import testing_base
import html
-private import annotation
+private import parse_annotations
private import realtime
redef class ToolContext
var toolcontext = mbuilder.toolcontext
var suite = new TestSuite(mmodule, toolcontext)
# method to execute before all tests in the module
- var before_module = mmodule.before_test
- if before_module != null then
+ for mmethod in mmodule.before_all do
toolcontext.modelbuilder.total_tests += 1
- suite.before_module = new TestCase(suite, before_module, toolcontext)
+ suite.before_all.add new TestCase(suite, mmethod, toolcontext)
end
# generate all test cases
for mclassdef in mmodule.mclassdefs do
if not mclassdef.is_test then continue
if not suite_match_pattern(mclassdef) then continue
toolcontext.modelbuilder.total_classes += 1
+
+ var test_class = new TestClass
+
+ # method to execute before all tests in the class
+ for mmethod in mclassdef.before_all do
+ toolcontext.modelbuilder.total_tests += 1
+ test_class.before_all.add new TestCase(suite, mmethod, toolcontext)
+ end
+
+ var before = mclassdef.before
+ var after = mclassdef.after
+
for mpropdef in mclassdef.mpropdefs do
if not mpropdef isa MMethodDef or not mpropdef.is_test then continue
if not case_match_pattern(mpropdef) then continue
toolcontext.modelbuilder.total_tests += 1
var test = new TestCase(suite, mpropdef, toolcontext)
- suite.add_test test
+ test.before = before
+ test.after = after
+ test_class.test_cases.add test
end
+
+ # method to execute after all tests in the class
+ for mmethod in mclassdef.after_all do
+ toolcontext.modelbuilder.total_tests += 1
+ test_class.after_all.add new TestCase(suite, mmethod, toolcontext)
+ end
+
+ suite.test_classes.add test_class
end
# method to execute after all tests in the module
- var after_module = mmodule.after_test
- if after_module != null then
+ for mmethod in mmodule.after_all do
toolcontext.modelbuilder.total_tests += 1
- suite.after_module = new TestCase(suite, after_module, toolcontext)
+ suite.after_all.add new TestCase(suite, mmethod, toolcontext)
end
suite.run
return suite
var toolcontext: ToolContext
# List of `TestCase` to be executed in this suite.
- var test_cases = new Array[TestCase]
+ var test_classes = new Array[TestClass]
- # Add a `TestCase` to the suite.
- fun add_test(case: TestCase) do test_cases.add case
+ # Tests to be executed before the whole test suite.
+ var before_all = new Array[TestCase]
- # Test to be executed before the whole test suite.
- var before_module: nullable TestCase = null
-
- # Test to be executed after the whole test suite.
- var after_module: nullable TestCase = null
+ # Tests to be executed after the whole test suite.
+ var after_all = new Array[TestCase]
# Display test suite status in std-out.
fun show_status do
+ var test_cases = new Array[TestCase]
+ for test_class in test_classes do
+ test_cases.add_all test_class.before_all
+ test_cases.add_all test_class.test_cases
+ test_cases.add_all test_class.after_all
+ end
+ test_cases.add_all before_all
+ test_cases.add_all after_all
toolcontext.show_unit_status("Test-suite of module " + mmodule.full_name, test_cases)
end
write_to_nit
compile
if failure != null then
- for case in test_cases do
- case.is_done = true
- case.error = "Compilation Error"
- case.raw_output = failure
- toolcontext.modelbuilder.failed_tests += 1
- toolcontext.clear_progress_bar
- toolcontext.show_unit(case)
+ for test_class in test_classes do
+ for case in test_class.test_cases do
+ case.fail "Compilation Error"
+ case.raw_output = failure
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ end
end
show_status
print ""
return
end
toolcontext.info("Execute test-suite {mmodule.name}", 1)
- var before_module = self.before_module
- if not before_module == null then before_module.run
- for case in test_cases do
- case.run
+
+ for before_module in before_all do
+ before_module.run
toolcontext.clear_progress_bar
- toolcontext.show_unit(case)
- show_status
+ toolcontext.show_unit(before_module)
+ if before_module.error != null then
+ for test_class in test_classes do
+ for case in test_class.before_all do
+ case.fail "Nitunit Error: before module test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ end
+ for case in test_class.test_cases do
+ case.fail "Nitunit Error: before module test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ end
+ for case in test_class.after_all do
+ case.fail "Nitunit Error: before module test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ end
+ end
+ for after_module in after_all do
+ after_module.fail "Nitunit Error: before module test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(after_module)
+ end
+ show_status
+ print ""
+ return
+ end
end
- var after_module = self.after_module
- if not after_module == null then after_module.run
+ for test_class in test_classes do
+ for case in test_class.before_all do
+ case.run
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ if case.error != null then
+ for scase in test_class.test_cases do
+ scase.fail "Nitunit Error: before class test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(scase)
+ end
+ for scase in test_class.after_all do
+ scase.fail "Nitunit Error: before class test failed"
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(scase)
+ end
+ show_status
+ print ""
+ return
+ end
+ end
+ for case in test_class.test_cases do
+ case.run
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(case)
+ show_status
+ end
+ for after_class in test_class.after_all do
+ after_class.run
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(after_class)
+ show_status
+ end
+ end
+
+ for after_module in after_all do
+ after_module.run
+ toolcontext.clear_progress_bar
+ toolcontext.show_unit(after_module)
+ show_status
+ end
show_status
print ""
# Write the test unit for `self` in a nit compilable file.
fun write_to_nit do
var file = new Template
- file.addn "intrude import test_suite"
+ file.addn "intrude import core"
file.addn "import {mmodule.name}\n"
file.addn "var name = args.first"
- for case in test_cases do
- case.write_to_nit(file)
+ for before_module in before_all do
+ before_module.write_to_nit(file)
+ end
+ for test_class in test_classes do
+ for case in test_class.before_all do
+ case.write_to_nit(file)
+ end
+ for case in test_class.test_cases do
+ case.write_to_nit(file)
+ end
+ for case in test_class.after_all do
+ case.write_to_nit(file)
+ end
+ end
+ for after_module in after_all do
+ after_module.write_to_nit(file)
end
file.write_to_file("{test_file}.nit")
end
fun to_xml: HTMLTag do
var n = new HTMLTag("testsuite")
n.attr("package", mmodule.name)
- for test in test_cases do n.add test.to_xml
+ for test_class in test_classes do
+ for test in test_class.test_cases do n.add test.to_xml
+ end
return n
end
var failure: nullable String = null
end
+# A test class contains multiple test cases
+#
+# For each test class, methods can be executed before and after all cases.
+class TestClass
+ # List of `TestCase` to be executed in this suite.
+ var test_cases = new Array[TestCase]
+
+ # Tests to be executed before the whole test suite.
+ var before_all = new Array[TestCase]
+
+ # Tests to be executed after the whole test suite.
+ var after_all = new Array[TestCase]
+end
+
# A test case is a unit test considering only a `MMethodDef`.
class TestCase
super UnitTest
# Test method to be compiled and tested.
var test_method: MMethodDef
+ # Cases to execute before this one
+ var before = new Array[MMethodDef]
+
+ # Cases to execute after this one
+ var after = new Array[MMethodDef]
+
redef fun full_name do return test_method.full_name
redef fun location do return test_method.location
if test_method.mproperty.is_toplevel then
file.addn "\t{name}"
else
- file.addn "\tvar subject = new {test_method.mclassdef.name}.nitunit"
- file.addn "\tsubject.before_test"
+ file.addn "\tvar subject = new {test_method.mclassdef.name}.intern"
+ for mmethod in before do
+ file.addn "\tsubject.{mmethod.name}"
+ end
file.addn "\tsubject.{name}"
- file.addn "\tsubject.after_test"
+ for mmethod in after do
+ file.addn "\tsubject.{mmethod.name}"
+ end
end
file.addn "end"
end
is_done = true
end
+ # Make the test case fail without testing it
+ #
+ # Useful when the compilation or the before_test failed.
+ fun fail(message: String) do
+ is_done = true
+ error = message
+ toolcontext.modelbuilder.failed_tests += 1
+ end
+
redef fun xml_classname do
var a = test_method.full_name.split("$")
return "nitunit.{a[0]}.{a[1]}"
end
end
-redef class MMethodDef
- # TODO use annotations?
-
- # Is the method a test_method?
- # i.e. begins with "test_"
- private fun is_test: Bool do return name.has_prefix("test_")
+redef class MClassDef
+ # Methods tagged with `before` in this class definition
+ private fun before: Array[MMethodDef] do
+ var res = new ArraySet[MMethodDef]
+ for mpropdef in mpropdefs do
+ if mpropdef isa MMethodDef and mpropdef.is_before then
+ res.add mpropdef
+ end
+ end
+ var in_hierarchy = self.in_hierarchy
+ if in_hierarchy == null then return res.to_a
+ for mclassdef in in_hierarchy.direct_greaters do
+ res.add_all mclassdef.before
+ end
+ var lin = res.to_a
+ mmodule.linearize_mpropdefs(lin)
+ return lin
+ end
- # Is the method a "before_module"?
- private fun is_before_module: Bool do return mproperty.is_toplevel and name == "before_module"
+ # Methods tagged with `before_all` in this class definition
+ private fun before_all: Array[MMethodDef] do
+ var res = new ArraySet[MMethodDef]
+ for mpropdef in mpropdefs do
+ if mpropdef isa MMethodDef and mpropdef.is_before_all then
+ res.add mpropdef
+ end
+ end
+ var in_hierarchy = self.in_hierarchy
+ if in_hierarchy == null then return res.to_a
+ for mclassdef in in_hierarchy.direct_greaters do
+ res.add_all mclassdef.before_all
+ end
+ var lin = res.to_a
+ mmodule.linearize_mpropdefs(lin)
+ return lin
+ end
- # Is the method a "after_module"?
- private fun is_after_module: Bool do return mproperty.is_toplevel and name == "after_module"
-end
+ # Methods tagged with `after` in this class definition
+ private fun after: Array[MMethodDef] do
+ var res = new ArraySet[MMethodDef]
+ for mpropdef in mpropdefs do
+ if mpropdef isa MMethodDef and mpropdef.is_after then
+ res.add mpropdef
+ end
+ end
+ var in_hierarchy = self.in_hierarchy
+ if in_hierarchy == null then return res.to_a
+ for mclassdef in in_hierarchy.direct_greaters do
+ res.add_all mclassdef.after
+ end
+ var lin = res.to_a
+ mmodule.linearize_mpropdefs(lin)
+ return lin.reversed
+ end
-redef class MClassDef
- # Is the class a TestClass?
- # i.e. is a subclass of `TestSuite`
- private fun is_test: Bool do
+ # Methods tagged with `after_all` in this class definition
+ private fun after_all: Array[MMethodDef] do
+ var res = new ArraySet[MMethodDef]
+ for mpropdef in mpropdefs do
+ if mpropdef isa MMethodDef and mpropdef.is_after_all then
+ res.add mpropdef
+ end
+ end
var in_hierarchy = self.in_hierarchy
- if in_hierarchy == null then return false
- for sup in in_hierarchy.greaters do
- if sup.name == "TestSuite" then return true
+ if in_hierarchy == null then return res.to_a
+ for mclassdef in in_hierarchy.direct_greaters do
+ res.add_all mclassdef.after_all
end
- return false
+ var lin = res.to_a
+ mmodule.linearize_mpropdefs(lin)
+ return lin.reversed
end
end
redef class MModule
- # "before_module" method for this module.
- private fun before_test: nullable MMethodDef do
- for mclassdef in mclassdefs do
- if not mclassdef.name == "Object" then continue
- for mpropdef in mclassdef.mpropdefs do
- if mpropdef isa MMethodDef and mpropdef.is_before_module then return mpropdef
+ # Methods tagged with `before_all` at the module level (in `Sys`)
+ private fun before_all: Array[MMethodDef] do
+ var res = new Array[MMethodDef]
+ for mmodule in in_importation.greaters do
+ for mclassdef in mmodule.mclassdefs do
+ if mclassdef.name != "Sys" then continue
+ for mpropdef in mclassdef.mpropdefs do
+ if not mpropdef isa MMethodDef or not mpropdef.is_before_all then continue
+ res.add mpropdef
+ end
end
end
- return null
+ var lin = res.to_a
+ linearize_mpropdefs(lin)
+ return lin
end
- # "after_module" method for this module.
- private fun after_test: nullable MMethodDef do
- for mclassdef in mclassdefs do
- if not mclassdef.name == "Object" then continue
- for mpropdef in mclassdef.mpropdefs do
- if mpropdef isa MMethodDef and mpropdef.is_after_module then return mpropdef
+ # Methods tagged with `after_all` at the module level (in `Sys`)
+ private fun after_all: Array[MMethodDef] do
+ var res = new Array[MMethodDef]
+ for mmodule in in_importation.greaters do
+ for mclassdef in mmodule.mclassdefs do
+ if mclassdef.name != "Sys" then continue
+ for mpropdef in mclassdef.mpropdefs do
+ if not mpropdef isa MMethodDef or not mpropdef.is_after_all then continue
+ res.add mpropdef
+ end
end
end
- return null
+ var lin = res.to_a
+ linearize_mpropdefs(lin)
+ return lin.reversed
end
end
# Run NitUnit test suite for `mmodule` (if it is one).
fun test_unit(mmodule: MModule): nullable HTMLTag do
# is the module a test_suite?
- if get_mmodule_annotation("test_suite", mmodule) == null then return null
+ if not mmodule.is_test then return null
toolcontext.info("nitunit: test-suite {mmodule}", 2)
var tester = new NitUnitTester(self)