display_list/utils/dl_matrix_clip_tracker.cc - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "flutter/display_list/utils/dl_matrix_clip_tracker.h"

 #include "flutter/display_list/dl_builder.h"
 #include "flutter/fml/logging.h"

 namespace flutter {

 bool DisplayListMatrixClipTracker::is_3x3(const SkM44& m) {
   // clang-format off
   return (                                      m.rc(0, 2) == 0 &&
                                                 m.rc(1, 2) == 0 &&
           m.rc(2, 0) == 0 && m.rc(2, 1) == 0 && m.rc(2, 2) == 1 && m.rc(2, 3) == 0 &&
                                                 m.rc(3, 2) == 0);
   // clang-format on
 }

 DisplayListMatrixClipState::DisplayListMatrixClipState(const DlRect& cull_rect,
                                                        const DlMatrix& matrix)
     : cull_rect_(cull_rect), matrix_(matrix) {}

 DisplayListMatrixClipState::DisplayListMatrixClipState(const SkRect& cull_rect,
                                                        const SkMatrix& matrix)
     : cull_rect_(ToDlRect(cull_rect)), matrix_(ToDlMatrix(matrix)) {}

 DisplayListMatrixClipState::DisplayListMatrixClipState(const SkRect& cull_rect,
                                                        const SkM44& matrix)
     : cull_rect_(ToDlRect(cull_rect)), matrix_(ToDlMatrix(matrix)) {}

 DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
     const DlRect& cull_rect,
     const DlMatrix& matrix) {
   // isEmpty protects us against NaN as we normalize any empty cull rects
   DlRect cull = cull_rect.IsEmpty() ? DlRect() : cull_rect;
   saved_.emplace_back(cull, matrix);
   current_ = &saved_.back();
   save();  // saved_[0] will always be the initial settings
 }

 DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
     const SkRect& cull_rect,
     const SkMatrix& matrix) {
   // isEmpty protects us against NaN as we normalize any empty cull rects
   SkRect cull = cull_rect.isEmpty() ? SkRect::MakeEmpty() : cull_rect;
   saved_.emplace_back(cull, matrix);
   current_ = &saved_.back();
   save();  // saved_[0] will always be the initial settings
 }

 DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
     const SkRect& cull_rect,
     const SkM44& m44) {
   // isEmpty protects us against NaN as we normalize any empty cull rects
   SkRect cull = cull_rect.isEmpty() ? SkRect::MakeEmpty() : cull_rect;
   saved_.emplace_back(cull, m44);
   current_ = &saved_.back();
   save();  // saved_[0] will always be the initial settings
 }

 void DisplayListMatrixClipTracker::save() {
   saved_.emplace_back(*current_);
   current_ = &saved_.back();
 }

 void DisplayListMatrixClipTracker::restore() {
   if (saved_.size() > 2) {
     saved_.pop_back();
     current_ = &saved_.back();
   }
 }

 void DisplayListMatrixClipTracker::reset() {
   while (saved_.size() > 1) {
     saved_.pop_back();
     current_ = &saved_.back();
   }
   save();  // saved_[0] will always be the initial settings
 }

 void DisplayListMatrixClipTracker::restoreToCount(int restore_count) {
   FML_DCHECK(restore_count <= getSaveCount());
   if (restore_count < 1) {
     restore_count = 1;
   }
   while (restore_count < getSaveCount()) {
     restore();
   }
 }

 bool DisplayListMatrixClipState::inverseTransform(
     const DisplayListMatrixClipState& tracker) {
   if (tracker.is_matrix_invertable()) {
     matrix_ = matrix_ * tracker.matrix_.Invert();
     return true;
   }
   return false;
 }

 void DisplayListMatrixClipState::clipRect(const DlRect& rect,
                                           ClipOp op,
                                           bool is_aa) {
   adjustCullRect(rect, op, is_aa);
 }

 void DisplayListMatrixClipState::clipRRect(const SkRRect& rrect,
                                            ClipOp op,
                                            bool is_aa) {
   SkRect bounds = rrect.getBounds();
   switch (op) {
     case ClipOp::kIntersect:
       break;
     case ClipOp::kDifference:
       if (!rrect.isRect()) {
         return;
       }
       break;
   }
   adjustCullRect(ToDlRect(bounds), op, is_aa);
 }

 void DisplayListMatrixClipState::clipPath(const SkPath& path,
                                           ClipOp op,
                                           bool is_aa) {
   // Map "kDifference of inverse path" to "kIntersect of the original path" and
   // map "kIntersect of inverse path" to "kDifference of the original path"
   if (path.isInverseFillType()) {
     switch (op) {
       case ClipOp::kIntersect:
         op = ClipOp::kDifference;
         break;
       case ClipOp::kDifference:
         op = ClipOp::kIntersect;
         break;
     }
   }

   SkRect bounds;
   switch (op) {
     case ClipOp::kIntersect:
       bounds = path.getBounds();
       break;
     case ClipOp::kDifference:
       if (!path.isRect(&bounds)) {
         return;
       }
       break;
   }
   adjustCullRect(ToDlRect(bounds), op, is_aa);
 }

 bool DisplayListMatrixClipState::content_culled(
     const DlRect& content_bounds) const {
   if (cull_rect_.IsEmpty() || content_bounds.IsEmpty()) {
     return true;
   }
   if (!is_matrix_invertable()) {
     return true;
   }
   if (has_perspective()) {
     return false;
   }
   DlRect mapped;
   mapRect(content_bounds, &mapped);
   return !mapped.IntersectsWithRect(cull_rect_);
 }

 void DisplayListMatrixClipState::resetDeviceCullRect(const DlRect& cull_rect) {
   if (cull_rect.IsEmpty()) {
     cull_rect_ = DlRect();
   } else {
     cull_rect_ = cull_rect;
   }
 }

 void DisplayListMatrixClipState::resetLocalCullRect(const DlRect& cull_rect) {
   if (!cull_rect.IsEmpty()) {
     mapRect(cull_rect, &cull_rect_);
     if (!cull_rect_.IsEmpty()) {
       return;
     }
   }
   cull_rect_ = DlRect();
 }

 void DisplayListMatrixClipState::adjustCullRect(const DlRect& clip,
                                                 ClipOp op,
                                                 bool is_aa) {
   if (cull_rect_.IsEmpty()) {
     // No point in constraining further.
     return;
   }
   if (matrix_.HasPerspective()) {
     // We can conservatively ignore this clip.
     return;
   }
   switch (op) {
     case ClipOp::kIntersect: {
       if (clip.IsEmpty()) {
         cull_rect_ = DlRect();
         break;
       }
       DlRect rect;
       mapRect(clip, &rect);
       if (is_aa) {
         rect = DlRect::RoundOut(rect);
       }
       cull_rect_ = cull_rect_.Intersection(rect).value_or(DlRect());
       break;
     }
     case ClipOp::kDifference: {
       if (clip.IsEmpty()) {
         break;
       }
       DlRect rect;
       if (mapRect(clip, &rect)) {
         // This technique only works if the transform is rect -> rect
         if (is_aa) {
           rect = DlRect::Round(rect);
           if (rect.IsEmpty()) {
             break;
           }
         }
         cull_rect_ = cull_rect_.CutoutOrEmpty(rect);
       }
       break;
     }
   }
 }

 SkRect DisplayListMatrixClipState::local_cull_rect() const {
   if (cull_rect_.IsEmpty()) {
     return SkRect::MakeEmpty();
   }
   if (!is_matrix_invertable()) {
     return SkRect::MakeEmpty();
   }
   if (matrix_.HasPerspective2D()) {
     // We could do a 4-point long-form conversion, but since this is
     // only used for culling, let's just return a non-constricting
     // cull rect.
     return DisplayListBuilder::kMaxCullRect;
   }
   DlMatrix inverse = matrix_.Invert();
   // We eliminated perspective above so we can use the cheaper non-clipping
   // bounds transform method.
   return ToSkRect(cull_rect_.TransformBounds(inverse));
 }

 }  // namespace flutter
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "flutter/display_list/utils/dl_matrix_clip_tracker.h"

	#include "flutter/display_list/dl_builder.h"
	#include "flutter/fml/logging.h"

	namespace flutter {

	bool DisplayListMatrixClipTracker::is_3x3(const SkM44& m) {
	// clang-format off
	return ( m.rc(0, 2) == 0 &&
	m.rc(1, 2) == 0 &&
	m.rc(2, 0) == 0 && m.rc(2, 1) == 0 && m.rc(2, 2) == 1 && m.rc(2, 3) == 0 &&
	m.rc(3, 2) == 0);
	// clang-format on
	}

	DisplayListMatrixClipState::DisplayListMatrixClipState(const DlRect& cull_rect,
	const DlMatrix& matrix)
	: cull_rect_(cull_rect), matrix_(matrix) {}

	DisplayListMatrixClipState::DisplayListMatrixClipState(const SkRect& cull_rect,
	const SkMatrix& matrix)
	: cull_rect_(ToDlRect(cull_rect)), matrix_(ToDlMatrix(matrix)) {}

	DisplayListMatrixClipState::DisplayListMatrixClipState(const SkRect& cull_rect,
	const SkM44& matrix)
	: cull_rect_(ToDlRect(cull_rect)), matrix_(ToDlMatrix(matrix)) {}

	DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
	const DlRect& cull_rect,
	const DlMatrix& matrix) {
	// isEmpty protects us against NaN as we normalize any empty cull rects
	DlRect cull = cull_rect.IsEmpty() ? DlRect() : cull_rect;
	saved_.emplace_back(cull, matrix);
	current_ = &saved_.back();
	save(); // saved_[0] will always be the initial settings
	}

	DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
	const SkRect& cull_rect,
	const SkMatrix& matrix) {
	// isEmpty protects us against NaN as we normalize any empty cull rects
	SkRect cull = cull_rect.isEmpty() ? SkRect::MakeEmpty() : cull_rect;
	saved_.emplace_back(cull, matrix);
	current_ = &saved_.back();
	save(); // saved_[0] will always be the initial settings
	}

	DisplayListMatrixClipTracker::DisplayListMatrixClipTracker(
	const SkRect& cull_rect,
	const SkM44& m44) {
	// isEmpty protects us against NaN as we normalize any empty cull rects
	SkRect cull = cull_rect.isEmpty() ? SkRect::MakeEmpty() : cull_rect;
	saved_.emplace_back(cull, m44);
	current_ = &saved_.back();
	save(); // saved_[0] will always be the initial settings
	}

	void DisplayListMatrixClipTracker::save() {
	saved_.emplace_back(*current_);
	current_ = &saved_.back();
	}

	void DisplayListMatrixClipTracker::restore() {
	if (saved_.size() > 2) {
	saved_.pop_back();
	current_ = &saved_.back();
	}
	}

	void DisplayListMatrixClipTracker::reset() {
	while (saved_.size() > 1) {
	saved_.pop_back();
	current_ = &saved_.back();
	}
	save(); // saved_[0] will always be the initial settings
	}

	void DisplayListMatrixClipTracker::restoreToCount(int restore_count) {
	FML_DCHECK(restore_count <= getSaveCount());
	if (restore_count < 1) {
	restore_count = 1;
	}
	while (restore_count < getSaveCount()) {
	restore();
	}
	}

	bool DisplayListMatrixClipState::inverseTransform(
	const DisplayListMatrixClipState& tracker) {
	if (tracker.is_matrix_invertable()) {
	matrix_ = matrix_ * tracker.matrix_.Invert();
	return true;
	}
	return false;
	}

	void DisplayListMatrixClipState::clipRect(const DlRect& rect,
	ClipOp op,
	bool is_aa) {
	adjustCullRect(rect, op, is_aa);
	}

	void DisplayListMatrixClipState::clipRRect(const SkRRect& rrect,
	ClipOp op,
	bool is_aa) {
	SkRect bounds = rrect.getBounds();
	switch (op) {
	case ClipOp::kIntersect:
	break;
	case ClipOp::kDifference:
	if (!rrect.isRect()) {
	return;
	}
	break;
	}
	adjustCullRect(ToDlRect(bounds), op, is_aa);
	}

	void DisplayListMatrixClipState::clipPath(const SkPath& path,
	ClipOp op,
	bool is_aa) {
	// Map "kDifference of inverse path" to "kIntersect of the original path" and
	// map "kIntersect of inverse path" to "kDifference of the original path"
	if (path.isInverseFillType()) {
	switch (op) {
	case ClipOp::kIntersect:
	op = ClipOp::kDifference;
	break;
	case ClipOp::kDifference:
	op = ClipOp::kIntersect;
	break;
	}
	}

	SkRect bounds;
	switch (op) {
	case ClipOp::kIntersect:
	bounds = path.getBounds();
	break;
	case ClipOp::kDifference:
	if (!path.isRect(&bounds)) {
	return;
	}
	break;
	}
	adjustCullRect(ToDlRect(bounds), op, is_aa);
	}

	bool DisplayListMatrixClipState::content_culled(
	const DlRect& content_bounds) const {
	if (cull_rect_.IsEmpty() \|\| content_bounds.IsEmpty()) {
	return true;
	}
	if (!is_matrix_invertable()) {
	return true;
	}
	if (has_perspective()) {
	return false;
	}
	DlRect mapped;
	mapRect(content_bounds, &mapped);
	return !mapped.IntersectsWithRect(cull_rect_);
	}

	void DisplayListMatrixClipState::resetDeviceCullRect(const DlRect& cull_rect) {
	if (cull_rect.IsEmpty()) {
	cull_rect_ = DlRect();
	} else {
	cull_rect_ = cull_rect;
	}
	}

	void DisplayListMatrixClipState::resetLocalCullRect(const DlRect& cull_rect) {
	if (!cull_rect.IsEmpty()) {
	mapRect(cull_rect, &cull_rect_);
	if (!cull_rect_.IsEmpty()) {
	return;
	}
	}
	cull_rect_ = DlRect();
	}

	void DisplayListMatrixClipState::adjustCullRect(const DlRect& clip,
	ClipOp op,
	bool is_aa) {
	if (cull_rect_.IsEmpty()) {
	// No point in constraining further.
	return;
	}
	if (matrix_.HasPerspective()) {
	// We can conservatively ignore this clip.
	return;
	}
	switch (op) {
	case ClipOp::kIntersect: {
	if (clip.IsEmpty()) {
	cull_rect_ = DlRect();
	break;
	}
	DlRect rect;
	mapRect(clip, &rect);
	if (is_aa) {
	rect = DlRect::RoundOut(rect);
	}
	cull_rect_ = cull_rect_.Intersection(rect).value_or(DlRect());
	break;
	}
	case ClipOp::kDifference: {
	if (clip.IsEmpty()) {
	break;
	}
	DlRect rect;
	if (mapRect(clip, &rect)) {
	// This technique only works if the transform is rect -> rect
	if (is_aa) {
	rect = DlRect::Round(rect);
	if (rect.IsEmpty()) {
	break;
	}
	}
	cull_rect_ = cull_rect_.CutoutOrEmpty(rect);
	}
	break;
	}
	}
	}

	SkRect DisplayListMatrixClipState::local_cull_rect() const {
	if (cull_rect_.IsEmpty()) {
	return SkRect::MakeEmpty();
	}
	if (!is_matrix_invertable()) {
	return SkRect::MakeEmpty();
	}
	if (matrix_.HasPerspective2D()) {
	// We could do a 4-point long-form conversion, but since this is
	// only used for culling, let's just return a non-constricting
	// cull rect.
	return DisplayListBuilder::kMaxCullRect;
	}
	DlMatrix inverse = matrix_.Invert();
	// We eliminated perspective above so we can use the cheaper non-clipping
	// bounds transform method.
	return ToSkRect(cull_rect_.TransformBounds(inverse));
	}

	} // namespace flutter