vaclavt
/
usql
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

code changes in load

This commit is contained in:
VaclavT 2021-08-13 10:24:04 +02:00
parent cd92e27270
commit e53d062ff5
10 changed files with 287 additions and 141 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
.gitignore vendored
View File

@ -2,3 +2,5 @@ build
cmake-build-debug
.DS_Store
tmp/.idea
Makefile
localhost.session.sql

4
Readme.md
View File

@ -1,10 +1,10 @@
### TODO
- command line interface
- date functions - now, add_date...
- add pipe | token
- string functions rtrim, ltrim, rpad, lpad
- add pipe | concatenation
- support for order by, offset, limit (allow column name in order by, validate)
- command line interface
- support for uniqueue indexes (primary key)
- support for btree indexes
- add count min and max functions, eg aggregate functions

70
csvreader.cpp
View File

@ -2,6 +2,9 @@
#include "csvreader.h"
#include "parser.h"
#include <fstream>
namespace usql {
CsvReader::CsvReader(bool skip_hdr, char field_sep, char quote_ch, char line_sep, char line_sep2) {
@ -14,8 +17,67 @@ namespace usql {
header_skiped = !skip_hdr;
}
int CsvReader::parseCSV2(const std::string &csvSource, std::vector<ColDefNode> &cols_def,
void (Table::*function)(const std::vector<ColDefNode>&, const std::vector<std::string>&), Table& a) {
int CsvReader::parseCSV(const std::string &filename, std::vector<ColDefNode> &cols_def, Table& table) {
std::vector<ColDefNode> cdefs;
cdefs.reserve(cols_def.size());
for(auto & cd : cols_def) {
cdefs.emplace_back(table.get_column_def(cd.name));
}
int row_cnt = 0;
bool inQuote(false);
std::string field;
std::string csvSource;
std::vector<std::string> line;
line.reserve(32);
std::fstream newfile;
newfile.open(filename, std::ios::in);
/// if (newfile.is_open()){ //checking whether the file is open
while(getline(newfile, csvSource)){
if (skip_header && !header_skiped) {
header_skiped = true;
continue;
}
std::string::const_iterator aChar = csvSource.begin();
while (aChar != csvSource.end()) {
if (*aChar == quote_character) {
inQuote = !inQuote;
} else if (*aChar == field_separator) {
if (inQuote == true) {
field += *aChar;
} else {
line.push_back(field);
field.clear();
}
} else {
field.push_back(*aChar);
}
aChar++;
}
if (!field.empty())
line.push_back(field);
table.create_row_from_vector(cols_def, line);
row_cnt++;
field.clear();
line.clear();
}
newfile.close();
return row_cnt;
}
int CsvReader::parseCSV2(const std::string &csvSource, std::vector<ColDefNode> &cols_def, Table& table) {
int row_cnt = 0;
bool inQuote(false);
bool newLine(false);
@ -44,7 +106,7 @@ namespace usql {
if (newLine == false) {
line.push_back(field);
if (header_skiped) {
(a.*function)(cols_def, line);
table.create_row_from_vector(cols_def, line);
row_cnt++;
}
header_skiped = true;
@ -64,7 +126,7 @@ namespace usql {
if (!field.empty()) line.push_back(field);
if (header_skiped) {
(a.*function)(cols_def, line);
table.create_row_from_vector(cols_def, line);
row_cnt++;
header_skiped = true;
}

5
csvreader.h
View File

@ -26,8 +26,9 @@ namespace usql {
public:
CsvReader(bool skip_hdr = true, char field_sep = ',', char quote_ch = '"', char line_sep = '\r', char line_sep2 = '\n');
int parseCSV2(const std::string &csvSource, std::vector<ColDefNode> &cols_def,
void (Table::*function)(const std::vector<ColDefNode>&, const std::vector<std::string>&), Table& a);
int parseCSV2(const std::string &csvSource, std::vector<ColDefNode> &cols_def, Table& table);
int parseCSV(const std::string &filename, std::vector<ColDefNode> &cols_def, Table& table);
};

66
main.cpp
View File

@ -129,37 +129,39 @@ int main(int argc, char *argv[]) {
// "create table ticker ( tablee varchar(5) not null, permaticker integer, ticker varchar(10) not null, name varchar(256) not null, exchange varchar(32), isdelisted boolean, category varchar(32), cusips varchar(256), siccode integer, sicsector varchar(256), sicindustry varchar(256), famasector varchar(256), famaindustry varchar(256), sector varchar(128), industry varchar(128), scalemarketcap varchar(64), scalerevenue varchar(64), relatedtickers varchar(128), currency varchar(3), location varchar(64), lastupdated date, firstadded date, firstpricedate date, lastpricedate date, firstquarter date, lastquarter date, secfilings varchar(256), companysite varchar(256))",
// "load ticker from '/Users/vaclavt/Library/Mobile Documents/com~apple~CloudDocs/Development/usql/tickers.csv')",
// "select * from ticker where ticker = 'WFC' and tablee = 'SF1'",
"set 'DATE_FORMAT' = '%Y-%m-%d'",
"show 'DATE_FORMAT'",
"create table sf1 ( ticker varchar(8), dimension varchar(3), calendar_date date, date_key date, report_period date, last_updated date, accoci float, assets float, assetsavg float, assetsc float, assetsnc float, assetturnover float, bvps float, capex float, cashneq float, cashnequsd float, cor float, consolinc float, currentratio float, de float, debt float, debtc float, debtnc float, debtusd float, deferredrev float, depamor float, deposits float, divyield float, dps float, ebit float, ebitda float, ebitdamargin float, ebitdausd float, ebitusd float, ebt float, eps float, epsdil float, epsusd float, equity float, equityavg float, equityusd float, ev float, evebit float, evebitda float, fcf float, fcfps float, fxusd float, gp float, grossmargin float, intangibles float, intexp float, invcap float, invcapavg float, inventory float, investments float, investmentsc float, investmentsnc float, liabilities float, liabilitiesc float, liabilitiesnc float, marketcap float, ncf float, ncfbus float, ncfcommon float, ncfdebt float, ncfdiv float, ncff float, ncfi float, ncfinv float, ncfo float, ncfx float, netinc float, netinccmn float, netinccmnusd float, netincdis float, netincnci float, netmargin float, opex float, opinc float, payables float, payoutratio float, pb float, pe float, pe1 float, ppnenet float, prefdivis float, price float, ps float, ps1 float, receivables float, retearn float, revenue float, revenueusd float, rnd float, roa float, roe float, roic float, ros float, sbcomp float, sgna float, sharefactor float, sharesbas float, shareswa float, shareswadil float, sps float, tangibles float, taxassets float, taxexp float, taxliabilities float, tbvps float, workingcapital float)",
"load sf1 from '/tmp/sf1.csv')",
"select * from sf1 where ticker = 'WFC'"
// "select * from sf1 limit 10"
// "create table a (i integer not null, s varchar(64), f float null, d date null, b boolean)",
// "insert into a (i, s, b) values(1, upper('one'), 'Y')",
// "select i, s, b from a where i >=1 order by 1 desc offset 0 limit 1",
// "set 'DATE_FORMAT' = '%Y-%m-%d'",
// "show 'DATE_FORMAT'",
// "create table sf1 ( ticker varchar(8), dimension varchar(3), calendar_date date, date_key date, report_period date, last_updated date, accoci float, assets float, assetsavg float, assetsc float, assetsnc float, assetturnover float, bvps float, capex float, cashneq float, cashnequsd float, cor float, consolinc float, currentratio float, de float, debt float, debtc float, debtnc float, debtusd float, deferredrev float, depamor float, deposits float, divyield float, dps float, ebit float, ebitda float, ebitdamargin float, ebitdausd float, ebitusd float, ebt float, eps float, epsdil float, epsusd float, equity float, equityavg float, equityusd float, ev float, evebit float, evebitda float, fcf float, fcfps float, fxusd float, gp float, grossmargin float, intangibles float, intexp float, invcap float, invcapavg float, inventory float, investments float, investmentsc float, investmentsnc float, liabilities float, liabilitiesc float, liabilitiesnc float, marketcap float, ncf float, ncfbus float, ncfcommon float, ncfdebt float, ncfdiv float, ncff float, ncfi float, ncfinv float, ncfo float, ncfx float, netinc float, netinccmn float, netinccmnusd float, netincdis float, netincnci float, netmargin float, opex float, opinc float, payables float, payoutratio float, pb float, pe float, pe1 float, ppnenet float, prefdivis float, price float, ps float, ps1 float, receivables float, retearn float, revenue float, revenueusd float, rnd float, roa float, roe float, roic float, ros float, sbcomp float, sgna float, sharefactor float, sharesbas float, shareswa float, shareswadil float, sps float, tangibles float, taxassets float, taxexp float, taxliabilities float, tbvps float, workingcapital float)",
// "load sf1 from '/tmp/sf1.csv')",
// "select * from sf1 where ticker = 'WFC'",
// "select ticker, dimension, calendar_date, eps, dps from sf1 where (ticker = 'AIG' or ticker = 'AI') and dimension = 'MRY' order by 3 desc",
// "select ticker, dimension, calendar_date, eps, dps from sf1 where (ticker = 'AIG' or ticker = 'AI') and (dimension = 'MRY' or dimension = 'MRQ') order by 3 desc",
// "select ticker, dimension, calendar_date, eps, dps from sf1 where (ticker = 'AIG' or ticker = 'WFC') and dimension = 'MRY' order by 3 desc",
"create table a (i integer not null, s varchar(64), f float null, d date null, b boolean)",
"insert into a (i, s, b) values(1, upper('one'), 'Y')",
"select i+2, s, b from a where i >=1 order by 1 desc offset 0 limit 1",
// "update table a set s = 'null string aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa'",
// "update table a set i = null",
// "insert into a (i, s) values(2, 'two')",
// "insert into a (i, s) values(3, 'two')",
// "insert into a (i, s) values(4, lower('FOUR'))",
// "insert into a (i, s) values(5, 'five')",
// "insert into a (i, s) values(to_date('20.12.1973', '%d.%m.%Y'), 'six')",
"update table a set i = null",
"insert into a (i, s) values(2, 'two')",
"insert into a (i, s) values(3, 'two')",
"insert into a (i, s) values(4, lower('FOUR'))",
"insert into a (i, s) values(5, 'five')",
"insert into a (i, s) values(to_date('20.12.1973', '%d.%m.%Y'), 'six')",
// tohle zpusobi kresh "insert into a (i, d) values(6', '2006-10-04')",
// "insert into a (i, d) values(6, '2006-10-04')",
// "save table a into '/tmp/a.csv'",
// "select i, s from a where i > 2 order by 1 desc offset 1 limit 1",
// "select distinct s, d from a",
// "select i, s from a where i = 1",
// "select i, s from a where s = 'two'",
// "select i, s from a where i <= 3 and s = 'one'",
// "select i, s from a where i > 0",
// "delete from a where i = 4",
// "select i, s from a where i > 0",
// "update a set f = 9.99 where i = 3",
// "select i, s, f from a where i = 3",
// "update a set s = 'three', f = f + 0.01 where i = 3",
// "select i, s, f from a where i = 3",
"insert into a (i, d) values(6, '2006-10-04')",
"save table a into '/tmp/a.csv'",
"select i, s from a where i > 2 order by 1 desc offset 1 limit 1",
"select distinct s, d from a",
"select i, s from a where i = 1",
"select i, s from a where s = 'two'",
"select i, s from a where i <= 3 and s = 'one'",
"select i, s from a where i > 0",
"delete from a where i = 4",
"select i, s from a where i > 0",
"update a set f = 9.99 where i = 3",
"select i, s, f from a where i = 3",
"update a set s = 'three', f = f + 0.01 where i = 3",
"select i, s, f from a where i = 3",
// "create table data (ticker varchar(8), price float null)",
// "load data from '/Users/vaclavt/Library/Mobile Documents/com~apple~CloudDocs/Development/usql/data.csv')",
// "select ticker, price from data",
@ -175,7 +177,6 @@ int main(int argc, char *argv[]) {
// "select to_string(datetime, '%d.%m.%Y %H:%M:%S'), symbol, prev_close, open, price, change, change_prct, datetime from prices where symbol = 'SYF' order by 8 desc limit 10"
};
usql::USql uSql{};
for (const auto &command : sql_commands) {
@ -184,14 +185,15 @@ int main(int argc, char *argv[]) {
time_point<high_resolution_clock> end_time = high_resolution_clock::now();
std::cout << command << std::endl;
std::cout << "run time: " << duration_cast<milliseconds>(end_time - start_time).count() << " ms " << std::endl <<std::endl;
std::cout << "run time: " << duration_cast<milliseconds>(end_time - start_time).count() << " ms "
<< std::endl << std::endl;
result->print();
}
std::cout << std::endl << std::endl;
repl();
// repl();
return 0;
}

103
parser.cpp
View File

@ -318,12 +318,10 @@ namespace usql {
ArithmeticalOperatorType op = parse_arithmetical_operator();
std::unique_ptr<Node> right = Parser::parse_operand_node();
values.push_back(std::make_unique<ArithmeticalOperatorNode>(op, std::move(left),
std::move(right)));
values.push_back(std::make_unique<ArithmeticalOperatorNode>(op, std::move(left), std::move(right)));
} else {
std::unique_ptr<Node> right = std::make_unique<IntValueNode>(0);
values.push_back(
std::make_unique<ArithmeticalOperatorNode>(ArithmeticalOperatorType::copy_value,
values.push_back(std::make_unique<ArithmeticalOperatorNode>(ArithmeticalOperatorType::copy_value,
std::move(left), std::move(right)));
}
m_lexer.skipTokenOptional(TokenType::comma);
@ -335,26 +333,6 @@ namespace usql {
return std::make_unique<UpdateTableNode>(table_name, cols_names, std::move(values), std::move(where_node));
}
std::unique_ptr<Node> Parser::parse_where_clause() {
if (m_lexer.tokenType() != TokenType::keyword_where) {
return std::make_unique<TrueNode>();
}
std::unique_ptr<Node> node;
m_lexer.skipToken(TokenType::keyword_where);
do {
node = parse_relational_expression();
if (Lexer::isLogicalOperator(m_lexer.tokenType())) {
auto operation = parse_logical_operator();
std::unique_ptr<Node> node2 = parse_relational_expression();
node = std::make_unique<LogicalOperatorNode>(operation, std::move(node), std::move(node2));
}
} while (m_lexer.tokenType() != TokenType::eof && m_lexer.tokenType() != TokenType::keyword_order);
return node;
}
std::vector<ColOrderNode> Parser::parse_order_by_clause() {
std::vector<ColOrderNode> order_cols;
@ -419,17 +397,64 @@ namespace usql {
return OffsetLimitNode{offset, limit};
}
std::unique_ptr<Node> Parser::parse_relational_expression() {
auto left = parse_operand_node();
std::unique_ptr<Node> Parser::parse_where_clause() {
if (m_lexer.tokenType() != TokenType::keyword_where) {
return std::make_unique<TrueNode>();
}
m_lexer.skipToken(TokenType::keyword_where);
std::unique_ptr<Node> left = parse_expression();
do {
left = parse_expression(std::move(left));
} while (m_lexer.tokenType() != TokenType::eof && m_lexer.tokenType() != TokenType::keyword_order && m_lexer.tokenType() != TokenType::keyword_offset && m_lexer.tokenType() != TokenType::keyword_limit);
return left;
}
std::unique_ptr<Node> Parser::parse_expression() {
std::unique_ptr<Node> left = parse_operand_node();
return parse_expression(std::move(left));
}
std::unique_ptr<Node> Parser::parse_expression(std::unique_ptr<Node> left) {
if (Lexer::isRelationalOperator(m_lexer.tokenType())) {
auto operation = parse_relational_operator();
auto right = parse_operand_node();
return std::make_unique<RelationalOperatorNode>(operation, std::move(left), std::move(right));
} else if (Lexer::isLogicalOperator(m_lexer.tokenType())) {
auto operation = parse_logical_operator();
auto right = parse_expression();
return std::make_unique<LogicalOperatorNode>(operation, std::move(left), std::move(right));
} else if (Lexer::isArithmeticalOperator(m_lexer.tokenType())) {
auto operation = parse_arithmetical_operator();
auto right = parse_operand_node();
return std::make_unique<ArithmeticalOperatorNode>(operation, std::move(left), std::move(right));
} else if (m_lexer.tokenType() == TokenType::int_number || m_lexer.tokenType() == TokenType::double_number ||m_lexer.tokenType() == TokenType::string_literal ||m_lexer.tokenType() == TokenType::identifier || m_lexer.tokenType() == TokenType::keyword_null || m_lexer.tokenType() == TokenType::open_paren) {
return parse_operand_node();
}
return left;
}
std::unique_ptr<Node> Parser::parse_operand_node() {
// while not end or order or limit
auto token_type = m_lexer.tokenType();
if (token_type == TokenType::open_paren) {
m_lexer.skipToken(TokenType::open_paren);
auto left = parse_expression();
do {
left = parse_expression(std::move(left));
} while (m_lexer.tokenType() != TokenType::close_paren && m_lexer.tokenType() != TokenType::eof);
m_lexer.skipToken(TokenType::close_paren);
return left;
}
std::string tokenString = m_lexer.consumeCurrentToken().token_string;
switch (token_type) {
case TokenType::int_number:
@ -443,7 +468,7 @@ namespace usql {
case TokenType::keyword_null:
return std::make_unique<NullValueNode>();
default:
throw Exception("Unknown operand node");
throw Exception("Unknown operand node " + tokenString);
}
}
@ -463,7 +488,7 @@ namespace usql {
case TokenType::lesser_equal:
return RelationalOperatorType::lesser_equal;
default:
throw Exception("Unknown relational operator");
throw Exception("Unknown relational operator " + op.token_string);
}
}
@ -495,4 +520,22 @@ namespace usql {
}
}
std::unique_ptr<Node> Parser::parse_relational_expression() {
auto left = parse_operand_node();
if (!Lexer::isRelationalOperator(m_lexer.tokenType()))
{
if (left->node_type != NodeType::relational_operator)
throw Exception("syntax error in relational operation");
return left;
}
auto operation = parse_relational_operator();
auto right = parse_operand_node();
return std::make_unique<RelationalOperatorNode>(operation, std::move(left), std::move(right));
}
} // namespace

6
parser.h
View File

@ -362,15 +362,19 @@ namespace usql {
std::unique_ptr<Node> parse_delete_from_table();
std::unique_ptr<Node> parse_update_table();
std::unique_ptr<Node> parse_where_clause();
std::vector<ColOrderNode> parse_order_by_clause();
OffsetLimitNode parse_offset_limit_clause();
std::unique_ptr<Node> parse_where_clause();
std::unique_ptr<Node> parse_expression();
std::unique_ptr<Node> parse_expression(std::unique_ptr<Node> left);
std::unique_ptr<Node> parse_operand_node();
std::unique_ptr<Node> parse_value();
RelationalOperatorType parse_relational_operator();
LogicalOperatorType parse_logical_operator();
ArithmeticalOperatorType parse_arithmetical_operator();
std::unique_ptr<Node> parse_relational_expression();
private:

47
table.cpp
View File

@ -3,6 +3,8 @@
#include "csvreader.h"
#include "ml_string.h"
#include <fstream>
#include <algorithm>
namespace usql {
@ -70,21 +72,49 @@ std::string Table::csv_string() {
}
int Table::load_csv_string(const std::string &content) {
int row_cnt = 0;
std::vector<ColDefNode> &colDefs = m_col_defs;
CsvReader csvparser{};
auto csv = csvparser.parseCSV(content);
int row_cnt = csvparser.parseCSV2(content, colDefs, *this);
return row_cnt;
}
int Table::load_csv_file(const std::string &filename) {
std::vector<ColDefNode> &colDefs = m_col_defs;
for (auto it = csv.begin() + 1; it != csv.end(); ++it) {
std::vector<std::string> &csv_line = *it;
// allocate enough space
int line_size = 128;
std::ifstream in(filename, std::ifstream::ate | std::ifstream::binary);
auto file_size = in.tellg();
std::ifstream infile(filename);
if (infile.good()) {
std::string sLine;
std::getline(infile, sLine);
line_size = sLine.size();
}
infile.close();
if (file_size > 0) {
m_rows.reserve(m_rows.size() + int(file_size / line_size * 1.1));
}
// load rows
CsvReader csvparser{};
int row_cnt = csvparser.parseCSV(filename, colDefs, *this);
return row_cnt;
}
void Table::create_row_from_vector(const std::vector<ColDefNode> &colDefs, const std::vector<std::string> &csv_line) {
// prepare empty new_row
Row& new_row = create_empty_row();
// copy values
for (size_t i = 0; i < columns_count(); i++) {
ColDefNode col_def = get_column_def(colDefs[i].name);
for (size_t i = 0; i < std::min<int>(columns_count(), csv_line.size()); i++) {
const ColDefNode & col_def = colDefs[i];
if (csv_line[i].empty()) {
new_row.setColumnNull(col_def.order);
@ -104,11 +134,6 @@ int Table::load_csv_string(const std::string &content) {
// append new_row
commit_row(new_row);
row_cnt++;
}
return row_cnt;
}
double Table::string_to_double(const std::string &s) {

5
table.h
View File

@ -15,7 +15,7 @@ namespace usql {
ColDefNode get_column_def(const std::string &col_name);
ColDefNode get_column_def(int col_index);
int columns_count() const { return m_col_defs.size(); };
int columns_count() const { return m_col_defs.size(); }; // TODO size_t type?
int rows_count() const { return m_rows.size(); };
Row& create_empty_row();
@ -28,6 +28,7 @@ namespace usql {
std::string csv_string();
int load_csv_string(const std::string &content);
int load_csv_file(const std::string &filename);
void print();
@ -37,6 +38,8 @@ namespace usql {
static long string_to_long(const std::string &s) ;
static double string_to_double(const std::string &s) ;
void create_row_from_vector(const std::vector<ColDefNode> &colDefs, const std::vector<std::string> &csv_line);
};
}

20
usql.cpp
View File

@ -87,12 +87,14 @@ std::unique_ptr<Table> USql::execute_load(LoadIntoTableNode &node) {
Table *table_def = find_table(node.table_name);
// read data
std::ifstream ifs(node.filename);
std::string content((std::istreambuf_iterator<char>(ifs)),
(std::istreambuf_iterator<char>()));
// std::ifstream ifs(node.filename);
// std::string content((std::istreambuf_iterator<char>(ifs)),
// (std::istreambuf_iterator<char>()));
// load rows
auto rows_cnt = table_def->load_csv_string(content);
// auto rows_cnt = table_def->load_csv_string(content);
auto rows_cnt = table_def->load_csv_file(node.filename);
return create_stmt_result_table(0, "load succeeded", rows_cnt);
}
@ -483,12 +485,14 @@ std::unique_ptr<ValueNode> USql::eval_function_value_node(Table *table, Row &row
bool USql::eval_logical_operator(LogicalOperatorNode &node, Table *pTable, Row &row) {
bool left = eval_relational_operator(static_cast<const RelationalOperatorNode &>(*node.left), pTable, row);
//bool left = eval_relational_operator(static_cast<const RelationalOperatorNode &>(*node.left), pTable, row);
bool left = eval_where(&(*node.left), pTable, row);
if ((node.op == LogicalOperatorType::and_operator && !left) || (node.op == LogicalOperatorType::or_operator && left))
return left;
bool right = eval_relational_operator(static_cast<const RelationalOperatorNode &>(*node.right), pTable, row);
//bool right = eval_relational_operator(static_cast<const RelationalOperatorNode &>(*node.right), pTable, row);
bool right = eval_where(&(*node.right), pTable, row);
return right;
}
@ -559,7 +563,7 @@ std::unique_ptr<Table> USql::create_stmt_result_table(long code, const std::stri
Row& new_row = table_def->create_empty_row();
new_row.setIntColumnValue(0, code);
new_row.setStringColumnValue(1, text);
new_row.setStringColumnValue(1, text.size() <= 48 ? text : text.substr(0,48));
new_row.setIntColumnValue(2, affected_rows);
table_def->commit_row(new_row);