View Source cover (tools v4.1.1)
A Coverage Analysis Tool for Erlang
The module cover
provides a set of functions for coverage analysis
of Erlang programs, counting how many times each executable line of
code is executed when a program is run. Executable lines are
lines in the body of a clause in a function, case
,
receive
, or try
. Lines in clause heads, blank lines, and lines
containing only comments are not executable.
Coverage analysis can be used to verify that test cases covers all relevant line in the code being test. It can also be helpful when looking for bottlenecks in the code.
Before any analysis can take place, the involved modules has to be
cover-compiled. This means that some extra information is added to
the module before it is compiled into a binary which then is
loaded. The source file of the module is not affected and no .beam
file is created. If the runtime system supports coverage natively,
Cover will automatically use that functionality to lower the execution
overhead for cover-compiled code.
Change
Native coverage support was added in Erlang/OTP 27.
Each time a function in a cover-compiled module is called, information about the
call is added to an internal database of Cover. The coverage analysis is
performed by examining the contents of the Cover database. The output Answer
is determined by two parameters: Level
and Analysis
.
Level = module
Answer = {Module,Value}
, whereModule
is the module name.Level = function
Answer = [{Function,Value}]
, one tuple for each function in the module. A function is specified by its module nameM
, function nameF
and arityA
as a tuple{M,F,A}
.Level = clause
Answer = [{Clause,Value}]
, one tuple for each clause in the module. A clause is specified by its module nameM
, function nameF
, arityA
and position in the function definitionC
as a tuple{M,F,A,C}
.Level = line
Answer = [{Line,Value}]
, one tuple for each executable line in the module. A line is specified by its module nameM
and line number in the source fileN
as a tuple{M,N}
.Analysis = coverage
Value = {Cov,NotCov}
whereCov
is the number of executable lines in the module, function, clause or line that have been executed at least once andNotCov
is the number of executable lines that have not been executed.Analysis = calls
Value = Calls
which is the number of times the module, function, or clause has been called. In the case of line level analysis,Calls
is the number of times the line has been executed.
Distribution
Cover can be used in a distributed Erlang system. One of the nodes in the system
has to be selected as the main node, and all Cover commands must be
executed from that node. The error reason not_main_node
is returned if an
interface function is called on one of the remote nodes.
Use cover:start/1
and cover:stop/1
to add or remove nodes. The
same cover-compiled code will be loaded on each node, and analysis
will collect and sum up coverage data results from all nodes.
To only collect data from remote nodes without stopping cover
on those nodes,
use cover:flush/1
If the connection to a remote node goes down, the main node will mark it as lost. If the node comes back it will be added again. If the remote node was alive during the disconnected period, cover data from before and during this period will be included in the analysis.
Summary
Functions
Equivalent to analyse('_', coverage, function)
.
Analyzes one or more modules as specified by Arg
.
Analyzes one or more modules as specified by Arg1
and Arg2
.
Perform analysis of one or more cover-compiled modules, as specified by
Analysis
and Level
, by examining the contents of the internal
database.
Equivalent to analyse_to_file('_', [])
.
If Arg
is a list of analyse_option()
options, this call is equivalent to analyse_to_file('_', Arg)
.
Outputs copies of the source code for the given modules annotated with execution counts for each executable line.
Equivalent to async_analyse_to_file/3
.
This function works the same way as
analyse_to_file/2
except that it is asynchronous instead
of synchronous.
Equivalent to compile_module(ModFiles, [])
.
Equivalent to compile_module(ModFile, Options)
.
Cover-compiles one or more modules based .beam
files containing
abstract code (option debug_info
).
Equivalent to compile_beam_directory(".")
.
Cover-compiles all .beam
files in directory Dir
in the same way
as compile_beam/1
.
Equivalent to compile_directory(".", [])
.
Equivalent to compile_directory(Dir, [])
.
Compiles all modules (.erl
files) in a directory Dir
for Cover analysis the
same way as compile_module/1,2
and returns a list of
Result
.
Equivalent to compile_module(ModFile, [])
.
Cover-compiles one or more modules.
Equivalent to export(File, '_')
.
Exports the current coverage data for Module
to the file ExportFile
.
Fetches data from the Cover database on the remote nodes and stores it on the main node.
Imports coverage data from the file ExportFile
created with
export/1,2
.
Returns a list of all imported files.
Returns a list of all modules for which there are imported data.
Returns {file, File}
if the module Module
is cover-compiled, or false
otherwise.
Only support running Cover on the local node.
Returns a list with all modules that are currently cover-compiled.
Resets all coverage data for all cover-compiled modules in the Cover database on all nodes.
Resets all coverage data for the cover-compiled module Module
in the Cover
database on all nodes.
Starts the Cover server which owns the Cover internal database. This function is called automatically by the other functions in the module.
Starts a Cover server on the each of given nodes, and loads all cover compiled modules.
Stops the Cover server and unloads all cover-compiled code.
Stops the Cover server and unloads all cover-compiled code on the given nodes.
Returns a list with all nodes that are part of the coverage analysis.
Types
-type analyse_answer() :: {ok, OutFile :: file:filename()} | {error, analyse_rsn()}.
-type analyse_fail() :: [{not_cover_compiled, module()}].
-type analyse_file_fail() :: [analyse_rsn()].
-type analyse_file_ok() :: [OutFile :: file:filename()].
-type analyse_item() :: (Line :: {M :: module(), N :: non_neg_integer()}) | (Clause :: {M :: module(), F :: atom(), A :: arity(), C :: non_neg_integer()}) | (Function :: {M :: module(), F :: atom(), A :: arity()}).
-type analyse_ok() :: [{Module :: module(), Value :: analyse_value()}] | [{Item :: analyse_item(), Value :: analyse_value()}].
-type analyse_option() :: html | {outfile, OutFile :: file:filename()} | {outdir, OutDir :: file:filename()}.
-type analyse_rsn() :: {not_cover_compiled, Module :: module()} | {file, File :: file:filename(), Reason :: term()} | {no_source_code_found, Module :: module()}.
-type analyse_value() :: {Cov :: non_neg_integer(), NotCov :: non_neg_integer()} | (Calls :: non_neg_integer()).
-type analysis() :: coverage | calls.
-type beam_mod_file() :: (Module :: module()) | (BeamFile :: file:filename()).
-type beam_mod_files() :: beam_mod_file() | [beam_mod_file()].
-type compile_beam_result() :: {ok, module()} | {error, BeamFile :: file:filename()} | {error, Reason :: compile_beam_rsn()}.
-type compile_beam_rsn() :: non_existing | {no_abstract_code, BeamFile :: file:filename()} | {encrypted_abstract_code, BeamFile :: file:filename()} | {already_cover_compiled, no_beam_found, module()} | {{missing_backend, module()}, BeamFile :: file:filename()} | {no_file_attribute, BeamFile :: file:filename()} | not_main_node.
-type compile_result() :: {ok, Module :: module()} | {error, file:filename()} | {error, not_main_node}.
-type export_reason() :: {not_cover_compiled, Module :: module()} | {cant_open_file, ExportFile :: file:filename(), FileReason :: term()} | not_main_node.
-type file_error() :: eacces | enoent.
-type level() :: line | clause | function | module.
-type mod_file() :: (Module :: module()) | (File :: file:filename()).
-type one_result() :: {ok, {Module :: module(), Value :: analyse_value()}} | {ok, [{Item :: analyse_item(), Value :: analyse_value()}]} | {error, {not_cover_compiled, module()}}.
-type option() :: {i, Dir :: file:filename()} | {d, Macro :: atom()} | {d, Macro :: atom(), Value :: term()} | export_all.
Functions
-spec analyse() -> {result, analyse_ok(), analyse_fail()} | {error, not_main_node}.
Equivalent to analyse('_', coverage, function)
.
-spec analyse(Analysis) -> {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Analysis :: analysis(); (Level) -> {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Level :: level(); (Modules) -> OneResult | {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Modules :: modules(), OneResult :: one_result().
Analyzes one or more modules as specified by Arg
.
If Arg
is one of the values in analysis()
, this
call is equivalent to analyse('_', Arg, function)
.
If Arg
is one of the values in level()
, this
call is equivalent to analyse('_', coverage, Arg)
.
Otherwise Arg
is assumed to be a module name, and this call is equivalent
to analyse(Arg, coverage, function)
.
Note
To analyze a module whose name overlaps with one the values in
analysis()
orlevel()
, the module name has to be in a list. For example, to analyze a module namedcalls
:cover:analyse([calls]).
-spec analyse(Analysis, Level) -> {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Analysis :: analysis(), Level :: level(); (Modules, Analysis) -> OneResult | {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Analysis :: analysis(), Modules :: modules(), OneResult :: one_result(); (Modules, Level) -> OneResult | {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Level :: level(), Modules :: modules(), OneResult :: one_result().
Analyzes one or more modules as specified by Arg1
and Arg2
.
If Arg1
is one of the values in analysis()
and
Arg2
is one of the values in level()
, this
call is equivalent to analyse('_', Arg1, Arg2)
.
If Arg2
is one of the values in analysis()
,
Arg1
is assumed to be a module and this call is equivalent to
analyse(Arg1, Arg2, function)
.
If Arg2
is one of the values in level()
, Arg1
is
assumed to be a module and this call is equivalent to analyse(Arg1, coverage, Arg2)
.
Note
To analyze a module whose name overlaps with one of the values in
analysis()
, the module name needs to be in a list. For example, to analyze a module namedcalls
:cover:analyse([calls], function).
-spec analyse(Modules, Analysis, Level) -> OneResult | {result, analyse_ok(), analyse_fail()} | {error, not_main_node} when Analysis :: analysis(), Level :: level(), Modules :: modules(), OneResult :: one_result().
Perform analysis of one or more cover-compiled modules, as specified by
Analysis
and Level
, by examining the contents of the internal
database.
If Modules
is an atom (a single module), the return is OneResult
,
otherwise the return is {result, Ok, Fail}
.
If Modules
is atom '_'
, all modules that have data in the cover data table
are analysed. Note that this includes both cover-compiled modules and imported
modules.
If a given module is not cover-compiled, this is indicated by the error reason
{not_cover_compiled, Module}
.
-spec analyse_to_file() -> {result, analyse_file_ok(), analyse_file_fail()} | {error, not_main_node}.
Equivalent to analyse_to_file('_', [])
.
-spec analyse_to_file(Modules) -> Answer | {result, analyse_file_ok(), analyse_file_fail()} | {error, not_main_node} when Modules :: modules(), Answer :: analyse_answer(); (Options) -> {result, analyse_file_ok(), analyse_file_fail()} | {error, not_main_node} when Options :: [analyse_option()].
If Arg
is a list of analyse_option()
options, this call is equivalent to analyse_to_file('_', Arg)
.
Otherwise Arg
is assumed to be a module, and this call is equivalent to
analyse_to_file(Arg, [])
.
Note
To analyze a module of the name
html
(which overlaps with an option inanalyse_option()
), it is necessary to usecover:analyse_to_file/2
:cover:analyse_to_file([html], []).
-spec analyse_to_file(Modules, Options) -> Answer | {result, analyse_file_ok(), analyse_file_fail()} | {error, not_main_node} when Modules :: modules(), Options :: [analyse_option()], Answer :: analyse_answer().
Outputs copies of the source code for the given modules annotated with execution counts for each executable line.
The output file OutFile
defaults to Module.COVER.out
, and to Module.COVER.html
if option html
is used.
If Modules
is an atom (one module), the return will be Answer
, otherwise the
return will be a list, {result, Ok, Fail}
.
If Modules
is '_', all modules that have data in the Cover data table
are analysed. Note that this includes both cover-compiled modules and imported
modules.
If a module is not cover-compiled, this is indicated by the error reason
{not_cover_compiled, Module}
.
If the source file and/or the output file cannot be opened using file:open/2
,
the function returns {error, {file, File, Reason}}
, where File
is the file
name and Reason
is the error reason.
If a module was cover compiled from the .beam
file, that is, using
compile_beam/1
or
compile_beam_directory/0,1
, it is assumed that
the source code can be found in one of the following locations:
- the same directory as the
.beam
file ../src
relative to the directory with.beam
file- the source path in
Module:module_info(compile)
, in which case two paths are examined:- first the one constructed by joining
../src
and the tail of the compiled path below a trailingsrc
component - the compiled path itself
- first the one constructed by joining
If no source code is found, this is indicated by the error reason
{no_source_code_found, Module}
.
Equivalent to async_analyse_to_file/3
.
-spec async_analyse_to_file(Module, OutFile) -> pid() when Module :: module(), OutFile :: file:filename(); (Module, Options) -> pid() when Module :: module(), Options :: [Option], Option :: html.
Equivalent to async_analyse_to_file/3
.
async_analyse_to_file(Module, OutFile, Options)
View Source (since OTP R14B02)-spec async_analyse_to_file(Module, OutFile, Options) -> pid() when Module :: module(), OutFile :: file:filename(), Options :: [Option], Option :: html.
This function works the same way as
analyse_to_file/2
except that it is asynchronous instead
of synchronous.
The spawned process will link with the caller when created. If an
error of type analyse_rsn()
occurs while doing
the cover analysis the process will crash with the same error reason
as analyse_to_file
would return.
-spec compile(ModFiles) -> Result | [Result] when ModFiles :: mod_files(), Result :: compile_result().
Equivalent to compile_module(ModFiles, [])
.
-spec compile(ModFiles, Options) -> Result | [Result] when ModFiles :: mod_files(), Options :: [option()], Result :: compile_result().
Equivalent to compile_module(ModFile, Options)
.
-spec compile_beam(ModFiles) -> Result | [Result] when ModFiles :: beam_mod_files(), Result :: compile_beam_result().
Cover-compiles one or more modules based .beam
files containing
abstract code (option debug_info
).
Cover-compiling from .beam
files is faster than compiling from
source and less hassle, because there is no need to supply options for
include paths or macros. However, the existing .beam
files must have
been compiled with option
debug_info
so that they contain
abstract code.
If abstract code is missing, the error reason {no_abstract_code, BeamFile}
is returned. If the abstract code is encrypted, and no key
is available for decrypting it, the error reason
{encrypted_abstract_code, BeamFile}
is returned.
If only the module name (that is, not the full name of the .beam
file) is given to this function, the .beam
file is found by calling
code:which(Module)
. If no .beam
file is found,
the error reason non_existing
is returned. If the module is already
cover compiled with compile_beam/1
, the .beam
file will be picked from the same location as the first time it was
compiled. If the module is already cover-compiled with
compile_module/2
, there is no way to find the correct .beam
file,
so the error reason {already_cover_compiled, no_beam_found, Module}
is returned.
{error, BeamFile}
is returned if the compiled code cannot be loaded on the
node.
If a list of ModFiles
is given as input, a list of Result
will be returned.
The order of the returned list is undefined.
-spec compile_beam_directory() -> [Result] | {error, Reason} when Reason :: file_error(), Result :: compile_beam_result().
Equivalent to compile_beam_directory(".")
.
-spec compile_beam_directory(Dir) -> [Result] | {error, Reason} when Dir :: file:filename(), Reason :: file_error(), Result :: compile_beam_result().
Cover-compiles all .beam
files in directory Dir
in the same way
as compile_beam/1
.
This function returns a list of compile_beam_result()
if successful. Otherwise, it returns {error, eacces}
if the directory is not
readable, and {error, enoent}
if the directory does not exist.
-spec compile_directory() -> [Result] | {error, Reason} when Reason :: file_error(), Result :: compile_result().
Equivalent to compile_directory(".", [])
.
-spec compile_directory(Dir) -> [Result] | {error, Reason} when Dir :: file:filename(), Reason :: file_error(), Result :: compile_result().
Equivalent to compile_directory(Dir, [])
.
-spec compile_directory(Dir, Options) -> [Result] | {error, Reason} when Dir :: file:filename(), Options :: [option()], Reason :: file_error(), Result :: compile_result().
Compiles all modules (.erl
files) in a directory Dir
for Cover analysis the
same way as compile_module/1,2
and returns a list of
Result
.
This function returns {error, eacces}
if the directory is not readable or
{error, enoent}
if the directory does not exist.
-spec compile_module(ModFiles) -> Result | [Result] when ModFiles :: mod_files(), Result :: compile_result().
Equivalent to compile_module(ModFile, [])
.
-spec compile_module(ModFiles, Options) -> Result | [Result] when ModFiles :: mod_files(), Options :: [option()], Result :: compile_result().
Cover-compiles one or more modules.
The module is given by its module name Module
or by its file name
File
.
The .erl
extension can be omitted. If the module is not located in
the current directory, the full path to it must be specified.
Options
is a list of compiler options. Only options defining include
file directories and macros are passed to compile:file/2
;
everything else is ignored.
If the module is successfully cover-compiled, the function returns
{ok, Module}
. Otherwise the function returns {error, File}
. Errors and
warnings are printed as they occur.
If a list of ModFiles
is given as input, a list of Result
will be returned. The order of the returned results in the list is undefined.
Note that the internal database is initialized during the compilation, which means that any previously collected coverage data for the module is lost.
-spec export(File) -> ok | {error, Reason} when File :: file:filename(), Reason :: export_reason().
Equivalent to export(File, '_')
.
-spec export(File, Module) -> ok | {error, Reason} when File :: file:filename(), Module :: module(), Reason :: export_reason().
Exports the current coverage data for Module
to the file ExportFile
.
It is recommended to name the ExportFile
with the extension .coverdata
.
If Module
is '_', data for all cover-compiled or earlier imported
modules is exported.
This function is useful if coverage data from different systems is to be merged.
See also import/1
.
Fetches data from the Cover database on the remote nodes and stores it on the main node.
-spec import(ExportFile) -> ok | {error, Reason} when ExportFile :: file:filename(), Reason :: {cant_open_file, ExportFile, FileReason :: term()} | not_main_node.
Imports coverage data from the file ExportFile
created with
export/1,2
.
Any analysis performed after this call will include the imported data.
Note that when compiling a module all existing coverage data is removed, including imported data. If a module is already compiled when data is imported, the imported data is added to the existing coverage data.
Coverage data from several export files can be imported into one system. The coverage data is then added up when analysing.
Coverage data for a module cannot be imported from the same file twice unless the module is first reset or compiled. The check is based on the filename, so you can easily fool the system by renaming your export file.
-spec imported() -> [file:filename()] | {error, not_main_node}.
Returns a list of all imported files.
-spec imported_modules() -> [module()] | {error, not_main_node}.
Returns a list of all modules for which there are imported data.
-spec is_compiled(Module) -> {file, File :: file:filename()} | false | {error, not_main_node} when Module :: module().
Returns {file, File}
if the module Module
is cover-compiled, or false
otherwise.
File
is the .erl
file used by compile_module/1,2
or the .beam
file used by compile_beam/1
.
-spec local_only() -> ok | {error, too_late}.
Only support running Cover on the local node.
This function has to be called before any modules have been compiled or any nodes added. When running in this mode, modules will be cover-compiled in a more efficient way, but the resulting code will only work on the same node they were compiled on.
-spec modules() -> [module()] | {error, not_main_node}.
Returns a list with all modules that are currently cover-compiled.
-spec reset() -> ok | {error, not_main_node}.
Resets all coverage data for all cover-compiled modules in the Cover database on all nodes.
-spec reset(Module) -> ok | {error, not_main_node} | {error, {not_cover_compiled, Module}} when Module :: module().
Resets all coverage data for the cover-compiled module Module
in the Cover
database on all nodes.
If Module
is not cover-compiled, the function returns
{error, {not_cover_compiled, Module}}
.
Starts the Cover server which owns the Cover internal database. This function is called automatically by the other functions in the module.
-spec start(Nodes) -> {ok, StartedNodes} | {error, not_main_node} | {error, local_only} when Nodes :: node() | [node()], StartedNodes :: [node()].
Starts a Cover server on the each of given nodes, and loads all cover compiled modules.
This call will fail if cover:local_only/0
has been called.
-spec stop() -> ok | {error, not_main_node}.
Stops the Cover server and unloads all cover-compiled code.
Stops the Cover server and unloads all cover-compiled code on the given nodes.
Data stored in the Cover database on the remote nodes is fetched and stored on the main node.
-spec which_nodes() -> [node()].
Returns a list with all nodes that are part of the coverage analysis.
Note that the current node is not included, because it is always part of the analysis.