BaseContainer Manual

Table of Contents

• About
• Access
• Copy
• Data
  • ID
  • Access
  • Index
  • Remove
• Functionality
• Compare
• Detect Changes
• BrowseContainer
• Disc I/O
• Further Reading

About

A BaseContainer is a collection of individual values. Each value has its own ID and type. A BaseContainer can also carry any number of child containers. 90% of Cinema 4D's internal values are stored in containers and all messages are working with containers, so this class is an essential part of the SDK. Containers can store any GeData type, including custom data types. It is recommended to use the available containers to store values in custom NodeData based plugins.

Warning

Keep in mind that there is no guarantee for a value to be in the container. Use default values whenever possible when accessing container's ID data.

Use the typed access methods (for example BaseContainer::GetBool()) whenever possible, instead of the low-level BaseContainer::GetData(). See Access.

Once a container value has been set using one type one must neither try to access it using another type, nor overwrite it with a value of another type. Using the wrong access will not crash, but it is illegal.

Note

To browse through all elements of a BaseContainer use the class BrowseContainer.

Access

Every BaseList2D based object of the Cinema 4D API has a BaseContainer that stores its data. This BaseContainer can be accessed with:

• BaseList2D::GetData(): Returns a copy of the object's BaseContainer.
• BaseList2D::SetData(): Sets the object's BaseContainer.
• BaseList2D::GetDataInstance(): Returns a pointer to the object's BaseContainer.
• BaseList2D::GetDataInstanceRef(): Returns a reference to the object's BaseContainer.

See BaseList2D Manual.

Note

Object parameters should be edited with C4DAtom::GetParameter() / C4DAtom::SetParameter(). Not all parameters of an object may be stored in the BaseContainer.

  // This example accesses the BaseContainer storing the render settings.
  // The BaseContainer is needed as an argument of RenderDocument().
 
  RenderData* const rdata = doc->GetActiveRenderData();
  if (rdata == nullptr)
    return maxon::UnexpectedError(MAXON_SOURCE_LOCATION);
 
  const BaseContainer renderSettings = rdata->GetData();
 
  AutoAlloc<BaseBitmap> bitmap;
  if (bitmap == nullptr)
    return maxon::OutOfMemoryError(MAXON_SOURCE_LOCATION);
 
  // prepare target bitmap
  const Int32       width  = renderSettings.GetInt32(RDATA_XRES, 1280);
  const Int32       height = renderSettings.GetInt32(RDATA_YRES, 720);
  const IMAGERESULT imageRes = bitmap->Init(width, height);
 
  if (imageRes != IMAGERESULT::OK)
    return maxon::UnexpectedError(MAXON_SOURCE_LOCATION);
 
  // render the image
  const RENDERFLAGS  flags = RENDERFLAGS::NODOCUMENTCLONE;
  const RENDERRESULT res = RenderDocument(doc, renderSettings, nullptr, nullptr, bitmap, flags, nullptr);
 
  if (res != RENDERRESULT::OK)
    return maxon::UnexpectedError(MAXON_SOURCE_LOCATION);
 
  // show the result in the Picture Viewer
  ShowBitmap(bitmap);

BaseContainer elements are also often used as an argument in a function call.

Copy

The complete content of a BaseContainer object can be copied to another object:

• BaseContainer::CopyTo(): The content is copied into the given BaseContainer.
• BaseContainer::GetClone(): Returns a copy of the container including all values.
• BaseContainer::operator=: Copies the BaseContainer.

It is also possible to copy a BaseContainer using the copy constructor.

    // This example creates a BaseContainer copies in different ways:
 
    BaseContainer original;
    original.SetString(100, "foo"_s);
    original.SetString(200, "bar"_s);
 
    // CopyTo()
    BaseContainer target;
    target.SetString(300, "foobar"_s);
 
    if (!original.CopyTo(&target, COPYFLAGS::NONE, nullptr))
      return maxon::UnexpectedError(MAXON_SOURCE_LOCATION);
 
    ApplicationOutput(target.GetString(100));
    ApplicationOutput(target.GetString(200));
    ApplicationOutput(target.GetString(300)); // This value is now deleted.
 
    // GetClone()
    BaseContainer* clone = original.GetClone(COPYFLAGS::NONE, nullptr);
    if (clone == nullptr)
      return maxon::OutOfMemoryError(MAXON_SOURCE_LOCATION);
    ApplicationOutput(clone->GetString(100));
    ApplicationOutput(clone->GetString(200));
    DeleteObj(clone);
 
    // Copy Constructor
    BaseContainer copy(original);
    ApplicationOutput(copy.GetString(100));
    ApplicationOutput(copy.GetString(200));
 
    // Assignment
    BaseContainer assignment = original;
    ApplicationOutput(assignment.GetString(100));
    ApplicationOutput(assignment.GetString(200));

Note

To merge containers see BaseContainer::MergeContainer() in chapter Functionality.

Data

ID

A BaseContainer can have an ID. This ID can be used to identify the container.

• BaseContainer::GetId(): Returns the ID of the container.
• BaseContainer::SetId(): Sets the ID of the container.

  // This example shows how GetId() is used to identify the message sent to GeDialog::Message().
 
  Int32 Message(const BaseContainer& msg, BaseContainer& result)
  {
    switch (msg.GetId())
    {
      case BFM_INTERACTSTART:
      {
        // interaction start; if the value is changed create an undo
        _interactStart = true;
        break;
      }
      case BFM_INTERACTEND:
      {
        // interaction end, if an undo was created, end it
        if (_undoStarted)
        {
          BaseDocument* const doc = GetActiveDocument();
          doc->EndUndo();
          _undoStarted = false;
        }
 
        _interactStart = false;
        break;
      }
    }
 
    return SUPER::Message(msg, result);
  }

Access

A BaseContainer stores its data using GeData objects. It is possible to access these GeData objects or the stored values directly using typed access functions. It is recommended to prefer the typed access functions.

A copy of a GeData element can be obtained with:

• BaseContainer::GetParameter(): Gets the GeData for the given DescID.
• BaseContainer::SetParameter(): Sets the GeData for the given DescID.

Note

The DescLevel::id property is used as the actual ID.

    // This example stores some data in
    // the BaseContainer using SetParameter().
 
    BaseContainer bc;
    bc.SetParameter(DescID { 100 }, GeData { "foobar" });
 
    GeData data;
    bc.GetParameter(DescID { 100 }, data);
    ApplicationOutput(data.GetString());

The GeData elements are also accessible via:

• BaseContainer::GetData(): Returns the GeData element for the given ID.
• BaseContainer::SetData(): Sets the GeData element for the given ID.

    // This example stores some data in the
    // BaseContainer using a GeData object.
 
    BaseContainer bc;
    bc.SetData(100, GeData { "foobar" });
 
    GeData data = bc.GetData(100);
    ApplicationOutput(data.GetString());

For fast access read-only pointers to the GeData elements are accessible:

• BaseContainer::GetDataPointer(): Returns a read-only pointer to the GeData element for the given ID.
• BaseContainer::GetDataPointers(): Sets an array of read-only GeData pointers for the given array of IDs.

    // This example accesses the data stored
    // in the BaseContainer using data pointers.
 
    BaseContainer bc;
    bc.SetData(100, GeData { "foo" });
    bc.SetData(200, GeData { "bar" });
 
    const Int     count = 2;
    const GeData* data[count];
    Int32         ids[] = { 100, 200 };
 
    bc.GetDataPointers(ids, count, data);
 
    if (data[0])
      ApplicationOutput(data[0]->GetString());
 
    if (data[1])
      ApplicationOutput(data[1]->GetString());

A GeData element is also accessible via its index in the BaseContainer:

• BaseContainer::GetIndexData(): Returns a pointer to the GeData element for the given index.

    // This example accesses the data stored in the
    // BaseContainer using the element index.
 
    BaseContainer bc;
    bc.SetData(100, GeData { "foo" });
    bc.SetData(200, GeData { "bar" });
 
    GeData* const first = bc.GetIndexData(0);
    if (first != nullptr)
      ApplicationOutput(first->GetString());
 
    GeData* const second = bc.GetIndexData(1);
    if (second != nullptr)
      ApplicationOutput(second->GetString());

New GeData elements can be added to the BaseContainer:

• BaseContainer::InsData(): Inserts a GeData element into the BaseContainer with the given ID.
• BaseContainer::InsDataAfter(): Inserts a GeData element into the BaseContainer with the given ID after another element.

    // This example inserts some data into the
    // BaseContainer after the first element.
 
    BaseContainer bc;
    bc.SetData(100, "foo");
    bc.SetData(200, "foobar");
 
    GeData* const data = bc.GetIndexData(0);
    bc.InsDataAfter(150, String("bar"), data);

To access the values of primitive data types, these access functions are available:

• BaseContainer::GetBool(): Returns the Bool value stored at the given ID.
• BaseContainer::SetBool(): Sets the Bool value stored at the given ID.
• BaseContainer::GetInt32(): Returns the Int32 value stored at the given ID.
• BaseContainer::SetInt32(): Sets the Int32 value stored at the given ID.
• BaseContainer::GetUInt32(): Returns the UInt32 value stored at the given ID.
• BaseContainer::SetUInt32(): Sets the UInt32 value stored at the given ID.
• BaseContainer::GetInt64(): Returns the Int64 value stored at the given ID.
• BaseContainer::SetInt64(): Sets the Int64 value stored at the given ID.
• BaseContainer::GetUInt64(): Returns the UInt64 value stored at the given ID.
• BaseContainer::SetUInt64(): Sets the UInt64 value stored at the given ID.
• BaseContainer::GetFloat(): Returns the Float value stored at the given ID.
• BaseContainer::SetFloat(): Sets the Float value stored at the given ID.

See also Primitive Data Types Manual (Classic).

A BaseContainer can store a void pointer.

• BaseContainer::GetVoid(): Returns the void pointer stored at the given ID.
• BaseContainer::SetVoid(): Sets the void pointer stored at the given ID.

Note

This should not be used to store a reference to a C4DAtom based element; instead a BaseLink should be used.

    // This example stores a void pointer
    // in the BaseContainer object.
 
    BaseContainer bc;
    bc.SetVoid(100, &object);
 
    // ...
 
    SomeObject* const obj = static_cast<SomeObject*>(bc.GetVoid(100));

A BaseContainer can store raw memory:

• BaseContainer::GetMemoryAndRelease(): Returns a pointer to the stored memory at the given ID and hands over the ownership.
• BaseContainer::GetMemory(): Returns a pointer to the stored memory at the given ID.
• BaseContainer::SetMemory(): Stores the raw memory at the given ID.

    // This example stores a BaseArray as raw memory. (in that case an array of Vectors)
 
    // Calculates the size of the memory
    maxon::Int size = myArray.GetCount() * SIZEOF(maxon::Vector);
    if (size == 0)
    {
      bc.SetMemory(uniqueID, nullptr, 0);
    }
    else
    {
      // Retrieves the memory pointer using Disconnect. (so the memory will not be freed twice)
      void* pArray = myArray.Disconnect().Begin().GetPtr();
      if (pArray == nullptr)
        return maxon::UnknownError(MAXON_SOURCE_LOCATION);
 
      // Sets the memory in the BaseContainer
      bc.SetMemory(uniqueID, pArray, size);
    }

    // This Example reads a BaseArray stored as raw memory.
 
    // Creates an array
    maxon::BaseArray<maxon::Vector> myOtherArray;
 
    // Creates a block to retrieves the memory from the block.
    maxon::Block<maxon::Vector> myblock;
 
    // Retrieves the memory, use GetMemoryAndRelease to release the pointer or the memory will be freed twice)
    void* memFromContainer = bc.GetMemoryAndRelease((Int32)uniqueID, size);
    if (memFromContainer != nullptr && size > 0)
    {
      // Calculates the number of elements for vectors
      size = size / SIZEOF(maxon::Vector);
 
      maxon::Vector* myMem = static_cast<maxon::Vector*>(memFromContainer);
      if (myMem == nullptr)
        return maxon::NullptrError(MAXON_SOURCE_LOCATION);
 
      // Fills the block with the memory.
      myblock.Set(myMem, size);
 
      // Connects the array with the block.
      myOtherArray.Connect(myblock, size);
    }
    // Prints the value of the array.
    for (auto& value : myOtherArray)
      ApplicationOutput("Value is @", value);

A BaseContainer offers also access functions for mathematical data types:

• BaseContainer::GetVector(): Returns the Vector stored at the given ID.
• BaseContainer::SetVector(): Sets the Vector stored at the given ID.
• BaseContainer::GetMatrix(): Returns the Matrix stored at the given ID.
• BaseContainer::SetMatrix(): Sets the Matrix stored at the given ID.

See also Vector Manual (Classic) and Matrix Manual (Classic).

A BaseContainer offers further access functions for typical Cinema 4D data types:

• BaseContainer::GetString(): Returns the String stored at the given ID.
• BaseContainer::SetString(): Sets the String stored at the given Id.
• BaseContainer::GetFilename(): Returns the Filename stored at the given ID.
• BaseContainer::SetFilename(): Sets the Filename stored at the given ID.

See also String Manual (Classic) and Filename Manual.

• BaseContainer::GetUuid(): Returns the C4DUuid stored at the given ID.
• BaseContainer::SetUuid(): Sets the C4DUuid stored at the given ID.
• BaseContainer::GetTime(): Returns the BaseTime stored at the given ID.
• BaseContainer::SetTime(): Sets the BaseTime stored at the given ID.

See also BaseTime Manual.

A BaseContainer also offers special functions to store and handle BaseLink objects:

• BaseContainer::GetLink(): Returns the BaseList2D referenced in the BaseLink stored at the given ID.
• BaseContainer::GetObjectLink(): Returns the BaseObject referenced in the BaseLink stored at the given ID.
• BaseContainer::GetMaterialLink(): Returns the BaseMaterial referenced in the BaseLink stored at the given ID.
• BaseContainer::GetBaseLink(): Returns the BaseLink stored at the given ID.
• BaseContainer::SetLink(): Stores a BaseLink object referencing to the given C4DAtomGoal at the given ID.

See also BaseLink Manual.

  // store the current selection in the BaseContainer
  BaseContainer bc;
  bc.SetLink(100, doc->GetActiveMaterial());
  bc.SetLink(200, doc->GetActiveObject());
  bc.SetLink(300, doc->GetActiveTag());
 
  // ...
 
  // get the material
  BaseMaterial* const mat = bc.GetMaterialLink(100, doc);
  if (mat)
    ApplicationOutput(mat->GetName());
 
  // get the object
  BaseObject* const obj = bc.GetObjectLink(200, doc);
  if (obj)
    ApplicationOutput(obj->GetName());
 
  // get tag
  BaseList2D* const link = bc.GetLink(300, doc);
  if (link)
    ApplicationOutput(link->GetName());

A BaseContainer object can also store further sub-containers:

• BaseContainer::GetContainer(): Returns the BaseContainer stored at the given ID.
• BaseContainer::GetContainerInstance(): Returns a pointer to the BaseContainer stored at the given ID.
• BaseContainer::SetContainer(): Sets the BaseContainer stored at the given ID.

    // This example stores a sub-container
    // in the BaseContainer object.
 
    BaseContainer subcontainer;
    subcontainer.SetString(100, "foobar"_s);
 
    BaseContainer bc;
    bc.SetContainer(100, subcontainer);
 
    // ...
 
    BaseContainer sub = bc.GetContainer(100);
    ApplicationOutput(sub.GetString(100));

A BaseContainer can also store custom data types. To set the value of the custom data type a GeData object is needed.

• BaseContainer::GetCustomDataType(): Returns the custom data type stored at the given ID.

    // This example gets the current time and saves is as DateTimeData in the BaseContainer.
    // Then the DateTimeData is received from that BaseContainer.
 
    DateTime time;
    GetDateTimeNow(time);
 
    AutoAlloc<DateTimeData> date;
    if (date == nullptr)
      return maxon::OutOfMemoryError(MAXON_SOURCE_LOCATION);
 
    date->SetDateTime(time);
 
    GeData data;
    data.SetCustomDataType(DATETIME_DATA, *date);
    BaseContainer bc;
    bc.SetData(100, data);
 
    // ...
 
    const CustomDataType* const customData = bc.GetCustomDataType(100, DATETIME_DATA);
    const DateTimeData* const   dateTimeData = static_cast<const DateTimeData*>(customData);
 
    if (dateTimeData)
    {
      const DateTime dt = dateTimeData->GetDateTime();
 
      String result;
      result += String::IntToString(dt.year) + ":";
      result += String::IntToString(dt.month) + ":";
      result += String::IntToString(dt.day) + " - ";
      result += String::IntToString(dt.hour) + ":";
      result += String::IntToString(dt.minute) + ":";
      result += String::IntToString(dt.second);
 
      // print output
      ApplicationOutput(result);
    }

These functions can be used to limit the values of a Vector or Float value inside a BaseContaier:

• CutVector(): Limits the values of the components of the vector with the given ID in the given BaseContainer.
• CutReal(): Limits the float value with the given ID in the given BaseContainer.

Note

These functions simply apply ClampValue(), see also Mathematical Functions Manual (Classic).

Index

The elements stored within a BaseContainer are accessible through their index and their ID:

• BaseContainer::FindIndex(): Returns the index of the given GeData element.
• BaseContainer::GetIndexId(): Returns the ID of the element at the given index.

See also BaseContainer::GetIndexData() above. To loop through values see also BrowseContainer.

    // This example loops through the values of the BaseContainer.
 
    Int32 i = 0;
 
    while (true)
    {
      const Int32 id = bc.GetIndexId(i++);
 
      if (id == NOTOK)
        break;
      else
        ApplicationOutput(bc.GetData(id).GetString());
    }

Remove

Elements can be removed from a BaseContainer:

• BaseContainer::RemoveData(): Removes the element with the given ID.
• BaseContainer::RemoveIndex(): Removes the element with the given index. See also Index.

    // This example removes some element from
    // the BaseContainer object.
 
    BaseContainer bc;
    bc.SetData(100, "foo");
    bc.SetData(200, "bar");
 
    // remove data entry 100
    if (bc.RemoveData(100))
    {
      GeData data = bc.GetData(100);
 
      // check if data has no type (data is not set)
      if (data.GetType() == DA_NIL)
        ApplicationOutput("Data removed"_s);
    }

Functionality

Several operations can be performed on a BaseContainer object.

• BaseContainer::Sort(): Sorts the container entries by their ID.

  Note

  This function sorts the strings and remove any other value. (keeping the ID)

• BaseContainer::MergeContainer(): Merges the BaseContainer with the given BaseContainer.
• BaseContainer::FlushAll(): Clears all values in the BaseContainer.

    // This example merges the content of two
    // BaseContainer objects.
 
    BaseContainer bc;
    bc.SetData(100, "foo");
    bc.SetData(200, "bar");
 
    BaseContainer bc2;
    bc2.SetData(100, "100");
    bc2.SetData(300, "300");
 
    bc.MergeContainer(bc2);
 
    // this will result in the values
    // 100: "100"
    // 200: "bar"
    // 300: "300"

Compare

Two BaseContainer are identical if they have the same ID, the same number of entries and if the entries are also identical and in the same order.

• BaseContainer::operator==: Returns true if the given BaseContainers are identical.
• BaseContainer::operator !=: Returns true if the given BaseContainers are not identical.

Detect Changes

The dirty state of a BaseContainer changes incrementally when a value stored in the BaseContainer is changed.

• BaseContainer::GetDirty(): Returns a number representing the dirty state.

      // This example checks the dirty state after a value was added and changed.
 
      BaseContainer bc;
 
      bc.SetData(100, "foo");
 
      UInt32 dirty = bc.GetDirty();
      ApplicationOutput("Dirty State: " + String::UIntToString(dirty));
 
      bc.SetData(100, "bar");
 
      dirty = bc.GetDirty();
      ApplicationOutput("Dirty State: " + String::UIntToString(dirty));

BrowseContainer

The BrowseContainer class can be used to browse through the values stored in a BaseContainer. See also Index.

• BrowseContainer::BrowseContainer: the constructor defines which BaseContainer should be browsed.
• BrowseContainer::Reset: Resets the browser to the construction state.
• BrowseContainer::GetNext: Retrieves the next item in the container.

    // This example loops through all values of the given BaseContainer.
 
    Int32   id;
    GeData* dat = nullptr;
 
    // init BrowseContainer
    BrowseContainer browse(&bc);
 
    // loop through the values
    while (browse.GetNext(&id, &dat))
    {
      ApplicationOutput("id: " + String::IntToString(id));
 
      // check if the current data stores a String
      if (dat != nullptr)
      {
        if (dat->GetType() == DA_STRING)
          ApplicationOutput("value: " + dat->GetString());
      }
    }

Disc I/O

A BaseContainer can be stored in a HyperFile.

• HyperFile::ReadContainer(): Reads a BaseContainer from the HyperFile.
• HyperFile::WriteContainer(): Writes a BaseContainer into the HyperFile.

    // This example stores a BaseContainer in a HyperFile on disc.
 
    AutoAlloc<HyperFile> hf;
    if (hf == nullptr)
      return maxon::OutOfMemoryError(MAXON_SOURCE_LOCATION);
 
    // open HyperFile to write
    if (hf->Open(123, filename, FILEOPEN::WRITE, FILEDIALOG::ANY))
    {
      hf->WriteContainer(bc);
      hf->Close();
    }
    else
    {
      return maxon::IoError(MAXON_SOURCE_LOCATION, MaxonConvert(filename, MAXONCONVERTMODE::NONE), "Could not open file."_s);
    }

    // This example reads a BaseContainer from a HyperFile on disc.
 
    AutoAlloc<HyperFile> hf;
    if (hf == nullptr)
      return maxon::OutOfMemoryError(MAXON_SOURCE_LOCATION);
 
    // open HyperFile to read
    if (hf->Open(123, filename, FILEOPEN::READ, FILEDIALOG::ANY))
    {
      BaseContainer bc;
      hf->ReadContainer(&bc, true);

See also HyperFile Manual on BaseContainer.

Further Reading

• Data Containers & Collections
• Classic API Containers
• GeData Manual
• Primitive Data Types Manual (Classic)
• Vector Manual (Classic)
• Matrix Manual (Classic)
• String Manual (Classic)
• Filename Manual
• BaseLink Manual
• BaseTime Manual
• DataDictionary Manual