- Publicity: Public Only All
acs-db-12-procs.tcl
Low level interface for defining interface stubs to application specific DB functions.
This file defines the following Objects and Classes: ::acs::db::postgresql, ::acs::db::nsdb-oracle, ::acs::db::SQL, ::acs::db::nsdbi-postgresql, ::acs::db::oracle, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::nsdb-oracle, ::acs::db::nsdbi-postgresql, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::SQL, ::acs::db::nsdb-oracle, ::acs::db::nsdbi-postgresql, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::oracle, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql, ::acs::db::postgresql
- Location:
- packages/acs-tcl/tcl/acs-db-12-procs.tcl
- Created:
- 2022-02-07
- Author:
- Gustaf Neumann
Procedures in this file
- Class ::acs::db::SQL (public)
- Class ::acs::db::nsdb-oracle (public)
- Class ::acs::db::nsdbi-postgresql (public)
- Class ::acs::db::oracle (public)
- Class ::acs::db::postgresql (public)
- acs::db::SQL instproc create_db_function_interface (public)
- acs::db::oracle instproc get_all_package_functions (public)
- acs::db::oracle instproc map_function_name (public)
- acs::db::postgresql instproc get_all_package_functions (public)
- acs::db::postgresql instproc map_function_name (public)
Detailed information
Class ::acs::db::SQL (public)
::nx::Class ::acs::db::SQL
Generic superclass for all SQL dialects.
- Testcases:
- No testcase defined.
Class ::acs::db::nsdb-oracle (public)
::nx::Class ::acs::db::nsdb-oracle
Oracle backend for nsdb driver
- Testcases:
- No testcase defined.
Class ::acs::db::nsdbi-postgresql (public)
::nx::Class ::acs::db::nsdbi-postgresql
PostgreSQL backend for nsdbi driver
- Testcases:
- No testcase defined.
Class ::acs::db::oracle (public)
::nx::Class ::acs::db::oracle
Support class for backend based on Oracle, i.e., the Oracle dialect of SQL).. This class can be used with the nsdb and the nsdbi drivers of NaviServer.
- Testcases:
- No testcase defined.
Class ::acs::db::postgresql (public)
::nx::Class ::acs::db::postgresql
Support class for backend based on PostgreSQL, i.e., the PostgreSQL dialect of SQL). This class can be used with the nsdb and the nsdbi drivers of NaviServer.
- Testcases:
- No testcase defined.
acs::db::SQL method create_db_function_interface (public)
<instance of acs::db::SQL> create_db_function_interface \ [ -dbn dbn ] [ -match match ] [ -verbose ]
Obtain all function definitions from the DB and turn these into callable Tcl methods like the following examples: ::acs::dc call content_type drop_type -content_type ::xowiki::FormInstance ::acs::dc call content_folder delete -folder_id $root_folder_id -cascade_p 1 In the Oracle-biased terminology such calls are defined in terms of a "package_name" and an "object_name": ::acs::dc call /package_name/ /object_name/ ?/args/?
- Switches:
- -dbn (optional)
- -match (optional, defaults to
"*"
)- -verbose (optional)
- Testcases:
- No testcase defined.
acs::db::oracle method get_all_package_functions (public)
<instance of acs::db::oracle> get_all_package_functions \ [ -dbn dbn ]
Get all package functions (package name, object name) from Oracle system catalogs. The resulting list contains entries of the form: sqlpackage object {argument_names ... types ... defaulted ... result_type ....} Note that the method processes only the functions and procedures created by the current USER, which is in the default configuration the user "OPENACS". This way, we cover only these functions defined by OpenACS. This has a similar functionality like the "function_args" in PostgreSQL.
- Switches:
- -dbn (optional)
- Testcases:
- No testcase defined.
acs::db::oracle method map_function_name (public)
<instance of acs::db::oracle> map_function_name sql
Replace calls to function names in provided SQL (replace "package__object" by "package.object").
- Parameters:
- sql (required)
- Testcases:
- No testcase defined.
acs::db::postgresql method get_all_package_functions (public)
<instance of acs::db::postgresql> get_all_package_functions \ [ -dbn dbn ]
PostgreSQL version of obtaining information about the procedures and functions stored in the DB. For PostgreSQL, we keep this in the table "function_args". The information from "acs_function_args" defines, for which functions we want to create an interface. The information is completed with the definitions from the system catalog of PostgreSQL. The resulting list contains entries of the form: sqlpackage object {argument_names ... types ... defaulted ... defaults result_type ....} Currently, "defaults" are only available for PostgreSQL
- Switches:
- -dbn (optional)
- Testcases:
- No testcase defined.
acs::db::postgresql method map_function_name (public)
<instance of acs::db::postgresql> map_function_name sql
Replace calls to function names in provided SQL (dummy function for PostgreSQL)
- Parameters:
- sql (required)
- Testcases:
- No testcase defined.
Content File Source
ad_library { Low level interface for defining interface stubs to application specific DB functions. @author Gustaf Neumann @creation-date 2022-02-07 } namespace eval ::acs {} namespace eval ::acs::db {} namespace eval ::acs::db::sql {} namespace eval ::acs::db { # # Interface for directly calling SQL functions and procedures. # # # Definition of mapping from DB types to tcl types in the argument lists # ::acs::db::postgresql method typemap {} { return {integer int32 bigint integer} } ::acs::db::oracle method typemap {} { return {NUMBER int32} } # # Definition of expected/handled result types as reported by the # database management systems. # ::acs::db::postgresql method expected_result_types {} { return {integer boolean text interval character "character varying" record} } ::acs::db::oracle method expected_result_types {} { # Be aware: DATE is just a date (without a time part), e.g. # # ::acs::dc call content_item get_publish_date -item_id ... # return {CHAR NUMBER VARCHAR2 DATE TABLE} } # # Mapping of SQL "package" name and "object" name to the names as # stored in the database. We have several SQL functions defined # via function_args, that do not belong to a 'package', having an # empty 'package_name'. # # Examples: # acs_message_get_tree_sortkey # acs_object_type_get_tree_sortkey # cmp_pg_version # column_exists # ... # ::acs::db::postgresql method sql_function_name {package_name object_name} { if {${package_name} ne ""} { return ${package_name}__${object_name} } else { return ${object_name} } } ::acs::db::oracle method sql_function_name {package_name object_name} { return ${package_name}.${object_name} } # # Helper for replacing different SQL notations for calling # database functions. # ::acs::db::postgresql public method map_function_name {sql} { # Replace calls to function names in provided SQL # (dummy function for PostgreSQL) return $sql } ::acs::db::oracle public method map_function_name {sql} { # Replace calls to function names in provided SQL # (replace "package__object" by "package.object"). return [string map [list "__" .] $sql] } # # Generator function # ::acs::db::SQL public method create_db_function_interface { {-dbn ""} {-match "*"} -verbose:switch } { # # Obtain all function definitions from the DB and turn these into # callable Tcl methods like the following examples: # # ::acs::dc call content_type drop_type -content_type ::xowiki::FormInstance # ::acs::dc call content_folder delete -folder_id $root_folder_id -cascade_p 1 # # In the Oracle-biased terminology such calls are defined in # terms of a "package_name" and an "object_name": # # ::acs::dc call /package_name/ /object_name/ ?/args/? # ns_log notice "Creating DB function interface" \ "(driver '[::acs::dc cget -driver]', backend '[::acs::dc cget -backend]')" set db_definitions "" foreach item [:get_all_package_functions -dbn $dbn] { lassign $item package_name object_name sql_info #ns_log notice "get_all_package_functions returns ($package_name $object_name)" if {[string match "*TRG" [string toupper $object_name]]} { # no need to provide interface to trigger functions continue } set package_name [string tolower $package_name] set object_name [string tolower $object_name] set key ${package_name}.${object_name} if {$match ne "*" && ![string match $match $key]} { continue } set nr_args [llength [dict get $sql_info argument_names]] if { [llength [dict get $sql_info types]] != $nr_args || [llength [dict get $sql_info defaulted]] != $nr_args || [llength [dict get $sql_info defaults]] != $nr_args } { ns_log warning "Inconsistent definition skipped: $key" \ "argument_names $nr_args" \ "types [llength [dict get $sql_info types]]" \ "defaulted [llength [dict get $sql_info defaulted]]" \ "defaults [llength [dict get $sql_info defaults]]\n" \ "names [dict get $sql_info argument_names]\n" \ "types [dict get $sql_info types]\n" \ "defaulted [dict get $sql_info defaulted]\n" \ "defaults [dict get $sql_info defaults]" continue } ns_log notice "generate stub for '$key'" if {![dict exists $db_definitions $key]} { dict set db_definitions $key package_name $package_name dict set db_definitions $key object_name $object_name dict set db_definitions $key sql_info $sql_info } else { # # We have multiple definitions. Take the definition # with the longest argument list. # set old_sql_info [dict get $db_definitions $key sql_info] if {[llength [dict get $old_sql_info argument_names] < [llength dict get $sql_info argument_names]]} { dict set db_definitions $key sql_info $sql_info } } } foreach {key v} $db_definitions { dict with v { :dbfunction_to_tcl -verbose=$verbose \ $package_name $object_name $sql_info } } } ::acs::db::SQL method dbproc_arg { {-name:required} {-type:required} {-required:switch} {-allow_empty:switch} } { set props {} if {[dict exists [:typemap] $type]} { lappend props [dict get [:typemap] $type] } if {$required} { lappend props required } elseif {$allow_empty} { # one is not allowed to use both, "allow_empty" and "required" lappend props 0..1 } if {[llength $props] == 0} { return "-$name" } else { return -$name:[join $props ,] } } ::acs::db::oracle method db_proc_opt_arg_spec {-name -type -default} { return [:dbproc_arg -name $name -type $type] } ::acs::db::postgresql method db_proc_opt_arg_spec {-name -type -default} { # Handling of default values: # - $optional eq "N", default ignored, the attribute is required # - default value different from NULL --> make it default # - otherwise: non-required argument, bindvars e.g. empty it to null # if {[string tolower $default] eq "null"} { set default_value "" set allowedEmptyOpt "-allow_empty" } else { set default_value $default set allowedEmptyOpt "" } return [list [:dbproc_arg -name $name -type $type {*}$allowedEmptyOpt] $default_value] } ::acs::db::SQL method build_function_argument_list {dict} { # # Return argument list as used for procs and # methods. Different backend provide data in different forms # (types, meta model data), so we use in the case of Oracle a # dict with the assembled data and we normalize to common # grounds here. # set result {} #ns_log notice "build_function_argument_list $dict" foreach \ argument_name [dict get $dict argument_names] \ type [dict get $dict types] \ optional [dict get $dict defaulted] \ default [dict get $dict defaults] \ { set arg_name [expr {$argument_name eq "DBN" ? "DBN" : [string tolower $argument_name]}] if {$optional eq "N"} { set arg [:dbproc_arg -name $arg_name -type $type -required] } else { set arg [:db_proc_opt_arg_spec -name $arg_name -type $type -default $default] } lappend result $arg } # ns_log notice "build_function_argument_list: $result" return $result } ::acs::db::postgresql method argument_name_match { -key -function_arg_names -db_names } { # # Does the name from function_args match the names obtained # from PostgreSQL? # set success 1 foreach function_arg_name $function_arg_names db_name $db_names { if {$db_name ne "" && $function_arg_name ne $db_name && ![string match *_$function_arg_name $db_name] } { set success 0 #ns_log notice ===== argument match $key function_arg_name '$function_arg_name' does not match name from db '$db_name' \n \ function_arg_names <$function_arg_names> db_names <$db_names> break } } #ns_log notice ===== argument match $key function_arg_names '$function_arg_names' db '$db_names' => $success return $success } ::acs::db::postgresql public method get_all_package_functions {{-dbn ""}} { # # PostgreSQL version of obtaining information about the # procedures and functions stored in the DB. For PostgreSQL, # we keep this in the table "function_args". # # The information from "acs_function_args" defines, for which # functions we want to create an interface. The information is # completed with the definitions from the system catalog of # PostgreSQL. # # The resulting list contains entries of the form: # sqlpackage object {argument_names ... types ... defaulted ... defaults result_type ....} # # Currently, "defaults" are only available for PostgreSQL # if {![db_table_exists acs_function_args]} { ns_log notice "acs_function_args is not (yet) defined, don't create stub functions now" return {} } set definitions [::acs::dc list_of_lists -dbn $dbn dbqd..get_all_package_functions { select function, arg_name, arg_default from acs_function_args order by function, arg_seq }] set db_definitions {} set last_function "" set argument_names {}; set defaulted {}; set defaults {} foreach definition $definitions { lassign $definition function arg_name default if {$last_function ne "" && $last_function ne $function} { dict set db_definitions $last_function \ [list argument_names $argument_names defaulted $defaulted defaults $defaults] set argument_names {}; set defaulted {}; set defaults {} } lappend argument_names $arg_name lappend defaulted [expr {$default eq "" ? "N" : "Y"}] lappend defaults $default set last_function $function } dict set db_definitions $last_function \ [list argument_names $argument_names defaulted $defaulted defaults $defaults] ns_log notice "loaded [dict size $db_definitions] definitions from function args" # # Get all package functions (package name, object name, # argument types, return type) from PostgreSQL system # catalogs. # set pg_data [::acs::dc list_of_lists -dbn $dbn dbqd..[current method] { select distinct af.function, substring(af.function from 0 for position('__' in af.function)) as package_name, case when position('__' in af.function)>0 then substring(af.function from position('__' in af.function)+2) else af.function end as object_name, array_to_string(proargnames, ' '), oidvectortypes(proargtypes), format_type(prorettype, NULL) from pg_proc, acs_function_args af where proname = lower(af.function) }] foreach item $pg_data { lassign $item key package_name object_name proargnames argument_types result_type #ns_log notice "got from db" key $key package_name $package_name object_name $object_name set argument_types [lmap argument_type [split $argument_types ,] { string trim $argument_type }] set function_arg_names [string tolower [dict get $db_definitions $key argument_names]] set nr_defined_args [llength $function_arg_names] if {[llength $argument_types] < $nr_defined_args} { # # This might be a definition with fewer arguments; we # aim always for the definition with the most # arguments. # #ns_log notice "key $key has argument_types [llength $argument_types] but this is less than nr_defined_args $nr_defined_args" continue } elseif {[llength $argument_types] < $nr_defined_args} { ns_log warning "generate_stubs: $key has less arguments in " \ "function_definitions ($nr_defined_args) than in DB [llength $argument_types]" ns_log notice ".... have already types [dict exists $db_definitions $key types]" continue } if {$proargnames eq ""} { ns_log warning "$key /$nr_defined_args has no argument names in DB. " \ "Names should match <$function_arg_names>" } elseif {[llength $proargnames] > $nr_defined_args} { # # In case a function returns tuples from the DB, the # name of the attributes of these tuples are also # returned in proargnames from PostgreSQL. Just take # the names, for which we have types. # set proargnames [lrange $proargnames 0 $nr_defined_args-1] #ns_log notice $key FIXED proargnames <$proargnames> } # if {$key eq "CONTENT_ITEM__TRASH_RECOVER_SINGLE_ITEM"} { # ns_log notice "$key /$nr_defined_args, package_name: '$package_name'" \ # function_arg_names <$function_arg_names> \n \ # db_names <$proargnames> \n \ # db_types <$argument_types> # } if {![:argument_name_match \ -key $key \ -function_arg_names $function_arg_names \ -db_names $proargnames]} { continue } if {[dict exists $db_definitions $key types]} { ns_log warning "$key /$nr_defined_args, package_name: '$package_name' ignoring duplicate function" \ function_arg_names <$function_arg_names> \n \ db_names <$proargnames> \n \ db_types <$argument_types> \ have already <[dict get $db_definitions $key types]> continue } dict set db_definitions $key result_type $result_type dict set db_definitions $key types $argument_types dict set db_definitions $key package_name $package_name dict set db_definitions $key object_name $object_name } return [lmap {key entry} $db_definitions { if {![dict exists $entry package_name]} { # # When we have an entry in acs_function_args, but no # such function in the database, complain. # ns_log warning "missing DB for $key: <$entry>" continue } list [dict get $entry package_name] [dict get $entry object_name] $entry }] return $db_definitions } ::acs::db::oracle public method get_all_package_functions {{-dbn ""}} { # # Get all package functions (package name, object name) from Oracle # system catalogs. The resulting list contains entries of the form: # # sqlpackage object {argument_names ... types ... defaulted ... result_type ....} # # Note that the method processes only the functions and # procedures created by the current USER, which is in the # default configuration the user "OPENACS". This way, we cover # only these functions defined by OpenACS. This has a similar # functionality like the "function_args" in PostgreSQL. # set last_func "" set result {} set d {argument_names "" types "" defaulted "" defaults "" result_type ""} foreach tuple [:list_of_lists -dbn $dbn dbqd..[current method] { select package_name, object_name, position, argument_name, data_type, defaulted from all_arguments where package_name is not null and owner = USER order by package_name, object_name, position }] { lassign $tuple package_name object_name position argument_name data_type defaulted set func $package_name.$object_name if {$func ne $last_func && $last_func ne ""} { lappend result [list [dict get $d package_name] [dict get $d object_name] $d] set last_func $func set d {argument_names "" types "" defaulted "" defaults "" result_type ""} } #ns_log notice "$func ($last_func): $position $argument_name $data_type" dict set d package_name $package_name dict set d object_name $object_name set last_func $func if {$position == 0} { dict set d result_type $data_type } else { dict lappend d types $data_type dict lappend d argument_names $argument_name dict lappend d defaulted $defaulted dict lappend d defaults [expr {$defaulted eq "Y" ? "null" : ""} ] } } if {$last_func ne ""} { lappend result [list [dict get $d package_name] [dict get $d object_name] $d] } return $result } ########################################################################## # # Lower level support functions # ########################################################################## ::acs::db::SQL method dbfunction_to_tcl {-verbose:switch package_name object_name sql_info} { # # This method compiles a stored procedure into proc # using a classic nonpositional argument style interface. # if {$sql_info eq ""} { return } # # Probably, we have to adjust the result type handling for Oracle. # set result_type [dict get $sql_info result_type] if {$result_type ne "" && $result_type ni [:expected_result_types]} { ns_log notice "??? ${package_name}__$object_name has unhandled result: $result_type" #return } set nonposarg_list [list [list -dbn ""]] lappend nonposarg_list {*}[:build_function_argument_list $sql_info] set body [:build_stub_body $package_name $object_name $sql_info] # # Define the methods based on the backend. Hopefully this is # sufficient, and we do not need definitions based on the # driver as well. # set body_prefix "\n # Automatically generated method\n" set cmd [list ::acs::db::${:driver}-${:backend} public method \ "call ${package_name} $object_name" \ $nonposarg_list \ "$body_prefix$body" \ ] if {$verbose} { ns_log notice FINAL=$cmd } {*}$cmd } ::acs::db::SQL method dbfunction_argument_value {-name -type} { if {[dict exists [:typemap] $type]} { string cat CAST(: [string tolower $name] " AS " $type ) } else { string cat : [string tolower $name] } } # # In some cases, we need locks on SQL select statements, when the # select updates tuples, e.g., via a function. This is required at # least in PostgreSQL. # ::acs::db::postgresql eval { set :statement_suffix(content_item,set_live_revision) "FOR NO KEY UPDATE" set :statement_suffix(content_item,del) "FOR UPDATE" set :statement_suffix(content_item,new) "FOR UPDATE" } ::acs::db::postgresql method psql_statement_suffix {package_name object_name} { set key :statement_suffix($package_name,$object_name) if {[::acs::db::${:backend} eval [list info exists $key]]} { return [::acs::db::${:backend} eval [list set $key]] } return "" } # # The construction of the SQL statement is specific to PostgreSQL, # the final command to be executed in Tcl is specific to the driver. # # # nsdb-postgresql interface method generation: # ::acs::db::nsdb-postgresql method build_psql_body {tcl sql result_type} { if {$result_type eq "record"} { return [ns_trim -delimiter | [string map [list @SQL@ $sql] { | set result {}; set start_time [expr {[clock clicks -microseconds]/1000.0}] | db_with_handle -dbn $dbn __DB { | set s [ns_pg_bind select $__DB {select r.* from @SQL@ as r}] | while {[ns_db getrow $__DB $s]} {lappend result [ns_set values $s]} | } | ds_collect_db_call $dbn call "" "@SQL@" $start_time 0 "" | ns_set free $s | return $result }]] } else { return [ns_trim -delimiter | [string map [list @SQL@ $sql] { | db_with_handle -dbn $dbn __DB { | set s [ns_pg_bind 0or1row $__DB {select @SQL@}] | return [ns_set value $s 0] | } }]] } } # # nsdbi-postgresql interface method generation: # ::acs::db::nsdbi-postgresql method build_psql_body {tcl sql result_type} { if {$result_type eq "record"} { return [string map [list @SQL@ $sql] [ns_trim -delimiter | { | return [::dbi_rows -result lists {*}[expr {$dbn ne "" ? [list -db $dbn] : ""}] { | select r.* from @SQL@ as r | }] }]] } else { return [ns_trim -delimiter | [string map [list @SQL@ $sql] { | set __result "" | ::dbi_0or1row -autonull {*}[expr {$dbn ne "" ? [list -db $dbn] : ""}] { | select @SQL@ as __result | } | return $__result }]] } } # # :nsdb-oracle interface method generation: # ::acs::db::nsdb-oracle method build_psql_body {tcl sql result_type} { if {$result_type eq ""} { # # Call an SQL procedure. # set sql [subst {BEGIN $sql; END;}] set sql_cmd [subst {ns_ora dml \$__DB \[subst {$sql}\]}] } elseif {$result_type eq "TABLE"} { # # Function returning a table # return [ns_trim -delimiter | [string map [list @SQL@ $sql @TCL@ $tcl] { | @TCL@; set result {}; set start_time [expr {[clock clicks -microseconds]/1000.0}] | db_with_handle -dbn $dbn __DB { | set s [ns_ora select $__DB [subst {select * from @SQL@}]] | while {[ns_db getrow $__DB $s]} {lappend result [ns_set values $s]} | } | ds_collect_db_call $dbn call "" "@SQL@" $start_time 0 "" | ns_set free $s | return $result }]] } else { # # Call an SQL function returning a scalar. # set sql [subst {BEGIN :1 := $sql; END;}] set sql_cmd [subst {ns_ora exec_plsql_bind \$__DB \[subst {$sql}\] 1 {}}] } return [ns_trim -delimiter | [subst { |$tcl |db_with_handle -dbn \$dbn __DB { | ns_log notice "Oracle: $sql_cmd" | return \[ $sql_cmd \] |} }]] } ::acs::db::postgresql method sql_function_argument_list {sql_info} { # # Build interface based on bind vars for PostgreSQL # set bind_var_names [lmap \ argument_name [dict get $sql_info argument_names] \ type [dict get $sql_info types] { :dbfunction_argument_value -name $argument_name -type $type }] return [list tcl "" sql_arguments [join $bind_var_names ,]] } ::acs::db::oracle method sql_function_argument_list {sql_info} { # # Build interface based on bind vars and named parameters Oracle # set optional_parameters {} set arguments "" foreach \ argument_name [dict get $sql_info argument_names] \ defaulted [dict get $sql_info defaulted] \ type [dict get $sql_info types] \ { set argument_name [string tolower $argument_name] set argument_value [:dbfunction_argument_value -name $argument_name -type $type] if {$defaulted eq "Y"} { lappend optional_parameters $argument_name } else { lappend arguments "$argument_name => :$argument_value" } } # # We have to check at runtime if the arguments where provided # Missing: casts for optional parameters if {[llength $optional_parameters] > 0} { set tcl_code [ns_trim -delimiter | [string map [list @optional_parameters@ $optional_parameters] { |set __optional_parameters "" |foreach __var {@optional_parameters@} { | if {[info exists $__var]} { append __optional_parameters ",$__var => :$__var" } |} }]] set arguments [join $arguments ,]\$__optional_parameters } else { set tcl_code "" set arguments [join $arguments ,] } return [list tcl $tcl_code sql_arguments $arguments] } ::acs::db::SQL method build_stub_body {package_name object_name sql_info} { # # Generate stub for calling the DB function. # set sql_function_name [:sql_function_name ${package_name} ${object_name}] #ns_log notice "... $sql_function_name -> [dict get $sql_info result_type]" if {$sql_info eq ""} { ns_log notice "... ignore definition: $sql_function_name" return "" } set arg_info [:sql_function_argument_list $sql_info] set type_comment [subst { \# TYPES: [dict get $sql_info types]\n}] return $type_comment[:build_psql_body \ [dict get $arg_info tcl] \ "${sql_function_name}([dict get $arg_info sql_arguments])" \ [dict get $sql_info result_type]] } } # # Check, whether we have to regenerate the database function interface. # # - During initial setup, there are no db-functions, so nothing has to # be done. # # - During regular startup of the server, the generation of the stub # interface happens in the *init procs (hopefully this is always # sufficient, but seems so) # # - During reloads of acs-db-*-procs, the base classes are interface # objects are recreated and cleaned up from all prior definitions, # which means that in this situations, we have to regeneate the # interface. # # - One might call manually the regeneration, when database functions # have been altered and no restart is desired. # ns_log notice "DB function interface: epoch [ns_ictl epoch]" if { [ns_ictl epoch] > 0} { set interfaceObjs [::acs::db::Driver info instances -closure] ns_log notice "DB function interface: existing interface objs $interfaceObjs" foreach interfaceObj $interfaceObjs { set hasCallMethod [llength [$interfaceObj info lookup method call]] ns_log notice "DB function interface: $interfaceObj has CALL method: $hasCallMethod" if {!$hasCallMethod} { ns_log notice "DB function interface: ..... will create interface for $interfaceObj" $interfaceObj create_db_function_interface ;# -verbose ;# -match test.* } } } # Local variables: # mode: tcl # tcl-indent-level: 4 # indent-tabs-mode: nil # eval: (setq tcl-type-alist (remove* "method" tcl-type-alist :test 'equal :key 'car)) # End: