AI-NNVMCAPI
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* 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.
*/
%module "AI::NNVMCAPI"
%include typemaps.i
%rename("%(strip:[NN])s") "";
%init %{
/* These SWIG_TypeClientData() calls might break in the future, but
* %rename should work on these types before that happens. */
SWIG_TypeClientData(SWIGTYPE_p_NNOp, (void *)"OpHandle");
SWIG_TypeClientData(SWIGTYPE_p_NNSymbol, (void *)"SymbolHandle");
SWIG_TypeClientData(SWIGTYPE_p_NNGraph, (void *)"GraphHandle");
%}
%inline %{
#include <c_api.h>
%}
%include nnvm_typemaps.i
/*! \brief manually define unsigned int */
typedef unsigned int nn_uint;
/*! \brief handle to a function that takes param and creates symbol */
typedef NNOp *OpHandle;
/*! \brief handle to a symbol that can be bind as operator */
typedef NNSymbol *SymbolHandle;
/*! \brief handle to Graph */
typedef NNGraph *GraphHandle;
/*!
* \brief Set the last error message needed by C API
* \param msg The error message to set.
*/
void NNAPISetLastError(const char* msg);
/*!
* \brief return str message of the last error
* all function in this file will return 0 when success
* and -1 when an error occured,
* NNGetLastError can be called to retrieve the error
*
* this function is threadsafe and can be called by different thread
* \return error info
*/
const char *NNGetLastError(void);
/*!
* \brief list all the available operator names, include entries.
* \param out_size the size of returned array
* \param out_array the output operator name array.
* \return 0 when success, -1 when failure happens
*/
int NNListAllOpNames(nn_uint *out_size, const char*** out_array);
/*!
* \brief Get operator handle given name.
* \param op_name The name of the operator.
* \param op_out The returnning op handle.
*/
int NNGetOpHandle(const char* op_name,
OpHandle* out);
/*!
* \brief list all the available operators.
* This won't include the alias, use ListAllNames
* instead to get all alias names.
*
* \param out_size the size of returned array
* \param out_array the output AtomicSymbolCreator array
* \return 0 when success, -1 when failure happens
*/
int NNListUniqueOps(nn_uint *out_size,
OpHandle **out_array);
/*!
* \brief Get the detailed information about atomic symbol.
* \param op The operator handle.
* \param real_name The returned name of the creator.
* This name is not the alias name of the atomic symbol.
* \param description The returned description of the symbol.
* \param num_doc_args Number of arguments that contain documents.
* \param arg_names Name of the arguments of doc args
* \param arg_type_infos Type informations about the arguments.
* \param arg_descriptions Description information about the arguments.
* \param return_type Return type of the function, if any.
* \return 0 when success, -1 when failure happens
*/
int NNGetOpInfo(OpHandle op,
const char **real_name,
const char **description,
nn_uint *num_doc_args,
const char ***arg_names,
const char ***arg_type_infos,
const char ***arg_descriptions,
const char **return_type);
/*!
* \brief Create an AtomicSymbol functor.
* \param op The operator handle
* \param num_param the number of parameters
* \param keys the keys to the params
* \param vals the vals of the params
* \param out pointer to the created symbol handle
* \return 0 when success, -1 when failure happens
*/
int NNSymbolCreateAtomicSymbol(OpHandle op,
nn_uint num_param,
const char **keys,
const char **vals,
SymbolHandle *out);
/*!
* \brief Create a Variable Symbol.
* \param name name of the variable
* \param out pointer to the created symbol handle
* \return 0 when success, -1 when failure happens
*/
int NNSymbolCreateVariable(const char *name, SymbolHandle *out);
/*!
* \brief Create a Symbol by grouping list of symbols together
* \param num_symbols number of symbols to be grouped
* \param symbols array of symbol handles
* \param out pointer to the created symbol handle
* \return 0 when success, -1 when failure happens
*/
int NNSymbolCreateGroup(nn_uint num_symbols,
SymbolHandle *in,
SymbolHandle *out);
/*!
* \brief Add src_dep to the handle as control dep.
* \param handle The symbol to add dependency edges on.
* \param src_dep the source handles.
*/
int NNAddControlDeps(SymbolHandle in,
SymbolHandle in);
/*!
* \brief Free the symbol handle.
* \param symbol the symbol
* \return 0 when success, -1 when failure happens
*/
int NNSymbolFree(SymbolHandle in);
/*!
* \brief Copy the symbol to another handle
* \param symbol the source symbol
* \param out used to hold the result of copy
* \return 0 when success, -1 when failure happens
*/
int NNSymbolCopy(SymbolHandle in, SymbolHandle *out);
/*!
* \brief Print the content of symbol, used for debug.
* \param symbol the symbol
* \param out_str pointer to hold the output string of the printing.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolPrint(SymbolHandle in, const char **out);
/*!
* \brief Get string attribute from symbol
* \param symbol the source symbol
* \param key The key of the symbol.
* \param out The result attribute, can be NULL if the attribute do not exist.
* \param success Whether the result is contained in out.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolGetAttr(SymbolHandle in,
const char* key,
const char** out,
int *out);
/*!
* \brief Set string attribute from symbol.
* NOTE: Setting attribute to a symbol can affect the semantics(mutable/immutable) of symbolic graph.
*
* Safe recommendaton: use immutable graph
* - Only allow set attributes during creation of new symbol as optional parameter
*
* Mutable graph (be careful about the semantics):
* - Allow set attr at any point.
* - Mutating an attribute of some common node of two graphs can cause confusion from user.
*
* \param symbol the source symbol
* \param num_param Number of parameters to set.
* \param keys The keys of the attribute
* \param values The value to be set
* \return 0 when success, -1 when failure happens
*/
int NNSymbolSetAttrs(SymbolHandle in,
nn_uint num_param,
const char** keys,
const char** vals);
/*!
* \brief Get all attributes from symbol, including all descendents.
* \param symbol the source symbol
* \param recursive_option 0 for recursive, 1 for shallow.
* \param out_size The number of output attributes
* \param out 2*out_size strings representing key value pairs.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolListAttrs(SymbolHandle in,
int recursive_option,
nn_uint *half_of_out_size,
const char*** out_array);
/*!
* \brief List inputs variables in the symbol.
* \param symbol the symbol
* \param option The option to list the inputs
* option=0 means list all arguments.
* option=1 means list arguments that are readed only by the graph.
* option=2 means list arguments that are mutated by the graph.
* \param out_size output size
* \param out_sym_array the output array.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolListInputVariables(SymbolHandle in,
int option,
nn_uint *out_size,
SymbolHandle** out_array);
/*!
* \brief List input names in the symbol.
* \param symbol the symbol
* \param option The option to list the inputs
* option=0 means list all arguments.
* option=1 means list arguments that are readed only by the graph.
* option=2 means list arguments that are mutated by the graph.
* \param out_size output size
* \param out_str_array pointer to hold the output string array
* \return 0 when success, -1 when failure happens
*/
int NNSymbolListInputNames(SymbolHandle in,
int option,
nn_uint *out_size,
const char ***out_array);
/*!
* \brief List returns names in the symbol.
* \param symbol the symbol
* \param out_size output size
* \param out_str_array pointer to hold the output string array
* \return 0 when success, -1 when failure happens
*/
int NNSymbolListOutputNames(SymbolHandle in,
nn_uint *out_size,
const char ***out_array);
/*!
* \brief Get a symbol that contains all the internals.
* \param symbol The symbol
* \param out The output symbol whose outputs are all the internals.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolGetInternals(SymbolHandle in,
SymbolHandle *out);
/*!
* \brief Get index-th outputs of the symbol.
* \param symbol The symbol
* \param index the Index of the output.
* \param out The output symbol whose outputs are the index-th symbol.
* \return 0 when success, -1 when failure happens
*/
int NNSymbolGetOutput(SymbolHandle in,
nn_uint index,
SymbolHandle *out);
/*!
* \brief Compose the symbol on other symbols.
*
* This function will change the sym hanlde.
* To achieve function apply behavior, copy the symbol first
* before apply.
*
* \param sym the symbol to apply
* \param name the name of symbol
* \param num_args number of arguments
* \param keys the key of keyword args (optional)
* \param symbols arguments to sym
* \return 0 when success, -1 when failure happens
*/
int NNSymbolCompose(SymbolHandle in,
const char* name,
nn_uint num_args,
const char** in,
SymbolHandle* in);
// Graph IR API
/*!
* \brief create a graph handle from symbol
* \param symbol The symbol representing the graph.
* \param graph The graph handle created.
* \return 0 when success, -1 when failure happens
*/
int NNGraphCreate(SymbolHandle in, GraphHandle *out);
/*!
* \brief free the graph handle
* \param handle The handle to be freed.
*/
int NNGraphFree(GraphHandle handle);
/*!
* \brief Get a new symbol from the graph.
* \param graph The graph handle.
* \param symbol The corresponding symbol
* \return 0 when success, -1 when failure happens
*/
int NNGraphGetSymbol(GraphHandle graph, SymbolHandle *out);
/*!
* \brief Get Set a attribute in json format.
* This feature allows pass graph attributes back and forth in reasonable speed.
*
* \param handle The graph handle.
* \param key The key to the attribute.
* \param json_value The value need to be in format [type_name, value],
* Where type_name is a registered type string in C++ side via DMLC_JSON_ENABLE_ANY.
* \return 0 when success, -1 when failure happens
*/
int NNGraphSetJSONAttr(GraphHandle handle,
const char* key,
const char* json_value);
/*!
* \brief Get a serialized attrirbute from graph.
* This feature allows pass graph attributes back and forth in reasonable speed.
*
* \param handle The graph handle.
* \param key The key to the attribute.
* \param json_out The result attribute, can be NULL if the attribute do not exist.
* The json_out is an array of [type_name, value].
* Where the type_name is a registered type string in C++ side via DMLC_JSON_ENABLE_ANY.
* \param success Whether the result is contained in out.
* \return 0 when success, -1 when failure happens
*/
int NNGraphGetJSONAttr(SymbolHandle in,
const char* key,
const char** out,
int *out);
/*!
* \brief Set a attribute whose type is std::vector<NodeEntry> in c++
* This feature allows pass List of symbolic variables for gradient request.
*
* \note This is beta feature only used for test purpos
*
* \param handle The graph handle.
* \param key The key to the attribute.
* \param list The symbol whose outputs represents the list of NodeEntry to be passed.
* \return 0 when success, -1 when failure happens
*/
int NNGraphSetNodeEntryListAttr_(GraphHandle handle,
const char* key,
SymbolHandle in);
/*!
* \brief Apply passes on the src graph.
* \param src The source graph handle.
* \param num_pass The number of pass to be applied.
* \param pass_names The names of the pass.
* \param dst The result graph.
* \return 0 when success, -1 when failure happens
*/
int NNGraphApplyPasses(GraphHandle src,
nn_uint num_pass,
const char** in,
GraphHandle *out);
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