Processing audio objects in principal and supplementary encoded audio signals

The invention claimed is: 1. A method for generating an encoded audio output signal, wherein the method comprises: receiving a principal encoded signal encoded in the Dolby TrueHD format, the principal encoded signal including encoded data representing discrete audio content and spatial location for each of one or more principal audio objects; receiving a supplementary encoded signal that includes encoded data representing discrete audio content and spatial location for each of one or more supplementary audio objects; and assembling the encoded data from the principal encoded signal with the encoded data from the supplementary encoded signal to generate the encoded audio output signal, wherein said assembling comprises either: adding the encoded data from the supplementary encoded signal to the encoded data from the principal encoded signal, including by identifying an access unit of the principal encoded signal, expanding the access unit to include space for a new substream in the principal encoded signal and placing the encoded data from the supplementary encoded signal into the new substream; or modifying the principal encoded signal to include the encoded data from the supplementary encoded signal, including by using control data of the principal encoded signal to locate an existing section of the principal encoded signal, the existing section being of a size large enough to accommodate the encoded data from the supplementary encoded signal, and by placing the encoded data from the supplementary encoded signal into the existing section; or modifying the principal encoded signal to include the encoded data from the supplementary encoded signal, including by using control data of the principal encoded signal to locate and determine the size of an existing section of the principal encoded signal, by determining whether the size of the existing section is large enough to accommodate the encoded data from the supplementary encoded signal, by expanding the existing section if it is not large enough to accommodate the encoded data from the supplementary encoded signal, and by placing the encoded data from the supplementary encoded signal into the existing section. 2. The method of claim 1 , further comprising: receiving an input audio signal representing the audio content of the one or more supplementary audio objects; and applying an object-based spatial encoder to the input signal to generate the supplementary encoded signal. 3. The method of claim 1 , wherein the method adapts which principal audio objects or which supplementary audio objects are represented by encoded data in the encoded output signal, and wherein the method further comprises: receiving a control signal; and adapting in response to the control signal which encoded data from the principal encoded signal is combined into the encoded output signal or which encoded data from the supplementary encoded signal is combined into the encoded output signal. 4. The method of claim 1 , wherein either the principal encoded signal or the supplementary encoded signal includes encoded data representing composite audio content for a group of audio objects and metadata with mixing gain coefficients for use in rendering the composite audio content at playback, and wherein the method further comprises: receiving a control signal; and adapting in response to the control signal the mixing gain coefficients that are assembled into the encoded output signal. 5. The method of claim 1 , further comprising: receiving a control signal; and modifying in response to the control signal the discrete audio content or the spatial location of a principal audio object or a supplementary audio object that is assembled into the encoded output signal. 6. The method of claim 1 , further comprising determining that said existing section already contains other data, wherein said expanding the existing section comprises increasing the size of the existing section so as to preserve said other data already contained in said existing section after said encoded data from the supplementary encoded signal is placed in the existing section, and wherein said placing the encoded data from the supplementary encoded signal into the existing section comprises adjusting a placement location of said encoded data so as to preserve said other data already contained in said existing section after said encoded data is placed in the existing section. 7. An apparatus for generating an encoded output signal, wherein the apparatus comprises one or more processors configured to: receive a principal encoded signal encoded in the Dolby TrueHD format, the principal encoded signal including encoded data representing discrete audio content and spatial location for each of one or more principal audio objects; receive a supplementary encoded signal that includes encoded data representing discrete audio content and spatial location for each of one or more supplementary audio objects; and assemble the encoded data from the principal encoded signal with the encoded data from the supplementary encoded signal to generate the encoded audio output signal, wherein assembling the encoded data comprises either: adding the encoded data from the supplementary encoded signal to the encoded data from the principal encoded signal, including by identifying an access unit of the principal encoded signal, expanding the access unit to include space for a new substream in the principal encoded signal and placing the encoded data from the supplementary encoded signal into the new substream; or modifying the principal encoded signal to include the encoded data from the supplementary encoded signal, including by using control data of the principal encoded signal to locate an existing section of the principal encoded signal, the existing section being of a size large enough to accommodate the encoded data from the supplementary encoded signal, and by placing the encoded data from the supplementary encoded signal into the existing section; or modifying the principal encoded signal to include the encoded data from the supplementary encoded signal, including by using control data of the principal encoded signal to locate and determine the size of an existing section of the principal encoded signal, by determining whether the size of the existing section is large enough to accommodate the encoded data from the supplementary encoded signal, by expanding the existing section if it is not large enough to accommodate the encoded data from the supplementary encoded signal, and by placing the encoded data from the supplementary encoded signal into the existing section. 8. The apparatus of claim 7 , wherein the one or more processors are further configured to: receive an input audio signal representing the audio content of the one or more supplementary audio objects; and apply an object-based spatial encoder to the input signal to generate the supplementary encoded signal. 9. The apparatus of claim 7 , wherein the apparatus adapts which principal audio objects or which supplementary audio objects are represented by encoded data in the encoded output signal, and wherein the one or more processors are further configured to: receive a control signal; and adapt in response to the control signal which encoded data from the principal encoded signal is combined into the encoded output signal or which encoded data from the supplementary encoded signal is combined into the encoded output signal. 10. The apparatus of claim 7 , wherein either the principal encoded signal or the supplementary encoded signal includes encoded data representing composite audio content for a group of audio objects and metadata with mixing gain coefficients f