// META: title=validation tests for WebNN API instanceNormalization operation // META: global=window,dedicatedworker // META: script=../resources/utils_validation.js 'use strict'; const kExampleInputDescriptor = { dataType: 'float32', dimensions: [2, 2, 2, 2] }; // 1D tensor descriptor which may be used for `scale`, or `bias` inputs. const kExample1DTensorDescriptor = { dataType: 'float32', dimensions: [2] }; multi_builder_test(async (t, builder, otherBuilder) => { const inputFromOtherBuilder = otherBuilder.input('input', kExampleInputDescriptor); assert_throws_js( TypeError, () => builder.instanceNormalization(inputFromOtherBuilder)); }, '[instanceNormalization] throw if input is from another builder'); multi_builder_test(async (t, builder, otherBuilder) => { const scaleFromOtherBuilder = otherBuilder.input('scale', kExample1DTensorDescriptor); const options = {scale: scaleFromOtherBuilder}; const input = builder.input('input', kExampleInputDescriptor); assert_throws_js( TypeError, () => builder.instanceNormalization(input, options)); }, '[instanceNormalization] throw if scale option is from another builder'); multi_builder_test(async (t, builder, otherBuilder) => { const biasFromOtherBuilder = otherBuilder.input('bias', kExample1DTensorDescriptor); const options = {bias: biasFromOtherBuilder}; const input = builder.input('input', kExampleInputDescriptor); assert_throws_js( TypeError, () => builder.instanceNormalization(input, options)); }, '[instanceNormalization] throw if bias option is from another builder'); const tests = [ { name: '[instanceNormalization] Test with default options for 4-D input.', input: {dataType: 'float32', dimensions: [1, 2, 3, 4]}, output: {dataType: 'float32', dimensions: [1, 2, 3, 4]} }, { name: '[instanceNormalization] Test with scale, bias and default epsilon value.', input: {dataType: 'float32', dimensions: [1, 2, 3, 4]}, options: { scale: {dataType: 'float32', dimensions: [2]}, bias: {dataType: 'float32', dimensions: [2]}, epsilon: 1e-5, }, output: {dataType: 'float32', dimensions: [1, 2, 3, 4]} }, { name: '[instanceNormalization] Test with a non-default epsilon value.', input: {dataType: 'float32', dimensions: [1, 2, 3, 4]}, options: { epsilon: 1e-4, }, output: {dataType: 'float32', dimensions: [1, 2, 3, 4]} }, { name: '[instanceNormalization] Test with layout=nhwc.', input: {dataType: 'float32', dimensions: [1, 2, 3, 4]}, options: { layout: 'nhwc', scale: {dataType: 'float32', dimensions: [4]}, bias: {dataType: 'float32', dimensions: [4]}, }, output: {dataType: 'float32', dimensions: [1, 2, 3, 4]} }, { name: '[instanceNormalization] Test when the input data type is float16.', input: {dataType: 'float16', dimensions: [1, 2, 3, 4]}, output: {dataType: 'float16', dimensions: [1, 2, 3, 4]} }, { name: '[instanceNormalization] Throw if the input is not a 4-D tensor.', input: {dataType: 'float32', dimensions: [1, 2, 5, 5, 2]}, }, { name: '[instanceNormalization] Throw if the input data type is not one of floating point types.', input: {dataType: 'int32', dimensions: [1, 2, 5, 5]}, }, { name: '[instanceNormalization] Throw if the scale data type is not the same as the input data type.', input: {dataType: 'float16', dimensions: [1, 2, 5, 5]}, options: { scale: {dataType: 'float32', dimensions: [2]}, }, }, { name: '[instanceNormalization] Throw if the scale operand is not a 1-D tensor.', input: {dataType: 'float32', dimensions: [1, 2, 5, 5]}, options: { scale: {dataType: 'float32', dimensions: [2, 1]}, }, }, { name: '[instanceNormalization] Throw if the size of scale operand is not equal to the size of the feature dimension of the input with layout=nhwc.', input: {dataType: 'float32', dimensions: [1, 2, 5, 5]}, options: { layout: 'nhwc', scale: {dataType: 'float32', dimensions: [2]}, }, }, { name: '[instanceNormalization] Throw if the size of scale operand is not equal to the size of the feature dimension of the input with layout=nchw.', input: {dataType: 'float32', dimensions: [1, 5, 5, 2]}, options: { layout: 'nchw', scale: {dataType: 'float32', dimensions: [2]}, }, }, { name: '[instanceNormalization] Throw if the bias data type is not the same as the input data type.', input: {dataType: 'float16', dimensions: [1, 2, 5, 5]}, options: { bias: {dataType: 'float32', dimensions: [2]}, }, }, { name: '[instanceNormalization] Throw if the bias operand is not a 1-D tensor.', input: {dataType: 'float32', dimensions: [1, 2, 5, 5]}, options: { scale: {dataType: 'float32', dimensions: [2, 1]}, }, }, { name: '[instanceNormalization] Throw if the size of bias operand is not equal to the size of the feature dimension of the input with layout=nhwc.', input: {dataType: 'float32', dimensions: [1, 2, 5, 5]}, options: { layout: 'nhwc', bias: {dataType: 'float32', dimensions: [2]}, }, }, { name: '[instanceNormalization] Throw if the size of bias operand is not equal to the size of the feature dimension of the input with layout=nchw.', input: {dataType: 'float32', dimensions: [1, 5, 5, 2]}, options: { layout: 'nchw', bias: {dataType: 'float32', dimensions: [2]}, }, }, ]; tests.forEach( test => promise_test(async t => { const input = builder.input( 'input', {dataType: test.input.dataType, dimensions: test.input.dimensions}); if (test.options && test.options.bias) { test.options.bias = builder.input('bias', { dataType: test.options.bias.dataType, dimensions: test.options.bias.dimensions }); } if (test.options && test.options.scale) { test.options.scale = builder.input('scale', { dataType: test.options.scale.dataType, dimensions: test.options.scale.dimensions }); } if (test.output) { const output = builder.instanceNormalization(input, test.options); assert_equals(output.dataType(), test.output.dataType); assert_array_equals(output.shape(), test.output.dimensions); } else { assert_throws_js( TypeError, () => builder.instanceNormalization(input, test.options)); } }, test.name));