// SPDX-License-Identifier: Apache-2.0 // ---------------------------------------------------------------------------- // Copyright 2021-2022 Arm Limited // // Licensed 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. // ---------------------------------------------------------------------------- /** * @brief This module provides a set of diagnostic tracing utilities. * * Overview * ======== * * The built-in diagnostic trace tool generates a hierarchical JSON tree structure. The tree * hierarchy contains three levels: * * - block * - pass * - candidate * * One block node exists for each compressed block in the image. One pass node exists for each major * pass (N partition, M planes, O components) applied to a block. One candidate node exists for each * encoding candidate trialed for a pass. * * Each node contains both the hierarchy but also a number of attributes which explain the behavior. * For example, the block node contains the block coordinates in the image, the pass explains the * pass configuration, and the candidate will explain the candidate encoding such as weight * decimation, refinement error, etc. * * Trace Nodes are designed as scope-managed C++ objects with stack-like push/pop behavior. * Constructing a trace node on the stack will automatically add it to the current node as a child, * and then make it the current node. Destroying the current node will pop the stack and set the * parent to the current node. This provides a robust mechanism for ensuring reliable nesting in the * tree structure. * * A set of utility macros are provided to add attribute annotations to the current trace node. * * Usage * ===== * * Create Trace Nodes on the stack using the @c TRACE_NODE() macro. This will compile-out completely * in builds with diagnostics disabled. * * Add annotations to the current trace node using the @c trace_add_data() macro. This will * similarly compile out completely in builds with diagnostics disabled. * * If you need to add additional code to support diagnostics-only behavior wrap * it in preprocessor guards: * * #if defined(ASTCENC_DIAGNOSTICS) * #endif */ #ifndef ASTCENC_DIAGNOSTIC_TRACE_INCLUDED #define ASTCENC_DIAGNOSTIC_TRACE_INCLUDED #if defined(ASTCENC_DIAGNOSTICS) #include #include #include /** * @brief Class representing a single node in the trace hierarchy. */ class TraceNode { public: /** * @brief Construct a new node. * * Constructing a node will push to the the top of the stack, automatically making it a child of * the current node, and then setting it to become the current node. * * @param format The format template for the node name. * @param ... The format parameters. */ TraceNode(const char* format, ...); /** * @brief Add an attribute to this node. * * Note that no quoting is applied to the @c value, so if quoting is needed it must be done by * the caller. * * @param type The type of the attribute. * @param key The key of the attribute. * @param value The value of the attribute. */ void add_attrib(std::string type, std::string key, std::string value); /** * @brief Destroy this node. * * Destroying a node will pop it from the top of the stack, making its parent the current node. * It is invalid behavior to destroy a node that is not the current node; usage must conform to * stack push-pop semantics. */ ~TraceNode(); /** * @brief The number of attributes and child nodes in this node. */ unsigned int m_attrib_count { 0 }; }; /** * @brief Class representing the trace log file being written. */ class TraceLog { public: /** * @brief Create a new trace log. * * The trace log is global; there can be only one at a time. * * @param file_name The name of the file to write. */ TraceLog(const char* file_name); /** * @brief Detroy the trace log. * * Trace logs MUST be cleanly destroyed to ensure the file gets written. */ ~TraceLog(); /** * @brief Get the current child node. * * @return The current leaf node. */ TraceNode* get_current_leaf(); /** * @brief Get the stack depth of the current child node. * * @return The current leaf node stack depth. */ size_t get_depth(); /** * @brief The file stream to write to. */ std::ofstream m_file; /** * @brief The stack of nodes (newest at the back). */ std::vector m_stack; private: /** * @brief The root node in the JSON file. */ TraceNode* m_root; }; /** * @brief Utility macro to create a trace node on the stack. * * @param name The variable name to use. * @param ... The name template and format parameters. */ #define TRACE_NODE(name, ...) TraceNode name(__VA_ARGS__); /** * @brief Add a string annotation to the current node. * * @param key The name of the attribute. * @param format The format template for the attribute value. * @param ... The format parameters. */ void trace_add_data(const char* key, const char* format, ...); /** * @brief Add a float annotation to the current node. * * @param key The name of the attribute. * @param value The value of the attribute. */ void trace_add_data(const char* key, float value); /** * @brief Add an integer annotation to the current node. * * @param key The name of the attribute. * @param value The value of the attribute. */ void trace_add_data(const char* key, int value); /** * @brief Add an unsigned integer annotation to the current node. * * @param key The name of the attribute. * @param value The value of the attribute. */ void trace_add_data(const char* key, unsigned int value); #else #define TRACE_NODE(name, ...) #define trace_add_data(...) #endif #endif