/* * Copyright (c) 2025, Sam Atkins * * SPDX-License-Identifier: BSD-2-Clause */ #include "CSSMathInvert.h" #include #include #include #include namespace Web::CSS { GC_DEFINE_ALLOCATOR(CSSMathInvert); GC::Ref CSSMathInvert::create(JS::Realm& realm, NumericType type, GC::Ref values) { return realm.create(realm, move(type), move(values)); } // https://drafts.css-houdini.org/css-typed-om-1/#dom-cssmathinvert-cssmathinvert GC::Ref CSSMathInvert::construct_impl(JS::Realm& realm, CSSNumberish value) { // The CSSMathInvert(arg) constructor is defined identically to the above, except that in the last step it returns // a new CSSMathInvert object. // NB: So, the steps below are a modification of the CSSMathNegate steps. // 1. Replace arg with the result of rectifying a numberish value for arg. auto converted_value = rectify_a_numberish_value(realm, value); // 2. Return a new CSSMathInvert whose value internal slot is set to arg. return CSSMathInvert::create(realm, converted_value->type().inverted(), converted_value); } CSSMathInvert::CSSMathInvert(JS::Realm& realm, NumericType type, GC::Ref values) : CSSMathValue(realm, Bindings::CSSMathOperator::Invert, move(type)) , m_value(move(values)) { } CSSMathInvert::~CSSMathInvert() = default; void CSSMathInvert::initialize(JS::Realm& realm) { WEB_SET_PROTOTYPE_FOR_INTERFACE(CSSMathInvert); Base::initialize(realm); } void CSSMathInvert::visit_edges(Visitor& visitor) { Base::visit_edges(visitor); visitor.visit(m_value); } // https://drafts.css-houdini.org/css-typed-om-1/#serialize-a-cssmathvalue void CSSMathInvert::serialize_math_value(StringBuilder& s, Nested nested, Parens parens) const { // NB: Only steps 1 and 6 apply here. // 1. Let s initially be the empty string. // 6. Otherwise, if this is a CSSMathInvert: { // 1. If paren-less is true, continue to the next step; otherwise, if nested is true, append "(" to s; // otherwise, append "calc(" to s. if (parens == Parens::With) { if (nested == Nested::Yes) { s.append('('); } else { s.append("calc("sv); } } // 2. Append "1 / " to s. s.append("1 / "sv); // 3. Serialize this’s value internal slot with nested set to true, and append the result to s. m_value->serialize(s, { .nested = true }); // 4. If paren-less is false, append ")" to s, if (parens == Parens::With) s.append(')'); // 5. Return s. } } // https://drafts.css-houdini.org/css-typed-om-1/#dom-cssmathinvert-value GC::Ref CSSMathInvert::value() const { return m_value; } // https://drafts.css-houdini.org/css-typed-om-1/#equal-numeric-value bool CSSMathInvert::is_equal_numeric_value(GC::Ref other) const { // NB: Only steps 1, 4 and 5 are relevant. // 1. If value1 and value2 are not members of the same interface, return false. auto* other_invert = as_if(*other); if (!other_invert) return false; // 4. Assert: value1 and value2 are both CSSMathNegates or CSSMathInverts. // 5. Return whether value1’s value and value2’s value are equal numeric values. return m_value->is_equal_numeric_value(other_invert->m_value); } // https://drafts.css-houdini.org/css-typed-om-1/#create-a-sum-value Optional CSSMathInvert::create_a_sum_value() const { // 1. Let values be the result of creating a sum value from this’s value internal slot. auto values = m_value->create_a_sum_value(); // 2. If values is failure, return failure. if (!values.has_value()) return {}; // 3. If the length of values is more than one, return failure. if (values->size() > 1) return {}; // 4. Invert (find the reciprocal of) the value of the item in values, and negate the value of each entry in its unit map. for (auto& [value, unit_map] : *values) { value = 1.0 / value; for (auto& [_, power] : unit_map) power = -power; } // 5. Return values. return values; } WebIDL::ExceptionOr> CSSMathInvert::create_calculation_node(CalculationContext const& context) const { return InvertCalculationNode::create(TRY(m_value->create_calculation_node(context))); } }