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| author | mahtabm |
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| date | Thu, 11 Apr 2013 02:01:53 -0400 |
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=head1 LICENSE Copyright (c) 1999-2012 The European Bioinformatics Institute and Genome Research Limited. All rights reserved. This software is distributed under a modified Apache license. For license details, please see http://www.ensembl.org/info/about/code_licence.html =head1 CONTACT Please email comments or questions to the public Ensembl developers list at <dev@ensembl.org>. Questions may also be sent to the Ensembl help desk at <helpdesk@ensembl.org>. =cut =head1 NAME Bio::EnsEMBL::Utils::SqlHelper =head1 VERSION $Revision: 1.25 $ =head1 SYNOPSIS use Bio::EnsEMBL::Utils::SqlHelper; my $helper = Bio::EnsEMBL::Utils::SqlHelper->new( -DB_CONNECTION => $dbc ); my $arr_ref = $helper->execute( -SQL => 'select name, age from tab where col =?', -CALLBACK => sub { my @row = @{ shift @_ }; return { name => $row[0], age => $row[1] }; }, -PARAMS => ['A'] ); use Data::Dumper; print Dumper($arr_ref), "\n"; # Prints out [name=>'name', age=>1] maybe .... # For transactional work; only works if your MySQL table # engine/database supports transactional work (such as InnoDB) $helper->transaction( -CALLBACK => sub { if ( $helper->execute_single_result( -SQL => 'select count(*) from tab' ) ) { return $helper->execute_update('delete from tab'); } else { return $helper->batch( -SQL => 'insert into tab (?,?)', -DATA => [ [ 1, 2 ], [ 1, 3 ], [ 1, 4 ] ] ); } } ); =head1 DESCRIPTION Easier database interaction =head1 METHODS See subrotuines. =cut package Bio::EnsEMBL::Utils::SqlHelper; use warnings; use strict; use Bio::EnsEMBL::Utils::Argument qw(rearrange); use Bio::EnsEMBL::Utils::Scalar qw(assert_ref check_ref); use Bio::EnsEMBL::Utils::Exception qw(throw); use Bio::EnsEMBL::Utils::Iterator; use English qw( -no_match_vars ); #Used for $PROCESS_ID use Scalar::Util qw(weaken); #Used to not hold a strong ref to DBConnection =pod =head2 new() Arg [DB_CONNECTION] : Bio::EnsEMBL::DBSQL::DBConnection $db_connection Returntype : Instance of helper Exceptions : If the object given as a DBConnection is not one or it was undefined Status : Stable Creates a new instance of this object. my $dba = get_dba('mydb'); # New DBAdaptor from somewhere my $helper = Bio::EnsEMBL::Utils::SqlHelper->new( -DB_CONNECTION => $dba->dbc() ); $helper->execute_update( -SQL => 'update tab set flag=?', -PARAMS => [1] ); =cut sub new { my ( $class, @args ) = @_; my ($db_connection) = rearrange([qw(db_connection)], @args); my $self = bless( {}, ref($class) || $class ); throw('-DB_CONNECTION construction parameter was undefined.') unless defined $db_connection; $self->db_connection($db_connection); return $self; } =pod =head2 db_connection() Arg [1] : Bio::EnsEMBL::DBSQL::DBConnection $db_connection Description : Sets and retrieves the DBConnection Returntype : Bio::EnsEMBL::DBSQL::DBConnection Exceptions : If the object given as a DBConnection is not one or if an attempt is made to set the value more than once Status : Stable =cut sub db_connection { my ($self, $db_connection) = @_; if(defined $db_connection) { if(exists $self->{db_connection}) { throw('Cannot reset the DBConnection object; already defined '); } assert_ref($db_connection, 'Bio::EnsEMBL::DBSQL::DBConnection', 'db_connection'); $self->{db_connection} = $db_connection; weaken $self->{db_connection}; } return $self->{db_connection}; } # --------- SQL Methods =pod =head2 execute() - Execute a SQL statement with a custom row handler Arg [SQL] : string SQL to execute Arg [CALLBACK] : CodeRef; The callback to use for mapping a row to a data point; leave blank for a default mapping to a 2D array Arg [USE_HASHREFS] : boolean If set to true will cause HashRefs to be returned to the callback & not ArrayRefs Arg [PARAMS] : ArrayRef The binding parameters to the SQL statement Arg [PREPARE_PARAMS] : boolean Parameters to be passed onto the Statement Handle prepare call Arg [ITERATOR] : boolean Request a L<Bio::EnsEMBL::Utils::Iterator> rather than a 2D array Returntype : ArrayRef/L<Bio::EnsEMBL::Utils::Iterator> Exceptions : If errors occur in the execution of the SQL Status : Stable my $arr_ref = $helper->execute( -SQL => 'select a,b,c from tab where col =?', -CALLBACK => sub { my @row = @{ shift @_ }; return { A => $row[0], B => $row[1], C => $row[2] }; }, -PARAMS => ['A'] ); #Or with hashrefs my $arr_ref = $helper->execute( -SQL => 'select a,b,c from tab where col =?', -USE_HASHREFS => 1, -CALLBACK => sub { my $row = shift @_; return { A => $row->{a}, B => $row->{b}, C => $row->{c} }; }, -PARAMS => ['A'] ); Uses a callback defined by the C<sub> decalaration. Here we specify how the calling code will deal with each row of a database's result set. The sub can return any type of Object/hash/data structure you require. Should you not specify a callback then a basic one will be assigned to you which will return a 2D array structure e.g. my $arr_ref = $helper->execute( -SQL => 'select a,b,c from tab where col =?', -PARAMS => ['A'] ); This is equivalent to DBI's c<selectall_arrayref()> subroutine. As an extension to this method you can write a closure subroutine which takes in two parameters. The first is the array/hash reference & the second is the statement handle used to execute. 99% of the time you will not need it but there are occasions where you do need it. An example of usage would be: my $conn = get_conn(); #From somwewhere my $arr_ref = $conn->execute( -SQL => 'select a,b,c from tab where col =?', -USE_HASHREFS => 1, -CALLBACK => sub { my ( $row, $sth ) = @_; #Then do something with sth return { A => $row->[0], B => $row->[1], C => $row->[2] }; }, -PARAMS => ['A'] ); Any arguments to bind to the incoming statement. This can be a set of scalars or a 2D array if you need to specify any kind of types of sql objects i.e. use DBI qw(:sql_types); my $conn = get_conn(); my $arr_ref = $conn->execute( -SQL => 'select a,b,c from tab where col =? and num_col=? and other=?', -USE_HASHREFS => 1, -CALLBACK => sub { my @row = @{ shift @_ }; return { A => $row[0], B => $row[1], C => $row[2] }; }, -PARAMS => [ '1', SQL_VARCHAR ], [ 2, SQL_INTEGER ], 'hello' ); Here we import DBI's sql types into our package and then pass in multiple anonymous array references as parameters. Each param is tested in the input and if it is detected to be an ARRAY reference we dereference the array and run DBI's bind_param method. In fact you can see each part of the incoming paramaters array as the contents to call C<bind_param> with. The only difference is the package tracks the bind position for you. We can get back a L<Bio::EnsEMBL::Utils::Iterator> object which can be used to iterate over the results set without first materializing the data into memory. An example would be: my $iterator = $helper->execute( -SQL => 'select a,b,c from tab where col =?', -PARAMS => ['A'] -ITERATOR => 1); while($iterator->has_next()) { my $row = $iterator->next(); #Do something } This is very useful for very large datasets. =cut sub execute { my ( $self, @args ) = @_; my ($sql, $callback, $use_hashrefs, $params, $prepare_params, $iterator) = rearrange([qw(sql callback use_hashrefs params prepare_params iterator)], @args); my $has_return = 1; #If no callback then we execute using a default one which returns a 2D array if(!defined $callback) { throw('Cannot use fetchrow_hashref() with default mappers. Turn off this option') if $use_hashrefs; $callback = $self->_mappers()->{array_ref}; } return $self->_execute( $sql, $callback, $has_return, $use_hashrefs, $params, $prepare_params, $iterator ); } =pod =head2 execute_simple() Arg [SQL] : string $sql Arg [PARAMS] : ArrayRef $params Arg [CALLBACK] : CodeRef $callback Returntype : ArrayRef of 1D elements Exceptions : If errors occur in the execution of the SQL Status : Stable my $classification = $helper->execute_simple( -SQL => 'select meta_val from meta where meta_key =? order by meta_id', -PARAMS => ['species.classification'] ); Identical to C<execute> except you do not specify a sub-routine reference. Using this code assumes you want an array of single scalar values as returned by the given SQL statement. =cut sub execute_simple { my ( $self, @args ) = @_; my ($sql, $params, $callback) = rearrange([qw(sql params callback)], @args); my $has_return = 1; my $use_hashrefs = 0; $callback ||= $self->_mappers()->{first_element}; return $self->_execute($sql, $callback, $has_return, $use_hashrefs, $params); } =pod =head2 execute_no_return() Arg [SQL] : string sql Arg [CALLBACK] : CodeRef The callback to use for mapping a row to a data point; we assume you are assigning into a data structure which has requirements other than simple translation into an array Arg [USE_HASHREFS] : boolean If set to true will cause HashRefs to be returned to the callback & not ArrayRefs Arg [PARAMS] : ArrayRef The binding parameters to the SQL statement Returntype : None Exceptions : If errors occur in the execution of the SQL Status : Stable Whilst all other execute methods will return something; this assumes that the given mapper subroutine will be performing the business of placing values somewhere or doing something with them. There is a huge temptation to nest queries using this method; do not! Execute the values into an array using one of the other methods then run your subqueries on them; or make a better first query. SQL is flexible; so use it. =cut sub execute_no_return { my ( $self, @args ) = @_; my ($sql, $callback, $use_hashrefs, $params) = rearrange([qw(sql callback use_hashrefs params)], @args); throw('No callback defined but this is a required parameter for execute_no_return()') if ! $callback; my $has_return = 0; my $prepare_params = []; $self->_execute( $sql, $callback, $has_return, $use_hashrefs, $params); return; } =pod =head2 execute_into_hash() Arg [SQL] : string $sql Arg [CALLBACK] : CodeRef The callback to use for mapping to a value in a hash keyed by the first element in your result set; leave blank for a default mapping to a scalar value of the second element Arg [PARAMS] : The binding parameters to the SQL statement Returntype : HashRef keyed by column 1 & value is the return of callback Exceptions : If errors occur in the execution of the SQL Status : Stable A variant of the execute methods but rather than returning a list of mapped results this will assume the first column of a returning map & the calling subroutine will map the remainder of your return as the hash's key. B<This code can handle simple queries to hashes, complex value mappings and repeated mappings for the same key>. For example: my $sql = 'select key, one, two from table where something =?'; my $mapper = sub { my ( $row, $value ) = @_; #Ignore field 0 as that is being used for the key my $obj = Some::Obj->new( one => $row->[1], two => $row->[2] ); return $obj; }; my $hash = $helper->execute_into_hash( -SQL => $sql, -CALLBACK => $mapper, -PARAMS => ['val'] ); #Or for a more simple usage my $sql = 'select biotype, count(gene_id) from gene group by biotype'; my $biotype_hash = $conn->execute_into_hash( -SQL => $sql ); print $biotype_hash->{protein_coding} || 0, "\n"; The basic pattern assumes a scenario where you are mapping in a one key to one value. For more advanced mapping techniques you can use the second value passed to the subroutine paramater set. This is shown as C<$value> in the above examples. This value is what is found in the HASH being populated in the background. So on the first time you encounter it for the given key it will be undefined. For future invocations it will be set to the value you gave it. This allows us to setup code like the following my %args = ( -SQL => 'select meta_key, meta_value from meta ' . 'where meta_key =? order by meta_id', -PARAMS => ['species.classification'] ); my $hash = $helper->execute_into_hash( %args, -CALLBACK => sub { my ( $row, $value ) = @_; $value = [] if !defined $value; push( @{$value}, $row->[1] ); return $value; } ); #OR $hash = $helper->execute_into_hash( %args, -CALLBACK => sub { my ( $row, $value ) = @_; if ( defined $value ) { push( @{$value}, $row->[1] ); return; } my $new_value = [ $row->[1] ]; return $new_value; } ); The code understands that returning a defined value means to push this value into the background hash. In example one we keep on re-inserting the Array of classifications into the hash. Example two shows an early return from the callback which indicates to the code we do not have any value to re-insert into the hash. Of the two methods example one is clearer but is possibliy slower. B<Remember that the row you are given is the full row & not a view of the reminaing fields.> Therefore indexing for the data you are concerned with begins at position 1. =cut sub execute_into_hash { my ( $self, @args ) = @_; my ($sql, $callback, $params) = rearrange([qw(sql callback params)], @args); my $hash = {}; #If no callback then we execute using a default one which sets value to 2nd element if(!defined $callback) { $callback = $self->_mappers()->{second_element}; } #Default mapper uses the 1st key + something else from the mapper my $mapper = sub { my $row = shift @_; my $key = $row->[0]; my $value = $hash->{$key}; my $new_value = $callback->($row, $value); if(defined $new_value) { $hash->{ $key } = $new_value; } return; }; $self->execute_no_return( -SQL => $sql, -CALLBACK => $mapper, -PARAMS => $params ); return $hash; } =pod =head2 execute_single_result() Arg [SQL] : string $sql Arg [CALLBACK] : CodeRef The callback to use for mapping a row to a data point; leave blank for a default scalar mapping Arg [USE_HASHREFS] : boolean If set to true will cause HashRefs to be returned to the callback & not ArrayRefs Arg [PARAMS] : ArrayRef The binding parameters to the SQL statement Returntype : Scalar Exceptions : If errors occur in the execution of the SQL, if the query returned more than 1 row and if we found no rows. Status : Stable my $meta_count = $helper->execute_single_result( -SQL => 'select count(*) from meta where species_id =?', -PARAMS => [1] ); Very similar to C<execute()> except it will raise an exception if we have more or less than one row returned =cut sub execute_single_result { my ( $self, @args ) = @_; my ($sql, $callback, $use_hashrefs, $params) = rearrange( [qw(sql callback use_hashrefs params)], @args); my $results = $self->execute_simple( -SQL => $sql, -CALLBACK => $callback, -USE_HASHREFS => $use_hashrefs, -PARAMS => $params ); my $result_count = scalar(@{$results}); if($result_count != 1) { $params = [] if ! $params; my $type = ($result_count == 0) ? 'No' : 'Too many'; my $msg = "${type} results returned. Expected 1 but got $result_count for query '${sql}' with params ["; $msg .= join( ',', map {(defined $_) ? $_ : '-undef-';} @{$params} ); $msg .= ']'; throw($msg); } return $results->[0]; } =pod =head2 transaction() Arg [CALLBACK] : CodeRef The callback used for transaction isolation; once the subroutine exists the code will decide on rollback or commit. Required Arg [RETRY] : integer the number of retries to attempt with this transactional block. Defaults to 0. Arg [PAUSE] : integer the time in seconds to pause in-between retries. Defaults to 1. Arg [CONDITION] : CodeRef allows you to inspect the exception raised and should your callback return true then the retry will be attempted. If not given then all exceptions mean attempt a retry (if specified) Returntype : Return of the callback Exceptions : If errors occur in the execution of the SQL Status : Stable my $val = $helper->transaction( -CALLBACK => sub { my ($dbc) = @_; #Do something return 1; } ); #Or because of the arguments method we use my $val = $helper->transaction( sub { my ($dbc) = @_; #Do something return 1; } ); Creates a transactional block which will ensure that the connection is committed when your submmited subroutine has finished or will rollback in the event of an error occuring in your block. The code will always force AutoCommit off but will restore it to its previous setting. If your DBI/DBD driver does not support manual commits then this code will break. The code will turn off the C<disconnect_when_idle()> method to allow transactions to work as expected. An effect of using REPEATABLE READ transaction isolation (InnoDB's default) is that your data is as fresh as when you started your current transaction. To ensure the freshest data use C<SELECT ... from ... LOCK IN SHARE MODE> or C<SELECT ... from ... LOCK FOR UPDATE> if you are going to issue updates. Creating a transaction within a transaction results in the commit rollback statements occuring in the top level transaction. That way any block of code which is meant to to be transaction can be wrapped in this block ( assuming the same instance of SQLHelper is passed around & used). You can also request the retry of a transactional block of code which is causing problems. This is not a perfect solution as it indicates your programming model is broken. This mode can be specified as such: my $val = $helper->transaction( -RETRY => 3, -PAUSE => 2, -CALLBACK => sub { my ($dbc) = @_; #Do something return 1; } ); The C<-RETRY> argument indicates the number of times we attempt the transaction and C<-PAUSE> indicates the time in-between attempts. These retries will only occur in the root transaction block i.e. you cannot influence the retry system in a sub transaction. You can influence if the retry is done with the C<-CONDITION> argument which accepts a Code reference (same as the C<-CALLBACK> parameter). This allows you to inspect the error thrown to retry only in some situations e.g. my $val = $helper->transaction( -RETRY => 3, -PAUSE => 2, -CALLBACK => sub { my ($dbc) = @_; #Do something return 1; }, -CONDITION => sub { my ($error) = @_; return ( $error =~ /deadlock/ ) ? 1 : 0; } ); Here we attempt a transaction and will B<only> retry when we have an error with the phrase deadlock. =cut sub transaction { my ($self, @args) = @_; my ($callback, $retry, $pause, $condition) = rearrange([qw(callback retry pause condition)], @args); throw('-CALLBACK was not a CodeRef. Got a reference of type ['.ref($callback).']. Check your parameters') unless check_ref($callback, 'CODE'); #Setup defaults $retry = 0 unless defined $retry; $pause = 1 unless defined $pause; if(! defined $condition) { $condition = sub { return 1; }; } assert_ref($condition, 'CODE', '-CONDITION'); my $dbc = $self->db_connection(); my $original_dwi; my $ac; my $error; my $result; #If we were already in a transaction then we do not do any management of the #session & wait for the parent transaction(s) to finish my $perform_transaction = $self->_perform_transaction_code(); if($perform_transaction) { ($original_dwi, $ac) = $self->_enable_transaction(); } else { #If we were in a transaction then ignore any attempts at retry here $retry = 0; } for(my $iteration = 0; $iteration <= $retry; $iteration++) { eval { $result = $callback->($dbc); $dbc->db_handle()->commit() if $perform_transaction; }; $error = $@; #If we were allowed to deal with the error then we apply rollbacks & then #retry or leave to the remainder of the code to throw if($perform_transaction && $error) { eval { $dbc->db_handle()->rollback(); }; #If we were not on our last iteration then warn & allow the retry if($iteration != $retry) { if($condition->($error)) { warn("Encountered error on attempt ${iteration} of ${retry} and have issued a rollback. Will retry after sleeping for $pause second(s): $error"); sleep $pause; } else { last; #break early if condition of error was not matched } } } #Always break the loop if we had a successful attempt last if ! $error; } if($perform_transaction) { $self->_disable_transaction($original_dwi, $ac); } throw("ABORT: Transaction aborted because of error: ${error}") if $error; return $result; } =pod =head2 execute_update() Arg [SQL] : string $sql Arg [CALLBACK] : CodeRef The callback to use for calling methods on the DBI statement handle or DBConnection object after an update command Arg [PARAMS] : ArrayRef The binding parameters to the SQL statement Arg [PREPARE_PARAMS] : ArrayRef Parameters to bind to the prepare() StatementHandle call Returntype : Number of rows affected Exceptions : If errors occur in the execution of the SQL Status : Stable Used for performing updates but conforms to the normal execute statement subroutines. use DBI qw(:sql_types); $helper->execute_update(-SQL => 'update tab set name = ? where id =?', -PARAMS => [ 'andy', [ 1, SQL_INTEGER ] ] ); If you need to do something a bit more advanced with your DML then you can give the method a closure and this will be called after the execute has been issued i.e. my $obj; $helper->execute_update( -SQL => 'insert into tab (name) values(?)', -CALLBACK => sub { my ( $sth, $dbh ) = @_; $obj->{id} = $dbh->{mysql_insertid}; }, -PARAMS => [ $obj->name() ] ); This lets us access the statement handle & database handle to access other properties such as the last identifier inserted. =cut sub execute_update { my ($self, @args) = @_; my ($sql, $callback, $params, $prepare_params) = rearrange([qw(sql callback params prepare_params)], @args); my $rv = 0; my $sth; eval { my @prepare_params; @prepare_params = @{$prepare_params} if check_ref($prepare_params, 'ARRAY'); $sth = $self->db_connection()->prepare($sql, @prepare_params); $self->_bind_params($sth, $params); $rv = $sth->execute(); $callback->($sth, $self->db_connection()->db_handle()) if $callback; }; my $error = $@; $self->_finish_sth($sth); if($error) { my $params = join ' ', map { (defined $_) ? $_ : q{undef} } @{$params}; throw("Cannot apply sql '${sql}' with params '${params}': ${error}"); } return $rv; } =head2 execute_with_sth() Arg [SQL] : string $sql Arg [CALLBACK] : CodeRef The callback to use for working with the statement handle once returned. This is B<not> a mapper. Arg [PARAMS] : ArrayRef The binding parameters to the SQL statement Arg [PREPARE_PARAMS] : ArrayRef Used to pass parameters to the statement handle prepare method Description : A subrotuine which abstracts resource handling and statement preparing leaving the developer to define how to handle and process the statement. Returntype : Anything you wish to return from the callback Exceptions : If errors occur in the execution of the SQL Status : Stable my $meta_count = $helper->execute_with_sth( -SQL => 'select count(*) from meta where species_id =?', -PARAMS => [1], -CALLBACK => sub { my ($sth) = @_; my $count; $sth->bind_columns( \$count ); while ( $sth->fetch ) { print $count, "\n"; } return $count; } ); Very similar to C<execute()> except this gives you full control over the lifecycle of the statement handle & how you wish to proceed with working with a statement handle. This is for situations where you believe going through the mappers causes too much of a slow-down (since we have to execute a subroutine for every row in order to map it correctly). However please benchmark before adopting this method as it increases the complexity of your code and the mapper slow down only becomes apparent when working with very large numbers of rows. =cut sub execute_with_sth { my ($self, @args) = @_; my ($sql, $callback, $params, $prepare_params) = rearrange([qw(sql callback params prepare_params)], @args); my $sth = $self->_base_execute( $sql, $params, $prepare_params, $callback ); my $result = eval {$callback->($sth)}; my $error = $@; $self->_finish_sth($sth); die $error if $error; return $result; } =pod =head2 batch() Arg [SQL] : string $sql Arg [CALLBACK] : CodeRef The callback to use for working with the statement handle once returned; specify this or -DATA Arg [DATA] : ArrayRef The data to insert; specify this or -CALLBACK Arg [COMMIT_EVERY] : Integer defines the rate at which to issue commits to the DB handle. This is important when working with InnoDB databases since it affects the speed of rollback (larger gaps inbetween commits means more to rollback). Ignored if using the callback version. Arg [PREPARE_PARAMS] : ArrayRef Used to pass parameters to the statement handle prepare method Returntype : integer rows updated Exceptions : If errors occur in the execution of the SQL Status : Stable my $alotofdata = getitfromsomewhere(); $helper->batch( -SQL => 'insert into table (one,two) values(?,?)', -CALLBACk => sub { my ( $sth, $dbc ) = @_; foreach my $data (@alotofdata) { $sth->execute( @{$data} ); } } ); #Or for a 2D array data driven approach $helper->batch( -SQL => 'insert into table (one,two) values(?,?)', -DATA => $alotofdata ); Takes in a sql statement & a code reference. Your SQL is converted into a prepared statement & then given as the first parameter to the closure. The second parameter is the DBH which created the statement. This is intended to let you do mass insertion into a database without the need to re-preparing the same statement. This can be combined with the transaction() code to provide a construct which does batch insertion & is transactionally aware. We can also use data based batch insertions i.e. #Needs to be like: # [ [1,2], [3,4] ] #Or if using the DBI types: # [ [ [ 1, SQL_INTEGER ], [ 2, SQL_INTEGER ] ], # [ [ 3, SQL_INTEGER ], [ 4, SQL_INTEGER ] ] ]; my $alotofdata = getitfromsomewhere(); $helper->batch( -SQL => 'insert into table (one,two) values(?,?)', -DATA => $alotofdata ); This does exactly what the previous example. All batch statements will return the value the callback computes. If you are using the previous example with a data array then the code will return the number affected rows by the query. =cut sub batch { my ($self, @args) = @_; my ($sql, $callback, $data, $commit_every, $prepare_params) = rearrange([qw(sql callback data commit_every prepare_params)], @args); if(! defined $callback && ! defined $data) { throw('You need to define a callback for insertion work or the 2D data array'); } my $result; if(defined $callback) { $result = $self->_callback_batch($sql, $callback, $prepare_params); } else { $result = $self->_data_batch($sql, $data, $commit_every, $prepare_params); } return $result if defined $result; return; } #------- Internal methods my $default_mappers = { first_element => sub { my ($row) = @_; return $row->[0]; }, second_element => sub { my ($row) = @_; return $row->[1]; }, array_ref => sub { my $row = shift @_; return [@{$row}]; } }; sub _mappers { my ($self) = @_; return $default_mappers; } sub _perform_transaction_code { my ($self) = @_; return $self->{_transaction_active}->{$PROCESS_ID} ? 0 : 1; } sub _enable_transaction { my ($self) = @_; my $dbc = $self->db_connection(); my $original_dwi = $dbc->disconnect_when_inactive(); $dbc->disconnect_when_inactive(0); my $ac = $dbc->db_handle()->{'AutoCommit'}; $dbc->db_handle()->{'AutoCommit'} = 0; $self->{_transaction_active}->{$PROCESS_ID} = 1; return ($original_dwi, $ac); } sub _disable_transaction { my ($self, $original_dwi, $ac) = @_; my $dbc = $self->db_connection(); $dbc->db_handle()->{'AutoCommit'} = $ac; $dbc->disconnect_when_inactive($original_dwi); delete $self->{_transaction_active}->{$PROCESS_ID}; return; } sub _bind_params { my ( $self, $sth, $params ) = @_; return if ! defined $params; #Return quickly if we had no data if(! check_ref($params, 'ARRAY')) { throw(qq{The given parameters reference '${params}' is not an ARRAY; wrap in an ArrayRef}); } my $count = 1; foreach my $param (@{$params}) { if ( check_ref($param, 'ARRAY') ) { $sth->bind_param( $count, @{$param} ); } else { $sth->bind_param( $count, $param ); } $count++; } return; } sub _execute { my ( $self, $sql, $callback, $has_return, $use_hashrefs, $params, $prepare_params, $iterator ) = @_; throw('Not given a mapper. _execute() must always been given a CodeRef') unless check_ref($callback, 'CODE'); my $sth = $self->_base_execute($sql, $params, $prepare_params); my $sth_processor; if($use_hashrefs) { $sth_processor = sub { while( my $row = $sth->fetchrow_hashref() ) { my $v = $callback->($row, $sth); return $v if $has_return; } $self->_finish_sth($sth); return undef; }; } else { $sth_processor = sub { while( my $row = $sth->fetchrow_arrayref() ) { my $v = $callback->($row, $sth); return $v if $has_return; } $self->_finish_sth($sth); return undef; }; } my $iter = Bio::EnsEMBL::Utils::Iterator->new($sth_processor); if($has_return) { return $iter if $iterator; return $iter->to_arrayref(); } else { #Force iteration if we had no return since the caller is expecting this $iter->each(sub {}); } return; } sub _base_execute { my ( $self, $sql, $params, $prepare_params) = @_; $params = [] unless $params; my $conn = $self->db_connection; my $sth; eval { my @prepare_params; @prepare_params = @{$prepare_params} if check_ref($prepare_params, 'ARRAY'); $sth = $conn->prepare($sql, @prepare_params); throw("Cannot continue as prepare() did not return a handle with prepare params '@prepare_params'") unless $sth; $self->_bind_params( $sth, $params ); $sth->execute(); }; my $error = $@; if($error) { throw("Cannot run '${sql}' with params '@{$params}' due to error: $error") if $error; } return $sth; } sub _finish_sth { my ($self, $sth) = @_; eval { $sth->finish() if defined $sth; }; warn('Cannot finish() the statement handle: $@') if $@; return; } sub _callback_batch { my ($self, $sql, $callback, $prepare_params) = @_; my $error; my $sth; my $closure_return; eval { my @prepare_params; @prepare_params = @{$prepare_params} if check_ref($prepare_params, 'ARRAY'); $sth = $self->db_connection()->prepare($sql, @prepare_params); $closure_return = $callback->($sth, $self->db_connection()); }; $error = $@; $self->_finish_sth($sth); throw("Problem detected during batch work: $error") if $error; return $closure_return if defined $closure_return; return; } sub _data_batch { my ($self, $sql, $data, $commit_every, $prepare_params) = @_; #Input checks assert_ref($data, 'ARRAY', '-DATA'); my $data_length = scalar(@{$data}); return 0 unless $data_length > 0; my $first_row = $data->[0]; throw('I expect to work with a 2D ArrayRef but this is not one') unless check_ref($first_row, 'ARRAY'); my $callback = sub { my ($sth, $dbc) = @_; my $total_affected = 0; #Iterate over each data point for(my $data_index = 0; $data_index < $data_length; $data_index++) { my $row = $data->[$data_index]; $self->_bind_params($sth, $row); my $affected = eval {$sth->execute()}; if($@) { throw("Problem working with $sql with params @{$row}: $@"); } my $num_affected = ($affected) ? $affected : 0; #Get around DBI's 0E0 $total_affected += $num_affected; #Lets us do a commit once every x rows apart from 0. We also finish #off with a commit if the code told us we were doing it if($commit_every) { if( ($data_index % $commit_every == 0) && $data_index != 0) { $dbc->db_handle()->commit(); } } } #finish off with a commit if the code told us we were doing it if($commit_every) { $dbc->db_handle()->commit(); } return $total_affected || 0; }; return $self->_callback_batch($sql, $callback, $prepare_params) } 1;