/* * ****************************************************************************** * * * * * * This program and the accompanying materials are made available under the * * terms of the Apache License, Version 2.0 which is available at * * https://www.apache.org/licenses/LICENSE-2.0. * * * * See the NOTICE file distributed with this work for additional * * information regarding copyright ownership. * * Unless required by applicable law or agreed to in writing, software * * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * * License for the specific language governing permissions and limitations * * under the License. * * * * SPDX-License-Identifier: Apache-2.0 * ***************************************************************************** */ // // Created by GS on 2018-12-20. // @author Oleg Semeniv // #include #include #include #include #include #include #include #include #include #include namespace sd { ND4J_EXPORT NDArray NDArrayFactory::create(const ShapeDescriptor& shapeDescriptor, sd::LaunchContext * context){ auto status = shapeDescriptor.validate(); if(status != SHAPE_DESC_OK){ nd4j_printf("NDArrayFactory::create: ShapeDescriptor status code [%d]\n", status ); throw std::invalid_argument("NDArrayFactory::create: invalid ShapeDescriptor "); } Nd4jLong allocSize = shapeDescriptor.allocLength() * DataTypeUtils::sizeOfElement(shapeDescriptor.dataType()); std::shared_ptr buffer = std::make_shared(allocSize, shapeDescriptor.dataType(), context->getWorkspace()); NDArray result(buffer, shapeDescriptor, context); result.nullify(); return result; } ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector& shape, sd::DataType dataType, const std::vector& paddings, const std::vector &paddingOffsets, sd::LaunchContext * context) { int rank = shape.size(); if ( rank > MAX_RANK) throw std::invalid_argument("NDArrayFactory::create: rank of NDArray can't exceed 32"); if(paddings.size() != rank ){ throw std::invalid_argument("NDArrayFactory::create: paddings size should match rank "); } auto shapeDescriptor = ShapeDescriptor::paddedBufferDescriptor(dataType, order, shape, paddings); Nd4jLong allocSize = shapeDescriptor.allocLength() * DataTypeUtils::sizeOfElement(shapeDescriptor.dataType()); std::shared_ptr buffer = std::make_shared(allocSize, shapeDescriptor.dataType(), context->getWorkspace()); //lets check offsets int check_size = paddingOffsets.size() < rank ? paddingOffsets.size() : rank; for(int i=0; i< check_size; i++){ if(paddingOffsets[i]>paddings[i]){ throw std::invalid_argument("NDArrayFactory::create: paddingOffsets numbers should not exceed corresponding paddings"); } } Nd4jLong offset = offset_from_coords(shapeDescriptor.strides().data(), paddingOffsets.data(), check_size); NDArray result(buffer, shapeDescriptor, context, offset); result.nullify(); return result; } //////////////////////////////////////////////////////////////////////// template <> ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context) { if ((int) shape.size() > MAX_RANK) throw std::invalid_argument("NDArrayFactory::create: rank of NDArray can't exceed 32 !"); ShapeDescriptor descriptor(sd::DataType::BOOL, order, shape); if (descriptor.arrLength() != data.size()) { nd4j_printf("NDArrayFactory::create: data size [%i] doesn't match shape length [%lld]\n", data.size(), descriptor.arrLength()); throw std::runtime_error("NDArrayFactory::create: data size doesn't match shape"); } bool* hostBuffer = nullptr; ALLOCATE(hostBuffer, context->getWorkspace(), data.size(), bool); std::copy(data.begin(), data.end(), hostBuffer); std::shared_ptr buffer = std::make_shared(hostBuffer, data.size() * sizeof(bool), sd::DataType::BOOL, true, context->getWorkspace()); NDArray result(buffer, descriptor, context); return result; } //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context) { if ((int) shape.size() > MAX_RANK) throw std::invalid_argument("NDArrayFactory::create: rank of NDArray can't exceed 32 !"); ShapeDescriptor descriptor(DataTypeUtils::fromT(), order, shape); if (descriptor.arrLength() != data.size()) { nd4j_printf("NDArrayFactory::create: data size [%i] doesn't match shape length [%lld]\n", data.size(), descriptor.arrLength()); throw std::runtime_error("NDArrayFactory::create: data size doesn't match shape"); } std::shared_ptr buffer = std::make_shared(data.data(), DataTypeUtils::fromT(), descriptor.arrLength() * sizeof(T), context->getWorkspace()); NDArray result(buffer, descriptor, context); return result; } template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::vector& data, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, sd::LaunchContext * context) { return create_(order, shape, DataTypeUtils::fromT(), context); } BUILD_SINGLE_TEMPLATE(template ND4J_EXPORT NDArray* NDArrayFactory::create_, (const char order, const std::vector &shape, sd::LaunchContext * context), LIBND4J_TYPES); //////////////////////////////////////////////////////////////////////// template void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector) { memcpy(ptr, vector.data(), vector.size() * sizeof(T)); } template <> void ND4J_EXPORT NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector) { auto p = reinterpret_cast(ptr); for (Nd4jLong e = 0; e < vector.size(); e++) p[e] = vector[e]; } template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); template ND4J_EXPORT void NDArrayFactory::memcpyFromVector(void *ptr, const std::vector &vector); #ifndef __JAVACPP_HACK__ //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const T value, const char order, sd::LaunchContext * context) { return valueOf(std::vector(shape), value, order); } template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const double value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const float value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const float16 value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const bfloat16 value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const Nd4jLong value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const int value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const uint8_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const int8_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const int16_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::initializer_list& shape, const bool value, const char order, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context) { std::vector vec(data); return create(order, shape, vec, context); } template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const char order, const std::vector &shape, const std::initializer_list& data, sd::LaunchContext * context); #endif //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::create_(const T scalar, sd::LaunchContext * context) { std::shared_ptr buffer = std::make_shared(1 * sizeof(T), DataTypeUtils::fromT(), context->getWorkspace(), true); NDArray* res = new NDArray(buffer, ShapeDescriptor::scalarDescriptor(DataTypeUtils::fromT()), context); res->bufferAsT()[0] = scalar; res->tickWriteHost(); res->syncToDevice(); return res; } template ND4J_EXPORT NDArray* NDArrayFactory::create_(const double scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const float scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const float16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const bfloat16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const Nd4jLong scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const int scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const bool scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const int8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const uint8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const uint16_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const uint32_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const uint64_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const int16_t scalar, sd::LaunchContext * context); template NDArray NDArrayFactory::create(sd::DataType type, const T scalar, sd::LaunchContext * context) { if (type == DataTypeUtils::fromT()) return NDArrayFactory::create(scalar, context); NDArray res(type, context); res.p(0, scalar); res.syncToDevice(); return res; } // BUILD_DOUBLE_TEMPLATE(template ND4J_EXPORT NDArray NDArrayFactory::create, (DataType type, const T scalar, sd::LaunchContext * context), LIBND4J_TYPES); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const double scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const float scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const float16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const bfloat16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const Nd4jLong scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const int scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const int8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const uint8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const uint16_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const uint32_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const uint64_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const int16_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(DataType type, const bool scalar, sd::LaunchContext * context); template NDArray NDArrayFactory::create(const T scalar, sd::LaunchContext * context) { std::shared_ptr buffer = std::make_shared(1 * sizeof(T), DataTypeUtils::fromT(), context->getWorkspace(), true); NDArray res(buffer, ShapeDescriptor::scalarDescriptor(DataTypeUtils::fromT()), context); res.bufferAsT()[0] = scalar; res.tickWriteHost(); res.syncToDevice(); return res; } template ND4J_EXPORT NDArray NDArrayFactory::create(const double scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const float scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const float16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const bfloat16 scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const Nd4jLong scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const int scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const int8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const uint8_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const int16_t scalar, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const uint16_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(const uint32_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(const uint64_t scalar, sd::LaunchContext* workspace); template ND4J_EXPORT NDArray NDArrayFactory::create(const bool scalar, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context) { return new NDArray(NDArrayFactory::create(order, shape, data, context)); } template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::create_(const char order, const std::vector &shape, const std::vector &data, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template <> ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, NDArray* value, const char order, sd::LaunchContext * context) { auto result = create_(order, shape, value->dataType(), context); result->assign(*value); return result; } template <> ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, NDArray& value, const char order, sd::LaunchContext * context) { auto result = create_(order, shape, value.dataType(), context); result->assign(value); return result; } template NDArray* NDArrayFactory::valueOf(const std::vector& shape, const T value, const char order, sd::LaunchContext * context) { auto result = create_(order, shape, DataTypeUtils::fromT()); result->assign(value); return result; } template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const double value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const float value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const float16 value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const bfloat16 value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const Nd4jLong value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const int value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const int16_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const int8_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const uint8_t value, const char order, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::valueOf(const std::vector& shape, const bool value, const char order, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::linspace(const T from, const T to, const Nd4jLong numElements) { NDArray* result = NDArrayFactory::vector(numElements); //TO DO: linspace should be executed on DEVICE, but only CPU version implemnted! for (Nd4jLong e = 0; e < numElements; e++) { T step = (T) e / ((T) numElements - (T) 1); result->p(e, (from * ((T) 1 - step) + step * to)); } result->syncToDevice(); return result; } template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const double from, const double to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const float from, const float to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const float16 from, const float16 to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const bfloat16 from, const bfloat16 to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const Nd4jLong from, const Nd4jLong to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const int from, const int to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const int16_t from, const int16_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const uint8_t from, const uint8_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const uint16_t from, const uint16_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const uint32_t from, const uint32_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const uint64_t from, const uint64_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const int8_t from, const int8_t to, const Nd4jLong numElements); template ND4J_EXPORT NDArray* NDArrayFactory::linspace(const bool from, const bool to, const Nd4jLong numElements); //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::vector(Nd4jLong length, const T value, sd::LaunchContext * context) { std::shared_ptr buffer = std::make_shared(length * sizeof(T), DataTypeUtils::fromT(), context->getWorkspace(), true); auto res = new NDArray(buffer, ShapeDescriptor::vectorDescriptor(length, DataTypeUtils::fromT()), context); if (value == (T)0.0f) res->nullify(); else res->assign(value); return res; } template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const double startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const float startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const float16 startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const bfloat16 startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const Nd4jLong startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const int startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const uint8_t startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const uint16_t startingValue, sd::LaunchContext *workspace); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const uint32_t startingValue, sd::LaunchContext *workspace); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const uint64_t startingValue, sd::LaunchContext *workspace); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const int8_t startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const int16_t startingValue, sd::LaunchContext * context); template ND4J_EXPORT NDArray* NDArrayFactory::vector(Nd4jLong length, const bool startingValue, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(const char order, const std::initializer_list& shape, sd::LaunchContext * context) { std::vector vec(shape); return create(order, vec, context); } BUILD_SINGLE_TEMPLATE(template ND4J_EXPORT NDArray NDArrayFactory::create, (const char, const std::initializer_list&, sd::LaunchContext * context), LIBND4J_TYPES); //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(const char order, const std::vector &shape, sd::LaunchContext * context) { return create(order, shape, DataTypeUtils::fromT(), context); } BUILD_SINGLE_TEMPLATE(template ND4J_EXPORT NDArray NDArrayFactory::create, (const char order, const std::vector &shape, sd::LaunchContext * context), LIBND4J_TYPES); //////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::create(const char order, const std::vector &shape, sd::DataType dtype, sd::LaunchContext* context) { if ((int) shape.size() > MAX_RANK) throw std::invalid_argument("NDArrayFactory::create: rank of NDArray can't exceed 32"); ShapeDescriptor descriptor(dtype, order, shape); std::shared_ptr buffer = std::make_shared(descriptor.arrLength() * DataTypeUtils::sizeOfElement(dtype), dtype, context->getWorkspace()); NDArray result(buffer, descriptor, context); result.nullify(); return result; } //////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::create(sd::DataType dtype, sd::LaunchContext * context) { std::shared_ptr buffer = std::make_shared(DataTypeUtils::sizeOfElement(dtype), dtype, context->getWorkspace(), true); NDArray res(buffer, ShapeDescriptor::scalarDescriptor(dtype), context); res.nullify(); return res; } NDArray* NDArrayFactory::create_(sd::DataType dtype, sd::LaunchContext * context) { auto result = new NDArray(); *result = NDArrayFactory::create(dtype, context); return result; } //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context) { std::shared_ptr buffer = std::make_shared(values.size() * sizeof(T), DataTypeUtils::fromT(), context->getWorkspace(), true); NDArray res(buffer, ShapeDescriptor::vectorDescriptor(values.size(), DataTypeUtils::fromT()), context); memcpyFromVector(res.buffer(), values); res.tickWriteHost(); res.syncToDevice(); return res; } template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(const std::vector &values, sd::LaunchContext * context); //////////////////////////////////////////////////////////////////////// template NDArray* NDArrayFactory::empty_(sd::LaunchContext * context) { auto shapeInfo = ShapeBuilders::createScalarShapeInfo(DataTypeUtils::fromT(), context->getWorkspace()); ArrayOptions::setPropertyBit(shapeInfo, ARRAY_EMPTY); auto result = new NDArray(nullptr, shapeInfo, context, false); RELEASE(shapeInfo, context->getWorkspace()); return result; } BUILD_SINGLE_TEMPLATE(template ND4J_EXPORT NDArray* NDArrayFactory::empty_, (sd::LaunchContext * context), LIBND4J_TYPES); NDArray* NDArrayFactory::empty_(sd::DataType dataType, sd::LaunchContext * context) { if (context == nullptr) context = sd::LaunchContext ::defaultContext(); auto shapeInfo = ShapeBuilders::createScalarShapeInfo(dataType, context->getWorkspace()); ArrayOptions::setPropertyBit(shapeInfo, ARRAY_EMPTY); auto result = new NDArray(nullptr, shapeInfo, context, false); RELEASE(shapeInfo, context->getWorkspace()); return result; } //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::empty(sd::LaunchContext * context) { return empty(DataTypeUtils::fromT(), context); } BUILD_SINGLE_TEMPLATE(template ND4J_EXPORT NDArray NDArrayFactory::empty, (sd::LaunchContext * context), LIBND4J_TYPES); //////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::empty(sd::DataType dataType, sd::LaunchContext * context) { auto shapeInfo = ShapeBuilders::createScalarShapeInfo(dataType, context->getWorkspace()); ArrayOptions::setPropertyBit(shapeInfo, ARRAY_EMPTY); NDArray result(nullptr, shapeInfo, context, false); RELEASE(shapeInfo, context->getWorkspace()); return result; } //////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::valueOf(const std::vector& shape, const NDArray& value, const char order, sd::LaunchContext * context) { auto res = NDArrayFactory::create_(order, shape, value.dataType(), context); res->assign(const_cast(value)); return res; } //////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::create_( const char order, const std::vector &shape, sd::DataType dataType, sd::LaunchContext * context) { return new NDArray(order, shape, dataType, context); } //////////////////////////////////////////////////////////////////////// template NDArray NDArrayFactory::create(T* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context) { if ((int) shape.size() > MAX_RANK) throw std::invalid_argument("NDArrayFactory::create: Rank of NDArray can't exceed 32"); std::vector shp(shape); ShapeDescriptor descriptor(DataTypeUtils::fromT(), order, shp); std::shared_ptr pBuffer = std::make_shared(buffer, descriptor.arrLength() * sizeof(T), descriptor.dataType(), false, context->getWorkspace()); NDArray result(pBuffer, descriptor, context); return result; } template ND4J_EXPORT NDArray NDArrayFactory::create(double* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(float* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(float16* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(bfloat16* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(Nd4jLong * buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(int* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(bool* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(uint8_t * buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(int8_t* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); template ND4J_EXPORT NDArray NDArrayFactory::create(int16_t* buffer, const char order, const std::initializer_list& shape, sd::LaunchContext * context); ///////////////////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const char16_t* u16string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(u16string, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const char16_t* u16string, sd::DataType dtype, sd::LaunchContext* context) { return string_(std::u16string(u16string), dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const std::u16string& u16string, sd::DataType dtype, sd::LaunchContext* context) { auto res = new NDArray(); *res = NDArray(u16string, dtype, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::u16string& u16string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(u16string, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const char32_t* u32string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(u32string, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const char32_t* u32string, sd::DataType dtype, sd::LaunchContext* context) { return string_(std::u32string(u32string), dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const std::u32string& u32string, sd::DataType dtype, sd::LaunchContext* context) { auto res = new NDArray(); *res = NDArray(u32string, dtype, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::u32string& u32string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(u32string, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const char* str, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(str, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const char* str, sd::DataType dtype, sd::LaunchContext* context) { return string_(std::string(str), dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const std::string& str, sd::DataType dtype, sd::LaunchContext* context) { auto res = new NDArray(); *res = NDArray(str, dtype, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::string& str, sd::DataType dtype, sd::LaunchContext* context) { return NDArray(str, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::vector &shape, const std::initializer_list &strings, sd::DataType dataType, sd::LaunchContext * context) { return NDArray(shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector &shape, const std::vector &strings, sd::DataType dataType, sd::LaunchContext * context) { return NDArray( shape, strings, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector &shape, const std::initializer_list &string, sd::DataType dataType, sd::LaunchContext * context) { return NDArray( shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector &shape, const std::initializer_list &strings, sd::DataType dataType, sd::LaunchContext * context) { return NDArrayFactory::string_( shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector &shape, const std::vector &strings, sd::DataType dataType, sd::LaunchContext * context) { std::vector vec(strings.size()); int cnt = 0; for (auto s:strings) vec[cnt++] = std::string(s); return NDArrayFactory::string_( shape, vec, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector &shape, const std::initializer_list &string, sd::DataType dataType, sd::LaunchContext * context) { return NDArrayFactory::string_( shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector &shape, const std::vector &string, sd::DataType dataType, sd::LaunchContext * context) { return NDArray(shape, string, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_(const std::vector &shape, const std::vector &string, sd::DataType dataType, sd::LaunchContext * context) { auto res = new NDArray(); *res = NDArray( shape, string, dataType, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::vector& shape, const std::initializer_list& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArray( shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::vector& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArray( shape, strings, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::initializer_list& string, sd::DataType dataType, sd::LaunchContext* context) { return NDArray( shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::initializer_list& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArrayFactory::string_( shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::vector& strings, sd::DataType dataType, sd::LaunchContext* context) { std::vector vec(strings.size()); int cnt = 0; for (auto s : strings) vec[cnt++] = std::u16string(s); return NDArrayFactory::string_( shape, vec, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::initializer_list& string, sd::DataType dataType, sd::LaunchContext* context) { return NDArrayFactory::string_( shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::vector& string, sd::DataType dataType, sd::LaunchContext* context) { auto res = new NDArray(); *res = NDArray( shape, string, dataType, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::vector& string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray( shape, string, dtype, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::initializer_list& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArray( shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::vector& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArray( shape, strings, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string( const std::vector& shape, const std::initializer_list& string, sd::DataType dataType, sd::LaunchContext* context) { return NDArray(shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::initializer_list& strings, sd::DataType dataType, sd::LaunchContext* context) { return NDArrayFactory::string_( shape, std::vector(strings), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::vector& strings, sd::DataType dataType, sd::LaunchContext* context) { std::vector vec(strings.size()); int cnt = 0; for (auto s : strings) vec[cnt++] = std::u32string(s); return NDArrayFactory::string_( shape, vec, dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::initializer_list& string, sd::DataType dataType, sd::LaunchContext* context) { return NDArrayFactory::string_( shape, std::vector(string), dataType, context); } ///////////////////////////////////////////////////////////////////////// NDArray* NDArrayFactory::string_( const std::vector& shape, const std::vector& string, sd::DataType dataType, sd::LaunchContext* context) { auto res = new NDArray(); *res = NDArray( shape, string, dataType, context); return res; } ///////////////////////////////////////////////////////////////////////// NDArray NDArrayFactory::string(const std::vector& shape, const std::vector& string, sd::DataType dtype, sd::LaunchContext* context) { return NDArray( shape, string, dtype, context); } NDArray NDArrayFactory::fromNpyFile(const char *fileName) { auto size = sd::graph::getFileSize(fileName); if (size < 0) throw std::runtime_error("File doesn't exit"); auto pNPY = reinterpret_cast(::numpyFromFile(std::string(fileName))); auto nBuffer = reinterpret_cast(::dataPointForNumpy(pNPY)); auto shape = reinterpret_cast(::shapeBufferForNumpy(pNPY)); auto length = shape::length(shape); int8_t *buffer = nullptr; sd::memory::Workspace *workspace = nullptr; auto byteLen = length * DataTypeUtils::sizeOfElement(ArrayOptions::dataType(shape)); ALLOCATE(buffer, workspace, byteLen, int8_t); memcpy(buffer, nBuffer, byteLen); free(pNPY); return NDArray(buffer, shape, LaunchContext::defaultContext(), true); } }