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https://gitlab.winehq.org/wine/wine-gecko.git
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278 lines
11 KiB
C++
278 lines
11 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef MOZILLA_SVGPATHSEGUTILS_H__
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#define MOZILLA_SVGPATHSEGUTILS_H__
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#include "mozilla/ArrayUtils.h"
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#include "mozilla/gfx/Point.h"
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#include "nsDebug.h"
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namespace mozilla {
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// Path Segment Types
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static const unsigned short PATHSEG_UNKNOWN = 0;
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static const unsigned short PATHSEG_CLOSEPATH = 1;
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static const unsigned short PATHSEG_MOVETO_ABS = 2;
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static const unsigned short PATHSEG_MOVETO_REL = 3;
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static const unsigned short PATHSEG_LINETO_ABS = 4;
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static const unsigned short PATHSEG_LINETO_REL = 5;
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static const unsigned short PATHSEG_CURVETO_CUBIC_ABS = 6;
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static const unsigned short PATHSEG_CURVETO_CUBIC_REL = 7;
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static const unsigned short PATHSEG_CURVETO_QUADRATIC_ABS = 8;
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static const unsigned short PATHSEG_CURVETO_QUADRATIC_REL = 9;
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static const unsigned short PATHSEG_ARC_ABS = 10;
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static const unsigned short PATHSEG_ARC_REL = 11;
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static const unsigned short PATHSEG_LINETO_HORIZONTAL_ABS = 12;
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static const unsigned short PATHSEG_LINETO_HORIZONTAL_REL = 13;
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static const unsigned short PATHSEG_LINETO_VERTICAL_ABS = 14;
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static const unsigned short PATHSEG_LINETO_VERTICAL_REL = 15;
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static const unsigned short PATHSEG_CURVETO_CUBIC_SMOOTH_ABS = 16;
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static const unsigned short PATHSEG_CURVETO_CUBIC_SMOOTH_REL = 17;
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static const unsigned short PATHSEG_CURVETO_QUADRATIC_SMOOTH_ABS = 18;
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static const unsigned short PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL = 19;
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#define NS_SVG_PATH_SEG_MAX_ARGS 7
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#define NS_SVG_PATH_SEG_FIRST_VALID_TYPE mozilla::PATHSEG_CLOSEPATH
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#define NS_SVG_PATH_SEG_LAST_VALID_TYPE mozilla::PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL
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#define NS_SVG_PATH_SEG_TYPE_COUNT (NS_SVG_PATH_SEG_LAST_VALID_TYPE + 1)
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/**
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* Code that works with path segments can use an instance of this class to
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* store/provide information about the start of the current subpath and the
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* last path segment (if any).
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*/
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struct SVGPathTraversalState
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{
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typedef gfx::Point Point;
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enum TraversalMode {
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eUpdateAll,
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eUpdateOnlyStartAndCurrentPos
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};
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SVGPathTraversalState()
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: start(0.0, 0.0)
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, pos(0.0, 0.0)
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, cp1(0.0, 0.0)
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, cp2(0.0, 0.0)
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, length(0.0)
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, mode(eUpdateAll)
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{}
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bool ShouldUpdateLengthAndControlPoints() { return mode == eUpdateAll; }
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Point start; // start point of current sub path (reset each moveto)
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Point pos; // current position (end point of previous segment)
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Point cp1; // quadratic control point - if the previous segment was a
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// quadratic bezier curve then this is set to the absolute
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// position of its control point, otherwise its set to pos
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Point cp2; // cubic control point - if the previous segment was a cubic
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// bezier curve then this is set to the absolute position of
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// its second control point, otherwise it's set to pos
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float length; // accumulated path length
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TraversalMode mode; // indicates what to track while traversing a path
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};
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/**
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* This class is just a collection of static methods - it doesn't have any data
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* members, and it's not possible to create instances of this class. This class
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* exists purely as a convenient place to gather together a bunch of methods
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* related to manipulating and answering questions about path segments.
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* Internally we represent path segments purely as an array of floats. See the
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* comment documenting SVGPathData for more info on that.
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*
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* The DOM wrapper classes for encoded path segments (data contained in
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* instances of SVGPathData) is DOMSVGPathSeg and its sub-classes. Note that
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* there are multiple different DOM classes for path segs - one for each of the
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* 19 SVG 1.1 segment types.
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*/
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class SVGPathSegUtils
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{
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private:
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SVGPathSegUtils(){} // private to prevent instances
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public:
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static void GetValueAsString(const float *aSeg, nsAString& aValue);
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/**
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* Encode a segment type enum to a float.
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*
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* At some point in the future we will likely want to encode other
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* information into the float, such as whether the command was explicit or
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* not. For now all this method does is save on int to float runtime
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* conversion by requiring uint32_t and float to be of the same size so we
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* can simply do a bitwise uint32_t<->float copy.
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*/
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static float EncodeType(uint32_t aType) {
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static_assert(sizeof(uint32_t) == sizeof(float), "sizeof uint32_t and float must be the same");
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MOZ_ASSERT(IsValidType(aType), "Seg type not recognized");
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return *(reinterpret_cast<float*>(&aType));
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}
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static uint32_t DecodeType(float aType) {
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static_assert(sizeof(uint32_t) == sizeof(float), "sizeof uint32_t and float must be the same");
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uint32_t type = *(reinterpret_cast<uint32_t*>(&aType));
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MOZ_ASSERT(IsValidType(type), "Seg type not recognized");
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return type;
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}
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static char16_t GetPathSegTypeAsLetter(uint32_t aType) {
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MOZ_ASSERT(IsValidType(aType), "Seg type not recognized");
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static const char16_t table[] = {
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char16_t('x'), // 0 == PATHSEG_UNKNOWN
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char16_t('z'), // 1 == PATHSEG_CLOSEPATH
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char16_t('M'), // 2 == PATHSEG_MOVETO_ABS
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char16_t('m'), // 3 == PATHSEG_MOVETO_REL
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char16_t('L'), // 4 == PATHSEG_LINETO_ABS
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char16_t('l'), // 5 == PATHSEG_LINETO_REL
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char16_t('C'), // 6 == PATHSEG_CURVETO_CUBIC_ABS
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char16_t('c'), // 7 == PATHSEG_CURVETO_CUBIC_REL
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char16_t('Q'), // 8 == PATHSEG_CURVETO_QUADRATIC_ABS
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char16_t('q'), // 9 == PATHSEG_CURVETO_QUADRATIC_REL
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char16_t('A'), // 10 == PATHSEG_ARC_ABS
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char16_t('a'), // 11 == PATHSEG_ARC_REL
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char16_t('H'), // 12 == PATHSEG_LINETO_HORIZONTAL_ABS
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char16_t('h'), // 13 == PATHSEG_LINETO_HORIZONTAL_REL
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char16_t('V'), // 14 == PATHSEG_LINETO_VERTICAL_ABS
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char16_t('v'), // 15 == PATHSEG_LINETO_VERTICAL_REL
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char16_t('S'), // 16 == PATHSEG_CURVETO_CUBIC_SMOOTH_ABS
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char16_t('s'), // 17 == PATHSEG_CURVETO_CUBIC_SMOOTH_REL
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char16_t('T'), // 18 == PATHSEG_CURVETO_QUADRATIC_SMOOTH_ABS
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char16_t('t') // 19 == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL
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};
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static_assert(MOZ_ARRAY_LENGTH(table) == NS_SVG_PATH_SEG_TYPE_COUNT, "Unexpected table size");
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return table[aType];
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}
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static uint32_t ArgCountForType(uint32_t aType) {
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MOZ_ASSERT(IsValidType(aType), "Seg type not recognized");
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static const uint8_t table[] = {
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0, // 0 == PATHSEG_UNKNOWN
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0, // 1 == PATHSEG_CLOSEPATH
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2, // 2 == PATHSEG_MOVETO_ABS
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2, // 3 == PATHSEG_MOVETO_REL
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2, // 4 == PATHSEG_LINETO_ABS
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2, // 5 == PATHSEG_LINETO_REL
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6, // 6 == PATHSEG_CURVETO_CUBIC_ABS
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6, // 7 == PATHSEG_CURVETO_CUBIC_REL
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4, // 8 == PATHSEG_CURVETO_QUADRATIC_ABS
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4, // 9 == PATHSEG_CURVETO_QUADRATIC_REL
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7, // 10 == PATHSEG_ARC_ABS
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7, // 11 == PATHSEG_ARC_REL
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1, // 12 == PATHSEG_LINETO_HORIZONTAL_ABS
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1, // 13 == PATHSEG_LINETO_HORIZONTAL_REL
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1, // 14 == PATHSEG_LINETO_VERTICAL_ABS
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1, // 15 == PATHSEG_LINETO_VERTICAL_REL
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4, // 16 == PATHSEG_CURVETO_CUBIC_SMOOTH_ABS
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4, // 17 == PATHSEG_CURVETO_CUBIC_SMOOTH_REL
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2, // 18 == PATHSEG_CURVETO_QUADRATIC_SMOOTH_ABS
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2 // 19 == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL
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};
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static_assert(MOZ_ARRAY_LENGTH(table) == NS_SVG_PATH_SEG_TYPE_COUNT, "Unexpected table size");
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return table[aType];
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}
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/**
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* Convenience so that callers can pass a float containing an encoded type
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* and have it decoded implicitly.
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*/
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static uint32_t ArgCountForType(float aType) {
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return ArgCountForType(DecodeType(aType));
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}
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static bool IsValidType(uint32_t aType) {
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return aType >= NS_SVG_PATH_SEG_FIRST_VALID_TYPE &&
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aType <= NS_SVG_PATH_SEG_LAST_VALID_TYPE;
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}
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static bool IsCubicType(uint32_t aType) {
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return aType == PATHSEG_CURVETO_CUBIC_REL ||
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aType == PATHSEG_CURVETO_CUBIC_ABS ||
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aType == PATHSEG_CURVETO_CUBIC_SMOOTH_REL ||
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aType == PATHSEG_CURVETO_CUBIC_SMOOTH_ABS;
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}
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static bool IsQuadraticType(uint32_t aType) {
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return aType == PATHSEG_CURVETO_QUADRATIC_REL ||
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aType == PATHSEG_CURVETO_QUADRATIC_ABS ||
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aType == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL ||
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aType == PATHSEG_CURVETO_QUADRATIC_SMOOTH_ABS;
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}
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static bool IsArcType(uint32_t aType) {
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return aType == PATHSEG_ARC_ABS ||
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aType == PATHSEG_ARC_REL;
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}
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static bool IsRelativeOrAbsoluteType(uint32_t aType) {
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MOZ_ASSERT(IsValidType(aType), "Seg type not recognized");
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// When adding a new path segment type, ensure that the returned condition
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// below is still correct.
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static_assert(NS_SVG_PATH_SEG_LAST_VALID_TYPE == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL,
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"Unexpected type");
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return aType >= PATHSEG_MOVETO_ABS;
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}
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static bool IsRelativeType(uint32_t aType) {
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MOZ_ASSERT
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(IsRelativeOrAbsoluteType(aType),
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"IsRelativeType called with segment type that does not come in relative and absolute forms");
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// When adding a new path segment type, ensure that the returned condition
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// below is still correct.
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static_assert(NS_SVG_PATH_SEG_LAST_VALID_TYPE == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL,
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"Unexpected type");
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return aType & 1;
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}
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static uint32_t RelativeVersionOfType(uint32_t aType) {
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MOZ_ASSERT
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(IsRelativeOrAbsoluteType(aType),
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"RelativeVersionOfType called with segment type that does not come in relative and absolute forms");
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// When adding a new path segment type, ensure that the returned condition
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// below is still correct.
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static_assert(NS_SVG_PATH_SEG_LAST_VALID_TYPE == PATHSEG_CURVETO_QUADRATIC_SMOOTH_REL,
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"Unexpected type");
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return aType | 1;
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}
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static uint32_t SameTypeModuloRelativeness(uint32_t aType1, uint32_t aType2) {
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if (!IsRelativeOrAbsoluteType(aType1)) {
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return aType1 == aType2;
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}
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return RelativeVersionOfType(aType1) == RelativeVersionOfType(aType2);
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}
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/**
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* Traverse the given path segment and update the SVGPathTraversalState
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* object.
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*/
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static void TraversePathSegment(const float* aData,
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SVGPathTraversalState& aState);
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};
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} // namespace mozilla
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#endif // MOZILLA_SVGPATHSEGUTILS_H__
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