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/*
* Copyright © 2020 Michael Gratton <mike@vee.net>
*
* This software is licensed under the GNU Lesser General Public License
* (version 2.1 or later). See the COPYING file in this distribution.
*/
/**
* Defines default test assertions for specific strings, arrays and collections.
*
* Call {@link TestAssertions.assert_string}, {@link
* TestAssertions.assert_array} and {@link
* TestAssertions.assert_collection} methods, accessible from
* subclasses of {@link TestCase} to construct these objects.
*/
public interface ValaUnit.CollectionAssertions<E> : GLib.Object {
/**
* Asserts the collection is empty.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> is_empty()
throws GLib.Error;
/**
* Asserts the collection is non-empty.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> is_non_empty()
throws GLib.Error;
/**
* Asserts the collection has an expected length.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> size(uint32 expected)
throws GLib.Error;
/**
* Asserts the collection contains an expected element.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> contains(E expected)
throws GLib.Error;
/**
* Asserts the collection does not contain an expected element.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> not_contains(E expected)
throws GLib.Error;
/**
* Asserts the collection's first element is as expected.
*
* Returns the same object to allow assertion chaining.
*/
public CollectionAssertions<E> first_is(E expected)
throws GLib.Error {
at_index_is(0, expected);
return this;
}
/**
* Asserts the collection's nth element is as expected.
*
* Note the give position is is 1-based, not 0-based.
*
* Returns the same object to allow assertion chaining.
*/
public abstract CollectionAssertions<E> at_index_is(uint32 position,
E expected)
throws GLib.Error;
}
internal class ValaUnit.StringCollectionAssertion : GLib.Object,
CollectionAssertions<string> {
private string actual;
private string? context;
internal StringCollectionAssertion(string actual, string? context) {
this.actual = actual;
this.context = context;
}
public CollectionAssertions<string> is_empty() throws GLib.Error {
if (this.actual.length != 0) {
ValaUnit.assert(
"“%s”.length = %u, expected empty".printf(
this.actual,
this.actual.length
),
this.context
);
}
return this;
}
public CollectionAssertions<string> is_non_empty()
throws GLib.Error {
if (this.actual.length == 0) {
ValaUnit.assert(
"string is empty, expected non-empty", this.context
);
}
return this;
}
public CollectionAssertions<string> size(uint32 expected)
throws GLib.Error {
if (this.actual.length != expected) {
ValaUnit.assert(
"“%s”.length = %u, expected %u".printf(
this.actual,
this.actual.length,
expected
),
this.context
);
}
return this;
}
public CollectionAssertions<string> contains(string expected)
throws GLib.Error {
if (!(expected in this.actual)) {
ValaUnit.assert(
"“%s” does not contain “%s”".printf(
this.actual,
expected
),
this.context
);
}
return this;
}
public CollectionAssertions<string> not_contains(string expected)
throws GLib.Error {
if (expected in this.actual) {
ValaUnit.assert(
"“%s” should not contain “%s”".printf(
this.actual,
expected
),
this.context
);
}
return this;
}
public CollectionAssertions<string> at_index_is(uint32 index,
string expected)
throws GLib.Error {
if (this.actual.index_of(expected) != index) {
ValaUnit.assert(
"“%s”[%u:%u] != “%s”".printf(
this.actual,
index,
index + (uint) expected.length,
expected
),
this.context
);
}
return this;
}
}
internal class ValaUnit.ArrayCollectionAssertion<E> : GLib.Object,
CollectionAssertions<E> {
private E[] actual;
private string? context;
internal ArrayCollectionAssertion(E[] actual, string? context)
throws TestError {
this.actual = actual;
this.context = context;
GLib.Type UNSUPPORTED[] = {
typeof(bool),
typeof(char),
typeof(short),
typeof(int),
typeof(int64),
typeof(uchar),
typeof(ushort),
typeof(uint),
typeof(uint64),
typeof(float),
typeof(double)
};
var type = typeof(E);
if (type.is_enum() || type in UNSUPPORTED) {
throw new TestError.UNSUPPORTED(
"Arrays containing non-pointer values not currently supported. See GNOME/vala#964"
);
}
}
public CollectionAssertions<E> is_empty() throws GLib.Error {
if (this.actual.length != 0) {
ValaUnit.assert(
"%s is not empty".printf(
to_collection_display()
),
this.context
);
}
return this;
}
public CollectionAssertions<E> is_non_empty()
throws GLib.Error {
if (this.actual.length == 0) {
ValaUnit.assert(
"%s is empty, expected non-empty".printf(
to_collection_display()
),
this.context
);
}
return this;
}
public CollectionAssertions<E> size(uint32 expected)
throws GLib.Error {
if (this.actual.length != expected) {
ValaUnit.assert(
"%s.length == %d, expected %u".printf(
to_collection_display(),
this.actual.length,
expected
),
this.context
);
}
return this;
}
public CollectionAssertions<E> contains(E expected)
throws GLib.Error {
E? boxed_expected = box_value(expected);
bool found = false;
for (int i = 0; i < this.actual.length; i++) {
try {
assert_equal(box_value(this.actual[i]), boxed_expected);
found = true;
break;
} catch (TestError.FAILED err) {
// no-op
}
}
if (!found) {
ValaUnit.assert(
"%s does not contain %s".printf(
to_collection_display(),
to_display_string(boxed_expected)
),
this.context
);
}
return this;
}
public CollectionAssertions<E> not_contains(E expected)
throws GLib.Error {
E? boxed_expected = box_value(expected);
for (int i = 0; i < this.actual.length; i++) {
try {
assert_equal(box_value(this.actual[i]), boxed_expected);
ValaUnit.assert(
"%s does not contain %s".printf(
to_collection_display(),
to_display_string(boxed_expected)
),
this.context
);
break;
} catch (TestError.FAILED err) {
// no-op
}
}
return this;
}
public CollectionAssertions<E> at_index_is(uint32 index, E expected)
throws GLib.Error {
if (index >= this.actual.length) {
ValaUnit.assert(
"%s.length == %u, expected >= %u".printf(
to_collection_display(),
this.actual.length,
index
),
this.context
);
}
E? boxed_actual = box_value(this.actual[index]);
E? boxed_expected = box_value(expected);
try {
assert_equal(boxed_actual, boxed_expected);
} catch (TestError.FAILED err) {
ValaUnit.assert(
"%s[%u] == %s, expected: %s".printf(
to_collection_display(),
index,
to_display_string(boxed_actual),
to_display_string(boxed_expected)
),
this.context
);
}
return this;
}
private string to_collection_display() {
var buf = new GLib.StringBuilder();
int len = this.actual.length;
buf.append(typeof(E).name());
buf.append("[]");
if (len > 0) {
buf.append_c('{');
buf.append(to_display_string(box_value(this.actual[0])));
if (len == 2) {
buf.append_c(',');
buf.append(to_display_string(box_value(this.actual[1])));
} else if (len > 2) {
buf.append(", … (%d more)".printf(len - 2));
}
buf.append_c('}');
}
return buf.str;
}
}
internal class ValaUnit.GeeCollectionAssertion<E> :
GLib.Object,
CollectionAssertions<E> {
private Gee.Collection<E> actual;
private string? context;
internal GeeCollectionAssertion(Gee.Collection<E> actual, string? context) {
this.actual = actual;
this.context = context;
}
public CollectionAssertions<E> is_empty() throws GLib.Error {
if (!this.actual.is_empty) {
ValaUnit.assert(
"%s.length = %d, expected empty".printf(
to_collection_display(),
this.actual.size
),
this.context
);
}
return this;
}
public CollectionAssertions<E> is_non_empty()
throws GLib.Error {
if (this.actual.is_empty) {
ValaUnit.assert(
"%s is empty, expected non-empty".printf(
to_collection_display()
),
this.context
);
}
return this;
}
public CollectionAssertions<E> size(uint32 expected)
throws GLib.Error {
if (this.actual.size != expected) {
ValaUnit.assert(
"%s.size == %d, expected %u".printf(
to_collection_display(),
this.actual.size,
expected
),
this.context
);
}
return this;
}
public CollectionAssertions<E> contains(E expected)
throws GLib.Error {
if (!(expected in this.actual)) {
ValaUnit.assert(
"%s does not contain %s".printf(
to_collection_display(),
to_display_string(box_value(expected))
),
this.context
);
}
return this;
}
public CollectionAssertions<E> not_contains(E expected)
throws GLib.Error {
if (expected in this.actual) {
ValaUnit.assert(
"%s should not contain %s".printf(
to_collection_display(),
to_display_string(box_value(expected))
),
this.context
);
}
return this;
}
public CollectionAssertions<E> at_index_is(uint32 index, E expected)
throws GLib.Error {
if (index >= this.actual.size) {
ValaUnit.assert(
"%s.length == %d, expected >= %u".printf(
to_collection_display(),
this.actual.size,
index
),
this.context
);
}
Gee.Iterator<E> iterator = this.actual.iterator();
for (int i = 0; i <= index; i++) {
iterator.next();
}
E? boxed_actual = box_value(iterator.get());
E? boxed_expected = box_value(expected);
try {
assert_equal(boxed_actual, boxed_expected);
} catch (TestError.FAILED err) {
ValaUnit.assert(
"%s[%u] == %s, expected: %s".printf(
to_collection_display(),
index,
to_display_string(boxed_actual),
to_display_string(boxed_expected)
),
this.context
);
}
return this;
}
private string to_collection_display() {
var buf = new GLib.StringBuilder();
int len = this.actual.size;
buf.append("Gee.Collection<");
buf.append(typeof(E).name());
buf.append_c('>');
if (len > 0) {
Gee.Iterator<E> iterator = this.actual.iterator();
iterator.next();
buf.append_c('{');
buf.append(to_display_string(box_value(iterator.get())));
if (len == 2) {
iterator.next();
buf.append_c(',');
buf.append(to_display_string(box_value(iterator.get())));
} else if (len > 2) {
buf.append(", … (%d more)".printf(len - 2));
}
buf.append_c('}');
}
return buf.str;
}
}
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