most features are implemented #4
@ -13,12 +13,12 @@ add_executable(park
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main.cpp
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data.cpp
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headers/data.h
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#[[Customer.cpp
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Customer.cpp
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headers/Customer.h
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Park_spot.cpp
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headers/Park_spot.h
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Park_time.cpp
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headers/Park_time.h]]
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headers/Park_time.h
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)
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@ -2,12 +2,12 @@
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#include <iostream>
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// constructors
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Customer::Customer(string name_, Verhicle_type verhicle_, SQLite::Database& db):
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Customer::Customer(string name_, Verhicle_type verhicle_):
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name{name_}, verhicle{verhicle_},
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card_code{gen_cardcode()}
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{
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id = auto_increment_db(db) + 1;
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save_db(db);
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id = auto_increment_db() + 1;
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save_db();
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}
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Customer::Customer(int id_, string name_, string card_code_, Verhicle_type verhicle_, vector<Park_time> instances)
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@ -47,38 +47,38 @@ void Customer::gen_monthly() {
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//================================================================================================
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// functions that interact with the database
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void Customer::save_db(SQLite::Database& database) {
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void Customer::save_db() {
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string statement{"insert into Customer values (, '', '', );"};
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// after ( = 28)
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statement.insert(38, std::to_string(int(verhicle)));
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statement.insert(36, card_code);
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statement.insert(32, name);
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statement.insert(29, "null");
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SQLite::Transaction transaction(database);
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database.exec(statement);
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SQLite::Transaction transaction(data::db);
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data::db.exec(statement);
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transaction.commit();
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}
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void Customer::update_db(SQLite::Database& database) {
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string statement = "UPDATE Customer SET name = \"\", card_code = \"\" where id = '';";
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void Customer::update_db() {
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string statement = "UPDATE Customer SET name = '', card_code = '' where id = '';";
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statement.insert(58, std::to_string(id));
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statement.insert(44, card_code);
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statement.insert(28, name);
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// std::cout << statement; TODO: set some logging here
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database.exec(statement);
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data::db.exec(statement);
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}
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void Customer::delete_db(SQLite::Database& database) {
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void Customer::delete_db() {
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string statement = "delete from Customer where id= ;";
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statement.insert(statement.length() - 2, std::to_string(id));
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// std::cout << statement;
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SQLite::Transaction transaction(database);
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database.exec(statement);
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SQLite::Transaction transaction(data::db);
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data::db.exec(statement);
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transaction.commit();
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}
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int Customer::auto_increment_db(SQLite::Database& database) {
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SQLite::Statement max_id(database, "select max(id) from Customer;");
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int Customer::auto_increment_db() {
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SQLite::Statement max_id(data::db, "select max(id) from Customer;");
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int id = 0;
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max_id.executeStep();
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id = max_id.getColumn(0);
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@ -8,7 +8,9 @@ Park_time::Park_time(int c_id, int s_id)
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, spot_id { s_id }
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, duration { 0 }
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, start { high_resolution_clock::now() }
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, id {auto_increment_db() + 1}
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{
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save_db();
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}
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void Park_time::clock_out(int c_id, int s_id)
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@ -26,6 +28,7 @@ void Park_time::clock_out(int c_id, int s_id)
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if (!duration) {
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end = high_resolution_clock::now();
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duration = duration_cast<seconds>(end - start).count(); // use mins later
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update_db();
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} else {
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std::cout << "Already clocked out. Something is wrong \n";
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@ -44,13 +47,47 @@ std::ostream& operator<<(std::ostream& os, const Park_time & pt){
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return os;
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}
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void Park_time::debug() {
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int Park_time::start_to_int(){
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auto start_to_epoch = start.time_since_epoch();
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auto start_value = std::chrono::duration_cast<std::chrono::seconds>(start_to_epoch);
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int start_seconds = start_value.count();
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auto end_to_epoch = end.time_since_epoch();
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auto end_value = std::chrono::duration_cast<std::chrono::seconds>(start_to_epoch);
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int end_seconds = end_value.count();
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std::cout << "<" << start_seconds << "-" << end_seconds << ">" ;
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return start_seconds;
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}
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// db funcs -----------------------------------------------------------------------------
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void Park_time::save_db() {
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string statement{"insert into Park_time values ( , , , , , );"};
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statement.insert(41, "NULL");
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statement.insert(39, "NULL");
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statement.insert(37, to_string(start_to_int()) );
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statement.insert(35, to_string(spot_id));
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statement.insert(33, to_string(customer_id));
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statement.insert(31, to_string(id));
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SQLite::Transaction transaction(data::db);
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data::db.exec(statement);
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transaction.commit();
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}
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void Park_time::update_db() {
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string statement = "UPDATE Park_time SET end = , duration = where id = '';";
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statement.insert(53, std::to_string(id));
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statement.insert(40, to_string(duration));
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statement.insert(27, to_string(start_to_int() + duration));
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std::cout << statement; // TODO: set some logging here
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data::db.exec(statement);
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}
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// to get id on first save to db
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int Park_time::auto_increment_db() {
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SQLite::Statement max_id(data::db, "select max(id) from Park_time;");
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int id = 0;
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max_id.executeStep();
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id = max_id.getColumn(0);
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max_id.reset();
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return id;
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}
|
2
data.cpp
2
data.cpp
@ -7,7 +7,7 @@ SQLite::Database start_db() {
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db.exec("create table if not exists Customer (id integer primary key, name text, card_code varchar(20), verhicle int)");
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db.exec("create table if not exists Park_spot (id integer primary key, taken boolean, customer_id int)");
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db.exec("create table if not exists Park_time (id integer primary key, customer_id int, spot_id int, start real, end real, duration real)");
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db.exec("create table if not exists Park_time (id integer primary key, customer_id int, spot_id int, start int, end int, duration int)");
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return db;
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}
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|
@ -7,6 +7,7 @@
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#include <random>
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#include <string>
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#include <vector>
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#include "data.h"
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using std::string;
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using std::vector;
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@ -28,7 +29,7 @@ clock in en out creeert en compleet een park_time object. Voegt het toe aan een
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class Customer {
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public:
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Customer(string name_, Verhicle_type verhicle_, SQLite::Database& db);
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Customer(string name_, Verhicle_type verhicle_);
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Customer(int id_, string name_, string card_code_, Verhicle_type verhicle_,
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vector<Park_time> instances); // needed to construct from db
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// potentially: add a destructor that calls update_db() before being destroyed
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@ -39,8 +40,8 @@ class Customer {
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void clock_in(int s_id);
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void clock_out(int s_id);
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void update_db(SQLite::Database& database);
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void delete_db(SQLite::Database& database);
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void update_db();
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void delete_db();
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// void gen_weekly(); TODO: this
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void gen_monthly();
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@ -51,8 +52,8 @@ class Customer {
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string gen_cardcode();
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void save_db(SQLite::Database& database);
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int auto_increment_db(SQLite::Database& database);
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void save_db();
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int auto_increment_db();
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};
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#endif // CUSTOMER_H
|
@ -4,10 +4,13 @@
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#include <chrono>
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#include <iostream>
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#include <string>
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#include "data.h"
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using namespace std::chrono;
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using std::string;
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using std::to_string;
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/*
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db repr of Park_time
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int id (not null, auto increment)
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@ -28,14 +31,18 @@ public:
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int spot_id;
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int duration;
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Park_time(int c_id, int s_id);
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// Park_time(int c_id, int s_id );
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void clock_out(int c_id, int s_id);
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friend std::ostream& operator<<(std::ostream& os, const Park_time & pt);
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void debug();
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private:
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high_resolution_clock::time_point start;
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high_resolution_clock::time_point end;
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//TODO: discuss pros cons of using chrono, ctime, or 3th party lib
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void save_db();
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void update_db();
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int auto_increment_db(); // helper
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int start_to_int(); // helper
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};
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|
@ -6,7 +6,6 @@ namespace data {
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SQLite::Database start_db();
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static SQLite::Database db = start_db();
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}
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|
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#endif
|
13
main.cpp
13
main.cpp
@ -1,5 +1,6 @@
|
||||
#include "thirdparty/SQLiteCpp/include/SQLiteCpp/SQLiteCpp.h"
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#include "headers/data.h"
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#include "headers/Park_spot.h"
|
||||
#include <iostream>
|
||||
#include <vector>
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||||
#include <string>
|
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@ -23,12 +24,12 @@ De client clockt in en uit bij een spot.
|
||||
using std::cout;
|
||||
|
||||
int main() {
|
||||
SQLite::Statement test(data::db, "SELECT * FROM Customer WHERE id > 2");
|
||||
while (test.executeStep()){
|
||||
int id = test.getColumn(0);
|
||||
std::string name = test.getColumn(1);
|
||||
cout << id << ", " << name << std::endl;
|
||||
class Customer sagar{"nonsense", Verhicle_type::medium};
|
||||
sagar.update_db();
|
||||
|
||||
}
|
||||
Park_spot p1{1};
|
||||
p1.clock(&sagar);
|
||||
p1.clock(&sagar);
|
||||
sagar.gen_monthly();
|
||||
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user