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#ifndef RBIMPL_INTERN_LOAD_H /*-*-C++-*-vi:se ft=cpp:*/ #define RBIMPL_INTERN_LOAD_H /** * @file * @author Ruby developers <ruby-core@ruby-lang.org> * @copyright This file is a part of the programming language Ruby. * Permission is hereby granted, to either redistribute and/or * modify this file, provided that the conditions mentioned in the * file COPYING are met. Consult the file for details. * @warning Symbols prefixed with either `RBIMPL` or `rbimpl` are * implementation details. Don't take them as canon. They could * rapidly appear then vanish. The name (path) of this header file * is also an implementation detail. Do not expect it to persist * at the place it is now. Developers are free to move it anywhere * anytime at will. * @note To ruby-core: remember that this header can be possibly * recursively included from extension libraries written in C++. * Do not expect for instance `__VA_ARGS__` is always available. * We assume C99 for ruby itself but we don't assume languages of * extension libraries. They could be written in C++98. * @brief Public APIs related to ::rb_f_require(). */ #include "ruby/internal/attr/nonnull.h" #include "ruby/internal/dllexport.h" #include "ruby/internal/value.h" RBIMPL_SYMBOL_EXPORT_BEGIN() /* load.c */ /** * Loads and executes the Ruby program in the given file. * * If the path is an absolute path (e.g. starts with `'/'`), the file will be * loaded directly using the absolute path. If the path is an explicit * relative path (e.g. starts with `'./'` or `'../'`), the file will be loaded * using the relative path from the current directory. Otherwise, the file * will be searched for in the library directories listed in the `$LOAD_PATH`. * If the file is found in a directory, this function will attempt to load the * file relative to that directory. If the file is not found in any of the * directories in the `$LOAD_PATH`, the file will be loaded using the relative * path from the current directory. * * If the file doesn't exist when there is an attempt to load it, a LoadError * will be raised. * * If the `wrap` parameter is true, the loaded script will be executed under an * anonymous module, protecting the calling program's global namespace. In no * circumstance will any local variables in the loaded file be propagated to * the loading environment. * * @param[in] path Pathname of a file to load. * @param[in] wrap Either to load under an anonymous module. * @exception rb_eTypeError `path` is not a string. * @exception rb_eArgError `path` is broken as a pathname. * @exception rb_eEncCompatError `path` is incompatible with pathnames. * @exception rb_eLoadError `path` not found. * @exception rb_eException Any exceptions while loading the contents. * * @internal * * It seems this function is under the rule of bootsnap's regime? */ void rb_load(VALUE path, int wrap); /** * Identical to rb_load(), except it avoids potential global escapes. Such * global escapes include exceptions, `throw`, `break`, for example. * * It first evaluates the given file as rb_load() does. If no global escape * occurred during the evaluation, it `*state` is set to zero on return. * Otherwise, it sets `*state` to nonzero. If state is `NULL`, it is not set * in both cases. * * @param[in] path Pathname of a file to load. * @param[in] wrap Either to load under an anonymous module. * @param[out] state State of execution. * @post `*state` is set to zero if succeeded. Nonzero otherwise. * @warning You have to clear the error info with `rb_set_errinfo(Qnil)` if * you decide to ignore the caught exception. * @see rb_load * @see rb_protect * * @internal * * Though not a part of our public API, `state` is in fact an * enum ruby_tag_type. You can see the potential "nonzero" values by looking * at vm_core.h. */ void rb_load_protect(VALUE path, int wrap, int *state); RBIMPL_ATTR_NONNULL(()) /** * Queries if the given feature has already been loaded into the execution * context. The "feature" head are things like `"json"` or `"socket"`. * * @param[in] feature Name of a library you want to know about. * @retval 1 Yes there is. * @retval 0 Not yet. */ int rb_provided(const char *feature); RBIMPL_ATTR_NONNULL((1)) /** * Identical to rb_provided(), except it additionally returns the "canonical" * name of the loaded feature. This can be handy when for instance you want to * know the actually loaded library is either `foo.rb` or `foo.so`. * * @param[in] feature Name of a library you want to know about. * @param[out] loading Return buffer. * @retval 1 Yes there is. * @retval 0 Not yet. */ int rb_feature_provided(const char *feature, const char **loading); RBIMPL_ATTR_NONNULL(()) /** * Declares that the given feature is already provided by someone else. This * API can be handy when you have an extension called `foo.so` which, when * required, also provides functionality of `bar.so`. * * @param[in] feature Name of a library which had already been provided. * @post No further `require` would search `feature`. */ void rb_provide(const char *feature); /** * Identical to rb_require_string(), except it ignores the first argument for * no reason. There seems to be no reason for 3rd party extension libraries to * use it. * * @param[in] self Ignored. Can be anything. * @param[in] feature Name of a feature, e.g. `"json"`. * @exception rb_eLoadError No such feature. * @exception rb_eRuntimeError `$"` is frozen; unable to push. * @retval RUBY_Qtrue The feature is loaded for the first time. * @retval RUBY_Qfalse The feature has already been loaded. * @post `$"` is updated. */ VALUE rb_f_require(VALUE self, VALUE feature); /** * Finds and loads the given feature, if absent. * * If the feature is an absolute path (e.g. starts with `'/'`), the feature * will be loaded directly using the absolute path. If the feature is an * explicit relative path (e.g. starts with `'./'` or `'../'`), the feature * will be loaded using the relative path from the current directory. * Otherwise, the feature will be searched for in the library directories * listed in the `$LOAD_PATH`. * * If the feature has the extension `".rb"`, it is loaded as a source file; if * the extension is `".so"`, `".o"`, or `".dll"`, or the default shared library * extension on the current platform, Ruby loads the shared library as a Ruby * extension. Otherwise, Ruby tries adding `".rb"`, `".so"`, and so on to the * name until found. If the file named cannot be found, a LoadError will be * raised. * * For extension libraries the given feature may use any shared library * extension. For example, on Linux you can require `"socket.dll"` to actually * load `socket.so`. * * The absolute path of the loaded file is added to `$LOADED_FEATURES`. A file * will not be loaded again if its path already appears in there. * * Any constants or globals within the loaded source file will be available in * the calling program's global namespace. However, local variables will not * be propagated to the loading environment. * * @param[in] feature Name of a feature, e.g. `"json"`. * @exception rb_eLoadError No such feature. * @exception rb_eRuntimeError `$"` is frozen; unable to push. * @retval RUBY_Qtrue The feature is loaded for the first time. * @retval RUBY_Qfalse The feature has already been loaded. * @post `$"` is updated. */ VALUE rb_require_string(VALUE feature); /** * Resolves and returns a symbol of a function in the native extension * specified by the feature and symbol names. Extensions will use this function * to access the symbols provided by other native extensions. * * @param[in] feature Name of a feature, e.g. `"json"`. * @param[in] symbol Name of a symbol defined by the feature. * @return The resolved symbol of a function, defined and externed by the * specified feature. It may be NULL if the feature is not loaded, * the feature is not extension, or the symbol is not found. */ void *rb_ext_resolve_symbol(const char *feature, const char *symbol); /** * This macro is to provide backwards compatibility. It provides a way to * define function prototypes and resolving function symbols in a safe way. * * ```CXX * // prototypes * #ifdef HAVE_RB_EXT_RESOLVE_SYMBOL * VALUE *(*other_extension_func)(VALUE,VALUE); * #else * VALUE other_extension_func(VALUE); * #endif * * // in Init_xxx() * #ifdef HAVE_RB_EXT_RESOLVE_SYMBOL * other_extension_func = \ * (VALUE(*)(VALUE,VALUE))rb_ext_resolve_symbol(fname, sym_name); * if (other_extension_func == NULL) { * // raise your own error * } * #endif * ``` */ #define HAVE_RB_EXT_RESOLVE_SYMBOL 1 /** * @name extension configuration * @{ */ /** * Asserts that the extension library that calls this function is aware of * Ractor. Multiple Ractors run without protecting each other. This doesn't * interface well with C programs, unless designed with an in-depth * understanding of how Ractors work. Extension libraries are shut out from * Ractors by default. This API is to bypass that restriction. Once after it * was called, successive calls to rb_define_method() etc. become definitions * of methods that are aware of Ractors. The amendment would be in effect * until the end of rb_require_string() etc. * * @param[in] flag Either the library is aware of Ractors or not. * @post Methods would be callable form Ractors, if `flag` is true. */ void rb_ext_ractor_safe(bool flag); /** @alias{rb_ext_ractor_safe} */ #define RB_EXT_RACTOR_SAFE(f) rb_ext_ractor_safe(f) /** * This macro is to provide backwards compatibility. It must be safe to do * something like: * * ```CXX * #ifdef HAVE_RB_EXT_RACTOR_SAFE * rb_ext_ractor_safe(true); * #endif * ``` */ #define HAVE_RB_EXT_RACTOR_SAFE 1 /** @} */ RBIMPL_SYMBOL_EXPORT_END() #endif /* RBIMPL_INTERN_LOAD_H */