Trac Ticket Queries

In addition to reports, Trac provides support for custom ticket queries, used to display lists of tickets meeting a specified set of criteria.

To configure and execute a custom query, switch to the View Tickets module from the navigation bar, and select the Custom Query link.


When you first go to the query page the default filter will display tickets relevant to you:

  • If logged in then all open tickets it will display open tickets assigned to you.
  • If not logged in but you have specified a name or email address in the preferences then it will display all open tickets where your email (or name if email not defined) is in the CC list.
  • If not logged and no name/email defined in the preferences then all open issues are displayed.

Current filters can be removed by clicking the button to the left with the minus sign on the label. New filters are added from the pulldown lists at the bottom corners of the filters box ('And' conditions on the left, 'Or' conditions on the right). Filters with either a text box or a pulldown menu of options can be added multiple times to perform an or of the criteria.

You can use the fields just below the filters box to group the results based on a field, or display the full description for each ticket.

Once you've edited your filters click the Update button to refresh your results.

Clicking on one of the query results will take you to that ticket. You can navigate through the results by clicking the Next Ticket or Previous Ticket links just below the main menu bar, or click the Back to Query link to return to the query page.

You can safely edit any of the tickets and continue to navigate through the results using the Next/Previous/Back to Query links after saving your results. When you return to the query any tickets which were edited will be displayed with italicized text. If one of the tickets was edited such that it no longer matches the query criteria the text will also be greyed. Lastly, if a new ticket matching the query criteria has been created, it will be shown in bold.

The query results can be refreshed and cleared of these status indicators by clicking the Update button again.

Saving Queries

Trac allows you to save the query as a named query accessible from the reports module. To save a query ensure that you have Updated the view and then click the Save query button displayed beneath the results. You can also save references to queries in Wiki content, as described below.

Note: one way to easily build queries like the ones below, you can build and test the queries in the Custom report module and when ready - click Save query. This will build the query string for you. All you need to do is remove the extra line breaks.

You may want to save some queries so that you can come back to them later. You can do this by making a link to the query from any Wiki page.

[query:status=new|assigned|reopened&version=1.0 Active tickets against 1.0]

Which is displayed as:

Active tickets against 1.0

This uses a very simple query language to specify the criteria (see Query Language).

Alternatively, you can copy the query string of a query and paste that into the Wiki link, including the leading ? character:

[query:?status=new&status=assigned&status=reopened&group=owner Assigned tickets by owner]

Which is displayed as:

Assigned tickets by owner

Using the [[TicketQuery]] Macro

The  TicketQuery macro lets you display lists of tickets matching certain criteria anywhere you can use WikiFormatting.



This is displayed as:

No results

Just like the query: wiki links, the parameter of this macro expects a query string formatted according to the rules of the simple ticket query language.

A more compact representation without the ticket summaries is also available:

[[TicketQuery(version=0.6|0.7&resolution=duplicate, compact)]]

This is displayed as:

No results

Finally, if you wish to receive only the number of defects that match the query, use the count parameter.

[[TicketQuery(version=0.6|0.7&resolution=duplicate, count)]]

This is displayed as:


Customizing the table format

You can also customize the columns displayed in the table format (format=table) by using col=<field> - you can specify multiple fields and what order they are displayed by placing pipes (|) between the columns like below:


This is displayed as:

Results (1 - 3 of 958)

Ticket Resolution Summary Owner Reporter
#1319 fixed Unexpected behaviour of dynamic extent variable Ernst
#1318 fixed (require 'cocoa) doesn't work with lisp built on OS X 10.11 rme rme
#1317 fixed LOAD-TIME-VALUE constantness issue gb ivan4th

Full rows

In table format you can also have full rows by using rows=<field> like below:


This is displayed as:

Results (1 - 3 of 958)

Ticket Resolution Summary Owner Reporter
#1319 fixed Unexpected behaviour of dynamic extent variable Ernst

Reported by Ernst, 6 weeks ago.


Using Clozure Common Lisp-Version 1.11-RC1-r16620 (DarwinX8664) to define functions within function groups, the functions defined must have unique names that can be traced back to the group in which they were defined. In the code snippet below the macro defop-environment sets up a name as a special variable that is used in defop, partly to get the intended name, partly to ensure defop was used within a defop-environment. The code below is as short as I could make it. It works in Clisp and ABCL but does not work in CCL (or SBCL for that matter).

(unless (find-package :wondering)
  (defpackage wondering
    (:use :cl)))

(in-package :wondering)

(defvar *environments*
  (make-hash-table :test 'eq))

(let ((defop-prefix "OP-FN%"))

  (defmacro defop-environment (name &rest defops)
    "(defop-environment <name> &rest <defops>)
 Define a new operator environment with name <name> and operators
 defined by <defops>."
    (let ((new-table (make-hash-table :test 'eq)))
      `(let ((*name-prefix* ,(concatenate 'string defop-prefix (string name) "%"))
	     (*operator-table* ,new-table))
	 (declare (special *environments* *operator-table* *name-prefix*))
	 (format *trace-output* "Before defop *name-prefix* ~S~%" *name-prefix*)
	 (setf (gethash ',name *environments*) *operator-table*)

  (defmacro defop (name lambda-list &body body)
    "Define an operator.  Error unless used within a
    (declare (special *name-prefix*))
    (format *trace-output* "(defwalk ~A ~A~%  ~{~S~})~%"name lambda-list body)
    (unless (and (boundp '*name-prefix*) (stringp *name-prefix*))
      (error "Only use defop inside a defop-environmemt."))
    (let ((fname (values (intern
			  (concatenate 'string *name-prefix*
				       (string (if (symbolp name) name (car name))))
      (format *trace-output* "In defop *name-prefix* ~S, fname: ~S~%"
	      *name-prefix* fname)
	   (declare (special *operator-table*))
	 (defun ,fname ,lambda-list ,@body)
	 (setf (gethash ',name *operator-table*) ',fname)

Evaluating (defop-environment env0 (defop fn0 (x y) (fn x y))) directly makes CCL unhappy:

Only use defop inside a defop-environmemt.

[Condition of type SIMPLE-ERROR]

Could you please look into this? A workaround is also very welcome.

Thank you very much,

Ernst van Waning

#1318 fixed (require 'cocoa) doesn't work with lisp built on OS X 10.11 rme rme

Reported by rme, 7 weeks ago.


After doing (rebuild-ccl :full t) on an OS X 10.11 system, (require 'cocoa) will fail by crashing into the lisp kernel debugger. A slightly simpler test case is (require 'objc-support), but that doesn't fully exercise things.

As I mentioned earlier today, I believe that this is (at least in part) because Objective-C isa pointers are not necessarily pointers any more.

Starting the lisp with the environment variable OBJC_DISABLE_NONPOINTER_ISA set to YES will enable the (require 'cocoa) to succeed.


(I found this out on

#1317 fixed LOAD-TIME-VALUE constantness issue gb ivan4th

Reported by ivan4th, 2 months ago.


The following code works fine in ccl-1.9:

(in-package :cl-user)

(defun abc ()
  (let* ((body
           '(let ((cache (load-time-value (cons (cons nil nil) nil))))
             (let ((fn #'(lambda () t)))
               (setf (car cache) (cons fn t))
               (values (funcall (caar cache))))))
         (thunk (compile nil `(lambda () ,body))))
    (disassemble thunk)
    (funcall thunk)))

(print (abc))

but fails with "Error of type CCL::INVALID-MEMORY-ACCESS: Fault during read of memory address #x0" error on (funcall (caar cache)) form in trunk and ccl-1.10.

The code was distilled from a piece of code utilizing LOAD-TIME-VALUE cache pattern as in (I used it in a compiler macro)

The problem can be currently worked around by commenting out (multiple-value-bind ...) form in (def-acode-rewrite acode-rewrite-cxr ...) in compiler/acode-rewrite.lisp:

Disassembly output before applying the workaround. Looks like the compiler treats (load-time-value (cons (cons nil nil) nil)) as a read-only constant value that cannot be changed:

    (recover-fn-from-rip)                   ;     [7]
    (testl (% nargs) (% nargs))             ;    [14]
    (jne L149)                              ;    [16]
    (pushq (% rbp))                         ;    [22]
    (movq (% rsp) (% rbp))                  ;    [23]
    (movq (@ '#<Anonymous Function #x302000B53A9F> (% fn)) (% arg_z)) ;    [26]
    (pushq (% arg_z))                       ;    [33]
    (movq (@ '((NIL)) (% fn)) (% arg_y))    ;    [34]
    (pushq (% arg_y))                       ;    [41]
    (movq (@ -8 (% rbp)) (% arg_y))         ;    [42]
    (movl ($ #x1302E) (% arg_z.l))          ;    [46]
    (subq ($ 13) (@ (% gs) #xD8))           ;    [51]
    (movq (@ (% gs) #xD8) (% temp0))        ;    [61]
    (cmpq (@ (% gs) #xE0) (% temp0))        ;    [70]
    (ja L76)                                ;    [79]
    (uuo-alloc)                             ;    [81]
    (andb ($ #xF0) (@ (% gs) #xD8))         ;    [83]
    (movq (% arg_y) (@ 5 (% temp0)))        ;    [92]
    (movq (% arg_z) (@ -3 (% temp0)))       ;    [96]
    (movq (% temp0) (% arg_z))              ;   [100]
    (popq (% arg_y))                        ;   [103]
    (lisp-call  (@ .SPRPLACA))              ;   [109]
    (recover-fn-from-rip)                   ;   [116]
    (xorl (% nargs) (% nargs))              ;   [123]
    (movq (@ 'NIL (% fn)) (% temp0))        ;   [125]
    (lisp-call (@ 10 (% temp0)))            ;   [137]
    (recover-fn-from-rip)                   ;   [140]
    (leaveq)                                ;   [147]
    (retq)                                  ;   [148]

Disassembly output after applying the workaround:

    (recover-fn-from-rip)                   ;     [7]
    (testl (% nargs) (% nargs))             ;    [14]
    (jne L193)                              ;    [16]
    (pushq (% rbp))                         ;    [22]
    (movq (% rsp) (% rbp))                  ;    [23]
    (movq (@ '#<Anonymous Function #x302000B0A71F> (% fn)) (% arg_z)) ;    [26]
    (pushq (% arg_z))                       ;    [33]
    (movq (@ '((NIL)) (% fn)) (% arg_y))    ;    [34]
    (pushq (% arg_y))                       ;    [41]
    (movq (@ -8 (% rbp)) (% arg_y))         ;    [42]
    (movl ($ #x1302E) (% arg_z.l))          ;    [46]
    (subq ($ 13) (@ (% gs) #xD8))           ;    [51]
    (movq (@ (% gs) #xD8) (% temp0))        ;    [61]
    (cmpq (@ (% gs) #xE0) (% temp0))        ;    [70]
    (ja L76)                                ;    [79]
    (uuo-alloc)                             ;    [81]
    (andb ($ #xF0) (@ (% gs) #xD8))         ;    [83]
    (movq (% arg_y) (@ 5 (% temp0)))        ;    [92]
    (movq (% arg_z) (@ -3 (% temp0)))       ;    [96]
    (movq (% temp0) (% arg_z))              ;   [100]
    (popq (% arg_y))                        ;   [103]
    (lisp-call  (@ .SPRPLACA))              ;   [109]
    (recover-fn-from-rip)                   ;   [116]
    (movq (@ '((NIL)) (% fn)) (% arg_z))    ;   [123]
    (movq (@ 5 (% arg_z)) (% arg_z))        ;   [130]
    (movl (% arg_z.l) (% imm0.l))           ;   [134]
    (andl ($ 7) (% imm0.l))                 ;   [136]
    (cmpl ($ 3) (% imm0.l))                 ;   [139]
    (jne L201)                              ;   [142]
    (movq (@ 5 (% arg_z)) (% arg_z))        ;   [144]
    (pushq (% arg_z))                       ;   [148]
    (movq (@ -16 (% rbp)) (% temp0))        ;   [149]
    (xorl (% nargs) (% nargs))              ;   [153]
    (movl (% temp0.l) (% imm0.l))           ;   [155]
    (andl ($ 15) (% imm0.l))                ;   [157]
    (cmpl ($ 14) (% imm0.l))                ;   [160]
    (cmovgq (% temp0) (% temp1))            ;   [163]
    (jl L209)                               ;   [167]
    (cmoveq (@ 10 (% temp0)) (% temp1))     ;   [169]
    (lisp-call (% temp1))                   ;   [177]
    (recover-fn-from-rip)                   ;   [180]
    (addq ($ 8) (% rsp))                    ;   [187]
    (leaveq)                                ;   [191]
    (retq)                                  ;   [192]
    (uuo-error-wrong-number-of-args)        ;   [200]
    (uuo-error-reg-not-list (% arg_z))      ;   [208]
    (uuo-error-not-callable)                ;   [216]

Query Language

query: TracLinks and the [[TicketQuery]] macro both use a mini “query language” for specifying query filters. Basically, the filters are separated by ampersands (&). Each filter then consists of the ticket field name, an operator, and one or more values. More than one value are separated by a pipe (|), meaning that the filter matches any of the values. To include a literal & or | in a value, escape the character with a backslash (\).

The available operators are:

= the field content exactly matches one of the values
~= the field content contains one or more of the values
^= the field content starts with one of the values
$= the field content ends with one of the values

All of these operators can also be negated:

!= the field content matches none of the values
!~= the field content does not contain any of the values
!^= the field content does not start with any of the values
!$= the field content does not end with any of the values

The date fields created and modified can be constrained by using the = operator and specifying a value containing two dates separated by two dots (..). Either end of the date range can be left empty, meaning that the corresponding end of the range is open. The date parser understands a few natural date specifications like "3 weeks ago", "last month" and "now", as well as Bugzilla-style date specifications like "1d", "2w", "3m" or "4y" for 1 day, 2 weeks, 3 months and 4 years, respectively. Spaces in date specifications can be left out to avoid having to quote the query string.

created=2007-01-01..2008-01-01 query tickets created in 2007
created=lastmonth..thismonth query tickets created during the previous month
modified=1weekago.. query tickets that have been modified in the last week
modified=..30daysago query tickets that have been inactive for the last 30 days

See also: TracTickets, TracReports, TracGuide