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config.hpp
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config.hpp
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#pragma once
#include "types.hpp"
#include "config_mergeable.hpp"
#include "config_origin.hpp"
#include "config_object.hpp"
#include "config_resolve_options.hpp"
#include "config_value.hpp"
#include "config_list.hpp"
#include "config_exception.hpp"
#include "path.hpp"
#include <vector>
#include <string>
#include <set>
#include "export.h"
#include <leatherman/locale/locale.hpp>
namespace hocon {
enum class time_unit { NANOSECONDS, MICROSECONDS, MILLISECONDS, SECONDS, MINUTES, HOURS, DAYS };
/**
* An immutable map from config paths to config values. Paths are dot-separated
* expressions such as <code>foo.bar.baz</code>. Values are as in JSON
* (booleans, strings, numbers, lists, or objects), represented by
* {@link config_value} instances. Values accessed through the
* <code>config</code> interface are never null.
*
* <p>
* {@code config} is an immutable object and thus safe to use from multiple
* threads. There's never a need for "defensive copies."
*
* <p>
* Fundamental operations on a {@code config} include getting configuration
* values, <em>resolving</em> substitutions with {@link config#resolve()}, and
* merging configs using {@link config#with_fallback(config_mergeable)}.
*
* <p>
* All operations return a new immutable {@code config} rather than modifying
* the original instance.
*
* <p>
* <strong>Examples</strong>
*
* <p>
* You can find an example app and library <a
* href="https://github.com/typesafehub/config/tree/master/examples">on
* GitHub</a>. Also be sure to read the <a
* href="package-summary.html#package_description">package overview</a> which
* describes the big picture as shown in those examples.
*
* <p>
* <strong>Paths, keys, and config vs. config_object</strong>
*
* <p>
* <code>config</code> is a view onto a tree of {@link config_object}; the
* corresponding object tree can be found through {@link config#root()}.
* <code>config_object</code> is a map from config <em>keys</em>, rather than
* paths, to config values. Think of <code>config_object</code> as a JSON object
* and <code>config</code> as a configuration API.
*
* <p>
* The API tries to consistently use the terms "key" and "path." A key is a key
* in a JSON object; it's just a string that's the key in a map. A "path" is a
* parseable expression with a syntax and it refers to a series of keys. Path
* expressions are described in the <a
* href="https://github.com/typesafehub/config/blob/master/HOCON.md">spec for
* Human-Optimized Config Object Notation</a>. In brief, a path is
* period-separated so "a.b.c" looks for key c in object b in object a in the
* root object. Sometimes double quotes are needed around special characters in
* path expressions.
*
* <p>
* The API for a {@code config} is in terms of path expressions, while the API
* for a {@code config_object} is in terms of keys. Conceptually, {@code config}
* is a one-level map from <em>paths</em> to values, while a
* {@code config_object} is a tree of nested maps from <em>keys</em> to values.
*
* <p>
* Use {@link config_util#join_path} and {@link config_util#split_path} to convert
* between path expressions and individual path elements (keys).
*
* <p>
* Another difference between {@code config} and {@code config_object} is that
* conceptually, {@code config_value}s with a {@link config_value#value_type()
* value_type()} of {@link config_value::type#NULL NULL} exist in a
* {@code config_object}, while a {@code config} treats null values as if they
* were missing. (With the exception of two methods: {@link config#has_path_or_null}
* and {@link config#get_is_null} let you detect <code>null</code> values.)
*
* <p>
* <strong>Getting configuration values</strong>
*
* <p>
* The "getters" on a {@code config} all work in the same way. They never return
* null, nor do they return a {@code config_value} with
* {@link config_value#value_type() value_type()} of {@link config_value::type#NULL
* NULL}. Instead, they throw {@link config_exception} if the value is
* completely absent or set to null. If the value is set to null, a subtype of
* {@code config_exception.missing} called {@link config_exception.null} will be
* thrown. {@link config_excpetion.wrong_type} will be thrown anytime you ask for
* a type and the value has an incompatible type. Reasonable type conversions
* are performed for you though.
*
* <p>
* <strong>Iteration</strong>
*
* <p>
* If you want to iterate over the contents of a {@code config}, you can get its
* {@code config_object} with {@link #root()}, and then iterate over the
* {@code config_object} (which implements <code>java.util.Map</code>). Or, you
* can use {@link #entry_set()} which recurses the object tree for you and builds
* up a <code>set</code> of all path-value pairs where the value is not null.
*
* <p>
* <strong>Resolving substitutions</strong>
*
* <p>
* <em>Substitutions</em> are the <code>${foo.bar}</code> syntax in config
* files, described in the <a href=
* "https://github.com/typesafehub/config/blob/master/HOCON.md#substitutions"
* >specification</a>. Resolving substitutions replaces these references with real
* values.
*
* <p>
* Before using a {@code config} it's necessary to call {@link config#resolve()}
* to handle substitutions (though {@link config_factory#load()} and similar
* methods will do the resolve for you already).
*
* <p>
* <strong>Merging</strong>
*
* <p>
* The full <code>config</code> for your application can be constructed using
* the associative operation {@link config#with_fallback(config_mergeable)}. If
* you use {@link config_factory#load()} (recommended), it merges system
* properties over the top of <code>application.conf</code> over the top of
* <code>reference.conf</code>, using <code>with_fallback</code>. You can add in
* additional sources of configuration in the same way (usually, custom layers
* should go either just above or just below <code>application.conf</code>,
* keeping <code>reference.conf</code> at the bottom and system properties at
* the top).
*
* <p>
* <strong>Serialization</strong>
*
* <p>
* Convert a <code>config</code> to a JSON or HOCON string by calling
* {@link config_object#render()} on the root object,
* <code>my_config.root().render()</code>. There's also a variant
* {@link config_object#render(config_render_options)} which allows you to control
* the format of the rendered string. (See {@link config_render_options}.) Note
* that <code>config</code> does not remember the formatting of the original
* file, so if you load, modify, and re-save a config file, it will be
* substantially reformatted.
*
* <p>
* As an alternative to {@link config_object#render()}, the
* <code>to_string()</code> method produces a debug-output-oriented
* representation (which is not valid JSON).
*
* <p>
* <strong>This is an interface but don't implement it yourself</strong>
*
* <p>
* <em>Do not implement {@code config}</em>; it should only be implemented by
* the config library. Arbitrary implementations will not work because the
* library internals assume a specific concrete implementation. Also, this
* interface is likely to grow new methods over time, so third-party
* implementations will break.
*/
class LIBCPP_HOCON_EXPORT config : public config_mergeable, public std::enable_shared_from_this<config> {
friend class config_object;
friend class config_value;
friend class config_parseable;
friend class parseable;
public:
/**
* Parses a file with a flexible extension. If the <code>fileBasename</code>
* already ends in a known extension, this method parses it according to
* that extension (the file's syntax must match its extension). If the
* <code>fileBasename</code> does not end in an extension, it parses files
* with all known extensions and merges whatever is found.
*
* <p>
* In the current implementation, the extension ".conf" forces
* {@link config_syntax#CONF}, ".json" forces {@link config_syntax#JSON}.
* When merging files, ".conf" falls back to ".json".
*
* <p>
* Future versions of the implementation may add additional syntaxes or
* additional extensions. However, the ordering (fallback priority) of the
* three current extensions will remain the same.
*
* <p>
* If <code>options</code> forces a specific syntax, this method only parses
* files with an extension matching that syntax.
*
* <p>
* If {@link config_parse_options#getAllowMissing options.getAllowMissing()}
* is true, then no files have to exist; if false, then at least one file
* has to exist.
*
* @param fileBasename
* a filename with or without extension
* @param options
* parse options
* @return the parsed configuration
*/
static shared_config parse_file_any_syntax(std::string file_basename, config_parse_options options);
/**
* Like {@link #parseFileAnySyntax(File,config_parse_options)} but always uses
* default parse options.
*
* @param fileBasename
* a filename with or without extension
* @return the parsed configuration
*/
static shared_config parse_file_any_syntax(std::string file_basename);
/**
* Parses a string (which should be valid HOCON or JSON by default, or
* the syntax specified in the options otherwise).
*
* @param s string to parse
* @param options parse options
* @return the parsed configuration
*/
static shared_config parse_string(std::string s, config_parse_options options);
/**
* Parses a string (which should be valid HOCON or JSON).
*
* @param s string to parse
* @return the parsed configuration
*/
static shared_config parse_string(std::string s);
/**
* Gets the {@code config} as a tree of {@link config_object}. This is a
* constant-time operation (it is not proportional to the number of values
* in the {@code config}).
*
* @return the root object in the configuration
*/
virtual shared_object root() const;
/**
* Gets the origin of the {@code config}, which may be a file, or a file
* with a line number, or just a descriptive phrase.
*
* @return the origin of the {@code config} for use in error messages
*/
virtual shared_origin origin() const;
std::shared_ptr<const config_mergeable> with_fallback(std::shared_ptr<const config_mergeable> other) const override;
shared_value to_fallback_value() const override;
/**
* Returns a replacement config with all substitutions (the
* <code>${foo.bar}</code> syntax, see <a
* href="https://github.com/typesafehub/config/blob/master/HOCON.md">the
* spec</a>) resolved. Substitutions are looked up using this
* <code>config</code> as the root object, that is, a substitution
* <code>${foo.bar}</code> will be replaced with the result of
* <code>get_value("foo.bar")</code>.
*
* <p>
* This method uses {@link config_resolve_options()}, there is
* another variant {@link config#resolve(config_resolve_options)} which lets
* you specify non-default options.
*
* <p>
* A given {@link config} must be resolved before using it to retrieve
* config values, but ideally should be resolved one time for your entire
* stack of fallbacks (see {@link config#with_fallback}). Otherwise, some
* substitutions that could have resolved with all fallbacks available may
* not resolve, which will be potentially confusing for your application's
* users.
*
* <p>
* <code>resolve()</code> should be invoked on root config objects, rather
* than on a subtree (a subtree is the result of something like
* <code>config.get_config("foo")</code>). The problem with
* <code>resolve()</code> on a subtree is that substitutions are relative to
* the root of the config and the subtree will have no way to get values
* from the root. For example, if you did
* <code>config.get_config("foo").resolve()</code> on the below config file,
* it would not work:
*
* <pre>
* common-value = 10
* foo {
* whatever = ${common-value}
* }
* </pre>
*
* <p>
* Many methods on {@link config_factory} such as
* {@link config_factory#load()} automatically resolve the loaded
* <code>config</code> on the loaded stack of config files.
*
* <p>
* Resolving an already-resolved config is a harmless no-op, but again, it
* is best to resolve an entire stack of fallbacks (such as all your config
* files combined) rather than resolving each one individually.
*
* @return an immutable object with substitutions resolved
*/
virtual shared_config resolve() const;
/**
* Like {@link config#resolve()} but allows you to specify non-default
* options.
*
* @param options
* resolve options
* @return the resolved <code>config</code> (may be only partially resolved if options are
* set to allow unresolved)
*/
virtual shared_config resolve(config_resolve_options options) const;
/**
* Checks whether the config is completely resolved. After a successful call
* to {@link config#resolve()} it will be completely resolved, but after
* calling {@link config#resolve(config_resolve_options)} with
* <code>allow_unresolved</code> set in the options, it may or may not be
* completely resolved. A newly-loaded config may or may not be completely
* resolved depending on whether there were substitutions present in the
* file.
*
* @return true if there are no unresolved substitutions remaining in this
* configuration.
*/
virtual bool is_resolved() const;
/**
* Like {@link config#resolve()} except that substitution values are looked
* up in the given source, rather than in this instance. This is a
* special-purpose method which doesn't make sense to use in most cases;
* it's only needed if you're constructing some sort of app-specific custom
* approach to configuration. The more usual approach if you have a source
* of substitution values would be to merge that source into your config
* stack using {@link config#withFallback} and then resolve.
* <p>
* Note that this method does NOT look in this instance for substitution
* values. If you want to do that, you could either merge this instance into
* your value source using {@link config#with_fallback}, or you could resolve
* multiple times with multiple sources (using
* {@link config_resolve_options#setAllowUnresolved(boolean)} so the partial
* resolves don't fail).
*
* @param source
* configuration to pull values from
* @return an immutable object with substitutions resolved
*/
virtual shared_config resolve_with(shared_config source) const;
/**
* Like {@link config#resolve_with(config)} but allows you to specify
* non-default options.
*
* @param source
* source configuration to pull values from
* @param options
* resolve options
* @return the resolved <code>config</code> (may be only partially resolved
* if options are set to allow unresolved)
*/
virtual shared_config resolve_with(shared_config source, config_resolve_options options) const;
/**
* Validates this config against a reference config, throwing an exception
* if it is invalid. The purpose of this method is to "fail early" with a
* comprehensive list of problems; in general, anything this method can find
* would be detected later when trying to use the config, but it's often
* more user-friendly to fail right away when loading the config.
*
* <p>
* Using this method is always optional, since you can "fail late" instead.
*
* <p>
* You must restrict validation to paths you "own" (those whose meaning are
* defined by your code module). If you validate globally, you may trigger
* errors about paths that happen to be in the config but have nothing to do
* with your module. It's best to allow the modules owning those paths to
* validate them. Also, if every module validates only its own stuff, there
* isn't as much redundant work being done.
*
* <p>
* If no paths are specified in <code>check_valid()</code>'s parameter list,
* validation is for the entire config.
*
* <p>
* If you specify paths that are not in the reference config, those paths
* are ignored. (There's nothing to validate.)
*
* <p>
* Here's what validation involves:
*
* <ul>
* <li>All paths found in the reference config must be present in this
* config or an exception will be thrown.
* <li>
* Some changes in type from the reference config to this config will cause
* an exception to be thrown. Not all potential type problems are detected,
* in particular it's assumed that strings are compatible with everything
* except objects and lists. This is because string types are often "really"
* some other type (system properties always start out as strings, or a
* string like "5ms" could be used with {@link #get_milliseconds}). Also,
* it's allowed to set any type to null or override null with any type.
* <li>
* Any unresolved substitutions in this config will cause a validation
* failure; both the reference config and this config should be resolved
* before validation. If the reference config is unresolved, it's a bug in
* the caller of this method.
* </ul>
*
* <p>
* If you want to allow a certain setting to have a flexible type (or
* otherwise want validation to be looser for some settings), you could
* either remove the problematic setting from the reference config provided
* to this method, or you could intercept the validation exception and
* screen out certain problems. Of course, this will only work if all other
* callers of this method are careful to restrict validation to their own
* paths, as they should be.
*
* <p>
* If validation fails, the thrown exception contains a list of all problems
* found. The exception will have all the problem concatenated into one huge string.
*
* <p>
* Again, <code>check_valid()</code> can't guess every domain-specific way a
* setting can be invalid, so some problems may arise later when attempting
* to use the config. <code>check_valid()</code> is limited to reporting
* generic, but common, problems such as missing settings and blatant type
* incompatibilities.
*
* @param reference
* a reference configuration
* @param restrictToPaths
* only validate values underneath these paths that your code
* module owns and understands
*/
virtual void check_valid(shared_config reference, std::vector<std::string> restrict_to_paths) const;
/**
* Checks whether a value is present and non-null at the given path. This
* differs in two ways from {@code Map.containsKey()} as implemented by
* {@link config_object}: it looks for a path expression, not a key; and it
* returns false for null values, while {@code contains_key()} returns true
* indicating that the object contains a null value for the key.
*
* <p>
* If a path exists according to {@link #has_path(string)}, then
* {@link #get_value(string)} will never throw an exception. However, the
* typed getters will still throw if the value is not convertible to the
* requested type.
*
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* the path expression
* @return true if a non-null value is present at the path
*/
virtual bool has_path(std::string const& path) const;
/**
* Checks whether a value is present at the given path, even
* if the value is null. Most of the getters on
* <code>config</code> will throw if you try to get a null
* value, so if you plan to call {@link #get_value(string)},
* {@link #get_int(string)}, or another getter you may want to
* use plain {@link #has_path(string)} rather than this method.
*
* <p>
* To handle all three cases (unset, null, and a non-null value)
* the code might look like:
* <pre><code>
* if (config.has_path_or_null(path)) {
* if (config.get_is_null(path)) {
* // handle null setting
* } else {
* // get and use non-null setting
* }
* } else {
* // handle entirely unset path
* }
* </code></pre>
*
* <p> However, the usual thing is to allow entirely unset
* paths to be a bug that throws an exception (because you set
* a default in your <code>reference.conf</code>), so in that
* case it's OK to call {@link #get_is_null(string)} without
* checking <code>has_path_or_null</code> first.
*
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* the path expression
* @return true if a value is present at the path, even if the value is null
*/
virtual bool has_path_or_null(std::string const& path) const;
/**
* Returns true if the {@code config}'s root object contains no key-value
* pairs.
*
* @return true if the configuration is empty
*/
virtual bool is_empty() const;
/**
* Returns the set of path-value pairs, excluding any null values, found by
* recursing {@link #root() the root object}. Note that this is very
* different from <code>root().entry_set()</code> which returns the set of
* immediate-child keys in the root object and includes null values.
* <p>
* Entries contain <em>path expressions</em> meaning there may be quoting
* and escaping involved. Parse path expressions with
* {@link config_util#split_path}.
* <p>
* Because a <code>config</code> is conceptually a single-level map from
* paths to values, there will not be any {@link config_object} values in the
* entries (that is, all entries represent leaf nodes). Use
* {@link config_object} rather than <code>config</code> if you want a tree.
* (OK, this is a slight lie: <code>config</code> entries may contain
* {@link config_list} and the lists may contain objects. But no objects are
* directly included as entry values.)
*
* @return set of paths with non-null values, built up by recursing the
* entire tree of {@link config_object} and creating an entry for
* each leaf value.
*/
virtual std::set<std::pair<std::string, std::shared_ptr<const config_value>>> entry_set() const;
/**
* Checks whether a value is set to null at the given path,
* but throws an exception if the value is entirely
* unset. This method will not throw if {@link
* #has_path_or_null(string)} returned true for the same path, so
* to avoid any possible exception check
* <code>has_path_or_null()</code> first. However, an exception
* for unset paths will usually be the right thing (because a
* <code>reference.conf</code> should exist that has the path
* set, the path should never be unset unless something is
* broken).
*
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* the path expression
* @return true if the value exists and is null, false if it
* exists and is not null
*/
virtual bool get_is_null(std::string const& path) const;
virtual bool get_bool(std::string const& path) const;
virtual int get_int(std::string const& path) const;
virtual int64_t get_long(std::string const& path) const;
virtual double get_double(std::string const& path) const;
virtual std::string get_string(std::string const& path) const;
virtual std::shared_ptr<const config_object> get_object(std::string const& path) const;
virtual shared_config get_config(std::string const& path) const;
virtual unwrapped_value get_any_ref(std::string const& path) const;
virtual std::shared_ptr<const config_value> get_value(std::string const& path) const;
template<typename T>
std::vector<T> get_homogeneous_unwrapped_list(std::string const& path) const {
auto list = boost::get<std::vector<unwrapped_value>>(get_list(path)->unwrapped());
std::vector<T> T_list;
for (auto item : list) {
try {
T_list.push_back(boost::get<T>(item));
} catch (boost::bad_get &ex) {
throw config_exception(leatherman::locale::format("The list did not contain only the desired type."));
}
}
return T_list;
}
virtual shared_list get_list(std::string const& path) const;
virtual std::vector<bool> get_bool_list(std::string const& path) const;
virtual std::vector<int> get_int_list(std::string const& path) const;
virtual std::vector<int64_t> get_long_list(std::string const& path) const;
virtual std::vector<double> get_double_list(std::string const& path) const;
virtual std::vector<std::string> get_string_list(std::string const& path) const;
virtual std::vector<shared_object> get_object_list(std::string const& path) const;
virtual std::vector<shared_config> get_config_list(std::string const& path) const;
// TODO: memory parsing
/**
* Gets a value as an integer number of the specified units.
* If the result would have a fractional part, the number is truncated.
* Correctly handles durations within the range +/-2^63 seconds.
* @param path the path to the time value
* @param unit the units of the number returned
* @return a 64-bit integer representing the value converted to the requested units
*/
virtual int64_t get_duration(std::string const& path, time_unit unit) const;
/**
* Clone the config with only the given path (and its children) retained;
* all sibling paths are removed.
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* path to keep
* @return a copy of the config minus all paths except the one specified
*/
virtual shared_config with_only_path(std::string const& path) const;
/**
* Clone the config with the given path removed.
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* path expression to remove
* @return a copy of the config minus the specified path
*/
virtual shared_config without_path(std::string const& path) const;
/**
* Places the config inside another {@code config} at the given path.
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* path expression to store this config at.
* @return a {@code config} instance containing this config at the given
* path.
*/
virtual shared_config at_path(std::string const& path) const;
/**
* Places the config inside a {@code config} at the given key. See also
* at_path(). Note that a key is NOT a path expression (see
* {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param key
* key to store this config at.
* @return a {@code config} instance containing this config at the given
* key.
*/
virtual shared_config at_key(std::string const& key) const;
/**
* Returns a {@code config} based on this one, but with the given path set
* to the given value. Does not modify this instance (since it's immutable).
* If the path already has a value, that value is replaced. To remove a
* value, use withoutPath().
* <p>
* Note that path expressions have a syntax and sometimes require quoting
* (see {@link config_util#join_path} and {@link config_util#split_path}).
*
* @param path
* path expression for the value's new location
* @param value
* value at the new path
* @return the new instance with the new map entry
*/
virtual shared_config with_value(std::string const& path, std::shared_ptr<const config_value> value) const;
bool operator==(config const& other) const;
config(shared_object object);
static shared_object env_variables_as_config_object();
protected:
shared_value find(std::string const& path_expression, config_value::type expected) const;
shared_value find(path path_expression, config_value::type expected, path original_path) const;
shared_value find(path path_expression, config_value::type expected) const;
shared_config at_key(shared_origin origin, std::string const& key) const;
static shared_includer default_includer();
// TODO: memory and duration parsing
private:
/**
* Parses a duration string. If no units are specified in the string, it is assumed to be in
* milliseconds.
* Valid suffixes include ns, us, ms, s, m, h, and d. The units can also be specified as complete
* words (e.g. "seconds").
* @param input the string to parse
* @param origin_for_exception the origin of the value being parsed
* @param path_for_exception the path to the value being parsed
* @return the value parsed as a time_duration
*/
static duration parse_duration(std::string input, shared_origin origin_for_exception, std::string path_for_exception);
static duration convert(int64_t number, time_unit units);
static duration convert(double number, time_unit units);
static time_unit get_units(std::string const& unit_string);
duration get_duration(std::string const& path) const;
shared_value has_path_peek(std::string const& path_expression) const;
shared_value peek_path(path desired_path) const;
static void find_paths(std::set<std::pair<std::string, std::shared_ptr<const config_value>>>& entries,
path parent, shared_object obj);
static shared_value throw_if_null(shared_value v, config_value::type expected, path original_path);
static shared_value find_key(shared_object self, std::string const& key,
config_value::type expected, path original_path);
static shared_value find_key_or_null(shared_object self, std::string const& key,
config_value::type expected, path original_path);
static shared_value find_or_null(shared_object self, path desired_path,
config_value::type expected, path original_path);
shared_value find_or_null(std::string const& path_expression, config_value::type expected) const;
shared_value find_or_null(path path_expression, config_value::type expected, path original_path) const;
shared_object _object;
};
template<>
std::vector<int64_t> config::get_homogeneous_unwrapped_list(std::string const& path) const;
} // namespace hocon