Everywhere: Hoist the Libraries folder to the top-level

Author: https://github.com/trflynn89
Commit: 93712b24bf
Pull-request: https://github.com/LadybirdBrowser/ladybird/pull/2256
Reviewed-by: https://github.com/sideshowbarker

Libraries/LibWeb/Geometry/DOMQuad.cpp

@@ -0,0 +1,166 @@
+/*
+ * Copyright (c) 2023, Bastiaan van der Plaat <bastiaan.v.d.plaat@gmail.com>
+ *
+ * SPDX-License-Identifier: BSD-2-Clause
+ */
+
+#include <LibWeb/Bindings/DOMQuadPrototype.h>
+#include <LibWeb/Bindings/Intrinsics.h>
+#include <LibWeb/Geometry/DOMQuad.h>
+
+namespace Web::Geometry {
+
+JS_DEFINE_ALLOCATOR(DOMQuad);
+
+JS::NonnullGCPtr<DOMQuad> DOMQuad::construct_impl(JS::Realm& realm, DOMPointInit const& p1, DOMPointInit const& p2, DOMPointInit const& p3, DOMPointInit const& p4)
+{
+    return realm.heap().allocate<DOMQuad>(realm, realm, p1, p2, p3, p4);
+}
+
+JS::NonnullGCPtr<DOMQuad> DOMQuad::create(JS::Realm& realm)
+{
+    return realm.heap().allocate<DOMQuad>(realm, realm);
+}
+
+DOMQuad::DOMQuad(JS::Realm& realm, DOMPointInit const& p1, DOMPointInit const& p2, DOMPointInit const& p3, DOMPointInit const& p4)
+    : PlatformObject(realm)
+    , m_p1(DOMPoint::from_point(realm.vm(), p1))
+    , m_p2(DOMPoint::from_point(realm.vm(), p2))
+    , m_p3(DOMPoint::from_point(realm.vm(), p3))
+    , m_p4(DOMPoint::from_point(realm.vm(), p4))
+{
+}
+
+DOMQuad::DOMQuad(JS::Realm& realm)
+    : PlatformObject(realm)
+    , m_p1(DOMPoint::create(realm))
+    , m_p2(DOMPoint::create(realm))
+    , m_p3(DOMPoint::create(realm))
+    , m_p4(DOMPoint::create(realm))
+{
+}
+
+DOMQuad::~DOMQuad() = default;
+
+// https://drafts.fxtf.org/geometry/#dom-domquad-fromrect
+JS::NonnullGCPtr<DOMQuad> DOMQuad::from_rect(JS::VM& vm, DOMRectInit const& other)
+{
+    // The fromRect(other) static method on DOMQuad must create a DOMQuad from the DOMRectInit dictionary other.
+    return construct_impl(*vm.current_realm(), { other.x, other.y },
+        { other.x + other.width, other.y },
+        { other.x + other.width, other.y + other.height },
+        { other.x, other.y + other.height });
+}
+
+// https://drafts.fxtf.org/geometry/#dom-domquad-fromquad
+JS::NonnullGCPtr<DOMQuad> DOMQuad::from_quad(JS::VM& vm, DOMQuadInit const& other)
+{
+    // The fromQuad(other) static method on DOMQuad must create a DOMQuad from the DOMQuadInit dictionary other.
+    return construct_impl(*vm.current_realm(), other.p1, other.p2, other.p3, other.p4);
+}
+
+// https://drafts.fxtf.org/geometry/#dom-domquad-getbounds
+JS::NonnullGCPtr<DOMRect> DOMQuad::get_bounds() const
+{
+    // The NaN-safe minimum of a non-empty list of unrestricted double values is NaN if any member of the list is NaN, or the minimum of the list otherwise.
+    auto nan_safe_minimum = [](double a, double b, double c, double d) -> double {
+        if (isnan(a) || isnan(b) || isnan(c) || isnan(d))
+            return NAN;
+        return min(a, min(b, min(c, d)));
+    };
+
+    // Analogously, the NaN-safe maximum of a non-empty list of unrestricted double values is NaN if any member of the list is NaN, or the maximum of the list otherwise.
+    auto nan_safe_maximum = [](double a, double b, double c, double d) -> double {
+        if (isnan(a) || isnan(b) || isnan(c) || isnan(d))
+            return NAN;
+        return max(a, max(b, max(c, d)));
+    };
+
+    // 1. Let bounds be a DOMRect object.
+    auto bounds = DOMRect::create(realm(), {});
+
+    // 2. Let left be the NaN-safe minimum of point 1’s x coordinate, point 2’s x coordinate, point 3’s x coordinate and point 4’s x coordinate.
+    auto left = nan_safe_minimum(m_p1->x(), m_p2->x(), m_p3->x(), m_p4->x());
+
+    // 3. Let top be the NaN-safe minimum of point 1’s y coordinate, point 2’s y coordinate, point 3’s y coordinate and point 4’s y coordinate.
+    auto top = nan_safe_minimum(m_p1->y(), m_p2->y(), m_p3->y(), m_p4->y());
+
+    // 4. Let right be the NaN-safe maximum of point 1’s x coordinate, point 2’s x coordinate, point 3’s x coordinate and point 4’s x coordinate.
+    auto right = nan_safe_maximum(m_p1->x(), m_p2->x(), m_p3->x(), m_p4->x());
+
+    // 5. Let bottom be the NaN-safe maximum of point 1’s y coordinate, point 2’s y coordinate, point 3’s y coordinate and point 4’s y coordinate.
+    auto bottom = nan_safe_maximum(m_p1->y(), m_p2->y(), m_p3->y(), m_p4->y());
+
+    // 6. Set x coordinate of bounds to left, y coordinate of bounds to top, width dimension of bounds to right - left and height dimension of bounds to bottom - top.
+    bounds->set_x(left);
+    bounds->set_y(top);
+    bounds->set_width(right - left);
+    bounds->set_height(bottom - top);
+
+    // 7. Return bounds.
+    return bounds;
+}
+
+// https://drafts.fxtf.org/geometry/#structured-serialization
+WebIDL::ExceptionOr<void> DOMQuad::serialization_steps(HTML::SerializationRecord& serialzied, bool for_storage, HTML::SerializationMemory& memory)
+{
+    auto& vm = this->vm();
+    // 1. Set serialized.[[P1]] to the sub-serialization of value’s point 1.
+    serialzied.extend(TRY(HTML::structured_serialize_internal(vm, m_p1, for_storage, memory)));
+    // 2. Set serialized.[[P2]] to the sub-serialization of value’s point 2.
+    serialzied.extend(TRY(HTML::structured_serialize_internal(vm, m_p2, for_storage, memory)));
+    // 3. Set serialized.[[P3]] to the sub-serialization of value’s point 3.
+    serialzied.extend(TRY(HTML::structured_serialize_internal(vm, m_p3, for_storage, memory)));
+    // 4. Set serialized.[[P4]] to the sub-serialization of value’s point 4.
+    serialzied.extend(TRY(HTML::structured_serialize_internal(vm, m_p4, for_storage, memory)));
+
+    return {};
+}
+
+// https://drafts.fxtf.org/geometry/#structured-serialization
+WebIDL::ExceptionOr<void> DOMQuad::deserialization_steps(ReadonlySpan<u32> const& serialized, size_t& position, HTML::DeserializationMemory& memory)
+{
+    auto& realm = this->realm();
+    // 1. Set value’s point 1 to the sub-deserialization of serialized.[[P1]].
+    auto deserialized_record = TRY(HTML::structured_deserialize_internal(vm(), serialized, realm, memory, position));
+    if (deserialized_record.value.has_value() && is<DOMPoint>(deserialized_record.value.value().as_object()))
+        m_p1 = dynamic_cast<DOMPoint&>(deserialized_record.value.release_value().as_object());
+    position = deserialized_record.position;
+
+    // 2. Set value’s point 2 to the sub-deserialization of serialized.[[P2]].
+    deserialized_record = TRY(HTML::structured_deserialize_internal(vm(), serialized, realm, memory, position));
+    if (deserialized_record.value.has_value() && is<DOMPoint>(deserialized_record.value.value().as_object()))
+        m_p2 = dynamic_cast<DOMPoint&>(deserialized_record.value.release_value().as_object());
+    position = deserialized_record.position;
+
+    // 3. Set value’s point 3 to the sub-deserialization of serialized.[[P3]].
+    deserialized_record = TRY(HTML::structured_deserialize_internal(vm(), serialized, realm, memory, position));
+    if (deserialized_record.value.has_value() && is<DOMPoint>(deserialized_record.value.value().as_object()))
+        m_p3 = dynamic_cast<DOMPoint&>(deserialized_record.value.release_value().as_object());
+    position = deserialized_record.position;
+
+    // 4. Set value’s point 4 to the sub-deserialization of serialized.[[P4]].
+    deserialized_record = TRY(HTML::structured_deserialize_internal(vm(), serialized, realm, memory, position));
+    if (deserialized_record.value.has_value() && is<DOMPoint>(deserialized_record.value.value().as_object()))
+        m_p4 = dynamic_cast<DOMPoint&>(deserialized_record.value.release_value().as_object());
+    position = deserialized_record.position;
+
+    return {};
+}
+
+void DOMQuad::initialize(JS::Realm& realm)
+{
+    Base::initialize(realm);
+    WEB_SET_PROTOTYPE_FOR_INTERFACE(DOMQuad);
+}
+
+void DOMQuad::visit_edges(Cell::Visitor& visitor)
+{
+    Base::visit_edges(visitor);
+    visitor.visit(m_p1);
+    visitor.visit(m_p2);
+    visitor.visit(m_p3);
+    visitor.visit(m_p4);
+}
+
+}