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d4b90f4837
These are testing for bitwise identical results, but don't guarantee that the buffers being used always have identical alignment. This will result in small rounding differences when vector codepaths are used for different elements of some results. This is partially an underlying bug in Accelerate (which is outside the scope of this project to fix), and partly a test bug (which we can address by adopting approximate comparisons here). In the short term, though, I'm going to disable these.
353 lines
12 KiB
Swift
353 lines
12 KiB
Swift
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// RUN: %target-run-simple-swift
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// REQUIRES: executable_test
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// REQUIRES: rdar50301438
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// REQUIRES: objc_interop
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// UNSUPPORTED: OS=watchos
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import StdlibUnittest
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import Accelerate
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var Accelerate_vDSPConvolutionTests = TestSuite("Accelerate_vDSPConvolution")
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//===----------------------------------------------------------------------===//
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//
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// vDSP Single-precision 1D convolution and correlation
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//
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//===----------------------------------------------------------------------===//
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if #available(iOS 9999, macOS 9999, tvOS 9999, watchOS 9999, *) {
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let count = 256
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let n = vDSP_Length(256)
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let kernel: [Float] = ( 0 ..< 10 ).map {
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return Float($0) / 45
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}
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let signal: [Float] = (0 ..< 256 + 10).map {
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return sin(Float($0) * 0.05).sign == .minus ? -1 : 1
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/SinglePrecisionConvolve") {
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var result = [Float](repeating: 0,
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count: count)
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vDSP.convolve(signal,
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withKernel: kernel,
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result: &result)
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var legacyResult = [Float](repeating: -1,
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count: count)
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vDSP_conv(signal, 1,
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UnsafePointer(kernel).advanced(by: kernel.count - 1), -1,
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&legacyResult, 1,
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n,
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vDSP_Length(kernel.count))
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let returnedResult = vDSP.convolve(signal,
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withKernel: kernel)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/SinglePrecisionCorrelate") {
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var result = [Float](repeating: 0,
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count: count)
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vDSP.correlate(signal,
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withKernel: kernel,
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result: &result)
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var legacyResult = [Float](repeating: -1,
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count: count)
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vDSP_conv(signal, 1,
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kernel, 1,
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&legacyResult, 1,
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n,
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vDSP_Length(kernel.count))
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let returnedResult = vDSP.correlate(signal,
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withKernel: kernel)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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}
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//===----------------------------------------------------------------------===//
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//
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// vDSP Double-precision 1D convolution and correlation
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//
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//===----------------------------------------------------------------------===//
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if #available(iOS 9999, macOS 9999, tvOS 9999, watchOS 9999, *) {
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let count = 256
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let n = vDSP_Length(256)
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let kernel: [Double] = ( 0 ..< 10 ).map {
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return Double($0) / 45
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}
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let signal: [Double] = (0 ..< 256 + 10).map {
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return sin(Double($0) * 0.05).sign == .minus ? -1 : 1
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/DoublePrecisionConvolve") {
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var result = [Double](repeating: 0,
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count: count)
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vDSP.convolve(signal,
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withKernel: kernel,
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result: &result)
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var legacyResult = [Double](repeating: -1,
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count: count)
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vDSP_convD(signal, 1,
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UnsafePointer(kernel).advanced(by: kernel.count - 1), -1,
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&legacyResult, 1,
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n,
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vDSP_Length(kernel.count))
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let returnedResult = vDSP.convolve(signal,
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withKernel: kernel)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/DoublePrecisionCorrelate") {
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var result = [Double](repeating: 0,
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count: count)
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vDSP.correlate(signal,
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withKernel: kernel,
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result: &result)
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var legacyResult = [Double](repeating: -1,
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count: count)
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vDSP_convD(signal, 1,
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kernel, 1,
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&legacyResult, 1,
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n,
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vDSP_Length(kernel.count))
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let returnedResult = vDSP.correlate(signal,
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withKernel: kernel)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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}
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//===----------------------------------------------------------------------===//
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//
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// vDSP Single-precision 2D convolution
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//
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//===----------------------------------------------------------------------===//
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if #available(iOS 9999, macOS 9999, tvOS 9999, watchOS 9999, *) {
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let width = 512
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let height = 128
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let pixelCount = 512 * 128
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let pixels: [Float] = (0 ..< pixelCount).map { i in
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let x = floor(Float(i) / 1024) * 25
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let y = remainder(Float(i), 1024) * 25
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return (sin(y).sign == .minus && sin(x).sign == .minus) ? 0 : 1
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/SinglePrecision3x3") {
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let kernel3x3 = [Float](repeating: 1.0 / 9, count: 9)
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var result = [Float](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with3x3Kernel: kernel3x3,
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result: &result)
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var legacyResult = [Float](repeating: -1,
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count: result.count)
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vDSP_f3x3(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel3x3,
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&legacyResult)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with3x3Kernel: kernel3x3)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/SinglePrecision5x5") {
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let kernel5x5 = [Float](repeating: 1.0 / 25, count: 25)
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var result = [Float](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with5x5Kernel: kernel5x5,
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result: &result)
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var legacyResult = [Float](repeating: -1,
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count: result.count)
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vDSP_f5x5(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel5x5,
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&legacyResult)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with5x5Kernel: kernel5x5)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/SinglePrecision7x3") {
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let kernel7x3 = [Float](repeating: 1.0 / (7 * 3), count: 7 * 3)
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var result = [Float](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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withKernel: kernel7x3,
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kernelRowCount: 7, kernelColumnCount: 3,
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result: &result)
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var legacyResult = [Float](repeating: -1,
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count: result.count)
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vDSP_imgfir(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel7x3,
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&legacyResult,
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7, 3)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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withKernel: kernel7x3,
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kernelRowCount: 7, kernelColumnCount: 3)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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}
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//===----------------------------------------------------------------------===//
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//
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// vDSP Double-precision 2D convolution
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//
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//===----------------------------------------------------------------------===//
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if #available(iOS 9999, macOS 9999, tvOS 9999, watchOS 9999, *) {
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let width = 512
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let height = 128
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let pixelCount = 512 * 128
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let pixels: [Double] = (0 ..< pixelCount).map { i in
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let x = floor(Double(i) / 1024) * 25
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let y = remainder(Double(i), 1024) * 25
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return (sin(y).sign == .minus && sin(x).sign == .minus) ? 0 : 1
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/DoublePrecision3x3") {
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let kernel3x3 = [Double](repeating: 1.0 / 9, count: 9)
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var result = [Double](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with3x3Kernel: kernel3x3,
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result: &result)
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var legacyResult = [Double](repeating: -1,
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count: result.count)
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vDSP_f3x3D(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel3x3,
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&legacyResult)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with3x3Kernel: kernel3x3)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/DoublePrecision5x5") {
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let kernel5x5 = [Double](repeating: 1.0 / 25, count: 25)
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var result = [Double](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with5x5Kernel: kernel5x5,
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result: &result)
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var legacyResult = [Double](repeating: -1,
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count: result.count)
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vDSP_f5x5D(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel5x5,
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&legacyResult)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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with5x5Kernel: kernel5x5)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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Accelerate_vDSPConvolutionTests.test("vDSP/DoublePrecision7x3") {
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let kernel7x3 = [Double](repeating: 1.0 / (7 * 3), count: 7 * 3)
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var result = [Double](repeating: .nan,
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count: pixelCount)
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vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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withKernel: kernel7x3,
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kernelRowCount: 7, kernelColumnCount: 3,
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result: &result)
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var legacyResult = [Double](repeating: -1,
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count: result.count)
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vDSP_imgfirD(pixels,
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vDSP_Length(height), vDSP_Length(width),
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kernel7x3,
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&legacyResult,
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7, 3)
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let returnedResult = vDSP.convolve(pixels,
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rowCount: height, columnCount: width,
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withKernel: kernel7x3,
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kernelRowCount: 7, kernelColumnCount: 3)
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expectTrue(result.elementsEqual(legacyResult))
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expectTrue(result.elementsEqual(returnedResult))
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}
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}
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runAllTests()
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