api/rs_vector_math.spec - platform/frameworks/rs - Git at Google

 #
 # Copyright (C) 2015 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #

 header:
 summary: Vector Math Functions
 description:
  These functions interpret the input arguments as representation of vectors in
  n-dimensional space.

  The precision of the mathematical operations on 32 bit floats is affected by the pragmas
 # TODO Create an anchor for the section of http://developer.android.com/guide/topics/renderscript/compute.html that details rs_fp_* and link them here.
  rs_fp_relaxed and rs_fp_full.  See <a href='rs_math.html'>Mathematical Constants and Functions</a> for details.

  Different precision/speed tradeoffs can be achieved by using variants of the common math
  functions.  Functions with a name starting with<ul>
  <li>native_: May have custom hardware implementations with weaker precision.  Additionally,
    subnormal values may be flushed to zero, rounding towards zero may be used, and NaN and
    infinity input may not be handled correctly.</li>
  <li>fast_: May perform internal computations using 16 bit floats.  Additionally, subnormal
    values may be flushed to zero, and rounding towards zero may be used.</li>
  </ul>
 end:

 function: cross
 version: 9
 attrib: const
 w: 3, 4
 t: f32
 ret: #2#1
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 summary: Cross product of two vectors
 description:
  Computes the cross product of two vectors.
 test: vector
 end:

 function: cross
 version: 24
 attrib: const
 w: 3, 4
 t: f16
 ret: #2#1
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 test: none
 end:

 function: distance
 version: 9
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 summary: Distance between two points
 description:
  Compute the distance between two points.

  See also @fast_distance(), @native_distance().
 test: vector
 end:

 function: distance
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 test: none
 end:

 function: dot
 version: 9
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 summary: Dot product of two vectors
 description:
  Computes the dot product of two vectors.
 test: vector
 end:

 function: dot
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 test: none
 end:

 function: fast_distance
 version: 17
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 summary: Approximate distance between two points
 description:
  Computes the approximate distance between two points.

  The precision is what would be expected from doing the computation using 16 bit floating
  point values.

  See also @distance(), @native_distance().
 test: vector
 end:

 function: fast_length
 version: 17
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 v
 summary: Approximate length of a vector
 description:
  Computes the approximate length of a vector.

  The precision is what would be expected from doing the computation using 16 bit floating
  point values.

  See also @length(), @native_length().
 test: vector
 end:

 function: fast_normalize
 version: 17
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2#1
 arg: #2#1 v
 summary: Approximate normalized vector
 description:
  Approximately normalizes a vector.

  For vectors of size 1, returns -1.f for negative values, 0.f for null values, and 1.f for
  positive values.

  The precision is what would be expected from doing the computation using 16 bit floating
  point values.

  See also @normalize(), @native_normalize().
 test: vector
 end:

 function: length
 version: 9
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 v
 summary: Length of a vector
 description:
  Computes the length of a vector.

  See also @fast_length(), @native_length().
 test: vector
 end:

 function: length
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2
 arg: #2#1 v
 test: none
 end:

 function: native_distance
 version: 21
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 left_vector
 arg: #2#1 right_vector
 summary: Approximate distance between two points
 description:
  Computes the approximate distance between two points.

  See also @distance(), @fast_distance().
 test: vector
 end:

 function: native_length
 version: 21
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2
 arg: #2#1 v
 summary: Approximate length of a vector
 description:
  Compute the approximate length of a vector.

  See also @length(), @fast_length().
 test: vector
 end:

 function: native_length
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2
 arg: #2#1 v
 test: none
 end:

 function: native_normalize
 version: 21
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2#1
 arg: #2#1 v
 summary:  Approximately normalize a vector
 description:
  Approximately normalizes a vector.

  See also @normalize(), @fast_normalize().
 test: vector
 end:

 function: native_normalize
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2#1
 arg: #2#1 v
 test: none
 end:

 function: normalize
 version: 9
 attrib: const
 w: 1, 2, 3, 4
 t: f32
 ret: #2#1
 arg: #2#1 v
 summary: Normalize a vector
 description:
  Normalize a vector.

  For vectors of size 1, returns -1.f for negative values, 0.f for null values, and 1.f for
  positive values.

  See also @fast_normalize(), @native_normalize().
 test: vector
 end:

 function: normalize
 version: 24
 attrib: const
 w: 1, 2, 3, 4
 t: f16
 ret: #2#1
 arg: #2#1 v
 test: none
 end:
	#
	# Copyright (C) 2015 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	header:
	summary: Vector Math Functions
	description:
	These functions interpret the input arguments as representation of vectors in
	n-dimensional space.

	The precision of the mathematical operations on 32 bit floats is affected by the pragmas
	# TODO Create an anchor for the section of http://developer.android.com/guide/topics/renderscript/compute.html that details rs_fp_* and link them here.
	rs_fp_relaxed and rs_fp_full. See <a href='rs_math.html'>Mathematical Constants and Functions</a> for details.

	Different precision/speed tradeoffs can be achieved by using variants of the common math
	functions. Functions with a name starting with<ul>
	<li>native_: May have custom hardware implementations with weaker precision. Additionally,
	subnormal values may be flushed to zero, rounding towards zero may be used, and NaN and
	infinity input may not be handled correctly.</li>
	<li>fast_: May perform internal computations using 16 bit floats. Additionally, subnormal
	values may be flushed to zero, and rounding towards zero may be used.</li>
	</ul>
	end:

	function: cross
	version: 9
	attrib: const
	w: 3, 4
	t: f32
	ret: #2#1
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	summary: Cross product of two vectors
	description:
	Computes the cross product of two vectors.
	test: vector
	end:

	function: cross
	version: 24
	attrib: const
	w: 3, 4
	t: f16
	ret: #2#1
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	test: none
	end:

	function: distance
	version: 9
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	summary: Distance between two points
	description:
	Compute the distance between two points.

	See also @fast_distance(), @native_distance().
	test: vector
	end:

	function: distance
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	test: none
	end:

	function: dot
	version: 9
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	summary: Dot product of two vectors
	description:
	Computes the dot product of two vectors.
	test: vector
	end:

	function: dot
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	test: none
	end:

	function: fast_distance
	version: 17
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	summary: Approximate distance between two points
	description:
	Computes the approximate distance between two points.

	The precision is what would be expected from doing the computation using 16 bit floating
	point values.

	See also @distance(), @native_distance().
	test: vector
	end:

	function: fast_length
	version: 17
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 v
	summary: Approximate length of a vector
	description:
	Computes the approximate length of a vector.

	The precision is what would be expected from doing the computation using 16 bit floating
	point values.

	See also @length(), @native_length().
	test: vector
	end:

	function: fast_normalize
	version: 17
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2#1
	arg: #2#1 v
	summary: Approximate normalized vector
	description:
	Approximately normalizes a vector.

	For vectors of size 1, returns -1.f for negative values, 0.f for null values, and 1.f for
	positive values.

	The precision is what would be expected from doing the computation using 16 bit floating
	point values.

	See also @normalize(), @native_normalize().
	test: vector
	end:

	function: length
	version: 9
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 v
	summary: Length of a vector
	description:
	Computes the length of a vector.

	See also @fast_length(), @native_length().
	test: vector
	end:

	function: length
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2
	arg: #2#1 v
	test: none
	end:

	function: native_distance
	version: 21
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 left_vector
	arg: #2#1 right_vector
	summary: Approximate distance between two points
	description:
	Computes the approximate distance between two points.

	See also @distance(), @fast_distance().
	test: vector
	end:

	function: native_length
	version: 21
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2
	arg: #2#1 v
	summary: Approximate length of a vector
	description:
	Compute the approximate length of a vector.

	See also @length(), @fast_length().
	test: vector
	end:

	function: native_length
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2
	arg: #2#1 v
	test: none
	end:

	function: native_normalize
	version: 21
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2#1
	arg: #2#1 v
	summary: Approximately normalize a vector
	description:
	Approximately normalizes a vector.

	See also @normalize(), @fast_normalize().
	test: vector
	end:

	function: native_normalize
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2#1
	arg: #2#1 v
	test: none
	end:

	function: normalize
	version: 9
	attrib: const
	w: 1, 2, 3, 4
	t: f32
	ret: #2#1
	arg: #2#1 v
	summary: Normalize a vector
	description:
	Normalize a vector.

	For vectors of size 1, returns -1.f for negative values, 0.f for null values, and 1.f for
	positive values.

	See also @fast_normalize(), @native_normalize().
	test: vector
	end:

	function: normalize
	version: 24
	attrib: const
	w: 1, 2, 3, 4
	t: f16
	ret: #2#1
	arg: #2#1 v
	test: none
	end: