValuesHandler handler);
void RegisterSetParameterValuesHandler(SetParameterValuesHandler handler);
void TriggerDeactivate(DataCollectionRequest deactivateRequest);
void TriggerEvent(EquipmentEvent equipmentEvent, IEnumerable<ParameterValue> parameters);
void TriggerEvent(EquipmentEvent equipmentEvent, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride);
void TriggerExceptionClear(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, string severityOverride, string descriptionOverride);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerExceptionSet(EquipmentException equipmentException, IEnumerable<ParameterValue> parameters);
void TriggerPerformanceRestored();
void TriggerPerformanceWarning();
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters);
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters, IPackage sourcePackage);
void TriggerTraceSample(TraceRequest traceRequest, long sampleId, IEnumerable<ParameterValue> parameters, DateTime equipmentTimeStamp);
}

7
Adaptation/Eaf/EquipmentCore/Control/IPackageSource.cs
View File

@ -1,6 +1,5 @@
namespace Adaptation.Eaf.EquipmentCore.Control
namespace Adaptation.Eaf.EquipmentCore.Control;
public interface IPackageSource
{
public interface IPackageSource
{
}
}

29
Adaptation/Eaf/EquipmentCore/DataCollection/Reporting/ParameterValue.cs
View File

@ -2,19 +2,24 @@
using Adaptation.PeerGroup.GCL.Annotations;
using System;
namespace Adaptation.Eaf.EquipmentCore.DataCollection.Reporting
namespace Adaptation.Eaf.EquipmentCore.DataCollection.Reporting;
public class ParameterValue
{
public class ParameterValue
{
public ParameterValue(EquipmentParameter definition, object value) { }
public ParameterValue(EquipmentParameter definition, object value, DateTime timestamp) { }
public virtual object Value { get; protected internal set; }
[NotNull]
public EquipmentParameter Definition { get; }
public DateTime Timestamp { get; protected set; }
#pragma warning disable CA1822
#pragma warning disable CA2254
#pragma warning disable IDE0060
public ParameterValue(EquipmentParameter definition, object value) { }
public ParameterValue(EquipmentParameter definition, object value, DateTime timestamp) { }
public virtual object Value { get; protected internal set; }
[NotNull]
public EquipmentParameter Definition { get; }
public DateTime Timestamp { get; protected set; }
public virtual ParameterValue Clone(EquipmentParameter newDefinition) => throw new NotImplementedException();
public override string ToString() => base.ToString();
public virtual ParameterValue Clone(EquipmentParameter newDefinition) { throw new NotImplementedException(); }
public override string ToString() { return base.ToString(); }
}
}

37
Adaptation/Eaf/EquipmentCore/SelfDescription/ElementDescription/EquipmentParameter.cs
View File

@ -1,24 +1,27 @@
using Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes;
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ElementDescription
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ElementDescription;
public class EquipmentParameter
{
public class EquipmentParameter
{
public EquipmentParameter(EquipmentParameter source, ParameterTypeDefinition typeDefinition) { }
public EquipmentParameter(string name, ParameterTypeDefinition typeDefinition, string description, bool isTransient = false, bool isReadOnly = true) { }
public EquipmentParameter(string id, string name, ParameterTypeDefinition typeDefinition, string description, bool isTransient = false, bool isReadOnly = true) { }
public string Name { get; }
public string Id { get; }
public string Description { get; }
public string SourcePath { get; }
public string SourceEquipment { get; }
public ParameterTypeDefinition TypeDefinition { get; }
public bool IsTransient { get; }
public bool IsReadOnly { get; }
#pragma warning disable CA2254
#pragma warning disable IDE0060
public override string ToString() { return base.ToString(); }
public string ToStringWithDetails() { return base.ToString(); }
}
public EquipmentParameter(EquipmentParameter source, ParameterTypeDefinition typeDefinition) { }
public EquipmentParameter(string name, ParameterTypeDefinition typeDefinition, string description, bool isTransient = false, bool isReadOnly = true) { }
public EquipmentParameter(string id, string name, ParameterTypeDefinition typeDefinition, string description, bool isTransient = false, bool isReadOnly = true) { }
public string Name { get; }
public string Id { get; }
public string Description { get; }
public string SourcePath { get; }
public string SourceEquipment { get; }
public ParameterTypeDefinition TypeDefinition { get; }
public bool IsTransient { get; }
public bool IsReadOnly { get; }
public override string ToString() => base.ToString();
public string ToStringWithDetails() => base.ToString();
}

24
Adaptation/Eaf/EquipmentCore/SelfDescription/ParameterTypes/Field.cs
View File

@ -1,12 +1,16 @@
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes
{
public class Field
{
public Field(string name, string description, bool canBeNull, ParameterTypeDefinition typeDefinition) { }
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes;
public class Field
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
public Field(string name, string description, bool canBeNull, ParameterTypeDefinition typeDefinition) { }
public string Name { get; }
public string Description { get; }
public ParameterTypeDefinition TypeDefinition { get; }
public bool CanBeNull { get; }
public string Name { get; }
public string Description { get; }
public ParameterTypeDefinition TypeDefinition { get; }
public bool CanBeNull { get; }
}
}

20
Adaptation/Eaf/EquipmentCore/SelfDescription/ParameterTypes/ParameterTypeDefinition.cs
View File

@ -1,12 +1,16 @@
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes;
public abstract class ParameterTypeDefinition
{
public abstract class ParameterTypeDefinition
{
public ParameterTypeDefinition(string name, string description) { }
public string Name { get; }
public string Description { get; }
#pragma warning disable CA2254
#pragma warning disable IDE0060
public ParameterTypeDefinition(string name, string description) { }
public string Name { get; }
public string Description { get; }
public override string ToString() => base.ToString();
public override string ToString() { return base.ToString(); }
}
}

16
Adaptation/Eaf/EquipmentCore/SelfDescription/ParameterTypes/StructuredType.cs
View File

@ -1,12 +1,16 @@
using System.Collections.Generic;
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes
namespace Adaptation.Eaf.EquipmentCore.SelfDescription.ParameterTypes;
public class StructuredType : ParameterTypeDefinition
{
public class StructuredType : ParameterTypeDefinition
{
public StructuredType(string name, string description, IList<Field> fields) : base(name, description) { }
#pragma warning disable CA1822
#pragma warning disable CA2254
#pragma warning disable IDE0060
public StructuredType(string name, string description, IList<Field> fields) : base(name, description) { }
public IList<Field> Fields { get; }
public IList<Field> Fields { get; }
}
}

7
Adaptation/Eaf/Management/ConfigurationData/CellAutomation/IConfigurationObject.cs
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@ -1,6 +1,5 @@
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
public interface IConfigurationObject
{
public interface IConfigurationObject
{
}
}

44
Adaptation/Eaf/Management/ConfigurationData/CellAutomation/ModelObjectParameterDefinition.cs
View File

@ -1,26 +1,30 @@
using System;
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
[System.Runtime.Serialization.DataContractAttribute(IsReference = true)]
public class ModelObjectParameterDefinition : IConfigurationObject
{
[System.Runtime.Serialization.DataContractAttribute(IsReference = true)]
public class ModelObjectParameterDefinition : IConfigurationObject
{
public ModelObjectParameterDefinition() { }
public ModelObjectParameterDefinition(string name, ModelObjectParameterType valueType, object defaultValue) { }
public ModelObjectParameterDefinition(string name, Type enumType, object defaultValue) { }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long Id { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Name { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Value { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual ModelObjectParameterType ValueType { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string EnumType { get; set; }
#pragma warning disable CA2254
#pragma warning disable IDE0060
public ModelObjectParameterDefinition() { }
public ModelObjectParameterDefinition(string name, ModelObjectParameterType valueType, object defaultValue) { }
public ModelObjectParameterDefinition(string name, Type enumType, object defaultValue) { }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long Id { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Name { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Value { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual ModelObjectParameterType ValueType { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string EnumType { get; set; }
public virtual ModelObjectParameterDefinition Clone() => null;
public virtual bool IsValidValue(string value) => false;
public virtual ModelObjectParameterDefinition Clone() { return null; }
public virtual bool IsValidValue(string value) { return false; }
}
}

29
Adaptation/Eaf/Management/ConfigurationData/CellAutomation/ModelObjectParameterType.cs
View File

@ -1,17 +1,16 @@
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation
namespace Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
public enum ModelObjectParameterType
{
public enum ModelObjectParameterType
{
String = 0,
Bool = 1,
Byte = 2,
SignedByte = 3,
Integer = 4,
UnsignedInteger = 5,
LongInteger = 6,
UnsignedLongInteger = 7,
Double = 8,
Float = 9,
Enum = 10
}
String = 0,
Bool = 1,
Byte = 2,
SignedByte = 3,
Integer = 4,
UnsignedInteger = 5,
LongInteger = 6,
UnsignedLongInteger = 7,
Double = 8,
Float = 9,
Enum = 10
}

77
Adaptation/Eaf/Management/ConfigurationData/Semiconductor/CellInstances/SecsConnectionConfiguration.cs
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@ -1,44 +1,43 @@
using Adaptation.PeerGroup.GCL.SecsDriver;
using System;
namespace Adaptation.Eaf.Management.ConfigurationData.Semiconductor.CellInstances
{
[System.Runtime.Serialization.DataContractAttribute]
public class SecsConnectionConfiguration
{
public SecsConnectionConfiguration() { }
namespace Adaptation.Eaf.Management.ConfigurationData.Semiconductor.CellInstances;
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T6HsmsControlMessage { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T5ConnectionSeperation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T4InterBlock { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T3MessageReply { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T2Protocol { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T1InterCharacter { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual SerialBaudRate? BaudRate { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual SecsTransportType? PortType { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? Port { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan LinkTestTimer { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Host { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? DeviceId { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual HsmsSessionMode? SessionMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual HsmsConnectionMode? ConnectionMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T7ConnectionIdle { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T8NetworkIntercharacter { get; set; }
}
[System.Runtime.Serialization.DataContractAttribute]
public class SecsConnectionConfiguration
{
public SecsConnectionConfiguration() { }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T6HsmsControlMessage { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T5ConnectionSeperation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T4InterBlock { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T3MessageReply { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T2Protocol { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T1InterCharacter { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual SerialBaudRate? BaudRate { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual SecsTransportType? PortType { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? Port { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan LinkTestTimer { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual string Host { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? DeviceId { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual HsmsSessionMode? SessionMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual HsmsConnectionMode? ConnectionMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T7ConnectionIdle { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual TimeSpan T8NetworkIntercharacter { get; set; }
}

141
Adaptation/FileHandlers/Archive/FileRead.cs Normal file
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@ -0,0 +1,141 @@
using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Duplicator;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Text.Json;
namespace Adaptation.FileHandlers.Archive;
public class FileRead : Shared.FileRead, IFileRead
{
public FileRead(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted) :
base(new Description(), false, smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
{
_MinFileLength = 10;
_NullData = string.Empty;
_Logistics = new Logistics(this);
if (_FileParameter is null)
throw new Exception(cellInstanceConnectionName);
if (_ModelObjectParameterDefinitions is null)
throw new Exception(cellInstanceConnectionName);
if (!_IsDuplicator)
throw new Exception(cellInstanceConnectionName);
}
void IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception) => Move(extractResults, exception);
void IFileRead.WaitForThread() => WaitForThread(thread: null, threadExceptions: null);
string IFileRead.GetEventDescription()
{
string result = _Description.GetEventDescription();
return result;
}
List<string> IFileRead.GetHeaderNames()
{
List<string> results = _Description.GetHeaderNames();
return results;
}
string[] IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception)
{
string[] results = Move(extractResults, to, from, resolvedFileLocation, exception);
return results;
}
JsonProperty[] IFileRead.GetDefault()
{
JsonProperty[] results = _Description.GetDefault(this, _Logistics);
return results;
}
Dictionary<string, string> IFileRead.GetDisplayNamesJsonElement()
{
Dictionary<string, string> results = _Description.GetDisplayNamesJsonElement(this);
return results;
}
List<IDescription> IFileRead.GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData)
{
List<IDescription> results = _Description.GetDescriptions(fileRead, _Logistics, tests, processData);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.GetExtractResult(string reportFullPath, string eventName)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
if (string.IsNullOrEmpty(eventName))
throw new Exception();
_ReportFullPath = reportFullPath;
DateTime dateTime = DateTime.Now;
results = GetExtractResult(reportFullPath, dateTime);
if (results.Item3 is null)
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(results.Item1, Array.Empty<Test>(), JsonSerializer.Deserialize<JsonElement[]>("[]"), results.Item4);
if (results.Item3.Length > 0 && _IsEAFHosted)
WritePDSF(this, results.Item3);
UpdateLastTicksDuration(DateTime.Now.Ticks - dateTime.Ticks);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.ReExtract()
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
List<string> headerNames = _Description.GetHeaderNames();
Dictionary<string, string> keyValuePairs = _Description.GetDisplayNamesJsonElement(this);
results = ReExtract(this, headerNames, keyValuePairs);
return results;
}
void IFileRead.CheckTests(Test[] tests, bool extra)
{
if (_Description is not Description)
throw new Exception();
}
void IFileRead.Callback(object state) => throw new Exception(string.Concat("Not ", nameof(_IsDuplicator)));
private void MoveArchive(DateTime dateTime)
{
if (dateTime == DateTime.MinValue)
{ }
string logisticsSequence = _Logistics.Sequence.ToString();
string weekOfYear = _Calendar.GetWeekOfYear(_Logistics.DateTimeFromSequence, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
string weekDirectory = string.Concat(_Logistics.DateTimeFromSequence.ToString("yyyy"), "_Week_", weekOfYear, @"\", _Logistics.DateTimeFromSequence.ToString("yyyy-MM-dd"));
string jobIdDirectory = string.Concat(_FileConnectorConfiguration.TargetFileLocation, @"\", _Logistics.JobID);
if (!Directory.Exists(jobIdDirectory))
_ = Directory.CreateDirectory(jobIdDirectory);
//string destinationArchiveDirectory = string.Concat(jobIdDirectory, @"\!Archive\", weekDirectory);
string destinationArchiveDirectory = string.Concat(Path.GetDirectoryName(_FileConnectorConfiguration.TargetFileLocation), @"\Archive\", _Logistics.JobID, @"\", weekDirectory);
if (!Directory.Exists(destinationArchiveDirectory))
_ = Directory.CreateDirectory(destinationArchiveDirectory);
string[] matchDirectories = new string[] { GetDirectoriesRecursively(jobIdDirectory, logisticsSequence).FirstOrDefault() };
if ((matchDirectories is null) || matchDirectories.Length != 1)
throw new Exception("Didn't find directory by logistics sequence");
string sourceDirectory = Path.GetDirectoryName(matchDirectories[0]);
destinationArchiveDirectory = string.Concat(destinationArchiveDirectory, @"\", Path.GetFileName(sourceDirectory));
Directory.Move(sourceDirectory, destinationArchiveDirectory);
}
private Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, DateTime dateTime)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
Tuple<string, string[], string[]> pdsf = ProcessDataStandardFormat.GetLogisticsColumnsAndBody(reportFullPath);
_Logistics = new Logistics(reportFullPath, pdsf.Item1);
SetFileParameterLotIDToLogisticsMID();
JsonElement[] jsonElements = ProcessDataStandardFormat.GetArray(pdsf);
List<Shared.Properties.IDescription> descriptions = GetDuplicatorDescriptions(jsonElements);
Tuple<Test[], Dictionary<Test, List<Shared.Properties.IDescription>>> tuple = GetTuple(this, descriptions, extra: false);
MoveArchive(dateTime);
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(pdsf.Item1, tuple.Item1, jsonElements, new List<FileInfo>());
return results;
}
}

39
Adaptation/FileHandlers/CellInstanceConnectionName.cs Normal file
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@ -0,0 +1,39 @@
using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
namespace Adaptation.FileHandlers;
public class CellInstanceConnectionName
{
internal static IFileRead Get(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted)
{
IFileRead result;
bool isDuplicator = cellInstanceConnectionName.StartsWith(cellInstanceName);
if (isDuplicator)
{
string cellInstanceConnectionNameBase = cellInstanceConnectionName.Replace("-", string.Empty);
int hyphens = cellInstanceConnectionName.Length - cellInstanceConnectionNameBase.Length;
result = hyphens switch
{
(int)MET08RESIHGCV.Hyphen.IsArchive => new Archive.FileRead(smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted),
(int)MET08RESIHGCV.Hyphen.IsDummy => new Dummy.FileRead(smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted),
(int)MET08RESIHGCV.Hyphen.IsXToArchive => new ToArchive.FileRead(smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted),
_ => new MET08RESIHGCV.FileRead(smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
};
}
else
{
result = cellInstanceConnectionName switch
{
nameof(pcl) => new pcl.FileRead(smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted),
_ => throw new Exception(),
};
}
return result;
}
}

308
Adaptation/FileHandlers/Dummy/FileRead.cs Normal file
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@ -0,0 +1,308 @@
using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Duplicator;
using Adaptation.Shared.Methods;
using Infineon.Monitoring.MonA;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.IO.Compression;
using System.Linq;
using System.Text.Json;
using System.Threading;
namespace Adaptation.FileHandlers.Dummy;
public class FileRead : Shared.FileRead, IFileRead
{
private readonly Timer _Timer;
private int _LastDummyRunIndex;
private readonly string[] _CellNames;
public FileRead(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted) :
base(new Description(), false, smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
{
_MinFileLength = 10;
_NullData = string.Empty;
_Logistics = new Logistics(this);
if (_FileParameter is null)
throw new Exception(cellInstanceConnectionName);
if (_ModelObjectParameterDefinitions is null)
throw new Exception(cellInstanceConnectionName);
if (!_IsDuplicator)
throw new Exception(cellInstanceConnectionName);
_LastDummyRunIndex = -1;
List<string> cellNames = new();
_Timer = new Timer(Callback, null, Timeout.Infinite, Timeout.Infinite);
ModelObjectParameterDefinition[] cellInstanceCollection = GetProperties(cellInstanceConnectionName, modelObjectParameters, "CellInstance.", ".Alias");
foreach (ModelObjectParameterDefinition modelObjectParameterDefinition in cellInstanceCollection)
cellNames.Add(modelObjectParameterDefinition.Name.Split('.')[1]);
_CellNames = cellNames.ToArray();
if (Debugger.IsAttached || fileConnectorConfiguration.PreProcessingMode == FileConnectorConfiguration.PreProcessingModeEnum.Process)
Callback(null);
else
{
TimeSpan timeSpan = new(DateTime.Now.AddSeconds(_FileConnectorConfiguration.FileScanningIntervalInSeconds.Value).Ticks - DateTime.Now.Ticks);
_ = _Timer.Change((long)timeSpan.TotalMilliseconds, Timeout.Infinite);
}
}
void IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception) => Move(extractResults, exception);
void IFileRead.WaitForThread() => WaitForThread(thread: null, threadExceptions: null);
string IFileRead.GetEventDescription()
{
string result = _Description.GetEventDescription();
return result;
}
List<string> IFileRead.GetHeaderNames()
{
List<string> results = _Description.GetHeaderNames();
return results;
}
string[] IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception)
{
string[] results = Move(extractResults, to, from, resolvedFileLocation, exception);
return results;
}
JsonProperty[] IFileRead.GetDefault()
{
JsonProperty[] results = _Description.GetDefault(this, _Logistics);
return results;
}
Dictionary<string, string> IFileRead.GetDisplayNamesJsonElement()
{
Dictionary<string, string> results = _Description.GetDisplayNamesJsonElement(this);
return results;
}
List<IDescription> IFileRead.GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData)
{
List<IDescription> results = _Description.GetDescriptions(fileRead, _Logistics, tests, processData);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.GetExtractResult(string reportFullPath, string eventName) => throw new Exception(string.Concat("See ", nameof(CallbackFileExists)));
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.ReExtract() => throw new Exception(string.Concat("See ", nameof(CallbackFileExists)));
void IFileRead.CheckTests(Test[] tests, bool extra)
{
if (_Description is not Description)
throw new Exception();
}
void IFileRead.Callback(object state) => Callback(state);
private void CallbackInProcessCleared(string sourceArchiveFile, string traceDummyFile, string targetFileLocation, string monARessource, string inProcessDirectory, long sequence, bool warning)
{
const string site = "sjc";
string stateName = string.Concat("Dummy_", _EventName);
const string monInURL = "http://moninhttp.sjc.infineon.com/input/text";
MonIn monIn = MonIn.GetInstance(monInURL);
try
{
if (warning)
{
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Warning.ToString() });
_ = monIn.SendStatus(site, monARessource, stateName, State.Warning);
for (int i = 1; i < 12; i++)
Thread.Sleep(500);
}
ZipFile.ExtractToDirectory(sourceArchiveFile, inProcessDirectory);
string[] files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.TopDirectoryOnly);
if (files.Length > 250)
throw new Exception("Safety net!");
foreach (string file in files)
File.SetLastWriteTime(file, new DateTime(sequence));
if (!_FileConnectorConfiguration.IncludeSubDirectories.Value)
{
foreach (string file in files)
File.Move(file, Path.Combine(targetFileLocation, Path.GetFileName(file)));
}
else
{
string[] directories = Directory.GetDirectories(inProcessDirectory, "*", SearchOption.AllDirectories);
foreach (string directory in directories)
_ = Directory.CreateDirectory(string.Concat(targetFileLocation, directory.Substring(inProcessDirectory.Length)));
foreach (string file in files)
File.Move(file, string.Concat(targetFileLocation, file.Substring(inProcessDirectory.Length)));
}
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Ok.ToString() });
_ = monIn.SendStatus(site, monARessource, stateName, State.Ok);
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Critical.ToString(), exception.Message, exception.StackTrace });
_ = monIn.SendStatus(site, monARessource, stateName, State.Critical);
}
}
private void CallbackFileExists(string sourceArchiveFile, string traceDummyFile, string targetFileLocation, string monARessource, long sequence)
{
string[] files;
bool warning = false;
if (!_DummyRuns.ContainsKey(monARessource))
_DummyRuns.Add(monARessource, new List<long>());
if (!_DummyRuns[monARessource].Contains(sequence))
_DummyRuns[monARessource].Add(sequence);
File.AppendAllLines(traceDummyFile, new string[] { sourceArchiveFile });
string inProcessDirectory = Path.Combine(_ProgressPath, "Dummy In-Process", sequence.ToString());
if (!Directory.Exists(inProcessDirectory))
_ = Directory.CreateDirectory(inProcessDirectory);
files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.AllDirectories);
if (files.Any())
{
if (files.Length > 250)
throw new Exception("Safety net!");
try
{
foreach (string file in files)
File.Delete(file);
}
catch (Exception) { }
}
if (_FileConnectorConfiguration.IncludeSubDirectories.Value)
files = Directory.GetFiles(targetFileLocation, "*", SearchOption.AllDirectories);
else
files = Directory.GetFiles(targetFileLocation, "*", SearchOption.TopDirectoryOnly);
foreach (string file in files)
{
if (new FileInfo(file).LastWriteTime.Ticks == sequence)
{
warning = true;
break;
}
}
CallbackInProcessCleared(sourceArchiveFile, traceDummyFile, targetFileLocation, monARessource, inProcessDirectory, sequence, warning);
}
private string GetCellName(string pathSegment)
{
string result = string.Empty;
foreach (string cellName in _CellNames)
{
if (pathSegment.ToLower().Contains(cellName.ToLower()))
{
result = cellName;
break;
}
}
if (string.IsNullOrEmpty(result))
{
int count;
List<(string CellName, int Count)> cellNames = new();
foreach (string cellName in _CellNames)
{
count = 0;
foreach (char @char in cellName.ToLower())
count += pathSegment.Length - pathSegment.ToLower().Replace(@char.ToString(), string.Empty).Length;
cellNames.Add(new(cellName, count));
}
result = (from l in cellNames orderby l.CellName.Length, l.Count descending select l.CellName).First();
}
return result;
}
private void Callback(object state)
{
try
{
string pathSegment;
string monARessource;
DateTime dateTime = DateTime.Now;
if (!_FileConnectorConfiguration.TargetFileLocation.Contains(_FileConnectorConfiguration.SourceFileLocation))
throw new Exception("Target must start with source");
bool check = dateTime.Hour > 7 && dateTime.Hour < 18 && dateTime.DayOfWeek != DayOfWeek.Sunday && dateTime.DayOfWeek != DayOfWeek.Saturday;
if (!_IsEAFHosted || check)
{
string checkSegment;
string checkDirectory;
string sourceFileFilter;
string sourceArchiveFile;
string sourceFileLocation;
string weekOfYear = _Calendar.GetWeekOfYear(dateTime, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
string traceDummyDirectory = Path.Combine(Path.GetPathRoot(_TracePath), "TracesDummy", _CellInstanceName, "Source", $"{dateTime:yyyy}___Week_{weekOfYear}");
if (!Directory.Exists(traceDummyDirectory))
_ = Directory.CreateDirectory(traceDummyDirectory);
string traceDummyFile = Path.Combine(traceDummyDirectory, $"{dateTime.Ticks} - {_CellInstanceName}.txt");
File.AppendAllText(traceDummyFile, string.Empty);
if (_FileConnectorConfiguration.SourceFileLocation.EndsWith("\\"))
sourceFileLocation = _FileConnectorConfiguration.SourceFileLocation;
else
sourceFileLocation = string.Concat(_FileConnectorConfiguration.SourceFileLocation, '\\');
for (int i = 0; i < _FileConnectorConfiguration.SourceFileFilters.Count; i++)
{
_LastDummyRunIndex += 1;
if (_LastDummyRunIndex >= _FileConnectorConfiguration.SourceFileFilters.Count)
_LastDummyRunIndex = 0;
sourceFileFilter = _FileConnectorConfiguration.SourceFileFilters[_LastDummyRunIndex];
sourceArchiveFile = Path.GetFullPath(string.Concat(sourceFileLocation, sourceFileFilter));
if (File.Exists(sourceArchiveFile))
{
checkSegment = _FileConnectorConfiguration.TargetFileLocation.Substring(sourceFileLocation.Length);
checkDirectory = Path.GetDirectoryName(sourceArchiveFile);
for (int z = 0; z < int.MaxValue; z++)
{
if (checkDirectory.Length < sourceFileLocation.Length || !checkDirectory.StartsWith(sourceFileLocation))
break;
checkDirectory = Path.GetDirectoryName(checkDirectory);
if (Directory.Exists(Path.Combine(checkDirectory, checkSegment)))
{
checkDirectory = Path.Combine(checkDirectory, checkSegment);
break;
}
}
if (!checkDirectory.EndsWith(checkSegment))
throw new Exception("Could not determine dummy target directory for extract!");
if (!long.TryParse(Path.GetFileNameWithoutExtension(sourceArchiveFile).Replace("x", string.Empty), out long sequence))
throw new Exception("Invalid file name for source archive file!");
pathSegment = checkDirectory.Substring(sourceFileLocation.Length);
monARessource = GetCellName(pathSegment);
if (string.IsNullOrEmpty(monARessource))
throw new Exception("Could not determine which cell archive file is associated with!");
if (_IsEAFHosted)
CallbackFileExists(sourceArchiveFile, traceDummyFile, checkDirectory, monARessource, sequence);
break;
}
}
}
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
}
try
{
TimeSpan timeSpan = new(DateTime.Now.AddSeconds(_FileConnectorConfiguration.FileScanningIntervalInSeconds.Value).Ticks - DateTime.Now.Ticks);
_ = _Timer.Change((long)timeSpan.TotalMilliseconds, Timeout.Infinite);
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
}
}
}

280
Adaptation/FileHandlers/FileRead.cs
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@ -1,280 +0,0 @@
//using Adaptation.Helpers;
//using Adaptation.Shared;
//using Adaptation.Shared.Metrology;
//using log4net;
//using System;
//using System.Collections.Generic;
//using System.Globalization;
//using System.IO;
//using System.Linq;
//using System.Text.Json;
//using System.Text.RegularExpressions;
//namespace Adaptation.FileHandlers
//{
// public partial class FileRead : ILogic
// {
// private ConfigData _ConfigData;
// public FileRead()
// {
// Logistics = new Logistics();
// _Log = LogManager.GetLogger(typeof(FileRead));
// }
// public ILogic ShallowCopy()
// {
// return (ILogic)MemberwiseClone();
// }
// public void WaitForThread()
// {
// WaitForThread(thread: null, threadExceptions: null);
// }
// public Tuple<string, ConfigDataBase> GetOpenInsightTuple()
// {
// Tuple<string, ConfigDataBase> restuls = new Tuple<string, ConfigDataBase>(_ConfigData.OpenInsightSiViewer, _ConfigData);
// return restuls;
// }
// public Tuple<string, JsonElement?, List<FileInfo>> GetExtractResult(string reportFullPath, string eventName)
// {
// Tuple<string, JsonElement?, List<FileInfo>> results;
// _FileParameter.Clear();
// DateTime dateTime = DateTime.Now;
// if (_ConfigData.IsEvent && _ConfigData.Duplicator is null)
// results = GetExtractResult(reportFullPath);
// else if (_ConfigData.Duplicator.HasValue)
// results = GetDuplicatorExtractResult(reportFullPath, dateTime);
// else
// throw new Exception();
// if (results.Item2 is null)
// results = new Tuple<string, JsonElement?, List<FileInfo>>(results.Item1, JsonSerializer.Deserialize<JsonElement>("[]"), results.Item3);
// int count = results.Item2.Value.GetArrayLength();
// if (count > 0 && _ConfigData.EafHosted)
// WritePDSF(results.Item2.Value);
// UpdateLastTicksDuration(DateTime.Now.Ticks - dateTime.Ticks);
// return results;
// }
// private Tuple<string, JsonElement?, List<FileInfo>> GetExtractResult(string reportFullPath)
// {
// Tuple<string, JsonElement?, List<FileInfo>> results = new Tuple<string, JsonElement?, List<FileInfo>>(string.Empty, null, new List<FileInfo>());
// FileInfo fileInfo = new FileInfo(reportFullPath);
// Logistics = new Logistics(ConfigData.NullData, _ConfigData.CellNames, _ConfigData.MesEntities, fileInfo, useSplitForMID: false);
// SetFileParameterLotID(Logistics.MID);
// if (fileInfo.Length < ConfigData.MinFileLength)
// results.Item3.Add(fileInfo);
// else
// {
// ProcessData processData = new ProcessData(this, _ConfigData, results.Item3);
// if (!(processData.Header is null))
// {
// string mid = string.Concat(processData.Header.Reactor, "-", processData.Header.RDS, "-", processData.Header.PSN);
// mid = Regex.Replace(mid, @"[\\,\/,\:,\*,\?,\"",\<,\>,\|]", "_").Split('\r')[0].Split('\n')[0];
// Logistics.MID = mid;
// SetFileParameterLotID(mid);
// Logistics.ProcessJobID = processData.Header.Reactor;
// }
// if (processData.Header is null || !processData.Details.Any())
// throw new Exception();
// results = processData.GetResults(this, _ConfigData, results.Item3);
// }
// return results;
// }
// private Tuple<string, JsonElement?, List<FileInfo>> GetDuplicatorExtractResult(string reportFullPath, DateTime dateTime)
// {
// Tuple<string, JsonElement?, List<FileInfo>> results;
// Tuple<string, string[], string[]> pdsf = ProcessDataStandardFormat.GetLogisticsColumnsAndBody(reportFullPath);
// Logistics = new Logistics(reportFullPath, pdsf.Item1);
// SetFileParameterLotIDToLogisticsMID();
// JsonElement pdsdBodyValues = ProcessDataStandardFormat.GetArray(pdsf);
// results = new Tuple<string, JsonElement?, List<FileInfo>>(pdsf.Item1, pdsdBodyValues, new List<FileInfo>());
// List<Duplicator.Description> processDataDescriptions = _ConfigData.GetProcessDataDescriptions(pdsdBodyValues);
// Dictionary<Test, List<Duplicator.Description>> keyValuePairs = ProcessData.GetKeyValuePairs(_ConfigData, pdsdBodyValues, processDataDescriptions, extra: false);
// bool isNotUsedInsightMetrologyViewerAttachments = (!(_Configuration.FileScanningIntervalInSeconds > 0) && _ConfigData.Duplicator.Value == ConfigData.Level.IsXToOpenInsightMetrologyViewerAttachments);
// bool isDummyRun = (ConfigData.DummyRuns.Any() && ConfigData.DummyRuns.ContainsKey(Logistics.JobID) && ConfigData.DummyRuns[Logistics.JobID].Any() && (from l in ConfigData.DummyRuns[Logistics.JobID] where l == Logistics.Sequence select 1).Any());
// if (isDummyRun)
// {
// try { File.SetLastWriteTime(reportFullPath, dateTime); } catch (Exception) { }
// }
// string duplicateDirectory;
// string[] segments = Path.GetFileNameWithoutExtension(reportFullPath).Split('_');
// if (_ConfigData.Duplicator.Value != ConfigData.Level.IsXToOpenInsight)
// duplicateDirectory = string.Concat(_Configuration.TargetFileLocation, @"\", segments[0]);
// else
// duplicateDirectory = string.Concat(Path.GetDirectoryName(Path.GetDirectoryName(_Configuration.TargetFileLocation)), @"\Data");
// if (segments.Length > 2)
// duplicateDirectory = string.Concat(duplicateDirectory, @"-", segments[2]);
// if (!Directory.Exists(duplicateDirectory))
// Directory.CreateDirectory(duplicateDirectory);
// if ((isDummyRun || isNotUsedInsightMetrologyViewerAttachments || _Configuration.FileScanningIntervalInSeconds > 0) && _ConfigData.Duplicator.Value != ConfigData.Level.IsXToArchive && _ConfigData.Duplicator.Value != ConfigData.Level.IsArchive)
// {
// string successDirectory;
// if (_ConfigData.Duplicator.Value != ConfigData.Level.IsXToAPC)
// successDirectory = string.Empty;
// else
// {
// successDirectory = string.Concat(Path.GetDirectoryName(_Configuration.TargetFileLocation), @"\ViewerPath");
// if (!Directory.Exists(successDirectory))
// Directory.CreateDirectory(successDirectory);
// }
// CultureInfo cultureInfo = new CultureInfo("en-US");
// Calendar calendar = cultureInfo.Calendar;
// List<Tuple<IScopeInfo, string>> tuples = new List<Tuple<IScopeInfo, string>>();
// string duplicateFile = string.Concat(duplicateDirectory, @"\", Path.GetFileName(reportFullPath));
// string weekOfYear = calendar.GetWeekOfYear(Logistics.DateTimeFromSequence, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
// string weekDirectory = string.Concat(Logistics.DateTimeFromSequence.ToString("yyyy"), "_Week_", weekOfYear, @"\", Logistics.DateTimeFromSequence.ToString("yyyy-MM-dd"));
// string logisticsSequenceMemoryDirectory = string.Concat(_ConfigData.MemoryPath, @"\", _ConfigData.GetEquipmentType(), @"\Source\", weekDirectory, @"\", Logistics.Sequence);
// if (!Directory.Exists(logisticsSequenceMemoryDirectory))
// Directory.CreateDirectory(logisticsSequenceMemoryDirectory);
// if (_ConfigData.Duplicator.Value == ConfigData.Level.IsXToAPC)
// {
// if (!isDummyRun && _ConfigData.EafHosted)
// File.Copy(reportFullPath, duplicateFile, overwrite: true);
// }
// else
// {
// if (_ConfigData.Duplicator.Value == ConfigData.Level.IsXToOpenInsightMetrologyViewer)
// {
// List<ProcessData.FileRead.Description> fileReadDescriptions = ProcessData.GetProcessDataFileReadDescriptions(_ConfigData, pdsdBodyValues);
// ProcessData.WSRequest wsRequest = new ProcessData.WSRequest(this, fileReadDescriptions);
// if (!isDummyRun && _ConfigData.EafHosted)
// {
// Tuple<string, WS.Results> wsResults = WS.SendData(_ConfigData.OpenInsightMetrologyViewerAPI, wsRequest);
// if (!wsResults.Item2.Success)
// throw new Exception(wsResults.ToString());
// _Log.Debug(wsResults.Item2.HeaderID);
// File.WriteAllText(string.Concat(logisticsSequenceMemoryDirectory, @"\", nameof(WS.Results), ".json"), wsResults.Item1);
// }
// }
// else
// {
// Test test;
// string lines;
// IScopeInfo scopeInfo;
// foreach (KeyValuePair<Test, List<Duplicator.Description>> keyValuePair in keyValuePairs)
// {
// test = keyValuePair.Key;
// //scopeInfo = new ScopeInfo(this, _ConfigData, test);
// if (_ConfigData.Duplicator.Value != ConfigData.Level.IsXToOpenInsight)
// scopeInfo = new ScopeInfo(this, _ConfigData, test, _ConfigData.IqsFile, _ConfigData.IqsQueryFilter);
// else
// scopeInfo = new ScopeInfo(this, _ConfigData, test, _ConfigData.OpenInsightFilePattern, _ConfigData.IqsQueryFilter);
// //lines = ProcessDataStandardFormat.GetLines(Logistics, scopeInfo, names, values, dateFormat: "M/d/yyyy hh:mm:ss tt", timeFormat: string.Empty, pairedColumns: ExtractResultPairedColumns);
// List<ProcessData.FileRead.Description> fileReadDescriptions = ProcessData.GetProcessDataFileReadDescriptions(_ConfigData, pdsdBodyValues);
// lines = ProcessData.GetLines(this, fileReadDescriptions);
// tuples.Add(new Tuple<IScopeInfo, string>(scopeInfo, lines));
// }
// }
// if (_ConfigData.Duplicator.Value == ConfigData.Level.IsXToOpenInsightMetrologyViewerAttachments)
// {
// string[] matchDirectories = Shared1567(reportFullPath, tuples);
// if (!isDummyRun && _ConfigData.EafHosted && !isNotUsedInsightMetrologyViewerAttachments)
// {
// List<ProcessData.FileRead.Description> fileReadDescriptions = ProcessData.GetProcessDataFileReadDescriptions(_ConfigData, pdsdBodyValues);
// ProcessData.PostOpenInsightMetrologyViewerAttachments(_Log, _ConfigData, Logistics, dateTime, logisticsSequenceMemoryDirectory, fileReadDescriptions, matchDirectories[0]);
// }
// }
// }
// if (_ConfigData.Duplicator.Value != ConfigData.Level.IsXToOpenInsightMetrologyViewer && _ConfigData.Duplicator.Value != ConfigData.Level.IsXToOpenInsightMetrologyViewerAttachments)
// Shared0413(dateTime, isDummyRun, successDirectory, duplicateDirectory, tuples, duplicateFile);
// }
// if (_ConfigData.Duplicator.Value == ConfigData.Level.IsXToOpenInsightMetrologyViewerAttachments)
// {
// string destinationDirectory;
// //string destinationDirectory = WriteScopeInfo(_ConfigData.ProgressPath, Logistics, dateTime, duplicateDirectory, tuples);
// FileInfo fileInfo = new FileInfo(reportFullPath);
// string logisticsSequence = Logistics.Sequence.ToString();
// if (fileInfo.Exists && fileInfo.LastWriteTime < fileInfo.CreationTime)
// File.SetLastWriteTime(reportFullPath, fileInfo.CreationTime);
// string jobIdDirectory = string.Concat(Path.GetDirectoryName(Path.GetDirectoryName(_ConfigData.FileConnectorConfiguration.TargetFileLocation)), @"\", Logistics.JobID);
// if (!Directory.Exists(jobIdDirectory))
// Directory.CreateDirectory(jobIdDirectory);
// string[] matchDirectories;
// if (!_ConfigData.EafHosted)
// matchDirectories = new string[] { Path.GetDirectoryName(Path.GetDirectoryName(reportFullPath)) };
// else
// matchDirectories = Directory.GetDirectories(jobIdDirectory, string.Concat(Logistics.MID, '*', logisticsSequence, '*'), SearchOption.TopDirectoryOnly);
// if ((matchDirectories is null) || matchDirectories.Length != 1)
// throw new Exception("Didn't find directory by logistics sequence");
// destinationDirectory = matchDirectories[0];
// if (isDummyRun)
// Shared0607(reportFullPath, duplicateDirectory, logisticsSequence, destinationDirectory);
// else
// {
// List<ProcessData.FileRead.Description> fileReadDescriptions = ProcessData.GetProcessDataFileReadDescriptions(_ConfigData, pdsdBodyValues);
// ProcessData.WSRequest wsRequest = new ProcessData.WSRequest(this, fileReadDescriptions);
// JsonSerializerOptions jsonSerializerOptions = new JsonSerializerOptions { WriteIndented = true };
// string json = JsonSerializer.Serialize(wsRequest, wsRequest.GetType(), jsonSerializerOptions);
// if (_ConfigData.EafHosted)
// Shared1277(reportFullPath, destinationDirectory, logisticsSequence, jobIdDirectory, json);
// else
// {
// string jsonFileName = Path.ChangeExtension(reportFullPath, ".json");
// string historicalText = File.ReadAllText(jsonFileName);
// if (json != historicalText)
// throw new Exception("File doesn't match historical!");
// }
// }
// }
// return results;
// }
// private void MoveArchive()
// {
// CultureInfo cultureInfo = new CultureInfo("en-US");
// Calendar calendar = cultureInfo.Calendar;
// string logisticsSequence = Logistics.Sequence.ToString();
// string weekOfYear = calendar.GetWeekOfYear(Logistics.DateTimeFromSequence, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
// string weekDirectory = string.Concat(Logistics.DateTimeFromSequence.ToString("yyyy"), "_Week_", weekOfYear, @"\", Logistics.DateTimeFromSequence.ToString("yyyy-MM-dd"));
// string jobIdDirectory = string.Concat(_ConfigData.FileConnectorConfiguration.TargetFileLocation, @"\", Logistics.JobID);
// if (!Directory.Exists(jobIdDirectory))
// Directory.CreateDirectory(jobIdDirectory);
// //string destinationArchiveDirectory = string.Concat(jobIdDirectory, @"\!Archive\", weekDirectory);
// string destinationArchiveDirectory = string.Concat(Path.GetDirectoryName(_ConfigData.FileConnectorConfiguration.TargetFileLocation), @"\Archive\", Logistics.JobID, @"\", weekDirectory);
// if (!Directory.Exists(destinationArchiveDirectory))
// Directory.CreateDirectory(destinationArchiveDirectory);
// string[] matchDirectories = new string[] { GetDirectoriesRecursively(jobIdDirectory, logisticsSequence).FirstOrDefault() };
// if ((matchDirectories is null) || matchDirectories.Length != 1)
// throw new Exception("Didn't find directory by logistics sequence");
// string sourceDirectory = Path.GetDirectoryName(matchDirectories[0]);
// destinationArchiveDirectory = string.Concat(destinationArchiveDirectory, @"\", Path.GetFileName(sourceDirectory));
// Directory.Move(sourceDirectory, destinationArchiveDirectory);
// }
// public void Move(string reportFullPath, Tuple<string, JsonElement?, List<FileInfo>> extractResults, Exception exception = null)
// {
// Shared1872(reportFullPath, exception);
// bool isErrorFile = !(exception is null);
// if (!isErrorFile && _ConfigData.Duplicator.HasValue)
// {
// if (_ConfigData.Duplicator.Value == ConfigData.Level.IsXToArchive)
// Shared0192(reportFullPath);
// else if (_ConfigData.EafHosted && _ConfigData.Duplicator.Value == ConfigData.Level.IsArchive)
// MoveArchive();
// if (_ConfigData.EafHosted && !string.IsNullOrEmpty(_ConfigData.ProgressPath))
// CreateProgressDirectory(_ConfigData.ProgressPath, Logistics, (int?)_ConfigData.Duplicator, exceptionLines: null);
// }
// if (!isErrorFile && _ConfigData.Duplicator is null)
// WriteIO(reportFullPath);
// if (!_ConfigData.EafHosted)
// {
// object @object = GetFilePathGeneratorInfo(reportFullPath, isErrorFile: false);
// if (!(@object is null) && @object is string to)
// {
// if (to.Contains("%"))
// _Log.Debug("Can't debug without EAF Hosting");
// else
// Shared1124(reportFullPath, extractResults, to, _Configuration.SourceFileLocation, resolvedFileLocation: string.Empty, exception: null);
// }
// }
// }
// }
//}

507
Adaptation/FileHandlers/MET08RESIHGCV/FileRead.cs Normal file
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@ -0,0 +1,507 @@
using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Duplicator;
using Adaptation.Shared.Methods;
using Adaptation.Shared.Metrology;
using Infineon.Monitoring.MonA;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.IO.Compression;
using System.Linq;
using System.Reflection;
using System.Text.Json;
using System.Text.Json.Serialization;
using System.Threading;
namespace Adaptation.FileHandlers.MET08RESIHGCV;
public class FileRead : Shared.FileRead, IFileRead
{
private readonly Timer _Timer;
private int _LastDummyRunIndex;
private readonly bool _IsDummy;
private readonly bool _IsNaEDA;
private readonly bool _IsXToAPC;
private readonly string _IqsFile;
private readonly bool _IsXToIQSSi;
private readonly bool _IsXToSPaCe;
private readonly string _MemoryPath;
private readonly bool _IsXToOpenInsight;
private readonly string _LincPDFCFileName;
private readonly string _OpenInsightFilePattern;
private readonly bool _IsXToOpenInsightMetrologyViewer;
private readonly Dictionary<string, string> _CellNames;
private readonly string _OpenInsightMetrologyViewerAPI;
private readonly bool _IsXToOpenInsightMetrologyViewerAttachments;
public FileRead(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted) :
base(new Description(), false, smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
{
_MinFileLength = 10;
_NullData = string.Empty;
_Logistics = new Logistics(this);
if (_FileParameter is null)
throw new Exception(cellInstanceConnectionName);
if (_ModelObjectParameterDefinitions is null)
throw new Exception(cellInstanceConnectionName);
if (!_IsDuplicator)
throw new Exception(cellInstanceConnectionName);
_LastDummyRunIndex = -1;
_IsDummy = _Hyphens == (int)Hyphen.IsDummy;
_IsNaEDA = _Hyphens == (int)Hyphen.IsNaEDA;
_IsXToAPC = _Hyphens == (int)Hyphen.IsXToAPC;
_CellNames = new Dictionary<string, string>();
_IsXToIQSSi = _Hyphens == (int)Hyphen.IsXToIQSSi;
_IsXToSPaCe = _Hyphens == (int)Hyphen.IsXToSPaCe;
_IsXToOpenInsight = _Hyphens == (int)Hyphen.IsXToOpenInsight;
_IsXToOpenInsightMetrologyViewer = _Hyphens == (int)Hyphen.IsXToOpenInsightMetrologyViewer;
_IqsFile = GetPropertyValue(cellInstanceConnectionName, modelObjectParameters, "IQS.File");
_MemoryPath = GetPropertyValue(cellInstanceConnectionName, modelObjectParameters, "Path.Memory");
_IsXToOpenInsightMetrologyViewerAttachments = _Hyphens == (int)Hyphen.IsXToOpenInsightMetrologyViewerAttachments;
_OpenInsightFilePattern = GetPropertyValue(cellInstanceConnectionName, modelObjectParameters, "OpenInsight.FilePattern");
_OpenInsightMetrologyViewerAPI = GetPropertyValue(cellInstanceConnectionName, modelObjectParameters, "OpenInsight.MetrologyViewerAPI");
ModelObjectParameterDefinition[] cellInstanceCollection = GetProperties(cellInstanceConnectionName, modelObjectParameters, "CellInstance.", ".Path");
foreach (ModelObjectParameterDefinition modelObjectParameterDefinition in cellInstanceCollection)
_CellNames.Add(modelObjectParameterDefinition.Name.Split('.')[1], modelObjectParameterDefinition.Value);
_LincPDFCFileName = string.Concat(Path.GetDirectoryName(Assembly.GetEntryAssembly().Location), @"\LincPDFC.exe");
if (_IsEAFHosted && _IsXToOpenInsightMetrologyViewerAttachments && !File.Exists(_LincPDFCFileName))
throw new Exception("LincPDFC FileName doesn't Exist!");
if (_IsDummy)
{
if (Debugger.IsAttached || fileConnectorConfiguration.PreProcessingMode == FileConnectorConfiguration.PreProcessingModeEnum.Process)
{
_Timer = new Timer(Callback, null, Timeout.Infinite, Timeout.Infinite);
Callback(null);
}
else
{
int milliSeconds;
milliSeconds = (int)(fileConnectorConfiguration.FileScanningIntervalInSeconds * 1000 / 2);
_Timer = new Timer(Callback, null, milliSeconds, Timeout.Infinite);
milliSeconds += 2000;
}
}
}
void IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception) => Move(extractResults, exception);
void IFileRead.WaitForThread() => WaitForThread(thread: null, threadExceptions: null);
string IFileRead.GetEventDescription()
{
string result = _Description.GetEventDescription();
return result;
}
List<string> IFileRead.GetHeaderNames()
{
List<string> results = _Description.GetHeaderNames();
return results;
}
string[] IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception)
{
string[] results = Move(extractResults, to, from, resolvedFileLocation, exception);
return results;
}
JsonProperty[] IFileRead.GetDefault()
{
JsonProperty[] results = _Description.GetDefault(this, _Logistics);
return results;
}
Dictionary<string, string> IFileRead.GetDisplayNamesJsonElement()
{
Dictionary<string, string> results = _Description.GetDisplayNamesJsonElement(this);
return results;
}
List<IDescription> IFileRead.GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData)
{
List<IDescription> results = _Description.GetDescriptions(fileRead, _Logistics, tests, processData);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.GetExtractResult(string reportFullPath, string eventName)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
if (string.IsNullOrEmpty(eventName))
throw new Exception();
_ReportFullPath = reportFullPath;
DateTime dateTime = DateTime.Now;
results = GetExtractResult(reportFullPath, dateTime);
if (results.Item3 is null)
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(results.Item1, Array.Empty<Test>(), JsonSerializer.Deserialize<JsonElement[]>("[]"), results.Item4);
if (results.Item3.Length > 0 && _IsEAFHosted)
WritePDSF(this, results.Item3);
UpdateLastTicksDuration(DateTime.Now.Ticks - dateTime.Ticks);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.ReExtract()
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
List<string> headerNames = _Description.GetHeaderNames();
Dictionary<string, string> keyValuePairs = _Description.GetDisplayNamesJsonElement(this);
results = ReExtract(this, headerNames, keyValuePairs);
return results;
}
void IFileRead.CheckTests(Test[] tests, bool extra)
{
if (_Description is not Description)
throw new Exception();
}
void IFileRead.Callback(object state) => Callback(state);
protected static List<pcl.Description> GetDescriptions(JsonElement[] jsonElements)
{
List<pcl.Description> results = new();
pcl.Description description;
JsonSerializerOptions jsonSerializerOptions = new() { NumberHandling = JsonNumberHandling.AllowReadingFromString | JsonNumberHandling.WriteAsString };
foreach (JsonElement jsonElement in jsonElements)
{
if (jsonElement.ValueKind != JsonValueKind.Object)
throw new Exception();
description = JsonSerializer.Deserialize<pcl.Description>(jsonElement.ToString(), jsonSerializerOptions);
results.Add(description);
}
return results;
}
private Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, DateTime dateTime)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
string duplicateDirectory;
Tuple<string, string[], string[]> pdsf = ProcessDataStandardFormat.GetLogisticsColumnsAndBody(reportFullPath);
_Logistics = new Logistics(reportFullPath, pdsf.Item1);
SetFileParameterLotIDToLogisticsMID();
JsonElement[] jsonElements = ProcessDataStandardFormat.GetArray(pdsf);
List<pcl.Description> descriptions = GetDescriptions(jsonElements);
Tuple<Test[], Dictionary<Test, List<Shared.Properties.IDescription>>> tuple = GetTuple(this, from l in descriptions select (Shared.Properties.IDescription)l, extra: false);
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(pdsf.Item1, tuple.Item1, jsonElements, new List<FileInfo>());
bool isNotUsedInsightMetrologyViewerAttachments = !(_FileConnectorConfiguration.FileScanningIntervalInSeconds > 0) && _IsXToOpenInsightMetrologyViewerAttachments;
bool isDummyRun = _DummyRuns.Any() && _DummyRuns.ContainsKey(_Logistics.JobID) && _DummyRuns[_Logistics.JobID].Any() && (from l in _DummyRuns[_Logistics.JobID] where l == _Logistics.Sequence select 1).Any();
if (isDummyRun)
{
try
{ File.SetLastWriteTime(reportFullPath, dateTime); }
catch (Exception) { }
}
string[] segments = Path.GetFileNameWithoutExtension(reportFullPath).Split('_');
if (_IsXToIQSSi)
duplicateDirectory = string.Concat(_FileConnectorConfiguration.TargetFileLocation, @"\All");
else if (!_IsXToOpenInsight)
duplicateDirectory = string.Concat(_FileConnectorConfiguration.TargetFileLocation, @"\", segments[0]);
else
duplicateDirectory = string.Concat(Path.GetDirectoryName(Path.GetDirectoryName(_FileConnectorConfiguration.TargetFileLocation)), @"\Data");
if (segments.Length > 2)
duplicateDirectory = string.Concat(duplicateDirectory, @"-", segments[2]);
if (!Directory.Exists(duplicateDirectory))
_ = Directory.CreateDirectory(duplicateDirectory);
if (isDummyRun || isNotUsedInsightMetrologyViewerAttachments || _FileConnectorConfiguration.FileScanningIntervalInSeconds > 0)
{
if (!Directory.Exists(duplicateDirectory))
_ = Directory.CreateDirectory(duplicateDirectory);
string successDirectory;
if (!_IsXToAPC)
successDirectory = string.Empty;
else
{
successDirectory = string.Concat(Path.GetDirectoryName(_FileConnectorConfiguration.TargetFileLocation), @"\ViewerPath");
if (!Directory.Exists(successDirectory))
_ = Directory.CreateDirectory(successDirectory);
}
List<Tuple<Shared.Properties.IScopeInfo, string>> tuples = new();
string duplicateFile = string.Concat(duplicateDirectory, @"\", Path.GetFileName(reportFullPath));
string weekOfYear = _Calendar.GetWeekOfYear(_Logistics.DateTimeFromSequence, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
string weekDirectory = string.Concat(_Logistics.DateTimeFromSequence.ToString("yyyy"), "_Week_", weekOfYear, @"\", _Logistics.DateTimeFromSequence.ToString("yyyy-MM-dd"));
string logisticsSequenceMemoryDirectory = string.Concat(_MemoryPath, @"\", _EquipmentType, @"\Source\", weekDirectory, @"\", _Logistics.Sequence);
if (!Directory.Exists(logisticsSequenceMemoryDirectory))
_ = Directory.CreateDirectory(logisticsSequenceMemoryDirectory);
if (_IsXToAPC)
{
if (!isDummyRun && _IsEAFHosted)
File.Copy(reportFullPath, duplicateFile, overwrite: true);
}
else
{
if (_IsXToOpenInsightMetrologyViewer)
{
WSRequest wsRequest = new(this, _Logistics, descriptions);
if (!isDummyRun && _IsEAFHosted)
{
Tuple<string, WS.Results> wsResults = WS.SendData(_OpenInsightMetrologyViewerAPI, wsRequest);
if (!wsResults.Item2.Success)
throw new Exception(wsResults.ToString());
_Log.Debug(wsResults.Item2.HeaderID);
File.WriteAllText(string.Concat(logisticsSequenceMemoryDirectory, @"\", nameof(WS.Results), ".json"), wsResults.Item1);
}
}
else
{
Test test;
string lines;
Shared.Properties.IScopeInfo scopeInfo;
foreach (KeyValuePair<Test, List<Shared.Properties.IDescription>> keyValuePair in tuple.Item2)
{
test = keyValuePair.Key;
//scopeInfo = new ScopeInfo(test);
if (!_IsXToOpenInsight)
scopeInfo = new ScopeInfo(test, _IqsFile);
else
scopeInfo = new ScopeInfo(test, _OpenInsightFilePattern);
lines = ProcessData.GetLines(this, _Logistics, descriptions);
tuples.Add(new Tuple<Shared.Properties.IScopeInfo, string>(scopeInfo, lines));
}
}
if (_IsXToOpenInsightMetrologyViewerAttachments)
{
string[] matchDirectories = Shared1567(reportFullPath, tuples);
if (!isDummyRun && _IsEAFHosted && !isNotUsedInsightMetrologyViewerAttachments)
ProcessData.PostOpenInsightMetrologyViewerAttachments(this, _Logistics, _OpenInsightMetrologyViewerAPI, _LincPDFCFileName, dateTime, logisticsSequenceMemoryDirectory, descriptions, matchDirectories[0]);
}
}
if (!_IsXToOpenInsightMetrologyViewer && !_IsXToOpenInsightMetrologyViewerAttachments)
Shared0413(dateTime, isDummyRun, successDirectory, duplicateDirectory, tuples, duplicateFile);
}
if (_IsXToOpenInsightMetrologyViewerAttachments)
{
string destinationDirectory;
//string destinationDirectory = WriteScopeInfo(_ProgressPath, _Logistics, dateTime, duplicateDirectory, tuples);
FileInfo fileInfo = new(reportFullPath);
string logisticsSequence = _Logistics.Sequence.ToString();
if (fileInfo.Exists && fileInfo.LastWriteTime < fileInfo.CreationTime)
File.SetLastWriteTime(reportFullPath, fileInfo.CreationTime);
string jobIdDirectory = string.Concat(Path.GetDirectoryName(Path.GetDirectoryName(_FileConnectorConfiguration.TargetFileLocation)), @"\", _Logistics.JobID);
if (!Directory.Exists(jobIdDirectory))
_ = Directory.CreateDirectory(jobIdDirectory);
string[] matchDirectories;
if (!_IsEAFHosted)
matchDirectories = new string[] { Path.GetDirectoryName(Path.GetDirectoryName(reportFullPath)) };
else
matchDirectories = Directory.GetDirectories(jobIdDirectory, string.Concat(_Logistics.MID, '*', logisticsSequence, '*'), SearchOption.TopDirectoryOnly);
if ((matchDirectories is null) || matchDirectories.Length != 1)
throw new Exception("Didn't find directory by logistics sequence");
destinationDirectory = matchDirectories[0];
if (isDummyRun)
Shared0607(reportFullPath, duplicateDirectory, logisticsSequence, destinationDirectory);
else
{
WSRequest wsRequest = new(this, _Logistics, descriptions);
JsonSerializerOptions jsonSerializerOptions = new() { WriteIndented = true };
string json = JsonSerializer.Serialize(wsRequest, wsRequest.GetType(), jsonSerializerOptions);
if (_IsEAFHosted)
Shared1277(reportFullPath, destinationDirectory, logisticsSequence, jobIdDirectory, json);
else
{
string jsonFileName = Path.ChangeExtension(reportFullPath, ".json");
string historicalText = File.ReadAllText(jsonFileName);
if (json != historicalText)
throw new Exception("File doesn't match historical!");
}
}
}
return results;
}
private void CallbackIsDummy(string traceDummyFile, List<Tuple<string, string, string, string, int>> tuples, bool fileConnectorConfigurationIncludeSubDirectories, bool includeSubDirectoriesExtra)
{
int fileCount;
string[] files;
string monARessource;
string checkDirectory;
string sourceArchiveFile;
string inProcessDirectory;
const string site = "sjc";
string stateName = string.Concat("Dummy_", _EventName);
const string monInURL = "http://moninhttp.sjc.infineon.com/input/text";
MonIn monIn = MonIn.GetInstance(monInURL);
foreach (Tuple<string, string, string, string, int> item in tuples)
{
monARessource = item.Item1;
sourceArchiveFile = item.Item2;
inProcessDirectory = item.Item3;
checkDirectory = item.Item4;
fileCount = item.Item5;
try
{
if (fileCount > 0 || string.IsNullOrEmpty(checkDirectory))
{
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Warning.ToString() });
_ = monIn.SendStatus(site, monARessource, stateName, State.Warning);
for (int i = 1; i < 12; i++)
Thread.Sleep(500);
}
else if (inProcessDirectory == checkDirectory)
continue;
if (!_IsEAFHosted)
continue;
if (!File.Exists(sourceArchiveFile))
continue;
if (!long.TryParse(Path.GetFileNameWithoutExtension(sourceArchiveFile).Replace("x", string.Empty), out long sequence))
continue;
ZipFile.ExtractToDirectory(sourceArchiveFile, inProcessDirectory);
if (fileConnectorConfigurationIncludeSubDirectories && includeSubDirectoriesExtra)
checkDirectory = string.Concat(checkDirectory, @"\", sequence);
if (fileConnectorConfigurationIncludeSubDirectories)
files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.AllDirectories);
else
files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.TopDirectoryOnly);
if (files.Length > 250)
throw new Exception("Safety net!");
foreach (string file in files)
File.SetLastWriteTime(file, new DateTime(sequence));
if (!fileConnectorConfigurationIncludeSubDirectories)
{
foreach (string file in files)
File.Move(file, string.Concat(checkDirectory, @"\", Path.GetFileName(file)));
}
else
{
string[] directories = Directory.GetDirectories(inProcessDirectory, "*", SearchOption.AllDirectories);
foreach (string directory in directories)
_ = Directory.CreateDirectory(string.Concat(checkDirectory, directory.Substring(inProcessDirectory.Length)));
foreach (string file in files)
File.Move(file, string.Concat(checkDirectory, file.Substring(inProcessDirectory.Length)));
}
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Ok.ToString() });
_ = monIn.SendStatus(site, monARessource, stateName, State.Ok);
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Critical.ToString(), exception.Message, exception.StackTrace });
_ = monIn.SendStatus(site, monARessource, stateName, State.Critical);
}
}
}
private void Callback(object state)
{
if (!_IsDummy)
throw new Exception();
try
{
DateTime dateTime = DateTime.Now;
bool check = dateTime.Hour > 7 && dateTime.Hour < 18 && dateTime.DayOfWeek != DayOfWeek.Sunday && dateTime.DayOfWeek != DayOfWeek.Saturday;
if (check)
{
int fileCount;
string[] files;
string monARessource;
string checkDirectory;
string sourceArchiveFile;
string sourceFileLocation;
string inProcessDirectory;
string weekOfYear = _Calendar.GetWeekOfYear(dateTime, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
string traceDummyDirectory = string.Concat(Path.GetPathRoot(_TracePath), @"\TracesDummy\", _CellInstanceName, @"\Source\", dateTime.ToString("yyyy"), "___Week_", weekOfYear);
if (!Directory.Exists(traceDummyDirectory))
_ = Directory.CreateDirectory(traceDummyDirectory);
string traceDummyFile = string.Concat(traceDummyDirectory, @"\", dateTime.Ticks, " - ", _CellInstanceName, ".txt");
File.AppendAllText(traceDummyFile, string.Empty);
List<Tuple<string, string, string, string, int>> tuples = new();
string progressDirectory = Path.GetFullPath(string.Concat(_FileConnectorConfiguration.SourceFileLocation, @"\_ Progress"));
if (progressDirectory != _ProgressPath || !Directory.Exists(progressDirectory))
throw new Exception("Invalid progress path");
foreach (KeyValuePair<string, string> keyValuePair in _CellNames)
{
monARessource = keyValuePair.Key;
if (!keyValuePair.Value.Contains('\\'))
continue;
foreach (string sourceFileFilter in _FileConnectorConfiguration.SourceFileFilter.Split('|'))
{
if (sourceFileFilter.ToLower().StartsWith(keyValuePair.Value.Replace(@"\", string.Empty)))
sourceFileLocation = Path.GetFullPath(_FileConnectorConfiguration.SourceFileLocation);
else if (_FileConnectorConfiguration.SourceFileLocation.ToLower().EndsWith(keyValuePair.Value))
sourceFileLocation = Path.GetFullPath(_FileConnectorConfiguration.SourceFileLocation);
else
sourceFileLocation = Path.GetFullPath(string.Concat(_FileConnectorConfiguration.SourceFileLocation, @"\", keyValuePair.Value));
sourceArchiveFile = Path.GetFullPath(string.Concat(sourceFileLocation, @"\", sourceFileFilter));
if (!File.Exists(sourceArchiveFile))
continue;
if (!_DummyRuns.ContainsKey(monARessource))
_DummyRuns.Add(monARessource, new List<long>());
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceFileFilter, sourceFileLocation, sourceArchiveFile, 0));
}
}
File.AppendAllLines(traceDummyFile, from l in tuples select l.Item4);
if (tuples.Any())
{
_LastDummyRunIndex += 1;
if (_LastDummyRunIndex >= tuples.Count)
_LastDummyRunIndex = 0;
monARessource = tuples[_LastDummyRunIndex].Item1;
string sourceFileFilter = tuples[_LastDummyRunIndex].Item2;
sourceFileLocation = tuples[_LastDummyRunIndex].Item3;
sourceArchiveFile = tuples[_LastDummyRunIndex].Item4;
//fileCount = tuples[_LastDummyRunIndex].Item5;
tuples.Clear();
if (long.TryParse(Path.GetFileNameWithoutExtension(sourceArchiveFile).Replace("x", string.Empty), out long sequence))
{
if (!_DummyRuns[monARessource].Contains(sequence))
_DummyRuns[monARessource].Add(sequence);
inProcessDirectory = string.Concat(progressDirectory, @"\Dummy_in process\", sequence);
checkDirectory = inProcessDirectory;
if (!Directory.Exists(checkDirectory))
_ = Directory.CreateDirectory(checkDirectory);
files = Directory.GetFiles(checkDirectory, "*", SearchOption.AllDirectories);
fileCount = files.Length;
if (files.Any())
{
if (files.Length > 250)
throw new Exception("Safety net!");
try
{
foreach (string file in files)
File.Delete(file);
}
catch (Exception) { }
}
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceArchiveFile, inProcessDirectory, checkDirectory, fileCount));
checkDirectory = sourceFileLocation;
files = Directory.GetFiles(checkDirectory, string.Concat("*", sequence, "*"), SearchOption.TopDirectoryOnly);
fileCount = files.Length;
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceArchiveFile, inProcessDirectory, checkDirectory, fileCount));
}
}
if (tuples.Any())
//CallbackIsDummy(traceDummyFile, tuples, FileConnectorConfiguration.IncludeSubDirectories.Value, includeSubDirectoriesExtra: false);
CallbackIsDummy(traceDummyFile, tuples, fileConnectorConfigurationIncludeSubDirectories: true, includeSubDirectoriesExtra: true);
}
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
}
try
{
TimeSpan timeSpan = new(DateTime.Now.AddSeconds(_FileConnectorConfiguration.FileScanningIntervalInSeconds.Value).Ticks - DateTime.Now.Ticks);
_ = _Timer.Change((long)timeSpan.TotalMilliseconds, Timeout.Infinite);
}
catch (Exception exception)
{
string subject = string.Concat("Exception:", _CellInstanceConnectionName);
string body = string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace);
try
{ _SMTP.SendHighPriorityEmailMessage(subject, body); }
catch (Exception) { }
}
}
}

15
Adaptation/FileHandlers/MET08RESIHGCV/Hyphen.cs Normal file
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namespace Adaptation.FileHandlers.MET08RESIHGCV;
public enum Hyphen
{
IsXToOpenInsightMetrologyViewer, //MetrologyWS.SendData(file, string.Concat("http://", serverName, "/api/inbound/MercuryProbe"), headerAttachments);
IsXToIQSSi, //NA <d7p1:FileScanningIntervalInSeconds>-361</d7p1:FileScanningIntervalInSeconds>
IsXToOpenInsight, //NA <d7p1:FileScanningIntervalInSeconds>-363</d7p1:FileScanningIntervalInSeconds>
IsXToOpenInsightMetrologyViewerAttachments, //Site-One
IsXToAPC,
IsXToSPaCe,
IsXToArchive,
IsArchive,
IsDummy,
IsNaEDA
}

103
Adaptation/FileHandlers/MET08RESIHGCV/ProcessData.cs Normal file
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using Adaptation.Shared;
using Adaptation.Shared.Metrology;
using Adaptation.Shared.Properties;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Text.Json;
namespace Adaptation.FileHandlers.MET08RESIHGCV;
public class ProcessData
{
internal static List<Tuple<int, Enum, string>> HyphenTuples => new()
{
new Tuple<int, Enum, string>(0, Hyphen.IsNaEDA, @"\EC_EDA\Staging\Traces\~\Source"),
new Tuple<int, Enum, string>(15, Hyphen.IsXToOpenInsightMetrologyViewer, @"\EC_EAFLog\TracesMES\~\Source"),
new Tuple<int, Enum, string>(-36, Hyphen.IsXToIQSSi, @"\EC_SPC_Si\Traces\~\PollPath"),
new Tuple<int, Enum, string>(-36, Hyphen.IsXToOpenInsight, @"\\messa01ec.ec.local\APPS\Metrology\~\Source"),
new Tuple<int, Enum, string>(36, Hyphen.IsXToOpenInsightMetrologyViewerAttachments, @"\EC_Characterization_Si\In Process\~\Source"),
new Tuple<int, Enum, string>(360, Hyphen.IsXToAPC, @"\EC_APC\Staging\Traces\~\PollPath"),
new Tuple<int, Enum, string>(-36, Hyphen.IsXToSPaCe, @"\EC_SPC_Si\Traces\~\Source"),
new Tuple<int, Enum, string>(180, Hyphen.IsXToArchive, @"\EC_EAFLog\TracesArchive\~\Source"),
new Tuple<int, Enum, string>(36, Hyphen.IsArchive, @"\EC_Characterization_Si\Processed")
//new Tuple<int, Enum, string>("IsDummy"
};
internal static string GetLines(IFileRead fileRead, Logistics logistics, List<pcl.Description> descriptions)
{
StringBuilder result = new();
if (fileRead is null)
{ }
if (logistics is null)
{ }
if (descriptions is null)
{ }
return result.ToString();
}
/// <summary>
/// Convert the raw data file to parsable file format - in this case from PCL to PDF
/// </summary>
/// <param name="sourceFile">source file to be converted to PDF</param>
/// <returns></returns>
private static string ConvertSourceFileToPdfWithChartData(string lincPDFCFileName, string sourceFile)
{
string result = Path.ChangeExtension(sourceFile, ".pdf");
if (!File.Exists(result))
{
string arguments = string.Concat("-i \"", sourceFile, "\" -o \"", result, "\"");
//string arguments = string.Concat("-dSAFER -dBATCH -dNOPAUSE -dFIXEDMEDIA -dFitPage -dAutoRotatePages=/All -dDEVICEWIDTHPOINTS=792 -dDEVICEHEIGHTPOINTS=612 -sOutputFile=\"", result, "\" -sDEVICE=pdfwrite \"", sourceFile, "\"");
Process process = Process.Start(lincPDFCFileName, arguments);
//Process process = Process.Start(ghostPCLFileName, arguments);
_ = process.WaitForExit(30000);
if (!File.Exists(result))
throw new Exception("PDF file wasn't created");
}
return result;
}
internal static void PostOpenInsightMetrologyViewerAttachments(IFileRead fileRead, Logistics logistics, string openInsightMetrologyViewerAPI, string lincPDFCFileName, DateTime dateTime, string logisticsSequenceMemoryDirectory, List<pcl.Description> descriptions, string matchDirectory)
{
if (fileRead is null)
{ }
if (dateTime == DateTime.MinValue)
{ }
if (logisticsSequenceMemoryDirectory is null)
{ }
if (descriptions is null)
{ }
if (matchDirectory is null)
{ }
string[] pclFiles = Directory.GetFiles(matchDirectory, "*.pcl", SearchOption.TopDirectoryOnly);
if (pclFiles.Length != 1)
throw new Exception("Invalid source file count!");
string wsResultsMemoryFile = string.Concat(logisticsSequenceMemoryDirectory, @"\", nameof(WS.Results), ".json");
if (!File.Exists(wsResultsMemoryFile))
throw new Exception(string.Concat("Memory file <", wsResultsMemoryFile, "> doesn't exist!"));
string json = File.ReadAllText(wsResultsMemoryFile);
WS.Results metrologyWSRequest = JsonSerializer.Deserialize<WS.Results>(json);
long wsResultsHeaderID = metrologyWSRequest.HeaderID;
List<string> pdfFiles = new();
pdfFiles.AddRange(Directory.GetFiles(matchDirectory, "*.pdf_old", SearchOption.TopDirectoryOnly));
foreach (string pdfFile in pdfFiles)
File.Delete(pdfFile);
pdfFiles.Clear();
pdfFiles.AddRange(Directory.GetFiles(matchDirectory, "*.pdf", SearchOption.TopDirectoryOnly));
foreach (string pdfFile in pdfFiles)
File.Move(pdfFile, Path.ChangeExtension(pdfFile, ".pdf_old"));
pdfFiles.Clear();
foreach (string pclFile in pclFiles.OrderBy(l => l))
pdfFiles.Add(ConvertSourceFileToPdfWithChartData(lincPDFCFileName, pclFile));
if (pdfFiles.Count == 0)
throw new Exception("Invalid *.pdf file count!");
List<WS.Attachment> headerAttachments = new()
{ new WS.Attachment(descriptions[0].HeaderUniqueId, "Data.pdf", pdfFiles[0]) };
WS.AttachFiles(openInsightMetrologyViewerAPI, wsResultsHeaderID, headerAttachments, dataAttachments: null);
}
}

158
Adaptation/FileHandlers/MET08RESIHGCV/WSRequest.cs Normal file
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using Adaptation.Shared;
using Adaptation.Shared.Properties;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Adaptation.FileHandlers.MET08RESIHGCV;
public class WSRequest
{
public bool SentToMetrology { get; set; }
public bool SentToSPC { get; set; }
//
public string Area { get; set; }
public string Ccomp { get; set; }
public string CellName { get; set; }
public string CondType { get; set; }
public string Date { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string Folder { get; set; }
public string GLimit { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string Id { get; set; }
public string Layer { get; set; }
public string Lot { get; set; }
public string Model { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string Operator { get; set; }
public string PSN { get; set; }
public string Pattern { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string Plan { get; set; }
public string RDS { get; set; }
public string RampRate { get; set; }
public string Reactor { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
public List<pcl.Detail> Details { get; protected set; }
[Obsolete("For json")] public WSRequest() { }
internal WSRequest(IFileRead fileRead, Logistics logistics, List<pcl.Description> descriptions)
{
if (fileRead is null)
{ }
Id = string.Empty;
Details = new List<pcl.Detail>();
CellName = logistics.MesEntity;
pcl.Description x = descriptions[0];
//Header
{
Area = x.Area;
Ccomp = x.Ccomp;
CondType = x.CondType;
Date = x.Date;
FlatZMean = x.FlatZMean;
FlatZRadialGradient = x.FlatZRadialGradient;
FlatZStdDev = x.FlatZStdDev;
Folder = x.Folder;
GLimit = x.GLimit;
GradeMean = x.GradeMean;
GradeRadialGradient = x.GradeRadialGradient;
GradeStdDev = x.GradeStdDev;
Operator = x.Employee;
Layer = x.Layer;
Lot = x.Lot;
Model = x.Model;
NAvgMean = x.NAvgMean;
NAvgRadialGradient = x.NAvgRadialGradient;
NAvgStdDev = x.NAvgStdDev;
NslMean = x.NslMean;
NslRadialGradient = x.NslRadialGradient;
NslStdDev = x.NslStdDev;
PSN = x.PSN;
Pattern = x.Pattern;
PhaseMean = x.PhaseMean;
PhaseRadialGradient = x.PhaseRadialGradient;
PhaseStdDev = x.PhaseStdDev;
Plan = x.Plan;
RDS = x.RDS;
RampRate = x.RampRate;
Reactor = x.Reactor;
RhoAvgMean = x.RhoAvgMean;
RhoAvgRadialGradient = x.RhoAvgRadialGradient;
RhoAvgStdDev = x.RhoAvgStdDev;
RhoMethod = x.RhoMethod;
RhoslMean = x.RhoslMean;
RhoslRadialGradient = x.RhoslRadialGradient;
RhoslStdDev = x.RhoslStdDev;
RsMean = x.RsMean;
RsRadialGradient = x.RsRadialGradient;
RsStdDev = x.RsStdDev;
SetupFile = x.SetupFile;
StartVoltage = x.StartVoltage;
StopVoltage = x.StopVoltage;
UniqueId = x.UniqueId;
VdMean = x.VdMean;
VdRadialGradient = x.VdRadialGradient;
VdStdDev = x.VdStdDev;
Wafer = x.Wafer;
WaferSize = x.WaferSize;
Zone = x.Zone;
}
pcl.Detail detail;
foreach (pcl.Description description in descriptions)
{
detail = new pcl.Detail
{
FlatZ = description.FlatZ,
Grade = description.Grade,
HeaderUniqueId = description.HeaderUniqueId,
NAvg = description.NAvg,
Nsl = description.Nsl,
Phase = description.Phase,
RhoAvg = description.RhoAvg,
Rhosl = description.Rhosl,
UniqueId = description.UniqueId,
Vd = description.Vd
};
Details.Add(detail);
}
if (Date is null)
Date = logistics.DateTimeFromSequence.ToString();
if (UniqueId is null && Details.Any())
UniqueId = Details[0].HeaderUniqueId;
}
}

140
Adaptation/FileHandlers/ToArchive/FileRead.cs Normal file
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using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Duplicator;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text.Json;
namespace Adaptation.FileHandlers.ToArchive;
public class FileRead : Shared.FileRead, IFileRead
{
public FileRead(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted) :
base(new Description(), false, smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
{
_MinFileLength = 10;
_NullData = string.Empty;
_Logistics = new Logistics(this);
if (_FileParameter is null)
throw new Exception(cellInstanceConnectionName);
if (_ModelObjectParameterDefinitions is null)
throw new Exception(cellInstanceConnectionName);
if (!_IsDuplicator)
throw new Exception(cellInstanceConnectionName);
}
void IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception)
{
bool isErrorFile = exception is not null;
if (!isErrorFile && !string.IsNullOrEmpty(_Logistics.ReportFullPath))
{
FileInfo fileInfo = new(_Logistics.ReportFullPath);
if (fileInfo.Exists && fileInfo.LastWriteTime < fileInfo.CreationTime)
File.SetLastWriteTime(_Logistics.ReportFullPath, fileInfo.CreationTime);
}
Move(extractResults, exception);
}
void IFileRead.WaitForThread() => WaitForThread(thread: null, threadExceptions: null);
string IFileRead.GetEventDescription()
{
string result = _Description.GetEventDescription();
return result;
}
List<string> IFileRead.GetHeaderNames()
{
List<string> results = _Description.GetHeaderNames();
return results;
}
string[] IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception)
{
string[] results = Move(extractResults, to, from, resolvedFileLocation, exception);
return results;
}
JsonProperty[] IFileRead.GetDefault()
{
JsonProperty[] results = _Description.GetDefault(this, _Logistics);
return results;
}
Dictionary<string, string> IFileRead.GetDisplayNamesJsonElement()
{
Dictionary<string, string> results = _Description.GetDisplayNamesJsonElement(this);
return results;
}
List<IDescription> IFileRead.GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData)
{
List<IDescription> results = _Description.GetDescriptions(fileRead, _Logistics, tests, processData);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.GetExtractResult(string reportFullPath, string eventName)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
if (string.IsNullOrEmpty(eventName))
throw new Exception();
_ReportFullPath = reportFullPath;
DateTime dateTime = DateTime.Now;
results = GetExtractResult(reportFullPath, dateTime);
if (results.Item3 is null)
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(results.Item1, Array.Empty<Test>(), JsonSerializer.Deserialize<JsonElement[]>("[]"), results.Item4);
if (results.Item3.Length > 0 && _IsEAFHosted)
WritePDSF(this, results.Item3);
UpdateLastTicksDuration(DateTime.Now.Ticks - dateTime.Ticks);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.ReExtract()
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
List<string> headerNames = _Description.GetHeaderNames();
Dictionary<string, string> keyValuePairs = _Description.GetDisplayNamesJsonElement(this);
results = ReExtract(this, headerNames, keyValuePairs);
return results;
}
void IFileRead.CheckTests(Test[] tests, bool extra)
{
if (_Description is not Description)
throw new Exception();
}
void IFileRead.Callback(object state) => throw new Exception(string.Concat("Not ", nameof(_IsDuplicator)));
private Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, DateTime dateTime)
{
if (dateTime == DateTime.MinValue)
{ }
Tuple<string, Test[], JsonElement[], List<FileInfo>> results = new(string.Empty, null, null, new List<FileInfo>());
_Logistics = new Logistics(this, reportFullPath, useSplitForMID: true);
SetFileParameterLotIDToLogisticsMID();
string[] segments = Path.GetFileNameWithoutExtension(reportFullPath).Split('_');
string duplicateDirectory = string.Concat(_FileConnectorConfiguration.TargetFileLocation, @"\", segments[0]);
if (segments.Length > 2)
duplicateDirectory = string.Concat(duplicateDirectory, @"-", segments[2]);
if (!Directory.Exists(duplicateDirectory))
_ = Directory.CreateDirectory(duplicateDirectory);
string logisticsSequence = _Logistics.Sequence.ToString();
bool isDummyRun = _DummyRuns.Any() && _DummyRuns.ContainsKey(_Logistics.JobID) && _DummyRuns[_Logistics.JobID].Any() && (from l in _DummyRuns[_Logistics.JobID] where l == _Logistics.Sequence select 1).Any();
List<Tuple<Shared.Properties.IScopeInfo, string>> tuples = new();
string destinationDirectory = WriteScopeInfo(_ProgressPath, _Logistics, dateTime, duplicateDirectory, tuples);
if (isDummyRun)
Shared0607(reportFullPath, duplicateDirectory, logisticsSequence, destinationDirectory);
return results;
}
}

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using Adaptation.Shared;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.Json;
namespace Adaptation.FileHandlers.pcl;
public class Description : IDescription, Shared.Properties.IDescription
{
public int Test { get; set; }
public int Count { get; set; }
public int Index { get; set; }
//
public string EventName { get; set; }
public string NullData { get; set; }
public string JobID { get; set; }
public string Sequence { get; set; }
public string MesEntity { get; set; }
public string ReportFullPath { get; set; }
public string ProcessJobID { get; set; }
public string MID { get; set; }
//
public string Date { get; set; }
public string Employee { get; set; }
public string Lot { get; set; }
public string PSN { get; set; }
public string Reactor { get; set; }
public string Recipe { get; set; }
//
public string Area { get; set; }
public string Folder { get; set; }
public string HeaderUniqueId { get; set; }
public string Id { get; set; }
public string Layer { get; set; }
public string Model { get; set; }
public string Pattern { get; set; }
public string Phase { get; set; }
public string Plan { get; set; }
public string RampRate { get; set; }
public string RDS { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
//
public string Ccomp { get; set; }
public string CondType { get; set; }
public string FlatZ { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string GLimit { get; set; }
public string Grade { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string NAvg { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string Nsl { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string RhoAvg { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string Rhosl { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string Vd { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
string IDescription.GetEventDescription() => "File Has been read and parsed";
List<string> IDescription.GetNames(IFileRead fileRead, Logistics logistics)
{
List<string> results = new();
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
if (@object is not JsonElement jsonElement)
throw new Exception();
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
results.Add(jsonProperty.Name);
return results;
}
List<string> IDescription.GetDetailNames()
{
List<string> results = new()
{
nameof(Area),
nameof(Folder),
nameof(HeaderUniqueId),
nameof(Id),
nameof(Layer),
nameof(Model),
nameof(Pattern),
nameof(Phase),
nameof(Plan),
nameof(RampRate),
nameof(RDS),
nameof(SetupFile),
nameof(StartVoltage),
nameof(StopVoltage),
nameof(UniqueId),
nameof(Wafer),
nameof(WaferSize),
nameof(Zone)
};
return results;
}
List<string> IDescription.GetHeaderNames()
{
List<string> results = new()
{
nameof(Date),
nameof(Employee),
nameof(Lot),
nameof(PSN),
nameof(Reactor),
nameof(Recipe)
};
return results;
}
IDescription IDescription.GetDisplayNames()
{
Description result = GetDisplayNames();
return result;
}
List<string> IDescription.GetParameterNames()
{
List<string> results = new()
{
nameof(Ccomp),
nameof(CondType),
nameof(FlatZ),
nameof(FlatZMean),
nameof(FlatZRadialGradient),
nameof(FlatZStdDev),
nameof(GLimit),
nameof(Grade),
nameof(GradeMean),
nameof(GradeRadialGradient),
nameof(GradeStdDev),
nameof(NAvg),
nameof(NAvgMean),
nameof(NAvgRadialGradient),
nameof(NAvgStdDev),
nameof(Nsl),
nameof(NslMean),
nameof(NslRadialGradient),
nameof(NslStdDev),
nameof(PhaseMean),
nameof(PhaseRadialGradient),
nameof(PhaseStdDev),
nameof(RhoAvg),
nameof(RhoAvgMean),
nameof(RhoAvgRadialGradient),
nameof(RhoAvgStdDev),
nameof(RhoMethod),
nameof(Rhosl),
nameof(RhoslMean),
nameof(RhoslRadialGradient),
nameof(RhoslStdDev),
nameof(RsMean),
nameof(RsRadialGradient),
nameof(RsStdDev),
nameof(Vd),
nameof(VdMean),
nameof(VdRadialGradient),
nameof(VdStdDev)
};
return results;
}
JsonProperty[] IDescription.GetDefault(IFileRead fileRead, Logistics logistics)
{
JsonProperty[] results;
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
results = ((JsonElement)@object).EnumerateObject().ToArray();
return results;
}
List<string> IDescription.GetPairedParameterNames()
{
List<string> results = new();
return results;
}
List<string> IDescription.GetIgnoreParameterNames(Test test)
{
List<string> results = new();
return results;
}
IDescription IDescription.GetDefaultDescription(IFileRead fileRead, Logistics logistics)
{
Description result = GetDefault(fileRead, logistics);
return result;
}
Dictionary<string, string> IDescription.GetDisplayNamesJsonElement(IFileRead fileRead)
{
Dictionary<string, string> results = new();
IDescription description = GetDisplayNames();
string json = JsonSerializer.Serialize(description, description.GetType());
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json);
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
{
if (!results.ContainsKey(jsonProperty.Name))
results.Add(jsonProperty.Name, string.Empty);
if (jsonProperty.Value is JsonElement jsonPropertyValue)
results[jsonProperty.Name] = jsonPropertyValue.ToString();
}
return results;
}
List<IDescription> IDescription.GetDescriptions(IFileRead fileRead, Logistics logistics, List<Test> tests, IProcessData iProcessData)
{
List<IDescription> results = new();
if (iProcessData is null || !iProcessData.Details.Any() || iProcessData is not ProcessData processData)
results.Add(GetDefault(fileRead, logistics));
else
{
string nullData;
Description description;
object configDataNullData = fileRead.NullData;
if (configDataNullData is null)
nullData = string.Empty;
else
nullData = configDataNullData.ToString();
for (int i = 0; i < iProcessData.Details.Count; i++)
{
if (iProcessData.Details[i] is not Detail detail)
continue;
description = new Description
{
Test = (int)tests[i],
Count = tests.Count,
Index = i,
//
EventName = fileRead.EventName,
NullData = nullData,
JobID = fileRead.CellInstanceName,
Sequence = logistics.Sequence.ToString(),
MesEntity = logistics.MesEntity,
ReportFullPath = logistics.ReportFullPath,
ProcessJobID = logistics.ProcessJobID,
MID = logistics.MID,
//
Date = processData.Date,
Employee = processData.Employee,
Lot = processData.Lot,
PSN = processData.PSN,
Reactor = processData.Reactor,
Recipe = string.Empty,
//
Area = processData.Area,
Folder = processData.Folder,
HeaderUniqueId = detail.UniqueId,
Id = string.Empty,
Layer = processData.Layer,
Model = processData.Model,
Pattern = processData.Pattern,
Phase = detail.Phase,
Plan = processData.Plan,
RampRate = processData.RampRate,
RDS = processData.RDS,
SetupFile = processData.SetupFile,
StartVoltage = processData.StartVoltage,
StopVoltage = processData.StopVoltage,
UniqueId = detail.UniqueId,
Wafer = processData.Wafer,
WaferSize = processData.WaferSize,
Zone = processData.Zone,
//
Ccomp = processData.Ccomp,
CondType = processData.CondType,
FlatZ = detail.FlatZ,
FlatZMean = processData.FlatZMean,
FlatZRadialGradient = processData.FlatZRadialGradient,
FlatZStdDev = processData.FlatZStdDev,
GLimit = processData.GLimit,
Grade = detail.Grade,
GradeMean = processData.GradeMean,
GradeRadialGradient = processData.GradeRadialGradient,
GradeStdDev = processData.GradeStdDev,
NAvg = detail.NAvg,
NAvgMean = processData.NAvgMean,
NAvgRadialGradient = processData.NAvgRadialGradient,
NAvgStdDev = processData.NAvgStdDev,
Nsl = detail.Nsl,
NslMean = processData.NslMean,
NslRadialGradient = processData.NslRadialGradient,
NslStdDev = processData.NslStdDev,
PhaseMean = processData.PhaseMean,
PhaseRadialGradient = processData.PhaseRadialGradient,
PhaseStdDev = processData.PhaseStdDev,
RhoAvg = detail.RhoAvg,
RhoAvgMean = processData.RhoAvgMean,
RhoAvgRadialGradient = processData.RhoAvgRadialGradient,
RhoAvgStdDev = processData.RhoAvgStdDev,
RhoMethod = processData.RhoMethod,
Rhosl = detail.Rhosl,
RhoslMean = processData.RhoslMean,
RhoslRadialGradient = processData.RhoslRadialGradient,
RhoslStdDev = processData.RhoslStdDev,
RsMean = processData.RsMean,
RsRadialGradient = processData.RsRadialGradient,
RsStdDev = processData.RsStdDev,
Vd = detail.Vd,
VdMean = processData.VdMean,
VdRadialGradient = processData.VdRadialGradient,
VdStdDev = processData.VdStdDev
};
results.Add(description);
}
}
return results;
}
private static Description GetDisplayNames()
{
Description result = new();
return result;
}
private Description GetDefault(IFileRead fileRead, Logistics logistics)
{
Description result = new()
{
Test = -1,
Count = 0,
Index = -1,
//
EventName = fileRead.EventName,
NullData = fileRead.NullData,
JobID = fileRead.CellInstanceName,
Sequence = logistics.Sequence.ToString(),
MesEntity = fileRead.MesEntity,
ReportFullPath = logistics.ReportFullPath,
ProcessJobID = logistics.ProcessJobID,
MID = logistics.MID,
//
Date = nameof(Date),
Employee = nameof(Employee),
Lot = nameof(Lot),
PSN = nameof(PSN),
Reactor = nameof(Reactor),
Recipe = nameof(Recipe),
//
Area = nameof(Area),
Folder = nameof(Folder),
HeaderUniqueId = nameof(HeaderUniqueId),
Id = nameof(Id),
Layer = nameof(Layer),
Model = nameof(Model),
Pattern = nameof(Pattern),
Phase = nameof(Phase),
Plan = nameof(Plan),
RampRate = nameof(RampRate),
RDS = nameof(RDS),
SetupFile = nameof(SetupFile),
StartVoltage = nameof(StartVoltage),
StopVoltage = nameof(StopVoltage),
UniqueId = nameof(UniqueId),
Wafer = nameof(Wafer),
WaferSize = nameof(WaferSize),
Zone = nameof(Zone),
//
Ccomp = nameof(Ccomp),
CondType = nameof(CondType),
FlatZ = nameof(FlatZ),
FlatZMean = nameof(FlatZMean),
FlatZRadialGradient = nameof(FlatZRadialGradient),
FlatZStdDev = nameof(FlatZStdDev),
GLimit = nameof(GLimit),
Grade = nameof(Grade),
GradeMean = nameof(GradeMean),
GradeRadialGradient = nameof(GradeRadialGradient),
GradeStdDev = nameof(GradeStdDev),
NAvg = nameof(NAvg),
NAvgMean = nameof(NAvgMean),
NAvgRadialGradient = nameof(NAvgRadialGradient),
NAvgStdDev = nameof(NAvgStdDev),
Nsl = nameof(Nsl),
NslMean = nameof(NslMean),
NslRadialGradient = nameof(NslRadialGradient),
NslStdDev = nameof(NslStdDev),
PhaseMean = nameof(PhaseMean),
PhaseRadialGradient = nameof(PhaseRadialGradient),
PhaseStdDev = nameof(PhaseStdDev),
RhoAvg = nameof(RhoAvg),
RhoAvgMean = nameof(RhoAvgMean),
RhoAvgRadialGradient = nameof(RhoAvgRadialGradient),
RhoAvgStdDev = nameof(RhoAvgStdDev),
RhoMethod = nameof(RhoMethod),
Rhosl = nameof(Rhosl),
RhoslMean = nameof(RhoslMean),
RhoslRadialGradient = nameof(RhoslRadialGradient),
RhoslStdDev = nameof(RhoslStdDev),
RsMean = nameof(RsMean),
RsRadialGradient = nameof(RsRadialGradient),
RsStdDev = nameof(RsStdDev),
Vd = nameof(Vd),
VdMean = nameof(VdMean),
VdRadialGradient = nameof(VdRadialGradient),
VdStdDev = nameof(VdStdDev),
};
return result;
}
}

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namespace Adaptation.FileHandlers.pcl;
public class Detail
{
public string FlatZ { get; set; }
public string Grade { get; set; }
public string HeaderUniqueId { get; set; }
public string NAvg { get; set; }
public string Nsl { get; set; }
public string Phase { get; set; }
public string RhoAvg { get; set; }
public string Rhosl { get; set; }
public string UniqueId { get; set; }
public string Vd { get; set; }
public override string ToString() => string.Concat(FlatZ, ";", Grade);
}

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using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
using System.Text.Json;
using System.Text.RegularExpressions;
namespace Adaptation.FileHandlers.pcl;
public class FileRead : Shared.FileRead, IFileRead
{
private readonly string _GhostPCLFileName;
public FileRead(ISMTP smtp, Dictionary<string, string> fileParameter, string cellInstanceName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, string parameterizedModelObjectDefinitionType, IList<ModelObjectParameterDefinition> modelObjectParameters, string equipmentDictionaryName, Dictionary<string, List<long>> dummyRuns, bool useCyclicalForDescription, bool isEAFHosted) :
base(new Description(), true, smtp, fileParameter, cellInstanceName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, modelObjectParameters, equipmentDictionaryName, dummyRuns, useCyclicalForDescription, isEAFHosted)
{
_MinFileLength = 10;
_NullData = string.Empty;
_Logistics = new Logistics(this);
if (_FileParameter is null)
throw new Exception(cellInstanceConnectionName);
if (_ModelObjectParameterDefinitions is null)
throw new Exception(cellInstanceConnectionName);
if (_IsDuplicator)
throw new Exception(cellInstanceConnectionName);
_GhostPCLFileName = string.Concat(Path.GetDirectoryName(Assembly.GetEntryAssembly().Location), @"\gpcl6win64.exe");
if (_IsEAFHosted && !File.Exists(_GhostPCLFileName))
throw new Exception("Ghost PCL FileName doesn't Exist!");
}
void IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception) => Move(extractResults, exception);
void IFileRead.WaitForThread() => WaitForThread(thread: null, threadExceptions: null);
string IFileRead.GetEventDescription()
{
string result = _Description.GetEventDescription();
return result;
}
List<string> IFileRead.GetHeaderNames()
{
List<string> results = _Description.GetHeaderNames();
return results;
}
string[] IFileRead.Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception)
{
string[] results = Move(extractResults, to, from, resolvedFileLocation, exception);
return results;
}
JsonProperty[] IFileRead.GetDefault()
{
JsonProperty[] results = _Description.GetDefault(this, _Logistics);
return results;
}
Dictionary<string, string> IFileRead.GetDisplayNamesJsonElement()
{
Dictionary<string, string> results = _Description.GetDisplayNamesJsonElement(this);
return results;
}
List<IDescription> IFileRead.GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData)
{
List<IDescription> results = _Description.GetDescriptions(fileRead, _Logistics, tests, processData);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.GetExtractResult(string reportFullPath, string eventName)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
if (string.IsNullOrEmpty(eventName))
throw new Exception();
_ReportFullPath = reportFullPath;
DateTime dateTime = DateTime.Now;
results = GetExtractResult(reportFullPath, dateTime);
if (results.Item3 is null)
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(results.Item1, Array.Empty<Test>(), JsonSerializer.Deserialize<JsonElement[]>("[]"), results.Item4);
if (results.Item3.Length > 0 && _IsEAFHosted)
WritePDSF(this, results.Item3);
UpdateLastTicksDuration(DateTime.Now.Ticks - dateTime.Ticks);
return results;
}
Tuple<string, Test[], JsonElement[], List<FileInfo>> IFileRead.ReExtract()
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
List<string> headerNames = _Description.GetHeaderNames();
Dictionary<string, string> keyValuePairs = _Description.GetDisplayNamesJsonElement(this);
results = ReExtract(this, headerNames, keyValuePairs);
return results;
}
void IFileRead.CheckTests(Test[] tests, bool extra) => throw new Exception(string.Concat("Not ", nameof(_IsDuplicator)));
void IFileRead.Callback(object state) => throw new Exception(string.Concat("Not ", nameof(_IsDuplicator)));
private Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, DateTime dateTime)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results = new(string.Empty, null, null, new List<FileInfo>());
_Logistics = new Logistics(this, reportFullPath, useSplitForMID: true);
SetFileParameterLotIDToLogisticsMID();
if (reportFullPath.Length < _MinFileLength)
results.Item4.Add(new FileInfo(reportFullPath));
else
{
IProcessData iProcessData = new ProcessData(this, _Logistics, results.Item4, _GhostPCLFileName);
if (iProcessData is ProcessData processData)
{
string mid = string.Concat(processData.Reactor, "-", processData.RDS, "-", processData.PSN);
mid = Regex.Replace(mid, @"[\\,\/,\:,\*,\?,\"",\<,\>,\|]", "_").Split('\r')[0].Split('\n')[0];
_Logistics.MID = mid;
SetFileParameterLotID(mid);
_Logistics.ProcessJobID = processData.Reactor;
}
if (!iProcessData.Details.Any())
throw new Exception(string.Concat("No Data - ", dateTime.Ticks));
results = iProcessData.GetResults(this, _Logistics, results.Item4);
}
return results;
}
}

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using Adaptation.Shared;
using Adaptation.Shared.Methods;
using log4net;
using System;
using System.Collections.Generic;
using System.Data;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Text;
using System.Text.Json;
using System.Text.RegularExpressions;
namespace Adaptation.FileHandlers.pcl;
public class ProcessData : IProcessData
{
private int _I;
private string _Data;
private readonly ILog _Log;
private readonly List<object> _Details;
public string JobID { get; set; }
public string MesEntity { get; set; }
public string Area { get; set; }
public string Ccomp { get; set; }
public string CondType { get; set; }
public string Date { get; set; }
public string Employee { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string Folder { get; set; }
public string GLimit { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string Layer { get; set; }
public string Lot { get; set; }
public string Model { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string PSN { get; set; }
public string Pattern { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string Plan { get; set; }
public string RDS { get; set; }
public string RampRate { get; set; }
public string Reactor { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
List<object> Shared.Properties.IProcessData.Details => _Details;
public ProcessData(IFileRead fileRead, Logistics logistics, List<FileInfo> fileInfoCollection, string ghostPCLFileName)
{
fileInfoCollection.Clear();
_Details = new List<object>();
_I = 0;
_Data = string.Empty;
JobID = logistics.JobID;
MesEntity = logistics.MesEntity;
_Log = LogManager.GetLogger(typeof(ProcessData));
Date = DateTime.Now.ToString();
Parse(fileRead, logistics, fileInfoCollection, ghostPCLFileName);
}
string IProcessData.GetCurrentReactor(IFileRead fileRead, Logistics logistics, Dictionary<string, string> reactors) => throw new Exception(string.Concat("See ", nameof(Parse)));
Tuple<string, Test[], JsonElement[], List<FileInfo>> IProcessData.GetResults(IFileRead fileRead, Logistics logistics, List<FileInfo> fileInfoCollection)
{
Tuple<string, Test[], JsonElement[], List<FileInfo>> results;
List<Test> tests = new();
foreach (object item in _Details)
tests.Add(Test.HGCV);
List<IDescription> descriptions = fileRead.GetDescriptions(fileRead, tests, this);
if (tests.Count != descriptions.Count)
throw new Exception();
for (int i = 0; i < tests.Count; i++)
{
if (descriptions[i] is not Description description)
throw new Exception();
if (description.Test != (int)tests[i])
throw new Exception();
}
List<Description> fileReadDescriptions = (from l in descriptions select (Description)l).ToList();
string json = JsonSerializer.Serialize(fileReadDescriptions, fileReadDescriptions.GetType());
JsonElement[] jsonElements = JsonSerializer.Deserialize<JsonElement[]>(json);
results = new Tuple<string, Test[], JsonElement[], List<FileInfo>>(logistics.Logistics1[0], tests.ToArray(), jsonElements, fileInfoCollection);
return results;
}
/// <summary>
/// Convert the raw data file to parsable file format - in this case from PCL to PDF
/// </summary>
/// <param name="sourceFile">source file to be converted to PDF</param>
/// <returns></returns>
private static string ConvertSourceFileToPdf(Logistics logistics, string ghostPCLFileName)
{
string result = Path.ChangeExtension(logistics.ReportFullPath, ".pdf");
if (!File.Exists(result))
{
//string arguments = string.Concat("-i \"", sourceFile, "\" -o \"", result, "\"");
string arguments = string.Concat("-dSAFER -dBATCH -dNOPAUSE -dFIXEDMEDIA -dFitPage -dAutoRotatePages=/All -dDEVICEWIDTHPOINTS=792 -dDEVICEHEIGHTPOINTS=612 -sOutputFile=\"", result, "\" -sDEVICE=pdfwrite \"", logistics.ReportFullPath, "\"");
//Process process = Process.Start(configData.LincPDFCFileName, arguments);
Process process = Process.Start(ghostPCLFileName, arguments);
_ = process.WaitForExit(30000);
if (!File.Exists(result))
throw new Exception("PDF file wasn't created");
}
return result;
}
private void ScanPast(string text)
{
int num = _Data.IndexOf(text, _I);
if (num > -1)
{
_I = num + text.Length;
}
else
{
_I = _Data.Length;
}
}
private string GetBefore(string text)
{
int num = _Data.IndexOf(text, _I);
string text2;
if (num > -1)
{
text2 = _Data.Substring(_I, num - _I);
_I = num + text.Length;
return text2.Trim();
}
text2 = _Data.Substring(_I);
_I = _Data.Length;
return text2.Trim();
}
private static bool IsNullOrWhiteSpace(string text)
{
for (int i = 0; i < text.Length; i++)
{
if (!char.IsWhiteSpace(text[i]))
{
return false;
}
}
return true;
}
private bool IsBlankLine()
{
int num = _Data.IndexOf("\n", _I);
return IsNullOrWhiteSpace((num > -1) ? _Data.Substring(_I, num - _I) : _Data.Substring(_I));
}
private string GetToEOL() => GetBefore("\n");
private string GetToken()
{
while (_I < _Data.Length && IsNullOrWhiteSpace(_Data.Substring(_I, 1)))
{
_I++;
}
int j;
for (j = _I; j < _Data.Length && !IsNullOrWhiteSpace(_Data.Substring(j, 1)); j++)
{
}
string text = _Data.Substring(_I, j - _I);
_I = j;
return text.Trim();
}
private void Parse(IFileRead fileRead, Logistics logistics, List<FileInfo> fileInfoCollection, string ghostPCLFileName)
{
if (fileRead is null)
{ }
string headerText;
string sourceFileNamePdf = ConvertSourceFileToPdf(logistics, ghostPCLFileName);
fileInfoCollection.Add(new FileInfo(sourceFileNamePdf));
string altHeaderFileName = Path.ChangeExtension(logistics.ReportFullPath, ".txt");
if (File.Exists(altHeaderFileName))
{
headerText = File.ReadAllText(altHeaderFileName);
fileInfoCollection.Add(new FileInfo(altHeaderFileName));
}
else
{
//Pdfbox, IKVM.AWT.WinForms
org.apache.pdfbox.pdmodel.PDDocument pdfDocument = org.apache.pdfbox.pdmodel.PDDocument.load(sourceFileNamePdf);
org.apache.pdfbox.util.PDFTextStripper stripper = new();
headerText = stripper.getText(pdfDocument);
pdfDocument.close();
File.AppendAllText(altHeaderFileName, headerText);
fileInfoCollection.Add(new FileInfo(altHeaderFileName));
}
if (headerText.Contains("G A T E V O L T A G E"))
throw new Exception("Ignore: GATEVOLTAGE runs are not parsed.");
if (!string.IsNullOrEmpty(headerText))
{
headerText = headerText.Replace("box", "");
headerText = headerText.Replace("bar", "");
headerText = headerText.Replace("horiz", "");
headerText = headerText.Replace("center", "");
headerText = headerText.Replace("upper", "");
headerText = headerText.Replace("lower", "");
headerText = headerText.Replace("right", "");
headerText = headerText.Replace("left", "");
headerText = headerText.Replace("thin", "");
headerText = headerText.Replace("vertical", "");
headerText = headerText.Replace("line", "");
headerText = headerText.Replace("middle", "");
headerText = headerText.Replace("side", "");
headerText = headerText.Replace("top", ""); // This will change "Stop Voltage" to "S Voltage"
headerText = headerText.Replace("corner", "");
headerText = headerText.Replace("bottom", "");
headerText = headerText.Replace("ruleunder", "_");
headerText = headerText.Replace("@", "");
headerText = headerText.Replace("*", "");
_I = 0;
_Data = headerText;
_Log.Debug($"****MERCURY-DATA [002]= {headerText}");
ScanPast("Operator:");
Employee = GetBefore("Start Voltage:");
StartVoltage = GetBefore("V");
ScanPast("Wafer :");
Wafer = GetBefore("S Voltage :"); // This is actually "Stop Voltage"
StopVoltage = GetBefore("V");
ScanPast("Lot :");
if (headerText.Contains("Ramp Rate :"))
Lot = GetBefore("Ramp Rate :");
else if (headerText.Contains("Forward Rate :"))
Lot = GetBefore("Forward Rate :");
else if (headerText.Contains("Conduct Type:"))
Lot = GetBefore("Conduct Type:");
else
Lot = string.Empty;
// Remove illegal characters \/:*?"<>| found in the Lot.
Lot = Regex.Replace(Lot, @"[\\,\/,\:,\*,\?,\"",\<,\>,\|]", "_").Split('\r')[0].Split('\n')[0];
RampRate = GetBefore("mV/sec");
ScanPast("Plan :");
Plan = GetBefore("G limit :");
//GLimit = GetBefore("S ");
GLimit = GetBefore("S");
Date = DateTime.Now.ToString();
ScanPast("Setup File:");
//SetupFile = GetBefore("O O");
SetupFile = GetBefore("O O");
ScanPast("Wafer size :");
WaferSize = GetBefore("mm");
ScanPast("Folder :");
//Folder = GetBefore("N N");
Folder = GetBefore("N N");
ScanPast("Ccomp : ");
Ccomp = GetBefore("pF");
ScanPast("Pattern :");
//Pattern = GetBefore("C C");
Pattern = GetBefore("C C");
ScanPast("Area:");
Area = GetBefore("cm2");
ScanPast("Cond Type :");
CondType = GetBefore("Rho Method:");
//RhoMethod = GetBefore("N N");
RhoMethod = GetBefore("N N");
ScanPast("Model :");
//Model = GetBefore("T T");
Model = GetBefore("T T");
ScanPast("Navg :");
NAvgMean = GetToken();
NAvgStdDev = GetToken();
NAvgRadialGradient = GetToken();
ScanPast("Nsl :");
NslMean = GetToken();
NslStdDev = GetToken();
NslRadialGradient = GetToken();
ScanPast("Vd :");
VdMean = GetToken();
VdStdDev = GetToken();
VdRadialGradient = GetToken();
ScanPast("Flat Z:");
FlatZMean = GetToken();
FlatZStdDev = GetToken();
FlatZRadialGradient = GetToken();
ScanPast("Rhoavg:");
RhoAvgMean = GetToken();
RhoAvgStdDev = GetToken();
RhoAvgRadialGradient = GetToken();
ScanPast("Rhosl :");
RhoslMean = GetToken();
RhoslStdDev = GetToken();
RhoslRadialGradient = GetToken();
ScanPast("Phase :");
PhaseMean = GetToken();
PhaseStdDev = GetToken();
PhaseRadialGradient = GetToken();
ScanPast("Grade :");
GradeMean = GetToken();
GradeStdDev = GetToken();
GradeRadialGradient = GetToken();
ScanPast("Rs :");
RsMean = GetToken();
RsStdDev = GetToken();
RsRadialGradient = GetToken();
string lot = Lot;
string[] segments = lot.Split('-');
if (segments.Length >= 1)
Reactor = segments[0];
if (segments.Length >= 2)
RDS = segments[1];
if (segments.Length >= 3)
{
string str = segments[2];
string[] segmentsB = str.Split('.');
if (segmentsB.Length >= 1)
PSN = segmentsB[0];
if (segmentsB.Length >= 2)
Layer = segmentsB[1];
}
if (segments.Length >= 4)
Zone = segments[3];
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
string token = GetToken();
while (!string.IsNullOrEmpty(token))
{
Detail hgProbeDetail = new()
{ NAvg = token };
_ = GetToEOL();
hgProbeDetail.Nsl = GetToken();
_ = GetToEOL();
hgProbeDetail.Vd = GetToken();
_ = GetToEOL();
hgProbeDetail.FlatZ = GetToken();
_ = GetToEOL();
hgProbeDetail.RhoAvg = GetToken();
_ = GetToEOL();
hgProbeDetail.Rhosl = GetToken();
_ = GetToEOL();
hgProbeDetail.Phase = GetToken();
_ = GetToEOL();
hgProbeDetail.Grade = GetToken();
hgProbeDetail.UniqueId = string.Concat("_Point-", _Details.Count + 1);
_Details.Add(hgProbeDetail);
_ = GetToken();
_ = GetToken();
_ = GetToken();
_ = GetToken();
token = GetToken();
//if (token.Contains("LincPDF") || token.Contains("MULTIPLE"))
if (token.Contains("MULTIPLE"))
{
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
token = GetToken();
}
}
}
UniqueId = string.Format("{0}_{1}_{2}", logistics.JobID, Lot, Path.GetFileNameWithoutExtension(logistics.ReportFullPath));
foreach (Detail detail in _Details)
{
detail.HeaderUniqueId = UniqueId;
detail.UniqueId = string.Concat(detail, detail.UniqueId);
}
fileInfoCollection.Add(new FileInfo(logistics.ReportFullPath));
}
}

45
Adaptation/Helpers/ConfigData.Level.cs
View File

@ -1,45 +0,0 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Helpers
{
public partial class ConfigData
{
public enum Level
{
IsXToOpenInsightMetrologyViewer, //MetrologyWS.SendData(file, string.Concat("http://", serverName, "/api/inbound/MercuryProbe"), headerAttachments);
IsXToIQSSi, //NA <d7p1:FileScanningIntervalInSeconds>-361</d7p1:FileScanningIntervalInSeconds>
IsXToOpenInsight, //NA <d7p1:FileScanningIntervalInSeconds>-363</d7p1:FileScanningIntervalInSeconds>
IsXToOpenInsightMetrologyViewerAttachments, //Site-One
IsXToAPC,
IsXToSPaCe,
IsXToArchive,
IsArchive,
IsDummy,
IsNaEDA
}
public static List<Tuple<int, Enum, string>> LevelTuples
{
get
{
return new List<Tuple<int, Enum, string>>
{
new Tuple<int, Enum, string>(0, Level.IsNaEDA, @"\EC_EDA\Staging\Traces\~\Source"),
new Tuple<int, Enum, string>(15, Level.IsXToOpenInsightMetrologyViewer, @"\EC_EAFLog\TracesMES\~\Source"),
new Tuple<int, Enum, string>(-36, Level.IsXToIQSSi, @"\EC_SPC_Si\Traces\~\PollPath"),
new Tuple<int, Enum, string>(-36, Level.IsXToOpenInsight, @"\\messa01ec.ec.local\APPS\Metrology\~\Source"),
new Tuple<int, Enum, string>(36, Level.IsXToOpenInsightMetrologyViewerAttachments, @"\EC_Characterization_Si\In Process\~\Source"),
new Tuple<int, Enum, string>(360, Level.IsXToAPC, @"\EC_APC\Staging\Traces\~\PollPath"),
new Tuple<int, Enum, string>(-36, Level.IsXToSPaCe, @"\EC_SPC_Si\Traces\~\Source"),
new Tuple<int, Enum, string>(180, Level.IsXToArchive, @"\EC_EAFLog\TracesArchive\~\Source"),
new Tuple<int, Enum, string>(36, Level.IsArchive, @"\EC_Characterization_Si\Processed")
//new Tuple<int, Enum, string>("IsDummy"
};
}
}
}
}

523
Adaptation/Helpers/ConfigData.cs
View File

@ -1,523 +0,0 @@
using Adaptation.Eaf.Management.ConfigurationData.CellAutomation;
using Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
using Adaptation.Shared;
using Adaptation.Shared.Metrology;
using Infineon.Monitoring.MonA;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.IO.Compression;
using System.Linq;
using System.Reflection;
using System.Text.Json;
using System.Threading;
namespace Adaptation.Helpers
{
public partial class ConfigData : ConfigDataBase
{
internal const object NullData = null;
internal const int MinFileLength = 100;
public string IqsFile { get; private set; }
public string TracePath { get; private set; }
public Level? Duplicator { get; private set; }
public string MemoryPath { get; private set; }
public string VillachPath { get; private set; }
public string ProgressPath { get; private set; }
public string IqsQueryFilter { get; private set; }
public string GhostPCLFileName { get; private set; }
public string LincPDFCFileName { get; private set; }
public string OpenInsightSiViewer { get; private set; }
public string OpenInsightFilePattern { get; private set; }
public string OpenInsightMetrogyViewerAPI { get; private set; }
public static Dictionary<string, List<long>> DummyRuns { get; private set; }
private Timer _Timer;
private int _LastDummyRunIndex;
private readonly Calendar _Calendar;
private readonly string _ReportFullPath;
public ConfigData(ILogic logic, string cellName, string cellInstanceConnectionName, FileConnectorConfiguration fileConnectorConfiguration, string equipmentTypeName, IList<ModelObjectParameterDefinition> modelObjectParameterDefinitions, string parameterizedModelObjectDefinitionType, bool isEAFHosted) :
base(cellName, cellInstanceConnectionName, fileConnectorConfiguration, equipmentTypeName, parameterizedModelObjectDefinitionType, isEAFHosted)
{
_LastDummyRunIndex = -1;
UseCyclicalForDescription = false;
CultureInfo cultureInfo = new CultureInfo("en-US");
_Calendar = cultureInfo.Calendar;
string firstSourceFileFilter = fileConnectorConfiguration.SourceFileFilter.Split('|')[0];
if (DummyRuns is null)
DummyRuns = new Dictionary<string, List<long>>();
bool isDuplicator = cellInstanceConnectionName.StartsWith(cellName);
int level = (cellInstanceConnectionName.Length - cellInstanceConnectionName.Replace("-", string.Empty).Length);
if (!isDuplicator)
Duplicator = null;
else
{
CellNames.Add(cellName, cellName);
MesEntities.Add(cellName, cellName);
Duplicator = (Level)level;
}
if (isDuplicator)
ProcessDataDescription = new Duplicator.Description();
else
ProcessDataDescription = new ProcessData.FileRead.Description();
if (!isDuplicator)
{
//Verify(fileConnectorConfiguration, cellInstanceConnectionName);
if (!EafHosted)
VerifyProcessDataDescription(logic);
else
WriteExportAliases(logic, cellName, cellInstanceConnectionName);
}
GhostPCLFileName = string.Concat(Path.GetDirectoryName(Assembly.GetEntryAssembly().Location), @"\gpcl6win64.exe");
if (EafHosted && Duplicator.HasValue && Duplicator.Value == Level.IsXToOpenInsightMetrologyViewerAttachments && !File.Exists(GhostPCLFileName))
throw new Exception("Ghost PCL FileName doesn't Exist!");
LincPDFCFileName = string.Concat(Path.GetDirectoryName(Assembly.GetEntryAssembly().Location), @"\LincPDFC.exe");
if (EafHosted && Duplicator.HasValue && Duplicator.Value == Level.IsXToOpenInsightMetrologyViewerAttachments && !File.Exists(LincPDFCFileName))
throw new Exception("LincPDFC FileName doesn't Exist!");
if (!modelObjectParameterDefinitions.Any())
{
CellNames.Add(cellName, "****");
MesEntities.Add(cellName, "****");
}
else
{
int index;
string key;
string variable = string.Empty;
Dictionary<string, string> iqsSection = new Dictionary<string, string>();
Dictionary<string, string> pathSection = new Dictionary<string, string>();
Dictionary<string, string> commonSection = new Dictionary<string, string>();
Dictionary<string, string> openInsightSection = new Dictionary<string, string>();
foreach (ModelObjectParameterDefinition modelObjectParameterDefinition in modelObjectParameterDefinitions)
{
if (!modelObjectParameterDefinition.Name.Contains('.'))
continue;
else if (modelObjectParameterDefinition.Name.StartsWith("Description.") && (modelObjectParameterDefinition.Name.EndsWith(".EventName") || modelObjectParameterDefinition.Name.EndsWith(".EquipmentType")))
continue;
index = modelObjectParameterDefinition.Name.IndexOf(".");
if (index <= -1)
continue;
key = modelObjectParameterDefinition.Name.Substring(0, index);
variable = modelObjectParameterDefinition.Name.Substring(index + 1);
if (key == "COMMON")
commonSection.Add(variable, modelObjectParameterDefinition.Value);
//else if (key == "CONNECTION STRINGS")
// connectionStringsSection.Add(variable, modelObjectParameterDefinition.Value);
else if (key == "IQS")
iqsSection.Add(variable, modelObjectParameterDefinition.Value);
else if (key == "OpenInsight")
openInsightSection.Add(variable, modelObjectParameterDefinition.Value);
else if (key == "PATH")
pathSection.Add(variable, modelObjectParameterDefinition.Value);
//else if (key == "REACTOR")
// reactorTuples.Add(new Tuple<string, string>(variable, modelObjectParameterDefinition.Value));
//else if (key == "TIBCO")
// tibcoSection.Add(variable, modelObjectParameterDefinition.Value);
else
throw new Exception(cellInstanceConnectionName);
}
if (!iqsSection.Any())
throw new Exception("IQS section is missing from configuration");
else
{
key = "FILE";
if (iqsSection.ContainsKey(key))
IqsFile = iqsSection[key];
else
throw new Exception(string.Concat("Missing IQS Configuration entry for ", key));
if (string.IsNullOrEmpty(IqsFile))
throw new Exception(string.Format("IQS key {0} is empty", key));
key = "QUERY";
if (iqsSection.ContainsKey(key))
IqsQueryFilter = iqsSection[key];
else
throw new Exception(string.Concat("Missing IQS Configuration entry for ", key));
if (string.IsNullOrEmpty(IqsQueryFilter))
throw new Exception(string.Format("IQS key {0} is empty", key));
}
if (!pathSection.Any())
throw new Exception("Path section is missing from configuration");
else
{
key = "TRACE";
if (pathSection.ContainsKey(key) && pathSection[key].StartsWith(@"\\"))
TracePath = pathSection[key];
if (!string.IsNullOrEmpty(TracePath) && !Directory.Exists(TracePath))
Directory.CreateDirectory(TracePath);
key = "VILLACH";
if (pathSection.ContainsKey(key) && pathSection[key].StartsWith(@"\\"))
VillachPath = pathSection[key];
if (!string.IsNullOrEmpty(VillachPath) && !Directory.Exists(VillachPath))
Directory.CreateDirectory(VillachPath);
key = "Progress";
if (pathSection.ContainsKey(key) && pathSection[key].StartsWith(@"\\"))
ProgressPath = pathSection[key];
if (!string.IsNullOrEmpty(ProgressPath) && Directory.Exists(Path.GetPathRoot(ProgressPath)) && !Directory.Exists(ProgressPath))
Directory.CreateDirectory(ProgressPath);
key = "Memory";
if (pathSection.ContainsKey(key) && pathSection[key].StartsWith(@"\\"))
MemoryPath = pathSection[key];
if (!string.IsNullOrEmpty(MemoryPath) && !Directory.Exists(MemoryPath))
Directory.CreateDirectory(MemoryPath);
}
if (!commonSection.Any())
throw new Exception("Common section is missing from configuration");
else
{
key = "CELL_NAMES";
if (!commonSection.ContainsKey(key) || !commonSection[key].Contains(';') || !commonSection[key].Contains(':'))
throw new Exception(cellInstanceConnectionName);
else
{
string[] segments;
string[] cellNames = commonSection[key].Split(new string[] { ";" }, StringSplitOptions.RemoveEmptyEntries);
foreach (string item in cellNames)
{
segments = item.Split(':');
CellNames.Add(segments[0].Trim(), segments[1].Trim());
}
}
if (!string.IsNullOrEmpty(cellName) && !CellNames.ContainsKey(cellName))
throw new Exception(cellInstanceConnectionName);
key = "MES_ENTITIES";
if (!commonSection.ContainsKey(key) || !commonSection[key].Contains(';') || !commonSection[key].Contains(':'))
throw new Exception(cellInstanceConnectionName);
else
{
string[] segments;
string[] mesEntity = commonSection[key].Split(new string[] { ";" }, StringSplitOptions.RemoveEmptyEntries);
foreach (string item in mesEntity)
{
segments = item.Split(':');
MesEntities.Add(segments[0].Trim(), segments[1].Trim());
}
}
if (!string.IsNullOrEmpty(cellName) && !MesEntities.ContainsKey(cellName))
throw new Exception(cellInstanceConnectionName);
}
if (!MesEntities.Any())
throw new Exception(cellInstanceConnectionName);
if (!openInsightSection.Any())
throw new Exception("OpenInsight section is missing from configuration");
else
{
key = "MetrologyViewerAPI";
if (openInsightSection.ContainsKey(key))
OpenInsightMetrogyViewerAPI = openInsightSection[key];
if (string.IsNullOrEmpty(OpenInsightMetrogyViewerAPI))
throw new Exception(string.Format("OpenInsight key {0} is empty", key));
if (!OpenInsightMetrogyViewerAPI.Contains(":") || !OpenInsightMetrogyViewerAPI.Contains("."))
throw new Exception(string.Format("OpenInsight key {0} is invalid", key));
key = "SiViewer";
if (openInsightSection.ContainsKey(key))
OpenInsightSiViewer = openInsightSection[key];
if (string.IsNullOrEmpty(OpenInsightSiViewer))
throw new Exception(string.Format("OpenInsight key {0} is empty", key));
if (!OpenInsightSiViewer.Contains(":") || !OpenInsightSiViewer.Contains("."))
throw new Exception(string.Format("OpenInsight key {0} is invalid", key));
key = "FilePattern";
if (openInsightSection.ContainsKey(key))
OpenInsightFilePattern = openInsightSection[key];
else
throw new Exception(string.Concat("Missing OpenInsight Configuration entry for ", key));
if (string.IsNullOrEmpty(OpenInsightFilePattern))
throw new Exception(string.Format("OpenInsight key {0} is empty", key));
}
if (IsSourceTimer || IsDatabaseExportToIPDSF || (Duplicator.HasValue && Duplicator.Value == Level.IsDummy))
{
if (!Directory.Exists(fileConnectorConfiguration.SourceFileLocation))
Directory.CreateDirectory(fileConnectorConfiguration.SourceFileLocation);
_ReportFullPath = string.Concat(fileConnectorConfiguration.SourceFileLocation, firstSourceFileFilter.Replace("*", @"\"));
if (Debugger.IsAttached || fileConnectorConfiguration.PreProcessingMode == FileConnectorConfiguration.PreProcessingModeEnum.Process)
Callback(null);
else
{
int milliSeconds;
milliSeconds = (int)((fileConnectorConfiguration.FileScanningIntervalInSeconds * 1000) / 2);
_Timer = new Timer(Callback, null, milliSeconds, Timeout.Infinite);
milliSeconds += 2000;
}
}
}
}
public void CheckProcessDataDescription(Dictionary<Test, List<Duplicator.Description>> results, bool extra)
{
foreach (Test test in results.Keys)
{
if (test == Test.HgCV)
{
if (!(ProcessDataDescription is ProcessData.FileRead.Description))
ProcessDataDescription = new ProcessData.FileRead.Description();
}
else
throw new Exception();
}
}
private void CallbackIsDummy(string traceDummyFile, List<Tuple<string, string, string, string, int>> tuples, bool fileConnectorConfigurationIncludeSubDirectories, bool includeSubDirectoriesExtra)
{
int fileCount;
string[] files;
string monARessource;
string checkDirectory;
string sourceArchiveFile;
string inProcessDirectory;
const string site = "sjc";
const string monInURL = "http://moninhttp.sjc.infineon.com/input/text";
MonIn monIn = MonIn.GetInstance(monInURL);
string stateName = string.Concat("Dummy_", _EventName);
foreach (Tuple<string, string, string, string, int> item in tuples)
{
monARessource = item.Item1;
sourceArchiveFile = item.Item2;
inProcessDirectory = item.Item3;
checkDirectory = item.Item4;
fileCount = item.Item5;
try
{
if (fileCount > 0 || string.IsNullOrEmpty(checkDirectory))
{
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Warning.ToString() });
monIn.SendStatus(site, monARessource, stateName, State.Warning);
for (int i = 1; i < 12; i++)
Thread.Sleep(500);
}
else if (inProcessDirectory == checkDirectory)
continue;
if (!EafHosted)
continue;
if (!File.Exists(sourceArchiveFile))
continue;
if (!long.TryParse(Path.GetFileNameWithoutExtension(sourceArchiveFile).Replace("x", string.Empty), out long sequence))
continue;
ZipFile.ExtractToDirectory(sourceArchiveFile, inProcessDirectory);
if (fileConnectorConfigurationIncludeSubDirectories && includeSubDirectoriesExtra)
{
if (_EventName == EventName.FileRead)
checkDirectory = string.Concat(checkDirectory, @"\", sequence);
else if (_EventName == EventName.FileReadDaily)
checkDirectory = string.Concat(checkDirectory, @"\Source\", sequence);
else
throw new Exception();
}
if (fileConnectorConfigurationIncludeSubDirectories)
files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.AllDirectories);
else
files = Directory.GetFiles(inProcessDirectory, "*", SearchOption.TopDirectoryOnly);
if (files.Length > 250)
throw new Exception("Safety net!");
foreach (string file in files)
File.SetLastWriteTime(file, new DateTime(sequence));
if (!fileConnectorConfigurationIncludeSubDirectories)
{
foreach (string file in files)
File.Move(file, string.Concat(checkDirectory, @"\", Path.GetFileName(file)));
}
else
{
string[] directories = Directory.GetDirectories(inProcessDirectory, "*", SearchOption.AllDirectories);
foreach (string directory in directories)
Directory.CreateDirectory(string.Concat(checkDirectory, directory.Substring(inProcessDirectory.Length)));
foreach (string file in files)
File.Move(file, string.Concat(checkDirectory, file.Substring(inProcessDirectory.Length)));
}
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Ok.ToString() });
monIn.SendStatus(site, monARessource, stateName, State.Ok);
}
catch (Exception exception)
{
File.AppendAllLines(traceDummyFile, new string[] { site, monARessource, stateName, State.Critical.ToString(), exception.Message, exception.StackTrace });
monIn.SendStatus(site, monARessource, stateName, State.Critical);
try
{
Eaf.Core.Smtp.ISmtp smtp = Eaf.Core.Backbone.Instance.GetBackboneComponentsOfType<Eaf.Core.Smtp.ISmtp>().SingleOrDefault();
Eaf.Core.Smtp.EmailMessage emailMessage = new Eaf.Core.Smtp.EmailMessage(string.Concat("Exception:", EquipmentElementName), string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace), Eaf.Core.Smtp.MailPriority.High);
smtp.Send(emailMessage);
}
catch (Exception) { }
}
}
}
private void CallbackIsDummy()
{
DateTime dateTime = DateTime.Now;
bool check = (dateTime.Hour > 7 && dateTime.Hour < 18 && dateTime.DayOfWeek != DayOfWeek.Sunday && dateTime.DayOfWeek != DayOfWeek.Saturday);
if (check)
{
int fileCount;
string[] files;
string monARessource;
string checkDirectory;
string sourceArchiveFile;
string sourceFileLocation;
string targetFileLocation;
string inProcessDirectory;
string weekOfYear = _Calendar.GetWeekOfYear(dateTime, CalendarWeekRule.FirstDay, DayOfWeek.Sunday).ToString("00");
string traceDummyDirectory = string.Concat(Path.GetPathRoot(TracePath), @"\TracesDummy\", CellName, @"\Source\", dateTime.ToString("yyyy"), "___Week_", weekOfYear);
if (!Directory.Exists(traceDummyDirectory))
Directory.CreateDirectory(traceDummyDirectory);
string traceDummyFile = string.Concat(traceDummyDirectory, @"\", dateTime.Ticks, " - ", CellName, ".txt");
File.AppendAllText(traceDummyFile, string.Empty);
List<Tuple<string, string, string, string, int>> tuples = new List<Tuple<string, string, string, string, int>>();
foreach (var keyValuePair in CellNames)
{
monARessource = keyValuePair.Key;
if (!keyValuePair.Value.Contains(@"\"))
continue;
foreach (string sourceFileFilter in FileConnectorConfiguration.SourceFileFilter.Split('|'))
{
if (sourceFileFilter.ToLower().StartsWith(keyValuePair.Value.Replace(@"\", string.Empty)))
sourceFileLocation = Path.GetFullPath(FileConnectorConfiguration.SourceFileLocation);
else if (FileConnectorConfiguration.SourceFileLocation.ToLower().EndsWith(keyValuePair.Value))
sourceFileLocation = Path.GetFullPath(FileConnectorConfiguration.SourceFileLocation);
else
sourceFileLocation = Path.GetFullPath(string.Concat(FileConnectorConfiguration.SourceFileLocation, @"\", keyValuePair.Value));
sourceArchiveFile = Path.GetFullPath(string.Concat(sourceFileLocation, @"\", sourceFileFilter));
targetFileLocation = Path.GetFullPath(string.Concat(FileConnectorConfiguration.TargetFileLocation, @"\", keyValuePair.Value));
if (!File.Exists(sourceArchiveFile))
continue;
if (!DummyRuns.ContainsKey(monARessource))
DummyRuns.Add(monARessource, new List<long>());
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceFileLocation, targetFileLocation, sourceArchiveFile, 0));
}
}
File.AppendAllLines(traceDummyFile, from l in tuples select l.Item4);
if (tuples.Any())
{
_LastDummyRunIndex += 1;
if (_LastDummyRunIndex >= tuples.Count)
_LastDummyRunIndex = 0;
monARessource = tuples[_LastDummyRunIndex].Item1;
sourceFileLocation = tuples[_LastDummyRunIndex].Item2;
targetFileLocation = tuples[_LastDummyRunIndex].Item3;
sourceArchiveFile = tuples[_LastDummyRunIndex].Item4;
//fileCount = tuples[_LastDummyRunIndex].Item5;
tuples.Clear();
if (long.TryParse(Path.GetFileNameWithoutExtension(sourceArchiveFile).Replace("x", string.Empty), out long sequence))
{
if (!DummyRuns[monARessource].Contains(sequence))
DummyRuns[monARessource].Add(sequence);
inProcessDirectory = string.Concat(ProgressPath, @"\", monARessource, @"\Dummy_in process\", sequence);
checkDirectory = inProcessDirectory;
if (!Directory.Exists(checkDirectory))
Directory.CreateDirectory(checkDirectory);
files = Directory.GetFiles(checkDirectory, "*", SearchOption.AllDirectories);
fileCount = files.Length;
if (files.Any())
{
if (files.Length > 250)
throw new Exception("Safety net!");
try
{
foreach (string file in files)
File.Delete(file);
}
catch (Exception) { }
}
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceArchiveFile, inProcessDirectory, checkDirectory, fileCount));
checkDirectory = targetFileLocation;
files = Directory.GetFiles(checkDirectory, string.Concat("*", sequence, "*"), SearchOption.TopDirectoryOnly);
fileCount = files.Length;
tuples.Add(new Tuple<string, string, string, string, int>(monARessource, sourceArchiveFile, inProcessDirectory, checkDirectory, fileCount));
}
}
if (tuples.Any())
CallbackIsDummy(traceDummyFile, tuples, FileConnectorConfiguration.IncludeSubDirectories.Value, includeSubDirectoriesExtra: false);
}
}
private void Callback(object state)
{
try
{
if (Duplicator is null)
{
if (File.Exists(_ReportFullPath))
File.Delete(_ReportFullPath);
File.WriteAllText(_ReportFullPath, string.Empty);
}
else if (Duplicator.Value == Level.IsDummy)
CallbackIsDummy();
else
throw new Exception();
}
catch (Exception exception)
{
try
{
Eaf.Core.Smtp.ISmtp smtp = Eaf.Core.Backbone.Instance.GetBackboneComponentsOfType<Eaf.Core.Smtp.ISmtp>().SingleOrDefault();
Eaf.Core.Smtp.EmailMessage emailMessage = new Eaf.Core.Smtp.EmailMessage(string.Concat("Exception:", EquipmentElementName), string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace), Eaf.Core.Smtp.MailPriority.High);
smtp.Send(emailMessage);
}
catch (Exception) { }
}
try
{
TimeSpan timeSpan;
if (IsDatabaseExportToIPDSF)
timeSpan = new TimeSpan(DateTime.Now.AddMinutes(1).Ticks - DateTime.Now.Ticks);
else if (IsSourceTimer)
timeSpan = new TimeSpan(DateTime.Now.AddMinutes(15).Ticks - DateTime.Now.Ticks);
else if (Duplicator.HasValue && Duplicator.Value == Level.IsDummy)
timeSpan = new TimeSpan(DateTime.Now.AddSeconds(FileConnectorConfiguration.FileScanningIntervalInSeconds.Value).Ticks - DateTime.Now.Ticks);
else if (Duplicator.HasValue)
timeSpan = new TimeSpan(DateTime.Now.AddSeconds(30).Ticks - DateTime.Now.Ticks);
else
timeSpan = new TimeSpan(DateTime.Now.AddDays(.5).Ticks - DateTime.Now.Ticks);
if (!(_Timer is null))
_Timer.Change((long)timeSpan.TotalMilliseconds, Timeout.Infinite);
else
_Timer = new Timer(Callback, null, (long)timeSpan.TotalMilliseconds, Timeout.Infinite);
}
catch (Exception exception)
{
try
{
Eaf.Core.Smtp.ISmtp smtp = Eaf.Core.Backbone.Instance.GetBackboneComponentsOfType<Eaf.Core.Smtp.ISmtp>().SingleOrDefault();
Eaf.Core.Smtp.EmailMessage emailMessage = new Eaf.Core.Smtp.EmailMessage(string.Concat("Exception:", EquipmentElementName), string.Concat(exception.Message, Environment.NewLine, Environment.NewLine, exception.StackTrace), Eaf.Core.Smtp.MailPriority.High);
smtp.Send(emailMessage);
}
catch (Exception) { }
}
}
public Tuple<string, JsonElement?, List<FileInfo>> IsManualOIEntry(string reportFullPath)
{
Tuple<string, JsonElement?, List<FileInfo>> results;
string monARessource;
const string site = "sjc";
string equipment = string.Empty;
string description = string.Empty;
string stateName = "MANUAL_OI_ENTRY";
string json = File.ReadAllText(reportFullPath);
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json);
results = new Tuple<string, JsonElement?, List<FileInfo>>(string.Empty, jsonElement, new List<FileInfo>());
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
{
if (jsonProperty.Name == "Equipment")
equipment = jsonProperty.Value.ToString();
else if (jsonProperty.Name == "Description")
description = jsonProperty.Value.ToString();
}
if (string.IsNullOrEmpty(equipment))
monARessource = CellName;
else
monARessource = equipment;
const string monInURL = "http://moninhttp.sjc.infineon.com/input/text";
MonIn monIn = MonIn.GetInstance(monInURL);
if (EafHosted)
monIn.SendStatus(site, monARessource, stateName, State.Warning, description);
return results;
}
}
}

410
Adaptation/Helpers/ProcessData.FileRead.Description.cs
View File

@ -1,410 +0,0 @@
using Adaptation.Shared;
using Adaptation.Shared.Metrology;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.Json;
namespace Adaptation.Helpers
{
public partial class ProcessData
{
public class FileRead
{
public class Description : IProcessDataDescription
{
public int Test { get; set; }
public int Count { get; set; }
public int Index { get; set; }
//
public string EventName { get; set; }
public string NullData { get; set; }
public string JobID { get; set; }
public string Sequence { get; set; }
public string MesEntity { get; set; }
public string ReportFullPath { get; set; }
public string ProcessJobID { get; set; }
public string MID { get; set; }
//
public string Date { get; set; }
public string Employee { get; set; }
public string Lot { get; set; }
public string PSN { get; set; }
public string Reactor { get; set; }
public string Recipe { get; set; }
//
public string Area { get; set; }
public string Folder { get; set; }
public string HeaderUniqueId { get; set; }
public string Id { get; set; }
public string Layer { get; set; }
public string Model { get; set; }
public string Pattern { get; set; }
public string Phase { get; set; }
public string Plan { get; set; }
public string RampRate { get; set; }
public string RDS { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
//
public string Ccomp { get; set; }
public string CondType { get; set; }
public string FlatZ { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string GLimit { get; set; }
public string Grade { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string NAvg { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string Nsl { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string RhoAvg { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string Rhosl { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string Vd { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
public string GetEventDescription() { return "File Has been read and parsed"; }
public List<string> GetHeaderNames(ILogic logic, ConfigDataBase configDataBase)
{
List<string> results = new List<string>
{
nameof(Date),
nameof(Employee),
nameof(Lot),
nameof(PSN),
nameof(Reactor),
nameof(Recipe)
};
return results;
}
public List<string> GetDetailNames(ILogic logic, ConfigDataBase configDataBase)
{
List<string> results = new List<string>
{
nameof(Area),
nameof(Folder),
nameof(HeaderUniqueId),
nameof(Id),
nameof(Layer),
nameof(Model),
nameof(Pattern),
nameof(Phase),
nameof(Plan),
nameof(RampRate),
nameof(RDS),
nameof(SetupFile),
nameof(StartVoltage),
nameof(StopVoltage),
nameof(UniqueId),
nameof(Wafer),
nameof(WaferSize),
nameof(Zone)
};
return results;
}
public List<string> GetParameterNames(ILogic logic, ConfigDataBase configDataBase)
{
List<string> results = new List<string>
{
nameof(Ccomp),
nameof(CondType),
nameof(FlatZ),
nameof(FlatZMean),
nameof(FlatZRadialGradient),
nameof(FlatZStdDev),
nameof(GLimit),
nameof(Grade),
nameof(GradeMean),
nameof(GradeRadialGradient),
nameof(GradeStdDev),
nameof(NAvg),
nameof(NAvgMean),
nameof(NAvgRadialGradient),
nameof(NAvgStdDev),
nameof(Nsl),
nameof(NslMean),
nameof(NslRadialGradient),
nameof(NslStdDev),
nameof(PhaseMean),
nameof(PhaseRadialGradient),
nameof(PhaseStdDev),
nameof(RhoAvg),
nameof(RhoAvgMean),
nameof(RhoAvgRadialGradient),
nameof(RhoAvgStdDev),
nameof(RhoMethod),
nameof(Rhosl),
nameof(RhoslMean),
nameof(RhoslRadialGradient),
nameof(RhoslStdDev),
nameof(RsMean),
nameof(RsRadialGradient),
nameof(RsStdDev),
nameof(Vd),
nameof(VdMean),
nameof(VdRadialGradient),
nameof(VdStdDev)
};
return results;
}
public List<string> GetPairedParameterNames(ILogic logic, ConfigDataBase configDataBase)
{
List<string> results = new List<string>();
return results;
}
public List<string> GetIgnoreParameterNames(ILogic logic, ConfigDataBase configDataBase, Test test)
{
List<string> results = new List<string>();
return results;
}
public List<string> GetNames(ILogic logic, ConfigDataBase configDataBase)
{
List<string> results = new List<string>();
IProcessDataDescription processDataDescription = GetDefault(logic, configDataBase);
string json = JsonSerializer.Serialize(processDataDescription, processDataDescription.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
if (!(@object is JsonElement jsonElement))
throw new Exception();
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
results.Add(jsonProperty.Name);
return results;
}
public IProcessDataDescription GetDisplayNames(ILogic logic, ConfigDataBase configDataBase)
{
Description result = new Description();
return result;
}
public IProcessDataDescription GetDefault(ILogic logic, ConfigDataBase configDataBase)
{
Description result = new Description
{
Test = -1,
Count = 0,
Index = -1,
//
EventName = configDataBase.GetEventName(),
NullData = string.Empty,
JobID = logic.Logistics.JobID,
Sequence = logic.Logistics.Sequence.ToString(),
MesEntity = logic.Logistics.MesEntity,
ReportFullPath = logic.Logistics.ReportFullPath,
ProcessJobID = logic.Logistics.ProcessJobID,
MID = logic.Logistics.MID,
//
Date = nameof(Date),
Employee = nameof(Employee),
Lot = nameof(Lot),
PSN = nameof(PSN),
Reactor = nameof(Reactor),
Recipe = nameof(Recipe),
//
Area = nameof(Area),
Folder = nameof(Folder),
HeaderUniqueId = nameof(HeaderUniqueId),
Id = nameof(Id),
Layer = nameof(Layer),
Model = nameof(Model),
Pattern = nameof(Pattern),
Phase = nameof(Phase),
Plan = nameof(Plan),
RampRate = nameof(RampRate),
RDS = nameof(RDS),
SetupFile = nameof(SetupFile),
StartVoltage = nameof(StartVoltage),
StopVoltage = nameof(StopVoltage),
UniqueId = nameof(UniqueId),
Wafer = nameof(Wafer),
WaferSize = nameof(WaferSize),
Zone = nameof(Zone),
//
Ccomp = nameof(Ccomp),
CondType = nameof(CondType),
FlatZ = nameof(FlatZ),
FlatZMean = nameof(FlatZMean),
FlatZRadialGradient = nameof(FlatZRadialGradient),
FlatZStdDev = nameof(FlatZStdDev),
GLimit = nameof(GLimit),
Grade = nameof(Grade),
GradeMean = nameof(GradeMean),
GradeRadialGradient = nameof(GradeRadialGradient),
GradeStdDev = nameof(GradeStdDev),
NAvg = nameof(NAvg),
NAvgMean = nameof(NAvgMean),
NAvgRadialGradient = nameof(NAvgRadialGradient),
NAvgStdDev = nameof(NAvgStdDev),
Nsl = nameof(Nsl),
NslMean = nameof(NslMean),
NslRadialGradient = nameof(NslRadialGradient),
NslStdDev = nameof(NslStdDev),
PhaseMean = nameof(PhaseMean),
PhaseRadialGradient = nameof(PhaseRadialGradient),
PhaseStdDev = nameof(PhaseStdDev),
RhoAvg = nameof(RhoAvg),
RhoAvgMean = nameof(RhoAvgMean),
RhoAvgRadialGradient = nameof(RhoAvgRadialGradient),
RhoAvgStdDev = nameof(RhoAvgStdDev),
RhoMethod = nameof(RhoMethod),
Rhosl = nameof(Rhosl),
RhoslMean = nameof(RhoslMean),
RhoslRadialGradient = nameof(RhoslRadialGradient),
RhoslStdDev = nameof(RhoslStdDev),
RsMean = nameof(RsMean),
RsRadialGradient = nameof(RsRadialGradient),
RsStdDev = nameof(RsStdDev),
Vd = nameof(Vd),
VdMean = nameof(VdMean),
VdRadialGradient = nameof(VdRadialGradient),
VdStdDev = nameof(VdStdDev),
};
return result;
}
public List<IProcessDataDescription> GetDescription(ILogic logic, ConfigDataBase configDataBase, List<Test> tests, IProcessData iProcessData)
{
List<IProcessDataDescription> results = new List<IProcessDataDescription>();
if (iProcessData is null || !(iProcessData is ProcessData processData) || processData.Header is null || !processData.Details.Any())
results.Add(GetDefault(logic, configDataBase));
else
{
string nullData;
Description description;
object configDataNullData = ConfigData.NullData;
if (configDataNullData is null)
nullData = string.Empty;
else
nullData = configDataNullData.ToString();
for (int i = 0; i < processData.Details.Count; i++)
{
description = new Description
{
Test = (int)tests[i],
Count = tests.Count,
Index = i,
//
EventName = configDataBase.GetEventName(),
NullData = nullData,
JobID = logic.Logistics.JobID,
Sequence = logic.Logistics.Sequence.ToString(),
MesEntity = logic.Logistics.MesEntity,
ReportFullPath = logic.Logistics.ReportFullPath,
ProcessJobID = logic.Logistics.ProcessJobID,
MID = logic.Logistics.MID,
//
Date = processData.Header.Date,
Employee = processData.Header.Employee,
Lot = processData.Header.Lot,
PSN = processData.Header.PSN,
Reactor = processData.Header.Reactor,
Recipe = string.Empty,
//
Area = processData.Header.Area,
Folder = processData.Header.Folder,
HeaderUniqueId = processData.Details[i].HeaderUniqueId,
Id = string.Empty,
Layer = processData.Header.Layer,
Model = processData.Header.Model,
Pattern = processData.Header.Pattern,
Phase = processData.Details[i].Phase,
Plan = processData.Header.Plan,
RampRate = processData.Header.RampRate,
RDS = processData.Header.RDS,
SetupFile = processData.Header.SetupFile,
StartVoltage = processData.Header.StartVoltage,
StopVoltage = processData.Header.StopVoltage,
UniqueId = processData.Details[i].UniqueId,
Wafer = processData.Header.Wafer,
WaferSize = processData.Header.WaferSize,
Zone = processData.Header.Zone,
//
Ccomp = processData.Header.Ccomp,
CondType = processData.Header.CondType,
FlatZ = processData.Details[i].FlatZ,
FlatZMean = processData.Header.FlatZMean,
FlatZRadialGradient = processData.Header.FlatZRadialGradient,
FlatZStdDev = processData.Header.FlatZStdDev,
GLimit = processData.Header.GLimit,
Grade = processData.Details[i].Grade,
GradeMean = processData.Header.GradeMean,
GradeRadialGradient = processData.Header.GradeRadialGradient,
GradeStdDev = processData.Header.GradeStdDev,
NAvg = processData.Details[i].NAvg,
NAvgMean = processData.Header.NAvgMean,
NAvgRadialGradient = processData.Header.NAvgRadialGradient,
NAvgStdDev = processData.Header.NAvgStdDev,
Nsl = processData.Details[i].Nsl,
NslMean = processData.Header.NslMean,
NslRadialGradient = processData.Header.NslRadialGradient,
NslStdDev = processData.Header.NslStdDev,
PhaseMean = processData.Header.PhaseMean,
PhaseRadialGradient = processData.Header.PhaseRadialGradient,
PhaseStdDev = processData.Header.PhaseStdDev,
RhoAvg = processData.Details[i].RhoAvg,
RhoAvgMean = processData.Header.RhoAvgMean,
RhoAvgRadialGradient = processData.Header.RhoAvgRadialGradient,
RhoAvgStdDev = processData.Header.RhoAvgStdDev,
RhoMethod = processData.Header.RhoMethod,
Rhosl = processData.Details[i].Rhosl,
RhoslMean = processData.Header.RhoslMean,
RhoslRadialGradient = processData.Header.RhoslRadialGradient,
RhoslStdDev = processData.Header.RhoslStdDev,
RsMean = processData.Header.RsMean,
RsRadialGradient = processData.Header.RsRadialGradient,
RsStdDev = processData.Header.RsStdDev,
Vd = processData.Details[i].Vd,
VdMean = processData.Header.VdMean,
VdRadialGradient = processData.Header.VdRadialGradient,
VdStdDev = processData.Header.VdStdDev
};
results.Add(description);
}
}
return results;
}
}
}
}
}

32
Adaptation/Helpers/ProcessData.HgProbeDetail.cs
View File

@ -1,32 +0,0 @@
using System.Collections.Generic;
namespace Adaptation.Helpers
{
public partial class ProcessData
{
public class HgProbeDetail
{
public string FlatZ { get; set; }
public string Grade { get; set; }
public string HeaderUniqueId { get; set; }
public string NAvg { get; set; }
public string Nsl { get; set; }
public string Phase { get; set; }
public string RhoAvg { get; set; }
public string Rhosl { get; set; }
public string UniqueId { get; set; }
public string Vd { get; set; }
public override string ToString()
{
return string.Concat(FlatZ, ";", Grade);
}
}
}
}

70
Adaptation/Helpers/ProcessData.HgProbeFile.cs
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using System.Collections.Generic;
namespace Adaptation.Helpers
{
public partial class ProcessData
{
public class HgProbeFile
{
public string JobID { get; set; }
public string MesEntity { get; set; }
public string Area { get; set; }
public string Ccomp { get; set; }
public string CondType { get; set; }
public string Date { get; set; }
public string Employee { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string Folder { get; set; }
public string GLimit { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string Layer { get; set; }
public string Lot { get; set; }
public string Model { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string PSN { get; set; }
public string Pattern { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string Plan { get; set; }
public string RDS { get; set; }
public string RampRate { get; set; }
public string Reactor { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
}
}
}

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Adaptation/Helpers/ProcessData.WSRequest.cs
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@ -1,162 +0,0 @@
using Adaptation.Shared.Metrology;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Adaptation.Helpers
{
public partial class ProcessData
{
public class WSRequest
{
public bool SentToMetrology { get; set; }
public bool SentToSPC { get; set; }
//
public string Area { get; set; }
public string Ccomp { get; set; }
public string CellName { get; set; }
public string CondType { get; set; }
public string Date { get; set; }
public string FlatZMean { get; set; }
public string FlatZRadialGradient { get; set; }
public string FlatZStdDev { get; set; }
public string Folder { get; set; }
public string GLimit { get; set; }
public string GradeMean { get; set; }
public string GradeRadialGradient { get; set; }
public string GradeStdDev { get; set; }
public string Id { get; set; }
public string Layer { get; set; }
public string Lot { get; set; }
public string Model { get; set; }
public string NAvgMean { get; set; }
public string NAvgRadialGradient { get; set; }
public string NAvgStdDev { get; set; }
public string NslMean { get; set; }
public string NslRadialGradient { get; set; }
public string NslStdDev { get; set; }
public string Operator { get; set; }
public string PSN { get; set; }
public string Pattern { get; set; }
public string PhaseMean { get; set; }
public string PhaseRadialGradient { get; set; }
public string PhaseStdDev { get; set; }
public string Plan { get; set; }
public string RDS { get; set; }
public string RampRate { get; set; }
public string Reactor { get; set; }
public string RhoAvgMean { get; set; }
public string RhoAvgRadialGradient { get; set; }
public string RhoAvgStdDev { get; set; }
public string RhoMethod { get; set; }
public string RhoslMean { get; set; }
public string RhoslRadialGradient { get; set; }
public string RhoslStdDev { get; set; }
public string RsMean { get; set; }
public string RsRadialGradient { get; set; }
public string RsStdDev { get; set; }
public string SetupFile { get; set; }
public string StartVoltage { get; set; }
public string StopVoltage { get; set; }
public string UniqueId { get; set; }
public string VdMean { get; set; }
public string VdRadialGradient { get; set; }
public string VdStdDev { get; set; }
public string Wafer { get; set; }
public string WaferSize { get; set; }
public string Zone { get; set; }
public List<HgProbeDetail> Details { get; protected set; }
[Obsolete("For json")] public WSRequest() { }
internal WSRequest(ILogic logic, List<FileRead.Description> descriptions)
{
Id = string.Empty;
Details = new List<HgProbeDetail>();
CellName = logic.Logistics.MesEntity;
FileRead.Description x = descriptions[0];
//Header
{
Area = x.Area;
Ccomp = x.Ccomp;
CondType = x.CondType;
Date = x.Date;
FlatZMean = x.FlatZMean;
FlatZRadialGradient = x.FlatZRadialGradient;
FlatZStdDev = x.FlatZStdDev;
Folder = x.Folder;
GLimit = x.GLimit;
GradeMean = x.GradeMean;
GradeRadialGradient = x.GradeRadialGradient;
GradeStdDev = x.GradeStdDev;
Operator = x.Employee;
Layer = x.Layer;
Lot = x.Lot;
Model = x.Model;
NAvgMean = x.NAvgMean;
NAvgRadialGradient = x.NAvgRadialGradient;
NAvgStdDev = x.NAvgStdDev;
NslMean = x.NslMean;
NslRadialGradient = x.NslRadialGradient;
NslStdDev = x.NslStdDev;
PSN = x.PSN;
Pattern = x.Pattern;
PhaseMean = x.PhaseMean;
PhaseRadialGradient = x.PhaseRadialGradient;
PhaseStdDev = x.PhaseStdDev;
Plan = x.Plan;
RDS = x.RDS;
RampRate = x.RampRate;
Reactor = x.Reactor;
RhoAvgMean = x.RhoAvgMean;
RhoAvgRadialGradient = x.RhoAvgRadialGradient;
RhoAvgStdDev = x.RhoAvgStdDev;
RhoMethod = x.RhoMethod;
RhoslMean = x.RhoslMean;
RhoslRadialGradient = x.RhoslRadialGradient;
RhoslStdDev = x.RhoslStdDev;
RsMean = x.RsMean;
RsRadialGradient = x.RsRadialGradient;
RsStdDev = x.RsStdDev;
SetupFile = x.SetupFile;
StartVoltage = x.StartVoltage;
StopVoltage = x.StopVoltage;
UniqueId = x.UniqueId;
VdMean = x.VdMean;
VdRadialGradient = x.VdRadialGradient;
VdStdDev = x.VdStdDev;
Wafer = x.Wafer;
WaferSize = x.WaferSize;
Zone = x.Zone;
}
HgProbeDetail hgProbeDetail;
foreach (FileRead.Description description in descriptions)
{
hgProbeDetail = new HgProbeDetail
{
FlatZ = description.FlatZ,
Grade = description.Grade,
HeaderUniqueId = description.HeaderUniqueId,
NAvg = description.NAvg,
Nsl = description.Nsl,
Phase = description.Phase,
RhoAvg = description.RhoAvg,
Rhosl = description.Rhosl,
UniqueId = description.UniqueId,
Vd = description.Vd
};
Details.Add(hgProbeDetail);
}
if (Date is null)
Date = logic.Logistics.DateTimeFromSequence.ToString();
if (UniqueId is null && Details.Any())
UniqueId = Details[0].HeaderUniqueId;
}
}
}
}

453
Adaptation/Helpers/ProcessData.cs
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@ -1,453 +0,0 @@
using Adaptation.Shared;
using Adaptation.Shared.Metrology;
using log4net;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Text.Json;
using System.Text.RegularExpressions;
namespace Adaptation.Helpers
{
public partial class ProcessData : IProcessData
{
public HgProbeFile Header { get; private set; }
public List<HgProbeDetail> Details { get; private set; }
private int _I;
private readonly ILog _Log;
private string _Data;
public ProcessData(ILogic logic, ConfigData configData, List<FileInfo> fileInfoCollection)
{
Header = null;
fileInfoCollection.Clear();
_I = 0;
_Data = string.Empty;
_Log = LogManager.GetLogger(typeof(ProcessData));
Details = new List<HgProbeDetail>();
Tuple<HgProbeFile, List<HgProbeDetail>> tuple = Parse(logic, configData, fileInfoCollection);
Details.AddRange(tuple.Item2);
Header = tuple.Item1;
}
public Tuple<string, JsonElement?, List<FileInfo>> GetResults(ILogic logic, ConfigDataBase configDataBase, List<FileInfo> fileInfoCollection)
{
Tuple<string, JsonElement?, List<FileInfo>> results;
if (!(configDataBase is ConfigData configData))
throw new Exception();
List<Test> tests = new List<Test>();
List<IProcessDataDescription> descriptions;
EventName eventName = configData.GetEventNameValue();
if (eventName == EventName.FileRead && Details.Any())
{
foreach (var item in Details)
tests.Add(Test.HgCV);
descriptions = configData.GetDescription(logic, tests, this);
}
else
throw new Exception();
if (!configData.EafHosted)
{
new FileRead.Description().GetDescription(logic, configData, tests, this);
}
if (tests.Count != descriptions.Count)
throw new Exception();
for (int i = 0; i < tests.Count; i++)
{
if (descriptions[i].Test != (int)tests[i])
throw new Exception();
}
string json;
if (descriptions[0] is Duplicator.Description)
{
List<Duplicator.Description> duplicatorDescriptions = (from l in descriptions select (Duplicator.Description)l).ToList();
json = JsonSerializer.Serialize(duplicatorDescriptions, duplicatorDescriptions.GetType());
}
else if (descriptions[0] is FileRead.Description)
{
List<FileRead.Description> fileReadDescriptions = (from l in descriptions select (FileRead.Description)l).ToList();
json = JsonSerializer.Serialize(fileReadDescriptions, fileReadDescriptions.GetType());
}
else
throw new Exception();
object @object = JsonSerializer.Deserialize<object>(json);
if (!(@object is JsonElement jsonElement))
throw new Exception();
results = new Tuple<string, JsonElement?, List<FileInfo>>(logic.Logistics.Logistics1[0], jsonElement, fileInfoCollection);
return results;
}
public static Dictionary<Test, List<Duplicator.Description>> GetKeyValuePairs(ConfigData configData, JsonElement jsonElement, List<Duplicator.Description> processDataDescriptions, bool extra = false)
{
Dictionary<Test, List<Duplicator.Description>> results = configData.GetKeyValuePairs(processDataDescriptions);
configData.CheckProcessDataDescription(results, extra);
return results;
}
public static List<FileRead.Description> GetProcessDataFileReadDescriptions(ConfigData configData, JsonElement jsonElement)
{
List<FileRead.Description> results = new List<FileRead.Description>();
List<IProcessDataDescription> processDataDescriptions = configData.GetIProcessDataDescriptions(jsonElement);
foreach (IProcessDataDescription processDataDescription in processDataDescriptions)
{
if (!(processDataDescription is FileRead.Description description))
continue;
results.Add(description);
}
return results;
}
public static string GetLines(ILogic logic, List<FileRead.Description> descriptions)
{
StringBuilder result = new StringBuilder();
return result.ToString();
}
internal static void PostOpenInsightMetrologyViewerAttachments(ILog log, ConfigData configData, Logistics logistics, DateTime dateTime, string logisticsSequenceMemoryDirectory, List<FileRead.Description> descriptions, string matchDirectory)
{
string[] pclFiles = Directory.GetFiles(matchDirectory, "*.pcl", SearchOption.TopDirectoryOnly);
if (pclFiles.Length != 1)
throw new Exception("Invalid source file count!");
string wsResultsMemoryFile = string.Concat(logisticsSequenceMemoryDirectory, @"\", nameof(WS.Results), ".json");
if (!File.Exists(wsResultsMemoryFile))
throw new Exception(string.Concat("Memory file <", wsResultsMemoryFile, "> doesn't exist!"));
string json = File.ReadAllText(wsResultsMemoryFile);
WS.Results metrologyWSRequest = JsonSerializer.Deserialize<WS.Results>(json);
long wsResultsHeaderID = metrologyWSRequest.HeaderID;
List<string> pdfFiles = new List<string>();
pdfFiles.AddRange(Directory.GetFiles(matchDirectory, "*.pdf_old", SearchOption.TopDirectoryOnly));
foreach (string pdfFile in pdfFiles)
File.Delete(pdfFile);
pdfFiles.Clear();
pdfFiles.AddRange(Directory.GetFiles(matchDirectory, "*.pdf", SearchOption.TopDirectoryOnly));
foreach (string pdfFile in pdfFiles)
File.Move(pdfFile, Path.ChangeExtension(pdfFile, ".pdf_old"));
pdfFiles.Clear();
foreach (string pclFile in pclFiles.OrderBy(l => l))
pdfFiles.Add(ConvertSourceFileToPdfWithChartData(configData, pclFile));
if (pdfFiles.Count == 0)
log.Debug("Invalid *.pdf file count!");
List<WS.Attachment> headerAttachments = new List<WS.Attachment> { new WS.Attachment(descriptions[0].HeaderUniqueId, "Data.pdf", pdfFiles[0]) };
WS.AttachFiles(configData.OpenInsightMetrogyViewerAPI, wsResultsHeaderID, headerAttachments, dataAttachments: null);
}
/// <summary>
/// Convert the raw data file to parsable file format - in this case from PCL to PDF
/// </summary>
/// <param name="sourceFile">source file to be converted to PDF</param>
/// <returns></returns>
private static string ConvertSourceFileToPdf(ConfigData configData, string sourceFile)
{
string result = Path.ChangeExtension(sourceFile, ".pdf");
if (!File.Exists(result))
{
//string arguments = string.Concat("-i \"", sourceFile, "\" -o \"", result, "\"");
string arguments = string.Concat("-dSAFER -dBATCH -dNOPAUSE -dFIXEDMEDIA -dFitPage -dAutoRotatePages=/All -dDEVICEWIDTHPOINTS=792 -dDEVICEHEIGHTPOINTS=612 -sOutputFile=\"", result, "\" -sDEVICE=pdfwrite \"", sourceFile, "\"");
//Process process = Process.Start(configData.LincPDFCFileName, arguments);
Process process = Process.Start(configData.GhostPCLFileName, arguments);
process.WaitForExit(30000);
if (!File.Exists(result))
throw new Exception("PDF file wasn't created");
}
return result;
}
/// <summary>
/// Convert the raw data file to parsable file format - in this case from PCL to PDF
/// </summary>
/// <param name="sourceFile">source file to be converted to PDF</param>
/// <returns></returns>
private static string ConvertSourceFileToPdfWithChartData(ConfigData configData, string sourceFile)
{
string result = Path.ChangeExtension(sourceFile, ".pdf");
if (!File.Exists(result))
{
string arguments = string.Concat("-i \"", sourceFile, "\" -o \"", result, "\"");
//string arguments = string.Concat("-dSAFER -dBATCH -dNOPAUSE -dFIXEDMEDIA -dFitPage -dAutoRotatePages=/All -dDEVICEWIDTHPOINTS=792 -dDEVICEHEIGHTPOINTS=612 -sOutputFile=\"", result, "\" -sDEVICE=pdfwrite \"", sourceFile, "\"");
Process process = Process.Start(configData.LincPDFCFileName, arguments);
//Process process = Process.Start(configData.GhostPCLFileName, arguments);
process.WaitForExit(30000);
if (!File.Exists(result))
throw new Exception("PDF file wasn't created");
}
return result;
}
private void ScanPast(string text)
{
int num = _Data.IndexOf(text, _I);
if (num > -1)
{
_I = num + text.Length;
}
else
{
_I = _Data.Length;
}
}
private string GetBefore(string text)
{
int num = _Data.IndexOf(text, _I);
string text2;
if (num > -1)
{
text2 = _Data.Substring(_I, num - _I);
_I = num + text.Length;
return text2.Trim();
}
text2 = _Data.Substring(_I);
_I = _Data.Length;
return text2.Trim();
}
private bool IsNullOrWhiteSpace(string text)
{
for (int i = 0; i < text.Length; i++)
{
if (!char.IsWhiteSpace(text[i]))
{
return false;
}
}
return true;
}
private bool IsBlankLine()
{
int num = _Data.IndexOf("\n", _I);
return IsNullOrWhiteSpace((num > -1) ? _Data.Substring(_I, num - _I) : _Data.Substring(_I));
}
private string GetToEOL()
{
return GetBefore("\n");
}
private string GetToken()
{
while (_I < _Data.Length && IsNullOrWhiteSpace(_Data.Substring(_I, 1)))
{
_I++;
}
int j;
for (j = _I; j < _Data.Length && !IsNullOrWhiteSpace(_Data.Substring(j, 1)); j++)
{
}
string text = _Data.Substring(_I, j - _I);
_I = j;
return text.Trim();
}
private Tuple<HgProbeFile, List<HgProbeDetail>> Parse(ILogic logic, ConfigData configData, List<FileInfo> fileInfoCollection)
{
Tuple<HgProbeFile, List<HgProbeDetail>> result;
string headerText;
string sourceFileNamePdf = ConvertSourceFileToPdf(configData, logic.Logistics.ReportFullPath);
fileInfoCollection.Add(new FileInfo(sourceFileNamePdf));
string altHeaderFileName = Path.ChangeExtension(logic.Logistics.ReportFullPath, ".txt");
if (File.Exists(altHeaderFileName))
{
headerText = File.ReadAllText(altHeaderFileName);
fileInfoCollection.Add(new FileInfo(altHeaderFileName));
}
else
{
//Pdfbox, IKVM.AWT.WinForms
org.apache.pdfbox.pdmodel.PDDocument pdfDocument = org.apache.pdfbox.pdmodel.PDDocument.load(sourceFileNamePdf);
org.apache.pdfbox.util.PDFTextStripper stripper = new org.apache.pdfbox.util.PDFTextStripper();
headerText = stripper.getText(pdfDocument);
pdfDocument.close();
File.AppendAllText(altHeaderFileName, headerText);
fileInfoCollection.Add(new FileInfo(altHeaderFileName));
}
List<HgProbeDetail> hgProbeDetails = new List<HgProbeDetail>();
HgProbeFile hgProbeFile = new HgProbeFile { JobID = logic.Logistics.JobID, MesEntity = logic.Logistics.MesEntity, Date = DateTime.Now.ToString() };
string h = string.Empty;
if (headerText.Contains("G A T E V O L T A G E"))
throw new Exception("Ignore: GATEVOLTAGE runs are not parsed.");
if (!string.IsNullOrEmpty(headerText))
{
headerText = headerText.Replace("box", "");
headerText = headerText.Replace("bar", "");
headerText = headerText.Replace("horiz", "");
headerText = headerText.Replace("center", "");
headerText = headerText.Replace("upper", "");
headerText = headerText.Replace("lower", "");
headerText = headerText.Replace("right", "");
headerText = headerText.Replace("left", "");
headerText = headerText.Replace("thin", "");
headerText = headerText.Replace("vertical", "");
headerText = headerText.Replace("line", "");
headerText = headerText.Replace("middle", "");
headerText = headerText.Replace("side", "");
headerText = headerText.Replace("top", ""); // This will change "Stop Voltage" to "S Voltage"
headerText = headerText.Replace("corner", "");
headerText = headerText.Replace("bottom", "");
headerText = headerText.Replace("ruleunder", "_");
headerText = headerText.Replace("@", "");
headerText = headerText.Replace("*", "");
_I = 0;
_Data = headerText;
_Log.Debug($"****MERCURY-DATA [002]= {headerText}");
ScanPast("Operator:");
hgProbeFile.Employee = GetBefore("Start Voltage:");
hgProbeFile.StartVoltage = GetBefore("V");
ScanPast("Wafer :");
hgProbeFile.Wafer = GetBefore("S Voltage :"); // This is actually "Stop Voltage"
hgProbeFile.StopVoltage = GetBefore("V");
ScanPast("Lot :");
if (headerText.Contains("Ramp Rate :"))
hgProbeFile.Lot = GetBefore("Ramp Rate :");
else if (headerText.Contains("Forward Rate :"))
hgProbeFile.Lot = GetBefore("Forward Rate :");
else if (headerText.Contains("Conduct Type:"))
hgProbeFile.Lot = GetBefore("Conduct Type:");
else
hgProbeFile.Lot = string.Empty;
// Remove illegal characters \/:*?"<>| found in the Lot.
hgProbeFile.Lot = Regex.Replace(hgProbeFile.Lot, @"[\\,\/,\:,\*,\?,\"",\<,\>,\|]", "_").Split('\r')[0].Split('\n')[0];
hgProbeFile.RampRate = GetBefore("mV/sec");
ScanPast("Plan :");
hgProbeFile.Plan = GetBefore("G limit :");
//hgProbeFile.GLimit = GetBefore("S ");
hgProbeFile.GLimit = GetBefore("S");
hgProbeFile.Date = DateTime.Now.ToString();
ScanPast("Setup File:");
//hgProbeFile.SetupFile = GetBefore("O O");
hgProbeFile.SetupFile = GetBefore("O O");
ScanPast("Wafer size :");
hgProbeFile.WaferSize = GetBefore("mm");
ScanPast("Folder :");
//hgProbeFile.Folder = GetBefore("N N");
hgProbeFile.Folder = GetBefore("N N");
ScanPast("Ccomp : ");
hgProbeFile.Ccomp = GetBefore("pF");
ScanPast("Pattern :");
//hgProbeFile.Pattern = GetBefore("C C");
hgProbeFile.Pattern = GetBefore("C C");
ScanPast("Area:");
hgProbeFile.Area = GetBefore("cm2");
ScanPast("Cond Type :");
hgProbeFile.CondType = GetBefore("Rho Method:");
//hgProbeFile.RhoMethod = GetBefore("N N");
hgProbeFile.RhoMethod = GetBefore("N N");
ScanPast("Model :");
//hgProbeFile.Model = GetBefore("T T");
hgProbeFile.Model = GetBefore("T T");
ScanPast("Navg :");
hgProbeFile.NAvgMean = GetToken();
hgProbeFile.NAvgStdDev = GetToken();
hgProbeFile.NAvgRadialGradient = GetToken();
ScanPast("Nsl :");
hgProbeFile.NslMean = GetToken();
hgProbeFile.NslStdDev = GetToken();
hgProbeFile.NslRadialGradient = GetToken();
ScanPast("Vd :");
hgProbeFile.VdMean = GetToken();
hgProbeFile.VdStdDev = GetToken();
hgProbeFile.VdRadialGradient = GetToken();
ScanPast("Flat Z:");
hgProbeFile.FlatZMean = GetToken();
hgProbeFile.FlatZStdDev = GetToken();
hgProbeFile.FlatZRadialGradient = GetToken();
ScanPast("Rhoavg:");
hgProbeFile.RhoAvgMean = GetToken();
hgProbeFile.RhoAvgStdDev = GetToken();
hgProbeFile.RhoAvgRadialGradient = GetToken();
ScanPast("Rhosl :");
hgProbeFile.RhoslMean = GetToken();
hgProbeFile.RhoslStdDev = GetToken();
hgProbeFile.RhoslRadialGradient = GetToken();
ScanPast("Phase :");
hgProbeFile.PhaseMean = GetToken();
hgProbeFile.PhaseStdDev = GetToken();
hgProbeFile.PhaseRadialGradient = GetToken();
ScanPast("Grade :");
hgProbeFile.GradeMean = GetToken();
hgProbeFile.GradeStdDev = GetToken();
hgProbeFile.GradeRadialGradient = GetToken();
ScanPast("Rs :");
hgProbeFile.RsMean = GetToken();
hgProbeFile.RsStdDev = GetToken();
hgProbeFile.RsRadialGradient = GetToken();
string lot = hgProbeFile.Lot;
string[] segments = lot.Split('-');
if (segments.Length >= 1)
hgProbeFile.Reactor = segments[0];
if (segments.Length >= 2)
hgProbeFile.RDS = segments[1];
if (segments.Length >= 3)
{
string str = segments[2];
string[] segmentsB = str.Split('.');
if (segmentsB.Length >= 1)
hgProbeFile.PSN = segmentsB[0];
if (segmentsB.Length >= 2)
hgProbeFile.Layer = segmentsB[1];
}
if (segments.Length >= 4)
hgProbeFile.Zone = segments[3];
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
string token = GetToken();
while (!string.IsNullOrEmpty(token))
{
HgProbeDetail hgProbeDetail = new HgProbeDetail { NAvg = token };
GetToEOL();
hgProbeDetail.Nsl = GetToken();
GetToEOL();
hgProbeDetail.Vd = GetToken();
GetToEOL();
hgProbeDetail.FlatZ = GetToken();
GetToEOL();
hgProbeDetail.RhoAvg = GetToken();
GetToEOL();
hgProbeDetail.Rhosl = GetToken();
GetToEOL();
hgProbeDetail.Phase = GetToken();
GetToEOL();
hgProbeDetail.Grade = GetToken();
hgProbeDetail.UniqueId = string.Concat("_Point-", hgProbeDetails.Count + 1);
hgProbeDetails.Add(hgProbeDetail);
GetToken();
GetToken();
GetToken();
GetToken();
token = GetToken();
//if (token.Contains("LincPDF") || token.Contains("MULTIPLE"))
if (token.Contains("MULTIPLE"))
{
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
//ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
ScanPast("Flat Z: Grade : % Flat Z: Grade : % Flat Z: Grade : %");
token = GetToken();
}
}
}
hgProbeFile.UniqueId = string.Format("{0}_{1}_{2}", logic.Logistics.JobID, hgProbeFile.Lot, Path.GetFileNameWithoutExtension(logic.Logistics.ReportFullPath));
foreach (HgProbeDetail detail in hgProbeDetails)
{
detail.HeaderUniqueId = hgProbeFile.UniqueId;
detail.UniqueId = string.Concat(detail, detail.UniqueId);
}
fileInfoCollection.Add(new FileInfo(logic.Logistics.ReportFullPath));
result = new Tuple<HgProbeFile, List<HgProbeDetail>>(hgProbeFile, hgProbeDetails);
return result;
}
}
}

26
Adaptation/Ifx/Eaf/Common/Configuration/ConnectionSetting.cs
View File

@ -1,13 +1,17 @@
namespace Adaptation.Ifx.Eaf.Common.Configuration
{
[System.Runtime.Serialization.DataContractAttribute]
public class ConnectionSetting
{
public ConnectionSetting(string name, string value) { }
namespace Adaptation.Ifx.Eaf.Common.Configuration;
[System.Runtime.Serialization.DataContractAttribute]
public class ConnectionSetting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
public ConnectionSetting(string name, string value) { }
[System.Runtime.Serialization.DataMemberAttribute]
public string Name { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string Value { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string Name { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string Value { get; set; }
}
}

28
Adaptation/Ifx/Eaf/EquipmentConnector/File/Component/File.cs
View File

@ -1,19 +1,23 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Component
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Component;
public class File
{
public class File
{
public File(string filePath) { throw new NotImplementedException(); }
public File(string filePath, DateTime timeFileFound) { throw new NotImplementedException(); }
public string Path { get; }
public DateTime TimeFound { get; }
public bool IsErrorFile { get; }
public Dictionary<string, string> ContentParameters { get; }
#pragma warning disable CA2254
#pragma warning disable IDE0060
public File(string filePath) => throw new NotImplementedException();
public File(string filePath, DateTime timeFileFound) => throw new NotImplementedException();
public string Path { get; }
public DateTime TimeFound { get; }
public bool IsErrorFile { get; }
public Dictionary<string, string> ContentParameters { get; }
public File UpdateContentParameters(Dictionary<string, string> contentParameters) => throw new NotImplementedException();
public File UpdateParsingStatus(bool isErrorFile) => throw new NotImplementedException();
public File UpdateContentParameters(Dictionary<string, string> contentParameters) { throw new NotImplementedException(); }
public File UpdateParsingStatus(bool isErrorFile) { throw new NotImplementedException(); }
}
}

57
Adaptation/Ifx/Eaf/EquipmentConnector/File/Component/FilePathGenerator.cs
View File

@ -2,34 +2,39 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Component
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Component;
public class FilePathGenerator
{
public class FilePathGenerator
{
public const char PLACEHOLDER_IDENTIFIER = '%';
public const char PLACEHOLDER_SEPARATOR = ':';
public const string PLACEHOLDER_NOT_AVAILABLE = "NA";
public const string PLACEHOLDER_ORIGINAL_FILE_NAME = "OriginalFileName";
public const string PLACEHOLDER_ORIGINAL_FILE_EXTENSION = "OriginalFileExtension";
public const string PLACEHOLDER_DATE_TIME = "DateTime";
public const string PLACEHOLDER_SUB_FOLDER = "SubFolder";
public const string PLACEHOLDER_CELL_NAME = "CellName";
public FilePathGenerator(FileConnectorConfiguration config, Dictionary<string, string> customPattern = null) { throw new NotImplementedException(); }
public FilePathGenerator(FileConnectorConfiguration config, File file, bool isErrorFile = false, Dictionary<string, string> customPattern = null) { throw new NotImplementedException(); }
public FilePathGenerator(FileConnectorConfiguration config, string sourceFilePath, bool isErrorFile = false, Dictionary<string, string> customPattern = null) { throw new NotImplementedException(); }
#pragma warning disable CA1822
#pragma warning disable CA2254
#pragma warning disable IDE0060
protected string SubFolderPath { get; }
protected FileConnectorConfiguration Configuration { get; }
protected File File { get; }
protected bool IsErrorFile { get; }
protected string DefaultPlaceHolderValue { get; }
public const char PLACEHOLDER_IDENTIFIER = '%';
public const char PLACEHOLDER_SEPARATOR = ':';
public const string PLACEHOLDER_NOT_AVAILABLE = "NA";
public const string PLACEHOLDER_ORIGINAL_FILE_NAME = "OriginalFileName";
public const string PLACEHOLDER_ORIGINAL_FILE_EXTENSION = "OriginalFileExtension";
public const string PLACEHOLDER_DATE_TIME = "DateTime";
public const string PLACEHOLDER_SUB_FOLDER = "SubFolder";
public const string PLACEHOLDER_CELL_NAME = "CellName";
public FilePathGenerator(FileConnectorConfiguration config, Dictionary<string, string> customPattern = null) => throw new NotImplementedException();
public FilePathGenerator(FileConnectorConfiguration config, File file, bool isErrorFile = false, Dictionary<string, string> customPattern = null) => throw new NotImplementedException();
public FilePathGenerator(FileConnectorConfiguration config, string sourceFilePath, bool isErrorFile = false, Dictionary<string, string> customPattern = null) => throw new NotImplementedException();
protected string SubFolderPath { get; }
protected FileConnectorConfiguration Configuration { get; }
protected File File { get; }
protected bool IsErrorFile { get; }
protected string DefaultPlaceHolderValue { get; }
public string GetFullTargetPath() => throw new NotImplementedException();
public virtual string GetTargetFileName() => throw new NotImplementedException();
public string GetTargetFolder(bool throwExceptionIfNotExist = true) => throw new NotImplementedException();
protected virtual string GetSubFolder(string folderPattern, string subFolderPath) => throw new NotImplementedException();
protected virtual string PrepareFolderPath(string targetFolderPath, string subFolderPath) => throw new NotImplementedException();
protected string ReplacePlaceholder(string inputPath) => throw new NotImplementedException();
public string GetFullTargetPath() { throw new NotImplementedException(); }
public virtual string GetTargetFileName() { throw new NotImplementedException(); }
public string GetTargetFolder(bool throwExceptionIfNotExist = true) { throw new NotImplementedException(); }
protected virtual string GetSubFolder(string folderPattern, string subFolderPath) { throw new NotImplementedException(); }
protected virtual string PrepareFolderPath(string targetFolderPath, string subFolderPath) { throw new NotImplementedException(); }
protected string ReplacePlaceholder(string inputPath) { throw new NotImplementedException(); }
}
}

253
Adaptation/Ifx/Eaf/EquipmentConnector/File/Configuration/FileConnectorConfiguration.cs
View File

@ -2,134 +2,133 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.Configuration;
[System.Runtime.Serialization.DataContractAttribute]
public class FileConnectorConfiguration
{
[System.Runtime.Serialization.DataContractAttribute]
public class FileConnectorConfiguration
public const ulong IDLE_EVENT_WAIT_TIME_DEFAULT = 360;
public const ulong FILE_HANDLE_TIMEOUT_DEFAULT = 15;
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? TriggerOnChanged { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? PostProcessingRetries { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? CopySourceFolderStructure { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public IfPostProcessingFailsEnum? IfPostProcessingFailsAction { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string AlternateTargetFolder { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? FileHandleTimeout { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public bool? DeleteEmptySourceSubFolders { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? IdleEventWaitTimeInSeconds { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string FileAgeThreshold { get; set; }
public bool? FolderAgeCheckIndividualSubFolders { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual ZipModeEnum? ZipMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public FileAgeFilterEnum? FileAgeFilterMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ZipTargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ZipErrorTargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? ZipFileSubFolderLevel { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string DefaultPlaceHolderValue { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public bool? UseZip64Mode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public List<ConnectionSetting> ConnectionSettings { get; set; }
public string SourceDirectoryCloaking { get; set; }
public string FolderAgeThreshold { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? FileScanningIntervalInSeconds { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? TriggerOnCreated { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? ZipFileTime { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string SourceFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string SourceFileFilter { get; set; }
public List<string> SourceFileFilters { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? IncludeSubDirectories { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual FileScanningOptionEnum? FileScanningOption { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string TargetFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ErrorTargetFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string TargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? FileHandleWaitTime { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public IfFileExistEnum? IfFileExistAction { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? ConnectionRetryInterval { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PreProcessingModeEnum? PreProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PostProcessingModeEnum? PostProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PostProcessingModeEnum? ErrorPostProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? ZipFileAmount { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ErrorTargetFileName { get; set; }
public void Initialize() => throw new NotImplementedException();
public enum PostProcessingModeEnum
{
public const ulong IDLE_EVENT_WAIT_TIME_DEFAULT = 360;
public const ulong FILE_HANDLE_TIMEOUT_DEFAULT = 15;
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? TriggerOnChanged { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? PostProcessingRetries { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? CopySourceFolderStructure { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public IfPostProcessingFailsEnum? IfPostProcessingFailsAction { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string AlternateTargetFolder { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? FileHandleTimeout { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public bool? DeleteEmptySourceSubFolders { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? IdleEventWaitTimeInSeconds { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string FileAgeThreshold { get; set; }
public bool? FolderAgeCheckIndividualSubFolders { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual ZipModeEnum? ZipMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public FileAgeFilterEnum? FileAgeFilterMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ZipTargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ZipErrorTargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? ZipFileSubFolderLevel { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string DefaultPlaceHolderValue { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public bool? UseZip64Mode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public List<ConnectionSetting> ConnectionSettings { get; set; }
public string SourceDirectoryCloaking { get; set; }
public string FolderAgeThreshold { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? FileScanningIntervalInSeconds { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? TriggerOnCreated { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? ZipFileTime { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string SourceFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string SourceFileFilter { get; set; }
public List<string> SourceFileFilters { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual bool? IncludeSubDirectories { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual FileScanningOptionEnum? FileScanningOption { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string TargetFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ErrorTargetFileLocation { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string TargetFileName { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? FileHandleWaitTime { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public IfFileExistEnum? IfFileExistAction { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public long? ConnectionRetryInterval { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PreProcessingModeEnum? PreProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PostProcessingModeEnum? PostProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public PostProcessingModeEnum? ErrorPostProcessingMode { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public virtual long? ZipFileAmount { get; set; }
[System.Runtime.Serialization.DataMemberAttribute]
public string ErrorTargetFileName { get; set; }
public void Initialize() { throw new NotImplementedException(); }
public enum PostProcessingModeEnum
{
None = 0,
Move = 1,
Copy = 2,
Rename = 3,
Zip = 4,
Delete = 5,
MoveFolder = 6,
CopyFolder = 7,
DeleteFolder = 8
}
public enum PreProcessingModeEnum
{
None = 0,
Process = 1
}
public enum IfFileExistEnum
{
Overwrite = 0,
LeaveFiles = 1,
Delete = 2
}
public enum IfPostProcessingFailsEnum
{
LeaveFiles = 0,
Delete = 1
}
public enum FileScanningOptionEnum
{
FileWatcher = 0,
TimeBased = 1
}
public enum ZipModeEnum
{
ZipByAmountOrTime = 0,
ZipByFileName = 1,
ZipBySubFolderName = 2
}
public enum FileAgeFilterEnum
{
IgnoreNewer = 0,
IgnoreOlder = 1
}
None = 0,
Move = 1,
Copy = 2,
Rename = 3,
Zip = 4,
Delete = 5,
MoveFolder = 6,
CopyFolder = 7,
DeleteFolder = 8
}
public enum PreProcessingModeEnum
{
None = 0,
Process = 1
}
public enum IfFileExistEnum
{
Overwrite = 0,
LeaveFiles = 1,
Delete = 2
}
public enum IfPostProcessingFailsEnum
{
LeaveFiles = 0,
Delete = 1
}
public enum FileScanningOptionEnum
{
FileWatcher = 0,
TimeBased = 1
}
public enum ZipModeEnum
{
ZipByAmountOrTime = 0,
ZipByFileName = 1,
ZipBySubFolderName = 2
}
public enum FileAgeFilterEnum
{
IgnoreNewer = 0,
IgnoreOlder = 1
}
}

21
Adaptation/Ifx/Eaf/EquipmentConnector/File/SelfDescription/FileConnectorParameterTypeDefinitionProvider.cs
View File

@ -2,13 +2,18 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.SelfDescription
{
public class FileConnectorParameterTypeDefinitionProvider
{
public FileConnectorParameterTypeDefinitionProvider() { }
namespace Adaptation.Ifx.Eaf.EquipmentConnector.File.SelfDescription;
public class FileConnectorParameterTypeDefinitionProvider
{
#pragma warning disable CA1822
#pragma warning disable CA2254
#pragma warning disable IDE0060
public FileConnectorParameterTypeDefinitionProvider() { }
public IEnumerable<ParameterTypeDefinition> GetAllParameterTypeDefinition() => null;
public ParameterTypeDefinition GetParameterTypeDefinition(string name) => null;
public IEnumerable<ParameterTypeDefinition> GetAllParameterTypeDefinition() { return null; }
public ParameterTypeDefinition GetParameterTypeDefinition(string name) { return null; }
}
}

96
Adaptation/MET08RESIHGCV.Tests.csproj
View File

@ -6,12 +6,12 @@
<SccLocalPath>SAK</SccLocalPath>
</PropertyGroup>
<PropertyGroup>
<TargetFramework>net5.0</TargetFramework>
<TargetFramework>net6.0</TargetFramework>
<IsPackable>false</IsPackable>
</PropertyGroup>
<PropertyGroup>
<VSTestLogger>trx</VSTestLogger>
<VSTestResultsDirectory>../../../Trunk/DEP08EGANAIXG5/05_TestResults/TestResults</VSTestResultsDirectory>
<VSTestResultsDirectory>../../../../MET08RESIHGCV/05_TestResults/TestResults</VSTestResultsDirectory>
</PropertyGroup>
<PropertyGroup>
<IsWindows Condition="'$([System.Runtime.InteropServices.RuntimeInformation]::IsOSPlatform($([System.Runtime.InteropServices.OSPlatform]::Windows)))' == 'true'">true</IsWindows>
@ -28,38 +28,68 @@
<DefineConstants>Linux</DefineConstants>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="coverlet.collector" Version="1.3.0" />
<PackageReference Include="External.Common.Logging.Core" Version="3.3.1"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="External.Common.Logging" Version="3.3.1"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="External.Infineon.Monitoring.MonA" Version="1.2.0.1"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="External.Infineon.Yoda" Version="5.2.1"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="External.log4net" Version="2.0.8"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.AWT.WinForms" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.OpenJDK.Core" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.OpenJDK.Media" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.OpenJDK.Text" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.OpenJDK.Util" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.OpenJDK.XML.API" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="IKVM.Runtime" Version="7.2.4630.5"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="Microsoft.Extensions.Configuration.Binder" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Configuration.CommandLine" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Configuration.EnvironmentVariables" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Configuration.FileExtensions" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Configuration.json" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Configuration" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.DependencyInjection" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Logging.Console" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Logging.Debug" Version="5.0.0" />
<PackageReference Include="Microsoft.Extensions.Logging" Version="5.0.0" />
<PackageReference Include="Microsoft.NET.Test.Sdk" Version="16.9.1" />
<PackageReference Include="MSTest.TestAdapter" Version="2.1.1" />
<PackageReference Include="MSTest.TestFramework" Version="2.1.1" />
<PackageReference Include="Pdfbox" Version="1.1.1"><NoWarn>NU1701</NoWarn></PackageReference>
<PackageReference Include="coverlet.collector" Version="3.1.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration.Binder" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration.CommandLine" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration.EnvironmentVariables" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration.FileExtensions" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration.json" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Configuration" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.DependencyInjection" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Logging.Console" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Logging.Debug" Version="6.0.0"/>
<PackageReference Include="Microsoft.Extensions.Logging" Version="6.0.0"/>
<PackageReference Include="Microsoft.NET.Test.Sdk" Version="17.0.0"/>
<PackageReference Include="MSTest.TestAdapter" Version="2.2.8"/>
<PackageReference Include="MSTest.TestFramework" Version="2.2.8"/>
<PackageReference Include="System.Configuration.ConfigurationManager" Version="6.0.0"/>
<PackageReference Include="System.Data.OleDb" Version="6.0.0"/>
<PackageReference Include="System.Data.SqlClient" Version="4.8.3"/>
<PackageReference Include="System.Text.Json" Version="6.0.1"/>
</ItemGroup>
<ItemGroup>
<PackageReference Include="External.Common.Logging.Core" Version="3.3.1">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="External.Common.Logging" Version="3.3.1">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="External.Infineon.Monitoring.MonA" Version="1.2.0.1">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="External.Infineon.Yoda" Version="5.2.1">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="External.log4net" Version="2.0.8">
<NoWarn>NU1701</NoWarn>
</PackageReference>
</ItemGroup>
<ItemGroup>
<PackageReference Include="IKVM.AWT.WinForms" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.OpenJDK.Core" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.OpenJDK.Media" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.OpenJDK.Text" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.OpenJDK.Util" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.OpenJDK.XML.API" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="IKVM.Runtime" Version="7.2.4630.5">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="Pdfbox" Version="1.1.1">
<NoWarn>NU1701</NoWarn>
</PackageReference>
<PackageReference Include="RoboSharp" Version="1.2.4" />
<PackageReference Include="System.Configuration.ConfigurationManager" Version="5.0.0" />
<PackageReference Include="System.Data.OleDb" Version="5.0.0" />
<PackageReference Include="System.Data.SqlClient" Version="4.8.2" />
<PackageReference Include="System.Text.Json" Version="5.0.1" />
<PackageReference Include="Tibco.Rendezvous" Version="8.5.0" />
</ItemGroup>
<ItemGroup>

11
Adaptation/PeerGroup/GCL/Annotations/NotNullAttribute.cs
View File

@ -1,10 +1,9 @@
using System;
namespace Adaptation.PeerGroup.GCL.Annotations
namespace Adaptation.PeerGroup.GCL.Annotations;
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Event | AttributeTargets.Parameter | AttributeTargets.Delegate, AllowMultiple = false, Inherited = true)]
public sealed class NotNullAttribute : Attribute
{
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Event | AttributeTargets.Parameter | AttributeTargets.Delegate, AllowMultiple = false, Inherited = true)]
public sealed class NotNullAttribute : Attribute
{
public NotNullAttribute() { }
}
public NotNullAttribute() { }
}

11
Adaptation/PeerGroup/GCL/SecsDriver/HsmsConnectionMode.cs
View File

@ -1,8 +1,7 @@
namespace Adaptation.PeerGroup.GCL.SecsDriver
namespace Adaptation.PeerGroup.GCL.SecsDriver;
public enum HsmsConnectionMode
{
public enum HsmsConnectionMode
{
Active = 0,
Passive = 1
}
Active = 0,
Passive = 1
}

11
Adaptation/PeerGroup/GCL/SecsDriver/HsmsSessionMode.cs
View File

@ -1,8 +1,7 @@
namespace Adaptation.PeerGroup.GCL.SecsDriver
namespace Adaptation.PeerGroup.GCL.SecsDriver;
public enum HsmsSessionMode
{
public enum HsmsSessionMode
{
MultiSession = 0,
SingleSession = 1
}
MultiSession = 0,
SingleSession = 1
}

11
Adaptation/PeerGroup/GCL/SecsDriver/SecsTransportType.cs
View File

@ -1,8 +1,7 @@
namespace Adaptation.PeerGroup.GCL.SecsDriver
namespace Adaptation.PeerGroup.GCL.SecsDriver;
public enum SecsTransportType
{
public enum SecsTransportType
{
HSMS = 0,
Serial = 1
}
HSMS = 0,
Serial = 1
}

27
Adaptation/PeerGroup/GCL/SecsDriver/SerialBaudRate.cs
View File

@ -1,16 +1,15 @@
namespace Adaptation.PeerGroup.GCL.SecsDriver
namespace Adaptation.PeerGroup.GCL.SecsDriver;
public enum SerialBaudRate
{
public enum SerialBaudRate
{
Baud9600 = 0,
Baud19200 = 1,
Baud4800 = 2,
Baud2400 = 3,
Baud1200 = 4,
Baud300 = 5,
Baud150 = 6,
Baud38400 = 7,
Baud57600 = 8,
Baud115200 = 9
}
Baud9600 = 0,
Baud19200 = 1,
Baud4800 = 2,
Baud2400 = 3,
Baud1200 = 4,
Baud300 = 5,
Baud150 = 6,
Baud38400 = 7,
Baud57600 = 8,
Baud115200 = 9
}

254
Adaptation/Shared/Duplicator/Description.cs
View File

@ -4,145 +4,139 @@ using System.Collections.Generic;
using System.Linq;
using System.Text.Json;
namespace Adaptation.Shared.Duplicator
namespace Adaptation.Shared.Duplicator;
public class Description : IDescription, Properties.IDescription
{
public class Description : IDescription, Properties.IDescription
public int Test { get; set; }
public int Count { get; set; }
public int Index { get; set; }
//
public string EventName { get; set; }
public string NullData { get; set; }
public string JobID { get; set; }
public string Sequence { get; set; }
public string MesEntity { get; set; }
public string ReportFullPath { get; set; }
public string ProcessJobID { get; set; }
public string MID { get; set; }
public string Date { get; set; } //2021-10-23
string IDescription.GetEventDescription() => "File Has been read and parsed";
List<string> IDescription.GetNames(IFileRead fileRead, Logistics logistics)
{
List<string> results = new();
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
if (@object is not JsonElement jsonElement)
throw new Exception();
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
results.Add(jsonProperty.Name);
return results;
}
public int Test { get; set; }
public int Count { get; set; }
public int Index { get; set; }
//
public string EventName { get; set; }
public string NullData { get; set; }
public string JobID { get; set; }
public string Sequence { get; set; }
public string MesEntity { get; set; }
public string ReportFullPath { get; set; }
public string ProcessJobID { get; set; }
public string MID { get; set; }
public string Date { get; set; } //2021-10-23
List<string> IDescription.GetDetailNames()
{
List<string> results = new();
return results;
}
string IDescription.GetEventDescription()
List<string> IDescription.GetHeaderNames()
{
List<string> results = new();
return results;
}
IDescription IDescription.GetDisplayNames()
{
Description result = GetDisplayNames();
return result;
}
List<string> IDescription.GetParameterNames()
{
List<string> results = new();
return results;
}
JsonProperty[] IDescription.GetDefault(IFileRead fileRead, Logistics logistics)
{
JsonProperty[] results;
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
results = ((JsonElement)@object).EnumerateObject().ToArray();
return results;
}
List<string> IDescription.GetPairedParameterNames()
{
List<string> results = new();
return results;
}
List<string> IDescription.GetIgnoreParameterNames(Test test)
{
List<string> results = new();
return results;
}
IDescription IDescription.GetDefaultDescription(IFileRead fileRead, Logistics logistics)
{
Description result = GetDefault(fileRead, logistics);
return result;
}
Dictionary<string, string> IDescription.GetDisplayNamesJsonElement(IFileRead fileRead)
{
Dictionary<string, string> results = new();
IDescription description = GetDisplayNames();
string json = JsonSerializer.Serialize(description, description.GetType());
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json);
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
{
return "File Has been read and parsed";
if (!results.ContainsKey(jsonProperty.Name))
results.Add(jsonProperty.Name, string.Empty);
if (jsonProperty.Value is JsonElement jsonPropertyValue)
results[jsonProperty.Name] = jsonPropertyValue.ToString();
}
return results;
}
List<string> IDescription.GetNames(IFileRead fileRead, Logistics logistics)
List<IDescription> IDescription.GetDescriptions(IFileRead fileRead, Logistics logistics, List<Test> tests, IProcessData iProcessData)
{
List<IDescription> results = new();
return results;
}
private static Description GetDisplayNames()
{
Description result = new();
return result;
}
private static Description GetDefault(IFileRead fileRead, Logistics logistics)
{
Description result = new()
{
List<string> results = new();
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
if (@object is not JsonElement jsonElement)
throw new Exception();
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
results.Add(jsonProperty.Name);
return results;
}
List<string> IDescription.GetDetailNames()
{
List<string> results = new();
return results;
}
List<string> IDescription.GetHeaderNames()
{
List<string> results = new();
return results;
}
IDescription IDescription.GetDisplayNames()
{
Description result = GetDisplayNames();
return result;
}
List<string> IDescription.GetParameterNames()
{
List<string> results = new();
return results;
}
JsonProperty[] IDescription.GetDefault(IFileRead fileRead, Logistics logistics)
{
JsonProperty[] results;
IDescription description = GetDefault(fileRead, logistics);
string json = JsonSerializer.Serialize(description, description.GetType());
object @object = JsonSerializer.Deserialize<object>(json);
results = ((JsonElement)@object).EnumerateObject().ToArray();
return results;
}
List<string> IDescription.GetPairedParameterNames()
{
List<string> results = new();
return results;
}
List<string> IDescription.GetIgnoreParameterNames(Test test)
{
List<string> results = new();
return results;
}
IDescription IDescription.GetDefaultDescription(IFileRead fileRead, Logistics logistics)
{
Description result = GetDefault(fileRead, logistics);
return result;
}
Dictionary<string, string> IDescription.GetDisplayNamesJsonElement(IFileRead fileRead)
{
Dictionary<string, string> results = new();
IDescription description = GetDisplayNames();
string json = JsonSerializer.Serialize(description, description.GetType());
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json);
foreach (JsonProperty jsonProperty in jsonElement.EnumerateObject())
{
if (!results.ContainsKey(jsonProperty.Name))
results.Add(jsonProperty.Name, string.Empty);
if (jsonProperty.Value is JsonElement jsonPropertyValue)
results[jsonProperty.Name] = jsonPropertyValue.ToString();
}
return results;
}
List<IDescription> IDescription.GetDescriptions(IFileRead fileRead, Logistics logistics, List<Test> tests, IProcessData iProcessData)
{
List<IDescription> results = new();
return results;
}
private Description GetDisplayNames()
{
Description result = new();
return result;
}
private Description GetDefault(IFileRead fileRead, Logistics logistics)
{
Description result = new()
{
Test = -1,
Count = 0,
Index = -1,
//
EventName = fileRead.EventName,
NullData = fileRead.NullData,
JobID = fileRead.CellInstanceName,
Sequence = logistics.Sequence.ToString(),
MesEntity = fileRead.MesEntity,
ReportFullPath = logistics.ReportFullPath,
ProcessJobID = logistics.ProcessJobID,
MID = logistics.MID,
Date = logistics.DateTimeFromSequence.ToUniversalTime().ToString("MM/dd/yyyy HH:mm:ss")
};
return result;
}
Test = -1,
Count = 0,
Index = -1,
//
EventName = fileRead.EventName,
NullData = fileRead.NullData,
JobID = fileRead.CellInstanceName,
Sequence = logistics.Sequence.ToString(),
MesEntity = fileRead.MesEntity,
ReportFullPath = logistics.ReportFullPath,
ProcessJobID = logistics.ProcessJobID,
MID = logistics.MID,
Date = logistics.DateTimeFromSequence.ToUniversalTime().ToString("MM/dd/yyyy HH:mm:ss")
};
return result;
}
}

1437
Adaptation/Shared/FileRead.cs
View File

File diff suppressed because it is too large Load Diff

349
Adaptation/Shared/Logistics.cs
View File

@ -1,223 +1,208 @@
using Adaptation.Shared.Methods;
using Adaptation.Shared.Methods;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
namespace Adaptation.Shared
namespace Adaptation.Shared;
public class Logistics : ILogistics
{
public class Logistics : ILogistics
public object NullData { get; private set; }
public string JobID { get; private set; } //CellName
public long Sequence { get; private set; } //Ticks
public DateTime DateTimeFromSequence { get; private set; }
public double TotalSecondsSinceLastWriteTimeFromSequence { get; private set; }
public string MesEntity { get; private set; } //SPC
public string ReportFullPath { get; private set; } //Extract file
public string ProcessJobID { get; set; } //Reactor (duplicate but I want it in the logistics)
public string MID { get; set; } //Lot & Pocket || Lot
public List<string> Tags { get; set; }
public List<string> Logistics1 { get; set; }
public List<Logistics2> Logistics2 { get; set; }
public Logistics(IFileRead fileRead)
{
DateTime dateTime = DateTime.Now;
NullData = null;
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
JobID = fileRead.CellInstanceName;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
MesEntity = DefaultMesEntity(dateTime);
ReportFullPath = string.Empty;
ProcessJobID = nameof(ProcessJobID);
MID = nameof(MID);
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
public object NullData { get; private set; }
public string JobID { get; private set; } //CellName
public long Sequence { get; private set; } //Ticks
public DateTime DateTimeFromSequence { get; private set; }
public double TotalSecondsSinceLastWriteTimeFromSequence { get; private set; }
public string MesEntity { get; private set; } //SPC
public string ReportFullPath { get; private set; } //Extract file
public string ProcessJobID { get; set; } //Reactor (duplicate but I want it in the logistics)
public string MID { get; set; } //Lot & Pocket || Lot
public List<string> Tags { get; set; }
public List<string> Logistics1 { get; set; }
public List<Logistics2> Logistics2 { get; set; }
public Logistics(IFileRead fileRead)
public Logistics(IFileRead fileRead, string reportFullPath, bool useSplitForMID, int? fileInfoLength = null)
{
if (string.IsNullOrEmpty(fileRead.CellInstanceName))
throw new Exception();
if (string.IsNullOrEmpty(fileRead.MesEntity))
throw new Exception();
NullData = fileRead.NullData;
FileInfo fileInfo = new(reportFullPath);
DateTime dateTime = fileInfo.LastWriteTime;
if (fileInfoLength.HasValue && fileInfo.Length < fileInfoLength.Value)
dateTime = dateTime.AddTicks(-1);
JobID = fileRead.CellInstanceName;
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
MesEntity = fileRead.MesEntity;
ReportFullPath = fileInfo.FullName;
ProcessJobID = nameof(ProcessJobID);
string fileNameWithoutExtension = Path.GetFileNameWithoutExtension(fileInfo.FullName);
if (useSplitForMID)
{
if (fileNameWithoutExtension.IndexOf(".") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('.')[0].Trim();
if (fileNameWithoutExtension.IndexOf("_") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('_')[0].Trim();
if (fileNameWithoutExtension.IndexOf("-") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('-')[0].Trim();
}
MID = string.Concat(fileNameWithoutExtension.Substring(0, 1).ToUpper(), fileNameWithoutExtension.Substring(1).ToLower());
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
public Logistics(string reportFullPath, string logistics)
{
string key;
DateTime dateTime;
string[] segments;
Logistics1 = logistics.Split(new string[] { Environment.NewLine }, StringSplitOptions.RemoveEmptyEntries).ToList();
if (!Logistics1.Any() || !Logistics1[0].StartsWith("LOGISTICS_1"))
{
DateTime dateTime = DateTime.Now;
NullData = null;
JobID = "null";
dateTime = new FileInfo(reportFullPath).LastWriteTime;
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
JobID = fileRead.CellInstanceName;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
MesEntity = DefaultMesEntity(dateTime);
ReportFullPath = string.Empty;
ProcessJobID = nameof(ProcessJobID);
MID = nameof(MID);
ReportFullPath = reportFullPath;
ProcessJobID = "R##";
MID = "null";
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
public Logistics(IFileRead fileRead, string reportFullPath, bool useSplitForMID, int? fileInfoLength = null)
else
{
if (string.IsNullOrEmpty(fileRead.CellInstanceName))
throw new Exception();
if (string.IsNullOrEmpty(fileRead.MesEntity))
throw new Exception();
NullData = fileRead.NullData;
FileInfo fileInfo = new(reportFullPath);
DateTime dateTime = fileInfo.LastWriteTime;
if (fileInfoLength.HasValue && fileInfo.Length < fileInfoLength.Value)
dateTime = dateTime.AddTicks(-1);
JobID = fileRead.CellInstanceName;
string logistics1Line1 = Logistics1[0];
key = "NULL_DATA=";
if (!logistics1Line1.Contains(key))
NullData = null;
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
NullData = segments[1].Split(';')[0];
}
key = "JOBID=";
if (!logistics1Line1.Contains(key))
JobID = "null";
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
JobID = segments[1].Split(';')[0];
}
key = "SEQUENCE=";
if (!logistics1Line1.Contains(key))
dateTime = new FileInfo(reportFullPath).LastWriteTime;
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
if (!long.TryParse(segments[1].Split(';')[0].Split('.')[0], out long sequence) || sequence < new DateTime(1999, 1, 1).Ticks)
dateTime = new FileInfo(reportFullPath).LastWriteTime;
else
dateTime = new DateTime(sequence);
}
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
MesEntity = fileRead.MesEntity;
ReportFullPath = fileInfo.FullName;
ProcessJobID = nameof(ProcessJobID);
string fileNameWithoutExtension = Path.GetFileNameWithoutExtension(fileInfo.FullName);
if (useSplitForMID)
DateTime lastWriteTime = new FileInfo(reportFullPath).LastWriteTime;
if (TotalSecondsSinceLastWriteTimeFromSequence > 600)
{
if (fileNameWithoutExtension.IndexOf(".") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('.')[0].Trim();
if (fileNameWithoutExtension.IndexOf("_") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('_')[0].Trim();
if (fileNameWithoutExtension.IndexOf("-") > -1)
fileNameWithoutExtension = fileNameWithoutExtension.Split('-')[0].Trim();
if (lastWriteTime != dateTime)
try
{ File.SetLastWriteTime(reportFullPath, dateTime); }
catch (Exception) { }
}
MID = string.Concat(fileNameWithoutExtension.Substring(0, 1).ToUpper(), fileNameWithoutExtension.Substring(1).ToLower());
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
public Logistics(string reportFullPath, string logistics)
{
string key;
DateTime dateTime;
string[] segments;
Logistics1 = logistics.Split(new string[] { Environment.NewLine }, StringSplitOptions.RemoveEmptyEntries).ToList();
if (!Logistics1.Any() || !Logistics1[0].StartsWith("LOGISTICS_1"))
{
NullData = null;
JobID = "null";
dateTime = new FileInfo(reportFullPath).LastWriteTime;
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
key = "MES_ENTITY=";
if (!logistics1Line1.Contains(key))
MesEntity = DefaultMesEntity(dateTime);
ReportFullPath = reportFullPath;
ProcessJobID = "R##";
MID = "null";
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
else
{
string logistics1Line1 = Logistics1[0];
key = "NULL_DATA=";
if (!logistics1Line1.Contains(key))
NullData = null;
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
NullData = segments[1].Split(';')[0];
}
key = "JOBID=";
if (!logistics1Line1.Contains(key))
JobID = "null";
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
JobID = segments[1].Split(';')[0];
}
key = "SEQUENCE=";
if (!logistics1Line1.Contains(key))
dateTime = new FileInfo(reportFullPath).LastWriteTime;
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
if (!long.TryParse(segments[1].Split(';')[0].Split('.')[0], out long sequence) || sequence < new DateTime(1999, 1, 1).Ticks)
dateTime = new FileInfo(reportFullPath).LastWriteTime;
else
dateTime = new DateTime(sequence);
}
Sequence = dateTime.Ticks;
DateTimeFromSequence = dateTime;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTime).TotalSeconds;
DateTime lastWriteTime = new FileInfo(reportFullPath).LastWriteTime;
if (TotalSecondsSinceLastWriteTimeFromSequence > 600)
{
if (lastWriteTime != dateTime)
try
{ File.SetLastWriteTime(reportFullPath, dateTime); }
catch (Exception) { }
}
key = "MES_ENTITY=";
if (!logistics1Line1.Contains(key))
MesEntity = DefaultMesEntity(dateTime);
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MesEntity = segments[1].Split(';')[0];
}
ReportFullPath = reportFullPath;
key = "PROCESS_JOBID=";
if (!logistics1Line1.Contains(key))
ProcessJobID = "R##";
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
ProcessJobID = segments[1].Split(';')[0];
}
key = "MID=";
if (!logistics1Line1.Contains(key))
MID = "null";
else
{
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MID = segments[1].Split(';')[0];
}
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MesEntity = segments[1].Split(';')[0];
}
Logistics2 logistics2;
Tags = new List<string>();
Logistics2 = new List<Logistics2>();
for (int i = 1; i < Logistics1.Count(); i++)
ReportFullPath = reportFullPath;
key = "PROCESS_JOBID=";
if (!logistics1Line1.Contains(key))
ProcessJobID = "R##";
else
{
if (Logistics1[i].StartsWith("LOGISTICS_2"))
{
logistics2 = new Logistics2(Logistics1[i]);
Logistics2.Add(logistics2);
}
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
ProcessJobID = segments[1].Split(';')[0];
}
for (int i = Logistics1.Count() - 1; i > -1; i--)
key = "MID=";
if (!logistics1Line1.Contains(key))
MID = "null";
else
{
if (Logistics1[i].StartsWith("LOGISTICS_2"))
Logistics1.RemoveAt(i);
segments = logistics1Line1.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MID = segments[1].Split(';')[0];
}
}
public Logistics ShallowCopy()
Logistics2 logistics2;
Tags = new List<string>();
Logistics2 = new List<Logistics2>();
for (int i = 1; i < Logistics1.Count; i++)
{
return (Logistics)MemberwiseClone();
if (Logistics1[i].StartsWith("LOGISTICS_2"))
{
logistics2 = new Logistics2(Logistics1[i]);
Logistics2.Add(logistics2);
}
}
private string DefaultMesEntity(DateTime dateTime)
for (int i = Logistics1.Count - 1; i > -1; i--)
{
return string.Concat(dateTime.Ticks, "_MES_ENTITY");
}
internal string GetLotViaMostCommonMethod()
{
return MID.Substring(0, MID.Length - 2);
}
internal string GetPocketNumberViaMostCommonMethod()
{
return MID.Substring(MID.Length - 2);
}
internal void Update(string dateTime, string processJobID, string mid)
{
if (!DateTime.TryParse(dateTime, out DateTime dateTimeCasted))
dateTimeCasted = DateTime.Now;
NullData = null;
//JobID = Description.GetCellName();
Sequence = dateTimeCasted.Ticks;
DateTimeFromSequence = dateTimeCasted;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTimeCasted).TotalSeconds;
//MesEntity = DefaultMesEntity(dateTime);
//ReportFullPath = string.Empty;
ProcessJobID = processJobID;
MID = mid;
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
if (Logistics1[i].StartsWith("LOGISTICS_2"))
Logistics1.RemoveAt(i);
}
}
public Logistics ShallowCopy() => (Logistics)MemberwiseClone();
private static string DefaultMesEntity(DateTime dateTime) => string.Concat(dateTime.Ticks, "_MES_ENTITY");
internal string GetLotViaMostCommonMethod() => MID.Substring(0, MID.Length - 2);
internal string GetPocketNumberViaMostCommonMethod() => MID.Substring(MID.Length - 2);
internal void Update(string dateTime, string processJobID, string mid)
{
if (!DateTime.TryParse(dateTime, out DateTime dateTimeCasted))
dateTimeCasted = DateTime.Now;
NullData = null;
//JobID = Description.GetCellName();
Sequence = dateTimeCasted.Ticks;
DateTimeFromSequence = dateTimeCasted;
TotalSecondsSinceLastWriteTimeFromSequence = (DateTime.Now - dateTimeCasted).TotalSeconds;
//MesEntity = DefaultMesEntity(dateTime);
//ReportFullPath = string.Empty;
ProcessJobID = processJobID;
MID = mid;
Tags = new List<string>();
Logistics1 = new string[] { string.Concat("LOGISTICS_1", '\t', "A_JOBID=", JobID, ";A_MES_ENTITY=", MesEntity, ";") }.ToList();
Logistics2 = new List<Logistics2>();
}
}

141
Adaptation/Shared/Logistics2.cs
View File

@ -1,81 +1,78 @@
using System;
using System;
namespace Adaptation.Shared
namespace Adaptation.Shared;
public class Logistics2 : Methods.ILogistics2
{
public class Logistics2 : Methods.ILogistics2
public string MID { get; private set; }
public string RunNumber { get; private set; }
public string SatelliteGroup { get; private set; }
public string PartNumber { get; private set; }
public string PocketNumber { get; private set; }
public string WaferLot { get; private set; }
public string Recipe { get; private set; }
public Logistics2(string logistics2)
{
public string MID { get; private set; }
public string RunNumber { get; private set; }
public string SatelliteGroup { get; private set; }
public string PartNumber { get; private set; }
public string PocketNumber { get; private set; }
public string WaferLot { get; private set; }
public string Recipe { get; private set; }
public Logistics2(string logistics2)
string key;
string[] segments;
key = "JOBID=";
if (!logistics2.Contains(key))
MID = "null";
else
{
string key;
string[] segments;
key = "JOBID=";
if (!logistics2.Contains(key))
MID = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MID = segments[1].Split(';')[0];
}
key = "MID=";
if (!logistics2.Contains(key))
RunNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
RunNumber = segments[1].Split(';')[0];
}
key = "INFO=";
if (!logistics2.Contains(key))
SatelliteGroup = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
SatelliteGroup = segments[1].Split(';')[0];
}
key = "PRODUCT=";
if (!logistics2.Contains(key))
PartNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
PartNumber = segments[1].Split(';')[0];
}
key = "CHAMBER=";
if (!logistics2.Contains(key))
PocketNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
PocketNumber = segments[1].Split(';')[0];
}
key = "WAFER_ID=";
if (!logistics2.Contains(key))
WaferLot = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
WaferLot = segments[1].Split(';')[0];
}
key = "PPID=";
if (!logistics2.Contains(key))
Recipe = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
Recipe = segments[1].Split(';')[0];
}
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
MID = segments[1].Split(';')[0];
}
key = "MID=";
if (!logistics2.Contains(key))
RunNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
RunNumber = segments[1].Split(';')[0];
}
key = "INFO=";
if (!logistics2.Contains(key))
SatelliteGroup = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
SatelliteGroup = segments[1].Split(';')[0];
}
key = "PRODUCT=";
if (!logistics2.Contains(key))
PartNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
PartNumber = segments[1].Split(';')[0];
}
key = "CHAMBER=";
if (!logistics2.Contains(key))
PocketNumber = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
PocketNumber = segments[1].Split(';')[0];
}
key = "WAFER_ID=";
if (!logistics2.Contains(key))
WaferLot = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
WaferLot = segments[1].Split(';')[0];
}
key = "PPID=";
if (!logistics2.Contains(key))
Recipe = "null";
else
{
segments = logistics2.Split(new string[] { key }, StringSplitOptions.RemoveEmptyEntries);
Recipe = segments[1].Split(';')[0];
}
}
}

33
Adaptation/Shared/Methods/IDescription.cs
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@ -1,25 +1,22 @@
using System.Collections.Generic;
using System.Text.Json;
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface IDescription
{
public interface IDescription
{
string GetEventDescription();
List<string> GetDetailNames();
List<string> GetHeaderNames();
IDescription GetDisplayNames();
List<string> GetParameterNames();
List<string> GetPairedParameterNames();
List<string> GetIgnoreParameterNames(Test test);
List<string> GetNames(IFileRead fileRead, Logistics logistics);
JsonProperty[] GetDefault(IFileRead fileRead, Logistics logistics);
Dictionary<string, string> GetDisplayNamesJsonElement(IFileRead fileRead);
IDescription GetDefaultDescription(IFileRead fileRead, Logistics logistics);
List<IDescription> GetDescriptions(IFileRead fileRead, Logistics logistics, List<Test> tests, IProcessData iProcessData);
}
string GetEventDescription();
List<string> GetDetailNames();
List<string> GetHeaderNames();
IDescription GetDisplayNames();
List<string> GetParameterNames();
List<string> GetPairedParameterNames();
List<string> GetIgnoreParameterNames(Test test);
List<string> GetNames(IFileRead fileRead, Logistics logistics);
JsonProperty[] GetDefault(IFileRead fileRead, Logistics logistics);
Dictionary<string, string> GetDisplayNamesJsonElement(IFileRead fileRead);
IDescription GetDefaultDescription(IFileRead fileRead, Logistics logistics);
List<IDescription> GetDescriptions(IFileRead fileRead, Logistics logistics, List<Test> tests, IProcessData iProcessData);
}

31
Adaptation/Shared/Methods/IFileRead.cs
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@ -3,23 +3,22 @@ using System.Collections.Generic;
using System.IO;
using System.Text.Json;
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface IFileRead : Properties.IFileRead
{
public interface IFileRead : Properties.IFileRead
{
void WaitForThread();
JsonProperty[] GetDefault();
void Callback(object state);
string GetEventDescription();
List<string> GetHeaderNames();
void CheckTests(Test[] tests, bool extra);
Dictionary<string, string> GetDisplayNamesJsonElement();
Tuple<string, Test[], JsonElement[], List<FileInfo>> ReExtract();
List<IDescription> GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData);
void Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception = null);
Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, string eventName);
string[] Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception);
}
void WaitForThread();
JsonProperty[] GetDefault();
void Callback(object state);
string GetEventDescription();
List<string> GetHeaderNames();
void CheckTests(Test[] tests, bool extra);
Dictionary<string, string> GetDisplayNamesJsonElement();
Tuple<string, Test[], JsonElement[], List<FileInfo>> ReExtract();
List<IDescription> GetDescriptions(IFileRead fileRead, List<Test> tests, IProcessData processData);
void Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, Exception exception = null);
Tuple<string, Test[], JsonElement[], List<FileInfo>> GetExtractResult(string reportFullPath, string eventName);
string[] Move(Tuple<string, Test[], JsonElement[], List<FileInfo>> extractResults, string to, string from, string resolvedFileLocation, Exception exception);
}

9
Adaptation/Shared/Methods/ILogistics.cs
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@ -1,8 +1,5 @@
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface ILogistics : Properties.ILogistics
{
public interface ILogistics : Properties.ILogistics
{
}
}

9
Adaptation/Shared/Methods/ILogistics2.cs
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@ -1,8 +1,5 @@
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface ILogistics2 : Properties.ILogistics2
{
public interface ILogistics2 : Properties.ILogistics2
{
}
}

13
Adaptation/Shared/Methods/IProcessData.cs
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@ -3,15 +3,12 @@ using System.Collections.Generic;
using System.IO;
using System.Text.Json;
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface IProcessData : Properties.IProcessData
{
public interface IProcessData : Properties.IProcessData
{
string GetCurrentReactor(IFileRead fileRead, Logistics logistics, Dictionary<string, string> reactors);
Tuple<string, Test[], JsonElement[], List<FileInfo>> GetResults(IFileRead fileRead, Logistics logistics, List<FileInfo> fileInfoCollection);
}
string GetCurrentReactor(IFileRead fileRead, Logistics logistics, Dictionary<string, string> reactors);
Tuple<string, Test[], JsonElement[], List<FileInfo>> GetResults(IFileRead fileRead, Logistics logistics, List<FileInfo> fileInfoCollection);
}

13
Adaptation/Shared/Methods/ISMTP.cs
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@ -1,9 +1,8 @@
namespace Adaptation.Shared.Methods
namespace Adaptation.Shared.Methods;
public interface ISMTP
{
public interface ISMTP
{
void SendLowPriorityEmailMessage(string subject, string body);
void SendHighPriorityEmailMessage(string subject, string body);
void SendNormalPriorityEmailMessage(string subject, string body);
}
void SendLowPriorityEmailMessage(string subject, string body);
void SendHighPriorityEmailMessage(string subject, string body);
void SendNormalPriorityEmailMessage(string subject, string body);
}

300
Adaptation/Shared/Metrology/ScopeInfo.cs Normal file
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@ -0,0 +1,300 @@
using System;
using System.IO;
namespace Adaptation.Shared.Metrology;
public class ScopeInfo : Properties.IScopeInfo
{
public Test Test { get; private set; }
public Enum Enum { get; private set; }
public string HTML { get; private set; }
public string Title { get; private set; }
public string FileName { get; private set; }
public int TestValue { get; private set; }
public string Header { get; private set; }
public string QueryFilter { get; private set; }
public string FileNameWithoutExtension { get; private set; }
public ScopeInfo(Test test, string fileName, string queryFilter = "", string title = "", string html = "")
{
Enum = test;
Test = test;
HTML = html;
Title = title;
FileName = fileName;
TestValue = (int)test;
Header = string.Empty;
QueryFilter = queryFilter;
FileNameWithoutExtension = Path.GetFileNameWithoutExtension(fileName);
}
public ScopeInfo(Test test)
{
Enum = test;
Test = test;
TestValue = (int)test;
switch (Test)
{
case Test.AFMRoughness:
FileNameWithoutExtension = "afm_iqs_01";
Header = string.Empty;
QueryFilter = "AFM Roughness";
Title = "AFM";
HTML = @"GaN Epi Data\10 - afm.html";
break;
case Test.BreakdownVoltageCenter:
FileNameWithoutExtension = "bv_iqs_01";
Header = "Reactor;fDate;fRecipeName;Lot;fPocketNumber;g4Scribe;BV Position;BV Value;Tool";
QueryFilter = "Breakdown Voltage";
Title = "Breakdown Voltage-Center";
HTML = @"GaN Epi Data\03 - bv-production.html";
break;
case Test.BreakdownVoltageEdge:
FileNameWithoutExtension = "bv_iqs_01_Edge";
Header = "Reactor;fDate;fRecipeName;Lot;fPocketNumber;g4Scribe;BV Position;BV Value;Tool";
QueryFilter = "Breakdown Voltage - Edge";
Title = "Breakdown Voltage-Edge";
HTML = @"GaN Epi Data\03 - bv-production.html";
break;
case Test.BreakdownVoltageMiddle8in:
FileNameWithoutExtension = "bv_iqs_01_Middle";
Header = "Reactor;fDate;fRecipeName;Lot;fPocketNumber;g4Scribe;BV Position;BV Value;Tool";
QueryFilter = "Breakdown Voltage - Middle";
Title = "Breakdown Voltage-Middle (8 in)";
HTML = @"GaN Epi Data\03 - bv-production.html";
break;
case Test.CV:
FileNameWithoutExtension = "cv_iqs_01";
Header = "Reactor;fDate;fPart;Lot;pocketNumber;g4Scribe;Position;Vp;NdMin;Tool ID;CV Ns;CV Cap";
QueryFilter = "CV_Ns";
Title = "CV";
HTML = @"GaN Epi Data\05 - cv.html";
break;
case Test.MonthlyCV:
FileNameWithoutExtension = "cv_iqs_01";
Header = "Reactor;fDate;fPart;Lot;pocketNumber;g4Scribe;Position;Vp;NdMin;Tool ID;CV Ns;CV Cap";
QueryFilter = "CV_Ns";
Title = "CV Monthly Verification";
HTML = @"Metrology\07 - cv_verif_monthly.html";
break;
case Test.WeeklyCV:
FileNameWithoutExtension = "cv_iqs_01";
Header = "Reactor;fDate;fPart;Lot;pocketNumber;g4Scribe;Position;Vp;NdMin;Tool ID;CV Ns;CV Cap";
QueryFilter = "CV_Ns";
Title = "CV Weekly Verification";
HTML = @"Metrology\16 - cv_verif_weekly.html";
break;
case Test.CandelaKlarfDC:
FileNameWithoutExtension = "candela_iqs_01";
Header = "LotID;OperatorID;RecipeName;CandelaRecipe;WaferID;PocketNumber;RunDate;Epi;SlipLines;Cracks;EpiDef;HazeSpot;SmallLpd;MediumLpd;LargeLpd;Cracks_A;Spirals;Craters;8620 Small;Pits;Tool ID;Defect Count";
QueryFilter = "Candela Cracking";
Title = "Candela";
HTML = @"GaN Epi Data\12 - candela.html";
break;
case Test.CandelaLaser:
FileNameWithoutExtension = "candela_iqs_01";
Header = "LotID;OperatorID;RecipeName;CandelaRecipe;WaferID;PocketNumber;RunDate;Epi;SlipLines;Cracks;EpiDef;HazeSpot;SmallLpd;MediumLpd;LargeLpd;Cracks_A;Spirals;Craters;Pits;Tool ID;Defect Count";
QueryFilter = "Candela Cracking";
Title = "Candela";
HTML = @"GaN Epi Data\12 - candela.html";
break;
case Test.CandelaVerify:
FileNameWithoutExtension = "candela_iqs_01";
Header = string.Concat("LotID;OperatorID;RecipeName;CandelaRecipe;WaferID;PocketNumber;RunDate;RunID;Reactor;", "Slip Lines;Cracks;Epi Def;Haze Spot;Small LPD;Medium LPD;Large LPD;Cracks_A;Spirals;Craters;8620 Small;Pits;Tool ID;Defect Count");
QueryFilter = "Candela Cracking";
Title = "Candela";
HTML = @"GaN Epi Data\12 - candela.html";
break;
case Test.CandelaPSL:
FileNameWithoutExtension = "candela_iqs_01";
Header = string.Empty;
QueryFilter = "102-83nm";
Title = "Candela";
HTML = @"GaN Epi Data\12 - candela.html";
break;
case Test.CandelaProdU:
FileNameWithoutExtension = "candela_iqs_01";
Header = string.Empty;
QueryFilter = "SPE verification";
Title = "Candela";
HTML = @"GaN Epi Data\12 - candela.html";
break;
case Test.Denton:
FileNameWithoutExtension = "denton_iqs_01";
Header = "Tool;fDate;Run;Recipe;Operator;Name;Value";
QueryFilter = "Denton_Voltage_AVG";
Title = "Denton Data";
HTML = @"Support Process\03 - ebeam02_denton_v1.html";
break;
case Test.Hall:
FileNameWithoutExtension = "hall_iqs_01";
Header = "Lot;Tool;TimeDate;RunDate;RunID;Part;Reactor;Scribe;PocketNumber;Tool ID;Name;Value";
QueryFilter = "Hall Rs";
Title = "Hall Data";
HTML = @"GaN Epi Data\04 - hall.html";
break;
case Test.MonthlyHall:
FileNameWithoutExtension = "hall_iqs_01";
Header = "Lot;Tool;TimeDate;RunDate;RunID;Part;Reactor;Scribe;PocketNumber;Tool ID;Name;Value";
QueryFilter = "Hall Rs";
Title = "Hall Monthly Verification";
HTML = @"Metrology\06 - hall_verif_monthly.html";
break;
case Test.WeeklyHall:
FileNameWithoutExtension = "hall_iqs_01";
Header = "Lot;Tool;TimeDate;RunDate;RunID;Part;Reactor;Scribe;PocketNumber;Tool ID;Name;Value";
QueryFilter = "Hall Rs";
Title = "Hall Weekly Verification";
HTML = @"Metrology\15 - hall_verif_weekly.html";
break;
case Test.Lehighton:
FileNameWithoutExtension = "lei_iqs_01";
Header = "Reactor;Date;Recipe;Lot;Pocket;Scribe;Tool;Name;Value";
QueryFilter = "LEI RS Average value";
Title = "Lehighton";
HTML = @"GaN Epi Data\13 - lehighton.html";
break;
case Test.VerificationLehighton:
FileNameWithoutExtension = "___";
Header = "Reactor;Date;Recipe;Lot;Pocket;Scribe;Tool;Name;Value";
QueryFilter = "___";
Title = "LEI Weekly Verification 2 Ohm cm";
HTML = @"Metrology\14 - lei_verif_weekly.html.html";
break;
case Test.Microscope:
FileNameWithoutExtension = string.Empty;
Header = string.Empty;
QueryFilter = "Microscope Center 5x";
Title = "Total Microscope Defects";
HTML = string.Empty;
break;
case Test.RPMXY:
FileNameWithoutExtension = "RPM_Data";
Header = "Lot;Date;Recipe;Reactor;Scribe;Pocket;Tool;Name;Value";
QueryFilter = "Barrier_Composition_RPM_XY";
Title = "RPM XY Data ***&*** View Data";
HTML = @"GaN Epi Data\09 - rpm --- 08 - photoluminescence.html";
break;
case Test.RPMAverage:
FileNameWithoutExtension = "RPMdata-short";
Header = "fProductId;fDate;average;stdDev;fRecipeName;Reactor;g4Scribe;Pocket Number;Tool ID;Recipe From Rpm File";
QueryFilter = "Epi Thickness Mean";
Title = "RPM Average Data";
HTML = @"GaN Epi Data\09 - rpm.html";
break;
case Test.RPMPLRatio:
FileNameWithoutExtension = "PHOTOLUMINESCENCE_data-short";
Header = "fProductId;fDate;g4Scribe;fRecipeName;bandEdge_nm;bandEdge_V;yellowBand_Pmw;yellowBand_nm;yellowBand_V;Reactor;Pocket Number;Tool ID";
QueryFilter = "PL Ratio";
Title = "Photoluminescence: PL Ratio";
HTML = @"GaN Epi Data\08 - photoluminescence.html";
break;
case Test.DailyRPMXY:
FileNameWithoutExtension = "RPM_Data";
Header = "Lot;Date;Recipe;Reactor;Scribe;Pocket;Tool;Name;Value";
QueryFilter = "Barrier_Composition_RPM_XY";
Title = "";
HTML = @"Metrology\?";
break;
case Test.DailyRPMAverage:
FileNameWithoutExtension = "RPMdata-short";
Header = "fProductId;fDate;average;stdDev;fRecipeName;Reactor;g4Scribe;Pocket Number;Tool ID;Recipe From Rpm File";
QueryFilter = "Epi Thickness Mean";
Title = "";
HTML = @"Metrology\?";
break;
case Test.DailyRPMPLRatio:
FileNameWithoutExtension = "PHOTOLUMINESCENCE_data-short";
Header = "fProductId;fDate;g4Scribe;fRecipeName;bandEdge_nm;bandEdge_V;yellowBand_Pmw;yellowBand_nm;yellowBand_V;Reactor;Pocket Number;Tool ID";
QueryFilter = "PL Ratio";
Title = "RPM Daily Verification";
HTML = @"Metrology\17 - rpm_verif_daily.html";
break;
case Test.VerificationRPM:
FileNameWithoutExtension = "PhotoLuminescence_Ver";
Header = "Part;Process;Date;Test;Value";
QueryFilter = "PL Edge Wavelength";
Title = "PL Daily Verification - [PL Edge Wavelength]";
HTML = @"Metrology\18 - photoluminescence_verif_daily.html";
break;
case Test.Photoreflectance:
FileNameWithoutExtension = "photoreflect_iqs_01";
Header = "Lot;Date;Part;Reactor;Scribe;Pocket;Tool;Point;WaferPosition_PR;PR_Peak";
QueryFilter = "PR Barrier Composition";
Title = "Photoreflectance 6 in, Photoreflectance 8 in";
HTML = @"GaN Epi Data\07 - photoreflectance.html";
break;
case Test.UV:
FileNameWithoutExtension = "uv_iqs_01";
Header = string.Empty;
QueryFilter = "UV Broken";
Title = "UV";
HTML = @"GaN Epi Data\15 - uv 2.1.html";
break;
case Test.VpdIcpmsAnalyte:
FileNameWithoutExtension = "VPD_iqs_01";
Header = "Reactor;RunID;RunDate;PartNumber;PocketNumber;WaferScribe;Analyte;Value";
QueryFilter = "Mg";
Title = "VpdIcpmsAnalyteData";
HTML = @"";
break;
case Test.WarpAndBow:
FileNameWithoutExtension = "warp_iqs_01";
Header = "fDate;fRecipeName;fProductId;g4Scribe;warp;bow;tool;Reactor;Pocket ID;bow_range;BowX;BowY;CenterBow";
QueryFilter = "BowCenter";
Title = "Warp and Bow";
HTML = @"GaN Epi Data\14 - warp.html";
break;
case Test.VerificationWarpAndBow:
FileNameWithoutExtension = "warp_ver_iqs_01";
Header = "Part;Process;Date;WaferScribe;totWarp;bow";
QueryFilter = "Bow Calibration";
Title = "6 Inch Warp/Bow Daily Verification, 8 Inch Warp/Bow Daily Verification";
HTML = @"Metrology\19 - warp_cal_daily.html";
break;
case Test.XRDXY:
FileNameWithoutExtension = "xrd_iqs_NEW_01";
Header = "Reactor;fDate;fRecipeName;Lot;pocketNumber;g4Scribe;ToolID;Name;Value;Group";
QueryFilter = "SL Period";
Title = "XRD XY Raw Data Viewer";
HTML = @"GaN Epi Data\11 - xrd.html";
break;
case Test.XRDWeightedAverage:
FileNameWithoutExtension = "xrd_iqs_NEW_01_WtAVG";
Header = "Reactor;fDate;fRecipeName;Lot;pocketNumber;g4Scribe;Name;Value;Group";
//QueryFilter = "Al% Barrier WTAVG";
QueryFilter = "SL Period WTAVG";
Title = "XRD Weighted Average Data";
HTML = @"GaN Epi Data\11 - xrd.html";
break;
case Test.MonthlyXRD:
FileNameWithoutExtension = "xrd_monthly_ver_iqs_01";
Header = "Part;Process;Date;TestName;Value";
QueryFilter = "XRD 2-Theta Position";
Title = "XRD Monthly Verification";
HTML = @"Metrology\03 - xrd_verif_monthly.html";
break;
case Test.WeeklyXRD:
FileNameWithoutExtension = "xrd_weekly_ver_iqs_01";
Header = "Part;Process;Lot;Date;TestName;Value";
QueryFilter = "XRD Weekly AL% Center";
Title = "XRD Weekly Verification";
HTML = @"Metrology\12 - xrd_verif_weekly.html";
break;
case Test.JVXRD:
FileNameWithoutExtension = "xrd_iqs_NEW_01";
Header = "Reactor;fDate;fRecipeName;Lot;pocketNumber;g4Scribe;ToolID;Name;Value;Group";
QueryFilter = "SL Period";
Title = "XRD XY Raw Data Viewer";
HTML = @"GaN Epi Data\11 - xrd.html";
break;
default:
throw new Exception();
}
FileName = string.Concat(FileNameWithoutExtension, ".txt");
}
public ScopeInfo ShallowCopy() => (ScopeInfo)MemberwiseClone();
}

21
Adaptation/Shared/Metrology/WS.Attachment.cs Normal file
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@ -0,0 +1,21 @@
namespace Adaptation.Shared.Metrology;
public partial class WS
{
public class Attachment
{
public string UniqueId { get; set; }
public string DestinationFileName { get; set; }
public string SourceFileName { get; set; }
public Attachment(string uniqueId, string destinationFileName, string sourceFileName)
{
UniqueId = uniqueId;
DestinationFileName = destinationFileName;
SourceFileName = sourceFileName;
}
}
}

27
Adaptation/Shared/Metrology/WS.Results.cs Normal file
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@ -0,0 +1,27 @@
using System.Collections.Generic;
using System.Text.Json;
namespace Adaptation.Shared.Metrology;
public partial class WS
{
// this class represents the response from the Inbound API endpoint
public class Results
{
// true or false if data was written to the database
public bool Success { get; set; }
// if true, contains ID of the Header record in the database
public long HeaderID { get; set; }
// if false, this collection will contain a list of errors
public List<string> Errors { get; set; }
// this collection will contain a list of warnings, they will not prevent data from being saved
public List<string> Warnings { get; set; }
// this is just a helper function to make displaying the results easier
public override string ToString() => JsonSerializer.Serialize(this, GetType());
}
}

123
Adaptation/Shared/Metrology/WS.cs Normal file
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@ -0,0 +1,123 @@
using System;
using System.Collections.Generic;
using System.Linq;
using System.Net.Http;
using System.Text;
using System.Text.Json;
namespace Adaptation.Shared.Metrology;
public partial class WS
{
public static Tuple<string, Results> SendData(string url, object payload, int timeoutSeconds = 120)
{
Results results = new();
string resultsJson = string.Empty;
try
{
string json = JsonSerializer.Serialize(payload, payload.GetType());
if (string.IsNullOrEmpty(url) || !url.Contains(':') || !url.Contains('.'))
throw new Exception("Invalid URL");
using (HttpClient httpClient = new())
{
httpClient.Timeout = new TimeSpan(0, 0, 0, timeoutSeconds, 0);
HttpRequestMessage httpRequestMessage = new()
{
RequestUri = new Uri(url),
Method = HttpMethod.Post,
Content = new StringContent(json, Encoding.UTF8, "application/json")
};
HttpResponseMessage httpResponseMessage = httpClient.SendAsync(httpRequestMessage, HttpCompletionOption.ResponseContentRead).Result;
resultsJson = httpResponseMessage.Content.ReadAsStringAsync().Result;
results = JsonSerializer.Deserialize<Results>(resultsJson);
}
if (!results.Success)
results.Errors.Add(results.ToString());
}
catch (Exception e)
{
Exception exception = e;
StringBuilder stringBuilder = new();
while (exception is not null)
{
_ = stringBuilder.AppendLine(exception.Message);
exception = exception.InnerException;
}
if (results.Errors is null)
results.Errors = new List<string>();
results.Errors.Add(stringBuilder.ToString());
}
return new Tuple<string, Results>(resultsJson, results);
}
// this method is a wrapper for attaching a file to either a header or data record
// URL is the same URL used for SendData, ex: http://localhost/api/inbound/HGCV
// attachToHeaderId is the ID returned by SendData
// attachToDataUniqueId is the string unique ID for the data record, aka the Title of the Sharepoint list entry
// fileContents is a byte array with the contents of the file
// fileName is which attachment this is, image.pdf, data.pdf, data.txt, header.pdf, etc
// timeoutSeconds is configured as the request timeout
// this method will either succeed or throw an exception
// also, this has been made synchronous
public static void AttachFile(string url, long attachToHeaderId, string attachToDataUniqueId, byte[] fileContents, string fileName, int timeoutSeconds = 60)
{
using HttpClient httpClient = new();
string requestUrl = url + "/attachment?headerid=" + attachToHeaderId.ToString();
if (!string.IsNullOrWhiteSpace(attachToDataUniqueId))
{
requestUrl += "&datauniqueid=";
requestUrl += System.Net.WebUtility.UrlEncode(attachToDataUniqueId);
}
requestUrl += "&filename="; // this is just so the web server log shows the filename
requestUrl += System.Net.WebUtility.UrlEncode(fileName);
httpClient.Timeout = new TimeSpan(0, 0, 0, timeoutSeconds, 0);
MultipartFormDataContent multipartFormDataContent = new();
ByteArrayContent byteArrayContent = new(fileContents);
byteArrayContent.Headers.ContentType = new System.Net.Http.Headers.MediaTypeHeaderValue("application/octet-stream");
multipartFormDataContent.Add(byteArrayContent, "attachment", fileName);
HttpResponseMessage httpResponseMessage = httpClient.PostAsync(requestUrl, multipartFormDataContent).Result;
if (httpResponseMessage.IsSuccessStatusCode)
return;
string resultBody = httpResponseMessage.Content.ReadAsStringAsync().Result;
throw new Exception("Attachment failed: " + resultBody);
}
public static void AttachFiles(string url, long headerID, List<Attachment> headerAttachments = null, List<Attachment> dataAttachments = null)
{
try
{
if (headerAttachments is not null)
{
foreach (Attachment attachment in headerAttachments)
AttachFile(url, headerID, "", System.IO.File.ReadAllBytes(attachment.SourceFileName), attachment.DestinationFileName);
}
if (dataAttachments is not null)
{
foreach (Attachment attachment in dataAttachments)
AttachFile(url, headerID, attachment.UniqueId, System.IO.File.ReadAllBytes(attachment.SourceFileName), attachment.DestinationFileName);
}
//MessageBox.Show(r.ToString());
}
catch (Exception e)
{
Exception exception = e;
StringBuilder stringBuilder = new();
while (exception is not null)
{
_ = stringBuilder.AppendLine(exception.Message);
exception = exception.InnerException;
}
//MessageBox.Show(msgs.ToString(), "Exception", //MessageBoxButtons.OK, //MessageBoxIcon.Error);
throw new Exception(stringBuilder.ToString());
}
}
}

19
Adaptation/Shared/ParameterType.cs
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@ -1,13 +1,10 @@
namespace Adaptation.Shared
namespace Adaptation.Shared;
public enum ParameterType
{
public enum ParameterType
{
String = 0,
Integer = 2,
Double = 3,
Boolean = 4,
StructuredType = 5
}
String = 0,
Integer = 2,
Double = 3,
Boolean = 4,
StructuredType = 5
}

725
Adaptation/Shared/ProcessDataStandardFormat.cs
View File

@ -7,420 +7,405 @@ using System.Linq;
using System.Text;
using System.Text.Json;
namespace Adaptation.Shared
namespace Adaptation.Shared;
public class ProcessDataStandardFormat
{
public class ProcessDataStandardFormat
public const string RecordStart = "RECORD_START";
public enum SearchFor
{
EquipmentIntegration = 1,
BusinessIntegration = 2,
SystemExport = 3,
Archive = 4
}
public const string RecordStart = "RECORD_START";
public enum SearchFor
public static string GetPDSFText(IFileRead fileRead, Logistics logistics, JsonElement[] jsonElements, string logisticsText)
{
string result;
if (!jsonElements.Any())
result = string.Empty;
else
{
EquipmentIntegration = 1,
BusinessIntegration = 2,
SystemExport = 3,
Archive = 4
}
public static string GetPDSFText(IFileRead fileRead, Logistics logistics, JsonElement[] jsonElements, string logisticsText)
{
string result;
if (!jsonElements.Any())
result = string.Empty;
else
int columns = 0;
List<string> lines;
string endOffset = "E#######T";
string dataOffset = "D#######T";
string headerOffset = "H#######T";
string format = "MM/dd/yyyy HH:mm:ss";
StringBuilder stringBuilder = new();
lines = new string[] { "HEADER_TAG\tHEADER_VALUE", "FORMAT\t2.00", "NUMBER_PASSES\t0001", string.Concat("HEADER_OFFSET\t", headerOffset), string.Concat("DATA_OFFSET\t", dataOffset), string.Concat("END_OFFSET\t", endOffset) }.ToList();
_ = stringBuilder.Append("\"Time\"").Append('\t');
_ = stringBuilder.Append("\"A_LOGISTICS\"").Append('\t');
_ = stringBuilder.Append("\"B_LOGISTICS\"").Append('\t');
for (int i = 0; i < jsonElements.Length;)
{
int columns = 0;
List<string> lines;
string endOffset = "E#######T";
string dataOffset = "D#######T";
string headerOffset = "H#######T";
string format = "MM/dd/yyyy HH:mm:ss";
StringBuilder stringBuilder = new();
lines = new string[] { "HEADER_TAG\tHEADER_VALUE", "FORMAT\t2.00", "NUMBER_PASSES\t0001", string.Concat("HEADER_OFFSET\t", headerOffset), string.Concat("DATA_OFFSET\t", dataOffset), string.Concat("END_OFFSET\t", endOffset) }.ToList();
stringBuilder.Append("\"Time\"").Append('\t');
stringBuilder.Append("\"A_LOGISTICS\"").Append('\t');
stringBuilder.Append("\"B_LOGISTICS\"").Append('\t');
for (int i = 0; i < jsonElements.Length;)
foreach (JsonProperty jsonProperty in jsonElements[0].EnumerateObject())
{
foreach (JsonProperty jsonProperty in jsonElements[0].EnumerateObject())
{
columns += 1;
stringBuilder.Append("\"").Append(jsonProperty.Name).Append("\"").Append('\t');
}
break;
columns += 1;
_ = stringBuilder.Append('"').Append(jsonProperty.Name).Append('"').Append('\t');
}
stringBuilder.Remove(stringBuilder.Length - 1, 1);
break;
}
_ = stringBuilder.Remove(stringBuilder.Length - 1, 1);
lines.Add(stringBuilder.ToString());
for (int i = 0; i < jsonElements.Length; i++)
{
_ = stringBuilder.Clear();
_ = stringBuilder.Append("0.1").Append('\t');
_ = stringBuilder.Append('1').Append('\t');
_ = stringBuilder.Append('2').Append('\t');
foreach (JsonProperty jsonProperty in jsonElements[i].EnumerateObject())
_ = stringBuilder.Append(jsonProperty.Value).Append('\t');
_ = stringBuilder.Remove(stringBuilder.Length - 1, 1);
lines.Add(stringBuilder.ToString());
for (int i = 0; i < jsonElements.Length; i++)
{
stringBuilder.Clear();
stringBuilder.Append("0.1").Append('\t');
stringBuilder.Append("1").Append('\t');
stringBuilder.Append("2").Append('\t');
foreach (JsonProperty jsonProperty in jsonElements[i].EnumerateObject())
stringBuilder.Append(jsonProperty.Value).Append('\t');
stringBuilder.Remove(stringBuilder.Length - 1, 1);
lines.Add(stringBuilder.ToString());
}
lines.Add(string.Concat("NUM_DATA_ROWS ", jsonElements.Length.ToString().PadLeft(9, '0')));
lines.Add(string.Concat("NUM_DATA_COLUMNS ", (columns + 3).ToString().PadLeft(9, '0')));
lines.Add("DELIMITER ;");
lines.Add(string.Concat("START_TIME_FORMAT ", format));
lines.Add(string.Concat("START_TIME ", logistics.DateTimeFromSequence.ToString(format))); //12/26/2019 15:22:44
lines.Add(string.Concat("LOGISTICS_COLUMN", '\t', "A_LOGISTICS"));
lines.Add(string.Concat("LOGISTICS_COLUMN", '\t', "B_LOGISTICS"));
if (!string.IsNullOrEmpty(logisticsText))
lines.Add(logisticsText);
else
{
lines.Add(string.Concat("LOGISTICS_1", '\t', "A_CHAMBER=;A_INFO=", fileRead.EventName, ";A_INFO2=", fileRead.EquipmentType, ";A_JOBID=", fileRead.CellInstanceName, ";A_MES_ENTITY=", fileRead.MesEntity, ";A_MID=", logistics.MID, ";A_NULL_DATA=", fileRead.NullData, ";A_PPID=NO_PPID;A_PROCESS_JOBID=", logistics.ProcessJobID, ";A_PRODUCT=;A_SEQUENCE=", logistics.Sequence, ";A_WAFER_ID=;"));
lines.Add(string.Concat("LOGISTICS_2", '\t', "B_CHAMBER=;B_INFO=", fileRead.EventName, ";B_INFO2=", fileRead.EquipmentType, ";B_JOBID=", fileRead.CellInstanceName, ";B_MES_ENTITY=", fileRead.MesEntity, ";B_MID=", logistics.MID, ";B_NULL_DATA=", fileRead.NullData, ";B_PPID=NO_PPID;B_PROCESS_JOBID=", logistics.ProcessJobID, ";B_PRODUCT=;B_SEQUENCE=", logistics.Sequence, ";B_WAFER_ID=;"));
lines.Add("END_HEADER");
}
stringBuilder.Clear();
foreach (string line in lines)
stringBuilder.AppendLine(line);
result = stringBuilder.ToString();
result = result.Replace(headerOffset, result.IndexOf("NUM_DATA_ROWS").ToString().PadLeft(9, '0')).
Replace(dataOffset, result.IndexOf('"').ToString().PadLeft(9, '0')).
Replace(endOffset, result.Length.ToString().PadLeft(9, '0'));
}
return result;
}
public static Tuple<string, string[], string[]> GetLogisticsColumnsAndBody(string reportFullPath, string[] lines = null)
{
string segment;
List<string> body = new();
StringBuilder logistics = new();
if (lines is null)
lines = File.ReadAllLines(reportFullPath);
string[] segments;
if (lines.Length < 7)
segments = new string[] { };
else
segments = lines[6].Trim().Split('\t');
List<string> columns = new();
for (int c = 0; c < segments.Length; c++)
{
segment = segments[c].Substring(1, segments[c].Length - 2);
if (!columns.Contains(segment))
columns.Add(segment);
else
{
for (short i = 1; i < short.MaxValue; i++)
{
segment = string.Concat(segment, "_", i);
if (!columns.Contains(segment))
{
columns.Add(segment);
break;
}
}
}
}
bool lookForLogistics = false;
for (int r = 7; r < lines.Count(); r++)
{
if (lines[r].StartsWith("NUM_DATA_ROWS"))
lookForLogistics = true;
if (!lookForLogistics)
{
body.Add(lines[r]);
continue;
}
if (lines[r].StartsWith("LOGISTICS_1"))
{
for (int i = r; i < lines.Count(); i++)
{
if (lines[r].StartsWith("END_HEADER"))
break;
logistics.AppendLine(lines[i]);
}
break;
}
}
return new Tuple<string, string[], string[]>(logistics.ToString(), columns.ToArray(), body.ToArray());
}
public static JsonElement[] GetArray(Tuple<string, string[], string[]> pdsf, bool lookForNumbers = false)
{
JsonElement[] results;
string logistics = pdsf.Item1;
string[] columns = pdsf.Item2;
string[] bodyLines = pdsf.Item3;
if (!bodyLines.Any() || !bodyLines[0].Contains('\t'))
results = JsonSerializer.Deserialize<JsonElement[]>("[]");
lines.Add(string.Concat("NUM_DATA_ROWS ", jsonElements.Length.ToString().PadLeft(9, '0')));
lines.Add(string.Concat("NUM_DATA_COLUMNS ", (columns + 3).ToString().PadLeft(9, '0')));
lines.Add("DELIMITER ;");
lines.Add(string.Concat("START_TIME_FORMAT ", format));
lines.Add(string.Concat("START_TIME ", logistics.DateTimeFromSequence.ToString(format))); //12/26/2019 15:22:44
lines.Add(string.Concat("LOGISTICS_COLUMN", '\t', "A_LOGISTICS"));
lines.Add(string.Concat("LOGISTICS_COLUMN", '\t', "B_LOGISTICS"));
if (!string.IsNullOrEmpty(logisticsText))
lines.Add(logisticsText);
else
{
string value;
string[] segments;
StringBuilder stringBuilder = new();
foreach (string bodyLine in bodyLines)
{
stringBuilder.Append('{');
segments = bodyLine.Trim().Split('\t');
if (!lookForNumbers)
{
for (int c = 1; c < segments.Length; c++)
{
value = segments[c].Replace("\"", "\\\"").Replace("\\", "\\\\");
stringBuilder.Append('"').Append(columns[c]).Append("\":\"").Append(value).Append("\",");
}
}
else
{
for (int c = 1; c < segments.Length; c++)
{
value = segments[c].Replace("\"", "\\\"").Replace("\\", "\\\\");
if (string.IsNullOrEmpty(value))
stringBuilder.Append('"').Append(columns[c]).Append("\":").Append(value).Append("null,");
else if (value.All(char.IsDigit))
stringBuilder.Append('"').Append(columns[c]).Append("\":").Append(value).Append(",");
else
stringBuilder.Append('"').Append(columns[c]).Append("\":\"").Append(value).Append("\",");
}
}
stringBuilder.Remove(stringBuilder.Length - 1, 1);
stringBuilder.AppendLine("},");
}
stringBuilder.Remove(stringBuilder.Length - 3, 3);
results = JsonSerializer.Deserialize<JsonElement[]>(string.Concat("[", stringBuilder, "]"));
lines.Add(string.Concat("LOGISTICS_1", '\t', "A_CHAMBER=;A_INFO=", fileRead.EventName, ";A_INFO2=", fileRead.EquipmentType, ";A_JOBID=", fileRead.CellInstanceName, ";A_MES_ENTITY=", fileRead.MesEntity, ";A_MID=", logistics.MID, ";A_NULL_DATA=", fileRead.NullData, ";A_PPID=NO_PPID;A_PROCESS_JOBID=", logistics.ProcessJobID, ";A_PRODUCT=;A_SEQUENCE=", logistics.Sequence, ";A_WAFER_ID=;"));
lines.Add(string.Concat("LOGISTICS_2", '\t', "B_CHAMBER=;B_INFO=", fileRead.EventName, ";B_INFO2=", fileRead.EquipmentType, ";B_JOBID=", fileRead.CellInstanceName, ";B_MES_ENTITY=", fileRead.MesEntity, ";B_MID=", logistics.MID, ";B_NULL_DATA=", fileRead.NullData, ";B_PPID=NO_PPID;B_PROCESS_JOBID=", logistics.ProcessJobID, ";B_PRODUCT=;B_SEQUENCE=", logistics.Sequence, ";B_WAFER_ID=;"));
lines.Add("END_HEADER");
}
return results;
_ = stringBuilder.Clear();
foreach (string line in lines)
_ = stringBuilder.AppendLine(line);
result = stringBuilder.ToString();
result = result.Replace(headerOffset, result.IndexOf("NUM_DATA_ROWS").ToString().PadLeft(9, '0')).
Replace(dataOffset, result.IndexOf('"').ToString().PadLeft(9, '0')).
Replace(endOffset, result.Length.ToString().PadLeft(9, '0'));
}
return result;
}
public static Dictionary<string, List<string>> GetDictionary(Tuple<string, string[], string[]> pdsf)
public static Tuple<string, string[], string[]> GetLogisticsColumnsAndBody(string reportFullPath, string[] lines = null)
{
string segment;
List<string> body = new();
StringBuilder logistics = new();
if (lines is null)
lines = File.ReadAllLines(reportFullPath);
string[] segments;
if (lines.Length < 7)
segments = Array.Empty<string>();
else
segments = lines[6].Trim().Split('\t');
List<string> columns = new();
for (int c = 0; c < segments.Length; c++)
{
Dictionary<string, List<string>> results = new();
segment = segments[c].Substring(1, segments[c].Length - 2);
if (!columns.Contains(segment))
columns.Add(segment);
else
{
for (short i = 1; i < short.MaxValue; i++)
{
segment = string.Concat(segment, "_", i);
if (!columns.Contains(segment))
{
columns.Add(segment);
break;
}
}
}
}
bool lookForLogistics = false;
for (int r = 7; r < lines.Length; r++)
{
if (lines[r].StartsWith("NUM_DATA_ROWS"))
lookForLogistics = true;
if (!lookForLogistics)
{
body.Add(lines[r]);
continue;
}
if (lines[r].StartsWith("LOGISTICS_1"))
{
for (int i = r; i < lines.Length; i++)
{
if (lines[r].StartsWith("END_HEADER"))
break;
_ = logistics.AppendLine(lines[i]);
}
break;
}
}
return new Tuple<string, string[], string[]>(logistics.ToString(), columns.ToArray(), body.ToArray());
}
public static JsonElement[] GetArray(Tuple<string, string[], string[]> pdsf, bool lookForNumbers = false)
{
JsonElement[] results;
string logistics = pdsf.Item1;
string[] columns = pdsf.Item2;
string[] bodyLines = pdsf.Item3;
if (!bodyLines.Any() || !bodyLines[0].Contains('\t'))
results = JsonSerializer.Deserialize<JsonElement[]>("[]");
else
{
string value;
string[] segments;
string[] columns = pdsf.Item2;
string[] bodyLines = pdsf.Item3;
foreach (string column in columns)
results.Add(column, new List<string>());
StringBuilder stringBuilder = new();
foreach (string bodyLine in bodyLines)
{
segments = bodyLine.Split('\t');
for (int c = 1; c < segments.Length; c++)
_ = stringBuilder.Append('{');
segments = bodyLine.Trim().Split('\t');
if (!lookForNumbers)
{
if (c >= columns.Length)
continue;
results[columns[c]].Add(segments[c]);
}
}
return results;
}
public static Tuple<string, Dictionary<Test, Dictionary<string, List<string>>>> GetTestDictionary(Tuple<string, string[], string[]> pdsf)
{
Dictionary<Test, Dictionary<string, List<string>>> results = new();
string testColumn = nameof(Test);
Dictionary<string, List<string>> keyValuePairs = GetDictionary(pdsf);
if (!keyValuePairs.ContainsKey(testColumn))
throw new Exception();
int min;
int max;
Test testKey;
List<string> vs;
string columnKey;
Dictionary<Test, List<int>> tests = new();
for (int i = 0; i < keyValuePairs[testColumn].Count; i++)
{
if (Enum.TryParse(keyValuePairs[testColumn][i], out Test test))
{
if (!results.ContainsKey(test))
for (int c = 1; c < segments.Length; c++)
{
tests.Add(test, new List<int>());
results.Add(test, new Dictionary<string, List<string>>());
value = segments[c].Replace("\"", "\\\"").Replace("\\", "\\\\");
_ = stringBuilder.Append('"').Append(columns[c]).Append("\":\"").Append(value).Append("\",");
}
tests[test].Add(i);
}
}
foreach (KeyValuePair<Test, List<int>> testKeyValuePair in tests)
{
testKey = testKeyValuePair.Key;
min = testKeyValuePair.Value.Min();
max = testKeyValuePair.Value.Max() + 1;
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
results[testKey].Add(keyValuePair.Key, new List<string>());
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
else
{
vs = keyValuePair.Value;
columnKey = keyValuePair.Key;
for (int i = min; i < max; i++)
for (int c = 1; c < segments.Length; c++)
{
if (vs.Count > i)
results[testKey][columnKey].Add(vs[i]);
value = segments[c].Replace("\"", "\\\"").Replace("\\", "\\\\");
if (string.IsNullOrEmpty(value))
_ = stringBuilder.Append('"').Append(columns[c]).Append("\":").Append(value).Append("null,");
else if (value.All(char.IsDigit))
_ = stringBuilder.Append('"').Append(columns[c]).Append("\":").Append(value).Append(',');
else
results[testKey][columnKey].Add(string.Empty);
_ = stringBuilder.Append('"').Append(columns[c]).Append("\":\"").Append(value).Append("\",");
}
}
_ = stringBuilder.Remove(stringBuilder.Length - 1, 1);
_ = stringBuilder.AppendLine("},");
}
return new Tuple<string, Dictionary<Test, Dictionary<string, List<string>>>>(pdsf.Item1, results);
_ = stringBuilder.Remove(stringBuilder.Length - 3, 3);
results = JsonSerializer.Deserialize<JsonElement[]>(string.Concat("[", stringBuilder, "]"));
}
return results;
}
private static string GetString(SearchFor searchFor, bool addSpaces, char separator = ' ')
public static Dictionary<string, List<string>> GetDictionary(Tuple<string, string[], string[]> pdsf)
{
Dictionary<string, List<string>> results = new();
string[] segments;
string[] columns = pdsf.Item2;
string[] bodyLines = pdsf.Item3;
foreach (string column in columns)
results.Add(column, new List<string>());
foreach (string bodyLine in bodyLines)
{
if (!addSpaces)
return string.Concat(((int)searchFor).ToString().PadLeft(2, '0'), searchFor);
else
return string.Concat(((int)searchFor).ToString().PadLeft(2, '0'), separator, searchFor.ToString().Replace("In", string.Concat(separator, "In")).Replace("Ex", string.Concat(separator, "Ex")));
}
public static string EquipmentIntegration(bool addSpaces = true, char separator = ' ')
{
return GetString(SearchFor.EquipmentIntegration, addSpaces, separator);
}
public static string BusinessIntegration(bool addSpaces = true, char separator = ' ')
{
return GetString(SearchFor.BusinessIntegration, addSpaces, separator);
}
public static string SystemExport(bool addSpaces = true, char separator = ' ')
{
return GetString(SearchFor.SystemExport, addSpaces, separator);
}
public static string Archive(bool addSpaces = true, char separator = ' ')
{
return GetString(SearchFor.Archive, addSpaces, separator);
}
public static string GetLines(Logistics logistics, Properties.IScopeInfo scopeInfo, List<string> names, Dictionary<string, List<string>> keyValuePairs, string dateFormat, string timeFormat, List<string> pairedParameterNames, bool useDateTimeFromSequence = true, string format = "", List<string> ignoreParameterNames = null)
{
StringBuilder result = new();
if (ignoreParameterNames is null)
ignoreParameterNames = new List<string>();
if (useDateTimeFromSequence && !string.IsNullOrEmpty(format))
throw new Exception();
else if (!useDateTimeFromSequence && string.IsNullOrEmpty(format))
throw new Exception();
string nullData;
const string columnDate = "Date";
const string columnTime = "Time";
const string firstDuplicate = "_1";
result.AppendLine(scopeInfo.Header);
StringBuilder line = new();
if (logistics.NullData is null)
nullData = string.Empty;
else
nullData = logistics.NullData.ToString();
int count = (from l in keyValuePairs select l.Value.Count).Min();
for (int r = 0; r < count; r++)
segments = bodyLine.Split('\t');
for (int c = 1; c < segments.Length; c++)
{
line.Clear();
line.Append("!");
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
{
if (!names.Contains(keyValuePair.Key))
continue;
if (ignoreParameterNames.Contains(keyValuePair.Key))
continue;
if (pairedParameterNames.Contains(keyValuePair.Key))
{
if (string.IsNullOrEmpty(keyValuePair.Value[r]) || keyValuePair.Value[r] == nullData)
continue;
else
result.Append(line).Append(keyValuePair.Key).Append(';').AppendLine(keyValuePair.Value[r]);
}
else
{
if (useDateTimeFromSequence && keyValuePair.Key == columnDate)
line.Append(logistics.DateTimeFromSequence.ToString(dateFormat));
else if (useDateTimeFromSequence && keyValuePair.Key == columnTime)
line.Append(logistics.DateTimeFromSequence.ToString(timeFormat));
else if (!useDateTimeFromSequence && keyValuePair.Key == columnDate && keyValuePair.Value[r].Length == format.Length)
line.Append(DateTime.ParseExact(keyValuePair.Value[r], format, CultureInfo.InvariantCulture).ToString(dateFormat));
else if (!useDateTimeFromSequence && keyValuePair.Key == columnTime && keyValuePairs.ContainsKey(string.Concat(keyValuePair.Key, firstDuplicate)) && keyValuePairs[string.Concat(keyValuePair.Key, firstDuplicate)][r].Length == format.Length)
line.Append(DateTime.ParseExact(keyValuePairs[string.Concat(keyValuePair.Key, firstDuplicate)][r], format, CultureInfo.InvariantCulture).ToString(timeFormat));
else if (string.IsNullOrEmpty(keyValuePair.Value[r]) || keyValuePair.Value[r] == nullData)
line.Append(nullData);
else
line.Append(keyValuePair.Value[r]);
line.Append(';');
}
}
if (!pairedParameterNames.Any())
{
line.Remove(line.Length - 1, 1);
result.AppendLine(line.ToString());
}
}
return result.ToString();
}
public static List<string> PDSFToFixedWidth(string reportFullPath)
{
List<string> results = new();
if (!File.Exists(reportFullPath))
throw new Exception();
int[] group;
string line;
int startsAt = 0;
string[] segments;
int? currentGroup = null;
char inputSeperator = '\t';
char outputSeperator = '\t';
List<int> vs = new();
List<int[]> groups = new();
string[] lines = File.ReadAllLines(reportFullPath);
StringBuilder stringBuilder = new();
for (int i = 0; i < lines.Length; i++)
{
if (string.IsNullOrEmpty(lines[i]))
if (c >= columns.Length)
continue;
segments = lines[i].Split(inputSeperator);
if (currentGroup is null)
currentGroup = segments.Length;
if (segments.Length != currentGroup)
results[columns[c]].Add(segments[c]);
}
}
return results;
}
public static Tuple<string, Dictionary<Test, Dictionary<string, List<string>>>> GetTestDictionary(Tuple<string, string[], string[]> pdsf)
{
Dictionary<Test, Dictionary<string, List<string>>> results = new();
string testColumn = nameof(Test);
Dictionary<string, List<string>> keyValuePairs = GetDictionary(pdsf);
if (!keyValuePairs.ContainsKey(testColumn))
throw new Exception();
int min;
int max;
Test testKey;
List<string> vs;
string columnKey;
Dictionary<Test, List<int>> tests = new();
for (int i = 0; i < keyValuePairs[testColumn].Count; i++)
{
if (Enum.TryParse(keyValuePairs[testColumn][i], out Test test))
{
if (!results.ContainsKey(test))
{
currentGroup = segments.Length;
groups.Add(new int[] { startsAt, i - 1 });
startsAt = i;
tests.Add(test, new List<int>());
results.Add(test, new Dictionary<string, List<string>>());
}
tests[test].Add(i);
}
}
foreach (KeyValuePair<Test, List<int>> testKeyValuePair in tests)
{
testKey = testKeyValuePair.Key;
min = testKeyValuePair.Value.Min();
max = testKeyValuePair.Value.Max() + 1;
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
results[testKey].Add(keyValuePair.Key, new List<string>());
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
{
vs = keyValuePair.Value;
columnKey = keyValuePair.Key;
for (int i = min; i < max; i++)
{
if (vs.Count > i)
results[testKey][columnKey].Add(vs[i]);
else
results[testKey][columnKey].Add(string.Empty);
}
}
if (startsAt == lines.Length - 1 && lines[0].Split(inputSeperator).Length != currentGroup)
groups.Add(new int[] { lines.Length - 1, lines.Length - 1 });
for (int g = 0; g < groups.Count; g++)
}
return new Tuple<string, Dictionary<Test, Dictionary<string, List<string>>>>(pdsf.Item1, results);
}
private static string GetString(SearchFor searchFor, bool addSpaces, char separator = ' ')
{
if (!addSpaces)
return string.Concat(((int)searchFor).ToString().PadLeft(2, '0'), searchFor);
else
return string.Concat(((int)searchFor).ToString().PadLeft(2, '0'), separator, searchFor.ToString().Replace("In", string.Concat(separator, "In")).Replace("Ex", string.Concat(separator, "Ex")));
}
public static string EquipmentIntegration(bool addSpaces = true, char separator = ' ') => GetString(SearchFor.EquipmentIntegration, addSpaces, separator);
public static string BusinessIntegration(bool addSpaces = true, char separator = ' ') => GetString(SearchFor.BusinessIntegration, addSpaces, separator);
public static string SystemExport(bool addSpaces = true, char separator = ' ') => GetString(SearchFor.SystemExport, addSpaces, separator);
public static string Archive(bool addSpaces = true, char separator = ' ') => GetString(SearchFor.Archive, addSpaces, separator);
public static string GetLines(Logistics logistics, Properties.IScopeInfo scopeInfo, List<string> names, Dictionary<string, List<string>> keyValuePairs, string dateFormat, string timeFormat, List<string> pairedParameterNames, bool useDateTimeFromSequence = true, string format = "", List<string> ignoreParameterNames = null)
{
StringBuilder result = new();
if (ignoreParameterNames is null)
ignoreParameterNames = new List<string>();
if (useDateTimeFromSequence && !string.IsNullOrEmpty(format))
throw new Exception();
else if (!useDateTimeFromSequence && string.IsNullOrEmpty(format))
throw new Exception();
string nullData;
const string columnDate = "Date";
const string columnTime = "Time";
const string firstDuplicate = "_1";
_ = result.AppendLine(scopeInfo.Header);
StringBuilder line = new();
if (logistics.NullData is null)
nullData = string.Empty;
else
nullData = logistics.NullData.ToString();
int count = (from l in keyValuePairs select l.Value.Count).Min();
for (int r = 0; r < count; r++)
{
_ = line.Clear();
_ = line.Append('!');
foreach (KeyValuePair<string, List<string>> keyValuePair in keyValuePairs)
{
vs.Clear();
group = groups[g];
line = lines[group[0]];
if (!names.Contains(keyValuePair.Key))
continue;
if (ignoreParameterNames.Contains(keyValuePair.Key))
continue;
if (pairedParameterNames.Contains(keyValuePair.Key))
{
if (string.IsNullOrEmpty(keyValuePair.Value[r]) || keyValuePair.Value[r] == nullData)
continue;
else
_ = result.Append(line).Append(keyValuePair.Key).Append(';').AppendLine(keyValuePair.Value[r]);
}
else
{
if (useDateTimeFromSequence && keyValuePair.Key == columnDate)
_ = line.Append(logistics.DateTimeFromSequence.ToString(dateFormat));
else if (useDateTimeFromSequence && keyValuePair.Key == columnTime)
_ = line.Append(logistics.DateTimeFromSequence.ToString(timeFormat));
else if (!useDateTimeFromSequence && keyValuePair.Key == columnDate && keyValuePair.Value[r].Length == format.Length)
_ = line.Append(DateTime.ParseExact(keyValuePair.Value[r], format, CultureInfo.InvariantCulture).ToString(dateFormat));
else if (!useDateTimeFromSequence && keyValuePair.Key == columnTime && keyValuePairs.ContainsKey(string.Concat(keyValuePair.Key, firstDuplicate)) && keyValuePairs[string.Concat(keyValuePair.Key, firstDuplicate)][r].Length == format.Length)
_ = line.Append(DateTime.ParseExact(keyValuePairs[string.Concat(keyValuePair.Key, firstDuplicate)][r], format, CultureInfo.InvariantCulture).ToString(timeFormat));
else if (string.IsNullOrEmpty(keyValuePair.Value[r]) || keyValuePair.Value[r] == nullData)
_ = line.Append(nullData);
else
_ = line.Append(keyValuePair.Value[r]);
_ = line.Append(';');
}
}
if (!pairedParameterNames.Any())
{
_ = line.Remove(line.Length - 1, 1);
_ = result.AppendLine(line.ToString());
}
}
return result.ToString();
}
public static List<string> PDSFToFixedWidth(string reportFullPath)
{
List<string> results = new();
if (!File.Exists(reportFullPath))
throw new Exception();
int[] group;
string line;
int startsAt = 0;
string[] segments;
int? currentGroup = null;
char inputSeperator = '\t';
char outputSeperator = '\t';
List<int> vs = new();
List<int[]> groups = new();
string[] lines = File.ReadAllLines(reportFullPath);
StringBuilder stringBuilder = new();
for (int i = 0; i < lines.Length; i++)
{
if (string.IsNullOrEmpty(lines[i]))
continue;
segments = lines[i].Split(inputSeperator);
if (currentGroup is null)
currentGroup = segments.Length;
if (segments.Length != currentGroup)
{
currentGroup = segments.Length;
groups.Add(new int[] { startsAt, i - 1 });
startsAt = i;
}
}
if (startsAt == lines.Length - 1 && lines[0].Split(inputSeperator).Length != currentGroup)
groups.Add(new int[] { lines.Length - 1, lines.Length - 1 });
for (int g = 0; g < groups.Count; g++)
{
vs.Clear();
group = groups[g];
line = lines[group[0]];
segments = line.Split(inputSeperator);
for (int s = 0; s < segments.Length; s++)
vs.Add(segments[s].Length);
for (int i = group[0]; i <= group[1]; i++)
{
line = lines[i];
segments = line.Split(inputSeperator);
for (int s = 0; s < segments.Length; s++)
vs.Add(segments[s].Length);
for (int i = group[0]; i <= group[1]; i++)
{
line = lines[i];
segments = line.Split(inputSeperator);
for (int s = 0; s < segments.Length; s++)
{
if (vs[s] < segments[s].Length)
vs[s] = segments[s].Length;
}
if (vs[s] < segments[s].Length)
vs[s] = segments[s].Length;
}
stringBuilder.Clear();
for (int s = 0; s < segments.Length; s++)
stringBuilder.Append((s + 1).ToString().PadLeft(vs[s], ' ')).Append(outputSeperator);
stringBuilder.Remove(stringBuilder.Length - 1, 1);
results.Add(stringBuilder.ToString());
for (int i = group[0]; i <= group[1]; i++)
{
line = lines[i];
stringBuilder.Clear();
segments = line.Split(inputSeperator);
for (int s = 0; s < segments.Length; s++)
stringBuilder.Append(segments[s].PadLeft(vs[s], ' ')).Append(outputSeperator);
stringBuilder.Remove(stringBuilder.Length - 1, 1);
results.Add(stringBuilder.ToString());
}
results.Add(string.Empty);
}
return results;
_ = stringBuilder.Clear();
for (int s = 0; s < segments.Length; s++)
_ = stringBuilder.Append((s + 1).ToString().PadLeft(vs[s], ' ')).Append(outputSeperator);
_ = stringBuilder.Remove(stringBuilder.Length - 1, 1);
results.Add(stringBuilder.ToString());
for (int i = group[0]; i <= group[1]; i++)
{
line = lines[i];
_ = stringBuilder.Clear();
segments = line.Split(inputSeperator);
for (int s = 0; s < segments.Length; s++)
_ = stringBuilder.Append(segments[s].PadLeft(vs[s], ' ')).Append(outputSeperator);
_ = stringBuilder.Remove(stringBuilder.Length - 1, 1);
results.Add(stringBuilder.ToString());
}
results.Add(string.Empty);
}
return results;
}
}

15
Adaptation/Shared/Properties/IDescription.cs
View File

@ -1,13 +1,10 @@
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface IDescription
{
public interface IDescription
{
int Test { get; }
int Count { get; }
int Index { get; }
}
int Test { get; }
int Count { get; }
int Index { get; }
}

33
Adaptation/Shared/Properties/IFileRead.cs
View File

@ -1,20 +1,17 @@
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface IFileRead
{
public interface IFileRead
{
bool IsEvent { get; }
string NullData { get; }
string MesEntity { get; }
bool IsEAFHosted { get; }
string EventName { get; }
string EquipmentType { get; }
string ReportFullPath { get; }
string CellInstanceName { get; }
string ExceptionSubject { get; }
bool UseCyclicalForDescription { get; }
string CellInstanceConnectionName { get; }
string ParameterizedModelObjectDefinitionType { get; }
}
bool IsEvent { get; }
string NullData { get; }
string MesEntity { get; }
bool IsEAFHosted { get; }
string EventName { get; }
string EquipmentType { get; }
string ReportFullPath { get; }
string CellInstanceName { get; }
string ExceptionSubject { get; }
bool UseCyclicalForDescription { get; }
string CellInstanceConnectionName { get; }
string ParameterizedModelObjectDefinitionType { get; }
}

33
Adaptation/Shared/Properties/ILogistics.cs
View File

@ -1,25 +1,22 @@
using System;
using System.Collections.Generic;
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface ILogistics
{
public interface ILogistics
{
public object NullData { get; }
public string JobID { get; } //CellName
public long Sequence { get; } //Ticks
public DateTime DateTimeFromSequence { get; }
public double TotalSecondsSinceLastWriteTimeFromSequence { get; }
public string MesEntity { get; } //SPC
public string ReportFullPath { get; } //Extract file
public string ProcessJobID { get; set; } //Reactor (duplicate but I want it in the logistics)
public string MID { get; set; } //Lot & Pocket || Lot
public List<string> Tags { get; set; }
public List<string> Logistics1 { get; set; }
public List<Logistics2> Logistics2 { get; set; }
}
public object NullData { get; }
public string JobID { get; } //CellName
public long Sequence { get; } //Ticks
public DateTime DateTimeFromSequence { get; }
public double TotalSecondsSinceLastWriteTimeFromSequence { get; }
public string MesEntity { get; } //SPC
public string ReportFullPath { get; } //Extract file
public string ProcessJobID { get; set; } //Reactor (duplicate but I want it in the logistics)
public string MID { get; set; } //Lot & Pocket || Lot
public List<string> Tags { get; set; }
public List<string> Logistics1 { get; set; }
public List<Logistics2> Logistics2 { get; set; }
}

23
Adaptation/Shared/Properties/ILogistics2.cs
View File

@ -1,17 +1,14 @@
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface ILogistics2
{
public interface ILogistics2
{
public string MID { get; }
public string RunNumber { get; }
public string SatelliteGroup { get; }
public string PartNumber { get; }
public string PocketNumber { get; }
public string WaferLot { get; }
public string Recipe { get; }
}
public string MID { get; }
public string RunNumber { get; }
public string SatelliteGroup { get; }
public string PartNumber { get; }
public string PocketNumber { get; }
public string WaferLot { get; }
public string Recipe { get; }
}

11
Adaptation/Shared/Properties/IProcessData.cs
View File

@ -1,13 +1,10 @@
using System.Collections.Generic;
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface IProcessData
{
public interface IProcessData
{
List<object> Details { get; }
}
List<object> Details { get; }
}

25
Adaptation/Shared/Properties/IScopeInfo.cs
View File

@ -1,20 +1,17 @@
using System;
namespace Adaptation.Shared.Properties
namespace Adaptation.Shared.Properties;
public interface IScopeInfo
{
public interface IScopeInfo
{
Enum Enum { get; }
string HTML { get; }
string Title { get; }
string FileName { get; }
int TestValue { get; }
string Header { get; }
string QueryFilter { get; }
string FileNameWithoutExtension { get; }
}
Enum Enum { get; }
string HTML { get; }
string Title { get; }
string FileName { get; }
int TestValue { get; }
string Header { get; }
string QueryFilter { get; }
string FileNameWithoutExtension { get; }
}

111
Adaptation/Shared/Test.cs
View File

@ -1,57 +1,58 @@
namespace Adaptation.Shared
namespace Adaptation.Shared;
public enum Test
{
public enum Test
{
AFMRoughness = 34,
BioRadQS408M = 25,
BioRadStratus = 26,
BreakdownVoltageCenter = 0,
BreakdownVoltageEdge = 1,
BreakdownVoltageMiddle8in = 2,
CandelaKlarfDC = 6,
CandelaLaser = 36,
CandelaProdU = 39,
CandelaPSL = 38,
CandelaVerify = 37,
CDE = 24,
CV = 3,
DailyRPMAverage = 19,
DailyRPMPLRatio = 20,
DailyRPMXY = 18,
Denton = 9,
DiffusionLength = 45,
Hall = 10,
HgCV = 23,
Lehighton = 13,
Microscope = 46,
MonthlyCV = 4,
MonthlyHall = 11,
MonthlyXRD = 32,
Photoreflectance = 22,
PlatoA = 48, //Largest
RPMAverage = 16,
RPMPLRatio = 17,
RPMXY = 15,
SP1 = 8,
Tencor = 7,
UV = 35,
VerificationLehighton = 14,
VerificationRPM = 21,
VerificationWarpAndBow = 29,
VpdIcpmsAnalyte = 27,
WarpAndBow = 28,
WeeklyCV = 5,
WeeklyHall = 12,
WeeklyXRD = 33,
WeeklyXRDAIcomp = 40,
WeeklyXRDFWHM002 = 41,
WeeklyXRDFWHM105 = 42,
WeeklyXRDSLStks = 43,
WeeklyXRDXRR = 44,
XRDWeightedAverage = 31,
JVXRD = 47,
XRDXY = 30
}
AFMRoughness = 34,
BioRadQS408M = 25,
BioRadStratus = 26,
BreakdownVoltageCenter = 0,
BreakdownVoltageEdge = 1,
BreakdownVoltageMiddle8in = 2,
CandelaKlarfDC = 6,
CandelaLaser = 36,
CandelaProdU = 39,
CandelaPSL = 38,
CandelaVerify = 37,
HGCV = 24,
CV = 3,
DailyRPMAverage = 19,
DailyRPMPLRatio = 20,
DailyRPMXY = 18,
Denton = 9,
DiffusionLength = 45,
GRATXTCenter = 51,
GRATXTEdge = 52, //Largest
GrowthRateXML = 50,
Hall = 10,
HgCV = 23,
JVXRD = 47,
Lehighton = 13,
LogbookCAC = 49,
Microscope = 46,
MonthlyCV = 4,
MonthlyHall = 11,
MonthlyXRD = 32,
Photoreflectance = 22,
PlatoA = 48,
RPMAverage = 16,
RPMPLRatio = 17,
RPMXY = 15,
SP1 = 8,
Tencor = 7,
UV = 35,
VerificationLehighton = 14,
VerificationRPM = 21,
VerificationWarpAndBow = 29,
VpdIcpmsAnalyte = 27,
WarpAndBow = 28,
WeeklyCV = 5,
WeeklyHall = 12,
WeeklyXRD = 33,
WeeklyXRDAIcomp = 40,
WeeklyXRDFWHM002 = 41,
WeeklyXRDFWHM105 = 42,
WeeklyXRDSLStks = 43,
WeeklyXRDXRR = 44,
XRDWeightedAverage = 31,
XRDXY = 30,
}

59
Adaptation/_Tests/CreateSelfDescription/Staging/v2.39.0/HGCV1.cs Normal file
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@ -0,0 +1,59 @@
using Adaptation.Shared;
using Microsoft.Extensions.Logging;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Shared;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Text.Json;
using System.Threading;
namespace _Tests.CreateSelfDescription.Staging.v2_39_0;
[TestClass]
public class HGCV1 : EAFLoggingUnitTesting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
internal static HGCV1 EAFLoggingUnitTesting { get; private set; }
public HGCV1() : base(testContext: null, declaringType: null, skipEquipmentDictionary: false)
{
if (EAFLoggingUnitTesting is null)
throw new Exception();
}
public HGCV1(TestContext testContext) : base(testContext, new StackFrame().GetMethod().DeclaringType, skipEquipmentDictionary: false)
{
}
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
if (EAFLoggingUnitTesting is null)
EAFLoggingUnitTesting = new HGCV1(testContext);
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(testContext.TestName, " - ClassInitialize"));
string[] fileNameAndText = EAFLoggingUnitTesting.AdaptationTesting.GetCSharpText(testContext.TestName);
File.WriteAllText(fileNameAndText[0], fileNameAndText[1]);
File.WriteAllText(fileNameAndText[2], fileNameAndText[3]);
}
[ClassCleanup()]
public static void ClassCleanup()
{
if (EAFLoggingUnitTesting.Logger is not null)
EAFLoggingUnitTesting.Logger.LogInformation("Cleanup");
if (EAFLoggingUnitTesting is not null)
EAFLoggingUnitTesting.Dispose();
}
[TestMethod]
public void Staging__v2_39_0__HGCV1__()
{
}
}

54
Adaptation/_Tests/CreateSelfDescription/Staging/v2.39.0/HGCV2.cs Normal file
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@ -0,0 +1,54 @@
using Microsoft.Extensions.Logging;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Shared;
using System;
using System.Diagnostics;
using System.IO;
namespace _Tests.CreateSelfDescription.Staging.v2_39_0;
[TestClass]
public class HGCV2 : EAFLoggingUnitTesting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
internal static HGCV2 EAFLoggingUnitTesting { get; private set; }
public HGCV2() : base(testContext: null, declaringType: null, skipEquipmentDictionary: false)
{
if (EAFLoggingUnitTesting is null)
throw new Exception();
}
public HGCV2(TestContext testContext) : base(testContext, new StackFrame().GetMethod().DeclaringType, skipEquipmentDictionary: false)
{
}
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
if (EAFLoggingUnitTesting is null)
EAFLoggingUnitTesting = new HGCV2(testContext);
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(testContext.TestName, " - ClassInitialize"));
string[] fileNameAndText = EAFLoggingUnitTesting.AdaptationTesting.GetCSharpText(testContext.TestName);
File.WriteAllText(fileNameAndText[0], fileNameAndText[1]);
File.WriteAllText(fileNameAndText[2], fileNameAndText[3]);
}
[ClassCleanup()]
public static void ClassCleanup()
{
if (EAFLoggingUnitTesting.Logger is not null)
EAFLoggingUnitTesting.Logger.LogInformation("Cleanup");
if (EAFLoggingUnitTesting is not null)
EAFLoggingUnitTesting.Dispose();
}
[TestMethod]
public void Staging__v2_39_0__HGCV2__()
{
}
}

65
Adaptation/_Tests/CreateSelfDescription/Staging/v2.39.0/HGCV3-EQPT.cs Normal file
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@ -0,0 +1,65 @@
using Adaptation.Shared.Methods;
using Microsoft.Extensions.Logging;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Shared;
using System;
using System.Diagnostics;
using System.IO;
using System.Reflection;
namespace _Tests.CreateSelfDescription.Staging.v2_39_0;
[TestClass]
public class HGCV3_EQPT : EAFLoggingUnitTesting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
internal static HGCV3_EQPT EAFLoggingUnitTesting { get; private set; }
public HGCV3_EQPT() : base(testContext: null, declaringType: null, skipEquipmentDictionary: false)
{
if (EAFLoggingUnitTesting is null)
throw new Exception();
}
public HGCV3_EQPT(TestContext testContext) : base(testContext, new StackFrame().GetMethod().DeclaringType, skipEquipmentDictionary: false)
{
}
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
if (EAFLoggingUnitTesting is null)
EAFLoggingUnitTesting = new HGCV3_EQPT(testContext);
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(testContext.TestName, " - ClassInitialize"));
string[] fileNameAndText = EAFLoggingUnitTesting.AdaptationTesting.GetCSharpText(testContext.TestName);
File.WriteAllText(fileNameAndText[0], fileNameAndText[1]);
File.WriteAllText(fileNameAndText[2], fileNameAndText[3]);
}
[ClassCleanup()]
public static void ClassCleanup()
{
if (EAFLoggingUnitTesting.Logger is not null)
EAFLoggingUnitTesting.Logger.LogInformation("Cleanup");
if (EAFLoggingUnitTesting is not null)
EAFLoggingUnitTesting.Dispose();
}
[TestMethod]
public void Staging__v2_39_0__HGCV3_EQPT__DownloadRsMFile()
{
string check = "WafrMeas.log|.RsM";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
}

65
Adaptation/_Tests/CreateSelfDescription/Staging/v2.39.0/HGCV3.cs Normal file
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@ -0,0 +1,65 @@
using Adaptation.Shared.Methods;
using Microsoft.Extensions.Logging;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Shared;
using System;
using System.Diagnostics;
using System.IO;
using System.Reflection;
namespace _Tests.CreateSelfDescription.Staging.v2_39_0;
[TestClass]
public class HGCV3 : EAFLoggingUnitTesting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
internal static HGCV3 EAFLoggingUnitTesting { get; private set; }
public HGCV3() : base(testContext: null, declaringType: null, skipEquipmentDictionary: false)
{
if (EAFLoggingUnitTesting is null)
throw new Exception();
}
public HGCV3(TestContext testContext) : base(testContext, new StackFrame().GetMethod().DeclaringType, skipEquipmentDictionary: false)
{
}
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
if (EAFLoggingUnitTesting is null)
EAFLoggingUnitTesting = new HGCV3(testContext);
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(testContext.TestName, " - ClassInitialize"));
string[] fileNameAndText = EAFLoggingUnitTesting.AdaptationTesting.GetCSharpText(testContext.TestName);
File.WriteAllText(fileNameAndText[0], fileNameAndText[1]);
File.WriteAllText(fileNameAndText[2], fileNameAndText[3]);
}
[ClassCleanup()]
public static void ClassCleanup()
{
if (EAFLoggingUnitTesting.Logger is not null)
EAFLoggingUnitTesting.Logger.LogInformation("Cleanup");
if (EAFLoggingUnitTesting is not null)
EAFLoggingUnitTesting.Dispose();
}
[TestMethod]
public void Staging__v2_39_0__HGCV3__RsM()
{
string check = "*.RsM";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
}

177
Adaptation/_Tests/CreateSelfDescription/Staging/v2.39.0/MET08RESIHGCV.cs Normal file
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@ -0,0 +1,177 @@
using Adaptation.Shared.Methods;
using Microsoft.Extensions.Logging;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Shared;
using System;
using System.Diagnostics;
using System.IO;
using System.Reflection;
namespace _Tests.CreateSelfDescription.Staging.v2_39_0;
[TestClass]
public class MET08RESIHGCV : EAFLoggingUnitTesting
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
internal static MET08RESIHGCV EAFLoggingUnitTesting { get; private set; }
public MET08RESIHGCV() : base(testContext: null, declaringType: null, skipEquipmentDictionary: false)
{
if (EAFLoggingUnitTesting is null)
throw new Exception();
}
public MET08RESIHGCV(TestContext testContext) : base(testContext, new StackFrame().GetMethod().DeclaringType, skipEquipmentDictionary: false)
{
}
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
if (EAFLoggingUnitTesting is null)
EAFLoggingUnitTesting = new MET08RESIHGCV(testContext);
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(testContext.TestName, " - ClassInitialize"));
string[] fileNameAndText = EAFLoggingUnitTesting.AdaptationTesting.GetCSharpText(testContext.TestName);
File.WriteAllText(fileNameAndText[0], fileNameAndText[1]);
File.WriteAllText(fileNameAndText[2], fileNameAndText[3]);
}
[ClassCleanup()]
public static void ClassCleanup()
{
if (EAFLoggingUnitTesting.Logger is not null)
EAFLoggingUnitTesting.Logger.LogInformation("Cleanup");
if (EAFLoggingUnitTesting is not null)
EAFLoggingUnitTesting.Dispose();
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV()
{
string check = "~IsXToOpenInsightMetrologyViewer";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV_()
{
string check = "~IsXToIQSSi";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV__()
{
string check = "~IsXToOpenInsight";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV___()
{
string check = "~IsXToOpenInsightMetrologyViewerAttachments";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV____()
{
string check = "~IsXToAPC";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV_____()
{
string check = "~IsXToSPaCe";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV______()
{
string check = "~IsXToArchive";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV_______()
{
string check = "~IsArchive";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
[TestMethod]
public void Staging__v2_39_0__MET08RESIHGCV__MET08RESIHGCV________()
{
string check = "~IsDummy";
MethodBase methodBase = new StackFrame().GetMethod();
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Getting configuration"));
string[] fileNameAndJson = EAFLoggingUnitTesting.AdaptationTesting.GetConfiguration(methodBase);
Assert.IsTrue(fileNameAndJson[1].Contains(check));
File.WriteAllText(fileNameAndJson[0], fileNameAndJson[1]);
IFileRead fileRead = EAFLoggingUnitTesting.AdaptationTesting.Get(methodBase, sourceFileLocation: string.Empty, sourceFileFilter: string.Empty, useCyclicalForDescription: false);
Assert.IsFalse(string.IsNullOrEmpty(fileRead.CellInstanceConnectionName));
EAFLoggingUnitTesting.Logger.LogInformation(string.Concat(methodBase.Name, " - Exit"));
}
}

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Adaptation/_Tests/Extract/Staging/v2.39.0/HGCV1.cs Normal file
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Adaptation/_Tests/Extract/Staging/v2.39.0/HGCV2.cs Normal file
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Adaptation/_Tests/Extract/Staging/v2.39.0/HGCV3-EQPT.cs Normal file
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using Adaptation.Shared;
using Adaptation.Shared.Methods;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Text.Json;
namespace _Tests.Extract.Staging.v2_39_0;
[TestClass]
public class HGCV3_EQPT
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
private static CreateSelfDescription.Staging.v2_39_0.HGCV3_EQPT _HGCV3_EQPT;
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
CreateSelfDescription.Staging.v2_39_0.HGCV3_EQPT.ClassInitialize(testContext);
_HGCV3_EQPT = CreateSelfDescription.Staging.v2_39_0.HGCV3_EQPT.EAFLoggingUnitTesting;
}
[TestMethod]
public void Staging__v2_39_0__HGCV3_EQPT__DownloadRsMFile() => _HGCV3_EQPT.Staging__v2_39_0__HGCV3_EQPT__DownloadRsMFile();
}

32
Adaptation/_Tests/Extract/Staging/v2.39.0/HGCV3.cs Normal file
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using Adaptation.Shared;
using Adaptation.Shared.Methods;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Text.Json;
namespace _Tests.Extract.Staging.v2_39_0;
[TestClass]
public class HGCV3
{
#pragma warning disable CA2254
#pragma warning disable IDE0060
private static CreateSelfDescription.Staging.v2_39_0.HGCV3 _HGCV3;
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
CreateSelfDescription.Staging.v2_39_0.HGCV3.ClassInitialize(testContext);
_HGCV3 = CreateSelfDescription.Staging.v2_39_0.HGCV3.EAFLoggingUnitTesting;
}
[TestMethod]
public void Staging__v2_39_0__HGCV3__RsM() => _HGCV3.Staging__v2_39_0__HGCV3__RsM();
}

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