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load(libdir + 'simd.js');
setJitCompilerOption("ion.warmup.trigger", 50);
function curry(f, arg) { return f.bind(null, arg); }
function binaryLsh(count, v) { count &= 31; return (v << count) | 0; }
function lsh(count) { return curry(binaryLsh, count); }
function binaryRsh(count, v) { count &= 31; return (v >> count) | 0; }
function rsh(count) { return curry(binaryRsh, count); }
function binaryUlsh(count, v) { count &= 31; return (v << count) >>> 0; }
function ulsh(count) { return curry(binaryUlsh, count); }
function binaryUrsh(count, v) { count &= 31; return v >>> count; }
function ursh(count) { return curry(binaryUrsh, count); }
function f() {
var v = SIMD.Int32x4(1, 2, -3, 4);
var u = SIMD.Uint32x4(1, 0x55005500, -3, 0xaa00aa00);
var a = [1, 2, -3, 4];
var b = [1, 0x55005500, -3, 0xaa00aa00];
var shifts = [-2, -1, 0, 1, 31, 32, 33];
var r;
for (var i = 0; i < 150; i++) {
// Constant shift counts
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, -1), a.map(lsh(-1)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 0), a.map(lsh(0)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 1), a.map(lsh(1)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 2), a.map(lsh(2)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 31), a.map(lsh(31)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 32), a.map(lsh(32)));
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, 33), a.map(lsh(33)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, -1), a.map(rsh(31)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 0), a.map(rsh(0)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 1), a.map(rsh(1)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 2), a.map(rsh(2)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 31), a.map(rsh(31)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 32), a.map(rsh(32)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, 33), a.map(rsh(33)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, -1), b.map(ulsh(-1)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 0), b.map(ulsh(0)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 1), b.map(ulsh(1)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 2), b.map(ulsh(2)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 31), b.map(ulsh(31)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 32), b.map(ulsh(32)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, 33), b.map(ulsh(33)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, -1), b.map(ursh(-1)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 0), b.map(ursh(0)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 1), b.map(ursh(1)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 2), b.map(ursh(2)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 31), b.map(ursh(31)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 32), b.map(ursh(32)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, 33), b.map(ursh(33)));
// Non constant shift counts
var c = shifts[i % shifts.length];
assertEqX4(SIMD.Int32x4.shiftLeftByScalar(v, c), a.map(lsh(c)));
assertEqX4(SIMD.Int32x4.shiftRightByScalar(v, c), a.map(rsh(c)));
assertEqX4(SIMD.Uint32x4.shiftLeftByScalar(u, c), b.map(ulsh(c)));
assertEqX4(SIMD.Uint32x4.shiftRightByScalar(u, c), b.map(ursh(c)));
}
return r;
}
f();
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