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// Copyright 2013-2025 Daniel Parker
// Distributed under the Boost license, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// See https://github.com/danielaparker/jsoncons for latest version
#ifndef JSONCONS_EXT_JSONSCHEMA_COMMON_SCHEMA_VALIDATOR_HPP
#define JSONCONS_EXT_JSONSCHEMA_COMMON_SCHEMA_VALIDATOR_HPP
#include <cstddef>
#include <unordered_map>
#include <unordered_set>
#include <jsoncons/config/jsoncons_config.hpp>
#include <jsoncons/utility/uri.hpp>
#include <jsoncons_ext/jsonschema/common/eval_context.hpp>
#include <jsoncons_ext/jsonschema/common/keyword_validator.hpp>
#include <jsoncons_ext/jsonschema/jsonschema_error.hpp>
namespace jsoncons {
namespace jsonschema {
template <typename Json>
class schema_validator : public validator_base<Json>
{
public:
using walk_reporter_type = typename json_schema_traits<Json>::walk_reporter_type;
using schema_validator_ptr_type = typename std::unique_ptr<schema_validator<Json>>;
public:
schema_validator()
{}
virtual jsoncons::optional<Json> get_default_value() const = 0;
virtual bool recursive_anchor() const = 0;
virtual const jsoncons::optional<jsoncons::uri>& id() const = 0;
virtual const schema_validator<Json>* get_schema_for_dynamic_anchor(const std::string& anchor) const = 0;
virtual const jsoncons::optional<jsoncons::uri>& dynamic_anchor() const = 0;
};
template <typename Json>
class document_schema_validator : public schema_validator<Json>
{
using schema_validator_ptr_type = std::unique_ptr<schema_validator<Json>>;
using walk_reporter_type = typename json_schema_traits<Json>::walk_reporter_type;
std::unique_ptr<Json> root_schema_;
schema_validator_ptr_type schema_val_;
std::vector<schema_validator_ptr_type> schemas_;
public:
document_schema_validator(std::unique_ptr<Json>&& root_schema, schema_validator_ptr_type&& schema_val, std::vector<schema_validator_ptr_type>&& schemas)
: root_schema_(std::move(root_schema)), schema_val_(std::move(schema_val)), schemas_(std::move(schemas))
{
if (schema_val_ == nullptr)
JSONCONS_THROW(schema_error("There is no schema to validate an instance against"));
}
document_schema_validator(const document_schema_validator&) = delete;
document_schema_validator(document_schema_validator&&) = default;
document_schema_validator& operator=(const document_schema_validator&) = delete;
document_schema_validator& operator=(document_schema_validator&&) = default;
jsoncons::optional<Json> get_default_value() const final
{
return schema_val_->get_default_value();
}
const uri& schema_location() const final
{
return schema_val_->schema_location();
}
bool recursive_anchor() const final
{
return schema_val_->recursive_anchor();
}
const jsoncons::optional<jsoncons::uri>& id() const final
{
return schema_val_->id();
}
const jsoncons::optional<jsoncons::uri>& dynamic_anchor() const final
{
return schema_val_->dynamic_anchor();
}
const schema_validator<Json>* get_schema_for_dynamic_anchor(const std::string& anchor) const final
{
return schema_val_->get_schema_for_dynamic_anchor(anchor);
}
bool always_fails() const final
{
return schema_val_->always_fails();
}
bool always_succeeds() const final
{
return schema_val_->always_succeeds();
}
walk_result walk(const eval_context<Json>& context,
const Json& instance,
const jsonpointer::json_pointer& instance_location, const walk_reporter_type& reporter) const
{
return do_walk(context, instance, instance_location, reporter);
}
private:
walk_result do_validate(const eval_context<Json>& context,
const Json& instance,
const jsonpointer::json_pointer& instance_location,
evaluation_results& results,
error_reporter& reporter,
Json& patch) const
{
JSONCONS_ASSERT(schema_val_ != nullptr);
return schema_val_->validate(context, instance, instance_location, results, reporter, patch);
}
walk_result do_walk(const eval_context<Json>& context, const Json& instance,
const jsonpointer::json_pointer& instance_location, const walk_reporter_type& reporter) const final
{
JSONCONS_ASSERT(schema_val_ != nullptr);
return schema_val_->walk(context, instance, instance_location, reporter);
}
};
template <typename Json>
class boolean_schema_validator : public schema_validator<Json>
{
public:
using schema_validator_ptr_type = typename std::unique_ptr<schema_validator<Json>>;
using walk_reporter_type = typename json_schema_traits<Json>::walk_reporter_type;
uri schema_location_;
bool value_;
jsoncons::optional<jsoncons::uri> id_;
jsoncons::optional<jsoncons::uri> dynamic_anchor_;
public:
boolean_schema_validator(const boolean_schema_validator&) = delete;
boolean_schema_validator& operator=(const boolean_schema_validator&) = delete;
boolean_schema_validator(boolean_schema_validator&&) = default;
boolean_schema_validator& operator=(boolean_schema_validator&&) = default;
boolean_schema_validator(const uri& schema_location, bool value)
: schema_location_(schema_location), value_(value)
{
}
jsoncons::optional<Json> get_default_value() const final
{
return jsoncons::optional<Json>{};
}
const uri& schema_location() const final
{
return schema_location_;
}
bool recursive_anchor() const final
{
return false;
}
const jsoncons::optional<jsoncons::uri>& id() const final
{
return id_;
}
const jsoncons::optional<jsoncons::uri>& dynamic_anchor() const final
{
return dynamic_anchor_;
}
const schema_validator<Json>* get_schema_for_dynamic_anchor(const std::string& /*anchor*/) const final
{
return nullptr;
}
bool always_fails() const final
{
return !value_;
}
bool always_succeeds() const final
{
return value_;
}
private:
walk_result do_validate(const eval_context<Json>& context, const Json&,
const jsonpointer::json_pointer& instance_location,
evaluation_results& /*results*/,
error_reporter& reporter,
Json& /*patch*/) const final
{
if (!value_)
{
reporter.error(validation_message("false",
context.eval_path(),
this->schema_location(),
instance_location,
"False schema always fails"));
}
return walk_result::advance;
}
walk_result do_walk(const eval_context<Json>& /*context*/, const Json& /*instance*/,
const jsonpointer::json_pointer& /*instance_location*/, const walk_reporter_type& /*reporter*/) const final
{
return walk_result::advance;
}
};
template <typename Json>
class object_schema_validator : public schema_validator<Json>
{
public:
using schema_validator_ptr_type = typename std::unique_ptr<schema_validator<Json>>;
using keyword_validator_ptr_type = typename std::unique_ptr<keyword_validator<Json>>;
using anchor_schema_map_type = std::unordered_map<std::string,std::unique_ptr<ref_validator<Json>>>;
using walk_reporter_type = typename json_schema_traits<Json>::walk_reporter_type;
uri schema_location_;
jsoncons::optional<jsoncons::uri> id_;
std::vector<keyword_validator_ptr_type> validators_;
std::unique_ptr<unevaluated_properties_validator<Json>> unevaluated_properties_val_;
std::unique_ptr<unevaluated_items_validator<Json>> unevaluated_items_val_;
std::map<std::string,schema_validator_ptr_type> defs_;
Json default_value_;
bool recursive_anchor_;
jsoncons::optional<jsoncons::uri> dynamic_anchor_;
anchor_schema_map_type anchor_dict_;
bool always_succeeds_;
bool always_fails_;
public:
object_schema_validator(const object_schema_validator&) = delete;
object_schema_validator& operator=(const object_schema_validator&) = delete;
object_schema_validator(object_schema_validator&&) = default;
object_schema_validator& operator=(object_schema_validator&&) = default;
object_schema_validator(const uri& schema_location,
const jsoncons::optional<jsoncons::uri>& id,
std::vector<keyword_validator_ptr_type>&& validators,
std::map<std::string,schema_validator_ptr_type>&& defs,
Json&& default_value)
: schema_location_(schema_location),
id_(id),
validators_(std::move(validators)),
defs_(std::move(defs)),
default_value_(std::move(default_value)),
recursive_anchor_(false),
always_succeeds_(false), always_fails_(false)
{
init();
}
object_schema_validator(const uri& schema_location,
const jsoncons::optional<jsoncons::uri>& id,
std::vector<keyword_validator_ptr_type>&& validators,
std::unique_ptr<unevaluated_properties_validator<Json>>&& unevaluated_properties_val,
std::unique_ptr<unevaluated_items_validator<Json>>&& unevaluated_items_val,
std::map<std::string,schema_validator_ptr_type>&& defs,
Json&& default_value, bool recursive_anchor)
: schema_location_(schema_location),
id_(id),
validators_(std::move(validators)),
unevaluated_properties_val_(std::move(unevaluated_properties_val)),
unevaluated_items_val_(std::move(unevaluated_items_val)),
defs_(std::move(defs)),
default_value_(std::move(default_value)),
recursive_anchor_(recursive_anchor),
always_succeeds_(false), always_fails_(false)
{
init();
}
object_schema_validator(const uri& schema_location,
const jsoncons::optional<jsoncons::uri>& id,
std::vector<keyword_validator_ptr_type>&& validators,
std::unique_ptr<unevaluated_properties_validator<Json>>&& unevaluated_properties_val,
std::unique_ptr<unevaluated_items_validator<Json>>&& unevaluated_items_val,
std::map<std::string,schema_validator_ptr_type>&& defs,
Json&& default_value,
jsoncons::optional<jsoncons::uri>&& dynamic_anchor,
anchor_schema_map_type&& anchor_dict)
: schema_location_(schema_location),
id_(std::move(id)),
validators_(std::move(validators)),
unevaluated_properties_val_(std::move(unevaluated_properties_val)),
unevaluated_items_val_(std::move(unevaluated_items_val)),
defs_(std::move(defs)),
default_value_(std::move(default_value)),
recursive_anchor_(false),
dynamic_anchor_(std::move(dynamic_anchor)),
anchor_dict_(std::move(anchor_dict)),
always_succeeds_(false), always_fails_(false)
{
init();
}
jsoncons::optional<Json> get_default_value() const override
{
return default_value_;
}
const uri& schema_location() const override
{
return schema_location_;
}
bool recursive_anchor() const final
{
return recursive_anchor_;
}
const jsoncons::optional<jsoncons::uri>& id() const final
{
return id_;
}
const schema_validator<Json>* get_schema_for_dynamic_anchor(const std::string& anchor) const final
{
auto it = anchor_dict_.find(anchor);
return (it == anchor_dict_.end()) ? nullptr : (*it).second->referred_schema();
}
const jsoncons::optional<jsoncons::uri>& dynamic_anchor() const final
{
return dynamic_anchor_;
}
bool always_fails() const final
{
return always_fails_;
}
bool always_succeeds() const final
{
return always_succeeds_;
}
private:
void init()
{
if (!(unevaluated_properties_val_ || unevaluated_items_val_))
{
std::size_t always_fails_count = 0;
std::size_t always_succeeds_count = 0;
for (const auto& val : validators_)
{
if (val->always_fails())
{
++always_fails_count;
}
if (val->always_succeeds())
{
++always_succeeds_count;
}
}
always_succeeds_ = always_succeeds_count == validators_.size(); // empty schema always succeeds
always_fails_ = validators_.size() > 0 && (always_fails_count == validators_.size());
}
}
walk_result do_validate(const eval_context<Json>& context, const Json& instance,
const jsonpointer::json_pointer& instance_location,
evaluation_results& results,
error_reporter& reporter,
Json& patch) const final
{
//std::cout << "object_schema_validator begin[" << context.eval_path().string() << "," << this->schema_location().string() << "]";
//std::cout << "results:\n";
//for (const auto& s : results)
//{
// std::cout << " " << s << "\n";
//}
//std::cout << "\n";
evaluation_results local_results;
evaluation_flags flags = context.eval_flags();
if (unevaluated_properties_val_)
{
flags |= evaluation_flags::require_evaluated_properties;
}
if (unevaluated_items_val_)
{
flags |= evaluation_flags::require_evaluated_items;
}
eval_context<Json> this_context{context, this, flags};
//std::cout << "validators:\n";
for (auto& val : validators_)
{
//std::cout << " " << val->keyword_name() << "\n";
walk_result result = val->validate(this_context, instance, instance_location, local_results, reporter, patch);
if (result == walk_result::abort)
{
return result;
}
}
if (unevaluated_properties_val_)
{
walk_result result = unevaluated_properties_val_->validate(this_context, instance, instance_location, local_results, reporter, patch);
if (result == walk_result::abort)
{
return result;
}
}
if (unevaluated_items_val_)
{
walk_result result = unevaluated_items_val_->validate(this_context, instance, instance_location, local_results, reporter, patch);
if (result == walk_result::abort)
{
return result;
}
}
if ((context.eval_flags() & evaluation_flags::require_evaluated_properties)
== evaluation_flags::require_evaluated_properties)
{
results.merge(std::move(local_results.evaluated_properties));
}
if ((context.eval_flags() & evaluation_flags::require_evaluated_items)
== evaluation_flags::require_evaluated_items)
{
results.merge(std::move(local_results.evaluated_items));
}
//std::cout << "object_schema_validator end[" << context.eval_path().string() << "," << this->schema_location().string() << "]";
//std::cout << "results:\n";
//for (const auto& s : results)
//{
// std::cout << " " << s << "\n";
//}
//std::cout << "\n";
return walk_result::advance;
}
walk_result do_walk(const eval_context<Json>& context, const Json& instance,
const jsonpointer::json_pointer& instance_location, const walk_reporter_type& reporter) const final
{
eval_context<Json> this_context{context, this};
for (auto& val : validators_)
{
//std::cout << " " << val->keyword_name() << "\n";
walk_result result = val->walk(this_context, instance, instance_location, reporter);
if (result == walk_result::abort)
{
return result;
}
}
if (unevaluated_properties_val_)
{
walk_result result = unevaluated_properties_val_->walk(this_context, instance, instance_location, reporter);
if (result == walk_result::abort)
{
return result;
}
}
if (unevaluated_items_val_)
{
walk_result result = unevaluated_items_val_->walk(this_context, instance, instance_location, reporter);
if (result == walk_result::abort)
{
return result;
}
}
return walk_result::advance;
}
};
} // namespace jsonschema
} // namespace jsoncons
#endif // JSONCONS_EXT_JSONSCHEMA_KEYWORD_VALIDATOR_HPP
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