5 contributor
use 5.008007;
package DBIx::Custom;
use Object::Simple -base;
our $VERSION = '0.26';
use Carp 'croak';
use DBI;
use DBIx::Custom::Result;
use DBIx::Custom::Query;
use DBIx::Custom::QueryBuilder;
use DBIx::Custom::Where;
use DBIx::Custom::Model;
use DBIx::Custom::Tag;
use DBIx::Custom::Order;
use DBIx::Custom::Util qw/_array_to_hash _subname _deprecate/;
use DBIx::Custom::Mapper;
use DBIx::Custom::NotExists;
use Encode qw/encode encode_utf8 decode_utf8/;
use Scalar::Util qw/weaken/;
has [qw/connector dsn default_schema password quote user exclude_table user_table_info
user_column_info safety_character/],
async_conf => sub { {} },
cache => 0,
cache_method => sub {
sub {
my $self = shift;
$self->{_cached} ||= {};
if (@_ > 1) { $self->{_cached}{$_[0]} = $_[1] }
else { return $self->{_cached}{$_[0]} }
}
},
option => sub { {} },
default_option => sub {
{
RaiseError => 1,
PrintError => 0,
AutoCommit => 1
}
},
filters => sub {
{
encode_utf8 => sub { encode_utf8($_[0]) },
decode_utf8 => sub { decode_utf8($_[0]) }
}
},
last_sql => '',
models => sub { {} },
now => sub {
sub {
my ($sec, $min, $hour, $mday, $mon, $year) = localtime;
$mon++;
$year += 1900;
my $now = sprintf("%04d-%02d-%02d %02d:%02d:%02d",
$year, $mon, $mday, $hour, $min, $sec);
return $now;
}
},
query_builder => sub {
my $self = shift;
my $builder = DBIx::Custom::QueryBuilder->new(dbi => $self);
weaken $builder->{dbi};
return $builder;
},
result_class => 'DBIx::Custom::Result',
separator => '.',
stash => sub { {} };
sub available_datatype {
my $self = shift;
my $data_types = '';
for my $i (-1000 .. 1000) {
my $type_info = $self->dbh->type_info($i);
my $data_type = $type_info->{DATA_TYPE};
my $type_name = $type_info->{TYPE_NAME};
$data_types .= "$data_type ($type_name)\n"
if defined $data_type;
}
return "Data Type maybe equal to Type Name" unless $data_types;
$data_types = "Data Type (Type name)\n" . $data_types;
return $data_types;
}
sub available_typename {
my $self = shift;
# Type Names
my $type_names = {};
$self->each_column(sub {
my ($self, $table, $column, $column_info) = @_;
$type_names->{$column_info->{TYPE_NAME}} = 1
if $column_info->{TYPE_NAME};
});
my @output = sort keys %$type_names;
unshift @output, "Type Name";
return join "\n", @output;
}
our $AUTOLOAD;
sub AUTOLOAD {
my $self = shift;
# Method name
my ($package, $mname) = $AUTOLOAD =~ /^([\w\:]+)\:\:(\w+)$/;
# Call method
$self->{_methods} ||= {};
if (my $method = $self->{_methods}->{$mname}) {
return $self->$method(@_)
}
elsif ($self->{dbh} && (my $dbh_method = $self->dbh->can($mname))) {
$self->dbh->$dbh_method(@_);
}
else {
croak qq{Can't locate object method "$mname" via "$package" }
. _subname;
}
}
sub assign_clause {
my ($self, $param, $opts) = @_;
my $wrap = $opts->{wrap} || {};
my ($q, $p) = $self->_qp;
# Assign clause (performance is important)
join(
', ',
map {
ref $param->{$_} eq 'SCALAR' ? "$q$_$p = " . ${$param->{$_}}
: $wrap->{$_} ? "$q$_$p = " . $wrap->{$_}->(":$_")
: "$q$_$p = :$_";
} sort keys %$param
);
}
sub column {
my $self = shift;
my $option = pop if ref $_[-1] eq 'HASH';
my $real_table = shift;
my $columns = shift;
my $table = $option->{alias} || $real_table;
# Columns
unless (defined $columns) {
$columns ||= $self->model($real_table)->columns;
}
# Separator
my $separator = $self->separator;
# . is replaced
my $t = $table;
$t =~ s/\./$separator/g;
# Column clause
my @column;
$columns ||= [];
push @column, $self->_tq($table) . "." . $self->q($_) .
" as " . $self->q("${t}${separator}$_")
for @$columns;
return join (', ', @column);
}
sub connect {
my $self = ref $_[0] ? shift : shift->new(@_);
my $connector = $self->connector;
if (!ref $connector && $connector) {
require DBIx::Connector;
my $dsn = $self->dsn;
my $user = $self->user;
my $password = $self->password;
my $option = $self->_option;
my $connector = DBIx::Connector->new($dsn, $user, $password,
{%{$self->default_option} , %$option});
$self->connector($connector);
}
# Connect
$self->dbh;
return $self;
}
sub count { shift->select(column => 'count(*)', @_)->fetch_one->[0] }
sub dbh {
my $self = shift;
# Set
if (@_) {
$self->{dbh} = $_[0];
return $self;
}
# Get
else {
# From Connction manager
if (my $connector = $self->connector) {
croak "connector must have dbh() method " . _subname
unless ref $connector && $connector->can('dbh');
$self->{dbh} = $connector->dbh;
}
# Connect
$self->{dbh} ||= $self->_connect;
# Quote
if (!defined $self->reserved_word_quote && !defined $self->quote) {
my $driver = $self->_driver;
my $quote = $driver eq 'odbc' ? '[]'
: $driver eq 'ado' ? '[]'
: $driver eq 'mysql' ? '`'
: '"';
$self->quote($quote);
}
return $self->{dbh};
}
}
sub delete {
my ($self, %opt) = @_;
_deprecate('0.24', "delete method where_param option is DEPRECATED!")
if $opt{where_param};
# Don't allow delete all rows
croak qq{delete method where or id option must be specified } . _subname
if !$opt{where} && !defined $opt{id} && !$opt{allow_delete_all};
# Where
my $w = $self->_where_clause_and_param($opt{where}, $opt{where_param},
delete $opt{id}, $opt{primary_key}, $opt{table});
# Delete statement
my $sql = "delete ";
$sql .= "$opt{prefix} " if defined $opt{prefix};
$sql .= "from " . $self->_tq($opt{table}) . " $w->{clause} ";
# Execute query
$opt{statement} = 'delete';
$self->execute($sql, $w->{param}, %opt);
}
sub delete_all { shift->delete(@_, allow_delete_all => 1) }
sub DESTROY {}
sub create_model {
my $self = shift;
# Options
my $opt = ref $_[0] eq 'HASH' ? $_[0] : {@_};
$opt->{dbi} = $self;
my $model_class = delete $opt->{model_class} || 'DBIx::Custom::Model';
my $model_name = delete $opt->{name};
my $model_table = delete $opt->{table};
$model_name ||= $model_table;
# Create model
my $model = $model_class->new($opt);
weaken $model->{dbi};
$model->name($model_name) unless $model->name;
$model->table($model_table) unless $model->table;
# Apply filter(DEPRECATED logic)
if ($model->{filter}) {
my $filter = ref $model->filter eq 'HASH'
? [%{$model->filter}]
: $model->filter;
$filter ||= [];
_deprecate('0.24', "DBIx::Custom::Model filter method is DEPRECATED!")
if @$filter;
$self->_apply_filter($model->table, @$filter);
}
# Set model
$self->model($model->name, $model);
return $self->model($model->name);
}
sub each_column {
my ($self, $cb, %options) = @_;
my $user_column_info = $self->user_column_info;
if ($user_column_info) {
$self->$cb($_->{table}, $_->{column}, $_->{info}) for @$user_column_info;
}
else {
my $re = $self->exclude_table || $options{exclude_table};
# Tables
my $tables = {};
$self->each_table(sub {
my ($dbi, $table, $table_info) = @_;
my $schema = $table_info->{TABLE_SCHEM};
$tables->{$schema}{$table}++;
});
# Iterate all tables
for my $schema (sort keys %$tables) {
for my $table (sort keys %{$tables->{$schema}}) {
# Iterate all columns
my $sth_columns;
eval {$sth_columns = $self->dbh->column_info(undef, $schema, $table, '%')};
next if $@;
while (my $column_info = $sth_columns->fetchrow_hashref) {
my $column = $column_info->{COLUMN_NAME};
$self->$cb($table, $column, $column_info);
}
}
}
}
}
sub each_table {
my ($self, $cb, %option) = @_;
my $user_table_infos = $self->user_table_info;
# Iterate tables
if ($user_table_infos) {
$self->$cb($_->{table}, $_->{info}) for @$user_table_infos;
}
else {
my $re = $self->exclude_table || $option{exclude};
my $sth_tables = $self->dbh->table_info;
while (my $table_info = $sth_tables->fetchrow_hashref) {
# Table
my $table = $table_info->{TABLE_NAME};
next if defined $re && $table =~ /$re/;
$self->$cb($table, $table_info);
}
}
}
sub execute {
my $self = shift;
my $sql = shift;
# Options
my $params;
$params = shift if @_ % 2;
my %opt = @_;
# Async query
$opt{prepare_attr} = $self->async_conf->{prepare_attr} if $opt{async};
if ($opt{async} && !$self->{_new_connection}) {
my $dsn = $self->dsn;
croak qq/Data source must be specified when "async" option is used/
unless defined $dsn;
my $user = $self->user;
my $password = $self->password;
my $option = $self->_option;
my $new_dbi = bless {%$self}, ref $self;
$new_dbi->connector(undef);
$new_dbi->{dbh} = DBI->connect($dsn, $user, $password,
{%{$new_dbi->default_option}, %$option});
$new_dbi->{_new_connection} = 1;
return $new_dbi->execute($sql, defined $params ? ($params) : (), %opt);
}
# Options
_deprecate('0.24', "sqlfilter option is DEPRECATED") if $opt{sqlfilter};
$params ||= $opt{param} || {};
my $tables = $opt{table} || [];
$tables = [$tables] unless ref $tables eq 'ARRAY';
my $filter = ref $opt{filter} eq 'ARRAY' ?
_array_to_hash($opt{filter}) : $opt{filter};
# Merge second parameter
my @cleanup;
my $saved_param;
$opt{statement} ||= '';
$opt{statement} = 'select' if $opt{select};
if (($opt{statement} || '') ne 'insert' && ref $params eq 'ARRAY') {
my $params2 = $params->[1];
$params = $params->[0];
for my $column (keys %$params2) {
if (!exists $params->{$column}) {
$params->{$column} = $params2->{$column};
push @cleanup, $column;
}
else {
delete $params->{$_} for @cleanup;
@cleanup = ();
$saved_param = $params;
$params = $self->merge_param($params, $params2);
delete $saved_param->{$_} for (@{$opt{cleanup} || []});
last;
}
}
}
$params = [$params] unless ref $params eq 'ARRAY';
# Append
$sql .= $opt{append} if defined $opt{append} && !ref $sql;
# Query
my $query;
if (ref $sql) {
$query = $sql;
_deprecate('0.24', "execute method receiving query " .
"object as first parameter is DEPRECATED!" .
"because this is very buggy.");
}
else {
$query = $opt{reuse}->{$sql} if $opt{reuse};
unless ($query) {
my $c = $self->{safety_character};
# Check unsafety keys
unless ((join('', keys %{$params->[0]}) || '') =~ /^[$c\.]+$/) {
for my $column (keys %{$params->[0]}) {
croak qq{"$column" is not safety column name } . _subname
unless $column =~ /^[$c\.]+$/;
}
}
$query = $self->_create_query($sql,
$opt{after_build_sql} || $opt{sqlfilter}, $opt{prepare_attr});
}
$query->{statement} = $opt{statement} || '';
$opt{reuse}->{$sql} = $query if $opt{reuse};
}
# Save query
$self->{last_sql} = $query->{sql};
# Return query
if ($opt{query}) {
for my $column (@cleanup, @{$opt{cleanup} || []}) {
delete $_->{$column} for @$params;
}
return $query;
};
# Merge query filter(DEPRECATED!)
$filter ||= $query->{filter} || {};
# Tables
unshift @$tables, @{$query->{tables} || []};
my $main_table = @{$tables}[-1];
# Merge id to parameter
if (defined $opt{id}) {
my $statement = $query->{statement};
_deprecate('0.24', "execute method id option is DEPRECATED!")
unless $statement;
croak "execute id option must be specified with primary_key option"
unless $opt{primary_key};
$opt{primary_key} = [$opt{primary_key}] unless ref $opt{primary_key} eq 'ARRAY';
$opt{id} = [$opt{id}] unless ref $opt{id} eq 'ARRAY';
for (my $i = 0; $i < @{$opt{id}}; $i++) {
my $key = $opt{primary_key}->[$i];
$key = "$main_table.$key" if $statement eq 'update' ||
$statement eq 'delete' || $statement eq 'select';
next if exists $params->[0]->{$key};
$params->[0]->{$key} = $opt{id}->[$i];
push @cleanup, $key;1
}
}
# Cleanup tables(DEPRECATED!)
$tables = $self->_remove_duplicate_table($tables, $main_table)
if @$tables > 1;
# Type rule
my $type_filters = {};
my $type_rule_off = !$self->{_type_rule_is_called} || $opt{type_rule_off};
unless ($type_rule_off) {
my $type_rule_off_parts = {
1 => $opt{type_rule1_off},
2 => $opt{type_rule2_off}
};
for my $i (1, 2) {
unless ($type_rule_off_parts->{$i}) {
$type_filters->{$i} = {};
my $table_alias = $opt{table_alias} || {};
for my $alias (keys %$table_alias) {
my $table = $table_alias->{$alias};
for my $column (keys %{$self->{"_into$i"}{key}{$table} || {}}) {
$type_filters->{$i}->{"$alias.$column"} = $self->{"_into$i"}{key}{$table}{$column};
}
}
$type_filters->{$i} = {%{$type_filters->{$i}}, %{$self->{"_into$i"}{key}{$main_table} || {}}}
if $main_table;
}
}
}
# Applied filter(DEPRECATED!)
if ($self->{filter}{on}) {
my $applied_filter = {};
for my $table (@$tables) {
$applied_filter = {
%$applied_filter,
%{$self->{filter}{out}->{$table} || {}}
}
}
$filter = {%$applied_filter, %$filter};
}
# Replace filter name to code
for my $column (keys %$filter) {
my $name = $filter->{$column};
if (!defined $name) {
$filter->{$column} = undef;
}
elsif (ref $name ne 'CODE') {
croak qq{Filter "$name" is not registered" } . _subname
unless exists $self->filters->{$name};
$filter->{$column} = $self->filters->{$name};
}
}
# Execute
my $sth = $query->{sth};
my $affected;
if ((!$query->{duplicate} || $opt{bulk_insert}) && $type_rule_off
&& !keys %$filter && !$self->{default_out_filter}
&& !$opt{bind_type} && !$opt{type} && !$ENV{DBIX_CUSTOM_DEBUG})
{
eval {
if ($opt{bulk_insert}) {
my %count;
my $param = $params->[0];
$affected = $sth->execute(map { $param->{$_}->[++$count{$_} - 1] }
@{$query->{columns}});
}
else {
for my $param (@$params) {
$affected = $sth->execute(map { $param->{$_} }
@{$query->{columns}});
}
}
};
}
else {
for my $param (@$params) {
# Create bind values
my ($bind, $bind_types) = $self->_create_bind_values($param, $query->{columns},
$filter, $type_filters, $opt{bind_type} || $opt{type} || {});
# Execute
eval {
if ($opt{bind_type} || $opt{type}) {
$sth->bind_param($_ + 1, $bind->[$_],
$bind_types->[$_] ? $bind_types->[$_] : ())
for (0 .. @$bind - 1);
$affected = $sth->execute;
}
else { $affected = $sth->execute(@$bind) }
# DEBUG message
if ($ENV{DBIX_CUSTOM_DEBUG}) {
warn "SQL:\n" . $query->{sql} . "\n";
my @output;
for my $value (@$bind) {
$value = 'undef' unless defined $value;
$value = encode($ENV{DBIX_CUSTOM_DEBUG_ENCODING} || 'UTF-8', $value)
if utf8::is_utf8($value);
push @output, $value;
}
warn "Bind values: " . join(', ', @output) . "\n\n";
}
};
}
}
$self->_croak($@, qq{. Following SQL is executed.\n}
. qq{$query->{sql}\n} . _subname) if $@;
# Remove id from parameter
for my $column (@cleanup, @{$opt{cleanup} || []}) {
delete $_->{$column} for @$params;
}
# Not select statement
return $affected if !$sth->{NUM_OF_FIELDS} && $opt{statement} ne 'select';
# Filter(DEPRECATED!)
my $infilter = {};
if ($self->{filter}{on}) {
$infilter->{in} = {};
$infilter->{end} = {};
push @$tables, $main_table if $main_table;
for my $table (@$tables) {
for my $way (qw/in end/) {
$infilter->{$way} = {%{$infilter->{$way}},
%{$self->{filter}{$way}{$table} || {}}};
}
}
}
# Result
my $result = $self->result_class->new(
sth => $sth,
dbi => $self,
default_filter => $self->{default_in_filter},
filter => $infilter->{in} || {},
end_filter => $infilter->{end} || {},
type_rule => {
from1 => $self->type_rule->{from1},
from2 => $self->type_rule->{from2}
},
);
if (my $cb = $opt{async}) {
require AnyEvent;
my $watcher;
weaken $self;
$watcher = AnyEvent->io(
fh => $self->async_conf->{fh}->($self),
poll => 'r',
cb => sub {
$cb->($self, $result);
undef $watcher;
undef $result;
undef $cb;
},
);
}
else { $result }
}
sub get_table_info {
my ($self, %opt) = @_;
my $exclude = delete $opt{exclude};
croak qq/"$_" is wrong option/ for keys %opt;
my $table_info = [];
$self->each_table(
sub { push @$table_info, {table => $_[1], info => $_[2] } },
exclude => $exclude
);
return [sort {$a->{table} cmp $b->{table} } @$table_info];
}
sub get_column_info {
my ($self, %opt) = @_;
my $exclude_table = delete $opt{exclude_table};
croak qq/"$_" is wrong option/ for keys %opt;
my $column_info = [];
$self->each_column(
sub { push @$column_info, {table => $_[1], column => $_[2], info => $_[3] } },
exclude_table => $exclude_table
);
return [
sort {$a->{table} cmp $b->{table} || $a->{column} cmp $b->{column} }
@$column_info];
}
sub helper {
my $self = shift;
# Register method
my $methods = ref $_[0] eq 'HASH' ? $_[0] : {@_};
$self->{_methods} = {%{$self->{_methods} || {}}, %$methods};
return $self;
}
sub insert {
my $self = shift;
# Options
my $params = @_ % 2 ? shift : undef;
my %opt = @_;
_deprecate('0.24', "insert method param option is DEPRECATED!")
if $opt{param};
$params ||= delete $opt{param} || {};
my $multi;
if (ref $params eq 'ARRAY') { $multi = 1 }
else { $params = [$params] }
# Timestamp(DEPRECATED!)
if (!$multi && $opt{timestamp} && (my $insert_timestamp = $self->insert_timestamp)) {
_deprecate('0.24', "insert timestamp option is DEPRECATED! use ctime option");
my $columns = $insert_timestamp->[0];
$columns = [$columns] unless ref $columns eq 'ARRAY';
my $value = $insert_timestamp->[1];
$value = $value->() if ref $value eq 'CODE';
$params->[0]->{$_} = $value for @$columns;
}
# Created time and updated time
my @timestamp_cleanup;
_deprecate('0.24', "insert method created_at option is DEPRECATED! " .
"use ctime option instead. ")
if $opt{created_at};
_deprecate('0.24', "insert method updated_at option is DEPRECATED! " .
"use mtime option instead. ")
if $opt{updated_at};
$opt{ctime} ||= $opt{created_at};
$opt{mtime} ||= $opt{updated_at};
if (defined $opt{ctime} || defined $opt{mtime}) {
my $now = $self->now;
$now = $now->() if ref $now eq 'CODE';
if (defined $opt{ctime}) {
$_->{$opt{ctime}} = $now for @$params;
push @timestamp_cleanup, $opt{ctime};
}
if (defined $opt{mtime}) {
$_->{$opt{mtime}} = $now for @$params;
push @timestamp_cleanup, $opt{mtime};
}
}
# Merge id to parameter
my @cleanup;
my $id_param = {};
if (defined $opt{id} && !$multi) {
croak "insert id option must be specified with primary_key option"
unless $opt{primary_key};
$opt{primary_key} = [$opt{primary_key}] unless ref $opt{primary_key} eq 'ARRAY';
$opt{id} = [$opt{id}] unless ref $opt{id} eq 'ARRAY';
for (my $i = 0; $i < @{$opt{primary_key}}; $i++) {
my $key = $opt{primary_key}->[$i];
next if exists $params->[0]->{$key};
$params->[0]->{$key} = $opt{id}->[$i];
push @cleanup, $key;
}
}
# Insert statement
my $sql = "insert ";
$sql .= "$opt{prefix} " if defined $opt{prefix};
$sql .= "into " . $self->_tq($opt{table}) . " ";
if ($opt{bulk_insert}) {
$sql .= $self->_multi_values_clause($params, {wrap => $opt{wrap}}) . " ";
my $new_param = {};
$new_param->{$_} = [] for keys %{$params->[0]};
for my $param (@$params) {
push @{$new_param->{$_}}, $param->{$_} for keys %$param;
}
$params = [$new_param];
}
else {
$sql .= $self->values_clause($params->[0], {wrap => $opt{wrap}}) . " ";
}
# Remove id from parameter
delete $params->[0]->{$_} for @cleanup;
# Execute query
$opt{statement} = 'insert';
$opt{cleanup} = \@timestamp_cleanup;
$self->execute($sql, $params, %opt);
}
sub insert_timestamp {
my $self = shift;
_deprecate('0.24', "insert_timestamp method is DEPRECATED! use now attribute");
if (@_) {
$self->{insert_timestamp} = [@_];
return $self;
}
return $self->{insert_timestamp};
}
sub include_model {
my ($self, $name_space, $model_infos) = @_;
# Name space
$name_space ||= '';
# Get Model infomations
unless ($model_infos) {
# Load name space module
croak qq{"$name_space" is invalid class name } . _subname
if $name_space =~ /[^\w:]/;
eval "use $name_space";
croak qq{Name space module "$name_space.pm" is needed. $@ } . _subname
if $@;
# Search model modules
my $path = $INC{"$name_space.pm"};
$path =~ s/\.pm$//;
opendir my $dh, $path
or croak qq{Can't open directory "$path": $! } . _subname
my @modules;
while (my $file = readdir $dh) {
my $file_abs = "$path/$file";
if (-d $file_abs) {
next if $file eq '.' || $file eq '..';
opendir my $fq_dh, $file_abs
or croak qq{Can't open directory "$file_abs": $! } . _subname;
while (my $fq_file = readdir $fq_dh) {
my $fq_file_abs = "$file_abs/$fq_file";
push @modules, "${file}::$fq_file" if -f $fq_file_abs;
}
close $fq_dh;
}
elsif(-f $file_abs) { push @modules, $file }
}
close $dh;
$model_infos = [];
for my $module (@modules) {
if ($module =~ s/\.pm$//) { push @$model_infos, $module }
}
}
# Include models
for my $model_info (@$model_infos) {
# Load model
my $model_class;
my $model_name;
my $model_table;
if (ref $model_info eq 'HASH') {
$model_class = $model_info->{class};
$model_name = $model_info->{name};
$model_table = $model_info->{table};
$model_name ||= $model_class;
$model_table ||= $model_name;
}
else {
$model_class = $model_name = $model_table = $model_info;
}
$model_class =~ s/\./::/g;
$model_name =~ s/::/./;
$model_table =~ s/::/./;
my $mclass = "${name_space}::$model_class";
croak qq{"$mclass" is invalid class name } . _subname
if $mclass =~ /[^\w:]/;
unless ($mclass->can('new')) {
eval "require $mclass";
croak "$@ " . _subname if $@;
}
# Create model
my $opt = {};
$opt->{model_class} = $mclass if $mclass;
$opt->{name} = $model_name if $model_name;
$opt->{table} = $model_table if $model_table;
$self->create_model($opt);
}
return $self;
}
sub like_value { sub { "%$_[0]%" } }
sub mapper {
my $self = shift;
return DBIx::Custom::Mapper->new(@_);
}
sub merge_param {
my ($self, @params) = @_;
# Merge parameters
my $merge = {};
for my $param (@params) {
for my $column (keys %$param) {
my $param_is_array = ref $param->{$column} eq 'ARRAY' ? 1 : 0;
if (exists $merge->{$column}) {
$merge->{$column} = [$merge->{$column}]
unless ref $merge->{$column} eq 'ARRAY';
push @{$merge->{$column}},
ref $param->{$column} ? @{$param->{$column}} : $param->{$column};
}
else { $merge->{$column} = $param->{$column} }
}
}
return $merge;
}
sub model {
my ($self, $name, $model) = @_;
# Set model
if ($model) {
$self->models->{$name} = $model;
return $self;
}
# Check model existance
croak qq{Model "$name" is not included } . _subname
unless $self->models->{$name};
# Get model
return $self->models->{$name};
}
sub mycolumn {
my ($self, $table, $columns) = @_;
# Create column clause
my @column;
$columns ||= [];
push @column, $self->_tq($table) . "." . $self->q($_) . " as " . $self->q($_)
for @$columns;
return join (', ', @column);
}
sub new {
my $self = shift->SUPER::new(@_);
# Check attributes
my @attrs = keys %$self;
for my $attr (@attrs) {
croak qq{Invalid attribute: "$attr" } . _subname
unless $self->can($attr);
}
$self->{safety_character} = 'a-zA-Z0-9_'
unless exists $self->{safety_character};
# DEPRECATED
$self->{_tags} = {
'?' => \&DBIx::Custom::Tag::placeholder,
'=' => \&DBIx::Custom::Tag::equal,
'<>' => \&DBIx::Custom::Tag::not_equal,
'>' => \&DBIx::Custom::Tag::greater_than,
'<' => \&DBIx::Custom::Tag::lower_than,
'>=' => \&DBIx::Custom::Tag::greater_than_equal,
'<=' => \&DBIx::Custom::Tag::lower_than_equal,
'like' => \&DBIx::Custom::Tag::like,
'in' => \&DBIx::Custom::Tag::in,
'insert_param' => \&DBIx::Custom::Tag::insert_param,
'update_param' => \&DBIx::Custom::Tag::update_param
};
$self->{tag_parse} = 1 unless exists $self->{tag_parse};
$self->{cache} = 0 unless exists $self->{cache};
return $self;
}
sub not_exists { DBIx::Custom::NotExists->singleton }
sub order {
my $self = shift;
return DBIx::Custom::Order->new(dbi => $self, @_);
}
sub q { shift->_tq($_[0], $_[1], whole => 1) }
sub _tq {
my ($self, $value, $quotemeta, %opt) = @_;
my $quote = $self->{reserved_word_quote}
|| $self->{quote} || $self->quote || '';
my $q = substr($quote, 0, 1) || '';
my $p;
if (defined $quote && length $quote > 1) {
$p = substr($quote, 1, 1);
}
else { $p = $q }
if ($quotemeta) {
$q = quotemeta($q);
$p = quotemeta($p);
}
if ($opt{whole}) { return "$q$value$p" }
else {
my @values = split /\./, $value;
push @values, '' unless @values;
for my $v (@values) { $v = "$q$v$p" }
return join '.', @values;
}
}
sub _qp {
my ($self, %opt) = @_;
my $quote = $self->{reserved_word_quote}
|| $self->{quote} || $self->quote || '';
my $q = substr($quote, 0, 1) || '';
my $p;
if (defined $quote && length $quote > 1) {
$p = substr($quote, 1, 1);
}
else { $p = $q }
if ($opt{quotemeta}) {
$q = quotemeta($q);
$p = quotemeta($p);
}
return ($q, $p);
}
sub register_filter {
my $self = shift;
# Register filter
my $filters = ref $_[0] eq 'HASH' ? $_[0] : {@_};
$self->filters({%{$self->filters}, %$filters});
return $self;
}
sub select {
my $self = shift;
my $column = shift if @_ % 2;
my %opt = @_;
$opt{statement} = 'select';
$opt{column} = $column if defined $column;
# Options
my $table_is_empty;
my $tables = ref $opt{table} eq 'ARRAY' ? $opt{table}
: defined $opt{table} ? [$opt{table}]
: [];
$opt{table} = $tables;
$table_is_empty = 1 unless @$tables;
my $where_param = $opt{where_param} || delete $opt{param} || {};
_deprecate('0.24', "select method where_param option is DEPRECATED!")
if $opt{where_param};
# Add relation tables(DEPRECATED!);
if ($opt{relation}) {
_deprecate('0.24', "select() relation option is DEPRECATED!");
$self->_add_relation_table($tables, $opt{relation});
}
# Select statement
my $sql = 'select ';
# Prefix
$sql .= "$opt{prefix} " if defined $opt{prefix};
# Column
if (defined $opt{column}) {
my $columns
= ref $opt{column} eq 'ARRAY' ? $opt{column} : [$opt{column}];
for my $column (@$columns) {
if (ref $column eq 'HASH') {
$column = $self->column(%$column) if ref $column eq 'HASH';
}
elsif (ref $column eq 'ARRAY') {
_deprecate('0.24', "select column option [COLUMN => ALIAS] syntax " .
"is DEPRECATED! use q method to quote the value");
if (@$column == 3 && $column->[1] eq 'as') {
_deprecate('0.24', "[COLUMN, as => ALIAS] is DEPRECATED! use [COLUMN => ALIAS]");
splice @$column, 1, 1;
}
$column = join(' ', $column->[0], 'as', $self->q($column->[1]));
}
unshift @$tables, @{$self->_search_tables($column)}
unless $table_is_empty;
$sql .= "$column, ";
}
$sql =~ s/, $/ /;
}
else { $sql .= '* ' }
# Execute query without table
return $self->execute($sql, {}, %opt) if $table_is_empty;
# Table
$sql .= 'from ';
if ($opt{relation}) {
my $found = {};
for my $table (@$tables) {
$sql .= $self->_tq($table) . ', ' unless $found->{$table};
$found->{$table} = 1;
}
}
else { $sql .= $self->_tq($tables->[-1] || '') . ' ' }
$sql =~ s/, $/ /;
# Add tables in parameter
unshift @$tables,
@{$self->_search_tables(join(' ', keys %$where_param) || '')};
# Where
my $w = $self->_where_clause_and_param($opt{where}, $where_param,
delete $opt{id}, $opt{primary_key}, @$tables ? $tables->[-1] : undef);
# Add table names in where clause
unshift @$tables, @{$self->_search_tables($w->{clause})};
# Join statement
$self->_push_join(\$sql, $opt{join}, $tables) if defined $opt{join};
# Add where clause
$sql .= "$w->{clause} ";
# Relation(DEPRECATED!);
$self->_push_relation(\$sql, $tables, $opt{relation}, $w->{clause} eq '' ? 1 : 0)
if $opt{relation};
# Execute query
return $self->execute($sql, $w->{param}, %opt);
}
sub setup_model {
my ($self, %opt) = @_;
# Setup model
$self->each_column(
sub {
my ($self, $table, $column, $column_info) = @_;
my $schema = $column_info->{TABLE_SCHEM};
my $default_schema = $self->default_schema;
if (my $model = $self->models->{$table}) {
if (!defined $default_schema || $default_schema eq $schema) {
push @{$model->columns}, $column;
}
}
if (my $fullqualified_model = $self->models->{"$schema.$table"}) {
push @{$fullqualified_model->columns}, $column;
}
}
);
return $self;
}
sub show_datatype {
my ($self, $table) = @_;
croak "Table name must be specified" unless defined $table;
print "$table\n";
my $result = $self->select(table => $table, where => "'0' <> '0'");
my $sth = $result->sth;
my $columns = $sth->{NAME};
my $data_types = $sth->{TYPE};
for (my $i = 0; $i < @$columns; $i++) {
my $column = $columns->[$i];
my $data_type = lc $data_types->[$i];
print "$column: $data_type\n";
}
}
sub show_typename {
my ($self, $t) = @_;
croak "Table name must be specified" unless defined $t;
print "$t\n";
$self->each_column(sub {
my ($self, $table, $column, $infos) = @_;
return unless $table eq $t;
my $typename = lc $infos->{TYPE_NAME};
print "$column: $typename\n";
});
return $self;
}
sub show_tables {
my $self = shift;
my %tables;
$self->each_table(sub { $tables{$_[1]}++ });
print join("\n", sort keys %tables) . "\n";
return $self;
}
sub type_rule {
my $self = shift;
$self->{_type_rule_is_called} = 1;
if (@_) {
my $type_rule = ref $_[0] eq 'HASH' ? $_[0] : {@_};
# Into
for my $i (1 .. 2) {
my $into = "into$i";
my $exists_into = exists $type_rule->{$into};
$type_rule->{$into} = _array_to_hash($type_rule->{$into});
$self->{type_rule} = $type_rule;
$self->{"_$into"} = {};
for my $type_name (keys %{$type_rule->{$into} || {}}) {
croak qq{type name of $into section must be lower case}
if $type_name =~ /[A-Z]/;
}
$self->each_column(sub {
my ($dbi, $table, $column, $column_info) = @_;
my $type_name = lc $column_info->{TYPE_NAME};
if ($type_rule->{$into} &&
(my $filter = $type_rule->{$into}->{$type_name}))
{
return unless exists $type_rule->{$into}->{$type_name};
if (defined $filter && ref $filter ne 'CODE')
{
my $fname = $filter;
croak qq{Filter "$fname" is not registered" } . _subname
unless exists $self->filters->{$fname};
$filter = $self->filters->{$fname};
}
my $schema = $column_info->{TABLE_SCHEM};
my $default_schema = $self->default_schema;
if (!defined $default_schema || $default_schema eq $schema) {
$self->{"_$into"}{key}{$table}{$column} = $filter;
$self->{"_$into"}{dot}{"$table.$column"} = $filter;
}
$self->{"_$into"}{key}{"$schema.$table"}{$column} = $filter;
$self->{"_$into"}{dot}{"$schema.$table.$column"} = $filter;
}
});
}
# From
for my $i (1 .. 2) {
$type_rule->{"from$i"} = _array_to_hash($type_rule->{"from$i"});
for my $data_type (keys %{$type_rule->{"from$i"} || {}}) {
croak qq{data type of from$i section must be lower case or number}
if $data_type =~ /[A-Z]/;
my $fname = $type_rule->{"from$i"}{$data_type};
if (defined $fname && ref $fname ne 'CODE') {
croak qq{Filter "$fname" is not registered" } . _subname
unless exists $self->filters->{$fname};
$type_rule->{"from$i"}{$data_type} = $self->filters->{$fname};
}
}
}
return $self;
}
return $self->{type_rule} || {};
}
sub update {
my $self = shift;
# Options
my $param = @_ % 2 ? shift : undef;
my %opt = @_;
_deprecate('0.24', "update param option is DEPRECATED!") if $opt{param};
_deprecate('0.24', "update method where_param option is DEPRECATED!")
if $opt{where_param};
$param ||= $opt{param} || {};
# Don't allow update all rows
croak qq{update method where option must be specified } . _subname
if !$opt{where} && !defined $opt{id} && !$opt{allow_update_all};
# Timestamp(DEPRECATED!)
if ($opt{timestamp} && (my $update_timestamp = $self->update_timestamp)) {
_deprecate('0.24', "update timestamp option is DEPRECATED! use mtime");
my $columns = $update_timestamp->[0];
$columns = [$columns] unless ref $columns eq 'ARRAY';
my $value = $update_timestamp->[1];
$value = $value->() if ref $value eq 'CODE';
$param->{$_} = $value for @$columns;
}
# Created time and updated time
my @timestamp_cleanup;
_deprecate('0.24', "update method update_at option is DEPRECATED! " .
"use mtime option instead.")
if $opt{updated_at};
$opt{mtime} ||= $opt{updated_at};
if (defined $opt{mtime}) {
my $now = $self->now;
$now = $now->() if ref $now eq 'CODE';
$param->{$opt{mtime}} = $self->now->();
push @timestamp_cleanup, $opt{mtime};
}
# Assign clause
my $assign_clause = $self->assign_clause($param, {wrap => $opt{wrap}});
# Where
my $w = $self->_where_clause_and_param($opt{where}, $opt{where_param},
delete $opt{id}, $opt{primary_key}, $opt{table});
# Update statement
my $sql = "update ";
$sql .= "$opt{prefix} " if defined $opt{prefix};
$sql .= $self->_tq($opt{table}) . " set $assign_clause $w->{clause} ";
# Execute query
$opt{statement} = 'update';
$opt{cleanup} = \@timestamp_cleanup;
$self->execute($sql, [$param, $w->{param}], %opt);
}
sub update_all { shift->update(@_, allow_update_all => 1) };
sub update_or_insert {
my ($self, $param, %opt) = @_;
croak "update_or_insert method need primary_key and id option "
unless defined $opt{id} && defined $opt{primary_key};
my $statement_opt = $opt{option} || {};
my $rows = $self->select(%opt, %{$statement_opt->{select} || {}})->all;
if (@$rows == 0) {
return $self->insert($param, %opt, %{$statement_opt->{insert} || {}});
}
elsif (@$rows == 1) {
return 0 unless keys %$param;
return $self->update($param, %opt, %{$statement_opt->{update} || {}});
}
else { croak "selected row must be one " . _subname }
}
sub update_timestamp {
my $self = shift;
_deprecate('0.24', "update_timestamp method is DEPRECATED! use now method");
if (@_) {
$self->{update_timestamp} = [@_];
return $self;
}
return $self->{update_timestamp};
}
sub values_clause {
my ($self, $param, $opts) = @_;
my $wrap = $opts->{wrap} || {};
# Create insert parameter tag
my ($q, $p) = $self->_qp;
# values clause(performance is important)
'(' .
join(
', ',
map { "$q$_$p" } sort keys %$param
) .
') values (' .
join(
', ',
map {
ref $param->{$_} eq 'SCALAR' ? ${$param->{$_}} :
$wrap->{$_} ? $wrap->{$_}->(":$_") :
":$_";
} sort keys %$param
) .
')'
}
sub _multi_values_clause {
my ($self, $params, $opts) = @_;
my $wrap = $opts->{wrap} || {};
# Create insert parameter tag
my ($q, $p) = $self->_qp;
# Multi values clause
my $clause = '(' . join(', ', map { "$q$_$p" } sort keys %{$params->[0]}) . ') values ';
for (1 .. @$params) {
$clause .= '(' . join(', ',
map {
ref $params->[0]->{$_} eq 'SCALAR' ? ${$params->[0]->{$_}} :
$wrap->{$_} ? $wrap->{$_}->(":$_") :
":$_";
} sort keys %{$params->[0]}
) . '), '
}
$clause =~ s/, $//;
return $clause;
}
sub where { DBIx::Custom::Where->new(dbi => shift, @_) }
sub _create_query {
my ($self, $source, $after_build_sql, $prepare_attr) = @_;
$prepare_attr ||= {};
# Cache
my $cache = $self->{cache};
# Query
my $query;
# Get cached query
if ($cache) {
# Get query
my $q = $self->cache_method->($self, $source);
# Create query
if ($q) {
$query = DBIx::Custom::Query->new($q);
$query->{filters} = $self->filters;
}
}
# Create query
unless ($query) {
# Create query
my $tag_parse = exists $ENV{DBIX_CUSTOM_TAG_PARSE}
? $ENV{DBIX_CUSTOM_TAG_PARSE} : $self->{tag_parse};
my $sql = " " . $source || '';
if ($tag_parse && ($sql =~ /\s\{/)) {
$query = $self->query_builder->build_query($sql);
}
else {
my @columns;
my $c = $self->{safety_character};
my $re = $c eq 'a-zA-Z0-9_'
? qr/(.*?[^\\]):([$c\.]+)(?:\{(.*?)\})?(.*)/so
: qr/(.*?[^\\]):([$c\.]+)(?:\{(.*?)\})?(.*)/s;
my %duplicate;
my $duplicate;
# Parameter regex
$sql =~ s/([0-9]):/$1\\:/g;
my $new_sql = '';
while ($sql =~ /$re/) {
push @columns, $2;
$duplicate = 1 if ++$duplicate{$columns[-1]} > 1;
($new_sql, $sql) = defined $3 ?
($new_sql . "$1$2 $3 ?", " $4") : ($new_sql . "$1?", " $4");
}
$new_sql .= $sql;
$new_sql =~ s/\\:/:/g if index($new_sql, "\\:") != -1;
# Create query
$query = {sql => $new_sql, columns => \@columns, duplicate => $duplicate};
}
# Save query to cache
$self->cache_method->(
$self, $source,
{
sql => $query->{sql},
columns => $query->{columns},
tables => $query->{tables} || []
}
) if $cache;
}
# Filter SQL
$query->{sql} = $after_build_sql->($query->{sql}) if $after_build_sql;
# Save sql
$self->{last_sql} = $query->{sql};
# Prepare statement handle
my $sth;
eval { $sth = $self->dbh->prepare($query->{sql}, $prepare_attr) };
if ($@) {
$self->_croak($@, qq{. Following SQL is executed.\n}
. qq{$query->{sql}\n} . _subname);
}
# Set statement handle
$query->{sth} = $sth;
# Set filters
$query->{filters} = $self->{filters} || $self->filters;
return $query;
}
sub _create_bind_values {
my ($self, $params, $columns, $filter, $type_filters, $bind_type) = @_;
$bind_type = _array_to_hash($bind_type) if ref $bind_type eq 'ARRAY';
# Create bind values
my @bind;
my @types;
my %count;
my %not_exists;
for my $column (@$columns) {
# Bind value
if(ref $params->{$column} eq 'ARRAY') {
my $i = $count{$column} || 0;
$i += $not_exists{$column} || 0;
my $found;
for (my $k = $i; $i < @{$params->{$column}}; $k++) {
if (ref $params->{$column}->[$k] eq 'DBIx::Custom::NotExists') {
$not_exists{$column}++;
}
else {
push @bind, $params->{$column}->[$k];
$found = 1;
last
}
}
next unless $found;
}
else { push @bind, $params->{$column} }
# Filter
if (my $f = $filter->{$column} || $self->{default_out_filter} || '') {
$bind[-1] = $f->($bind[-1]);
}
# Type rule
if ($self->{_type_rule_is_called}) {
my $tf1 = $self->{"_into1"}->{dot}->{$column}
|| $type_filters->{1}->{$column};
$bind[-1] = $tf1->($bind[-1]) if $tf1;
my $tf2 = $self->{"_into2"}->{dot}->{$column}
|| $type_filters->{2}->{$column};
$bind[-1] = $tf2->($bind[-1]) if $tf2;
}
# Bind types
push @types, $bind_type->{$column};
# Count up
$count{$column}++;
}
return (\@bind, \@types);
}
sub _id_to_param {
my ($self, $id, $primary_keys, $table) = @_;
# Check primary key
croak "primary_key option " .
"must be specified when id option is used" . _subname
unless defined $primary_keys;
$primary_keys = [$primary_keys] unless ref $primary_keys eq 'ARRAY';
# Create parameter
my $param = {};
if (defined $id) {
$id = [$id] unless ref $id eq 'ARRAY';
for(my $i = 0; $i < @$id; $i++) {
my $key = $primary_keys->[$i];
$key = "$table." . $key if $table;
$param->{$key} = $id->[$i];
}
}
return $param;
}
sub _connect {
my $self = shift;
# Attributes
my $dsn = $self->data_source;
_deprecate('0.24', "data_source is DEPRECATED!\n")
if $dsn;
$dsn ||= $self->dsn;
croak qq{"dsn" must be specified } . _subname
unless $dsn;
my $user = $self->user;
my $password = $self->password;
my $option = $self->_option;
$option = {%{$self->default_option}, %$option};
# Connect
my $dbh;
eval { $dbh = DBI->connect($dsn, $user, $password, $option) };
# Connect error
croak "$@ " . _subname if $@;
return $dbh;
}
sub _croak {
my ($self, $error, $append) = @_;
# Append
$append ||= "";
# Verbose
if ($Carp::Verbose) { croak $error }
# Not verbose
else {
# Remove line and module infromation
my $at_pos = rindex($error, ' at ');
$error = substr($error, 0, $at_pos);
$error =~ s/\s+$//;
croak "$error$append";
}
}
sub _driver { lc shift->{dbh}->{Driver}->{Name} }
sub _need_tables {
my ($self, $tree, $need_tables, $tables) = @_;
# Get needed tables
for my $table (@$tables) {
if ($tree->{$table}) {
$need_tables->{$table} = 1;
$self->_need_tables($tree, $need_tables, [$tree->{$table}{parent}])
}
}
}
sub _option {
my $self = shift;
my $option = {%{$self->dbi_options}, %{$self->dbi_option}, %{$self->option}};
_deprecate('0.24', "dbi_options is DEPRECATED! use option instead\n")
if keys %{$self->dbi_options};
_deprecate('0.24', "dbi_option is DEPRECATED! use option instead\n")
if keys %{$self->dbi_option};
return $option;
}
sub _push_join {
my ($self, $sql, $join, $join_tables) = @_;
$join = [$join] unless ref $join eq 'ARRAY';
# No join
return unless @$join;
# Push join clause
my $tree = {};
for (my $i = 0; $i < @$join; $i++) {
# Arrange
my $join_clause;;
my $option;
if (ref $join->[$i] eq 'HASH') {
$join_clause = $join->[$i]->{clause};
$option = {table => $join->[$i]->{table}};
}
else {
$join_clause = $join->[$i];
$option = {};
};
# Find tables in join clause
my $table1;
my $table2;
if (my $table = $option->{table}) {
$table1 = $table->[0];
$table2 = $table->[1];
}
else {
my $q = $self->_quote;
my $j_clause = (split /\s+on\s+/, $join_clause)[-1];
$j_clause =~ s/'.+?'//g;
my $q_re = quotemeta($q);
$j_clause =~ s/[$q_re]//g;
my @j_clauses = reverse split /\s(and|on)\s/, $j_clause;
my $c = $self->{safety_character};
my $join_re = qr/((?:[$c]+?\.[$c]+?)|(?:[$c]+?))\.[$c]+[^$c].*?((?:[$c]+?\.[$c]+?)|(?:[$c]+?))\.[$c]+/sm;
for my $clause (@j_clauses) {
if ($clause =~ $join_re) {
$table1 = $1;
$table2 = $2;
last;
}
}
}
croak qq{join clause must have two table name after "on" keyword. } .
qq{"$join_clause" is passed } . _subname
unless defined $table1 && defined $table2;
croak qq{right side table of "$join_clause" must be unique } . _subname
if exists $tree->{$table2};
croak qq{Same table "$table1" is specified} . _subname
if $table1 eq $table2;
$tree->{$table2}
= {position => $i, parent => $table1, join => $join_clause};
}
# Search need tables
my $need_tables = {};
$self->_need_tables($tree, $need_tables, $join_tables);
my @need_tables = sort { $tree->{$a}{position} <=> $tree->{$b}{position} }
keys %$need_tables;
# Add join clause
$$sql .= $tree->{$_}{join} . ' ' for @need_tables;
}
sub _quote {
my $self = shift;
return $self->{reserved_word_quote} || $self->quote || '';
}
sub _remove_duplicate_table {
my ($self, $tables, $main_table) = @_;
# Remove duplicate table
my %tables = map {defined $_ ? ($_ => 1) : ()} @$tables;
delete $tables{$main_table} if $main_table;
my $new_tables = [keys %tables, $main_table ? $main_table : ()];
if (my $q = $self->_quote) {
$q = quotemeta($q);
$_ =~ s/[$q]//g for @$new_tables;
}
return $new_tables;
}
sub _search_tables {
my ($self, $source) = @_;
# Search tables
my $tables = [];
my ($q, $p) = $self->_qp(quotemeta => 1);
$source =~ s/$q//g;
$source =~ s/$p//g;
my $c = $self->safety_character;
while ($source =~ /((?:[$c]+?\.[$c]+?)|(?:[$c]+?))\.[$c]+/g) {
push @$tables, $1;
}
return $tables;
}
sub _where_clause_and_param {
my ($self, $where, $where_param, $id, $primary_key, $table) = @_;
$where ||= {};
$where = $self->_id_to_param($id, $primary_key, $table) if defined $id;
$where_param ||= {};
my $w = {};
if (ref $where eq 'HASH') {
my $clause = [];
my $column_join = '';
for my $column (keys %$where) {
$column_join .= $column;
my $table;
my $c;
if ($column =~ /(?:(.*)\.)?(.*)/) {
$table = $1;
$c = $2;
}
my $table_quote;
$table_quote = $self->_tq($table) if defined $table;
my $column_quote = $self->q($c);
$column_quote = $table_quote . '.' . $column_quote
if defined $table_quote;
if (ref $where->{$column} eq 'ARRAY') {
my $c = join(', ', (":$column") x @{$where->{$column}});
if (@{$where->{$column}}) {
push @$clause, "$column_quote in ( $c )";
}
else { push @$clause, '1 <> 1' }
}
else { push @$clause, "$column_quote = :$column" }
}
$w->{clause} = @$clause ? "where ( " . join(' and ', @$clause) . " ) " : '' ;
$w->{param} = $where;
$w->{param} = keys %$where_param
? $self->merge_param($where_param, $where)
: $where;
}
elsif (ref $where) {
my $obj;
if (ref $where eq 'DBIx::Custom::Where') { $obj = $where }
elsif (ref $where eq 'ARRAY') {
$obj = $self->where(clause => $where->[0], param => $where->[1]);
}
# Check where argument
croak qq{"where" must be hash reference or DBIx::Custom::Where object}
. qq{or array reference, which contains where clause and parameter}
. _subname
unless ref $obj eq 'DBIx::Custom::Where';
$w->{clause} = $obj->to_string;
$w->{param} = keys %$where_param
? $self->merge_param($where_param, $obj->param)
: $obj->param;
}
elsif ($where) {
$w->{clause} = "where $where";
$w->{param} = $where_param;
}
return $w;
}
sub _apply_filter {
my ($self, $table, @cinfos) = @_;
# Initialize filters
$self->{filter} ||= {};
$self->{filter}{on} = 1;
$self->{filter}{out} ||= {};
$self->{filter}{in} ||= {};
$self->{filter}{end} ||= {};
# Usage
my $usage = "Usage: \$dbi->apply_filter(" .
"TABLE, COLUMN1, {in => INFILTER1, out => OUTFILTER1, end => ENDFILTER1}, " .
"COLUMN2, {in => INFILTER2, out => OUTFILTER2, end => ENDFILTER2}, ...)";
# Apply filter
for (my $i = 0; $i < @cinfos; $i += 2) {
# Column
my $column = $cinfos[$i];
if (ref $column eq 'ARRAY') {
for my $c (@$column) { push @cinfos, $c, $cinfos[$i + 1] }
next;
}
# Filter infomation
my $finfo = $cinfos[$i + 1] || {};
croak "$usage (table: $table) " . _subname
unless ref $finfo eq 'HASH';
for my $ftype (keys %$finfo) {
croak "$usage (table: $table) " . _subname
unless $ftype eq 'in' || $ftype eq 'out' || $ftype eq 'end';
}
# Set filters
for my $way (qw/in out end/) {
# Filter
my $filter = $finfo->{$way};
# Filter state
my $state = !exists $finfo->{$way} ? 'not_exists'
: !defined $filter ? 'not_defined'
: ref $filter eq 'CODE' ? 'code'
: 'name';
# Filter is not exists
next if $state eq 'not_exists';
# Check filter name
croak qq{Filter "$filter" is not registered } . _subname
if $state eq 'name' && ! exists $self->filters->{$filter};
# Set filter
my $f = $state eq 'not_defined' ? undef
: $state eq 'code' ? $filter
: $self->filters->{$filter};
$self->{filter}{$way}{$table}{$column} = $f;
$self->{filter}{$way}{$table}{"$table.$column"} = $f;
$self->{filter}{$way}{$table}{"${table}__$column"} = $f;
$self->{filter}{$way}{$table}{"${table}-$column"} = $f;
}
}
return $self;
}
# DEPRECATED!
has 'data_source';
has dbi_options => sub { {} };
has filter_check => 1;
has 'reserved_word_quote';
has dbi_option => sub { {} };
has default_dbi_option => sub {
_deprecate('0.24', "default_dbi_option is DEPRECATED! use default_option instead");
return shift->default_option;
};
# DEPRECATED
sub tag_parse {
my $self = shift;
_deprecate('0.24', "tag_parse is DEPRECATED! use \$ENV{DBIX_CUSTOM_TAG_PARSE} " .
"environment variable");
if (@_) {
$self->{tag_parse} = $_[0];
return $self;
}
return $self->{tag_parse};
}
# DEPRECATED!
sub method {
_deprecate('0.24', "method is DEPRECATED! use helper instead");
return shift->helper(@_);
}
# DEPRECATED!
sub assign_param {
my $self = shift;
_deprecate('0.24', "assing_param is DEPRECATED! use assign_clause instead");
return $self->assign_clause(@_);
}
# DEPRECATED
sub update_param {
my ($self, $param, $opts) = @_;
_deprecate('0.24', "update_param is DEPRECATED! use assign_clause instead.");
# Create update parameter tag
my $tag = $self->assign_clause($param, $opts);
$tag = "set $tag" unless $opts->{no_set};
return $tag;
}
# DEPRECATED!
sub create_query {
_deprecate('0.24', "create_query is DEPRECATED! use query option of each method");
shift->_create_query(@_);
}
# DEPRECATED!
sub apply_filter {
my $self = shift;
_deprecate('0.24', "apply_filter is DEPRECATED!");
return $self->_apply_filter(@_);
}
# DEPRECATED!
sub select_at {
my ($self, %opt) = @_;
_deprecate('0.24', "select_at is DEPRECATED! use select method id option instead");
# Options
my $primary_keys = delete $opt{primary_key};
my $where = delete $opt{where};
my $param = delete $opt{param};
# Table
croak qq{"table" option must be specified } . _subname
unless $opt{table};
my $table = ref $opt{table} ? $opt{table}->[-1] : $opt{table};
# Create where parameter
my $where_param = $self->_id_to_param($where, $primary_keys);
return $self->select(where => $where_param, %opt);
}
# DEPRECATED!
sub delete_at {
my ($self, %opt) = @_;
_deprecate('0.24', "delete_at is DEPRECATED! use delete method id option instead");
# Options
my $primary_keys = delete $opt{primary_key};
my $where = delete $opt{where};
# Create where parameter
my $where_param = $self->_id_to_param($where, $primary_keys);
return $self->delete(where => $where_param, %opt);
}
# DEPRECATED!
sub update_at {
my $self = shift;
_deprecate('0.24', "update_at is DEPRECATED! use update method id option instead");
# Options
my $param;
$param = shift if @_ % 2;
my %opt = @_;
my $primary_keys = delete $opt{primary_key};
my $where = delete $opt{where};
my $p = delete $opt{param} || {};
$param ||= $p;
# Create where parameter
my $where_param = $self->_id_to_param($where, $primary_keys);
return $self->update(where => $where_param, param => $param, %opt);
}
# DEPRECATED!
sub insert_at {
my $self = shift;
_deprecate('0.24', "insert_at is DEPRECATED! use insert method id option instead");
# Options
my $param;
$param = shift if @_ % 2;
my %opt = @_;
my $primary_key = delete $opt{primary_key};
$primary_key = [$primary_key] unless ref $primary_key eq 'ARRAY';
my $where = delete $opt{where};
my $p = delete $opt{param} || {};
$param ||= $p;
# Create where parameter
my $where_param = $self->_id_to_param($where, $primary_key);
$param = $self->merge_param($where_param, $param);
return $self->insert(param => $param, %opt);
}
# DEPRECATED!
sub register_tag {
my $self = shift;
_deprecate('0.24', "register_tag is DEPRECATED!");
# Merge tag
my $tags = ref $_[0] eq 'HASH' ? $_[0] : {@_};
$self->{_tags} = {%{$self->{_tags} || {}}, %$tags};
return $self;
}
# DEPRECATED!
sub register_tag_processor {
my $self = shift;
_deprecate('0.24', "register_tag_processor is DEPRECATED!");
# Merge tag
my $tag_processors = ref $_[0] eq 'HASH' ? $_[0] : {@_};
$self->{_tags} = {%{$self->{_tags} || {}}, %{$tag_processors}};
return $self;
}
# DEPRECATED!
sub default_bind_filter {
my $self = shift;
_deprecate('0.24', "default_bind_filter is DEPRECATED!");
if (@_) {
my $fname = $_[0];
if (@_ && !$fname) {
$self->{default_out_filter} = undef;
}
else {
croak qq{Filter "$fname" is not registered}
unless exists $self->filters->{$fname};
$self->{default_out_filter} = $self->filters->{$fname};
}
return $self;
}
return $self->{default_out_filter};
}
# DEPRECATED!
sub default_fetch_filter {
my $self = shift;
_deprecate('0.24', "default_fetch_filter is DEPRECATED!");
if (@_) {
my $fname = $_[0];
if (@_ && !$fname) {
$self->{default_in_filter} = undef;
}
else {
croak qq{Filter "$fname" is not registered}
unless exists $self->filters->{$fname};
$self->{default_in_filter} = $self->filters->{$fname};
}
return $self;
}
return $self->{default_in_filter};
}
# DEPRECATED!
sub insert_param {
my $self = shift;
_deprecate('0.24', "insert_param is DEPRECATED! use values_clause instead");
return $self->values_clause(@_);
}
# DEPRECATED!
sub insert_param_tag {
_deprecate('0.24', "insert_param_tag is DEPRECATED! " .
"use insert_param instead!");
return shift->insert_param(@_);
}
# DEPRECATED!
sub update_param_tag {
_deprecate('0.24', "update_param_tag is DEPRECATED! " .
"use update_param instead");
return shift->update_param(@_);
}
# DEPRECATED!
sub _push_relation {
my ($self, $sql, $tables, $relation, $need_where) = @_;
if (keys %{$relation || {}}) {
$$sql .= $need_where ? 'where ' : 'and ';
for my $rcolumn (keys %$relation) {
my ($table1) = $rcolumn =~ /^(.+)\.(.+)$/;
my ($table2) = $relation->{$rcolumn} =~ /^(.+)\.(.+)$/;
push @$tables, ($table1, $table2);
$$sql .= "$rcolumn = " . $relation->{$rcolumn} . 'and ';
}
}
$$sql =~ s/and $/ /;
}
# DEPRECATED!
sub _add_relation_table {
my ($self, $tables, $relation) = @_;
if (keys %{$relation || {}}) {
for my $rcolumn (keys %$relation) {
my ($table1) = $rcolumn =~ /^(.+)\.(.+)$/;
my ($table2) = $relation->{$rcolumn} =~ /^(.+)\.(.+)$/;
my $table1_exists;
my $table2_exists;
for my $table (@$tables) {
$table1_exists = 1 if $table eq $table1;
$table2_exists = 1 if $table eq $table2;
}
unshift @$tables, $table1 unless $table1_exists;
unshift @$tables, $table2 unless $table2_exists;
}
}
}
1;
=head1 NAME
DBIx::Custom - DBI extension to execute insert, update, delete, and select easily
=head1 SYNOPSIS
use DBIx::Custom;
# Connect
my $dbi = DBIx::Custom->connect(
dsn => "dbi:mysql:database=dbname",
user => 'ken',
password => '!LFKD%$&',
option => {mysql_enable_utf8 => 1}
);
# Insert
$dbi->insert({title => 'Perl', author => 'Ken'}, table => 'book');
# Update
$dbi->update({title => 'Perl', author => 'Ken'}, table => 'book',
where => {id => 5});
# Delete
$dbi->delete(table => 'book', where => {author => 'Ken'});
# Select
my $result = $dbi->select(table => 'book',
column => ['title', 'author'], where => {author => 'Ken'});
# Select, more complex
my $result = $dbi->select(
table => 'book',
column => [
{book => [qw/title author/]},
{company => ['name']}
],
where => {'book.author' => 'Ken'},
join => ['left outer join company on book.company_id = company.id'],
append => 'order by id limit 5'
);
# Fetch
while (my $row = $result->fetch) {
}
# Fetch as hash
while (my $row = $result->fetch_hash) {
}
# Execute SQL with parameter.
$dbi->execute(
"select id from book where author = :author and title like :title",
{author => 'ken', title => '%Perl%'}
);
=head1 DESCRIPTION
L<DBIx::Custom> is L<DBI> wrapper module to execute SQL easily.
This module have the following features.
=over 4
=item *
Execute C<insert>, C<update>, C<delete>, or C<select> statement easily
=item *
Create C<where> clause flexibly
=item *
Named place holder support
=item *
Model support
=item *
Connection manager support
=item *
Choice your favorite relational database management system,
C<MySQL>, C<SQLite>, C<PostgreSQL>, C<Oracle>,
C<Microsoft SQL Server>, C<Microsoft Access>, C<DB2> or anything,
=item *
Filtering by data type or column name
=item *
Create C<order by> clause flexibly
=back
=head1 DOCUMENTATION
L<DBIx::Custom::Guide> - How to use L<DBIx::Custom>
L<DBIx::Custom Wiki|https://github.com/yuki-kimoto/DBIx-Custom/wiki>
- Theare are various examples.
Module documentations -
L<DBIx::Custom::Result>,
L<DBIx::Custom::Query>,
L<DBIx::Custom::Where>,
L<DBIx::Custom::Model>,
L<DBIx::Custom::Order>
=head1 ATTRIBUTES
=head2 C<async_conf> EXPERIMENTAL
my $async_conf = $dbi->async_conf;
$dbi = $dbi->async_conf($conf);
Setting when C<async> option is used.
# MySQL
$dbi->async_conf({
prepare_attr => {async => 1},
fh => sub { shift->dbh->mysql_fd }
})
C<prepare_attr> is DBI's C<prepare> method second argument,
C<fh> is callback that return file handle to watch.
=head2 C<connector>
my $connector = $dbi->connector;
$dbi = $dbi->connector($connector);
Connection manager object. if C<connector> is set, you can get C<dbh>
through connection manager. Conection manager object must have C<dbh> mehtod.
This is L<DBIx::Connector> example. Please pass
C<default_option> to L<DBIx::Connector> C<new> method.
my $connector = DBIx::Connector->new(
"dbi:mysql:database=$database",
$user,
$password,
DBIx::Custom->new->default_option
);
my $dbi = DBIx::Custom->connect(connector => $connector);
If C<connector> is set to 1 when connect method is called,
L<DBIx::Connector> is automatically set to C<connector>
my $dbi = DBIx::Custom->connect(
dsn => $dsn, user => $user, password => $password, connector => 1);
my $connector = $dbi->connector; # DBIx::Connector
Note that L<DBIx::Connector> must be installed.
=head2 C<default_schema> EXPERIMETNAL
my $default_schema = $self->default_schema;
$dbi = $self->default_schema('public');
schema name. if database has multiple schema,
type_rule->{into} filter don't work well.
If you set C<default_schema>, type_rule->{into} filter work well.
=head2 C<dsn>
my $dsn = $dbi->dsn;
$dbi = $dbi->dsn("DBI:mysql:database=dbname");
Data source name, used when C<connect> method is executed.
=head2 C<default_option>
my $default_option = $dbi->default_option;
$dbi = $dbi->default_option($default_option);
L<DBI> default option, used when C<connect> method is executed,
default to the following values.
{
RaiseError => 1,
PrintError => 0,
AutoCommit => 1,
}
=head2 C<exclude_table>
my $exclude_table = $dbi->exclude_table;
$dbi = $dbi->exclude_table(qr/pg_/);
Excluded table regex.
C<each_column>, C<each_table>, C<type_rule>,
and C<setup_model> methods ignore matching tables.
=head2 C<filters>
my $filters = $dbi->filters;
$dbi = $dbi->filters(\%filters);
Filters, registered by C<register_filter> method.
=head2 C<last_sql>
my $last_sql = $dbi->last_sql;
$dbi = $dbi->last_sql($last_sql);
Get last successed SQL executed by C<execute> method.
=head2 C<now>
my $now = $dbi->now;
$dbi = $dbi->now($now);
Code reference which return current time, default to the following code reference.
sub {
my ($sec, $min, $hour, $mday, $mon, $year) = localtime;
$mon++;
$year += 1900;
return sprintf("%04d-%02d-%02d %02d:%02d:%02d");
}
This return the time like C<2011-10-14 05:05:27>.
This is used by C<insert> method's C<created_at> option and C<updated_at> option,
and C<update> method's C<updated_at> option.
=head2 C<models>
my $models = $dbi->models;
$dbi = $dbi->models(\%models);
Models, included by C<include_model> method.
=head2 C<option>
my $option = $dbi->option;
$dbi = $dbi->option($option);
L<DBI> option, used when C<connect> method is executed.
Each value in option override the value of C<default_option>.
=head2 C<password>
my $password = $dbi->password;
$dbi = $dbi->password('lkj&le`@s');
Password, used when C<connect> method is executed.
=head2 C<query_builder>
my $builder = $dbi->query_builder;
Creat query builder. This is L<DBIx::Custom::QueryBuilder>.
=head2 C<quote>
my quote = $dbi->quote;
$dbi = $dbi->quote('"');
Reserved word quote.
Default to double quote '"' except for mysql.
In mysql, default to back quote '`'
You can set quote pair.
$dbi->quote('[]');
=head2 C<result_class>
my $result_class = $dbi->result_class;
$dbi = $dbi->result_class('DBIx::Custom::Result');
Result class, default to L<DBIx::Custom::Result>.
=head2 C<safety_character>
my $safety_character = $dbi->safety_character;
$dbi = $dbi->safety_character($character);
Regex of safety character for table and column name, default to 'a-zA-Z_'.
Note that you don't have to specify like '[a-zA-Z_]'.
=head2 C<separator>
my $separator = $dbi->separator;
$dbi = $dbi->separator('-');
Separator which join table name and column name.
This have effect to C<column> and C<mycolumn> method,
and C<select> method's column option.
Default to C<.>.
=head2 C<tag_parse>
my $tag_parse = $dbi->tag_parse(0);
$dbi = $dbi->tag_parse;
Enable DEPRECATED tag parsing functionality, default to 1.
If you want to disable tag parsing functionality, set to 0.
=head2 C<user>
my $user = $dbi->user;
$dbi = $dbi->user('Ken');
User name, used when C<connect> method is executed.
=head2 C<user_column_info>
my $user_column_info = $dbi->user_column_info;
$dbi = $dbi->user_column_info($user_column_info);
You can set the date like the following one.
[
{table => 'book', column => 'title', info => {...}},
{table => 'author', column => 'name', info => {...}}
]
Usually, you set return value of C<get_column_info>.
my $user_column_info
= $dbi->get_column_info(exclude_table => qr/^system/);
$dbi->user_column_info($user_column_info);
If C<user_column_info> is set, C<each_column> use C<user_column_info>
to find column info. this is very fast.
=head2 C<user_table_info>
my $user_table_info = $dbi->user_table_info;
$dbi = $dbi->user_table_info($user_table_info);
You can set the following data.
[
{table => 'book', info => {...}},
{table => 'author', info => {...}}
]
Usually, you can set return value of C<get_table_info>.
my $user_table_info = $dbi->get_table_info(exclude => qr/^system/);
$dbi->user_table_info($user_table_info);
If C<user_table_info> is set, C<each_table> use C<user_table_info>
to find table info.
=head1 METHODS
L<DBIx::Custom> inherits all methods from L<Object::Simple>
and use all methods of L<DBI>
and implements the following new ones.
=head2 C<available_datatype>
print $dbi->available_datatype;
Get available data types. You can use these data types
in C<type rule>'s C<from1> and C<from2> section.
=head2 C<available_typename>
print $dbi->available_typename;
Get available type names. You can use these type names in
C<type_rule>'s C<into1> and C<into2> section.
=head2 C<assign_clause>
my $assign_clause = $dbi->assign_clause({title => 'a', age => 2});
Create assign clause
title = :title, author = :author
This is used to create update clause.
"update book set " . $dbi->assign_clause({title => 'a', age => 2});
=head2 C<async> EXPERIMENTAL
async => sub {
my ($dbi, $result) = @_;
...
};
Database async access. L<AnyEvent> is required.
This is C<mysql> async access example.
use AnyEvent;
my $cond = AnyEvent->condvar;
my $timer = AnyEvent->timer(
interval => 1,
cb => sub { 1 }
);
my $count = 0;
$dbi->execute('SELECT SLEEP(1), 3', undef,
prepare_attr => {async => 1}, statement => 'select',
async => sub {
my ($dbi, $result) = @_;
my $row = $result->fetch_one;
is($row->[1], 3, 'before');
$cond->send if ++$count == 2;
}
);
$dbi->select('key1', table => 'table1', prepare_attr => {async => 1},
async => sub {
my ($dbi, $result) = @_;
my $row = $result->fetch_one;
is($row->[0], 1, 'after1');
$dbi->select('key1', table => 'table1', prepare_attr => {async => 1},
async => sub {
my ($dbi, $result) = @_;
my $row = $result->fetch_one;
is($row->[0], 1, 'after2');
$cond->send if ++$count == 2;
}
)
}
);
$cond->recv;
=head2 C<column>
my $column = $dbi->column(book => ['author', 'title']);
Create column clause. The follwoing column clause is created.
book.author as "book.author",
book.title as "book.title"
You can change separator by C<separator> attribute.
# Separator is hyphen
$dbi->separator('-');
book.author as "book-author",
book.title as "book-title"
=head2 C<connect>
my $dbi = DBIx::Custom->connect(
dsn => "dbi:mysql:database=dbname",
user => 'ken',
password => '!LFKD%$&',
option => {mysql_enable_utf8 => 1}
);
Connect to the database and create a new L<DBIx::Custom> object.
L<DBIx::Custom> is a wrapper of L<DBI>.
C<AutoCommit> and C<RaiseError> options are true,
and C<PrintError> option is false by default.
=head2 C<count>
my $count = $dbi->count(table => 'book');
Get rows count.
Options is same as C<select> method's ones.
=head2 C<create_model>
my $model = $dbi->create_model(
table => 'book',
primary_key => 'id',
join => [
'inner join company on book.comparny_id = company.id'
],
);
Create L<DBIx::Custom::Model> object and initialize model.
the module is also used from C<model> method.
$dbi->model('book')->select(...);
=head2 C<dbh>
my $dbh = $dbi->dbh;
Get L<DBI> database handle. if C<connector> is set, you can get
database handle through C<connector> object.
=head2 C<delete>
$dbi->delete(table => 'book', where => {title => 'Perl'});
Execute delete statement.
The following opitons are available.
B<OPTIONS>
C<delete> method use all of C<execute> method's options,
and use the following new ones.
=over 4
=item C<id>
id => 4
id => [4, 5]
ID corresponding to C<primary_key>.
You can delete rows by C<id> and C<primary_key>.
$dbi->delete(
primary_key => ['id1', 'id2'],
id => [4, 5],
table => 'book',
);
The above is same as the followin one.
$dbi->delete(where => {id1 => 4, id2 => 5}, table => 'book');
=item C<prefix>
prefix => 'some'
prefix before table name section.
delete some from book
=item C<table>
table => 'book'
Table name.
=item C<where>
Same as C<select> method's C<where> option.
=back
=head2 C<delete_all>
$dbi->delete_all(table => $table);
Execute delete statement for all rows.
Options is same as C<delete>.
=head2 C<each_column>
$dbi->each_column(
sub {
my ($dbi, $table, $column, $column_info) = @_;
my $type = $column_info->{TYPE_NAME};
if ($type eq 'DATE') {
# ...
}
}
);
Iterate all column informations in database.
Argument is callback which is executed when one column is found.
Callback receive four arguments. C<DBIx::Custom object>, C<table name>,
C<column name>, and C<column information>.
If C<user_column_info> is set, C<each_column> method use C<user_column_info>
infromation, you can improve the performance of C<each_column> in
the following way.
my $column_infos = $dbi->get_column_info(exclude_table => qr/^system_/);
$dbi->user_column_info($column_info);
$dbi->each_column(sub { ... });
=head2 C<each_table>
$dbi->each_table(
sub {
my ($dbi, $table, $table_info) = @_;
my $table_name = $table_info->{TABLE_NAME};
}
);
Iterate all table informationsfrom in database.
Argument is callback which is executed when one table is found.
Callback receive three arguments, C<DBIx::Custom object>, C<table name>,
C<table information>.
If C<user_table_info> is set, C<each_table> method use C<user_table_info>
infromation, you can improve the performance of C<each_table> in
the following way.
my $table_infos = $dbi->get_table_info(exclude => qr/^system_/);
$dbi->user_table_info($table_info);
$dbi->each_table(sub { ... });
=head2 C<execute>
my $result = $dbi->execute(
"select * from book where title = :title and author like :author",
{title => 'Perl', author => '%Ken%'}
);
my $result = $dbi->execute(
"select * from book where title = :book.title and author like :book.author",
{'book.title' => 'Perl', 'book.author' => '%Ken%'}
);
Execute SQL. SQL can contain column parameter such as :author and :title.
You can append table name to column name such as :book.title and :book.author.
Second argunet is data, embedded into column parameter.
Return value is L<DBIx::Custom::Result> object when select statement is executed,
or the count of affected rows when insert, update, delete statement is executed.
Named placeholder such as C<:title> is replaced by placeholder C<?>.
# Original
select * from book where title = :title and author like :author
# Replaced
select * from where title = ? and author like ?;
You can specify operator with named placeholder
by C<name{operator}> syntax.
# Original
select * from book where :title{=} and :author{like}
# Replaced
select * from where title = ? and author like ?;
Note that colons in time format such as 12:13:15 is exeption,
it is not parsed as named placeholder.
If you want to use colon generally, you must escape it by C<\\>
select * from where title = "aa\\:bb";
B<OPTIONS>
The following opitons are available.
=over 4
=item C<after_build_sql>
You can filter sql after the sql is build.
after_build_sql => $code_ref
The following one is one example.
$dbi->select(
table => 'book',
column => 'distinct(name)',
after_build_sql => sub {
"select count(*) from ($_[0]) as t1"
}
);
The following SQL is executed.
select count(*) from (select distinct(name) from book) as t1;
=item C<append>
append => 'order by name'
Append some statement after SQL.
=item C<prepare_attr> EXPERIMENTAL
prepare_attr => {async => 1}
Statemend handle attributes,
this is L<DBI>'s C<prepare> method second argument.
=item C<bind_type>
Specify database bind data type.
bind_type => [image => DBI::SQL_BLOB]
bind_type => [[qw/image audio/] => DBI::SQL_BLOB]
This is used to bind parameter by C<bind_param> of statment handle.
$sth->bind_param($pos, $value, DBI::SQL_BLOB);
=item C<filter>
filter => {
title => sub { uc $_[0] }
author => sub { uc $_[0] }
}
# Filter name
filter => {
title => 'upper_case',
author => 'upper_case'
}
# At once
filter => [
[qw/title author/] => sub { uc $_[0] }
]
Filter. You can set subroutine or filter name
registered by by C<register_filter>.
This filter is executed before data is saved into database.
and before type rule filter is executed.
=item C<query>
query => 1
C<execute> method return hash reference which contain SQL and column
infromation
my $sql = $query->{sql};
my $columns = $query->{columns};
=item C<reuse>
reuse => $hash_ref
Reuse query object if the hash reference variable is set.
my $queries = {};
$dbi->execute($sql, $param, reuse => $queries);
This will improved performance when you want to execute same query repeatedly
because generally creating query object is slow.
=item C<primary_key>
primary_key => 'id'
primary_key => ['id1', 'id2']
Priamry key. This is used for C<id> option.
=item C<select> EXPERIMETAL
select => 1
If you set C<select> to 1, this statement become select statement
and return value is always L<DBIx::Custom::Result> object.
=item C<table>
table => 'author'
If you want to omit table name in column name
and enable C<into1> and C<into2> type filter,
You must set C<table> option.
$dbi->execute("select * from book where title = :title and author = :author",
{title => 'Perl', author => 'Ken', table => 'book');
# Same
$dbi->execute(
"select * from book where title = :book.title and author = :book.author",
{title => 'Perl', author => 'Ken');
=item C<table_alias>
table_alias => {user => 'worker'}
Table alias. Key is real table name, value is alias table name.
If you set C<table_alias>, you can enable C<into1> and C<into2> type rule
on alias table name.
=item C<type_rule_off>
type_rule_off => 1
Turn C<into1> and C<into2> type rule off.
=item C<type_rule1_off>
type_rule1_off => 1
Turn C<into1> type rule off.
=item C<type_rule2_off>
type_rule2_off => 1
Turn C<into2> type rule off.
=back
=head2 C<get_column_info>
my $column_infos = $dbi->get_column_info(exclude_table => qr/^system_/);
get column infomation except for one which match C<exclude_table> pattern.
[
{table => 'book', column => 'title', info => {...}},
{table => 'author', column => 'name' info => {...}}
]
=head2 C<get_table_info>
my $table_infos = $dbi->get_table_info(exclude => qr/^system_/);
get table infomation except for one which match C<exclude> pattern.
[
{table => 'book', info => {...}},
{table => 'author', info => {...}}
]
You can set this value to C<user_table_info>.
=head2 C<helper>
$dbi->helper(
find_or_create => sub {
my $self = shift;
# Process
},
...
);
Register helper. These helper is called directly from L<DBIx::Custom> object.
$dbi->find_or_create;
=head2 C<insert>
$dbi->insert({title => 'Perl', author => 'Ken'}, table => 'book');
Execute insert statement. First argument is row data. Return value is
affected row count.
If you want to set constant value to row data, use scalar reference
as parameter value.
{date => \"NOW()"}
You can pass multiple parameters, this is very fast.
$dbi->insert(
[
{title => 'Perl', author => 'Ken'},
{title => 'Ruby', author => 'Tom'}
],
table => 'book'
);
In multiple insert, you can't use C<id> option.
and only first parameter is used to create sql.
B<options>
C<insert> method use all of C<execute> method's options,
and use the following new ones.
=over 4
=item C<bulk_insert>
bulk_insert => 1
bulk insert is executed if database support bulk insert and
multiple parameters is passed to C<insert>.
The SQL like the following one is executed.
insert into book (id, title) values (?, ?), (?, ?);
=item C<ctime>
ctime => 'created_time'
Created time column name. time when row is created is set to the column.
default time format is "YYYY-mm-dd HH:MM:SS", which can be changed by
C<now> attribute.
=item C<id>
id => 4
id => [4, 5]
ID corresponding to C<primary_key>.
You can insert a row by C<id> and C<primary_key>.
$dbi->insert(
{title => 'Perl', author => 'Ken'}
primary_key => ['id1', 'id2'],
id => [4, 5],
table => 'book'
);
The above is same as the followin one.
$dbi->insert(
{id1 => 4, id2 => 5, title => 'Perl', author => 'Ken'},
table => 'book'
);
=item C<prefix>
prefix => 'or replace'
prefix before table name section
insert or replace into book
=item C<table>
table => 'book'
Table name.
=item C<mtime>
This option is same as C<update> method C<mtime> option.
=item C<wrap>
wrap => {price => sub { "max($_[0])" }}
placeholder wrapped string.
If the following statement
$dbi->insert({price => 100}, table => 'book',
{price => sub { "$_[0] + 5" }});
is executed, the following SQL is executed.
insert into book price values ( ? + 5 );
=back
=over 4
=head2 C<include_model>
$dbi->include_model('MyModel');
Include models from specified namespace,
the following layout is needed to include models.
lib / MyModel.pm
/ MyModel / book.pm
/ company.pm
Name space module, extending L<DBIx::Custom::Model>.
B<MyModel.pm>
package MyModel;
use DBIx::Custom::Model -base;
1;
Model modules, extending name space module.
B<MyModel/book.pm>
package MyModel::book;
use MyModel -base;
1;
B<MyModel/company.pm>
package MyModel::company;
use MyModel -base;
1;
MyModel::book and MyModel::company is included by C<include_model>.
You can get model object by C<model>.
my $book_model = $dbi->model('book');
my $company_model = $dbi->model('company');
You can include full-qualified table name like C<main.book>
lib / MyModel.pm
/ MyModel / main / book.pm
/ company.pm
my $main_book = $self->model('main.book');
See L<DBIx::Custom::Model> to know model features.
=head2 C<like_value>
my $like_value = $dbi->like_value
Code reference which return a value for the like value.
sub { "%$_[0]%" }
=head2 C<mapper>
my $mapper = $dbi->mapper(param => $param);
Create a new L<DBIx::Custom::Mapper> object.
=head2 C<merge_param>
my $param = $dbi->merge_param({key1 => 1}, {key1 => 1, key2 => 2});
Merge parameters. The following new parameter is created.
{key1 => [1, 1], key2 => 2}
If same keys contains, the value is converted to array reference.
=head2 C<model>
my $model = $dbi->model('book');
Get a L<DBIx::Custom::Model> object
create by C<create_model> or C<include_model>
=head2 C<mycolumn>
my $column = $dbi->mycolumn(book => ['author', 'title']);
Create column clause for myself. The follwoing column clause is created.
book.author as author,
book.title as title
=head2 C<new>
my $dbi = DBIx::Custom->new(
dsn => "dbi:mysql:database=dbname",
user => 'ken',
password => '!LFKD%$&',
option => {mysql_enable_utf8 => 1}
);
Create a new L<DBIx::Custom> object.
=head2 C<not_exists>
my $not_exists = $dbi->not_exists;
DBIx::Custom::NotExists object, indicating the column is not exists.
This is used in C<param> of L<DBIx::Custom::Where> .
=head2 C<order>
my $order = $dbi->order;
Create a new L<DBIx::Custom::Order> object.
=head2 C<q>
my $quooted = $dbi->q("title");
Quote string by value of C<quote>.
=head2 C<register_filter>
$dbi->register_filter(
# Time::Piece object to database DATE format
tp_to_date => sub {
my $tp = shift;
return $tp->strftime('%Y-%m-%d');
},
# database DATE format to Time::Piece object
date_to_tp => sub {
my $date = shift;
return Time::Piece->strptime($date, '%Y-%m-%d');
}
);
Register filters, used by C<filter> option of many methods.
=head2 C<select>
my $result = $dbi->select(
column => ['author', 'title'],
table => 'book',
where => {author => 'Ken'},
);
Execute select statement.
You can pass odd number arguments. first argument is C<column>.
my $result = $dbi->select(['author', 'title'], table => 'book');
B<OPTIONS>
C<select> method use all of C<execute> method's options,
and use the following new ones.
=over 4
=item C<column>
column => 'author'
column => ['author', 'title']
Column clause.
if C<column> is not specified, '*' is set.
column => '*'
You can specify hash of array reference.
column => [
{book => [qw/author title/]},
{person => [qw/name age/]}
]
This is expanded to the following one by using C<colomn> method.
book.author as "book.author",
book.title as "book.title",
person.name as "person.name",
person.age as "person.age"
You can specify array of array reference, first argument is
column name, second argument is alias.
column => [
['date(book.register_datetime)' => 'book.register_date']
];
Alias is quoted properly and joined.
date(book.register_datetime) as "book.register_date"
=item C<id>
id => 4
id => [4, 5]
ID corresponding to C<primary_key>.
You can select rows by C<id> and C<primary_key>.
$dbi->select(
primary_key => ['id1', 'id2'],
id => [4, 5],
table => 'book'
);
The above is same as the followin one.
$dbi->select(
where => {id1 => 4, id2 => 5},
table => 'book'
);
=item C<param>
param => {'table2.key3' => 5}
Parameter shown before where clause.
For example, if you want to contain named placeholder in join clause,
you can pass parameter by C<param> option.
join => ['inner join (select * from table2 where table2.key3 = :table2.key3)' .
' as table2 on table1.key1 = table2.key1']
=itme C<prefix>
prefix => 'SQL_CALC_FOUND_ROWS'
Prefix of column cluase
select SQL_CALC_FOUND_ROWS title, author from book;
=item C<join>
join => [
'left outer join company on book.company_id = company_id',
'left outer join location on company.location_id = location.id'
]
Join clause. If column cluase or where clause contain table name like "company.name",
join clausees needed when SQL is created is used automatically.
$dbi->select(
table => 'book',
column => ['company.location_id as location_id'],
where => {'company.name' => 'Orange'},
join => [
'left outer join company on book.company_id = company.id',
'left outer join location on company.location_id = location.id'
]
);
In above select, column and where clause contain "company" table,
the following SQL is created
select company.location_id as location_id
from book
left outer join company on book.company_id = company.id
where company.name = ?;
You can specify two table by yourself. This is useful when join parser can't parse
the join clause correctly.
$dbi->select(
table => 'book',
column => ['company.location_id as location_id'],
where => {'company.name' => 'Orange'},
join => [
{
clause => 'left outer join location on company.location_id = location.id',
table => ['company', 'location']
}
]
);
=item C<table>
table => 'book'
Table name.
=item C<where>
# (1) Hash reference
where => {author => 'Ken', 'title' => ['Perl', 'Ruby']}
# -> where author = 'Ken' and title in ('Perl', 'Ruby')
# (2) DBIx::Custom::Where object
where => $dbi->where(
clause => ['and', ':author{=}', ':title{like}'],
param => {author => 'Ken', title => '%Perl%'}
)
# -> where author = 'Ken' and title like '%Perl%'
# (3) Array reference[Array refenrece, Hash reference]
where => [
['and', ':author{=}', ':title{like}'],
{author => 'Ken', title => '%Perl%'}
]
# -> where author = 'Ken' and title like '%Perl%'
# (4) Array reference[String, Hash reference]
where => [
':author{=} and :title{like}',
{author => 'Ken', title => '%Perl%'}
]
# -> where author = 'Ken' and title like '%Perl%'
# (5) String
where => 'title is null'
# -> where title is null
Where clause.
See also L<DBIx::Custom::Where> to know how to create where clause.
=back
=head2 C<setup_model>
$dbi->setup_model;
Setup all model objects.
C<columns> of model object is automatically set, parsing database information.
=head2 C<type_rule>
$dbi->type_rule(
into1 => {
date => sub { ... },
datetime => sub { ... }
},
into2 => {
date => sub { ... },
datetime => sub { ... }
},
from1 => {
# DATE
9 => sub { ... },
# DATETIME or TIMESTAMP
11 => sub { ... },
}
from2 => {
# DATE
9 => sub { ... },
# DATETIME or TIMESTAMP
11 => sub { ... },
}
);
Filtering rule when data is send into and get from database.
This has a little complex problem.
In C<into1> and C<into2> you can specify
type name as same as type name defined
by create table, such as C<DATETIME> or C<DATE>.
Note that type name and data type don't contain upper case.
If these contain upper case charactor, you convert it to lower case.
C<into2> is executed after C<into1>.
Type rule of C<into1> and C<into2> is enabled on the following
column name.
=over 4
=item 1. column name
issue_date
issue_datetime
This need C<table> option in each method.
=item 2. table name and column name, separator is dot
book.issue_date
book.issue_datetime
=back
You get all type name used in database by C<available_typename>.
print $dbi->available_typename;
In C<from1> and C<from2> you specify data type, not type name.
C<from2> is executed after C<from1>.
You get all data type by C<available_datatype>.
print $dbi->available_datatype;
You can also specify multiple types at once.
$dbi->type_rule(
into1 => [
[qw/DATE DATETIME/] => sub { ... },
],
);
=head2 C<update>
$dbi->update({title => 'Perl'}, table => 'book', where => {id => 4});
Execute update statement. First argument is update row data.
If you want to set constant value to row data, use scalar reference
as parameter value.
{date => \"NOW()"}
B<OPTIONS>
C<update> method use all of C<execute> method's options,
and use the following new ones.
=over 4
=item C<id>
id => 4
id => [4, 5]
ID corresponding to C<primary_key>.
You can update rows by C<id> and C<primary_key>.
$dbi->update(
{title => 'Perl', author => 'Ken'}
primary_key => ['id1', 'id2'],
id => [4, 5],
table => 'book'
);
The above is same as the followin one.
$dbi->update(
{title => 'Perl', author => 'Ken'}
where => {id1 => 4, id2 => 5},
table => 'book'
);
=item C<prefix>
prefix => 'or replace'
prefix before table name section
update or replace book
=item C<table>
table => 'book'
Table name.
=item C<where>
Same as C<select> method's C<where> option.
=item C<wrap>
wrap => {price => sub { "max($_[0])" }}
placeholder wrapped string.
If the following statement
$dbi->update({price => 100}, table => 'book',
{price => sub { "$_[0] + 5" }});
is executed, the following SQL is executed.
update book set price = ? + 5;
=item C<mtime>
mtime => 'modified_time'
Modified time column name. time row is updated is set to the column.
default time format is C<YYYY-mm-dd HH:MM:SS>, which can be changed by
C<now> attribute.
=back
=head2 C<update_all>
$dbi->update_all({title => 'Perl'}, table => 'book', );
Execute update statement for all rows.
Options is same as C<update> method.
=head2 C<update_or_insert>
# ID
$dbi->update_or_insert(
{title => 'Perl'},
table => 'book',
id => 1,
primary_key => 'id',
option => {
select => {
append => 'for update'
}
}
);
Update or insert.
C<update_or_insert> method execute C<select> method first to find row.
If the row is exists, C<update> is executed.
If not, C<insert> is executed.
C<OPTIONS>
C<update_or_insert> method use all common option
in C<select>, C<update>, C<delete>, and has the following new ones.
=over 4
=item C<option>
option => {
select => {
append => '...'
},
insert => {
prefix => '...'
},
update => {
filter => {}
}
}
If you want to pass option to each method,
you can use C<option> option.
=over 4
=item C<select_option>
select_option => {append => 'for update'}
select method option,
select method is used to check the row is already exists.
=head2 C<show_datatype>
$dbi->show_datatype($table);
Show data type of the columns of specified table.
book
title: 5
issue_date: 91
This data type is used in C<type_rule>'s C<from1> and C<from2>.
=head2 C<show_tables>
$dbi->show_tables;
Show tables.
=head2 C<show_typename>
$dbi->show_typename($table);
Show type name of the columns of specified table.
book
title: varchar
issue_date: date
This type name is used in C<type_rule>'s C<into1> and C<into2>.
=head2 C<values_clause>
my $values_clause = $dbi->values_clause({title => 'a', age => 2});
Create values clause.
(title, author) values (title = :title, age = :age);
You can use this in insert statement.
my $insert_sql = "insert into book $values_clause";
=head2 C<where>
my $where = $dbi->where(
clause => ['and', 'title = :title', 'author = :author'],
param => {title => 'Perl', author => 'Ken'}
);
Create a new L<DBIx::Custom::Where> object.
See L<DBIx::Custom::Where> to know how to create where clause.
=head1 ENVIRONMENTAL VARIABLES
=head2 C<DBIX_CUSTOM_DEBUG>
If environment variable C<DBIX_CUSTOM_DEBUG> is set to true,
executed SQL and bind values are printed to STDERR.
=head2 C<DBIX_CUSTOM_DEBUG_ENCODING>
DEBUG output encoding. Default to UTF-8.
=head2 C<DBIX_CUSTOM_DISABLE_MODEL_EXECUTE>
If you set DBIX_CUSTOM_DISABLE_MODEL_EXECUTE to 1,
L<DBIx::Custom::Model> execute method call L<DBIx::Custom> execute.
=head2 C<DBIX_CUSTOM_SUPPRESS_DEPRECATION>
$ENV{DBIX_CUSTOM_SUPPRESS_DEPRECATION} = '0.25';
Suppress deprecation warnings before specified version.
=head2 C<DBIX_CUSTOM_TAG_PARSE>
If you set DBIX_CUSTOM_TAG_PARSE to 0, tag parsing is off.
=head1 DEPRECATED FUNCTIONALITY
L<DBIx::Custom>
# Attribute methods
tag_parse # will be removed 2017/1/1
default_dbi_option # will be removed 2017/1/1
dbi_option # will be removed 2017/1/1
data_source # will be removed at 2017/1/1
dbi_options # will be removed at 2017/1/1
filter_check # will be removed at 2017/1/1
reserved_word_quote # will be removed at 2017/1/1
cache_method # will be removed at 2017/1/1
# Methods
update_timestamp # will be removed at 2017/1/1
insert_timestamp # will be removed at 2017/1/1
method # will be removed at 2017/1/1
assign_param # will be removed at 2017/1/1
update_param # will be removed at 2017/1/1
insert_param # will be removed at 2017/1/1
create_query # will be removed at 2017/1/1
apply_filter # will be removed at 2017/1/1
select_at # will be removed at 2017/1/1
delete_at # will be removed at 2017/1/1
update_at # will be removed at 2017/1/1
insert_at # will be removed at 2017/1/1
register_tag # will be removed at 2017/1/1
default_bind_filter # will be removed at 2017/1/1
default_fetch_filter # will be removed at 2017/1/1
insert_param_tag # will be removed at 2017/1/1
register_tag # will be removed at 2017/1/1
register_tag_processor # will be removed at 2017/1/1
update_param_tag # will be removed at 2017/1/1
# Options
insert method created_at option # will be removed 2017/3/1
update method updated_at option # will be removed 2017/3/1
select column option [COLUMN => ALIAS] syntax # will be removed 2017/1/1
execute method id option # will be removed 2017/1/1
update timestamp option # will be removed 2017/1/1
insert timestamp option # will be removed 2017/1/1
select method where_param option # will be removed 2017/1/1
delete method where_param option # will be removed 2017/1/1
update method where_param option # will be removed 2017/1/1
insert method param option # will be removed at 2017/1/1
insert method id option # will be removed at 2017/1/1
select method relation option # will be removed at 2017/1/1
select method column option [COLUMN, as => ALIAS] format
# will be removed at 2017/1/1
execute method's sqlfilter option # will be removed at 2017/1/1
# Others
execute($query, ...) # execute method receiving query object.
# this is removed at 2017/1/1
execute("select * from {= title}"); # execute method's
# tag parsing functionality
# will be removed at 2017/1/1
Query caching # will be removed at 2017/1/1
L<DBIx::Custom::Model>
# Attribute methods
execute # will be removed at 2017/1/1
method # will be removed at 2017/1/1
filter # will be removed at 2017/1/1
name # will be removed at 2017/1/1
type # will be removed at 2017/1/1
L<DBIx::Custom::Query>
This module is DEPRECATED! # will be removed at 2017/1/1
# Attribute methods
default_filter # will be removed at 2017/1/1
table # will be removed at 2017/1/1
filters # will be removed at 2017/1/1
# Methods
filter # will be removed at 2017/1/1
L<DBIx::Custom::QueryBuilder>
This module is DEPRECATED! # will be removed at 2017/1/1
# Attribute methods
tags # will be removed at 2017/1/1
tag_processors # will be removed at 2017/1/1
# Methods
register_tag # will be removed at 2017/1/1
register_tag_processor # will be removed at 2017/1/1
# Others
build_query("select * from {= title}"); # tag parsing functionality
# will be removed at 2017/1/1
L<DBIx::Custom::Result>
# Attribute methods
filter_check # will be removed at 2017/1/1
# Methods
column (from 0.25) # will be removed at 2017/2/1
fetch_first # will be removed at 2017/2/1
fetch_hash_first # will be removed 2017/2/1
filter_on # will be removed at 2017/1/1
filter_off # will be removed at 2017/1/1
end_filter # will be removed at 2017/1/1
remove_end_filter # will be removed at 2017/1/1
remove_filter # will be removed at 2017/1/1
default_filter # will be removed at 2017/1/1
L<DBIx::Custom::Tag>
This module is DEPRECATED! # will be removed at 2017/1/1
L<DBIx::Custom::Order>
# Other
prepend method array reference receiving
$order->prepend(['book', 'desc']); # will be removed 2017/1/1
=head1 BACKWARDS COMPATIBILITY POLICY
If a feature is DEPRECATED, you can know it by DEPRECATED warnings.
DEPRECATED feature is removed after C<five years>,
but if at least one person use the feature and tell me that thing
I extend one year each time he tell me it.
DEPRECATION warnings can be suppressed by C<DBIX_CUSTOM_SUPPRESS_DEPRECATION>
environment variable.
EXPERIMENTAL features will be changed without warnings.
=head1 BUGS
Please tell me bugs if found.
C<< <kimoto.yuki at gmail.com> >>
L<http://github.com/yuki-kimoto/DBIx-Custom>
=head1 AUTHOR
Yuki Kimoto, C<< <kimoto.yuki at gmail.com> >>
=head1 COPYRIGHT & LICENSE
Copyright 2009-2011 Yuki Kimoto, all rights reserved.
This program is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
=cut