tf.raw_ops.MatrixDiagPartV2
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Returns the batched diagonal part of a batched tensor.
View aliases
Compat aliases for migration
See
Migration guide for
more details.
tf.compat.v1.raw_ops.MatrixDiagPartV2
tf.raw_ops.MatrixDiagPartV2(
input, k, padding_value, name=None
)
Returns a tensor with the k[0]-th to k[1]-th diagonals of the batched
input.
Assume input has r dimensions [I, J, ..., L, M, N].
Let max_diag_len be the maximum length among all diagonals to be extracted,
max_diag_len = min(M + min(k[1], 0), N + min(-k[0], 0))
Let num_diags be the number of diagonals to extract,
num_diags = k[1] - k[0] + 1.
If num_diags == 1, the output tensor is of rank r - 1 with shape
[I, J, ..., L, max_diag_len] and values:
diagonal[i, j, ..., l, n]
= input[i, j, ..., l, n+y, n+x] ; if 0 <= n+y < M and 0 <= n+x < N,
padding_value ; otherwise.
where y = max(-k[1], 0), x = max(k[1], 0).
Otherwise, the output tensor has rank r with dimensions
[I, J, ..., L, num_diags, max_diag_len] with values:
diagonal[i, j, ..., l, m, n]
= input[i, j, ..., l, n+y, n+x] ; if 0 <= n+y < M and 0 <= n+x < N,
padding_value ; otherwise.
where d = k[1] - m, y = max(-d, 0), and x = max(d, 0).
The input must be at least a matrix.
For example:
input = np.array([[[1, 2, 3, 4], # Input shape: (2, 3, 4)
[5, 6, 7, 8],
[9, 8, 7, 6]],
[[5, 4, 3, 2],
[1, 2, 3, 4],
[5, 6, 7, 8]]])
# A main diagonal from each batch.
tf.matrix_diag_part(input) ==> [[1, 6, 7], # Output shape: (2, 3)
[5, 2, 7]]
# A superdiagonal from each batch.
tf.matrix_diag_part(input, k = 1)
==> [[2, 7, 6], # Output shape: (2, 3)
[4, 3, 8]]
# A tridiagonal band from each batch.
tf.matrix_diag_part(input, k = (-1, 1))
==> [[[2, 7, 6], # Output shape: (2, 3, 3)
[1, 6, 7],
[5, 8, 0]],
[[4, 3, 8],
[5, 2, 7],
[1, 6, 0]]]
# Padding value = 9
tf.matrix_diag_part(input, k = (1, 3), padding_value = 9)
==> [[[4, 9, 9], # Output shape: (2, 3, 3)
[3, 8, 9],
[2, 7, 6]],
[[2, 9, 9],
[3, 4, 9],
[4, 3, 8]]]
Args |
|---|
input
|
A Tensor. Rank r tensor where r >= 2.
|
k
|
A Tensor of type int32.
Diagonal offset(s). Positive value means superdiagonal, 0 refers to the main
diagonal, and negative value means subdiagonals. k can be a single integer
(for a single diagonal) or a pair of integers specifying the low and high ends
of a matrix band. k[0] must not be larger than k[1].
|
padding_value
|
A Tensor. Must have the same type as input.
The value to fill the area outside the specified diagonal band with.
Default is 0.
|
name
|
A name for the operation (optional).
|
Returns |
|---|
A Tensor. Has the same type as input.
|
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Last updated 2024-04-26 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2024-04-26 UTC."],[],[],null,["# tf.raw_ops.MatrixDiagPartV2\n\n\u003cbr /\u003e\n\nReturns the batched diagonal part of a batched tensor.\n\n#### View aliases\n\n\n**Compat aliases for migration**\n\nSee\n[Migration guide](https://www.tensorflow.org/guide/migrate) for\nmore details.\n\n[`tf.compat.v1.raw_ops.MatrixDiagPartV2`](https://www.tensorflow.org/api_docs/python/tf/raw_ops/MatrixDiagPartV2)\n\n\u003cbr /\u003e\n\n tf.raw_ops.MatrixDiagPartV2(\n input, k, padding_value, name=None\n )\n\nReturns a tensor with the `k[0]`-th to `k[1]`-th diagonals of the batched\n`input`.\n\nAssume `input` has `r` dimensions `[I, J, ..., L, M, N]`.\nLet `max_diag_len` be the maximum length among all diagonals to be extracted,\n`max_diag_len = min(M + min(k[1], 0), N + min(-k[0], 0))`\nLet `num_diags` be the number of diagonals to extract,\n`num_diags = k[1] - k[0] + 1`.\n\nIf `num_diags == 1`, the output tensor is of rank `r - 1` with shape\n`[I, J, ..., L, max_diag_len]` and values: \n\n diagonal[i, j, ..., l, n]\n = input[i, j, ..., l, n+y, n+x] ; if 0 \u003c= n+y \u003c M and 0 \u003c= n+x \u003c N,\n padding_value ; otherwise.\n\nwhere `y = max(-k[1], 0)`, `x = max(k[1], 0)`.\n\nOtherwise, the output tensor has rank `r` with dimensions\n`[I, J, ..., L, num_diags, max_diag_len]` with values: \n\n diagonal[i, j, ..., l, m, n]\n = input[i, j, ..., l, n+y, n+x] ; if 0 \u003c= n+y \u003c M and 0 \u003c= n+x \u003c N,\n padding_value ; otherwise.\n\nwhere `d = k[1] - m`, `y = max(-d, 0)`, and `x = max(d, 0)`.\n\nThe input must be at least a matrix.\n\n#### For example:\n\n input = np.array([[[1, 2, 3, 4], # Input shape: (2, 3, 4)\n [5, 6, 7, 8],\n [9, 8, 7, 6]],\n [[5, 4, 3, 2],\n [1, 2, 3, 4],\n [5, 6, 7, 8]]])\n\n # A main diagonal from each batch.\n tf.matrix_diag_part(input) ==\u003e [[1, 6, 7], # Output shape: (2, 3)\n [5, 2, 7]]\n\n # A superdiagonal from each batch.\n tf.matrix_diag_part(input, k = 1)\n ==\u003e [[2, 7, 6], # Output shape: (2, 3)\n [4, 3, 8]]\n\n # A tridiagonal band from each batch.\n tf.matrix_diag_part(input, k = (-1, 1))\n ==\u003e [[[2, 7, 6], # Output shape: (2, 3, 3)\n [1, 6, 7],\n [5, 8, 0]],\n [[4, 3, 8],\n [5, 2, 7],\n [1, 6, 0]]]\n\n # Padding value = 9\n tf.matrix_diag_part(input, k = (1, 3), padding_value = 9)\n ==\u003e [[[4, 9, 9], # Output shape: (2, 3, 3)\n [3, 8, 9],\n [2, 7, 6]],\n [[2, 9, 9],\n [3, 4, 9],\n [4, 3, 8]]]\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Args ---- ||\n|-----------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `input` | A `Tensor`. Rank `r` tensor where `r \u003e= 2`. |\n| `k` | A `Tensor` of type `int32`. Diagonal offset(s). Positive value means superdiagonal, 0 refers to the main diagonal, and negative value means subdiagonals. `k` can be a single integer (for a single diagonal) or a pair of integers specifying the low and high ends of a matrix band. `k[0]` must not be larger than `k[1]`. |\n| `padding_value` | A `Tensor`. Must have the same type as `input`. The value to fill the area outside the specified diagonal band with. Default is 0. |\n| `name` | A name for the operation (optional). |\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Returns ------- ||\n|---|---|\n| A `Tensor`. Has the same type as `input`. ||\n\n\u003cbr /\u003e"]]
