diff --git a/latest/examples/coordSystems/.config.json b/latest/examples/coordSystems/.config.json
new file mode 100644
index 00000000..04f988a8
--- /dev/null
+++ b/latest/examples/coordSystems/.config.json
@@ -0,0 +1,3 @@
+{
+ "schema": "schemas/coordinate_systems_and_transforms.schema"
+}
diff --git a/latest/examples/coordSystems/arrayCoordSys.json b/latest/examples/coordSystems/arrayCoordSys.json
new file mode 100644
index 00000000..812356f8
--- /dev/null
+++ b/latest/examples/coordSystems/arrayCoordSys.json
@@ -0,0 +1,10 @@
+{
+ "arrayCoordinateSystem" : {
+ "name" : "myDataArray",
+ "axes" : [
+ {"name": "k", "type": "array"},
+ {"name": "j", "type": "array"},
+ {"name": "i", "type": "array"}
+ ]
+ }
+}
diff --git a/latest/examples/multiscales_strict/multiscales_example.json b/latest/examples/multiscales_strict/multiscales_example.json
index 73e5286c..beed1cd7 100644
--- a/latest/examples/multiscales_strict/multiscales_example.json
+++ b/latest/examples/multiscales_strict/multiscales_example.json
@@ -3,44 +3,50 @@
{
"version": "0.5-dev",
"name": "example",
- "axes": [
- {"name": "t", "type": "time", "unit": "millisecond"},
- {"name": "c", "type": "channel"},
- {"name": "z", "type": "space", "unit": "micrometer"},
- {"name": "y", "type": "space", "unit": "micrometer"},
- {"name": "x", "type": "space", "unit": "micrometer"}
+ "coordinateSystems" : [
+ {
+ "name" : "example",
+ "axes": [
+ {"name": "t", "type": "time", "unit": "millisecond"},
+ {"name": "c", "type": "channel"},
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+ }
],
"datasets": [
{
"path": "0",
"coordinateTransformations": [{
- // the voxel size for the first scale level (0.5 micrometer)
+ // the voxel size for the first scale level (0.5 micrometer), time unit (0.1 milliseconds)
"type": "scale",
- "scale": [1.0, 1.0, 0.5, 0.5, 0.5]
+ "scale": [0.1, 1.0, 0.5, 0.5, 0.5],
+ "input" : "/0",
+ "output" : "example"
}]
},
{
"path": "1",
"coordinateTransformations": [{
- // the voxel size for the second scale level (downscaled by a factor of 2 -> 1 micrometer)
+ // the voxel size for the second scale level (downscaled by a factor of 2 -> 1 micrometer), time unit (0.1 milliseconds)
"type": "scale",
- "scale": [1.0, 1.0, 1.0, 1.0, 1.0]
+ "scale": [0.1, 1.0, 1.0, 1.0, 1.0],
+ "input" : "/1`",
+ "output" : "example"
}]
},
{
"path": "2",
"coordinateTransformations": [{
- // the voxel size for the third scale level (downscaled by a factor of 4 -> 2 micrometer)
+ // the voxel size for the third scale level (downscaled by a factor of 4 -> 2 micrometer), time unit (0.1 milliseconds)
"type": "scale",
- "scale": [1.0, 1.0, 2.0, 2.0, 2.0]
+ "scale": [0.1, 1.0, 2.0, 2.0, 2.0],
+ "input" : "/2",
+ "output" : "example"
}]
}
],
- "coordinateTransformations": [{
- // the time unit (0.1 milliseconds), which is the same for each scale level
- "type": "scale",
- "scale": [0.1, 1.0, 1.0, 1.0, 1.0]
- }],
"type": "gaussian",
"metadata": {
"description": "the fields in metadata depend on the downscaling implementation. Here, the parameters passed to the skimage function are given",
@@ -51,4 +57,4 @@
}
}
]
-}
\ No newline at end of file
+}
diff --git a/latest/examples/multiscales_strict/multiscales_example_relative.json b/latest/examples/multiscales_strict/multiscales_example_relative.json
new file mode 100644
index 00000000..1d1864e0
--- /dev/null
+++ b/latest/examples/multiscales_strict/multiscales_example_relative.json
@@ -0,0 +1,76 @@
+{
+ "multiscales": [
+ {
+ "version": "0.5-dev",
+ "name": "example",
+ "coordinateSystems" : [
+ {
+ "name" : "exampleCoordinateSystem",
+ "axes": [
+ {"name": "t", "type": "time", "unit": "millisecond"},
+ {"name": "c", "type": "channel"},
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+ },
+ {
+ "name" : "array_0",
+ "axes": [
+ {"name": "t", "type": "time", "unit": "millisecond"},
+ {"name": "c", "type": "channel"},
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+ }
+ ],
+ "datasets": [
+ {
+ "path": "0",
+ // the transformation of other arrays are defined relative to this, the highest resolution, array
+ "coordinateTransformations": [{
+ "type": "identity",
+ "input": "/0",
+ "output": "array_0"
+ }]
+ },
+ {
+ "path": "1",
+ "coordinateTransformations": [{
+ // the second scale level (downscaled by a factor of 2 relative to "0" in zyx)
+ "type": "scale",
+ "scale": [1, 1, 2, 2, 2],
+ "input" : "/1",
+ "output" : "array_0"
+ }]
+ },
+ {
+ "path": "2",
+ "coordinateTransformations": [{
+ // the third scale level (downscaled by a factor of 4 relative to "0" in zyx)
+ "type": "scale",
+ "scale": [1, 1, 4, 4, 4],
+ "input" : "/2",
+ "output" : "array_0"
+ }]
+ }
+ ],
+ "coordinateTransformations": [{
+ // the time unit (0.1 milliseconds), the voxel size for all spatial axes of "0" (0.5 micrometers)
+ "type": "scale",
+ "scale": [0.1, 1.0, 0.5, 0.5, 0.5],
+ "input" : "array_0",
+ "output" : "exampleCoordinateSystem"
+ }],
+ "type": "gaussian",
+ "metadata": {
+ "description": "the fields in metadata depend on the downscaling implementation. Here, the parameters passed to the skimage function are given",
+ "method": "skimage.transform.pyramid_gaussian",
+ "version": "0.16.1",
+ "args": "[true]",
+ "kwargs": {"multichannel": true}
+ }
+ }
+ ]
+}
diff --git a/latest/examples/multiscales_strict/multiscales_transformations.json b/latest/examples/multiscales_strict/multiscales_transformations.json
index c99040c2..192cae17 100644
--- a/latest/examples/multiscales_strict/multiscales_transformations.json
+++ b/latest/examples/multiscales_strict/multiscales_transformations.json
@@ -1,16 +1,20 @@
{
"multiscales": [
{
- "axes": [
+ "coordinateSystems" : [
{
- "name": "y",
- "type": "space",
- "units": "micrometer"
+ "name": "multiscales_transformations",
+ "axes": [
+ { "name": "y", "type": "space", "unit": "micrometer" },
+ { "name": "x", "type": "space", "unit": "micrometer" }
+ ]
},
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "name": "multiscales_transformations_intermediate",
+ "axes": [
+ { "name": "y", "type": "space", "unit": "micrometer" },
+ { "name": "x", "type": "space", "unit": "micrometer" }
+ ]
}
],
"datasets": [
@@ -18,22 +22,20 @@
"path": "0",
"coordinateTransformations": [
{
- "scale": [
- 1,
- 1
- ],
- "type": "scale"
+ "scale": [ 1, 1 ],
+ "type": "scale",
+ "input": "/0",
+ "output": "multiscales_transformations_intermediate"
}
]
}
],
"coordinateTransformations": [
{
- "scale": [
- 10,
- 10
- ],
- "type": "scale"
+ "scale": [ 10, 10 ],
+ "type": "scale",
+ "input": "multiscales_transformations_intermediate",
+ "output": "multiscales_transformations"
}
],
"version": "0.5-dev",
@@ -44,4 +46,4 @@
}
}
]
-}
\ No newline at end of file
+}
diff --git a/latest/examples/subspace/.config.json b/latest/examples/subspace/.config.json
new file mode 100644
index 00000000..04f988a8
--- /dev/null
+++ b/latest/examples/subspace/.config.json
@@ -0,0 +1,3 @@
+{
+ "schema": "schemas/coordinate_systems_and_transforms.schema"
+}
diff --git a/latest/examples/subspace/subspaceMultidim.json b/latest/examples/subspace/subspaceMultidim.json
new file mode 100644
index 00000000..566a4069
--- /dev/null
+++ b/latest/examples/subspace/subspaceMultidim.json
@@ -0,0 +1,44 @@
+{
+ "coordinateSystems": [
+ {
+ "name": "in",
+ "axes": [
+ { "name": "0", "type": "array" },
+ { "name": "1", "type": "array" },
+ { "name": "2", "type": "array" },
+ { "name": "3", "type": "array" },
+ { "name": "4", "type": "array" }
+ ]
+ },
+ {
+ "name": "out",
+ "axes": [
+ { "name": "x", "type": "space" },
+ { "name": "y", "type": "space" },
+ { "name": "z", "type": "space" }
+ ]
+ }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "name": "5D-to-3D-not-contiguous",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ {
+ "type": "mapAxis",
+ "mapAxis": { "0": "x", "2": "z" },
+ "input": [ "0", "2" ],
+ "output": [ "x", "z" ]
+ },
+ {
+ "type": "scale",
+ "scale": [ 2 ],
+ "input": [ "1" ],
+ "output": [ "y" ]
+ }
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/subspace/subspacePermute.json b/latest/examples/subspace/subspacePermute.json
new file mode 100644
index 00000000..26749751
--- /dev/null
+++ b/latest/examples/subspace/subspacePermute.json
@@ -0,0 +1,26 @@
+{
+ "coordinateSystems" : [
+ { "name" : "in", "axes" : [ {"name" : "i"}, {"name" : "j" } ]},
+ { "name" : "out", "axes" : [ {"name" : "x"}, {"name" : "y" } ]}
+ ],
+ "coordinateTransformations" : [
+ {
+ "type" : "byDimension",
+ "input" : "in",
+ "output" : "out",
+ "transformations" : [
+ {
+ "type": "identity",
+ "input" : ["j"],
+ "output" : ["x"]
+ },
+ {
+ "type": "scale",
+ "scale" : [2],
+ "input" : ["i"],
+ "output" : ["y"]
+ }
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/.config.json b/latest/examples/transformations/.config.json
new file mode 100644
index 00000000..04f988a8
--- /dev/null
+++ b/latest/examples/transformations/.config.json
@@ -0,0 +1,3 @@
+{
+ "schema": "schemas/coordinate_systems_and_transforms.schema"
+}
diff --git a/latest/examples/transformations/affine2d2d.json b/latest/examples/transformations/affine2d2d.json
new file mode 100644
index 00000000..a4955d43
--- /dev/null
+++ b/latest/examples/transformations/affine2d2d.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems" : [
+ { "name": "ji", "axes": [{"name": "j"}, {"name": "i"}] },
+ { "name": "yx", "axes": [{"name": "y"}, {"name": "x"}] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type": "affine",
+ "affine": [[1, 2, 3], [4, 5, 6]],
+ "input": "ji",
+ "output": "yx"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/affine2d3d.json b/latest/examples/transformations/affine2d3d.json
new file mode 100644
index 00000000..588bdec5
--- /dev/null
+++ b/latest/examples/transformations/affine2d3d.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems": [
+ { "name": "ij", "axes": [{"name": "i"}, {"name": "j"}] },
+ { "name": "xyz", "axes": [{"name": "x"}, {"name": "y"}, {"name": "z"}] }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "affine",
+ "affine": [[1, 2, 3], [4, 5, 6], [7, 8, 9]],
+ "input": "ij",
+ "output": "xyz"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/bijection.json b/latest/examples/transformations/bijection.json
new file mode 100644
index 00000000..7ee77062
--- /dev/null
+++ b/latest/examples/transformations/bijection.json
@@ -0,0 +1,15 @@
+{
+ "coordinateSystems" : [
+ { "name": "src", "axes": [{"name": "j"}, {"name": "i"}] },
+ { "name": "tgt", "axes": [{"name": "y"}, {"name": "x"}] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type": "bijection",
+ "forward": { "type" : "coordinates", "path" : "forward_coordinates" },
+ "inverse": { "type" : "coordinates", "path" : "inverse_coordinates" },
+ "input": "src",
+ "output": "tgt"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/bijection_verbose.json b/latest/examples/transformations/bijection_verbose.json
new file mode 100644
index 00000000..56547fdc
--- /dev/null
+++ b/latest/examples/transformations/bijection_verbose.json
@@ -0,0 +1,7 @@
+{
+ "type": "bijection",
+ "forward": { "type" : "coordinates", "path" : "forward_coordinates", "input" : "src", "output" : "tgt" },
+ "inverse": { "type" : "coordinates", "path" : "inverse_coordinates", "input" : "tgt", "output" : "src" },
+ "input": "src",
+ "output": "tgt"
+}
diff --git a/latest/examples/transformations/byDimension1.json b/latest/examples/transformations/byDimension1.json
new file mode 100644
index 00000000..f4f9c42e
--- /dev/null
+++ b/latest/examples/transformations/byDimension1.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ] },
+ { "name": "out", "axes": [ {"name": "y"}, {"name": "x"} ] }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ { "type": "translation", "translation": [-1.0], "input": ["i"], "output": ["x"]},
+ { "type": "scale", "scale": [2.0], "input": ["j"], "output": ["y"]}
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/byDimension2.json b/latest/examples/transformations/byDimension2.json
new file mode 100644
index 00000000..ef2e29b4
--- /dev/null
+++ b/latest/examples/transformations/byDimension2.json
@@ -0,0 +1,42 @@
+{
+ "coordinateSystems": [
+ {
+ "name": "in",
+ "axes": [
+ { "name": "l", "type": "array" },
+ { "name": "j", "type": "array" },
+ { "name": "k", "type": "array" },
+ { "name": "i", "type": "array" }
+ ]
+ },
+ {
+ "name": "out",
+ "axes": [
+ { "name": "z", "type": "array" },
+ { "name": "y", "type": "array" },
+ { "name": "x", "type": "array" }
+ ]
+ }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ {
+ "type": "translation",
+ "translation": [ 1, 3 ],
+ "input": [ "i", "k" ],
+ "output": [ "y", "x" ]
+ },
+ {
+ "type": "scale",
+ "scale": [ 2 ],
+ "input": [ "j" ],
+ "output": [ "z" ]
+ }
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/byDimensionInvalid1.json b/latest/examples/transformations/byDimensionInvalid1.json
new file mode 100644
index 00000000..4054fc19
--- /dev/null
+++ b/latest/examples/transformations/byDimensionInvalid1.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ] },
+ { "name": "out", "axes": [ {"name": "y"}, {"name": "x"} ] }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ { "type": "translation", "translation": [-1.0], "input": ["i"], "output": ["z"]},
+ { "type": "scale", "scale": [2.0], "input": ["0"], "output": ["y"]}
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/byDimensionInvalid2.json b/latest/examples/transformations/byDimensionInvalid2.json
new file mode 100644
index 00000000..810f0c04
--- /dev/null
+++ b/latest/examples/transformations/byDimensionInvalid2.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ] },
+ { "name": "out", "axes": [ {"name": "y"}, {"name": "x"} ] }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ { "type": "translation", "translation": [-1.0], "input": ["i"], "output": ["x"]},
+ { "type": "scale", "scale": [2.0], "input": ["i"], "output": ["x"]}
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/byDimensionXarray.json b/latest/examples/transformations/byDimensionXarray.json
new file mode 100644
index 00000000..82531b0e
--- /dev/null
+++ b/latest/examples/transformations/byDimensionXarray.json
@@ -0,0 +1,39 @@
+{
+ "coordinateSystems": [
+ {
+ "name": "physical",
+ "axes": [
+ { "name": "x", "type": "space", "unit": "micrometer" },
+ { "name": "y", "type": "space", "unit": "micrometer" }
+ ]
+ },
+ {
+ "name": "array",
+ "axes": [
+ { "name": "dim_0", "type": "array" },
+ { "name": "dim_1", "type": "array" }
+ ]
+ }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "array",
+ "output": "physical",
+ "transformations": [
+ {
+ "type": "coordinates",
+ "path": "xCoordinates",
+ "input": [ "dim_0" ],
+ "output": [ "x" ]
+ },
+ {
+ "type": "coordinates",
+ "path": "yCoordinates",
+ "input": [ "dim_1" ],
+ "output": [ "y" ]
+ }
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/coordinates1d.json b/latest/examples/transformations/coordinates1d.json
new file mode 100644
index 00000000..314bc6fb
--- /dev/null
+++ b/latest/examples/transformations/coordinates1d.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems": [
+ { "name": "i", "axes": [{"name": "i"}] },
+ { "name": "x", "axes": [{"name": "x"}] }
+ ],
+ "coordinateTransformations": [{
+ "name": "a coordinate field transform",
+ "type": "coordinates",
+ "path": "i2xCoordinates",
+ "input": "i",
+ "output": "x",
+ "interpolation": "nearest"
+ }]
+}
diff --git a/latest/examples/transformations/displacement1d.json b/latest/examples/transformations/displacement1d.json
new file mode 100644
index 00000000..5db76446
--- /dev/null
+++ b/latest/examples/transformations/displacement1d.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems": [
+ { "name": "i", "axes": [{"name": "i"}] },
+ { "name": "x", "axes": [{"name": "x"}] }
+ ],
+ "coordinateTransformations": [{
+ "name": "a displacement field transform",
+ "type": "displacements",
+ "path": "i2xCoordinates",
+ "input": "i",
+ "output": "x",
+ "interpolation": "nearest"
+ }]
+}
diff --git a/latest/examples/transformations/identity.json b/latest/examples/transformations/identity.json
new file mode 100644
index 00000000..8de6d9d5
--- /dev/null
+++ b/latest/examples/transformations/identity.json
@@ -0,0 +1,9 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ]},
+ { "name": "out", "axes": [ {"name": "y"}, {"name": "x"} ]}
+ ],
+ "coordinateTransformations": [
+ { "type": "identity", "input": "in", "output": "out" }
+ ]
+}
diff --git a/latest/examples/transformations/inverseOf.json b/latest/examples/transformations/inverseOf.json
new file mode 100644
index 00000000..6a94274c
--- /dev/null
+++ b/latest/examples/transformations/inverseOf.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems" : [
+ { "name" : "moving", "axes" : [{"name" : "y-moving"}, {"name":"x-moving"}] },
+ { "name" : "fixed", "axes" : [{"name" : "y-fixed"}, {"name":"x-fixed"}] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type": "inverseOf",
+ "transformation" : {
+ "type": "displacements",
+ "path": "path/to/displacements"
+ },
+ "input" : "moving",
+ "output" : "fixed"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/mapAxis1.json b/latest/examples/transformations/mapAxis1.json
new file mode 100644
index 00000000..37d3c73c
--- /dev/null
+++ b/latest/examples/transformations/mapAxis1.json
@@ -0,0 +1,23 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ]},
+ { "name": "out1", "axes": [ {"name": "y"}, {"name": "x"} ]},
+ { "name": "out2", "axes": [ {"name": "y"}, {"name": "x"} ]}
+ ],
+ "coordinateTransformations": [
+ {
+ "name": "equivalent to identity",
+ "type": "mapAxis",
+ "mapAxis": { "x":"i", "y":"j" },
+ "input": "in",
+ "output": "out1"
+ },
+ {
+ "name": "permutation",
+ "type": "mapAxis",
+ "mapAxis": { "y":"i", "x":"j" },
+ "input": "in",
+ "output": "out2"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/mapAxis2.json b/latest/examples/transformations/mapAxis2.json
new file mode 100644
index 00000000..4b50d1f5
--- /dev/null
+++ b/latest/examples/transformations/mapAxis2.json
@@ -0,0 +1,23 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "a"}, {"name": "b"}]},
+ { "name": "out_down", "axes": [ {"name": "x"}]},
+ { "name": "out_up", "axes": [ {"name": "z"}, {"name": "y"}, {"name": "x"} ]}
+ ],
+ "coordinateTransformations": [
+ {
+ "name": "projection down",
+ "type": "mapAxis",
+ "mapAxis": { "x": "b" },
+ "input": "in",
+ "output": "out_down"
+ },
+ {
+ "name": "projection up",
+ "type": "mapAxis",
+ "mapAxis": { "z": "b", "y": "b", "x": "a" },
+ "input": "in",
+ "output": "out_up"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/rotation.json b/latest/examples/transformations/rotation.json
new file mode 100644
index 00000000..942dcf39
--- /dev/null
+++ b/latest/examples/transformations/rotation.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems" : [
+ { "name" : "ji", "axes" : [{"name" : "j"}, {"name":"i"}] },
+ { "name" : "yx", "axes" : [{"name" : "y"}, {"name":"x"}] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type": "rotation",
+ "rotation": [[0, -1], [1, 0]],
+ "input" : "ji",
+ "output" : "yx"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/scale.json b/latest/examples/transformations/scale.json
new file mode 100644
index 00000000..56d348a5
--- /dev/null
+++ b/latest/examples/transformations/scale.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [{"name": "j"}, {"name": "i"}] },
+ { "name": "out", "axes": [{"name": "y"}, {"name": "x"}] }
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "scale",
+ "scale": [3.12, 2],
+ "input": "in",
+ "output": "out"
+ }
+ ]
+}
diff --git a/latest/examples/transformations/sequence.json b/latest/examples/transformations/sequence.json
new file mode 100644
index 00000000..e781c108
--- /dev/null
+++ b/latest/examples/transformations/sequence.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "j"}, {"name": "i"} ]},
+ { "name": "out", "axes": [ {"name": "y"}, {"name": "x"} ]}
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "sequence",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ { "type": "translation", "translation": [0.1, 0.9] },
+ { "type": "scale", "scale": [2, 3] }
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/sequenceSubspace1.json b/latest/examples/transformations/sequenceSubspace1.json
new file mode 100644
index 00000000..e8a5bd35
--- /dev/null
+++ b/latest/examples/transformations/sequenceSubspace1.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems" : [
+ { "name" : "in", "axes" : [ {"name" : "i"}, {"name" : "j"} ] },
+ { "name" : "out", "axes" : [ {"name" : "x"}, {"name" : "y"} ] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type" : "sequence",
+ "input" : "in",
+ "output" : "out",
+ "transformations" : [
+ { "type" : "coordinates", "path" : "/coordinates", "inputAxes" : ["i"], "outputAxes" : ["x"]},
+ { "type" : "scale", "scale" : [2.0], "inputAxes" : ["j"], "outputAxes" : ["y"]}
+ ]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/translation.json b/latest/examples/transformations/translation.json
new file mode 100644
index 00000000..5e28be7a
--- /dev/null
+++ b/latest/examples/transformations/translation.json
@@ -0,0 +1,14 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [{"name": "j"}, {"name": "i"}] },
+ { "name": "out", "axes": [{"name": "y"}, {"name": "x"}] }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type": "translation",
+ "input": "in",
+ "output": "out",
+ "translation": [9, -1.42]
+ }
+ ]
+}
diff --git a/latest/examples/transformations/xarrayLike.json b/latest/examples/transformations/xarrayLike.json
new file mode 100644
index 00000000..6a7c45b4
--- /dev/null
+++ b/latest/examples/transformations/xarrayLike.json
@@ -0,0 +1,17 @@
+{
+ "coordinateSystems": [
+ { "name": "in", "axes": [ {"name": "i", "type": "array"}, {"name": "j", "type": "array"} ]},
+ { "name": "out", "axes": [ {"name": "x", "type": "space"}, {"name": "y", "type": "space"} ]}
+ ],
+ "coordinateTransformations": [
+ {
+ "type": "byDimension",
+ "input": "in",
+ "output": "out",
+ "transformations": [
+ { "type": "coordinates", "path": "/xCoordinates", "input" : ["i"], "output" : ["x"] },
+ { "type": "coordinates", "path": "/yCoordinates", "input" : ["j"], "output" : ["y"] }
+ ]
+ }
+ ]
+}
diff --git a/latest/index.bs b/latest/index.bs
index bb935c48..3989418a 100644
--- a/latest/index.bs
+++ b/latest/index.bs
@@ -16,6 +16,7 @@ Markup Shorthands: markdown yes
Editor: Josh Moore, University of Dundee (UoD) https://www.dundee.ac.uk, https://orcid.org/0000-0003-4028-811X
Editor: Sébastien Besson, University of Dundee (UoD) https://www.dundee.ac.uk, https://orcid.org/0000-0001-8783-1429
Editor: Constantin Pape, European Molecular Biology Laboratory (EMBL) https://www.embl.org/sites/heidelberg/, https://orcid.org/0000-0001-6562-7187
+Editor: John Bogovic, Hughes Medical Institute Janelia (HHMI) https://www.janelia.org/, https://orcid.org/0000-0002-4829-9457
Text Macro: NGFFVERSION 0.5-dev
Abstract: This document contains next-generation file format (NGFF)
Abstract: specifications for storing bioimaging data in the cloud.
@@ -133,7 +134,7 @@ Images {#image-layout}
The following layout describes the expected Zarr hierarchy for images with
multiple levels of resolutions and optionally associated labels.
-Note that the number of dimensions is variable between 2 and 5 and that axis names are arbitrary, see [[#multiscale-md]] for details.
+See [[#multiscale-md]] for details.
For this example we assume an image with 5 dimensions and axes called `t,c,z,y,x`.
@@ -154,8 +155,8 @@ For this example we assume an image with 5 dimensions and axes called `t,c,z,y,x
├── n # The name of the array is arbitrary with the ordering defined by
│ │ # by the "multiscales" metadata, but is often a sequence starting at 0.
│ │
- │ ├── .zarray # All image arrays must be up to 5-dimensional
- │ │ # with the axis of type time before type channel, before spatial axes.
+ │ ├── .zarray
+ │ │
│ │
│ └─ t # Chunks are stored with the nested directory layout.
│ └─ c # All but the last chunk element are stored as directories.
@@ -168,7 +169,7 @@ For this example we assume an image with 5 dimensions and axes called `t,c,z,y,x
├── .zgroup # The labels group is a container which holds a list of labels to make the objects easily discoverable
│
├── .zattrs # All labels will be listed in `.zattrs` e.g. `{ "labels": [ "original/0" ] }`
- │ # Each dimension of the label `(t, c, z, y, x)` should be either the same as the
+ │ # Each dimension of the label should be either the same as the
│ # corresponding dimension of the image, or `1` if that dimension of the label
│ # is irrelevant.
│
@@ -189,7 +190,7 @@ High-content screening {#hcs-layout}
------------------------------------
The following specification defines the hierarchy for a high-content screening
-dataset. Three groups MUST be defined above the images:
+dataset. Three groups must be defined above the images:
- the group above the images defines the well and MUST implement the
[well specification](#well-md). All images contained in a well are fields
@@ -199,9 +200,6 @@ dataset. Three groups MUST be defined above the images:
collection of wells organized in rows and columns. It MUST implement the
[plate specification](#plate-md)
-A well row group SHOULD NOT be present if there are no images in the well row.
-A well group SHOULD NOT be present if there are no images in the well.
-
. # Root folder, potentially in S3,
@@ -238,18 +236,6 @@ Metadata {#metadata}
The various `.zattrs` files throughout the above array hierarchy may contain metadata
keys as specified below for discovering certain types of data, especially images.
-"axes" metadata {#axes-md}
---------------------------
-
-"axes" describes the dimensions of a physical coordinate space. It is a list of dictionaries, where each dictionary describes a dimension (axis) and:
-- MUST contain the field "name" that gives the name for this dimension. The values MUST be unique across all "name" fields.
-- SHOULD contain the field "type". It SHOULD be one of "space", "time" or "channel", but MAY take other values for custom axis types that are not part of this specification yet.
-- SHOULD contain the field "unit" to specify the physical unit of this dimension. The value SHOULD be one of the following strings, which are valid units according to UDUNITS-2.
- - Units for "space" axes: 'angstrom', 'attometer', 'centimeter', 'decimeter', 'exameter', 'femtometer', 'foot', 'gigameter', 'hectometer', 'inch', 'kilometer', 'megameter', 'meter', 'micrometer', 'mile', 'millimeter', 'nanometer', 'parsec', 'petameter', 'picometer', 'terameter', 'yard', 'yoctometer', 'yottameter', 'zeptometer', 'zettameter'
- - Units for "time" axes: 'attosecond', 'centisecond', 'day', 'decisecond', 'exasecond', 'femtosecond', 'gigasecond', 'hectosecond', 'hour', 'kilosecond', 'megasecond', 'microsecond', 'millisecond', 'minute', 'nanosecond', 'petasecond', 'picosecond', 'second', 'terasecond', 'yoctosecond', 'yottasecond', 'zeptosecond', 'zettasecond'
-
-If part of [[#multiscale-md]], the length of "axes" MUST be equal to the number of dimensions of the arrays that contain the image data.
-
"bioformats2raw.layout" (transitional) {#bf2raw}
------------------------------------------------
@@ -331,44 +317,1106 @@ Conforming readers:
- MAY ignore other groups or arrays under the root of the hierarchy.
+"coordinateSystems" metadata {#coord-sys-md}
+--------------------------
+
+A "coordinate system" is a collection of "axes" / dimensions with a name. Every coordinate system:
+- MUST contain the field "name". The value MUST be a non-empty string that is unique among `coordinateSystem`s.
+- MUST contain the field "axes", whose value is an array of valid "axes" (see below).
+
+
+
+```json
+{
+ "name" : "volume_micrometers",
+ "axes" : [
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+}
+```
+
+
+The order of the `"axes"` list matters and defines the index of each array dimension and coordinates for points in that
+coordinate system. For the above example, the `"x"` dimension is the first dimension. The "dimensionality" of a coordinate system
+is indicated by the length of its "axes" array. The "volume_micrometers" example coordinate system above is three dimensional (3D).
+
+The axes of a coordinate system (see below) give information about the types, units, and other properties of the coordinate
+system's dimensions. Axis `name`s may contain semantically meaningful information, but can be arbitrary. As a result, two
+coordinate systems that have identical axes in the same order may not be "the same" in the sense that measurements at the same
+point refer to different physical entities and therefore should not be analyzed jointly. Tasks that require images, annotations,
+regions of interest, etc., SHOULD ensure that they are in the same coordinate system (same name, with identical axes) or can be
+transformed to the same coordinate system before doing analysis. See the example below.
+
+
+
+Two instruments simultaneously image the same sample from two different angles, and the 3D data from both instruments are
+calibrated to "micrometer" units. Two samples are collected ("sampleA" and "sampleB"). An analysis of sample A requires
+measurements from both instruments' images at certain points in space. Suppose a region of interest (ROI) is determined from the
+image obtained from instrument 2, but quantification from that region is needed for instrument 1. Since measurements were
+collected at different angles, a measurement by instrument 1 at the point with coordinates (x,y,z) may not correspond to the
+measurement at the same point in instrument 2 (i.e., it may not be the same physical location in the sample). To analyze both
+images together, they must be in the same coordinate system.
+
+The set of coordinate transformations ([[#trafo-md]]) encodes relationships between coordinate systems, specifically, how to
+convert points and images to different coordinate systems. Implementations can apply the coordinate transform to images or
+points in coordinate system "sampleA_instrument2" to bring them into the "sampleA_instrument1" coordinate system. In this case,
+the ROI should be transformed to the "sampleA_image1" coordinate system, then used for quantification with the instrument 1
+image.
+
+```json
+"coordinateSystems" : [
+ {
+ "name" : "sampleA-instrument1",
+ "axes" : [
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+ },
+ {
+ "name" : "sampleA-instrument2",
+ "axes" : [
+ {"name": "z", "type": "space", "unit": "micrometer"},
+ {"name": "y", "type": "space", "unit": "micrometer"},
+ {"name": "x", "type": "space", "unit": "micrometer"}
+ ]
+ }
+],
+"coordinateTransformations": [
+ {
+ "type": "affine":
+ "path": "../sampleA_instrument2-to-instrument1"
+ "input": "sampleA_instrument2",
+ "output": "sampleA_instrument1"
+ }
+]
+```
+
+
+
+
+
+### "axes" metadata
+
+"axes" describes the dimensions of a coordinate systems. It is a list of dictionaries, where each dictionary describes a dimension (axis) and:
+- MUST contain the field "name" that gives the name for this dimension. The values MUST be unique across all "name" fields.
+- SHOULD contain the field "type". It SHOULD be one of the strings "array", "space", "time", "channel", "coordinate", or
+ "displacement" but MAY take other string values for custom axis types that are not part of this specification yet.
+- MAY contain the field "discrete". The value MUST be a boolean, and is `true` if the axis represents a discrete dimension.
+- SHOULD contain the field "unit" to specify the physical unit of this dimension. The value SHOULD be one of the following strings, which are valid units according to UDUNITS-2.
+ - Units for "space" axes: 'angstrom', 'attometer', 'centimeter', 'decimeter', 'exameter', 'femtometer', 'foot', 'gigameter', 'hectometer', 'inch', 'kilometer', 'megameter', 'meter', 'micrometer', 'mile', 'millimeter', 'nanometer', 'parsec', 'petameter', 'picometer', 'terameter', 'yard', 'yoctometer', 'yottameter', 'zeptometer', 'zettameter'
+ - Units for "time" axes: 'attosecond', 'centisecond', 'day', 'decisecond', 'exasecond', 'femtosecond', 'gigasecond', 'hectosecond', 'hour', 'kilosecond', 'megasecond', 'microsecond', 'millisecond', 'minute', 'nanosecond', 'petasecond', 'picosecond', 'second', 'terasecond', 'yoctosecond', 'yottasecond', 'zeptosecond', 'zettasecond'
+- MAY contain the field "longName". The value MUST be a string, and can provide a longer name or description of an axis and its properties.
+
+If part of [[#multiscale-md]], the length of "axes" MUST be equal to the number of dimensions of the arrays that contain the image data.
+
+
+
+Examples of valid axes:
+
+```json
+[
+ {"name": "x", "type": "space", "unit": "micrometer"},
+ {"name": "t", "type": "time", "unit": "second", "longName": "Unix Epoch time"},
+ {"name": "c", "type": "channel", "discrete": true},
+ {"name": "i0", "type": "array"},
+ {"name": "c", "type": "coordinate", "discrete" : true },
+ {"name": "v", "type": "displacement", "discrete": true },
+ {"name": "freq", "type": "frequency", "unit": "megahertz"}
+]
+```
+
+
+Arrays are inherently discrete (see Array coordinate systems, below) but are often used to store discrete samples of a
+continuous variable. The continuous values "in between" discrete samples can be retrieved using an *interpolation* method. If an
+axis is continuous (`"discrete" : false`), it indicates that interpolation is well-defined. Axes representing `space` and
+`time` are usually continuous. Similarly, joint interpolation across axes is well-defined only for axes of the same `type`. In
+contrast, discrete axes (`"discrete" : true`) may be indexed only by integers. Axes of representing a `channel`, `coordinate`,
+or `displacement` are usually discrete.
+
+Note: The most common methods for interpolation are "nearest neighbor", "linear", "cubic", and "windowed sinc". Here, we refer
+to any method that obtains values at real valued coordinates using discrete samples as an "interpolator". As such, label images
+may be interpolated using "nearest neighbor" to obtain labels at points along the continuum.
+
+
+
+For the coordinate system:
+
+```json
+{
+ "name" : "index and interpolation",
+ "axes" : [
+ {"name": "t", "type": "time"},
+ {"name": "c", "type": "channel", "discrete": true},
+ {"name": "y", "type": "space"},
+ {"name": "x", "type": "space"}
+ ]
+}
+```
+
+Indexing an image at the point `(0.1, 0.2, 0.3, 0.4)` is not valid, because the value of the first coordinate (`0.1`) refers
+to the discrete axis `"c"`. Indexing an image at the point `(1, 0.2, 0.3, 0.4)` is valid.
+
+
+
+### Array coordinate systems
+
+Every array has a default coordinate system whose parameters need not be explicitly defined. Its name is the path to the array
+in the container, its axes have `"type":"array"`, are unitless, and have default "name"s. The ith axis has `"name":"dim_i"`
+(these are the same default names used by [xarray](https://docs.xarray.dev/en/stable/user-guide/terminology.html)).
+
+For example, a 3D array at path `my/data/array` defines the coordinate system:
+
+```json
+{
+ "name" : "my/data/array",
+ "axes" : [
+ {"name": "dim_0", "type": "array"},
+ {"name": "dim_1", "type": "array"},
+ {"name": "dim_2", "type": "array"}
+ ]
+}
+```
+
+though this object should not and need not explicitly appear in metadata.
+
+
+
+The dimensionality of each array coordinate system equals the dimensionality of its corresponding zarr array. The axis with
+name `"dim_i"` is the ith element of the `"axes"` list. The axes and their order align with the `shape`
+attribute in the zarr array attributes (in `.zarray`), and whose data depends on the byte order used to store
+chunks. As described in the [zarr array metadata](https://zarr.readthedocs.io/en/stable/spec/v2.html#arrays),
+the last dimension of an array in "C" order are stored contiguously on disk or in-memory when directly loaded.
+
+
+For example, if `my/data/array/.zarray` contains:
+
+```json
+{
+ "chunks": [ 4, 3, 5 ],
+ "compressor": null,
+ "dtype": "|u1",
+ "fill_value": 0,
+ "filters": null,
+ "order": "C",
+ "shape": [ 4, 3, 5 ],
+ "zarr_format": 2
+}
+```
+
+Then `dim_0` has length 4, `dim_1` has length 3, and `dim_2` has length 5.
+
+
+The name and axes names MAY be customized by including a `arrayCoordinateSystem` field in
+the user-defined attributes of the array whose value is a coordinate system object. The length of
+`axes` MUST be equal to the dimensionality. The value of `"type"` for each object in the
+axes array MUST equal `"array"`.
+
+
+
+
+path: examples/coordSystems/arrayCoordSys.json
+highlight: json
+
+
+Note that dimension `i` is contiguous in memory.
+
+
+
+
+### Coordinate convention
+
+**The pixel/voxel center is the origin of the continuous coordinate system.**
+
+It is vital to consistently define relationship between the discrete/array and continuous/interpolated
+coordinate systems. A pixel/voxel is the continuous region (rectangle) that corresponds to a single sample
+in the discrete array, i.e., the area corresponding to nearest-neighbor (NN) interpolation of that sample.
+The center of a 2d pixel corresponding to the origin `(0,0)` in the discrete array is the origin of the continuous coordinate
+system `(0.0, 0.0)` (when the transformation is the identity). The continuous rectangle of the pixel is given by the
+half-open interval `[-0.5, 0.5) x [-0.5, 0.5)` (i.e., -0.5 is included, +0.5 is excluded). See chapter 4 and figure 4.1 of the ITK Software Guide [[itk]].
+
+
"coordinateTransformations" metadata {#trafo-md}
------------------------------------------------
-"coordinateTransformations" describe a series of transformations that map between two coordinate spaces (defined by "axes").
-For example, to map a discrete data space of an array to the corresponding physical space.
-It is a list of dictionaries. Each entry describes a single transformation and MUST contain the field "type".
-The value of "type" MUST be one of the elements of the `type` column in the table below.
-Additional fields for the entry depend on "type" and are defined by the column `fields`.
+"coordinateTransformations" describe the mapping between two coordinate systems (defined by "axes").
+For example, to map an array's discrete coordinate system to its corresponding physical coordinates.
+Coordinate transforms are in the "forward" direction. They represent functions from *points* in the
+input space to *points* in the output space.
+
+
+- MUST contain the field "type".
+- MUST contain any other fields required by the given "type" (see table below).
+- MUST contain the field "output", unless part of a `sequence` or `inverseOf` (see details).
+- MUST contain the field "input", unless part of a `sequence` or `inverseOf` (see details).
+- MAY contain the field "name". Its value MUST be unique across all "name" fields for coordinate transformations.
+- Parameter values MUST be compatible with input and output space dimensionality (see details).
- `identity` | | identity transformation, is the default transformation and is typically not explicitly defined
- |
---|
`translation` | one of: `"translation":List[float]`, `"path":str` | translation vector, stored either as a list of floats (`"translation"`) or as binary data at a location in this container (`path`). The length of vector defines number of dimensions. |
- |
---|
`scale` | one of: `"scale":List[float]`, `"path":str` | scale vector, stored either as a list of floats (`scale`) or as binary data at a location in this container (`path`). The length of vector defines number of dimensions. |
+ |
---|
`identity`
+ |
+ | The identity transformation is the default transformation and is typically not explicitly defined.
+ |
---|
`mapAxis`
+ | `"mapAxis":Dict[String:String]`
+ | A `maxAxis` transformation specifies an axis permutation as a map between axis names.
+ |
---|
`translation`
+ | one of: `"translation":List[number]`, `"path":str`
+ | translation vector, stored either as a list of numbers (`"translation"`) or as binary data at a location
+ in this container (`path`).
+ |
---|
`scale`
+ | one of: `"scale":List[number]`, `"path":str`
+ | scale vector, stored either as a list of numbers (`scale`) or as binary data at a location in this
+ container (`path`).
+ |
---|
`affine`
+ | one of: `"affine":List[List[number]]`, `"path":str`
+ | affine transformation matrix stored as a flat array stored either with json uing the affine field
+ or as binary data at a location in this container (path). If both are present, the binary values at path should be used.
+ |
---|
`rotation`
+ | one of: `"rotation":List[number]`, `"path":str`
+ | rotation transformation matrix stored as an array stored either
+ with json or as binary data at a location in this container (path).
+ If both are present, the binary parameters at path are used.
+ |
---|
`sequence`
+ | `"transformations":List[Transformation]`
+ | A sequence of transformations, Applying the sequence applies the composition of all transforms in the list, in order.
+ |
---|
`displacements`
+ | `"path":str` `"interpolation":str`
+ | Displacement field transformation located at (path).
+ |
---|
`coordinates`
+ | `"path":str` `"interpolation":str`
+ | Coordinate field transformation located at (path).
+ |
---|
`inverseOf`
+ | `"transform":Transform`
+ | The inverse of a transformation. Useful if a transform is not closed-form invertible. See Forward and inverse for details and examples.
+ |
---|
`bijection`
+ | `"forward":Transform` `"inverse":Transform`
+ | Explicitly define an invertible transformation by providing a forward transformation and its inverse.
+ |
---|
`byDimension`
+ | `"transformations":List[Transformation]`
+ | Define a high dimensional transformation using lower dimensional transformations on subsets of
+ dimensions.
type | fields | description
|
---|
|
---|
-The transformations in the list are applied sequentially and in order.
+
+Conforming readers:
+- MUST parse `identity`, `scale`, `translation` transformations;
+- SHOULD parse `mapAxis`, `affine` transformations;
+- SHOULD be able to apply transformations to points;
+- SHOULD be able to apply transformations to images;
+
+Coordinate transformations from array to physical coordinates MUST be stored in multiscales ([[#multiscale-md]]),
+and MUST be duplicated in the attributes of the zarr array. Transformations between different images MUST be stored in the
+attributes of a parent zarr group. For transformations that store data or parameters in a zarr array, those zarr arrays SHOULD
+be stored in a zarr group `"coordinateTransformations"`.
+
+
+store.zarr # Root folder of the zarr store
+│
+├── .zattrs # coordinate transformations describing the relationship between two image coordinate systems
+│ # are stored in the attributes of their parent group.
+│ # transformations between 'volume' and 'crop' coordinate systems are stored here.
+│
+├── coordinateTransformations # transformations that use array storage go in a "coordinateTransformations" zarr group.
+│ └── displacements # for example, a zarr array containing a displacement field
+│ ├── .zattrs
+│ └── .zarray
+│
+├── volume
+│ ├── .zattrs # group level attributes (multiscales)
+│ └── 0 # a group containing the 0th scale
+│ └── image # a zarr array
+│ ├── .zattrs # physical coordinate system and transformations here
+│ └── .zarray # the array attributes
+└── crop
+ ├── .zattrs # group level attributes (multiscales)
+ └── 0 # a group containing the 0th scale
+ └── image # a zarr array
+ ├── .zattrs # physical coordinate system and transformations here
+ └── .zarray # the array attributes
+
+
+### Additional details
+
+Most coordinate transformations MUST specify their input and output coordinate systems using `input` and `output` with a string value
+corresponding to the name of a coordinate system. The coordinate system's name may be the path to an array, and therefore may
+not appear in the list of coordinate systems.
+
+Exceptions are if the the coordinate transformation appears in the `transformations` list of a `sequence` or is the
+`transformation` of an `inverseOf` transformation. In these two cases input and output SHOULD be omitted (see below for
+details).
+
+Transformations in the `transformations` list of a `byDimensions` transformation MUST provide `input` and `output` as arrays
+of strings corresponding to axis names of the parent transformation's input and output coordinate systems (see below for
+details).
+
+
+
+The sequence transformation's input corresponds to an array coordinate system at path "my/array".
+
+```json
+"coordinateSystems" : [
+ { "name" : "in", "axes" : [{"name" : "j"}, {"name":"i"}] },
+ { "name" : "outScale", "axes" : [{"name" : "y"}, {"name":"x"}] },
+ { "name" : "outSeq", "axes" : [{"name" : "y"}, {"name":"x"}] },
+ { "name" : "outInv", "axes" : [{"name" : "y"}, {"name":"x"}] },
+ { "name" : "outByDim", "axes" : [{"name" : "y"}, {"name":"x"}] }
+],
+"coordinateTransformations" : [
+ {
+ "type": "scale",
+ "input" : "in",
+ "output" : "outScale",
+ "scale" : [ 0.5, 1.2 ]
+ },
+ {
+ "type" : "sequence",
+ "input" : "my/array",
+ "output" : "outSeq",
+ "transformations" : [
+ { "type": "scale", "scale" : [ 0.5, 0.6 ] },
+ { "type": "translation", "translation" : [ 2, 5 ] }
+ ]
+ },
+ {
+ "type": "inverseOf",
+ "input" : "in",
+ "output" : "outInv",
+ "transformation" : {
+ "type": "displacements",
+ "path": "path/to/displacements"
+ }
+ },
+ {
+ "type": "byDimension",
+ "input" : "in",
+ "output" : "outDim",
+ "transformations" : [
+ { "type" : "translation", "translation" : [1], "input" : ["i"], "output" : ["x"]},
+ { "type" : "scale", "scale" : [2.0], "input" : ["j"], "output" : ["y"]}
+ ]
+ }
+]
+```
+
+
+
+Coordinate transformations are functions of *points* in the input space to *points* in the output space. We call this the "forward" direction.
+Points are ordered lists of coordinates, where a coordinate is the location/value of that point along its corresponding axis.
+The indexes of axis dimensions correspond to indexes into transformation parameter arrays. For example, the scale transformation above
+defines the function:
+
+```
+x = 0.5 * i
+y = 1.2 * j
+```
+
+i.e., the mapping from the first input axis to the first output axis is determined by the first scale parameter.
+
+When rendering transformed images and interpolating, implementations may need the "inverse" transformation - from the output to
+the input coordinate system. Inverse transformations will not be explicitly specified when they can be computed in closed form
+from the forward transformation. Inverse transformations used for image rendering may be specified using the `inverseOf`
+transformation type, for example:
+
+```json
+{
+ "type": "inverseOf",
+ "transformation" : {
+ "type": "displacements",
+ "path": "path/to/displacements",
+ }
+}
+```
+
+Implementations SHOULD be able to compute and apply the inverse of some coordinate transformations when they
+are computable in closed-form (as the [Transformation types](#transformation-types) section below indicates). If an
+operation is requested that requires the inverse of a transformation that can not be inverted in closed-form,
+implementations MAY estimate an inverse, or MAY output a warning that the requested operation is unsupported.
+
+
+#### Matrix transformations
+
+Two transformation types ([affine](#affine) and [rotation](#rotation)) are parametrized by matrices. Matrices are applied to
+column vectors that represent points in the input coordinate system. The first (last) axis in a coordinate system is the top
+(bottom) entry in the column vector. Matrices are stored as two-dimensional arrays, either as json or in a zarr array. When
+stored as a 2D zarr array, the first dimension indexes rows and the second dimension indexes columns (e.g., an array of
+`"shape":[3,4]` has 3 rows and 4 columns). When stored as a 2D json array, the inner array contains rows (e.g. `[[1,2,3],
+[4,5,6]]` has 2 rows and 3 columns).
+
+
+
+For matrix transformations, points in the coordinate system:
+
+```
+{ "name" : "in", "axes" : [{"name" : "z"}, {"name" : "y"}, {"name":"x"}] },
+```
+
+are represented as column vectors:
+
+```
+[z]
+[y]
+[x]
+```
+
+As a result, transforming the point `[z,y,x]=[1,2,3]` with the matrix `[[0,1,0],[-1,0,0],[0,0,-1]]`
+results in the point [2,-1,3] because it is computed with the matrix-vector multiplication:
+
+```
+[ 0 1 0] [1] [ 2]
+[-1 0 0] [2] = [-1]
+[ 0 0 -1] [3] [-3]
+```
+
+
+
+
+### Transformation types
+
+Input and output dimensionality may be determined by the value of the "input" and "output" fields, respectively. If the value
+of "input" is an array, it's length gives the input dimension, otherwise the length of "axes" for the coordinate
+system with the name of the "input" value gives the input dimension. If the value of "input" is an array, it's
+length gives the input dimension, otherwise it is given by the length of "axes" for the coordinate system with
+the name of the "input". If the value of "output" is an array, its length gives the output dimension,
+otherwise it is given by the length of "axes" for the coordinate system with the name of the "output".
+
+#### identity
+
+`identity` transformations map input coordinates to output coordinates without modification. The position of
+the ith axis of the output coordinate system is set to the position of the ith axis of the input coordinate
+system. `identity` transformations are invertible.
+
+
+
+
+path: examples/transformations/identity.json
+highlight: json
+
+
+defines the function:
+
+```
+x = i
+y = j
+```
+
+
+
+
+#### mapAxis
+
+`mapAxis` transformations describe axis permutations as a mapping of axis names. Transformations MUST include a `mapAxis` field
+whose value is an object, all of whose values are strings. If the object contains `"x":"i"`, then the transform sets the value
+of the output coordinate for axis "x" to the value of the coordinate of input axis "i" (think `x = i`). For every axis in its output coordinate
+system, the `mapAxis` MUST have a corresponding field. For every value of the object there MUST be an axis of the input
+coordinate system with that name. Note that the order of the keys could be reversed.
+
+
+
+
+
+path: examples/transformations/mapAxis1.json
+highlight: json
+
+
+The "equivalent to identity" transformation defines the function:
+
+```
+x = i
+y = j
+```
+
+and the "permutation" transformation defines the function
+
+```
+x = j
+y = i
+```
+
+
+
+
+
+
+path: examples/transformations/mapAxis2.json
+highlight: json
+
+
+The "projection_down" transformation defines the function:
+
+```
+x = b
+```
+
+and the "projection_up" transformation defines the function:
+
+```
+x = a
+y = b
+z = b
+```
+
+
+#### translation
+
+`translation` transformations are special cases of affine transformations. When possible, a
+translation transformation should be preferred to its equivalent affine. Input and output dimensionality MUST be
+identical and MUST equal the the length of the "translation" array (N). `translation` transformations are
+invertible.
+
+
+ - path
+ - The path to a zarr-array containing the translation parameters.
+ The array at this path MUST be 1D, and its length MUST be `N`.
+ - scale
+ - The scale parameters stored as a JSON list of numbers. The list MUST have length `N`.
+
+
+
+
+
+path: examples/transformations/translation.json
+highlight: json
+
+
+defines the function:
+
+```
+x = i + 9
+y = j - 1.42
+```
+
+
+#### scale
+
+`scale` transformations are special cases of affine transformations. When possible, a scale transformation
+SHOULD be preferred to its equivalent affine. Input and output dimensionality MUST be identical and MUST equal
+the the length of the "scale" array (N). Values in the `scale` array SHOULD be non-zero; in that case, `scale`
+transformations are invertible.
+
+
+ - path
+ - The path to a zarr-array containing the scale parameters.
+ The array at this path MUST be 1D, and its length MUST be `N`.
+ - scale
+ - The scale parameters stored as a JSON list of numbers. The list MUST have length `N`.
+
+
+
+
+
+path: examples/transformations/scale.json
+highlight: json
+
+
+defines the function:
+
+```
+x = 3.12 * i
+y = 2 * j
+```
+
+
+#### affine
+
+`affine`s are [matrix transformations](#matrix-transformations) from N-dimensional inputs to M-dimensional outputs are
+represented as the upper `(M)x(N+1)` sub-matrix of a `(M+1)x(N+1)` matrix in [homogeneous
+coordinates](https://en.wikipedia.org/wiki/Homogeneous_coordinates) (see examples). This transformation type may be (but is not
+necessarily) invertible when `N` equals `M`. The matrix MUST be stored as a 2D array either as json or as a zarr array.
+
+
+ - path
+ - The path to a zarr-array containing the affine parameters.
+ The array at this path MUST be 2D whose shape MUST be `M x (N+1)`.
+ - affine
+ - The affine parameters stored in JSON. The matrix MUST be stored as 2D nested array where the outer array MUST be length
+ `M` and the inner arrays MUST be length `N+1`.
+
+
+ A 2D-2D example:
+
+
+ path: examples/transformations/affine2d2d.json
+ highlight: json
+
+
+ defines the function:
+
+ ```
+ x = 1*i + 2*j + 3
+ y = 4*i + 5*j + 6
+ ```
+
+ it is equivalent to this matrix-vector multiplication in homogeneous coordinates:
+
+ ```
+ [ 1 2 3 ][ i ] [ x ]
+ [ 4 5 6 ][ j ] = [ y ]
+ [ 0 0 1 ][ 1 ] [ 1 ]
+ ```
+
+ where the last row `[0 0 1]` is omitted in the JSON representation.
+
+
+
+
+ An example with two dimensional inputs and three dimensional outputs.
+
+ Note that the order of the axes can in general be determined by the application or user.
+ These axes relate to the memory or on-disk order insofar as the last dimension is contiguous
+ when the zarr array is c-order (the default for zarr version 2, and the only option for zarr version 3).
+
+
+ path: examples/transformations/affine2d3d.json
+ highlight: json
+
+
+ defines the function:
+
+ ```
+ x = 1*i + 2*j + 3
+ y = 4*i + 5*j + 6
+ z = 7*i + 8*j + 9
+ ```
+
+ it is equivalent to this matrix-vector multiplication in homogeneous coordinates:
+
+ ```
+ [ 1 2 3 ][ i ] [ x ]
+ [ 4 5 6 ][ j ] = [ y ]
+ [ 7 8 9 ][ 1 ] [ z ]
+ [ 0 0 1 ] [ 1 ]
+ ```
+
+ where the last row `[0 0 1]` is omitted in the JSON representation.
+
+
+
+#### rotation
+
+`rotation`s are [matrix transformations](#matrix-transformations) that are special cases of affine transformations. When possible, a rotation
+transformation SHOULD be preferred to its equivalent affine. Input and output dimensionality (N) MUST be identical. Rotations
+are stored as `NxN` matrices, see below, and MUST have determinant equal to one, with orthonormal rows and columns. The matrix
+MUST be stored as a 2D array either as json or in a zarr array. `rotation` transformations are invertible.
+
+
+ - path
+ - The path to an array containing the affine parameters.
+ The array at this path MUST be 2D whose shape MUST be `N x N`.
+ - rotation
+ - The parameters stored in JSON. The matrix MUST be stored as a 2D nested array where the outer array MUST be length `N`
+ and the inner arrays MUST be length `N`.
+
+
+ A 2D example
+
+
+ path: examples/transformations/rotation.json
+ highlight: json
+
+
+ defines the function:
+
+ ```
+ x = 0*i - 1*j
+ y = 1*i + 0*j
+ ```
+
+
+
+#### inverseOf
+
+An `inverseOf` transformation contains another transformation (often non-linear), and indicates that
+transforming points from output to input coordinate systems is possible using the contained transformation.
+Transforming points from the input to the output coordinate systems requires the inverse of the contained
+transformation (if it exists).
+
+
+ Software libraries that perform image registration often return the transformation from fixed image
+ coordinates to moving image coordinates, because this "inverse" transformation is most often required
+ when rendering the transformed moving image. Results such as this may be enclosed in an `inverseOf`
+ transformation. This enables the "outer" coordinate transformation to specify the moving image coordinates
+ as `input` and fixed image coordinates as `output`, a choice that many users and developers find intuitive.
+
+
+
+
+
+
+ path: examples/transformations/inverseOf.json
+ highlight: json
+
+
+
+
+#### sequence
+
+A `sequence` transformation consists of an ordered array of coordinate transformations, and is invertible if every coordinate
+transform in the array is invertible (though could be invertible in other cases as well). To apply a sequence transformation
+to a point in the input coordinate system, apply the first transformation in the list of transformations. Next, apply the second
+transformation to the result. Repeat until every transformation has been applied. The output of the last transformation is the
+result of the sequence.
+
+
+
+Considering transformations as functions of points, if the list contains transformations `[f0, f1, f2]` in that order, applying
+this sequence to point `x` is equivalent to:
+
+```
+f2(f1(f0(x)))
+```
+
+`f0` is applied first, `f1` is applied second, and `f2` is applied last.
+
+
+
+The transformations included in the `transformations` array may omit their `input` and `output` fields under the conditions
+outlined below:
+
+- The `input` and `output` fields MAY be omitted for the following transformation types:
+ - `identity`, `scale`, `translation`, `rotation`, `affine`, `displacements`, `coordinates`
+- The `input` and `output` fields MAY be omitted for `inverseOf` transformations if those fields may be omitted for the
+ transformation it wraps
+- The `input` and `output` fields MAY be omitted for `bijection` transformations if the fields may be omitted for
+ both its `forward` and `inverse` transformations
+- The `input` and `output` fields MAY be omitted for `sequence` transformations if the fields may be omitted for
+ all transformations in the sequence after flattening the nested sequence lists.
+- The `input` and `output` fields MUST be included for transformations of type: `mapAxis`, and `byDimension`, and
+ under all other conditions.
+
+
+
+ - transformations
+ - A non-empty array of transformations.
+
+
+
+
+This sequence:
+
+
+path: examples/transformations/sequence.json
+highlight: json
+
+
+describes the function
+
+```
+x = (i + 0.1) * 2
+y = (j + 0.9) * 3
+```
+
+and is invertible.
+
+
+
+#### coordinates and displacements
+
+`coordinates` and `displacements` transformations store coordinates or displacements in an array and interpret them as a vector
+field that defines a transformation. The arrays must have a dimension corresponding to every axis of the input coordinate
+system and one additional dimension to hold components of the vector. Applying the transformation amounts to looking up the
+appropriate vector in the array, interpolating if necessary, and treating it either as a position directly (`coordinates`) or a
+displacement of the input point (`displacements`).
+
+These transformation types refer to an array at location specified by the `"path"` parameter. The input and output coordinate
+systems for these transformations ("input / output coordinate systems") constrain the array size and the coordinate system
+metadata for the array ("field coordinate system").
+
+* If the input coordinate system has `N` axes, the array at location path MUST have `N+1` dimensions
+* The field coordinate system MUST contain an axis identical to every axis of its input coordinate system in the same order.
+* The field coordinate system MUST contain an axis with type `coordinate` or `displacement` respectively for transformations of type `coordinates` or `displacements`.
+ * This SHOULD be the last axis (contiguous on disk when c-order).
+* If the output coordinate system has `M` axes, the length of the array along the `coordinate`/`displacement` dimension MUST be of length `M`.
+
+The `i`th value of the array along the `coordinate` or `displacement` axis refers to the coordinate or displacement
+of the `i`th output axis. See the example below.
+
+
+
+In this example, the array located at `"displacementField"` MUST have three dimensions. One dimension MUST
+correspond to an axis with `type : displacement` (in this example, the last dimension), the other two dimensions MUST be axes
+that are identical to the axes of the `"in"` coordinate system.
+
+```json
+"coordinateSystems" : [
+ { "name" : "in", "axes" : [{"name" : "y"}, {"name":"x"}] },
+ { "name" : "out", "axes" : [{"name" : "y"}, {"name":"x"}] }
+],
+"coordinateTransformations" : [
+ {
+ "type": "displacements",
+ "input" : "in",
+ "output" : "out",
+ "path" : "displacementField"
+ }
+]
+```
+
+The metadata at location `"displacementField"` should have a coordinate system such as:
+
+```json
+"coordinateSystems" : [
+ { "name" : "in", "axes" : [
+ {"name":"y"}, {"name":"x"},
+ {"name":"d", "type":"displacement", "discrete":true} ]
+ }
+]
+```
+
+Indexing into this array using c-order, for spatial positions `y` and `x`, the y- and x-displacements would be given by:
+
+```
+y_displacement = displacementField[y][x][0]
+x_displacement = displacementField[y][x][1]
+```
+
+I.e. the y-displacement is first, because the y-axis is the first element of the input and output coordinate systems.
+
+
+
+
+`coordinates` and `displacements` transformations are not invertible in general, but implementations MAY approximate their
+inverses. Metadata for these coordinate transforms have the following field:
+
+
+ - path
+ - The location of the coordinate array in this (or another) container.
+ - interpolation
+ - The `interpolation` attributes MAY be provided. It's value indicates
+ the interpolation to use if transforming points not on the array's discrete grid.
+ Values could be:
+
+ linear
(default)
+ nearest
+ cubic
+
+
+
+For both `coordinates` and `displacements`, the array data at referred to by `path` MUST define coordinate system and coordinate transform metadata:
+
+* Every axis name in the `coordinateTransform`'s `input` MUST appear in the coordinate system
+* The array dimension corresponding to the `coordinate` or `displacement` axis MUST have length equal to the number of dimensions of the `coordinateTransform` `output`
+* If the input coordinate system `N` axes, then the array data at `path` MUST have `(N + 1)` dimensions.
+* SHOULD have a `name` identical to the `name` of the corresponding `coordinateTransform`.
+
+For `coordinates`:
+
+* `coordinateSystem` metadata MUST have exactly one axis with `"type" : "coordinate"`
+* the shape of the array along the "coordinate" axis must be exactly `N`
+
+For `displacements`:
+
+* `coordinateSystem` metadata MUST have exactly one axis with `"type" : "displacement"`
+* the shape of the array along the "displacement" axis must be exactly `N`
+* `input` and `output` MUST have an equal number of dimensions.
+
+For example, in 1D:
+```json
+{
+ "name" : "a coordinate field transform",
+ "type": "coordinates",
+ "path" : "i2xCoordinates",
+ "input" : "i",
+ "output" : "x",
+ "interpolation" : "nearest"
+}
+```
+
+where we assume input spaces "i" and "x" are defined elsewhere.
+Example metadata for the array data at path `coordinates` above:
+
+```json
+{
+ "coordinateSystems" : [
+ {
+ "name" : "a coordinate field transform",
+ "axes" : [
+ { "name": "i", "type": "space", "discrete": true },
+ { "name": "c", "type": "coordinate", "discrete": true }
+ ]
+ }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type" : "identity",
+ "output" : "a coordinate field transform"
+ }
+ ]
+}
+```
+
+If the array in `coordinates` contains the data: `[-9, 9, 0]`, then this metadata defines the function:
+
+```
+x =
+ if ( i < 0.5 ) -9
+ else if ( i >= 0.5 and i < 1.5 ) 9
+ else if ( i >= 1.5 ) 0
+```
+
+
+A 1D example displacement field:
+```json
+{
+ "name" : "a displacement field transform",
+ "type": "displacements",
+ "path" : "displacements",
+ "input" : "i",
+ "output" : "x",
+ "interpolation" : "linear"
+}
+```
+
+where we assume input spaces "i" and "x" are defined elsewhere.
+Example metadata for the array data at path `displacements` above:
+
+```json
+{
+ "coordinateSystems" : [
+ {
+ "name" : "a displacement field transform",
+ "axes" : [
+ { "name": "x", "type": "space", "unit" : "nanometer" },
+ { "name": "d", "type": "displacement", "discrete": true }
+ ]
+ }
+ ],
+ "coordinateTransformations" : [
+ {
+ "type" : "scale",
+ "scale" : [2, 1],
+ "output" : "a displacement field transform"
+ }
+ ]
+}
+```
+If the array in `displacements` contains the data: `[-1, 0, 1]`,
+this transformation maps the point `[1.0]` to the point `[0.5]`. A scale
+transformation maps the array coordinates to the "x" axis. Using the inverse
+of the scale transform, we see that we need the position `0.5` in array coordinates.
+The transformation specifies linear interpolation, which in this case yields
+`(0.5 * -1) + (0.5 * 0) = -0.5`. That value gives us the displacement of the
+input point, hence the output is `1.0 + (-0.5) = 0.5`.
+
+
+#### byDimension
+
+`byDimension` transformations build a high dimensional transformation using lower dimensional transformations
+on subsets of dimensions.
+
+
+ - transformations
+ - A list of transformations, each of which applies to a (non-strict) subset of input and output dimensions (axes).
+ The values of `input` and `output` fields MUST be an array of strings.
+ Every axis name in `input` MUST correspond to a name of some axis in this parent object's `input` coordinate system.
+ Every axis name in the parent byDimension's `output` MUST appear in exactly one of its child transformations' `output`.
+
+
+
+
+
+
+A valid `byDimension` transformation:
+
+
+path: examples/transformations/byDimension1.json
+highlight: json
+
+
+
+
+
+
+Another valid `byDimension` transformation:
+
+
+path: examples/transformations/byDimension2.json
+highlight: json
+
+
+
+
+
+
+This is an **invalid** `byDimension` transform:
+
+
+path: examples/transformations/byDimensionInvalid1.json
+highlight: json
+
+
+It is invalid for two reasons. First because input `0` used by the scale transformation is not an axis of the `byDimension` transformation's `input`. Second, the `x` axis of the `output` does not appear in the `output` of any child transformation.
+
+
+
+
+
+Another **invalid** `byDimension` transform:
+
+
+path: examples/transformations/byDimensionInvalid2.json
+highlight: json
+
+
+This transformation is invalid because the output axis `x` appears in more than one transformation in the `transformations` list.
+
+
+
+
+#### bijection
+
+A bijection transformation is an invertible transformation in which both the `forward` and `inverse` transformations
+are explicitly defined. Each direction SHOULD be a transformation type that is not closed-form invertible.
+Its' input and output spaces MUST have equal dimension. The input and output dimensions for the both the forward
+and inverse transformations MUST match bijection's input and output space dimensions.
+
+`input` and `output` fields MAY be omitted for the `forward` and `inverse` transformations, in which case
+the `forward` transformation's `input` and `output` are understood to match the bijection's, and the `inverse`
+transformation's `input` (`output`) matches the bijection's `output` (`input`), see the example below.
+
+Practically, non-invertible transformations have finite extents, so bijection transforms should only be expected
+to be correct / consistent for points that fall within those extents. It may not be correct for any point of
+appropriate dimensionality.
+
+
+
+
+path: examples/transformations/bijection.json
+highlight: json
+
+
+the input and output of the `forward` and `inverse` transformations are understood to be:
+
+
+path: examples/transformations/bijection_verbose.json
+highlight: json
+
+
+
+
"multiscales" metadata {#multiscale-md}
---------------------------------------
-Metadata about an image can be found under the "multiscales" key in the group-level metadata. Here, image refers to 2 to 5 dimensional data representing image or volumetric data with optional time or channel axes. It is stored in a multiple resolution representation.
+Metadata about an image can be found under the "multiscales" key in the group-level metadata. Here, "image" refers to a multidimensional array with two or more dimensions. It is stored in a multiple resolution representation.
"multiscales" contains a list of dictionaries where each entry describes a multiscale image.
-Each "multiscales" dictionary MUST contain the field "axes", see [[#axes-md]].
-The length of "axes" must be between 2 and 5 and MUST be equal to the dimensionality of the zarr arrays storing the image data (see "datasets:path").
-The "axes" MUST contain 2 or 3 entries of "type:space" and MAY contain one additional entry of "type:time" and MAY contain one additional entry of "type:channel" or a null / custom type.
-The order of the entries MUST correspond to the order of dimensions of the zarr arrays. In addition, the entries MUST be ordered by "type" where the "time" axis must come first (if present), followed by the "channel" or custom axis (if present) and the axes of type "space".
-If there are three spatial axes where two correspond to the image plane ("yx") and images are stacked along the other (anisotropic) axis ("z"), the spatial axes SHOULD be ordered as "zyx".
+Each "multiscales" dictionary MUST contain the field "axes", see the [axes section](#axes-metadata).
+The length of "axes" must be greater than 1 and MUST equal the dimensionality of the zarr arrays storing the image data (see "datasets:path").
+The "axes" field SHOULD contain 2 or 3 entries with "type:space".
+The order of the entries MUST correspond to the order of dimensions of the zarr arrays. In addition, the entries SHOULD be ordered by "type" where the "time" axis must come first (if present), followed by the "channel" or custom axis (if present) and the axes of type "space".
+If there are three spatial axes where two correspond to the image plane ("yx") and images are stacked along the other axis ("z"), the spatial axes SHOULD be ordered as "zyx".
Each "multiscales" dictionary MUST contain the field "datasets", which is a list of dictionaries describing the arrays storing the individual resolution levels.
Each dictionary in "datasets" MUST contain the field "path", whose value contains the path to the array for this resolution relative
to the current zarr group. The "path"s MUST be ordered from largest (i.e. highest resolution) to smallest.
-Each "datasets" dictionary MUST have the same number of dimensions and MUST NOT have more than 5 dimensions. The number of dimensions and order MUST correspond to number and order of "axes".
+Each "datasets" dictionary MUST have the same number of dimensions. The number of dimensions and order MUST correspond to number and order of "axes".
Each dictionary in "datasets" MUST contain the field "coordinateTransformations", which contains a list of transformations that map the data coordinates to the physical coordinates (as specified by "axes") for this resolution level.
The transformations are defined according to [[#trafo-md]]. The transformation MUST only be of type `translation` or `scale`.
They MUST contain exactly one `scale` transformation that specifies the pixel size in physical units or time duration. If scaling information is not available or applicable for one of the axes, the value MUST express the scaling factor between the current resolution and the first resolution for the given axis, defaulting to 1.0 if there is no downsampling along the axis.
@@ -642,8 +1690,7 @@ Projects which support reading and/or writing OME-NGFF data include:
-
+
All implementations prevent an equivalent representation of a dataset which can be downloaded or uploaded freely. An interactive
version of this diagram is available from the [OME2020 Workshop](https://downloads.openmicroscopy.org/presentations/2020/Dundee/Workshops/NGFF/zarr_diagram/).
@@ -785,6 +1832,20 @@ Version History {#history}
"et al"
],
"date": "06 October 2020"
+ },
+ "itk":{
+ "id": "itk-book",
+ "href": "https://itk.org/ItkSoftwareGuide.pdf",
+ "title": "The ITK Software Guide",
+ "status": "Informational",
+ "publisher": "ITK",
+ "authors": [
+ "Hans J. Johnson",
+ "Matthew M. McCormick",
+ "Luis Ibanez",
+ "Insight Software Consortium"
+ ],
+ "date": "16 April 2021"
}
}
diff --git a/latest/schemas/axes.schema b/latest/schemas/axes.schema
new file mode 100644
index 00000000..56b447f2
--- /dev/null
+++ b/latest/schemas/axes.schema
@@ -0,0 +1,62 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/axes.schema",
+ "title": "NGFF Axes",
+ "description": "JSON from OME-NGFF .zattrs",
+ "type": "array",
+ "uniqueItems": true,
+ "minItems": 1,
+ "items": {
+ "$ref": "#/$defs/axis"
+ },
+ "$comment": "Ensure that there exist at most three space axes",
+ "contains": {
+ "type": "object",
+ "properties": {
+ "name": {
+ "type": "string"
+ },
+ "type": {
+ "type": "string",
+ "enum": [
+ "space"
+ ]
+ },
+ "unit": {
+ "type": "string"
+ }
+ }
+ },
+ "minContains": 0,
+ "maxContains": 3,
+ "$defs": {
+ "axis": {
+ "type": "object",
+ "properties": {
+ "name": {
+ "type": "string",
+ "description": "Name of the axis"
+ },
+ "longName": {
+ "type": "string",
+ "description": "Longer name or description of the axis."
+ },
+ "type": {
+ "type": "string",
+ "description": "Dimension of the axis"
+ },
+ "discrete": {
+ "type": "boolean",
+ "description": "Whether the dimension is discrete"
+ },
+ "unit": {
+ "type": "string",
+ "description": "Unit for the axis"
+ }
+ },
+ "required": [
+ "name"
+ ]
+ }
+ }
+}
diff --git a/latest/schemas/coordinateTransformations.schema b/latest/schemas/coordinateTransformations.schema
new file mode 100644
index 00000000..8bd35f4f
--- /dev/null
+++ b/latest/schemas/coordinateTransformations.schema
@@ -0,0 +1,296 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/coordinateTransformations.schema",
+ "title": "NGFF Coordinate Transformations",
+ "description": "JSON from OME-NGFF .zattrs",
+ "type": "array",
+ "minItems": 1,
+ "contains": {
+ "type": "object"
+ },
+ "maxContains": 1,
+ "items": {
+ "$ref": "#/$defs/transformation"
+ },
+ "$defs": {
+ "transformation" : {
+ "oneOf": [
+ {
+ "$ref": "#/$defs/scaleTransformation"
+ },
+ {
+ "$ref": "#/$defs/translationTransformation"
+ },
+ {
+ "$ref": "#/$defs/affineTransformation"
+ },
+ {
+ "$ref": "#/$defs/rotationTransformation"
+ },
+ {
+ "$ref": "#/$defs/inverseOfTransformation"
+ },
+ {
+ "$ref": "#/$defs/sequenceTransformation"
+ },
+ {
+ "$ref": "#/$defs/coordinatesTransformation"
+ },
+ {
+ "$ref": "#/$defs/displacementsTransformation"
+ },
+ {
+ "$ref": "#/$defs/byDimensionTransformation"
+ },
+ {
+ "$ref": "#/$defs/bijectionTransformation"
+ }
+ ]
+ },
+ "scaleTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "scale"
+ ]
+ },
+ "scale": {
+ "type": "array",
+ "minItems": 2,
+ "items": {
+ "type": "number"
+ }
+ },
+ "path": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "type"
+ ],
+ "oneOf": [
+ {
+ "required": ["scale"]
+ },
+ {
+ "required": ["path"]
+ }
+ ]
+ },
+ "translationTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "translation"
+ ]
+ },
+ "translation": {
+ "type": "array",
+ "minItems": 2,
+ "items": {
+ "type": "number"
+ }
+ },
+ "path": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "type"
+ ],
+ "oneOf": [
+ {
+ "required": ["translation"]
+ },
+ {
+ "required": ["path"]
+ }
+ ]
+ },
+ "affineTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "affine"
+ ]
+ },
+ "affine": {
+ "type": "array",
+ "minItems": 2,
+ "items": {
+ "type": "number"
+ }
+ },
+ "path": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "type"
+ ],
+ "oneOf": [
+ {
+ "required": ["affine"]
+ },
+ {
+ "required": ["path"]
+ }
+ ]
+ },
+ "rotationTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "rotation"
+ ]
+ },
+ "rotation": {
+ "type": "object",
+ "minItems": 2,
+ "items": {
+ "type": "number"
+ }
+ },
+ "path": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "type"
+ ],
+ "oneOf": [
+ {
+ "required": ["rotation"]
+ },
+ {
+ "required": ["path"]
+ }
+ ]
+ },
+ "inverseOfTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "inverseOf"
+ ]
+ },
+ "transformation": {
+ "type": "object"
+ }
+ },
+ "required": [
+ "type", "transformation"
+ ]
+ },
+ "sequenceTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "sequence"
+ ]
+ },
+ "transformations": {
+ "type": "array"
+ }
+ },
+ "required": [
+ "type", "transformations"
+ ]
+ },
+ "coordinatesTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "coordinates"
+ ]
+ },
+ "path": {
+ "type": "string"
+ },
+ "interpolation": {
+ "type": "string",
+ "enum": [
+ "nearest", "linear", "cubic"
+ ]
+ }
+ },
+ "required": [
+ "type", "path", "interpolation"
+ ]
+ },
+ "displacementsTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "displacements"
+ ]
+ },
+ "path": {
+ "type": "string"
+ },
+ "interpolation": {
+ "type": "string",
+ "enum": [
+ "nearest", "linear", "cubic"
+ ]
+ }
+ },
+ "required": [
+ "type", "path", "interpolation"
+ ]
+ },
+ "byDimensionTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "byDimension"
+ ]
+ },
+ "transformations": {
+ "type": "array"
+ }
+ },
+ "required": [
+ "type", "transformations"
+ ]
+ },
+ "bijectionTransformation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "bijection"
+ ]
+ },
+ "forward": {
+ "type": "object"
+ },
+ "inverse": {
+ "type": "object"
+ }
+ },
+ "required": [
+ "type", "forward", "inverse"
+ ]
+ }
+ }
+}
diff --git a/latest/schemas/coordinate_systems.schema b/latest/schemas/coordinate_systems.schema
new file mode 100644
index 00000000..583d9941
--- /dev/null
+++ b/latest/schemas/coordinate_systems.schema
@@ -0,0 +1,30 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/coordinate_systems.schema",
+ "title": "NGFF CoordinateSystem",
+ "description": "JSON from OME-NGFF .zattrs",
+ "type": "array",
+ "uniqueItems": true,
+ "items": {
+ "$ref": "#/$defs/coordinateSystem"
+ },
+ "$defs": {
+ "coordinateSystem": {
+ "description": "Coordinate Systems for OME-NGFF",
+ "type": "object",
+ "properties": {
+ "name": {
+ "type": "string",
+ "description": "Name of coordinate system"
+ },
+ "axes": {
+ "$ref": "axes.schema"
+ }
+ },
+ "required": [
+ "name",
+ "axes"
+ ]
+ }
+ }
+}
diff --git a/latest/schemas/coordinate_systems_and_transforms.schema b/latest/schemas/coordinate_systems_and_transforms.schema
new file mode 100644
index 00000000..403f78a5
--- /dev/null
+++ b/latest/schemas/coordinate_systems_and_transforms.schema
@@ -0,0 +1,45 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/coordinate_systems_and_transforms.schema",
+ "title": "NGFF Coordinate Systems and Transforms",
+ "description": "Coordinate Systems and transforms for OME-NGFF",
+ "type": "object",
+ "properties": {
+ "coordinateSystems": {
+ "$ref": "coordinate_systems.schema"
+ },
+ "coordinateTransformations": {
+ "$ref": "coordinate_transformation.schema"
+ },
+ "arrayCoordinateSystem": {
+ "type": "object",
+ "properties": {
+ "name": {
+ "type": "string",
+ "description": "Name of coordinate space"
+ },
+ "axes": {
+ "allOf": [
+ {
+ "$ref": "axes.schema"
+ },
+ {
+ "type": "array",
+ "items": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "array"
+ }
+ }
+ }
+ }
+ ]
+ }
+ },
+ "required": [
+ "axes"
+ ]
+ }
+ }
+}
diff --git a/latest/schemas/coordinate_transformation.schema b/latest/schemas/coordinate_transformation.schema
new file mode 100644
index 00000000..e5156da0
--- /dev/null
+++ b/latest/schemas/coordinate_transformation.schema
@@ -0,0 +1,344 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/coordinate_transformation.schema",
+ "title": "NGFF Coordinate Systems and Transforms",
+ "description": "Coordinate Systems and transforms for OME-NGFF",
+ "type": "array",
+ "uniqueItems": true,
+ "minItems": 1,
+ "items": {
+ "allOf": [
+ {
+ "$ref": "#/$defs/coordinateTransformation"
+ },
+ {
+ "type": "object",
+ "properties": {
+ "input": {
+ "type": "string"
+ },
+ "output": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "input",
+ "output"
+ ]
+ }
+ ]
+ },
+ "$defs": {
+ "path_w_url": {
+ "description": "Path specification. Schema local solution until https://github.com/ome/ngff/issues/144 is resolved.",
+ "type": "object",
+ "properties": {
+ "path": {
+ "type": "string"
+ },
+ "url": {
+ "type": "string",
+ "format": "uri"
+ }
+ },
+ "required": [
+ "path"
+ ]
+ },
+ "coordinateTransformation": {
+ "description": "OME-NGFF coordinate transformation.",
+ "allOf": [
+ {
+ "type": "object",
+ "properties": {
+ "name": {
+ "type": "string"
+ },
+ "type": {
+ "type": "string"
+ }
+ },
+ "required": [
+ "type"
+ ]
+ },
+ {
+ "oneOf": [
+ {
+ "$ref": "#/$defs/identity"
+ },
+ {
+ "$ref": "#/$defs/mapAxis"
+ },
+ {
+ "$ref": "#/$defs/scale"
+ },
+ {
+ "$ref": "#/$defs/translation"
+ },
+ {
+ "$ref": "#/$defs/affine"
+ },
+ {
+ "$ref": "#/$defs/rotation"
+ },
+ {
+ "$ref": "#/$defs/inverseOf"
+ },
+ {
+ "$ref": "#/$defs/bijection"
+ },
+ {
+ "$ref": "#/$defs/sequence"
+ },
+ {
+ "$ref": "#/$defs/byDimension"
+ },
+ {
+ "$ref": "#/$defs/displacements"
+ },
+ {
+ "$ref": "#/$defs/coordinates"
+ }
+ ]
+ }
+ ]
+ },
+ "byDimensionTransformation": {
+ "type": "object",
+ "description": "Transformation used inside a byDimension transformation",
+ "allOf": [
+ { "$ref": "#/$defs/coordinateTransformation" },
+ {
+ "properties": {
+ "input": {
+ "type": "array",
+ "items": {
+ "type": "string"
+ }
+ },
+ "output": {
+ "type": "array",
+ "items": {
+ "type": "string"
+ }
+ }
+ }
+ }
+ ],
+ "required": ["input", "output"]
+ },
+ "identity": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "identity"
+ }
+ }
+ },
+ "mapAxis": {
+ "type": "object",
+ "description": "Permute axes by name",
+ "properties": {
+ "type": {
+ "const": "mapAxis"
+ },
+ "mapAxis": {
+ "type": "object",
+ "patternProperties": {
+ ".*": {
+ "type": "string"
+ }
+ }
+ },
+ "required": [
+ "mapAxis"
+ ]
+ }
+ },
+ "scale": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "scale"
+ }
+ },
+ "oneOf": [
+ {
+ "$ref": "#/$defs/path_w_url"
+ },
+ {
+ "properties": {
+ "scale": {
+ "type": "array",
+ "items": {
+ "type": "number",
+ "exclusiveMinimum": 0
+ }
+ }
+ },
+ "required": [
+ "scale"
+ ]
+ }
+ ]
+ },
+ "translation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "translation"
+ }
+ },
+ "oneOf": [
+ {
+ "$ref": "#/$defs/path_w_url"
+ },
+ {
+ "properties": {
+ "translation": {
+ "type": "array",
+ "items": {
+ "type": "number"
+ }
+ }
+ },
+ "required": [
+ "translation"
+ ]
+ }
+ ]
+ },
+ "mtxFlatOrNested" : {
+ "type": "array",
+ "oneOf": [
+ {
+ "items": { "type": "number" }
+ },
+ {
+ "items": {
+ "type": "array",
+ "items" : { "type" : "number" }
+ }
+ }
+ ]
+ },
+ "affine": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "affine"
+ }
+ },
+ "oneOf": [
+ {
+ "$ref": "#/$defs/path_w_url"
+ },
+ {
+ "properties": {
+ "affine": {
+ "$ref": "#/$defs/mtxFlatOrNested"
+ },
+ "required": [
+ "affine"
+ ]
+ }
+ }
+ ]
+ },
+ "rotation": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "rotation"
+ }
+ },
+ "oneOf": [
+ {
+ "$ref": "#/$defs/path_w_url"
+ },
+ {
+ "properties": {
+ "rotation": {
+ "type": "array",
+ "items": {
+ "type": "number"
+ }
+ },
+ "required": [
+ "rotation"
+ ]
+ }
+ }
+ ]
+ },
+ "inverseOf": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "inverseOf"
+ },
+ "transformation": {
+ "$ref": "#/$defs/coordinateTransformation"
+ }
+ },
+ "required": [
+ "transformation"
+ ]
+ },
+ "bijection": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "const": "bijection"
+ },
+ "forward": {
+ "$ref": "#/$defs/coordinateTransformation"
+ },
+ "inverse": {
+ "$ref": "#/$defs/coordinateTransformation"
+ }
+ },
+ "required": [
+ "forward", "inverse"
+ ]
+ },
+ "sequence": {
+ "description": "A sequence of transformations",
+ "type": "object",
+ "properties": {
+ "type": { "const": "sequence" },
+ "transformations": {
+ "type": "array",
+ "items": {
+ "$ref": "#/$defs/coordinateTransformation"
+ }
+ }
+ }
+ },
+ "byDimension": {
+ "type": "object",
+ "properties": {
+ "type": { "const": "byDimension" },
+ "transformations": {
+ "type": "array",
+ "items": {
+ "$ref": "#/$defs/byDimensionTransformation"
+ }
+ }
+ }
+ },
+ "displacements": {
+ "type": "object",
+ "properties": {
+ "type": { "const": "displacements" }
+ }
+ },
+ "coordinates": {
+ "type": "object",
+ "properties": {
+ "type": { "const": "coordinates" }
+ }
+ }
+ }
+}
diff --git a/latest/schemas/image.schema b/latest/schemas/image.schema
index 3926c4f4..4dd3954e 100644
--- a/latest/schemas/image.schema
+++ b/latest/schemas/image.schema
@@ -24,7 +24,7 @@
"type": "string"
},
"coordinateTransformations": {
- "$ref": "#/$defs/coordinateTransformations"
+ "$ref": "coordinate_transformation.schema"
}
},
"required": ["path", "coordinateTransformations"]
@@ -36,15 +36,15 @@
"0.5-dev"
]
},
- "axes": {
- "$ref": "#/$defs/axes"
+ "coordinateSystems": {
+ "$ref": "coordinate_systems.schema"
},
"coordinateTransformations": {
- "$ref": "#/$defs/coordinateTransformations"
- }
+ "$ref": "coordinate_transformation.schema"
+ }
},
"required": [
- "datasets", "axes"
+ "datasets", "coordinateSystems"
]
},
"minItems": 1,
@@ -106,128 +106,5 @@
]
}
},
- "required": [ "multiscales" ],
-
- "$defs": {
- "axes": {
- "type": "array",
- "uniqueItems": true,
- "minItems": 2,
- "maxItems": 5,
- "contains": {
- "type": "object",
- "properties": {
- "name": {
- "type": "string"
- },
- "type": {
- "type": "string",
- "enum": ["space"]
- },
- "units": {
- "type": "string"
- }
- }
- },
- "minContains": 2,
- "maxContains": 3,
- "items": {
- "oneOf": [
- {
- "type": "object",
- "properties": {
- "name": {
- "type": "string"
- },
- "type": {
- "type": "string",
- "enum": ["channel", "time", "space"]
- }
- },
- "required": ["name", "type"]
- },
- {
- "type": "object",
- "properties": {
- "name": {
- "type": "string"
- },
- "type": {
- "type": "string",
- "not": {
- "enum": ["space", "time", "channel"]
- }
- }
- },
- "required": ["name"]
- }
- ]
- }
- },
- "coordinateTransformations": {
- "type": "array",
- "minItems": 1,
- "contains": {
- "type": "object",
- "properties": {
- "type": {
- "type": "string",
- "enum": [
- "scale"
- ]
- },
- "scale": {
- "type": "array",
- "minItems": 2,
- "items": {
- "type": "number"
- }
- }
- }
- },
- "maxContains": 1,
- "items": {
- "oneOf": [
- {
- "type": "object",
- "properties": {
- "type": {
- "type": "string",
- "enum": [
- "scale"
- ]
- },
- "scale": {
- "type": "array",
- "minItems": 2,
- "items": {
- "type": "number"
- }
- }
- },
- "required": ["type", "scale"]
- },
- {
- "type": "object",
- "properties": {
- "type": {
- "type": "string",
- "enum": [
- "translation"
- ]
- },
- "translation": {
- "type": "array",
- "minItems": 2,
- "items": {
- "type": "number"
- }
- }
- },
- "required": ["type", "translation"]
- }
- ]
- }
- }
- }
+ "required": [ "multiscales" ]
}
diff --git a/latest/schemas/strict_axes.schema b/latest/schemas/strict_axes.schema
new file mode 100644
index 00000000..522602d2
--- /dev/null
+++ b/latest/schemas/strict_axes.schema
@@ -0,0 +1,30 @@
+{
+ "$schema": "https://json-schema.org/draft/2020-12/schema",
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/strict_axes.schema",
+ "title": "NGFF Strict Axes",
+ "description": "JSON from OME-NGFF .zattrs",
+ "allOf": [
+ {
+ "$ref": "https://ngff.openmicroscopy.org/latest/schemas/axes.schema"
+ },
+ {
+ "items": {
+ "type": "object",
+ "properties": {
+ "type": {
+ "type": "string",
+ "enum": [
+ "array",
+ "channel",
+ "time",
+ "space",
+ "displacement",
+ "coordinate",
+ "frequency"
+ ]
+ }
+ }
+ }
+ }
+ ]
+}
diff --git a/latest/schemas/strict_coordinate_systems.schema b/latest/schemas/strict_coordinate_systems.schema
new file mode 100644
index 00000000..425ccbe5
--- /dev/null
+++ b/latest/schemas/strict_coordinate_systems.schema
@@ -0,0 +1,18 @@
+{
+ "$id": "https://ngff.openmicroscopy.org/latest/schemas/strict_coordinate_systems.schema",
+ "allOf" : [
+ {
+ "$ref": "coordinate_systems.schema"
+ },
+ {
+ "items": {
+ "type": "object",
+ "properties": {
+ "axes": {
+ "$ref": "strict_axes.schema"
+ }
+ }
+ }
+ }
+ ]
+}
diff --git a/latest/schemas/strict_image.schema b/latest/schemas/strict_image.schema
index bcecc003..4f631ba2 100644
--- a/latest/schemas/strict_image.schema
+++ b/latest/schemas/strict_image.schema
@@ -8,6 +8,11 @@
"properties": {
"multiscales": {
"items": {
+ "properties" : {
+ "coordinateSystems": {
+ "$ref": "strict_coordinate_systems.schema"
+ }
+ },
"required": [
"version", "metadata", "type", "name"
]
@@ -16,4 +21,4 @@
}
}
]
-}
\ No newline at end of file
+}
diff --git a/latest/tests/image_suite.json b/latest/tests/image_suite.json
index 39cb73d5..e017dac0 100644
--- a/latest/tests/image_suite.json
+++ b/latest/tests/image_suite.json
@@ -10,23 +10,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "t",
- "type": "time",
- "units": "micrometer"
- },
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -36,12 +19,36 @@
0.13,
0.13
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "mismatch_axes_units"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "mismatch_axes_units",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -53,21 +60,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "angle"
- },
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -78,12 +70,34 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "untyped_axes"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "untyped_axes",
+ "axes": [
+ {
+ "name": "angle"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -106,21 +120,28 @@
"scale": [
1,
1
- ]
+ ],
+ "input": "/0",
+ "output": "missing_version"
}
]
}
],
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
+ "coordinateSystems": [
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "name": "missing_version",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
}
]
}
@@ -134,18 +155,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micron"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -155,12 +164,31 @@
0.13,
0.13
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "invalid_axis_units"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "invalid_axis_units",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micron"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -183,7 +211,9 @@
"scale": [
1,
1
- ]
+ ],
+ "input": "/0",
+ "output": "invalid_axis_units"
}
]
}
@@ -200,16 +230,21 @@
"multichannel": true
}
},
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
+ "coordinateSystems": [
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
}
]
}
@@ -223,22 +258,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "angle",
- "type": "custom"
- },
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -249,12 +268,35 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "custom_type_axes"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "custom_type_axes",
+ "axes": [
+ {
+ "name": "angle",
+ "type": "custom"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -266,18 +308,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -287,33 +317,42 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "custom_type_axes"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "duplicate_axes",
+ "axes": [
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
"valid": false
},
{
- "formerly": "invalid/missing_space_axes.json",
+ "formerly": "valid/no_space_axes.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "t",
- "type": "time"
- },
- {
- "name": "c",
- "type": "channel"
- }
- ],
"datasets": [
{
"path": "0",
@@ -323,16 +362,33 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "no_space_axes"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "no_space_axes",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
"formerly": "invalid/invalid_transformation_type.json",
@@ -340,18 +396,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -361,35 +405,42 @@
1,
1
],
- "type": "translation"
+ "type": "translation",
+ "input": "/0",
+ "output": "transformation_type"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "transformation_type",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
"valid": false
},
{
- "formerly": "invalid/missing_scale.json",
+ "formerly": "invalid/translation_only.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -399,49 +450,42 @@
1,
1
],
- "type": "translation"
+ "type": "translation",
+ "input": "/0",
+ "output": "transformation_type"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "transformation_type",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
- "formerly": "invalid/too_many_axes.json",
+ "formerly": "valid/many_axes.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "angle",
- "type": "custom"
- },
- {
- "name": "t",
- "type": "time"
- },
- {
- "name": "c",
- "type": "channel"
- },
- {
- "name": "z",
- "type": "space"
- },
- {
- "name": "y",
- "type": "space"
- },
- {
- "name": "x",
- "type": "space"
- }
- ],
"datasets": [
{
"path": "0",
@@ -455,16 +499,49 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "many_axes"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "many_axes",
+ "axes": [
+ {
+ "name": "angle",
+ "type": "custom"
+ },
+ {
+ "name": "t",
+ "type": "time"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space"
+ },
+ {
+ "name": "y",
+ "type": "space"
+ },
+ {
+ "name": "x",
+ "type": "space"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
"formerly": "invalid/invalid_channels_color.json",
@@ -472,18 +549,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -493,27 +558,46 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "invalid_channels_color"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "invalie_channels_color",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
],
"omero": {
"channels": [
{
"active": true,
- "coefficient": 1.0,
+ "coefficient": 1,
"color": 255,
"family": "linear",
"label": "1234",
"window": {
- "end": 1765.0,
- "max": 2555.0,
- "min": 5.0,
- "start": 0.0
+ "end": 1765,
+ "max": 2555,
+ "min": 5,
+ "start": 0
}
}
]
@@ -527,16 +611,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "type": "space",
- "units": "micron"
- },
- {
- "type": "space",
- "units": "micron"
- }
- ],
"datasets": [
{
"path": "0",
@@ -546,30 +620,40 @@
0.13,
0.13
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "missing_axes_name"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "missing_axes_name",
+ "axes": [
+ {
+ "type": "space",
+ "unit": "micron"
+ },
+ {
+ "type": "space",
+ "unit": "micron"
+ }
+ ]
+ }
+ ]
}
]
},
"valid": false
},
{
- "formerly": "invalid/invalid_axes_count.json",
+ "formerly": "valid/one_axis.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -579,37 +663,37 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "one_axis"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "one_axis",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
- "formerly": "invalid/one_space_axes.json",
+ "formerly": "valid/one_space_axes.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "t",
- "type": "time"
- },
- {
- "name": "c",
- "type": "channel"
- },
- {
- "name": "x",
- "type": "space"
- }
- ],
"datasets": [
{
"path": "0",
@@ -620,16 +704,37 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "x",
+ "type": "space"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
"formerly": "invalid/invalid_path.json",
@@ -637,18 +742,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": 0,
@@ -658,12 +751,31 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -675,18 +787,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -696,7 +796,9 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
@@ -706,10 +808,29 @@
"scale": [
"invalid"
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -721,24 +842,29 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0"
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -750,20 +876,25 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
+ "datasets": [],
+ "version": "0.5-dev",
+ "coordinateSystems": [
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
}
- ],
- "datasets": [],
- "version": "0.5-dev"
+ ]
}
]
},
@@ -775,19 +906,24 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
+ "version": "0.5-dev",
+ "coordinateSystems": [
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
}
- ],
- "version": "0.5-dev"
+ ]
}
]
},
@@ -808,7 +944,9 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
@@ -825,18 +963,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -846,12 +972,31 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.3"
+ "version": "0.3",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -863,18 +1008,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "invalid",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -884,69 +1017,99 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "invalid",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
- "formerly": "invalid/duplicate_scale.json",
- "description": "TBD",
+ "formerly": "valid/two_scales.json",
+ "description": "A sequence of two scales. Valid, but not recommended.",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
"coordinateTransformations": [
{
- "scale": [
- 1,
- 1
- ],
- "type": "scale"
+ "type": "sequence",
+ "input": "/0",
+ "output": "out",
+ "transformations": [
+ {
+ "scale": [
+ 1,
+ 1
+ ],
+ "type": "scale"
+ },
+ {
+ "scale": [
+ 1,
+ 1
+ ],
+ "type": "scale"
+ }
+ ]
+ }
+ ]
+ }
+ ],
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
},
{
- "scale": [
- 1,
- 1
- ],
- "type": "scale"
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
}
]
}
- ],
- "version": "0.5-dev"
+ ]
}
]
},
- "valid": false
+ "valid": true
},
{
- "formerly": "invalid/no_axes.json",
+ "formerly": "invalid/no_coordinateSystems.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [],
"datasets": [
{
"path": "0",
@@ -956,12 +1119,20 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": []
+ }
+ ]
}
]
},
@@ -973,24 +1144,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "X",
- "type": "space"
- },
- {
- "name": "z",
- "type": "space"
- },
- {
- "name": "y",
- "type": "space"
- },
- {
- "name": "x",
- "type": "space"
- }
- ],
"datasets": [
{
"path": "0",
@@ -1002,12 +1155,37 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "X",
+ "type": "space"
+ },
+ {
+ "name": "z",
+ "type": "space"
+ },
+ {
+ "name": "y",
+ "type": "space"
+ },
+ {
+ "name": "x",
+ "type": "space"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -1028,18 +1206,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
@@ -1049,27 +1215,46 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "out"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
],
"omero": {
"channels": [
{
"active": true,
- "coefficient": 1.0,
+ "coefficient": 1,
"color": "ff0000",
"family": "linear",
"label": "1234",
"window": {
"end": "100",
- "max": 2555.0,
- "min": 5.0,
- "start": 0.0
+ "max": 2555,
+ "min": 5,
+ "start": 0
}
}
]
@@ -1083,25 +1268,30 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"path": "0",
"coordinateTransformations": []
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -1113,18 +1303,6 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
- ],
"datasets": [
{
"coordinateTransformations": [
@@ -1133,12 +1311,31 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "missing_path"
}
]
}
],
- "version": "0.5-dev"
+ "version": "0.5-dev",
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
diff --git a/latest/tests/strict_image_suite.json b/latest/tests/strict_image_suite.json
index b8aeebe1..d55069fb 100644
--- a/latest/tests/strict_image_suite.json
+++ b/latest/tests/strict_image_suite.json
@@ -12,31 +12,65 @@
{
"version": "0.5-dev",
"name": "example",
- "axes": [
- {
- "name": "t",
- "type": "time",
- "unit": "millisecond"
- },
- {
- "name": "c",
- "type": "channel"
- },
- {
- "name": "z",
- "type": "space",
- "unit": "micrometer"
- },
- {
- "name": "y",
- "type": "space",
- "unit": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "unit": "micrometer"
- }
+ "coordinateSystems": [
+ {
+ "name": "example",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time",
+ "unit": "millisecond"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ },
+ {
+ "name": "tmp",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time",
+ "unit": "millisecond"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
],
"datasets": [
{
@@ -45,12 +79,14 @@
{
"type": "scale",
"scale": [
- 1.0,
- 1.0,
+ 1,
+ 1,
0.5,
0.5,
0.5
- ]
+ ],
+ "input": "/0",
+ "output": "tmp"
}
]
},
@@ -65,7 +101,9 @@
1.0,
1.0,
1.0
- ]
+ ],
+ "input": "/1",
+ "output": "tmp"
}
]
},
@@ -80,7 +118,9 @@
2.0,
2.0,
2.0
- ]
+ ],
+ "input": "/2",
+ "output": "tmp"
}
]
}
@@ -94,7 +134,9 @@
1.0,
1.0,
1.0
- ]
+ ],
+ "input": "tmp",
+ "output": "example"
}
],
"type": "gaussian",
@@ -106,30 +148,128 @@
"kwargs": {
"multichannel": true
}
- }
+ },
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time",
+ "unit": "millisecond"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
"valid": true
},
{
- "formerly": "valid_strict/multiscales_transformations.json",
+ "formerly": "invalid_strict/multiscales_nonstandard_axis_type.json",
"description": "TBD",
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
+ "version": "0.5-dev",
+ "name": "example",
+ "coordinateSystems": [
+ {
+ "name": "nonstandard_axis",
+ "axes": [
+ {
+ "name": "c",
+ "type": "custom",
+ "unit": ""
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ],
+ "datasets": [
{
- "name": "x",
- "type": "space",
- "units": "micrometer"
+ "path": "0",
+ "coordinateTransformations": [
+ {
+ "type": "scale",
+ "scale": [
+ 1.0,
+ 1.0,
+ 1.0
+ ],
+ "input": "/0",
+ "output": "nonstandard_axis"
+ }
+ ]
}
],
+ "type": "gaussian",
+ "metadata": {
+ "description": "the fields in metadata depend on the downscaling implementation. Here, the parameters passed to the skimage function are given",
+ "method": "skimage.transform.pyramid_gaussian",
+ "version": "0.16.1",
+ "args": "[true]",
+ "kwargs": {
+ "multichannel": true
+ }
+ }
+ }
+ ]
+ },
+ "valid": false
+ },
+ {
+ "formerly": "valid_strict/multiscales_transformations.json",
+ "description": "TBD",
+ "data": {
+ "multiscales": [
+ {
+ "coordinateSystems": [
+ {
+ "name": "multiscales_transformations",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ],
"datasets": [
{
"path": "0",
@@ -139,7 +279,9 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "example"
}
]
}
@@ -150,7 +292,9 @@
10,
10
],
- "type": "scale"
+ "type": "scale",
+ "input": "out",
+ "output": "multiscales_transformations"
}
],
"version": "0.5-dev",
@@ -158,7 +302,24 @@
"type": "foo",
"metadata": {
"key": "value"
- }
+ },
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -184,7 +345,9 @@
"scale": [
1,
1
- ]
+ ],
+ "input": "/path/to/0",
+ "output": "image_metadata"
}
]
}
@@ -201,17 +364,22 @@
"multichannel": true
}
},
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
+ "coordinateSystems": [
+ {
+ "name": "image_metadata",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
]
}
]
@@ -224,17 +392,22 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
+ "coordinateSystems": [
+ {
+ "name": "image",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
],
"datasets": [
{
@@ -245,7 +418,9 @@
1,
1
],
- "type": "scale"
+ "type": "scale",
+ "input": "/0",
+ "output": "image"
}
]
}
@@ -255,7 +430,24 @@
"type": "foo",
"metadata": {
"key": "value"
- }
+ },
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
]
},
@@ -267,54 +459,66 @@
"data": {
"multiscales": [
{
- "axes": [
- {
- "name": "t",
- "type": "time"
- },
- {
- "name": "c",
- "type": "channel"
- },
- {
- "name": "z",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "y",
- "type": "space",
- "units": "micrometer"
- },
- {
- "name": "x",
- "type": "space",
- "units": "micrometer"
- }
+ "coordinateSystems": [
+ {
+ "name": "image_omero",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
],
"datasets": [
{
"path": "0",
"coordinateTransformations": [
{
- "scale": [
- 1,
- 1,
- 0.5,
- 0.13,
- 0.13
- ],
- "type": "scale"
- },
- {
- "translation": [
- 0,
- 9,
- 0.5,
- 25.74,
- 21.58
- ],
- "type": "translation"
+ "type": "sequence",
+ "transformations" : [
+ {
+ "scale": [
+ 1,
+ 1,
+ 0.5,
+ 0.13,
+ 0.13
+ ],
+ "type": "scale"
+ },
+ {
+ "translation": [
+ 0,
+ 9,
+ 0.5,
+ 25.74,
+ 21.58
+ ],
+ "type": "translation"
+ }
+ ],
+ "input": "/0",
+ "output": "image_omero"
}
]
},
@@ -329,7 +533,9 @@
0.26,
0.26
],
- "type": "scale"
+ "type": "scale",
+ "input": "/1",
+ "output": "image_omero"
}
]
}
@@ -339,37 +545,67 @@
"type": "foo",
"metadata": {
"key": "value"
- }
+ },
+ "coordinateSystems": [
+ {
+ "name": "tmpname",
+ "axes": [
+ {
+ "name": "t",
+ "type": "time"
+ },
+ {
+ "name": "c",
+ "type": "channel"
+ },
+ {
+ "name": "z",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "y",
+ "type": "space",
+ "unit": "micrometer"
+ },
+ {
+ "name": "x",
+ "type": "space",
+ "unit": "micrometer"
+ }
+ ]
+ }
+ ]
}
],
"omero": {
"channels": [
{
"active": true,
- "coefficient": 1.0,
+ "coefficient": 1,
"color": "00FF00",
"family": "linear",
"inverted": false,
"label": "FITC",
"window": {
- "end": 813.0,
- "max": 870.0,
- "min": 102.0,
- "start": 82.0
+ "end": 813,
+ "max": 870,
+ "min": 102,
+ "start": 82
}
},
{
"active": true,
- "coefficient": 1.0,
+ "coefficient": 1,
"color": "FF0000",
"family": "linear",
"inverted": false,
"label": "RD-TR-PE",
"window": {
- "end": 815.0,
- "max": 441.0,
- "min": 129.0,
- "start": 78.0
+ "end": 815,
+ "max": 441,
+ "min": 129,
+ "start": 78
}
}
],
diff --git a/latest/tests/test_validation.py b/latest/tests/test_validation.py
index 8c13b113..d631bd10 100644
--- a/latest/tests/test_validation.py
+++ b/latest/tests/test_validation.py
@@ -49,6 +49,11 @@ def pytest_generate_tests(metafunc):
if "suite" in metafunc.fixturenames:
suites: List[Schema] = []
ids: List[str] = []
+ schema_store = {}
+ for filename in glob.glob("schemas/*.schema"):
+ with open(filename) as o:
+ schema = json.load(o)
+ schema_store[schema["$id"]] = schema
# Validation
for filename in glob.glob("tests/*.json"):
diff --git a/latest/transform-details.bs b/latest/transform-details.bs
new file mode 100644
index 00000000..b2b744c8
--- /dev/null
+++ b/latest/transform-details.bs
@@ -0,0 +1,106 @@
+
+Title: Coordinates and Transformations
+Shortname: ome-ngff-transformations
+Level: 1
+Status: LS-COMMIT
+Status: w3c/ED
+Group: ome
+URL: https://ngff.openmicroscopy.org/latest/
+Repository: https://github.com/ome/ngff
+Issue Tracking: Forums https://forum.image.sc/tag/ome-ngff
+Logo: http://www.openmicroscopy.org/img/logos/ome-logomark.svg
+Local Boilerplate: header no
+Local Boilerplate: copyright no
+Boilerplate: style-darkmode off
+Markup Shorthands: markdown yes
+Editor: Josh Moore, Open Microscopy Environment (OME) https://www.openmicroscopy.org
+Editor: Sébastien Besson, Open Microscopy Environment (OME) https://www.openmicroscopy.org
+Editor: Constantin Pape, European Molecular Biology Laboratory (EMBL) https://www.embl.org/sites/heidelberg/
+Editor: John Bogovic, Hughes Medical Institute Janelia (HHMI) https://www.janelia.org/
+Abstract: This document contains next-generation file format (NGFF)
+Abstract: specifications for storing bioimaging data in the cloud.
+Abstract: All specifications are submitted to the https://image.sc community for review.
+Status Text: The current released version of this specification is
+Status Text: will be provided between numbered versions. Data written with these latest changes
+Status Text: (an "editor's draft") will not necessarily be supported.
+
+
+Coordinates and Axes {#coords-axes}
+=====================
+
+OME-NGFF datasets are arrays that hold values. The arrays may be indexed by discrete (integer)
+coordinates in order to obtain a corresponding value. If values are desired at continuous (real-valued)
+coordinates, then interpolation is required.
+
+Interpolation {#interp}
+---------------------
+
+Interpolation is the process of producing values at continuous coordinates from data sampled at discrete
+coordinates. "Nearest-neighbor" and "N-Linear" are the two most commonly used interpolation methods.
+
+
+Pixel coordinates {#pix-coords}
+---------------------
+
+**The pixel center is the origin of the continuous coordinate system.**
+
+### Top-left convention
+
+A common alternative convention is for the origin in the continuous space is at the "top-left" of the pixel.
+This is not recommended, but can be acheived by explicitly adding a half-pixel translation, for example:
+
+```json
+{
+ "name": "center_to_top-left",
+ "type": "translation",
+ "translation" : [0.5, 0.5],
+ "output_space" : "top-left-space"
+}
+```
+
+Coordinate Transformations {#coord-tforms}
+=====================
+
+This document describes background and motivation that is outside the NGFF specification.
+
+
+Direction {#direction}
+---------------------
+
+Specified coordinate transforms are in the "forward" direction. They represent functions
+from *points* in the input space to *points* in the output space. For example, the transformation `"ij2xy"`
+
+
+```json
+{
+ "name": "ij2xy",
+ "type": "scale",
+ "scale": [2, 0.5]
+ "input_axes" : ["i", "j"]
+ "output_axes" : ["x", "y"]
+}
+```
+
+representes the function
+
+```
+x = 2 * i
+y = 0.5 * j
+```
+
+
+Recommendations {#recommendations}
+=====================
+
+
+"Native" physical space
+---------------------
+
+Datasets SHOULD define a transformation from array space to their "native physical space."
+This transformation SHOULD describe physical pixel spacing and origin only, and therefore SHOULD consist of
+`scale` and/or `translation` types only.
+
+Subsequent reorientation / registration transformations SHOULD use this native space as their `input_space`,
+i.e., transformations should be defined in physical coordinates.
+
+