github.com/gopherd/gonum@v0.0.4/internal/asm/c64/dot_test.go (about)

     1  // Copyright ©2017 The Gonum Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  package c64
     6  
     7  import (
     8  	"fmt"
     9  	"math"
    10  	"testing"
    11  )
    12  
    13  const (
    14  	msgVal   = "%v: unexpected value at %v Got: %v Expected: %v"
    15  	msgGuard = "%v: Guard violated in %s vector %v %v"
    16  )
    17  
    18  var (
    19  	inf = float32(math.Inf(1))
    20  )
    21  
    22  var dotTests = []struct {
    23  	x, y               []complex64
    24  	wantu, wantc       complex64
    25  	wantuRev, wantcRev complex64
    26  	n                  int
    27  }{
    28  	{
    29  		x:     []complex64{},
    30  		y:     []complex64{},
    31  		n:     0,
    32  		wantu: 0, wantc: 0,
    33  		wantuRev: 0, wantcRev: 0,
    34  	},
    35  	{
    36  		x:     []complex64{1 + 1i},
    37  		y:     []complex64{1 + 1i},
    38  		n:     1,
    39  		wantu: 0 + 2i, wantc: 2,
    40  		wantuRev: 0 + 2i, wantcRev: 2,
    41  	},
    42  	{
    43  		x:     []complex64{1 + 2i},
    44  		y:     []complex64{1 + 1i},
    45  		n:     1,
    46  		wantu: -1 + 3i, wantc: 3 - 1i,
    47  		wantuRev: -1 + 3i, wantcRev: 3 - 1i,
    48  	},
    49  	{
    50  		x:     []complex64{1 + 2i, 3 + 4i, 5 + 6i, 7 + 8i, 9 + 10i, 11 + 12i, 13 + 14i, 15 + 16i, 17 + 18i, 19 + 20i},
    51  		y:     []complex64{1 + 2i, 3 + 4i, 5 + 6i, 7 + 8i, 9 + 10i, 11 + 12i, 13 + 14i, 15 + 16i, 17 + 18i, 19 + 20i},
    52  		n:     10,
    53  		wantu: -210 + 2860i, wantc: 2870 + 0i,
    54  		wantuRev: -210 + 1540i, wantcRev: 1550 + 0i,
    55  	},
    56  	{
    57  		x:     []complex64{1 + 1i, 1 + 1i, 1 + 2i, 1 + 1i, 1 + 1i, 1 + 1i, 1 + 3i, 1 + 1i, 1 + 1i, 1 + 4i},
    58  		y:     []complex64{1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i},
    59  		n:     10,
    60  		wantu: -22 + 36i, wantc: 42 + 4i,
    61  		wantuRev: -22 + 36i, wantcRev: 42 + 4i,
    62  	},
    63  	{
    64  		x:     []complex64{1 + 1i, 1 + 1i, 2 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, 2 + 1i},
    65  		y:     []complex64{1 + 2i, 1 + 2i, 1 + 3i, 1 + 2i, 1 + 3i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i},
    66  		n:     10,
    67  		wantu: -10 + 37i, wantc: 34 + 17i,
    68  		wantuRev: -10 + 36i, wantcRev: 34 + 16i,
    69  	},
    70  	{
    71  		x:     []complex64{1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, complex(inf, 1), 1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i, 1 + 1i},
    72  		y:     []complex64{1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i, 1 + 2i},
    73  		n:     10,
    74  		wantu: complex(inf, inf), wantc: complex(inf, inf),
    75  		wantuRev: complex(inf, inf), wantcRev: complex(inf, inf),
    76  	},
    77  }
    78  
    79  func TestDotcUnitary(t *testing.T) {
    80  	const gd = 1 + 5i
    81  	for i, test := range dotTests {
    82  		for _, align := range align2 {
    83  			prefix := fmt.Sprintf("Test %v (x:%v y:%v)", i, align.x, align.y)
    84  			xgLn, ygLn := 4+align.x, 4+align.y
    85  			xg, yg := guardVector(test.x, gd, xgLn), guardVector(test.y, gd, ygLn)
    86  			x, y := xg[xgLn:len(xg)-xgLn], yg[ygLn:len(yg)-ygLn]
    87  			res := DotcUnitary(x, y)
    88  			if !same(res, test.wantc) {
    89  				t.Errorf(msgVal, prefix, i, res, test.wantc)
    90  			}
    91  			if !isValidGuard(xg, gd, xgLn) {
    92  				t.Errorf(msgGuard, prefix, "x", xg[:xgLn], xg[len(xg)-xgLn:])
    93  			}
    94  			if !isValidGuard(yg, gd, ygLn) {
    95  				t.Errorf(msgGuard, prefix, "y", yg[:ygLn], yg[len(yg)-ygLn:])
    96  			}
    97  		}
    98  	}
    99  }
   100  
   101  func TestDotcInc(t *testing.T) {
   102  	const gd, gdLn = 2 + 5i, 4
   103  	for i, test := range dotTests {
   104  		for _, inc := range newIncSet(1, 2, 5, 10, -1, -2, -5, -10) {
   105  			xg, yg := guardIncVector(test.x, gd, inc.x, gdLn), guardIncVector(test.y, gd, inc.y, gdLn)
   106  			x, y := xg[gdLn:len(xg)-gdLn], yg[gdLn:len(yg)-gdLn]
   107  			want := test.wantc
   108  			var ix, iy int
   109  			if inc.x < 0 {
   110  				ix, want = -inc.x*(test.n-1), test.wantcRev
   111  			}
   112  			if inc.y < 0 {
   113  				iy, want = -inc.y*(test.n-1), test.wantcRev
   114  			}
   115  			prefix := fmt.Sprintf("Test %v (x:%v y:%v) (ix:%v iy:%v)", i, inc.x, inc.y, ix, iy)
   116  			res := DotcInc(x, y, uintptr(test.n), uintptr(inc.x), uintptr(inc.y), uintptr(ix), uintptr(iy))
   117  			if inc.x*inc.y > 0 {
   118  				want = test.wantc
   119  			}
   120  			if !same(res, want) {
   121  				t.Errorf(msgVal, prefix, i, res, want)
   122  				t.Error(x, y)
   123  			}
   124  			checkValidIncGuard(t, xg, gd, inc.x, gdLn)
   125  			checkValidIncGuard(t, yg, gd, inc.y, gdLn)
   126  		}
   127  	}
   128  }
   129  
   130  func TestDotuUnitary(t *testing.T) {
   131  	const gd = 1 + 5i
   132  	for i, test := range dotTests {
   133  		for _, align := range align2 {
   134  			prefix := fmt.Sprintf("Test %v (x:%v y:%v)", i, align.x, align.y)
   135  			xgLn, ygLn := 4+align.x, 4+align.y
   136  			xg, yg := guardVector(test.x, gd, xgLn), guardVector(test.y, gd, ygLn)
   137  			x, y := xg[xgLn:len(xg)-xgLn], yg[ygLn:len(yg)-ygLn]
   138  			res := DotuUnitary(x, y)
   139  			if !same(res, test.wantu) {
   140  				t.Errorf(msgVal, prefix, i, res, test.wantu)
   141  			}
   142  			if !isValidGuard(xg, gd, xgLn) {
   143  				t.Errorf(msgGuard, prefix, "x", xg[:xgLn], xg[len(xg)-xgLn:])
   144  			}
   145  			if !isValidGuard(yg, gd, ygLn) {
   146  				t.Errorf(msgGuard, prefix, "y", yg[:ygLn], yg[len(yg)-ygLn:])
   147  			}
   148  		}
   149  	}
   150  }
   151  
   152  func TestDotuInc(t *testing.T) {
   153  	const gd, gdLn = 1 + 5i, 4
   154  	for i, test := range dotTests {
   155  		for _, inc := range newIncSet(1, 2, 5, 10, -1, -2, -5, -10) {
   156  			prefix := fmt.Sprintf("Test %v (x:%v y:%v)", i, inc.x, inc.y)
   157  			xg, yg := guardIncVector(test.x, gd, inc.x, gdLn), guardIncVector(test.y, gd, inc.y, gdLn)
   158  			x, y := xg[gdLn:len(xg)-gdLn], yg[gdLn:len(yg)-gdLn]
   159  			want := test.wantc
   160  			var ix, iy int
   161  			if inc.x < 0 {
   162  				ix, want = -inc.x*(test.n-1), test.wantuRev
   163  			}
   164  			if inc.y < 0 {
   165  				iy, want = -inc.y*(test.n-1), test.wantuRev
   166  			}
   167  			res := DotuInc(x, y, uintptr(test.n), uintptr(inc.x), uintptr(inc.y), uintptr(ix), uintptr(iy))
   168  			if inc.x*inc.y > 0 {
   169  				want = test.wantu
   170  			}
   171  			if !same(res, want) {
   172  				t.Errorf(msgVal, prefix, i, res, want)
   173  			}
   174  			checkValidIncGuard(t, xg, gd, inc.x, gdLn)
   175  			checkValidIncGuard(t, yg, gd, inc.y, gdLn)
   176  		}
   177  	}
   178  }