/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/dom/DOMMatrix.h" #include #include #include #include "ErrorList.h" #include "js/Conversions.h" #include "js/Equality.h" #include "js/StructuredClone.h" #include "js/Value.h" #include "mozilla/Casting.h" #include "mozilla/ErrorResult.h" #include "mozilla/FloatingPoint.h" #include "mozilla/MacroForEach.h" #include "mozilla/RefPtr.h" #include "mozilla/ServoCSSParser.h" #include "mozilla/dom/BindingDeclarations.h" #include "mozilla/dom/DOMMatrixBinding.h" #include "mozilla/dom/DOMPoint.h" #include "mozilla/dom/DOMPointBinding.h" #include "mozilla/dom/ToJSValue.h" #include "mozilla/gfx/BasePoint.h" #include "mozilla/gfx/BasePoint4D.h" #include "mozilla/gfx/Point.h" #include "nsIGlobalObject.h" #include "nsPIDOMWindow.h" #include "nsString.h" #include "nsStringFlags.h" #include "nsTArray.h" #include "nsTLiteralString.h" namespace mozilla::dom { template static void SetDataInMatrix(DOMMatrixReadOnly* aMatrix, const T* aData, int aLength, ErrorResult& aRv); static const double radPerDegree = 2.0 * M_PI / 360.0; NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(DOMMatrixReadOnly, mParent) NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(DOMMatrixReadOnly, AddRef) NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(DOMMatrixReadOnly, Release) JSObject* DOMMatrixReadOnly::WrapObject(JSContext* aCx, JS::Handle aGivenProto) { return DOMMatrixReadOnly_Binding::Wrap(aCx, this, aGivenProto); } // https://drafts.fxtf.org/geometry/#matrix-validate-and-fixup-2d static bool ValidateAndFixupMatrix2DInit(DOMMatrix2DInit& aMatrixInit, ErrorResult& aRv) { #define ValidateAliases(field, alias, fieldName, aliasName) \ if ((field).WasPassed() && (alias).WasPassed() && \ !JS::SameValueZero((field).Value(), (alias).Value())) { \ aRv.ThrowTypeError((fieldName), \ (aliasName)); \ return false; \ } #define SetFromAliasOrDefault(field, alias, defaultValue) \ if (!(field).WasPassed()) { \ if ((alias).WasPassed()) { \ (field).Construct((alias).Value()); \ } else { \ (field).Construct(defaultValue); \ } \ } #define ValidateAndSet(field, alias, fieldName, aliasName, defaultValue) \ ValidateAliases((field), (alias), fieldName, aliasName); \ SetFromAliasOrDefault((field), (alias), (defaultValue)); ValidateAndSet(aMatrixInit.mM11, aMatrixInit.mA, "m11", "a", 1); ValidateAndSet(aMatrixInit.mM12, aMatrixInit.mB, "m12", "b", 0); ValidateAndSet(aMatrixInit.mM21, aMatrixInit.mC, "m21", "c", 0); ValidateAndSet(aMatrixInit.mM22, aMatrixInit.mD, "m22", "d", 1); ValidateAndSet(aMatrixInit.mM41, aMatrixInit.mE, "m41", "e", 0); ValidateAndSet(aMatrixInit.mM42, aMatrixInit.mF, "m42", "f", 0); return true; #undef ValidateAliases #undef SetFromAliasOrDefault #undef ValidateAndSet } // https://drafts.fxtf.org/geometry/#matrix-validate-and-fixup static bool ValidateAndFixupMatrixInit(DOMMatrixInit& aMatrixInit, ErrorResult& aRv) { #define Check3DField(field, fieldName, defaultValue) \ if ((field) != (defaultValue)) { \ if (!aMatrixInit.mIs2D.WasPassed()) { \ aMatrixInit.mIs2D.Construct(false); \ return true; \ } \ if (aMatrixInit.mIs2D.Value()) { \ aRv.ThrowTypeError(fieldName); \ return false; \ } \ } if (!ValidateAndFixupMatrix2DInit(aMatrixInit, aRv)) { return false; } Check3DField(aMatrixInit.mM13, "m13", 0); Check3DField(aMatrixInit.mM14, "m14", 0); Check3DField(aMatrixInit.mM23, "m23", 0); Check3DField(aMatrixInit.mM24, "m24", 0); Check3DField(aMatrixInit.mM31, "m31", 0); Check3DField(aMatrixInit.mM32, "m32", 0); Check3DField(aMatrixInit.mM34, "m34", 0); Check3DField(aMatrixInit.mM43, "m43", 0); Check3DField(aMatrixInit.mM33, "m33", 1); Check3DField(aMatrixInit.mM44, "m44", 1); if (!aMatrixInit.mIs2D.WasPassed()) { aMatrixInit.mIs2D.Construct(true); } return true; #undef Check3DField } void DOMMatrixReadOnly::SetDataFromMatrix2DInit( const DOMMatrix2DInit& aMatrixInit) { MOZ_ASSERT(Is2D()); mMatrix2D->_11 = aMatrixInit.mM11.Value(); mMatrix2D->_12 = aMatrixInit.mM12.Value(); mMatrix2D->_21 = aMatrixInit.mM21.Value(); mMatrix2D->_22 = aMatrixInit.mM22.Value(); mMatrix2D->_31 = aMatrixInit.mM41.Value(); mMatrix2D->_32 = aMatrixInit.mM42.Value(); } void DOMMatrixReadOnly::SetDataFromMatrixInit( const DOMMatrixInit& aMatrixInit) { const bool is2D = aMatrixInit.mIs2D.Value(); MOZ_ASSERT(is2D == Is2D()); if (is2D) { SetDataFromMatrix2DInit(aMatrixInit); } else { mMatrix3D->_11 = aMatrixInit.mM11.Value(); mMatrix3D->_12 = aMatrixInit.mM12.Value(); mMatrix3D->_13 = aMatrixInit.mM13; mMatrix3D->_14 = aMatrixInit.mM14; mMatrix3D->_21 = aMatrixInit.mM21.Value(); mMatrix3D->_22 = aMatrixInit.mM22.Value(); mMatrix3D->_23 = aMatrixInit.mM23; mMatrix3D->_24 = aMatrixInit.mM24; mMatrix3D->_31 = aMatrixInit.mM31; mMatrix3D->_32 = aMatrixInit.mM32; mMatrix3D->_33 = aMatrixInit.mM33; mMatrix3D->_34 = aMatrixInit.mM34; mMatrix3D->_41 = aMatrixInit.mM41.Value(); mMatrix3D->_42 = aMatrixInit.mM42.Value(); mMatrix3D->_43 = aMatrixInit.mM43; mMatrix3D->_44 = aMatrixInit.mM44; } } already_AddRefed DOMMatrixReadOnly::FromMatrix( nsISupports* aParent, const DOMMatrix2DInit& aMatrixInit, ErrorResult& aRv) { DOMMatrix2DInit matrixInit(aMatrixInit); if (!ValidateAndFixupMatrix2DInit(matrixInit, aRv)) { return nullptr; }; RefPtr matrix = new DOMMatrixReadOnly(aParent, /* is2D */ true); matrix->SetDataFromMatrix2DInit(matrixInit); return matrix.forget(); } already_AddRefed DOMMatrixReadOnly::FromMatrix( nsISupports* aParent, const DOMMatrixInit& aMatrixInit, ErrorResult& aRv) { DOMMatrixInit matrixInit(aMatrixInit); if (!ValidateAndFixupMatrixInit(matrixInit, aRv)) { return nullptr; }; RefPtr rval = new DOMMatrixReadOnly(aParent, matrixInit.mIs2D.Value()); rval->SetDataFromMatrixInit(matrixInit); return rval.forget(); } already_AddRefed DOMMatrixReadOnly::FromMatrix( const GlobalObject& aGlobal, const DOMMatrixInit& aMatrixInit, ErrorResult& aRv) { RefPtr matrix = FromMatrix(aGlobal.GetAsSupports(), aMatrixInit, aRv); return matrix.forget(); } already_AddRefed DOMMatrixReadOnly::FromFloat32Array( const GlobalObject& aGlobal, const Float32Array& aArray32, ErrorResult& aRv) { aArray32.ComputeState(); const int length = aArray32.Length(); const bool is2D = length == 6; RefPtr obj = new DOMMatrixReadOnly(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(obj, aArray32.Data(), length, aRv); return obj.forget(); } already_AddRefed DOMMatrixReadOnly::FromFloat64Array( const GlobalObject& aGlobal, const Float64Array& aArray64, ErrorResult& aRv) { aArray64.ComputeState(); const int length = aArray64.Length(); const bool is2D = length == 6; RefPtr obj = new DOMMatrixReadOnly(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(obj, aArray64.Data(), length, aRv); return obj.forget(); } already_AddRefed DOMMatrixReadOnly::Constructor( const GlobalObject& aGlobal, const Optional& aArg, ErrorResult& aRv) { if (!aArg.WasPassed()) { RefPtr rval = new DOMMatrixReadOnly(aGlobal.GetAsSupports()); return rval.forget(); } const auto& arg = aArg.Value(); if (arg.IsUTF8String()) { nsCOMPtr win = do_QueryInterface(aGlobal.GetAsSupports()); if (!win) { aRv.ThrowTypeError(); return nullptr; } RefPtr rval = new DOMMatrixReadOnly(aGlobal.GetAsSupports()); rval->SetMatrixValue(arg.GetAsUTF8String(), aRv); return rval.forget(); } if (arg.IsDOMMatrixReadOnly()) { RefPtr obj = new DOMMatrixReadOnly( aGlobal.GetAsSupports(), arg.GetAsDOMMatrixReadOnly()); return obj.forget(); } const auto& sequence = arg.GetAsUnrestrictedDoubleSequence(); const int length = sequence.Length(); const bool is2D = length == 6; RefPtr rval = new DOMMatrixReadOnly(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(rval, sequence.Elements(), length, aRv); return rval.forget(); } already_AddRefed DOMMatrixReadOnly::ReadStructuredClone( JSContext* aCx, nsIGlobalObject* aGlobal, JSStructuredCloneReader* aReader) { uint8_t is2D; if (!JS_ReadBytes(aReader, &is2D, 1)) { return nullptr; } RefPtr rval = new DOMMatrixReadOnly(aGlobal, is2D); if (!ReadStructuredCloneElements(aReader, rval)) { return nullptr; }; return rval.forget(); } already_AddRefed DOMMatrixReadOnly::Translate(double aTx, double aTy, double aTz) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->TranslateSelf(aTx, aTy, aTz); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::Scale( double aScaleX, const Optional& aScaleY, double aScaleZ, double aOriginX, double aOriginY, double aOriginZ) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->ScaleSelf(aScaleX, aScaleY, aScaleZ, aOriginX, aOriginY, aOriginZ); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::Scale3d(double aScale, double aOriginX, double aOriginY, double aOriginZ) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->Scale3dSelf(aScale, aOriginX, aOriginY, aOriginZ); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::ScaleNonUniform( double aScaleX, double aScaleY) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->ScaleSelf(aScaleX, Optional(aScaleY), 1, 0, 0, 0); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::Rotate( double aRotX, const Optional& aRotY, const Optional& aRotZ) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->RotateSelf(aRotX, aRotY, aRotZ); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::RotateFromVector( double x, double y) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->RotateFromVectorSelf(x, y); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::RotateAxisAngle( double aX, double aY, double aZ, double aAngle) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->RotateAxisAngleSelf(aX, aY, aZ, aAngle); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::SkewX(double aSx) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->SkewXSelf(aSx); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::SkewY(double aSy) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->SkewYSelf(aSy); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::Multiply( const DOMMatrixInit& other, ErrorResult& aRv) const { RefPtr retval = new DOMMatrix(mParent, *this); retval->MultiplySelf(other, aRv); return retval.forget(); } already_AddRefed DOMMatrixReadOnly::FlipX() const { RefPtr retval = new DOMMatrix(mParent, *this); if (mMatrix3D) { gfx::Matrix4x4Double m; m._11 = -1; retval->mMatrix3D = MakeUnique(m * *mMatrix3D); } else { gfx::MatrixDouble m; m._11 = -1; retval->mMatrix2D = MakeUnique(mMatrix2D ? m * *mMatrix2D : m); } return retval.forget(); } already_AddRefed DOMMatrixReadOnly::FlipY() const { RefPtr retval = new DOMMatrix(mParent, *this); if (mMatrix3D) { gfx::Matrix4x4Double m; m._22 = -1; retval->mMatrix3D = MakeUnique(m * *mMatrix3D); } else { gfx::MatrixDouble m; m._22 = -1; retval->mMatrix2D = MakeUnique(mMatrix2D ? m * *mMatrix2D : m); } return retval.forget(); } already_AddRefed DOMMatrixReadOnly::Inverse() const { RefPtr retval = new DOMMatrix(mParent, *this); retval->InvertSelf(); return retval.forget(); } bool DOMMatrixReadOnly::Is2D() const { return !mMatrix3D; } bool DOMMatrixReadOnly::IsIdentity() const { if (mMatrix3D) { return mMatrix3D->IsIdentity(); } return mMatrix2D->IsIdentity(); } already_AddRefed DOMMatrixReadOnly::TransformPoint( const DOMPointInit& point) const { RefPtr retval = new DOMPoint(mParent); if (mMatrix3D) { gfx::Point4D transformedPoint; transformedPoint.x = point.mX; transformedPoint.y = point.mY; transformedPoint.z = point.mZ; transformedPoint.w = point.mW; transformedPoint = mMatrix3D->TransformPoint(transformedPoint); retval->SetX(transformedPoint.x); retval->SetY(transformedPoint.y); retval->SetZ(transformedPoint.z); retval->SetW(transformedPoint.w); } else if (point.mZ != 0 || point.mW != 1.0) { gfx::Matrix4x4Double tempMatrix(gfx::Matrix4x4Double::From2D(*mMatrix2D)); gfx::PointDouble4D transformedPoint; transformedPoint.x = point.mX; transformedPoint.y = point.mY; transformedPoint.z = point.mZ; transformedPoint.w = point.mW; transformedPoint = tempMatrix.TransformPoint(transformedPoint); retval->SetX(transformedPoint.x); retval->SetY(transformedPoint.y); retval->SetZ(transformedPoint.z); retval->SetW(transformedPoint.w); } else { gfx::PointDouble transformedPoint; transformedPoint.x = point.mX; transformedPoint.y = point.mY; transformedPoint = mMatrix2D->TransformPoint(transformedPoint); retval->SetX(transformedPoint.x); retval->SetY(transformedPoint.y); retval->SetZ(point.mZ); retval->SetW(point.mW); } return retval.forget(); } template void GetDataFromMatrix(const DOMMatrixReadOnly* aMatrix, T* aData) { aData[0] = static_cast(aMatrix->M11()); aData[1] = static_cast(aMatrix->M12()); aData[2] = static_cast(aMatrix->M13()); aData[3] = static_cast(aMatrix->M14()); aData[4] = static_cast(aMatrix->M21()); aData[5] = static_cast(aMatrix->M22()); aData[6] = static_cast(aMatrix->M23()); aData[7] = static_cast(aMatrix->M24()); aData[8] = static_cast(aMatrix->M31()); aData[9] = static_cast(aMatrix->M32()); aData[10] = static_cast(aMatrix->M33()); aData[11] = static_cast(aMatrix->M34()); aData[12] = static_cast(aMatrix->M41()); aData[13] = static_cast(aMatrix->M42()); aData[14] = static_cast(aMatrix->M43()); aData[15] = static_cast(aMatrix->M44()); } void DOMMatrixReadOnly::ToFloat32Array(JSContext* aCx, JS::MutableHandle aResult, ErrorResult& aRv) const { AutoTArray arr; arr.SetLength(16); GetDataFromMatrix(this, arr.Elements()); JS::Rooted value(aCx); if (!ToJSValue(aCx, TypedArrayCreator(arr), &value)) { aRv.Throw(NS_ERROR_OUT_OF_MEMORY); return; } aResult.set(&value.toObject()); } void DOMMatrixReadOnly::ToFloat64Array(JSContext* aCx, JS::MutableHandle aResult, ErrorResult& aRv) const { AutoTArray arr; arr.SetLength(16); GetDataFromMatrix(this, arr.Elements()); JS::Rooted value(aCx); if (!ToJSValue(aCx, TypedArrayCreator(arr), &value)) { aRv.Throw(NS_ERROR_OUT_OF_MEMORY); return; } aResult.set(&value.toObject()); } void DOMMatrixReadOnly::Stringify(nsAString& aResult, ErrorResult& aRv) { char cbuf[JS::MaximumNumberToStringLength]; nsAutoString matrixStr; auto AppendDouble = [&aRv, &cbuf, &matrixStr](double d, bool isLastItem = false) { if (!mozilla::IsFinite(d)) { aRv.ThrowInvalidStateError( "Matrix with a non-finite element cannot be stringified."); return false; } JS::NumberToString(d, cbuf); matrixStr.AppendASCII(cbuf); if (!isLastItem) { matrixStr.AppendLiteral(", "); } return true; }; if (mMatrix3D) { // We can't use AppendPrintf here, because it does locale-specific // formatting of floating-point values. matrixStr.AssignLiteral("matrix3d("); if (!AppendDouble(M11()) || !AppendDouble(M12()) || !AppendDouble(M13()) || !AppendDouble(M14()) || !AppendDouble(M21()) || !AppendDouble(M22()) || !AppendDouble(M23()) || !AppendDouble(M24()) || !AppendDouble(M31()) || !AppendDouble(M32()) || !AppendDouble(M33()) || !AppendDouble(M34()) || !AppendDouble(M41()) || !AppendDouble(M42()) || !AppendDouble(M43()) || !AppendDouble(M44(), true)) { return; } matrixStr.AppendLiteral(")"); } else { // We can't use AppendPrintf here, because it does locale-specific // formatting of floating-point values. matrixStr.AssignLiteral("matrix("); if (!AppendDouble(A()) || !AppendDouble(B()) || !AppendDouble(C()) || !AppendDouble(D()) || !AppendDouble(E()) || !AppendDouble(F(), true)) { return; } matrixStr.AppendLiteral(")"); } aResult = matrixStr; } // https://drafts.fxtf.org/geometry/#structured-serialization bool DOMMatrixReadOnly::WriteStructuredClone( JSContext* aCx, JSStructuredCloneWriter* aWriter) const { const uint8_t is2D = Is2D(); if (!JS_WriteBytes(aWriter, &is2D, 1)) { return false; } if (is2D == 1) { return JS_WriteDouble(aWriter, mMatrix2D->_11) && JS_WriteDouble(aWriter, mMatrix2D->_12) && JS_WriteDouble(aWriter, mMatrix2D->_21) && JS_WriteDouble(aWriter, mMatrix2D->_22) && JS_WriteDouble(aWriter, mMatrix2D->_31) && JS_WriteDouble(aWriter, mMatrix2D->_32); } return JS_WriteDouble(aWriter, mMatrix3D->_11) && JS_WriteDouble(aWriter, mMatrix3D->_12) && JS_WriteDouble(aWriter, mMatrix3D->_13) && JS_WriteDouble(aWriter, mMatrix3D->_14) && JS_WriteDouble(aWriter, mMatrix3D->_21) && JS_WriteDouble(aWriter, mMatrix3D->_22) && JS_WriteDouble(aWriter, mMatrix3D->_23) && JS_WriteDouble(aWriter, mMatrix3D->_24) && JS_WriteDouble(aWriter, mMatrix3D->_31) && JS_WriteDouble(aWriter, mMatrix3D->_32) && JS_WriteDouble(aWriter, mMatrix3D->_33) && JS_WriteDouble(aWriter, mMatrix3D->_34) && JS_WriteDouble(aWriter, mMatrix3D->_41) && JS_WriteDouble(aWriter, mMatrix3D->_42) && JS_WriteDouble(aWriter, mMatrix3D->_43) && JS_WriteDouble(aWriter, mMatrix3D->_44); } bool DOMMatrixReadOnly::ReadStructuredCloneElements( JSStructuredCloneReader* aReader, DOMMatrixReadOnly* matrix) { if (matrix->Is2D() == 1) { JS_ReadDouble(aReader, &(matrix->mMatrix2D->_11)); JS_ReadDouble(aReader, &(matrix->mMatrix2D->_12)); JS_ReadDouble(aReader, &(matrix->mMatrix2D->_21)); JS_ReadDouble(aReader, &(matrix->mMatrix2D->_22)); JS_ReadDouble(aReader, &(matrix->mMatrix2D->_31)); JS_ReadDouble(aReader, &(matrix->mMatrix2D->_32)); } else { JS_ReadDouble(aReader, &(matrix->mMatrix3D->_11)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_12)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_13)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_14)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_21)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_22)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_23)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_24)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_31)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_32)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_33)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_34)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_41)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_42)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_43)); JS_ReadDouble(aReader, &(matrix->mMatrix3D->_44)); } return true; } already_AddRefed DOMMatrix::FromMatrix( nsISupports* aParent, const DOMMatrixInit& aMatrixInit, ErrorResult& aRv) { DOMMatrixInit matrixInit(aMatrixInit); if (!ValidateAndFixupMatrixInit(matrixInit, aRv)) { return nullptr; }; RefPtr matrix = new DOMMatrix(aParent, matrixInit.mIs2D.Value()); matrix->SetDataFromMatrixInit(matrixInit); return matrix.forget(); } already_AddRefed DOMMatrix::FromMatrix( const GlobalObject& aGlobal, const DOMMatrixInit& aMatrixInit, ErrorResult& aRv) { RefPtr matrix = FromMatrix(aGlobal.GetAsSupports(), aMatrixInit, aRv); return matrix.forget(); } already_AddRefed DOMMatrix::FromFloat32Array( const GlobalObject& aGlobal, const Float32Array& aArray32, ErrorResult& aRv) { aArray32.ComputeState(); const int length = aArray32.Length(); const bool is2D = length == 6; RefPtr obj = new DOMMatrix(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(obj, aArray32.Data(), length, aRv); return obj.forget(); } already_AddRefed DOMMatrix::FromFloat64Array( const GlobalObject& aGlobal, const Float64Array& aArray64, ErrorResult& aRv) { aArray64.ComputeState(); const int length = aArray64.Length(); const bool is2D = length == 6; RefPtr obj = new DOMMatrix(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(obj, aArray64.Data(), length, aRv); return obj.forget(); } already_AddRefed DOMMatrix::Constructor( const GlobalObject& aGlobal, const Optional& aArg, ErrorResult& aRv) { if (!aArg.WasPassed()) { RefPtr rval = new DOMMatrix(aGlobal.GetAsSupports()); return rval.forget(); } const auto& arg = aArg.Value(); if (arg.IsUTF8String()) { nsCOMPtr win = do_QueryInterface(aGlobal.GetAsSupports()); if (!win) { aRv.ThrowTypeError(); return nullptr; } RefPtr rval = new DOMMatrix(aGlobal.GetAsSupports()); rval->SetMatrixValue(arg.GetAsUTF8String(), aRv); return rval.forget(); } if (arg.IsDOMMatrixReadOnly()) { RefPtr obj = new DOMMatrix(aGlobal.GetAsSupports(), arg.GetAsDOMMatrixReadOnly()); return obj.forget(); } const auto& sequence = arg.GetAsUnrestrictedDoubleSequence(); const int length = sequence.Length(); const bool is2D = length == 6; RefPtr rval = new DOMMatrix(aGlobal.GetAsSupports(), is2D); SetDataInMatrix(rval, sequence.Elements(), length, aRv); return rval.forget(); } template static void SetDataInMatrix(DOMMatrixReadOnly* aMatrix, const T* aData, int aLength, ErrorResult& aRv) { if (aLength == 16) { aMatrix->SetM11(aData[0]); aMatrix->SetM12(aData[1]); aMatrix->SetM13(aData[2]); aMatrix->SetM14(aData[3]); aMatrix->SetM21(aData[4]); aMatrix->SetM22(aData[5]); aMatrix->SetM23(aData[6]); aMatrix->SetM24(aData[7]); aMatrix->SetM31(aData[8]); aMatrix->SetM32(aData[9]); aMatrix->SetM33(aData[10]); aMatrix->SetM34(aData[11]); aMatrix->SetM41(aData[12]); aMatrix->SetM42(aData[13]); aMatrix->SetM43(aData[14]); aMatrix->SetM44(aData[15]); } else if (aLength == 6) { aMatrix->SetA(aData[0]); aMatrix->SetB(aData[1]); aMatrix->SetC(aData[2]); aMatrix->SetD(aData[3]); aMatrix->SetE(aData[4]); aMatrix->SetF(aData[5]); } else { nsAutoCString lengthStr; lengthStr.AppendInt(aLength); aRv.ThrowTypeError(lengthStr); } } already_AddRefed DOMMatrix::ReadStructuredClone( JSContext* aCx, nsIGlobalObject* aGlobal, JSStructuredCloneReader* aReader) { uint8_t is2D; if (!JS_ReadBytes(aReader, &is2D, 1)) { return nullptr; } RefPtr rval = new DOMMatrix(aGlobal, is2D); if (!ReadStructuredCloneElements(aReader, rval)) { return nullptr; }; return rval.forget(); } void DOMMatrixReadOnly::Ensure3DMatrix() { if (!mMatrix3D) { mMatrix3D = MakeUnique( gfx::Matrix4x4Double::From2D(*mMatrix2D)); mMatrix2D = nullptr; } } DOMMatrix* DOMMatrix::MultiplySelf(const DOMMatrixInit& aOtherInit, ErrorResult& aRv) { RefPtr other = FromMatrix(mParent, aOtherInit, aRv); if (aRv.Failed()) { return nullptr; } MOZ_ASSERT(other); if (other->IsIdentity()) { return this; } if (other->Is2D()) { if (mMatrix3D) { *mMatrix3D = gfx::Matrix4x4Double::From2D(*other->mMatrix2D) * *mMatrix3D; } else { *mMatrix2D = *other->mMatrix2D * *mMatrix2D; } } else { Ensure3DMatrix(); *mMatrix3D = *other->mMatrix3D * *mMatrix3D; } return this; } DOMMatrix* DOMMatrix::PreMultiplySelf(const DOMMatrixInit& aOtherInit, ErrorResult& aRv) { RefPtr other = FromMatrix(mParent, aOtherInit, aRv); if (aRv.Failed()) { return nullptr; } MOZ_ASSERT(other); if (other->IsIdentity()) { return this; } if (other->Is2D()) { if (mMatrix3D) { *mMatrix3D = *mMatrix3D * gfx::Matrix4x4Double::From2D(*other->mMatrix2D); } else { *mMatrix2D = *mMatrix2D * *other->mMatrix2D; } } else { Ensure3DMatrix(); *mMatrix3D = *mMatrix3D * *other->mMatrix3D; } return this; } DOMMatrix* DOMMatrix::TranslateSelf(double aTx, double aTy, double aTz) { if (aTx == 0 && aTy == 0 && aTz == 0) { return this; } if (mMatrix3D || aTz != 0) { Ensure3DMatrix(); mMatrix3D->PreTranslate(aTx, aTy, aTz); } else { mMatrix2D->PreTranslate(aTx, aTy); } return this; } DOMMatrix* DOMMatrix::ScaleSelf(double aScaleX, const Optional& aScaleY, double aScaleZ, double aOriginX, double aOriginY, double aOriginZ) { const double scaleY = aScaleY.WasPassed() ? aScaleY.Value() : aScaleX; TranslateSelf(aOriginX, aOriginY, aOriginZ); if (mMatrix3D || aScaleZ != 1.0) { Ensure3DMatrix(); gfx::Matrix4x4Double m; m._11 = aScaleX; m._22 = scaleY; m._33 = aScaleZ; *mMatrix3D = m * *mMatrix3D; } else { gfx::MatrixDouble m; m._11 = aScaleX; m._22 = scaleY; *mMatrix2D = m * *mMatrix2D; } TranslateSelf(-aOriginX, -aOriginY, -aOriginZ); return this; } DOMMatrix* DOMMatrix::Scale3dSelf(double aScale, double aOriginX, double aOriginY, double aOriginZ) { ScaleSelf(aScale, Optional(aScale), aScale, aOriginX, aOriginY, aOriginZ); return this; } DOMMatrix* DOMMatrix::RotateFromVectorSelf(double aX, double aY) { const double angle = (aX == 0.0 && aY == 0.0) ? 0 : atan2(aY, aX); if (fmod(angle, 2 * M_PI) == 0) { return this; } if (mMatrix3D) { RotateAxisAngleSelf(0, 0, 1, angle / radPerDegree); } else { *mMatrix2D = mMatrix2D->PreRotate(angle); } return this; } DOMMatrix* DOMMatrix::RotateSelf(double aRotX, const Optional& aRotY, const Optional& aRotZ) { double rotY; double rotZ; if (!aRotY.WasPassed() && !aRotZ.WasPassed()) { rotZ = aRotX; aRotX = 0; rotY = 0; } else { rotY = aRotY.WasPassed() ? aRotY.Value() : 0; rotZ = aRotZ.WasPassed() ? aRotZ.Value() : 0; } if (aRotX != 0 || rotY != 0) { Ensure3DMatrix(); } if (mMatrix3D) { if (fmod(rotZ, 360) != 0) { mMatrix3D->RotateZ(rotZ * radPerDegree); } if (fmod(rotY, 360) != 0) { mMatrix3D->RotateY(rotY * radPerDegree); } if (fmod(aRotX, 360) != 0) { mMatrix3D->RotateX(aRotX * radPerDegree); } } else if (fmod(rotZ, 360) != 0) { *mMatrix2D = mMatrix2D->PreRotate(rotZ * radPerDegree); } return this; } DOMMatrix* DOMMatrix::RotateAxisAngleSelf(double aX, double aY, double aZ, double aAngle) { if (fmod(aAngle, 360) == 0) { return this; } aAngle *= radPerDegree; Ensure3DMatrix(); gfx::Matrix4x4Double m; m.SetRotateAxisAngle(aX, aY, aZ, aAngle); *mMatrix3D = m * *mMatrix3D; return this; } DOMMatrix* DOMMatrix::SkewXSelf(double aSx) { if (fmod(aSx, 360) == 0) { return this; } if (mMatrix3D) { gfx::Matrix4x4Double m; m._21 = tan(aSx * radPerDegree); *mMatrix3D = m * *mMatrix3D; } else { gfx::MatrixDouble m; m._21 = tan(aSx * radPerDegree); *mMatrix2D = m * *mMatrix2D; } return this; } DOMMatrix* DOMMatrix::SkewYSelf(double aSy) { if (fmod(aSy, 360) == 0) { return this; } if (mMatrix3D) { gfx::Matrix4x4Double m; m._12 = tan(aSy * radPerDegree); *mMatrix3D = m * *mMatrix3D; } else { gfx::MatrixDouble m; m._12 = tan(aSy * radPerDegree); *mMatrix2D = m * *mMatrix2D; } return this; } DOMMatrix* DOMMatrix::InvertSelf() { if (mMatrix3D) { if (!mMatrix3D->Invert()) { mMatrix3D->SetNAN(); } } else if (!mMatrix2D->Invert()) { mMatrix2D = nullptr; mMatrix3D = MakeUnique(); mMatrix3D->SetNAN(); } return this; } DOMMatrixReadOnly* DOMMatrixReadOnly::SetMatrixValue( const nsACString& aTransformList, ErrorResult& aRv) { // An empty string is a no-op. if (aTransformList.IsEmpty()) { return this; } gfx::Matrix4x4 transform; bool contains3dTransform = false; if (!ServoCSSParser::ParseTransformIntoMatrix( aTransformList, contains3dTransform, transform)) { aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR); return nullptr; } if (!contains3dTransform) { mMatrix3D = nullptr; if (!mMatrix2D) { mMatrix2D = MakeUnique(); } SetA(transform._11); SetB(transform._12); SetC(transform._21); SetD(transform._22); SetE(transform._41); SetF(transform._42); } else { mMatrix3D = MakeUnique(transform); mMatrix2D = nullptr; } return this; } DOMMatrix* DOMMatrix::SetMatrixValue(const nsACString& aTransformList, ErrorResult& aRv) { DOMMatrixReadOnly::SetMatrixValue(aTransformList, aRv); return this; } JSObject* DOMMatrix::WrapObject(JSContext* aCx, JS::Handle aGivenProto) { return DOMMatrix_Binding::Wrap(aCx, this, aGivenProto); } } // namespace mozilla::dom