#pragma once #include #include "art.h" #include "option.h" #include "string_utils.h" namespace field_types { static const std::string STRING = "string"; static const std::string INT32 = "int32"; static const std::string INT64 = "int64"; static const std::string FLOAT = "float"; static const std::string BOOL = "bool"; static const std::string STRING_ARRAY = "string[]"; static const std::string INT32_ARRAY = "int32[]"; static const std::string INT64_ARRAY = "int64[]"; static const std::string FLOAT_ARRAY = "float[]"; static const std::string BOOL_ARRAY = "bool[]"; } namespace fields { static const std::string name = "name"; static const std::string type = "type"; static const std::string facet = "facet"; static const std::string optional = "optional"; } struct field { std::string name; std::string type; bool facet; bool optional; field(const std::string & name, const std::string & type, const bool facet): name(name), type(type), facet(facet), optional(false) { } field(const std::string & name, const std::string & type, const bool facet, const bool optional): name(name), type(type), facet(facet), optional(optional) { } bool is_single_integer() const { return (type == field_types::INT32 || type == field_types::INT64); } bool is_single_float() const { return (type == field_types::FLOAT); } bool is_single_bool() const { return (type == field_types::BOOL); } bool is_integer() const { return (type == field_types::INT32 || type == field_types::INT32_ARRAY || type == field_types::INT64 || type == field_types::INT64_ARRAY); } bool is_float() const { return (type == field_types::FLOAT || type == field_types::FLOAT_ARRAY); } bool is_bool() const { return (type == field_types::BOOL || type == field_types::BOOL_ARRAY); } bool is_string() const { return (type == field_types::STRING || type == field_types::STRING_ARRAY); } bool is_facet() const { return facet; } bool is_array() const { return (type == field_types::STRING_ARRAY || type == field_types::INT32_ARRAY || type == field_types::FLOAT_ARRAY || type == field_types::INT64_ARRAY || type == field_types::BOOL_ARRAY); } std::string faceted_name() const { return (facet && !is_string()) ? "_fstr_" + name : name; } }; struct filter { std::string field_name; std::vector values; NUM_COMPARATOR compare_operator; static Option extract_num_comparator(const std::string & comp_and_value) { if(StringUtils::is_integer(comp_and_value)) { return Option(EQUALS); } // the ordering is important - we have to compare 2-letter operators first if(comp_and_value.compare(0, 2, "<=") == 0) { return Option(LESS_THAN_EQUALS); } if(comp_and_value.compare(0, 2, ">=") == 0) { return Option(GREATER_THAN_EQUALS); } if(comp_and_value.compare(0, 1, "<") == 0) { return Option(LESS_THAN); } if(comp_and_value.compare(0, 1, ">") == 0) { return Option(GREATER_THAN); } return Option(400, "Numerical field has an invalid comparator."); } }; namespace sort_field_const { static const std::string name = "name"; static const std::string order = "order"; static const std::string asc = "ASC"; static const std::string desc = "DESC"; static const std::string text_match = "_text_match"; } struct sort_by { std::string name; std::string order; sort_by(const std::string & name, const std::string & order): name(name), order(order) { } sort_by& operator=(sort_by other) { name = other.name; order = other.order; return *this; } }; struct token_pos_cost_t { size_t pos; uint32_t cost; }; struct facet_count_t { uint32_t count; // used to fetch the actual document and value for representation uint32_t doc_id; uint32_t array_pos; spp::sparse_hash_map query_token_pos; }; struct facet_stats_t { double fvmin = std::numeric_limits::max(), fvmax = -std::numeric_limits::min(), fvcount = 0, fvsum = 0; }; struct facet { const std::string field_name; std::map result_map; facet_stats_t stats; facet(const std::string & field_name): field_name(field_name) { } }; struct facet_query_t { std::string field_name; std::string query; }; struct facet_value_t { std::string value; std::string highlighted; uint32_t count; };