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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-21 20:56:19 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-21 20:56:19 +0000 |
commit | 0b6210cd37b68b94252cb798598b12974a20e1c1 (patch) | |
tree | e371686554a877842d95aa94f100bee552ff2a8e /test/wpt/tests/resources/chromium/webxr-test-math-helper.js | |
parent | Initial commit. (diff) | |
download | node-undici-0b6210cd37b68b94252cb798598b12974a20e1c1.tar.xz node-undici-0b6210cd37b68b94252cb798598b12974a20e1c1.zip |
Adding upstream version 5.28.2+dfsg1+~cs23.11.12.3.upstream/5.28.2+dfsg1+_cs23.11.12.3upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'test/wpt/tests/resources/chromium/webxr-test-math-helper.js')
-rw-r--r-- | test/wpt/tests/resources/chromium/webxr-test-math-helper.js | 298 |
1 files changed, 298 insertions, 0 deletions
diff --git a/test/wpt/tests/resources/chromium/webxr-test-math-helper.js b/test/wpt/tests/resources/chromium/webxr-test-math-helper.js new file mode 100644 index 0000000..22c6c12 --- /dev/null +++ b/test/wpt/tests/resources/chromium/webxr-test-math-helper.js @@ -0,0 +1,298 @@ +'use strict'; + +// Math helper - used mainly in hit test implementation done by webxr-test.js +class XRMathHelper { + static toString(p) { + return "[" + p.x + "," + p.y + "," + p.z + "," + p.w + "]"; + } + + static transform_by_matrix(matrix, point) { + return { + x : matrix[0] * point.x + matrix[4] * point.y + matrix[8] * point.z + matrix[12] * point.w, + y : matrix[1] * point.x + matrix[5] * point.y + matrix[9] * point.z + matrix[13] * point.w, + z : matrix[2] * point.x + matrix[6] * point.y + matrix[10] * point.z + matrix[14] * point.w, + w : matrix[3] * point.x + matrix[7] * point.y + matrix[11] * point.z + matrix[15] * point.w, + }; + } + + static neg(p) { + return {x : -p.x, y : -p.y, z : -p.z, w : p.w}; + } + + static sub(lhs, rhs) { + // .w is treated here like an entity type, 1 signifies points, 0 signifies vectors. + // point - point, point - vector, vector - vector are ok, vector - point is not. + if (lhs.w != rhs.w && lhs.w == 0.0) { + throw new Error("vector - point not allowed: " + toString(lhs) + "-" + toString(rhs)); + } + + return {x : lhs.x - rhs.x, y : lhs.y - rhs.y, z : lhs.z - rhs.z, w : lhs.w - rhs.w}; + } + + static add(lhs, rhs) { + if (lhs.w == rhs.w && lhs.w == 1.0) { + throw new Error("point + point not allowed", p1, p2); + } + + return {x : lhs.x + rhs.x, y : lhs.y + rhs.y, z : lhs.z + rhs.z, w : lhs.w + rhs.w}; + } + + static cross(lhs, rhs) { + if (lhs.w != 0.0 || rhs.w != 0.0) { + throw new Error("cross product not allowed: " + toString(lhs) + "x" + toString(rhs)); + } + + return { + x : lhs.y * rhs.z - lhs.z * rhs.y, + y : lhs.z * rhs.x - lhs.x * rhs.z, + z : lhs.x * rhs.y - lhs.y * rhs.x, + w : 0 + }; + } + + static dot(lhs, rhs) { + if (lhs.w != 0 || rhs.w != 0) { + throw new Error("dot product not allowed: " + toString(lhs) + "x" + toString(rhs)); + } + + return lhs.x * rhs.x + lhs.y * rhs.y + lhs.z * rhs.z; + } + + static mul(scalar, vector) { + if (vector.w != 0) { + throw new Error("scalar * vector not allowed", scalar, vector); + } + + return {x : vector.x * scalar, y : vector.y * scalar, z : vector.z * scalar, w : vector.w}; + } + + static length(vector) { + return Math.sqrt(XRMathHelper.dot(vector, vector)); + } + + static normalize(vector) { + const l = XRMathHelper.length(vector); + return XRMathHelper.mul(1.0/l, vector); + } + + // All |face|'s points and |point| must be co-planar. + static pointInFace(point, face) { + const normalize = XRMathHelper.normalize; + const sub = XRMathHelper.sub; + const length = XRMathHelper.length; + const cross = XRMathHelper.cross; + + let onTheRight = null; + let previous_point = face[face.length - 1]; + + // |point| is in |face| if it's on the same side of all the edges. + for (let i = 0; i < face.length; ++i) { + const current_point = face[i]; + + const edge_direction = normalize(sub(current_point, previous_point)); + const turn_direction = normalize(sub(point, current_point)); + + const sin_turn_angle = length(cross(edge_direction, turn_direction)); + + if (onTheRight == null) { + onTheRight = sin_turn_angle >= 0; + } else { + if (onTheRight && sin_turn_angle < 0) return false; + if (!onTheRight && sin_turn_angle > 0) return false; + } + + previous_point = current_point; + } + + return true; + } + + static det2x2(m00, m01, m10, m11) { + return m00 * m11 - m01 * m10; + } + + static det3x3( + m00, m01, m02, + m10, m11, m12, + m20, m21, m22 + ){ + const det2x2 = XRMathHelper.det2x2; + + return m00 * det2x2(m11, m12, m21, m22) + - m01 * det2x2(m10, m12, m20, m22) + + m02 * det2x2(m10, m11, m20, m21); + } + + static det4x4( + m00, m01, m02, m03, + m10, m11, m12, m13, + m20, m21, m22, m23, + m30, m31, m32, m33 + ) { + const det3x3 = XRMathHelper.det3x3; + + return m00 * det3x3(m11, m12, m13, + m21, m22, m23, + m31, m32, m33) + - m01 * det3x3(m10, m12, m13, + m20, m22, m23, + m30, m32, m33) + + m02 * det3x3(m10, m11, m13, + m20, m21, m23, + m30, m31, m33) + - m03 * det3x3(m10, m11, m12, + m20, m21, m22, + m30, m31, m32); + } + + static inv2(m) { + // mij - i-th column, j-th row + const m00 = m[0], m01 = m[1], m02 = m[2], m03 = m[3]; + const m10 = m[4], m11 = m[5], m12 = m[6], m13 = m[7]; + const m20 = m[8], m21 = m[9], m22 = m[10], m23 = m[11]; + const m30 = m[12], m31 = m[13], m32 = m[14], m33 = m[15]; + + const det = det4x4( + m00, m01, m02, m03, + m10, m11, m12, m13, + m20, m21, m22, m23, + m30, m31, m32, m33 + ); + } + + static transpose(m) { + const result = Array(16); + for (let i = 0; i < 4; i++) { + for (let j = 0; j < 4; j++) { + result[i * 4 + j] = m[j * 4 + i]; + } + } + return result; + } + + // Inverts the matrix, ported from transformation_matrix.cc. + static inverse(m) { + const det3x3 = XRMathHelper.det3x3; + + // mij - i-th column, j-th row + const m00 = m[0], m01 = m[1], m02 = m[2], m03 = m[3]; + const m10 = m[4], m11 = m[5], m12 = m[6], m13 = m[7]; + const m20 = m[8], m21 = m[9], m22 = m[10], m23 = m[11]; + const m30 = m[12], m31 = m[13], m32 = m[14], m33 = m[15]; + + const det = XRMathHelper.det4x4( + m00, m01, m02, m03, + m10, m11, m12, m13, + m20, m21, m22, m23, + m30, m31, m32, m33 + ); + + if (Math.abs(det) < 0.0001) { + return null; + } + + const invDet = 1.0 / det; + // Calculate `comatrix * 1/det`: + const result2 = [ + // First column (m0r): + invDet * det3x3(m11, m12, m13, m21, m22, m23, m32, m32, m33), + -invDet * det3x3(m10, m12, m13, m20, m22, m23, m30, m32, m33), + invDet * det3x3(m10, m11, m13, m20, m21, m23, m30, m31, m33), + -invDet * det3x3(m10, m11, m12, m20, m21, m22, m30, m31, m32), + // Second column (m1r): + -invDet * det3x3(m01, m02, m03, m21, m22, m23, m32, m32, m33), + invDet * det3x3(m00, m02, m03, m20, m22, m23, m30, m32, m33), + -invDet * det3x3(m00, m01, m03, m20, m21, m23, m30, m31, m33), + invDet * det3x3(m00, m01, m02, m20, m21, m22, m30, m31, m32), + // Third column (m2r): + invDet * det3x3(m01, m02, m03, m11, m12, m13, m31, m32, m33), + -invDet * det3x3(m00, m02, m03, m10, m12, m13, m30, m32, m33), + invDet * det3x3(m00, m01, m03, m10, m11, m13, m30, m31, m33), + -invDet * det3x3(m00, m01, m02, m10, m11, m12, m30, m31, m32), + // Fourth column (m3r): + -invDet * det3x3(m01, m02, m03, m11, m12, m13, m21, m22, m23), + invDet * det3x3(m00, m02, m03, m10, m12, m13, m20, m22, m23), + -invDet * det3x3(m00, m01, m03, m10, m11, m13, m20, m21, m23), + invDet * det3x3(m00, m01, m02, m10, m11, m12, m20, m21, m22), + ]; + + // Actual inverse is `1/det * transposed(comatrix)`: + return XRMathHelper.transpose(result2); + } + + static mul4x4(m1, m2) { + if (m1 == null || m2 == null) { + return null; + } + + const result = Array(16); + + for (let row = 0; row < 4; row++) { + for (let col = 0; col < 4; col++) { + result[4 * col + row] = 0; + for(let i = 0; i < 4; i++) { + result[4 * col + row] += m1[4 * i + row] * m2[4 * col + i]; + } + } + } + + return result; + } + + // Decomposes a matrix, with the assumption that the passed in matrix is + // a rigid transformation (i.e. position and rotation *only*!). + // The result is an object with `position` and `orientation` keys, which should + // be compatible with FakeXRRigidTransformInit. + // The implementation should match the behavior of gfx::Transform, but assumes + // that scale, skew & perspective are not present in the matrix so it could be + // simplified. + static decomposeRigidTransform(m) { + const m00 = m[0], m01 = m[1], m02 = m[2], m03 = m[3]; + const m10 = m[4], m11 = m[5], m12 = m[6], m13 = m[7]; + const m20 = m[8], m21 = m[9], m22 = m[10], m23 = m[11]; + const m30 = m[12], m31 = m[13], m32 = m[14], m33 = m[15]; + + const position = [m30, m31, m32]; + const orientation = [0, 0, 0, 0]; + + const trace = m00 + m11 + m22; + if (trace > 0) { + const S = Math.sqrt(trace + 1) * 2; + orientation[3] = 0.25 * S; + orientation[0] = (m12 - m21) / S; + orientation[1] = (m20 - m02) / S; + orientation[2] = (m01 - m10) / S; + } else if (m00 > m11 && m00 > m22) { + const S = Math.sqrt(1.0 + m00 - m11 - m22) * 2; + orientation[3] = (m12 - m21) / S; + orientation[0] = 0.25 * S; + orientation[1] = (m01 + m10) / S; + orientation[2] = (m20 + m02) / S; + } else if (m11 > m22) { + const S = Math.sqrt(1.0 + m11 - m00 - m22) * 2; + orientation[3] = (m20 - m02) / S; + orientation[0] = (m01 + m10) / S; + orientation[1] = 0.25 * S; + orientation[2] = (m12 + m21) / S; + } else { + const S = Math.sqrt(1.0 + m22 - m00 - m11) * 2; + orientation[3] = (m01 - m10) / S; + orientation[0] = (m20 + m02) / S; + orientation[1] = (m12 + m21) / S; + orientation[2] = 0.25 * S; + } + + return { position, orientation }; + } + + static identity() { + return [ + 1, 0, 0, 0, + 0, 1, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + ]; + }; +} + +XRMathHelper.EPSILON = 0.001; |