include/inja/renderer.hpp - third_party/inja - Git at Google

 // Copyright (c) 2020 Pantor. All rights reserved.

 #ifndef INCLUDE_INJA_RENDERER_HPP_
 #define INCLUDE_INJA_RENDERER_HPP_

 #include <algorithm>
 #include <numeric>
 #include <string>
 #include <utility>
 #include <vector>

 #include <nlohmann/json.hpp>

 #include "config.hpp"
 #include "exceptions.hpp"
 #include "node.hpp"
 #include "template.hpp"
 #include "utils.hpp"

 namespace inja {

 /*!
  * \brief Class for rendering a Template with data.
  */
 class Renderer : public NodeVisitor  {
   using Op = FunctionStorage::Operation;

   const RenderConfig config;
   const Template *current_template;
   const TemplateStorage &template_storage;
   const FunctionStorage &function_storage;

   const json *json_input;
   std::ostream *output_stream;

   json json_additional_data;
   json* current_loop_data = &json_additional_data["loop"];

   std::vector<std::shared_ptr<json>> json_tmp_stack;
   std::stack<const json*> json_eval_stack;
   std::stack<const JsonNode*> not_found_stack;

   bool truthy(const json* data) const {
     if (data->is_boolean()) {
       return data->get<bool>();
     } else if (data->is_number()) {
       return (*data != 0);
     } else if (data->is_null()) {
       return false;
     }
     return !data->empty();
   }

   void print_json(const std::shared_ptr<json> value) {
     if (value->is_string()) {
       *output_stream << value->get_ref<const json::string_t&>();
     } else if (value->is_number_integer()) {
       *output_stream << value->get<const json::number_integer_t>();
     } else if (value->is_null()) {
     } else {
       *output_stream << value->dump();
     }
   }

   const std::shared_ptr<json> eval_expression_list(const ExpressionListNode& expression_list) {
     if (!expression_list.root) {
       throw_renderer_error("empty expression", expression_list);
     }

     expression_list.root->accept(*this);

     if (json_eval_stack.empty()) {
       throw_renderer_error("empty expression", expression_list);
     } else if (json_eval_stack.size() != 1) {
       throw_renderer_error("malformed expression", expression_list);
     }

     auto result = json_eval_stack.top();
     json_eval_stack.pop();

     if (!result) {
       if (not_found_stack.empty()) {
         throw_renderer_error("expression could not be evaluated", expression_list);
       }

       auto node = not_found_stack.top();
       not_found_stack.pop();

       throw_renderer_error("variable '" + static_cast<std::string>(node->name) + "' not found", *node);
     }
     return std::make_shared<json>(*result);
   }

   void throw_renderer_error(const std::string &message, const AstNode& node) {
     SourceLocation loc = get_source_location(current_template->content, node.pos);
     INJA_THROW(RenderError(message, loc));
   }

   template<size_t N, size_t N_start = 0, bool throw_not_found=true>
   std::array<const json*, N> get_arguments(const FunctionNode& node) {
     if (node.arguments.size() < N_start + N) {
       throw_renderer_error("function needs " + std::to_string(N_start + N) + " variables, but has only found " + std::to_string(node.arguments.size()), node);
     }

     for (size_t i = N_start; i < N_start + N; i += 1) {
       node.arguments[i]->accept(*this);
     }

     if (json_eval_stack.size() < N) {
       throw_renderer_error("function needs " + std::to_string(N) + " variables, but has only found " + std::to_string(json_eval_stack.size()), node);
     }

     std::array<const json*, N> result;
     for (size_t i = 0; i < N; i += 1) {
       result[N - i - 1] = json_eval_stack.top();
       json_eval_stack.pop();

       if (!result[N - i - 1]) {
         auto json_node = not_found_stack.top();
         not_found_stack.pop();

         if (throw_not_found) {
           throw_renderer_error("variable '" + static_cast<std::string>(json_node->name) + "' not found", *json_node);
         }
       }
     }
     return result;
   }

   template<bool throw_not_found=true>
   Arguments get_argument_vector(const FunctionNode& node) {
     const size_t N = node.arguments.size();
     for (auto a: node.arguments) {
       a->accept(*this);
     }

     if (json_eval_stack.size() < N) {
       throw_renderer_error("function needs " + std::to_string(N) + " variables, but has only found " + std::to_string(json_eval_stack.size()), node);
     }

     Arguments result {N};
     for (size_t i = 0; i < N; i += 1) {
       result[N - i - 1] = json_eval_stack.top();
       json_eval_stack.pop();

       if (!result[N - i - 1]) {
         auto json_node = not_found_stack.top();
         not_found_stack.pop();

         if (throw_not_found) {
           throw_renderer_error("variable '" + static_cast<std::string>(json_node->name) + "' not found", *json_node);
         }
       }
     }
     return result;
   }

   void visit(const BlockNode& node) {
     for (auto& n : node.nodes) {
       n->accept(*this);
     }
   }

   void visit(const TextNode& node) {
     output_stream->write(current_template->content.c_str() + node.pos, node.length);
   }

   void visit(const ExpressionNode&) { }

   void visit(const LiteralNode& node) {
     json_eval_stack.push(&node.value);
   }

   void visit(const JsonNode& node) {
     if (json_additional_data.contains(node.ptr)) {
       json_eval_stack.push(&(json_additional_data[node.ptr]));

     } else if (json_input->contains(node.ptr)) {
       json_eval_stack.push(&(*json_input)[node.ptr]);

     } else {
       // Try to evaluate as a no-argument callback
       auto function_data = function_storage.find_function(node.name, 0);
       if (function_data.operation == FunctionStorage::Operation::Callback) {
         Arguments empty_args {};
         auto value = std::make_shared<json>(function_data.callback(empty_args));
         json_tmp_stack.push_back(value);
         json_eval_stack.push(value.get());

       } else {
         json_eval_stack.push(nullptr);
         not_found_stack.emplace(&node);
       }
     }
   }

   void visit(const FunctionNode& node) {
     std::shared_ptr<json> result_ptr;

     switch (node.operation) {
     case Op::Not: {
       auto args = get_arguments<1>(node);
       result_ptr = std::make_shared<json>(!truthy(args[0]));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::And: {
       result_ptr = std::make_shared<json>(truthy(get_arguments<1, 0>(node)[0]) && truthy(get_arguments<1, 1>(node)[0]));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Or: {
       result_ptr = std::make_shared<json>(truthy(get_arguments<1, 0>(node)[0]) || truthy(get_arguments<1, 1>(node)[0]));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::In: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(std::find(args[1]->begin(), args[1]->end(), *args[0]) != args[1]->end());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Equal: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] == *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::NotEqual: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] != *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Greater: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] > *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::GreaterEqual: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] >= *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Less: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] < *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::LessEqual: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(*args[0] <= *args[1]);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Add: {
       auto args = get_arguments<2>(node);
       if (args[0]->is_string() && args[1]->is_string()) {
         result_ptr = std::make_shared<json>(args[0]->get_ref<const std::string&>() + args[1]->get_ref<const std::string&>());
         json_tmp_stack.push_back(result_ptr);
       } else if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
         result_ptr = std::make_shared<json>(args[0]->get<int>() + args[1]->get<int>());
         json_tmp_stack.push_back(result_ptr);
       } else {
         result_ptr = std::make_shared<json>(args[0]->get<double>() + args[1]->get<double>());
         json_tmp_stack.push_back(result_ptr);
       }
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Subtract: {
       auto args = get_arguments<2>(node);
       if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
         result_ptr = std::make_shared<json>(args[0]->get<int>() - args[1]->get<int>());
         json_tmp_stack.push_back(result_ptr);
       } else {
         result_ptr = std::make_shared<json>(args[0]->get<double>() - args[1]->get<double>());
         json_tmp_stack.push_back(result_ptr);
       }
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Multiplication: {
       auto args = get_arguments<2>(node);
       if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
         result_ptr = std::make_shared<json>(args[0]->get<int>() * args[1]->get<int>());
         json_tmp_stack.push_back(result_ptr);
       } else {
         result_ptr = std::make_shared<json>(args[0]->get<double>() * args[1]->get<double>());
         json_tmp_stack.push_back(result_ptr);
       }
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Division: {
       auto args = get_arguments<2>(node);
       if (args[1]->get<double>() == 0) {
         throw_renderer_error("division by zero", node);
       }
       result_ptr = std::make_shared<json>(args[0]->get<double>() / args[1]->get<double>());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Power: {
       auto args = get_arguments<2>(node);
       if (args[0]->is_number_integer() && args[1]->get<int>() >= 0) {
         int result = std::pow(args[0]->get<int>(), args[1]->get<int>());
         result_ptr = std::make_shared<json>(std::move(result));
         json_tmp_stack.push_back(result_ptr);
       } else {
         double result = std::pow(args[0]->get<double>(), args[1]->get<int>());
         result_ptr = std::make_shared<json>(std::move(result));
         json_tmp_stack.push_back(result_ptr);
       }
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Modulo: {
       auto args = get_arguments<2>(node);
       result_ptr = std::make_shared<json>(args[0]->get<int>() % args[1]->get<int>());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::AtId: {
       auto container = get_arguments<1, 0, false>(node)[0];
       node.arguments[1]->accept(*this);
       if (not_found_stack.empty()) {
         throw_renderer_error("could not find element with given name", node);
       }
       auto id_node = not_found_stack.top();
       not_found_stack.pop();
       json_eval_stack.pop();
       json_eval_stack.push(&container->at(id_node->name));
     } break;
     case Op::At: {
       auto args = get_arguments<2>(node);
       json_eval_stack.push(&args[0]->at(args[1]->get<int>()));
     } break;
     case Op::Default: {
       auto test_arg = get_arguments<1, 0, false>(node)[0];
       json_eval_stack.push(test_arg ? test_arg : get_arguments<1, 1>(node)[0]);
     } break;
     case Op::DivisibleBy: {
       auto args = get_arguments<2>(node);
       int divisor = args[1]->get<int>();
       result_ptr = std::make_shared<json>((divisor != 0) && (args[0]->get<int>() % divisor == 0));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Even: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<int>() % 2 == 0);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Exists: {
       auto &&name = get_arguments<1>(node)[0]->get_ref<const std::string &>();
       result_ptr = std::make_shared<json>(json_input->contains(json::json_pointer(JsonNode::convert_dot_to_json_ptr(name))));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::ExistsInObject: {
       auto args = get_arguments<2>(node);
       auto &&name = args[1]->get_ref<const std::string &>();
       result_ptr = std::make_shared<json>(args[0]->find(name) != args[0]->end());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::First: {
       auto result = &get_arguments<1>(node)[0]->front();
       json_eval_stack.push(result);
     } break;
     case Op::Float: {
       result_ptr = std::make_shared<json>(std::stod(get_arguments<1>(node)[0]->get_ref<const std::string &>()));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Int: {
       result_ptr = std::make_shared<json>(std::stoi(get_arguments<1>(node)[0]->get_ref<const std::string &>()));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Last: {
       auto result = &get_arguments<1>(node)[0]->back();
       json_eval_stack.push(result);
     } break;
     case Op::Length: {
       auto val = get_arguments<1>(node)[0];
       if (val->is_string()) {
         result_ptr = std::make_shared<json>(val->get_ref<const std::string &>().length());
       } else {
         result_ptr = std::make_shared<json>(val->size());
       }
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Lower: {
       std::string result = get_arguments<1>(node)[0]->get<std::string>();
       std::transform(result.begin(), result.end(), result.begin(), ::tolower);
       result_ptr = std::make_shared<json>(std::move(result));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Max: {
       auto args = get_arguments<1>(node);
       auto result = std::max_element(args[0]->begin(), args[0]->end());
       json_eval_stack.push(&(*result));
     } break;
     case Op::Min: {
       auto args = get_arguments<1>(node);
       auto result = std::min_element(args[0]->begin(), args[0]->end());
       json_eval_stack.push(&(*result));
     } break;
     case Op::Odd: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<int>() % 2 != 0);
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Range: {
       std::vector<int> result(get_arguments<1>(node)[0]->get<int>());
       std::iota(result.begin(), result.end(), 0);
       result_ptr = std::make_shared<json>(std::move(result));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Round: {
       auto args = get_arguments<2>(node);
       int precision = args[1]->get<int>();
       double result = std::round(args[0]->get<double>() * std::pow(10.0, precision)) / std::pow(10.0, precision);
       result_ptr = std::make_shared<json>(std::move(result));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Sort: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<std::vector<json>>());
       std::sort(result_ptr->begin(), result_ptr->end());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Upper: {
       std::string result = get_arguments<1>(node)[0]->get<std::string>();
       std::transform(result.begin(), result.end(), result.begin(), ::toupper);
       result_ptr = std::make_shared<json>(std::move(result));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsBoolean: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_boolean());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsNumber: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsInteger: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number_integer());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsFloat: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number_float());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsObject: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_object());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsArray: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_array());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::IsString: {
       result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_string());
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::Callback: {
       auto args = get_argument_vector(node);
       result_ptr = std::make_shared<json>(node.callback(args));
       json_tmp_stack.push_back(result_ptr);
       json_eval_stack.push(result_ptr.get());
     } break;
     case Op::ParenLeft:
     case Op::ParenRight:
     case Op::None:
       break;
     }
   }

   void visit(const ExpressionListNode& node) {
     print_json(eval_expression_list(node));
   }

   void visit(const StatementNode&) { }

   void visit(const ForStatementNode&) { }

   void visit(const ForArrayStatementNode& node) {
     auto result = eval_expression_list(node.condition);
     if (!result->is_array()) {
       throw_renderer_error("object must be an array", node);
     }

     if (!current_loop_data->empty()) {
       auto tmp = *current_loop_data; // Because of clang-3
       (*current_loop_data)["parent"] = std::move(tmp);
     }

     size_t index = 0;
     (*current_loop_data)["is_first"] = true;
     (*current_loop_data)["is_last"] = (result->size() <= 1);
     for (auto it = result->begin(); it != result->end(); ++it) {
       json_additional_data[static_cast<std::string>(node.value)] = *it;

       (*current_loop_data)["index"] = index;
       (*current_loop_data)["index1"] = index + 1;
       if (index == 1) {
         (*current_loop_data)["is_first"] = false;
       }
       if (index == result->size() - 1) {
         (*current_loop_data)["is_last"] = true;
       }

       node.body.accept(*this);
       ++index;
     }

     json_additional_data[static_cast<std::string>(node.value)].clear();
     if (!(*current_loop_data)["parent"].empty()) {
       auto tmp = (*current_loop_data)["parent"];
       *current_loop_data = std::move(tmp);
     } else {
       current_loop_data = &json_additional_data["loop"];
     }
   }

   void visit(const ForObjectStatementNode& node) {
     auto result = eval_expression_list(node.condition);
     if (!result->is_object()) {
       throw_renderer_error("object must be an object", node);
     }

     if (!current_loop_data->empty()) {
       (*current_loop_data)["parent"] = std::move(*current_loop_data);
     }

     size_t index = 0;
     (*current_loop_data)["is_first"] = true;
     (*current_loop_data)["is_last"] = (result->size() <= 1);
     for (auto it = result->begin(); it != result->end(); ++it) {
       json_additional_data[static_cast<std::string>(node.key)] = it.key();
       json_additional_data[static_cast<std::string>(node.value)] = it.value();

       (*current_loop_data)["index"] = index;
       (*current_loop_data)["index1"] = index + 1;
       if (index == 1) {
         (*current_loop_data)["is_first"] = false;
       }
       if (index == result->size() - 1) {
         (*current_loop_data)["is_last"] = true;
       }

       node.body.accept(*this);
       ++index;
     }

     json_additional_data[static_cast<std::string>(node.key)].clear();
     json_additional_data[static_cast<std::string>(node.value)].clear();
     if (!(*current_loop_data)["parent"].empty()) {
       *current_loop_data = std::move((*current_loop_data)["parent"]);
     } else {
       current_loop_data = &json_additional_data["loop"];
     }
   }

   void visit(const IfStatementNode& node) {
     auto result = eval_expression_list(node.condition);
     if (truthy(result.get())) {
       node.true_statement.accept(*this);
     } else if (node.has_false_statement) {
       node.false_statement.accept(*this);
     }
   }

   void visit(const IncludeStatementNode& node) {
     auto sub_renderer = Renderer(config, template_storage, function_storage);
     auto included_template_it = template_storage.find(node.file);

     if (included_template_it != template_storage.end()) {
       sub_renderer.render_to(*output_stream, included_template_it->second, *json_input, &json_additional_data);
     } else if (config.throw_at_missing_includes) {
       throw_renderer_error("include '" + node.file + "' not found", node);
     }
   }

   void visit(const SetStatementNode& node) {
     json_additional_data[node.key] = *eval_expression_list(node.expression);
   }

 public:
   Renderer(const RenderConfig& config, const TemplateStorage &template_storage, const FunctionStorage &function_storage)
       : config(config), template_storage(template_storage), function_storage(function_storage) { }

   void render_to(std::ostream &os, const Template &tmpl, const json &data, json *loop_data = nullptr) {
     output_stream = &os;
     current_template = &tmpl;
     json_input = &data;
     if (loop_data) {
       json_additional_data = *loop_data;
       current_loop_data = &json_additional_data["loop"];
     }

     current_template->root.accept(*this);

     json_tmp_stack.clear();
   }
 };

 } // namespace inja

 #endif // INCLUDE_INJA_RENDERER_HPP_
	// Copyright (c) 2020 Pantor. All rights reserved.

	#ifndef INCLUDE_INJA_RENDERER_HPP_
	#define INCLUDE_INJA_RENDERER_HPP_

	#include <algorithm>
	#include <numeric>
	#include <string>
	#include <utility>
	#include <vector>

	#include <nlohmann/json.hpp>

	#include "config.hpp"
	#include "exceptions.hpp"
	#include "node.hpp"
	#include "template.hpp"
	#include "utils.hpp"

	namespace inja {

	/*!
	* \brief Class for rendering a Template with data.
	*/
	class Renderer : public NodeVisitor {
	using Op = FunctionStorage::Operation;

	const RenderConfig config;
	const Template *current_template;
	const TemplateStorage &template_storage;
	const FunctionStorage &function_storage;

	const json *json_input;
	std::ostream *output_stream;

	json json_additional_data;
	json* current_loop_data = &json_additional_data["loop"];

	std::vector<std::shared_ptr<json>> json_tmp_stack;
	std::stack<const json*> json_eval_stack;
	std::stack<const JsonNode*> not_found_stack;

	bool truthy(const json* data) const {
	if (data->is_boolean()) {
	return data->get<bool>();
	} else if (data->is_number()) {
	return (*data != 0);
	} else if (data->is_null()) {
	return false;
	}
	return !data->empty();
	}

	void print_json(const std::shared_ptr<json> value) {
	if (value->is_string()) {
	*output_stream << value->get_ref<const json::string_t&>();
	} else if (value->is_number_integer()) {
	*output_stream << value->get<const json::number_integer_t>();
	} else if (value->is_null()) {
	} else {
	*output_stream << value->dump();
	}
	}

	const std::shared_ptr<json> eval_expression_list(const ExpressionListNode& expression_list) {
	if (!expression_list.root) {
	throw_renderer_error("empty expression", expression_list);
	}

	expression_list.root->accept(*this);

	if (json_eval_stack.empty()) {
	throw_renderer_error("empty expression", expression_list);
	} else if (json_eval_stack.size() != 1) {
	throw_renderer_error("malformed expression", expression_list);
	}

	auto result = json_eval_stack.top();
	json_eval_stack.pop();

	if (!result) {
	if (not_found_stack.empty()) {
	throw_renderer_error("expression could not be evaluated", expression_list);
	}

	auto node = not_found_stack.top();
	not_found_stack.pop();

	throw_renderer_error("variable '" + static_cast<std::string>(node->name) + "' not found", *node);
	}
	return std::make_shared<json>(*result);
	}

	void throw_renderer_error(const std::string &message, const AstNode& node) {
	SourceLocation loc = get_source_location(current_template->content, node.pos);
	INJA_THROW(RenderError(message, loc));
	}

	template<size_t N, size_t N_start = 0, bool throw_not_found=true>
	std::array<const json*, N> get_arguments(const FunctionNode& node) {
	if (node.arguments.size() < N_start + N) {
	throw_renderer_error("function needs " + std::to_string(N_start + N) + " variables, but has only found " + std::to_string(node.arguments.size()), node);
	}

	for (size_t i = N_start; i < N_start + N; i += 1) {
	node.arguments[i]->accept(*this);
	}

	if (json_eval_stack.size() < N) {
	throw_renderer_error("function needs " + std::to_string(N) + " variables, but has only found " + std::to_string(json_eval_stack.size()), node);
	}

	std::array<const json*, N> result;
	for (size_t i = 0; i < N; i += 1) {
	result[N - i - 1] = json_eval_stack.top();
	json_eval_stack.pop();

	if (!result[N - i - 1]) {
	auto json_node = not_found_stack.top();
	not_found_stack.pop();

	if (throw_not_found) {
	throw_renderer_error("variable '" + static_cast<std::string>(json_node->name) + "' not found", *json_node);
	}
	}
	}
	return result;
	}

	template<bool throw_not_found=true>
	Arguments get_argument_vector(const FunctionNode& node) {
	const size_t N = node.arguments.size();
	for (auto a: node.arguments) {
	a->accept(*this);
	}

	if (json_eval_stack.size() < N) {
	throw_renderer_error("function needs " + std::to_string(N) + " variables, but has only found " + std::to_string(json_eval_stack.size()), node);
	}

	Arguments result {N};
	for (size_t i = 0; i < N; i += 1) {
	result[N - i - 1] = json_eval_stack.top();
	json_eval_stack.pop();

	if (!result[N - i - 1]) {
	auto json_node = not_found_stack.top();
	not_found_stack.pop();

	if (throw_not_found) {
	throw_renderer_error("variable '" + static_cast<std::string>(json_node->name) + "' not found", *json_node);
	}
	}
	}
	return result;
	}

	void visit(const BlockNode& node) {
	for (auto& n : node.nodes) {
	n->accept(*this);
	}
	}

	void visit(const TextNode& node) {
	output_stream->write(current_template->content.c_str() + node.pos, node.length);
	}

	void visit(const ExpressionNode&) { }

	void visit(const LiteralNode& node) {
	json_eval_stack.push(&node.value);
	}

	void visit(const JsonNode& node) {
	if (json_additional_data.contains(node.ptr)) {
	json_eval_stack.push(&(json_additional_data[node.ptr]));

	} else if (json_input->contains(node.ptr)) {
	json_eval_stack.push(&(*json_input)[node.ptr]);

	} else {
	// Try to evaluate as a no-argument callback
	auto function_data = function_storage.find_function(node.name, 0);
	if (function_data.operation == FunctionStorage::Operation::Callback) {
	Arguments empty_args {};
	auto value = std::make_shared<json>(function_data.callback(empty_args));
	json_tmp_stack.push_back(value);
	json_eval_stack.push(value.get());

	} else {
	json_eval_stack.push(nullptr);
	not_found_stack.emplace(&node);
	}
	}
	}

	void visit(const FunctionNode& node) {
	std::shared_ptr<json> result_ptr;

	switch (node.operation) {
	case Op::Not: {
	auto args = get_arguments<1>(node);
	result_ptr = std::make_shared<json>(!truthy(args[0]));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::And: {
	result_ptr = std::make_shared<json>(truthy(get_arguments<1, 0>(node)[0]) && truthy(get_arguments<1, 1>(node)[0]));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Or: {
	result_ptr = std::make_shared<json>(truthy(get_arguments<1, 0>(node)[0]) \|\| truthy(get_arguments<1, 1>(node)[0]));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::In: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(std::find(args[1]->begin(), args[1]->end(), *args[0]) != args[1]->end());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Equal: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] == args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::NotEqual: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] != args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Greater: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] > args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::GreaterEqual: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] >= args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Less: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] < args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::LessEqual: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0] <= args[1]);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Add: {
	auto args = get_arguments<2>(node);
	if (args[0]->is_string() && args[1]->is_string()) {
	result_ptr = std::make_shared<json>(args[0]->get_ref<const std::string&>() + args[1]->get_ref<const std::string&>());
	json_tmp_stack.push_back(result_ptr);
	} else if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
	result_ptr = std::make_shared<json>(args[0]->get<int>() + args[1]->get<int>());
	json_tmp_stack.push_back(result_ptr);
	} else {
	result_ptr = std::make_shared<json>(args[0]->get<double>() + args[1]->get<double>());
	json_tmp_stack.push_back(result_ptr);
	}
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Subtract: {
	auto args = get_arguments<2>(node);
	if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
	result_ptr = std::make_shared<json>(args[0]->get<int>() - args[1]->get<int>());
	json_tmp_stack.push_back(result_ptr);
	} else {
	result_ptr = std::make_shared<json>(args[0]->get<double>() - args[1]->get<double>());
	json_tmp_stack.push_back(result_ptr);
	}
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Multiplication: {
	auto args = get_arguments<2>(node);
	if (args[0]->is_number_integer() && args[1]->is_number_integer()) {
	result_ptr = std::make_shared<json>(args[0]->get<int>() * args[1]->get<int>());
	json_tmp_stack.push_back(result_ptr);
	} else {
	result_ptr = std::make_shared<json>(args[0]->get<double>() * args[1]->get<double>());
	json_tmp_stack.push_back(result_ptr);
	}
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Division: {
	auto args = get_arguments<2>(node);
	if (args[1]->get<double>() == 0) {
	throw_renderer_error("division by zero", node);
	}
	result_ptr = std::make_shared<json>(args[0]->get<double>() / args[1]->get<double>());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Power: {
	auto args = get_arguments<2>(node);
	if (args[0]->is_number_integer() && args[1]->get<int>() >= 0) {
	int result = std::pow(args[0]->get<int>(), args[1]->get<int>());
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	} else {
	double result = std::pow(args[0]->get<double>(), args[1]->get<int>());
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	}
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Modulo: {
	auto args = get_arguments<2>(node);
	result_ptr = std::make_shared<json>(args[0]->get<int>() % args[1]->get<int>());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::AtId: {
	auto container = get_arguments<1, 0, false>(node)[0];
	node.arguments[1]->accept(*this);
	if (not_found_stack.empty()) {
	throw_renderer_error("could not find element with given name", node);
	}
	auto id_node = not_found_stack.top();
	not_found_stack.pop();
	json_eval_stack.pop();
	json_eval_stack.push(&container->at(id_node->name));
	} break;
	case Op::At: {
	auto args = get_arguments<2>(node);
	json_eval_stack.push(&args[0]->at(args[1]->get<int>()));
	} break;
	case Op::Default: {
	auto test_arg = get_arguments<1, 0, false>(node)[0];
	json_eval_stack.push(test_arg ? test_arg : get_arguments<1, 1>(node)[0]);
	} break;
	case Op::DivisibleBy: {
	auto args = get_arguments<2>(node);
	int divisor = args[1]->get<int>();
	result_ptr = std::make_shared<json>((divisor != 0) && (args[0]->get<int>() % divisor == 0));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Even: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<int>() % 2 == 0);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Exists: {
	auto &&name = get_arguments<1>(node)[0]->get_ref<const std::string &>();
	result_ptr = std::make_shared<json>(json_input->contains(json::json_pointer(JsonNode::convert_dot_to_json_ptr(name))));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::ExistsInObject: {
	auto args = get_arguments<2>(node);
	auto &&name = args[1]->get_ref<const std::string &>();
	result_ptr = std::make_shared<json>(args[0]->find(name) != args[0]->end());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::First: {
	auto result = &get_arguments<1>(node)[0]->front();
	json_eval_stack.push(result);
	} break;
	case Op::Float: {
	result_ptr = std::make_shared<json>(std::stod(get_arguments<1>(node)[0]->get_ref<const std::string &>()));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Int: {
	result_ptr = std::make_shared<json>(std::stoi(get_arguments<1>(node)[0]->get_ref<const std::string &>()));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Last: {
	auto result = &get_arguments<1>(node)[0]->back();
	json_eval_stack.push(result);
	} break;
	case Op::Length: {
	auto val = get_arguments<1>(node)[0];
	if (val->is_string()) {
	result_ptr = std::make_shared<json>(val->get_ref<const std::string &>().length());
	} else {
	result_ptr = std::make_shared<json>(val->size());
	}
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Lower: {
	std::string result = get_arguments<1>(node)[0]->get<std::string>();
	std::transform(result.begin(), result.end(), result.begin(), ::tolower);
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Max: {
	auto args = get_arguments<1>(node);
	auto result = std::max_element(args[0]->begin(), args[0]->end());
	json_eval_stack.push(&(*result));
	} break;
	case Op::Min: {
	auto args = get_arguments<1>(node);
	auto result = std::min_element(args[0]->begin(), args[0]->end());
	json_eval_stack.push(&(*result));
	} break;
	case Op::Odd: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<int>() % 2 != 0);
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Range: {
	std::vector<int> result(get_arguments<1>(node)[0]->get<int>());
	std::iota(result.begin(), result.end(), 0);
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Round: {
	auto args = get_arguments<2>(node);
	int precision = args[1]->get<int>();
	double result = std::round(args[0]->get<double>() * std::pow(10.0, precision)) / std::pow(10.0, precision);
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Sort: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->get<std::vector<json>>());
	std::sort(result_ptr->begin(), result_ptr->end());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Upper: {
	std::string result = get_arguments<1>(node)[0]->get<std::string>();
	std::transform(result.begin(), result.end(), result.begin(), ::toupper);
	result_ptr = std::make_shared<json>(std::move(result));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsBoolean: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_boolean());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsNumber: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsInteger: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number_integer());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsFloat: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_number_float());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsObject: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_object());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsArray: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_array());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::IsString: {
	result_ptr = std::make_shared<json>(get_arguments<1>(node)[0]->is_string());
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::Callback: {
	auto args = get_argument_vector(node);
	result_ptr = std::make_shared<json>(node.callback(args));
	json_tmp_stack.push_back(result_ptr);
	json_eval_stack.push(result_ptr.get());
	} break;
	case Op::ParenLeft:
	case Op::ParenRight:
	case Op::None:
	break;
	}
	}

	void visit(const ExpressionListNode& node) {
	print_json(eval_expression_list(node));
	}

	void visit(const StatementNode&) { }

	void visit(const ForStatementNode&) { }

	void visit(const ForArrayStatementNode& node) {
	auto result = eval_expression_list(node.condition);
	if (!result->is_array()) {
	throw_renderer_error("object must be an array", node);
	}

	if (!current_loop_data->empty()) {
	auto tmp = *current_loop_data; // Because of clang-3
	(*current_loop_data)["parent"] = std::move(tmp);
	}

	size_t index = 0;
	(*current_loop_data)["is_first"] = true;
	(*current_loop_data)["is_last"] = (result->size() <= 1);
	for (auto it = result->begin(); it != result->end(); ++it) {
	json_additional_data[static_cast<std::string>(node.value)] = *it;

	(*current_loop_data)["index"] = index;
	(*current_loop_data)["index1"] = index + 1;
	if (index == 1) {
	(*current_loop_data)["is_first"] = false;
	}
	if (index == result->size() - 1) {
	(*current_loop_data)["is_last"] = true;
	}

	node.body.accept(*this);
	++index;
	}

	json_additional_data[static_cast<std::string>(node.value)].clear();
	if (!(*current_loop_data)["parent"].empty()) {
	auto tmp = (*current_loop_data)["parent"];
	*current_loop_data = std::move(tmp);
	} else {
	current_loop_data = &json_additional_data["loop"];
	}
	}

	void visit(const ForObjectStatementNode& node) {
	auto result = eval_expression_list(node.condition);
	if (!result->is_object()) {
	throw_renderer_error("object must be an object", node);
	}

	if (!current_loop_data->empty()) {
	(current_loop_data)["parent"] = std::move(current_loop_data);
	}

	size_t index = 0;
	(*current_loop_data)["is_first"] = true;
	(*current_loop_data)["is_last"] = (result->size() <= 1);
	for (auto it = result->begin(); it != result->end(); ++it) {
	json_additional_data[static_cast<std::string>(node.key)] = it.key();
	json_additional_data[static_cast<std::string>(node.value)] = it.value();

	(*current_loop_data)["index"] = index;
	(*current_loop_data)["index1"] = index + 1;
	if (index == 1) {
	(*current_loop_data)["is_first"] = false;
	}
	if (index == result->size() - 1) {
	(*current_loop_data)["is_last"] = true;
	}

	node.body.accept(*this);
	++index;
	}

	json_additional_data[static_cast<std::string>(node.key)].clear();
	json_additional_data[static_cast<std::string>(node.value)].clear();
	if (!(*current_loop_data)["parent"].empty()) {
	current_loop_data = std::move((current_loop_data)["parent"]);
	} else {
	current_loop_data = &json_additional_data["loop"];
	}
	}

	void visit(const IfStatementNode& node) {
	auto result = eval_expression_list(node.condition);
	if (truthy(result.get())) {
	node.true_statement.accept(*this);
	} else if (node.has_false_statement) {
	node.false_statement.accept(*this);
	}
	}

	void visit(const IncludeStatementNode& node) {
	auto sub_renderer = Renderer(config, template_storage, function_storage);
	auto included_template_it = template_storage.find(node.file);

	if (included_template_it != template_storage.end()) {
	sub_renderer.render_to(output_stream, included_template_it->second, json_input, &json_additional_data);
	} else if (config.throw_at_missing_includes) {
	throw_renderer_error("include '" + node.file + "' not found", node);
	}
	}

	void visit(const SetStatementNode& node) {
	json_additional_data[node.key] = *eval_expression_list(node.expression);
	}

	public:
	Renderer(const RenderConfig& config, const TemplateStorage &template_storage, const FunctionStorage &function_storage)
	: config(config), template_storage(template_storage), function_storage(function_storage) { }

	void render_to(std::ostream &os, const Template &tmpl, const json &data, json *loop_data = nullptr) {
	output_stream = &os;
	current_template = &tmpl;
	json_input = &data;
	if (loop_data) {
	json_additional_data = *loop_data;
	current_loop_data = &json_additional_data["loop"];
	}

	current_template->root.accept(*this);

	json_tmp_stack.clear();
	}
	};

	} // namespace inja

	#endif // INCLUDE_INJA_RENDERER_HPP_