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| tensorA-package | The tensorA package for tensor arithmetic |
| $.tensor | Working with index sequences |
| %e% | Tensor multiplication with Einstein's convention, by summing over all equally named indices. |
| %e%.tensor | Tensor multiplication with Einstein's convention, by summing over all equally named indices. |
| %r% | Tensor multiplication with Riemann's convention |
| %r%.tensor | Tensor multiplication with Riemann's convention |
| *.tensor | Element-wise arithmetic operations +,-,*,/ with tensors |
| +.tensor | Element-wise arithmetic operations +,-,*,/ with tensors |
| -.tensor | Element-wise arithmetic operations +,-,*,/ with tensors |
| /.tensor | Element-wise arithmetic operations +,-,*,/ with tensors |
| add.tensor | Element-wise arithmetic operations +,-,*,/ with tensors |
| as.contravariate | Managing covariate and contravariate indices |
| as.contravariate.character | Managing covariate and contravariate indices |
| as.covariate | Managing covariate and contravariate indices |
| as.covariate.character | Managing covariate and contravariate indices |
| as.tensor | Coercion to a tensor |
| as.tensor.default | Coercion to a tensor |
| as.tensor.tensor | Coercion to a tensor |
| bind.tensor | A cbind/rbind for tensors |
| chol.tensor | Cholesky decomposition of a tensor |
| contraname | Managing covariate and contravariate indices |
| delta.tensor | Creates a Kronecker delta tensor |
| diag.tensor | Creates a "diagonal" tensor |
| diagmul.tensor | Multiplication of a tensor with a tensor given by its diagonal |
| dim<-.tensor | Getting and setting index and dimensionnames of a tensor |
| dimnames.tensor | Getting and setting index and dimensionnames of a tensor |
| dimnames<-.tensor | Getting and setting index and dimensionnames of a tensor |
| drag.tensor | Managing covariate and contravariate indices |
| einstein.tensor | Tensor multiplication with Einstein's convention, by summing over all equally named indices. |
| ftable.tensor | Pretty printing of tensors |
| inv.tensor | Inversion of a tensor as linear mapping from tensors to tensors |
| is.contravariate | Managing covariate and contravariate indices |
| is.contravariate.character | Managing covariate and contravariate indices |
| is.contravariate.numeric | Managing covariate and contravariate indices |
| is.contravariate.tensor | Managing covariate and contravariate indices |
| is.covariate | Managing covariate and contravariate indices |
| is.covariate.character | Managing covariate and contravariate indices |
| is.covariate.numeric | Managing covariate and contravariate indices |
| is.covariate.tensor | Managing covariate and contravariate indices |
| is.tensor | Checking for being a tensor |
| level.tensor | The level (number of indices) of a tensor |
| margin.tensor | Marginalization of tensors |
| mark | Marks the names of a tensor with a mark |
| mark.character | Marks the names of a tensor with a mark |
| mark.numeric | Marks the names of a tensor with a mark |
| mark.tensor | Marks the names of a tensor with a mark |
| mean.tensor | Mean and variance of tensors |
| mul.tensor | Tensor multiplication for the tensor class |
| names.tensor | Getting and setting index and dimensionnames of a tensor |
| names<-.tensor | Getting and setting index and dimensionnames of a tensor |
| norm | Calculate the Euclidean norm or Euclidean operator norm of a tensor or its subtensors |
| norm.tensor | Calculate the Euclidean norm or Euclidean operator norm of a tensor or its subtensors |
| one.tensor | Creates a tensor with all entries 1 |
| opnorm | Calculate the Euclidean norm or Euclidean operator norm of a tensor or its subtensors |
| opnorm.tensor | Calculate the Euclidean norm or Euclidean operator norm of a tensor or its subtensors |
| pos.tensor | enumeration of index combinations |
| power.tensor | Compute the power of a symmetric tensor |
| renamefirst.tensor | Working with index sequences |
| reorder.tensor | Permutation of indices and storage sequence of a tensor |
| rep.tensor | Repeats a tensor |
| riemann.tensor | Tensor multiplication with Riemann's convention |
| slice.tensor | Working with the indices of a tensor (accessing, slicing, renaming, ...) |
| solve.tensor | Solving linear equations with tensors |
| svd.tensor | Singular value decomposition of tensors |
| Tensor | The tensorA package for tensor arithmetic |
| tensor | The tensorA package for tensor arithmetic |
| tensorA | The tensorA package for tensor arithmetic |
| to.matrix.tensor | The matrix corresponding to a tensor seen as a linear mapping of tensors. |
| to.tensor | Creates a tensor object |
| to.tensor.default | Creates a tensor object |
| toPos.tensor | get the position of an index of tensor |
| trace.tensor | Collapse a tensor |
| tripledelta.tensor | A tensor with entry 1 if and only if three indices are equal |
| undrop.tensor | Adds a spurious dimension to a tensor |
| untensor | Removes indices/dimensions from a tensor |
| var.tensor | Mean and variance of tensors |
| [.tensor | Working with the indices of a tensor (accessing, slicing, renaming, ...) |
| [<-.tensor | Working with the indices of a tensor (accessing, slicing, renaming, ...) |
| [[.tensor | Working with the indices of a tensor (accessing, slicing, renaming, ...) |
| [[<-.tensor | Working with the indices of a tensor (accessing, slicing, renaming, ...) |
| ^.tensor | Working with index sequences |
| |.tensor | Working with index sequences |