runtime/test/generated/spec_V1_1/cts/space_to_batch_quant8_1.model.cpp - platform/packages/modules/NeuralNetworks - Git at Google

 // Generated from space_to_batch_quant8_1.mod.py
 // DO NOT EDIT
 // clang-format off
 #include "TestGenerated.h"

 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type3);
   // Phase 2, operations
   static int32_t block_size_init[] = {2, 2};
   model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
   static int32_t paddings_init[] = {0, 0, 0, 0};
   model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input},
     {output});
   assert(model->isValid());
 }

 bool is_ignored(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_dynamic_output_shape(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type4);
   // Phase 2, operations
   static int32_t block_size_init[] = {2, 2};
   model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
   static int32_t paddings_init[] = {0, 0, 0, 0};
   model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_dynamic_output_shape(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_inputs_as_internal(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
   OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
   OperandType type6(Type::INT32, {});
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type3);
   auto input_tmp = model->addOperand(&type0);
   auto dummy = model->addOperand(&type5);
   auto param = model->addOperand(&type6);
   // Phase 2, operations
   static int32_t block_size_init[] = {2, 2};
   model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
   static int32_t paddings_init[] = {0, 0, 0, 0};
   model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
   static uint8_t dummy_init[] = {0};
   model->setOperandValue(dummy, dummy_init, sizeof(uint8_t) * 1);
   static int32_t param_init[] = {0};
   model->setOperandValue(param, param_init, sizeof(int32_t) * 1);
   model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy, param}, {input});
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input_tmp},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_inputs_as_internal(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_inputs_as_internal_dynamic_output_shape(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
   OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
   OperandType type6(Type::INT32, {});
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type4);
   auto input_tmp = model->addOperand(&type0);
   auto dummy1 = model->addOperand(&type5);
   auto param1 = model->addOperand(&type6);
   // Phase 2, operations
   static int32_t block_size_init[] = {2, 2};
   model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
   static int32_t paddings_init[] = {0, 0, 0, 0};
   model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
   static uint8_t dummy1_init[] = {0};
   model->setOperandValue(dummy1, dummy1_init, sizeof(uint8_t) * 1);
   static int32_t param1_init[] = {0};
   model->setOperandValue(param1, param1_init, sizeof(int32_t) * 1);
   model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy1, param1}, {input});
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input_tmp},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_inputs_as_internal_dynamic_output_shape(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_tensors_as_inputs(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type3);
   // Phase 2, operations
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input, block_size, paddings},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_tensors_as_inputs(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_tensors_as_inputs_dynamic_output_shape(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type4);
   // Phase 2, operations
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {input, block_size, paddings},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_tensors_as_inputs_dynamic_output_shape(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_tensors_as_inputs_all_inputs_as_internal(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
   OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
   OperandType type6(Type::INT32, {});
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type3);
   auto input_tmp = model->addOperand(&type0);
   auto dummy2 = model->addOperand(&type5);
   auto param2 = model->addOperand(&type6);
   // Phase 2, operations
   static uint8_t dummy2_init[] = {0};
   model->setOperandValue(dummy2, dummy2_init, sizeof(uint8_t) * 1);
   static int32_t param2_init[] = {0};
   model->setOperandValue(param2, param2_init, sizeof(int32_t) * 1);
   model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy2, param2}, {input});
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {block_size, paddings, input_tmp},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_tensors_as_inputs_all_inputs_as_internal(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
 namespace generated_tests::space_to_batch_quant8_1 {

 void CreateModel_all_tensors_as_inputs_all_inputs_as_internal_dynamic_output_shape(Model *model) {
   OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
   OperandType type1(Type::TENSOR_INT32, {2});
   OperandType type2(Type::TENSOR_INT32, {2, 2});
   OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
   OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
   OperandType type6(Type::INT32, {});
   // Phase 1, operands
   auto input = model->addOperand(&type0);
   auto block_size = model->addOperand(&type1);
   auto paddings = model->addOperand(&type2);
   auto output = model->addOperand(&type4);
   auto input_tmp = model->addOperand(&type0);
   auto dummy3 = model->addOperand(&type5);
   auto param3 = model->addOperand(&type6);
   // Phase 2, operations
   static uint8_t dummy3_init[] = {0};
   model->setOperandValue(dummy3, dummy3_init, sizeof(uint8_t) * 1);
   static int32_t param3_init[] = {0};
   model->setOperandValue(param3, param3_init, sizeof(int32_t) * 1);
   model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy3, param3}, {input});
   model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
   // Phase 3, inputs and outputs
   model->identifyInputsAndOutputs(
     {block_size, paddings, input_tmp},
     {output});
   assert(model->isValid());
 }

 bool is_ignored_all_tensors_as_inputs_all_inputs_as_internal_dynamic_output_shape(int i) {
   static std::set<int> ignore = {};
   return ignore.find(i) != ignore.end();
 }

 } // namespace generated_tests::space_to_batch_quant8_1
	// Generated from space_to_batch_quant8_1.mod.py
	// DO NOT EDIT
	// clang-format off
	#include "TestGenerated.h"

	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type3);
	// Phase 2, operations
	static int32_t block_size_init[] = {2, 2};
	model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
	static int32_t paddings_init[] = {0, 0, 0, 0};
	model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input},
	{output});
	assert(model->isValid());
	}

	bool is_ignored(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_dynamic_output_shape(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type4);
	// Phase 2, operations
	static int32_t block_size_init[] = {2, 2};
	model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
	static int32_t paddings_init[] = {0, 0, 0, 0};
	model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_dynamic_output_shape(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_inputs_as_internal(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
	OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
	OperandType type6(Type::INT32, {});
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type3);
	auto input_tmp = model->addOperand(&type0);
	auto dummy = model->addOperand(&type5);
	auto param = model->addOperand(&type6);
	// Phase 2, operations
	static int32_t block_size_init[] = {2, 2};
	model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
	static int32_t paddings_init[] = {0, 0, 0, 0};
	model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
	static uint8_t dummy_init[] = {0};
	model->setOperandValue(dummy, dummy_init, sizeof(uint8_t) * 1);
	static int32_t param_init[] = {0};
	model->setOperandValue(param, param_init, sizeof(int32_t) * 1);
	model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy, param}, {input});
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input_tmp},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_inputs_as_internal(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_inputs_as_internal_dynamic_output_shape(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
	OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
	OperandType type6(Type::INT32, {});
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type4);
	auto input_tmp = model->addOperand(&type0);
	auto dummy1 = model->addOperand(&type5);
	auto param1 = model->addOperand(&type6);
	// Phase 2, operations
	static int32_t block_size_init[] = {2, 2};
	model->setOperandValue(block_size, block_size_init, sizeof(int32_t) * 2);
	static int32_t paddings_init[] = {0, 0, 0, 0};
	model->setOperandValue(paddings, paddings_init, sizeof(int32_t) * 4);
	static uint8_t dummy1_init[] = {0};
	model->setOperandValue(dummy1, dummy1_init, sizeof(uint8_t) * 1);
	static int32_t param1_init[] = {0};
	model->setOperandValue(param1, param1_init, sizeof(int32_t) * 1);
	model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy1, param1}, {input});
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input_tmp},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_inputs_as_internal_dynamic_output_shape(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_tensors_as_inputs(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type3);
	// Phase 2, operations
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input, block_size, paddings},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_tensors_as_inputs(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_tensors_as_inputs_dynamic_output_shape(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type4);
	// Phase 2, operations
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{input, block_size, paddings},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_tensors_as_inputs_dynamic_output_shape(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_tensors_as_inputs_all_inputs_as_internal(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type3(Type::TENSOR_QUANT8_ASYMM, {4, 2, 2, 1}, 1.0f, 0);
	OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
	OperandType type6(Type::INT32, {});
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type3);
	auto input_tmp = model->addOperand(&type0);
	auto dummy2 = model->addOperand(&type5);
	auto param2 = model->addOperand(&type6);
	// Phase 2, operations
	static uint8_t dummy2_init[] = {0};
	model->setOperandValue(dummy2, dummy2_init, sizeof(uint8_t) * 1);
	static int32_t param2_init[] = {0};
	model->setOperandValue(param2, param2_init, sizeof(int32_t) * 1);
	model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy2, param2}, {input});
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{block_size, paddings, input_tmp},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_tensors_as_inputs_all_inputs_as_internal(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1
	namespace generated_tests::space_to_batch_quant8_1 {

	void CreateModel_all_tensors_as_inputs_all_inputs_as_internal_dynamic_output_shape(Model *model) {
	OperandType type0(Type::TENSOR_QUANT8_ASYMM, {1, 4, 4, 1}, 1.0f, 0);
	OperandType type1(Type::TENSOR_INT32, {2});
	OperandType type2(Type::TENSOR_INT32, {2, 2});
	OperandType type4(Type::TENSOR_QUANT8_ASYMM, {0, 0, 0, 0}, 1.0f, 0);
	OperandType type5(Type::TENSOR_QUANT8_ASYMM, {1}, 1.0f, 0);
	OperandType type6(Type::INT32, {});
	// Phase 1, operands
	auto input = model->addOperand(&type0);
	auto block_size = model->addOperand(&type1);
	auto paddings = model->addOperand(&type2);
	auto output = model->addOperand(&type4);
	auto input_tmp = model->addOperand(&type0);
	auto dummy3 = model->addOperand(&type5);
	auto param3 = model->addOperand(&type6);
	// Phase 2, operations
	static uint8_t dummy3_init[] = {0};
	model->setOperandValue(dummy3, dummy3_init, sizeof(uint8_t) * 1);
	static int32_t param3_init[] = {0};
	model->setOperandValue(param3, param3_init, sizeof(int32_t) * 1);
	model->addOperation(ANEURALNETWORKS_ADD, {input_tmp, dummy3, param3}, {input});
	model->addOperation(ANEURALNETWORKS_SPACE_TO_BATCH_ND, {input, block_size, paddings}, {output});
	// Phase 3, inputs and outputs
	model->identifyInputsAndOutputs(
	{block_size, paddings, input_tmp},
	{output});
	assert(model->isValid());
	}

	bool is_ignored_all_tensors_as_inputs_all_inputs_as_internal_dynamic_output_shape(int i) {
	static std::set<int> ignore = {};
	return ignore.find(i) != ignore.end();
	}

	} // namespace generated_tests::space_to_batch_quant8_1