mirror of
https://github.com/42wim/matterbridge
synced 2024-11-17 03:26:07 +00:00
53cafa9f3d
This commit adds support for go/cgo tgs conversion when building with the -tags `cgo` The default binaries are still "pure" go and uses the old way of converting. * Move lottie_convert.py conversion code to its own file * Add optional libtgsconverter * Update vendor * Apply suggestions from code review * Update bridge/helper/libtgsconverter.go Co-authored-by: Wim <wim@42.be>
564 lines
14 KiB
C++
564 lines
14 KiB
C++
/*
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* Copyright (c) 2020 Samsung Electronics Co., Ltd. All rights reserved.
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#include "vector_vraster.h"
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#include <climits>
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#include <cstring>
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#include <memory>
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#include "config.h"
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#include "vector_freetype_v_ft_raster.h"
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#include "vector_freetype_v_ft_stroker.h"
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#include "vector_vdebug.h"
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#include "vector_vmatrix.h"
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#include "vector_vpath.h"
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#include "vector_vrle.h"
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V_BEGIN_NAMESPACE
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template <typename T>
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class dyn_array {
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public:
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explicit dyn_array(size_t size)
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: mCapacity(size), mData(std::make_unique<T[]>(mCapacity))
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{
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}
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void reserve(size_t size)
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{
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if (mCapacity > size) return;
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mCapacity = size;
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mData = std::make_unique<T[]>(mCapacity);
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}
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T * data() const { return mData.get(); }
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dyn_array &operator=(dyn_array &&) noexcept = delete;
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private:
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size_t mCapacity{0};
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std::unique_ptr<T[]> mData{nullptr};
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};
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struct FTOutline {
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public:
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void reset();
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void grow(size_t, size_t);
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void convert(const VPath &path);
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void convert(CapStyle, JoinStyle, float, float);
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void moveTo(const VPointF &pt);
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void lineTo(const VPointF &pt);
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void cubicTo(const VPointF &ctr1, const VPointF &ctr2, const VPointF end);
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void close();
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void end();
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void transform(const VMatrix &m);
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SW_FT_Pos TO_FT_COORD(float x)
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{
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return SW_FT_Pos(x * 64);
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} // to freetype 26.6 coordinate.
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SW_FT_Outline ft;
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bool closed{false};
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SW_FT_Stroker_LineCap ftCap;
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SW_FT_Stroker_LineJoin ftJoin;
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SW_FT_Fixed ftWidth;
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SW_FT_Fixed ftMiterLimit;
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dyn_array<SW_FT_Vector> mPointMemory{100};
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dyn_array<char> mTagMemory{100};
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dyn_array<short> mContourMemory{10};
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dyn_array<char> mContourFlagMemory{10};
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};
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void FTOutline::reset()
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{
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ft.n_points = ft.n_contours = 0;
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ft.flags = 0x0;
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}
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void FTOutline::grow(size_t points, size_t segments)
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{
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reset();
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mPointMemory.reserve(points + segments);
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mTagMemory.reserve(points + segments);
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mContourMemory.reserve(segments);
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mContourFlagMemory.reserve(segments);
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ft.points = mPointMemory.data();
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ft.tags = mTagMemory.data();
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ft.contours = mContourMemory.data();
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ft.contours_flag = mContourFlagMemory.data();
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}
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void FTOutline::convert(const VPath &path)
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{
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const std::vector<VPath::Element> &elements = path.elements();
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const std::vector<VPointF> & points = path.points();
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grow(points.size(), path.segments());
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size_t index = 0;
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for (auto element : elements) {
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switch (element) {
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case VPath::Element::MoveTo:
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moveTo(points[index]);
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index++;
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break;
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case VPath::Element::LineTo:
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lineTo(points[index]);
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index++;
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break;
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case VPath::Element::CubicTo:
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cubicTo(points[index], points[index + 1], points[index + 2]);
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index = index + 3;
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break;
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case VPath::Element::Close:
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close();
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break;
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}
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}
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end();
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}
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void FTOutline::convert(CapStyle cap, JoinStyle join, float width,
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float miterLimit)
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{
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// map strokeWidth to freetype. It uses as the radius of the pen not the
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// diameter
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width = width / 2.0f;
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// convert to freetype co-ordinate
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// IMP: stroker takes radius in 26.6 co-ordinate
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ftWidth = SW_FT_Fixed(width * (1 << 6));
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// IMP: stroker takes meterlimit in 16.16 co-ordinate
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ftMiterLimit = SW_FT_Fixed(miterLimit * (1 << 16));
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// map to freetype capstyle
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switch (cap) {
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case CapStyle::Square:
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ftCap = SW_FT_STROKER_LINECAP_SQUARE;
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break;
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case CapStyle::Round:
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ftCap = SW_FT_STROKER_LINECAP_ROUND;
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break;
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default:
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ftCap = SW_FT_STROKER_LINECAP_BUTT;
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break;
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}
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switch (join) {
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case JoinStyle::Bevel:
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ftJoin = SW_FT_STROKER_LINEJOIN_BEVEL;
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break;
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case JoinStyle::Round:
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ftJoin = SW_FT_STROKER_LINEJOIN_ROUND;
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break;
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default:
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ftJoin = SW_FT_STROKER_LINEJOIN_MITER_FIXED;
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break;
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}
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}
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void FTOutline::moveTo(const VPointF &pt)
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{
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assert(ft.n_points <= SHRT_MAX - 1);
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ft.points[ft.n_points].x = TO_FT_COORD(pt.x());
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ft.points[ft.n_points].y = TO_FT_COORD(pt.y());
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_ON;
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if (ft.n_points) {
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ft.contours[ft.n_contours] = ft.n_points - 1;
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ft.n_contours++;
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}
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// mark the current contour as open
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// will be updated if ther is a close tag at the end.
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ft.contours_flag[ft.n_contours] = 1;
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ft.n_points++;
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}
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void FTOutline::lineTo(const VPointF &pt)
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{
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assert(ft.n_points <= SHRT_MAX - 1);
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ft.points[ft.n_points].x = TO_FT_COORD(pt.x());
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ft.points[ft.n_points].y = TO_FT_COORD(pt.y());
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_ON;
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ft.n_points++;
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}
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void FTOutline::cubicTo(const VPointF &cp1, const VPointF &cp2,
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const VPointF ep)
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{
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assert(ft.n_points <= SHRT_MAX - 3);
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ft.points[ft.n_points].x = TO_FT_COORD(cp1.x());
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ft.points[ft.n_points].y = TO_FT_COORD(cp1.y());
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_CUBIC;
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ft.n_points++;
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ft.points[ft.n_points].x = TO_FT_COORD(cp2.x());
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ft.points[ft.n_points].y = TO_FT_COORD(cp2.y());
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_CUBIC;
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ft.n_points++;
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ft.points[ft.n_points].x = TO_FT_COORD(ep.x());
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ft.points[ft.n_points].y = TO_FT_COORD(ep.y());
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_ON;
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ft.n_points++;
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}
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void FTOutline::close()
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{
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assert(ft.n_points <= SHRT_MAX - 1);
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// mark the contour as a close path.
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ft.contours_flag[ft.n_contours] = 0;
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int index;
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if (ft.n_contours) {
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index = ft.contours[ft.n_contours - 1] + 1;
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} else {
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index = 0;
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}
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// make sure atleast 1 point exists in the segment.
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if (ft.n_points == index) {
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closed = false;
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return;
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}
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ft.points[ft.n_points].x = ft.points[index].x;
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ft.points[ft.n_points].y = ft.points[index].y;
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ft.tags[ft.n_points] = SW_FT_CURVE_TAG_ON;
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ft.n_points++;
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}
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void FTOutline::end()
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{
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assert(ft.n_contours <= SHRT_MAX - 1);
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if (ft.n_points) {
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ft.contours[ft.n_contours] = ft.n_points - 1;
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ft.n_contours++;
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}
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}
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static void rleGenerationCb(int count, const SW_FT_Span *spans, void *user)
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{
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VRle *rle = static_cast<VRle *>(user);
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auto *rleSpan = reinterpret_cast<const VRle::Span *>(spans);
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rle->addSpan(rleSpan, count);
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}
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static void bboxCb(int x, int y, int w, int h, void *user)
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{
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VRle *rle = static_cast<VRle *>(user);
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rle->setBoundingRect({x, y, w, h});
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}
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class SharedRle {
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public:
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SharedRle() = default;
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VRle &unsafe() { return _rle; }
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void notify()
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{
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{
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std::lock_guard<std::mutex> lock(_mutex);
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_ready = true;
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}
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_cv.notify_one();
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}
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void wait()
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{
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if (!_pending) return;
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{
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std::unique_lock<std::mutex> lock(_mutex);
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while (!_ready) _cv.wait(lock);
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}
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_pending = false;
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}
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VRle &get()
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{
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wait();
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return _rle;
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}
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void reset()
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{
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wait();
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_ready = false;
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_pending = true;
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}
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private:
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VRle _rle;
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std::mutex _mutex;
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std::condition_variable _cv;
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bool _ready{true};
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bool _pending{false};
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};
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struct VRleTask {
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SharedRle mRle;
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VPath mPath;
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float mStrokeWidth;
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float mMiterLimit;
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VRect mClip;
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FillRule mFillRule;
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CapStyle mCap;
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JoinStyle mJoin;
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bool mGenerateStroke;
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VRle &rle() { return mRle.get(); }
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void update(VPath path, FillRule fillRule, const VRect &clip)
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{
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mRle.reset();
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mPath = std::move(path);
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mFillRule = fillRule;
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mClip = clip;
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mGenerateStroke = false;
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}
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void update(VPath path, CapStyle cap, JoinStyle join, float width,
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float miterLimit, const VRect &clip)
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{
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mRle.reset();
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mPath = std::move(path);
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mCap = cap;
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mJoin = join;
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mStrokeWidth = width;
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mMiterLimit = miterLimit;
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mClip = clip;
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mGenerateStroke = true;
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}
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void render(FTOutline &outRef)
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{
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SW_FT_Raster_Params params;
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mRle.unsafe().reset();
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params.flags = SW_FT_RASTER_FLAG_DIRECT | SW_FT_RASTER_FLAG_AA;
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params.gray_spans = &rleGenerationCb;
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params.bbox_cb = &bboxCb;
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params.user = &mRle.unsafe();
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params.source = &outRef.ft;
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if (!mClip.empty()) {
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params.flags |= SW_FT_RASTER_FLAG_CLIP;
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params.clip_box.xMin = mClip.left();
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params.clip_box.yMin = mClip.top();
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params.clip_box.xMax = mClip.right();
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params.clip_box.yMax = mClip.bottom();
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}
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// compute rle
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sw_ft_grays_raster.raster_render(nullptr, ¶ms);
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}
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void operator()(FTOutline &outRef, SW_FT_Stroker &stroker)
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{
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if (mPath.points().size() > SHRT_MAX ||
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mPath.points().size() + mPath.segments() > SHRT_MAX) {
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return;
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}
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if (mGenerateStroke) { // Stroke Task
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outRef.convert(mPath);
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outRef.convert(mCap, mJoin, mStrokeWidth, mMiterLimit);
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uint points, contors;
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SW_FT_Stroker_Set(stroker, outRef.ftWidth, outRef.ftCap,
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outRef.ftJoin, outRef.ftMiterLimit);
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SW_FT_Stroker_ParseOutline(stroker, &outRef.ft);
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SW_FT_Stroker_GetCounts(stroker, &points, &contors);
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outRef.grow(points, contors);
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SW_FT_Stroker_Export(stroker, &outRef.ft);
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} else { // Fill Task
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outRef.convert(mPath);
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int fillRuleFlag = SW_FT_OUTLINE_NONE;
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switch (mFillRule) {
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case FillRule::EvenOdd:
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fillRuleFlag = SW_FT_OUTLINE_EVEN_ODD_FILL;
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break;
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default:
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fillRuleFlag = SW_FT_OUTLINE_NONE;
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break;
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}
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outRef.ft.flags = fillRuleFlag;
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}
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render(outRef);
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mPath = VPath();
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mRle.notify();
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}
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};
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using VTask = std::shared_ptr<VRleTask>;
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#ifdef LOTTIE_THREAD_SUPPORT
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#include <thread>
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#include "vector_vtaskqueue.h"
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class RleTaskScheduler {
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const unsigned _count{std::thread::hardware_concurrency()};
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std::vector<std::thread> _threads;
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std::vector<TaskQueue<VTask>> _q{_count};
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std::atomic<unsigned> _index{0};
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void run(unsigned i)
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{
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/*
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* initalize per thread objects.
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*/
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FTOutline outlineRef;
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SW_FT_Stroker stroker;
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SW_FT_Stroker_New(&stroker);
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// Task Loop
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VTask task;
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while (true) {
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bool success = false;
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for (unsigned n = 0; n != _count * 2; ++n) {
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if (_q[(i + n) % _count].try_pop(task)) {
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success = true;
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break;
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}
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}
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if (!success && !_q[i].pop(task)) break;
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(*task)(outlineRef, stroker);
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}
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// cleanup
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SW_FT_Stroker_Done(stroker);
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}
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RleTaskScheduler()
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{
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for (unsigned n = 0; n != _count; ++n) {
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_threads.emplace_back([&, n] { run(n); });
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}
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}
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public:
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static RleTaskScheduler &instance()
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{
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static RleTaskScheduler singleton;
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return singleton;
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}
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~RleTaskScheduler()
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{
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for (auto &e : _q) e.done();
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for (auto &e : _threads) e.join();
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}
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void process(VTask task)
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{
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auto i = _index++;
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for (unsigned n = 0; n != _count; ++n) {
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if (_q[(i + n) % _count].try_push(std::move(task))) return;
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}
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if (_count > 0) {
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_q[i % _count].push(std::move(task));
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}
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}
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};
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#else
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class RleTaskScheduler {
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public:
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FTOutline outlineRef{};
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SW_FT_Stroker stroker;
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public:
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static RleTaskScheduler &instance()
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{
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static RleTaskScheduler singleton;
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return singleton;
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}
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RleTaskScheduler() { SW_FT_Stroker_New(&stroker); }
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~RleTaskScheduler() { SW_FT_Stroker_Done(stroker); }
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void process(VTask task) { (*task)(outlineRef, stroker); }
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};
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#endif
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struct VRasterizer::VRasterizerImpl {
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VRleTask mTask;
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VRle & rle() { return mTask.rle(); }
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VRleTask &task() { return mTask; }
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};
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VRle VRasterizer::rle()
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{
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if (!d) return VRle();
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return d->rle();
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}
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void VRasterizer::init()
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{
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if (!d) d = std::make_shared<VRasterizerImpl>();
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}
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void VRasterizer::updateRequest()
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{
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VTask taskObj = VTask(d, &d->task());
|
|
RleTaskScheduler::instance().process(std::move(taskObj));
|
|
}
|
|
|
|
void VRasterizer::rasterize(VPath path, FillRule fillRule, const VRect &clip)
|
|
{
|
|
init();
|
|
if (path.empty()) {
|
|
d->rle().reset();
|
|
return;
|
|
}
|
|
d->task().update(std::move(path), fillRule, clip);
|
|
updateRequest();
|
|
}
|
|
|
|
void VRasterizer::rasterize(VPath path, CapStyle cap, JoinStyle join,
|
|
float width, float miterLimit, const VRect &clip)
|
|
{
|
|
init();
|
|
if (path.empty() || vIsZero(width)) {
|
|
d->rle().reset();
|
|
return;
|
|
}
|
|
d->task().update(std::move(path), cap, join, width, miterLimit, clip);
|
|
updateRequest();
|
|
}
|
|
|
|
V_END_NAMESPACE
|