On this page:
3.1 Instrumentation and Profiling
instrumenting-enabled
profiling-enabled
profiling-record-enabled
output-profile-results
get-profile-results
profile-paths-enabled
clear-profile-results
3.2 Coverage
coverage-counts-enabled
execute-counts-enabled
get-coverage
get-execute-counts
annotate-covered-file
annotate-executed-file
test-coverage-info
3.3 Other Errortrace Bindings
print-error-trace
error-context-display-depth

3 Using Errortrace

 (require errortrace)

See Quick Instructions for information on starting with errortrace. This chapter provides information on the configuration of errortrace after it is loaded and installed.

Don’t import errortrace into another module and expect it to work on that module. Instead, the errortrace module is meant to be invoked from the top-level (as described in Quick Instructions) so it can install handlers. The functions documented in this chapter then can be used at the top-level. The functions also can be accessed by importing errortrace/errortrace-lib, which does not install any handlers.

As a language name, errortrace chains to another language that is specified immediately after at-exp, but instruments the module for debugging in the same way as if errortrace is required before loading the module from source. Using the errortrace meta-language is one way to ensure that debugging instrumentation is present when the module is compiled.}

3.1 Instrumentation and Profiling

By default, errortrace only instruments for stack-trace-on-exception. Profiling and coverage need to be enabled separately.

A parameter that determines whether tracing instrumentation is enabled, #t by default. Affects only the way that source code is compiled, not the way that exception information is reported. The instrumentation for storing exception information slows most programs by a factor of 2 or 3.

(profiling-enabled)  boolean?
(profiling-enabled on?)  void?
  on? : any/c
Errortrace’s profiling instrumentation is #f by default. To use it, you also need to ensure that instrumenting-enabled is on.

Also, profiling only records information about the time taken on the thread that compiled the code (more precisely, the thread that instruments the code via the errortrace-compile-handler).

Enables/disables the recording of profiling info for the instrumented code. The default is #t.

Profiling information is accumulated in a hash table. If a procedure is redefined, new profiling information is accumulated for the new version of the procedure, but the old information is also preserved.

Depending of the source program, profiling usually induces a factor of 2 to 4 slowdown, in addition to any slowdown from the exception-information instrumentation.

(output-profile-results paths? sort-time?)  void?
  paths? : any/c
  sort-time? : any/c
Gets the current profile results using get-profile-results and displays them. It optionally shows paths information (if it is recorded), and sorts by either time or call counts.

(get-profile-results [thd])  list?
  thd : thread? = (current-thread)
Returns a list of lists that contain all profiling information accumulated so far (for the thread thd):

Enables/disables collecting path information for profiling. The default is #f, but setting the parameter to #t immediately affects all procedures instrumented for profiling information.

Clears accumulated profile results for the current thread.

3.2 Coverage

Errortrace can produce coverage information in two flavors: both count the number of times each expression in the source was used during execution. The first flavor uses a simple approach, where each expression is counted when executed; the second one uses the same annotations that the profiler uses, so only function bodies are counted. To see the difference between the two approaches, try this program:

(define (foo x) (if x 1 2))
(equal? (foo #t) 1)

The first approach will produce exact results, but it is more expensive; use it when you want to know how covered your code is (when the expected counts are small). The second approach produces coarser results (which, in the above case, will miss the 2 expression), but is less expensive; use it when you want to use the counts for profiling (when the expected counts are large).

Parameters that determine if the first (exact coverage) or second (profiler-based coverage) are enabled. Remember that setting instrumenting-enabled to #f also disables both.

Returns a list of pairs, one for each instrumented expression. The first element of the pair is a syntax? object (usually containing source location information) for the original expression, and the second element of the pair indicates if the code has been executed. This list is snapshot of the current state of the computation.

)]{ Returns a list of pairs, one for each instrumented expression. The first element of the pair is a syntax? object (usually containing source location information) for the original expression, and the second element of the pair is the number of times that the expression has been evaluated. This list is snapshot of the current state of the computation.}

(annotate-covered-file filename-path    
  [display-string])  void?
  filename-path : path-string?
  display-string : (or/c string? #f) = #f
(annotate-executed-file filename-path    
  [display-string])  void?
  filename-path : path-string?
  display-string : (or/c string? #t #f) = "^.,"
Writes the named file to the current-output-port, inserting an additional line between each source line to reflect execution counts (as reported by get-coverage-counts or get-execute-counts). The optional display-string is used for the annotation: the first character is used for expressions that were visited 0 times, the second character for 1 time, ..., and the last character for expressions that were visited more times. It can also be #f for a minimal display, "#.", or, in the case of annotate-executed-file, #t for a maximal display, "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ".

(test-coverage-info)  hasheq?
(test-coverage-info ht)  void?
  ht : hasheq?
The hash-table in this parameter is used to store the profile results.

3.3 Other Errortrace Bindings

The errortrace module also exports:

(print-error-trace output-port exn)  void?
  output-port : output-port?
  exn : exn?
The print-error-trace procedure takes a port and exception and prints the Errortrace-collected debugging information contained in the exception. It is used by the exception handler installed by Errortrace.

The error-context-display-depth parameter controls how much context Errortrace’s exception handler displays. The default value is 10,000.