1
2/*
3 * Copyright 2006 The Android Open Source Project
4 *
5 * Use of this source code is governed by a BSD-style license that can be
6 * found in the LICENSE file.
7 */
8
9
10#ifndef SkPathEffect_DEFINED
11#define SkPathEffect_DEFINED
12
13#include "SkFlattenable.h"
14#include "SkPath.h"
15#include "SkPoint.h"
16#include "SkRect.h"
17#include "SkStrokeRec.h"
18#include "SkTDArray.h"
19
20class SkPath;
21
22/** \class SkPathEffect
23
24    SkPathEffect is the base class for objects in the SkPaint that affect
25    the geometry of a drawing primitive before it is transformed by the
26    canvas' matrix and drawn.
27
28    Dashing is implemented as a subclass of SkPathEffect.
29*/
30class SK_API SkPathEffect : public SkFlattenable {
31public:
32    SK_DECLARE_INST_COUNT(SkPathEffect)
33
34    /**
35     *  Given a src path (input) and a stroke-rec (input and output), apply
36     *  this effect to the src path, returning the new path in dst, and return
37     *  true. If this effect cannot be applied, return false and ignore dst
38     *  and stroke-rec.
39     *
40     *  The stroke-rec specifies the initial request for stroking (if any).
41     *  The effect can treat this as input only, or it can choose to change
42     *  the rec as well. For example, the effect can decide to change the
43     *  stroke's width or join, or the effect can change the rec from stroke
44     *  to fill (or fill to stroke) in addition to returning a new (dst) path.
45     *
46     *  If this method returns true, the caller will apply (as needed) the
47     *  resulting stroke-rec to dst and then draw.
48     */
49    virtual bool filterPath(SkPath* dst, const SkPath& src,
50                            SkStrokeRec*, const SkRect* cullR) const = 0;
51
52    /**
53     *  Compute a conservative bounds for its effect, given the src bounds.
54     *  The baseline implementation just assigns src to dst.
55     */
56    virtual void computeFastBounds(SkRect* dst, const SkRect& src) const;
57
58    /** \class PointData
59
60        PointData aggregates all the information needed to draw the point
61        primitives returned by an 'asPoints' call.
62    */
63    class PointData {
64    public:
65        PointData()
66            : fFlags(0)
67            , fPoints(NULL)
68            , fNumPoints(0) {
69            fSize.set(SK_Scalar1, SK_Scalar1);
70            // 'asPoints' needs to initialize/fill-in 'fClipRect' if it sets
71            // the kUseClip flag
72        };
73        ~PointData() {
74            delete [] fPoints;
75        }
76
77        // TODO: consider using passed-in flags to limit the work asPoints does.
78        // For example, a kNoPath flag could indicate don't bother generating
79        // stamped solutions.
80
81        // Currently none of these flags are supported.
82        enum PointFlags {
83            kCircles_PointFlag            = 0x01,   // draw points as circles (instead of rects)
84            kUsePath_PointFlag            = 0x02,   // draw points as stamps of the returned path
85            kUseClip_PointFlag            = 0x04,   // apply 'fClipRect' before drawing the points
86        };
87
88        uint32_t           fFlags;      // flags that impact the drawing of the points
89        SkPoint*           fPoints;     // the center point of each generated point
90        int                fNumPoints;  // number of points in fPoints
91        SkVector           fSize;       // the size to draw the points
92        SkRect             fClipRect;   // clip required to draw the points (if kUseClip is set)
93        SkPath             fPath;       // 'stamp' to be used at each point (if kUsePath is set)
94
95        SkPath             fFirst;      // If not empty, contains geometry for first point
96        SkPath             fLast;       // If not empty, contains geometry for last point
97    };
98
99    /**
100     *  Does applying this path effect to 'src' yield a set of points? If so,
101     *  optionally return the points in 'results'.
102     */
103    virtual bool asPoints(PointData* results, const SkPath& src,
104                          const SkStrokeRec&, const SkMatrix&,
105                          const SkRect* cullR) const;
106
107    /**
108     *  If the PathEffect can be represented as a dash pattern, asADash will return kDash_DashType
109     *  and None otherwise. If a non NULL info is passed in, the various DashInfo will be filled
110     *  in if the PathEffect can be a dash pattern. If passed in info has an fCount equal or
111     *  greater to that of the effect, it will memcpy the values of the dash intervals into the
112     *  info. Thus the general approach will be call asADash once with default info to get DashType
113     *  and fCount. If effect can be represented as a dash pattern, allocate space for the intervals
114     *  in info, then call asADash again with the same info and the intervals will get copied in.
115     */
116
117    enum DashType {
118        kNone_DashType, //!< ignores the info parameter
119        kDash_DashType, //!< fills in all of the info parameter
120    };
121
122    struct DashInfo {
123        DashInfo() : fIntervals(NULL), fCount(0), fPhase(0) {}
124
125        SkScalar*   fIntervals;         //!< Length of on/off intervals for dashed lines
126                                        //   Even values represent ons, and odds offs
127        int32_t     fCount;             //!< Number of intervals in the dash. Should be even number
128        SkScalar    fPhase;             //!< Offset into the dashed interval pattern
129                                        //   mod the sum of all intervals
130    };
131
132    virtual DashType asADash(DashInfo* info) const;
133
134    SK_DEFINE_FLATTENABLE_TYPE(SkPathEffect)
135
136protected:
137    SkPathEffect() {}
138#ifdef SK_SUPPORT_LEGACY_DEEPFLATTENING
139    SkPathEffect(SkReadBuffer& buffer) : INHERITED(buffer) {}
140#endif
141
142private:
143    // illegal
144    SkPathEffect(const SkPathEffect&);
145    SkPathEffect& operator=(const SkPathEffect&);
146
147    typedef SkFlattenable INHERITED;
148};
149
150/** \class SkPairPathEffect
151
152    Common baseclass for Compose and Sum. This subclass manages two pathEffects,
153    including flattening them. It does nothing in filterPath, and is only useful
154    for managing the lifetimes of its two arguments.
155*/
156class SkPairPathEffect : public SkPathEffect {
157public:
158    virtual ~SkPairPathEffect();
159
160protected:
161    SkPairPathEffect(SkPathEffect* pe0, SkPathEffect* pe1);
162#ifdef SK_SUPPORT_LEGACY_DEEPFLATTENING
163    SkPairPathEffect(SkReadBuffer&);
164#endif
165
166    virtual void flatten(SkWriteBuffer&) const SK_OVERRIDE;
167
168    // these are visible to our subclasses
169    SkPathEffect* fPE0, *fPE1;
170
171private:
172    typedef SkPathEffect INHERITED;
173};
174
175/** \class SkComposePathEffect
176
177    This subclass of SkPathEffect composes its two arguments, to create
178    a compound pathEffect.
179*/
180class SkComposePathEffect : public SkPairPathEffect {
181public:
182    /** Construct a pathEffect whose effect is to apply first the inner pathEffect
183        and the the outer pathEffect (e.g. outer(inner(path)))
184        The reference counts for outer and inner are both incremented in the constructor,
185        and decremented in the destructor.
186    */
187    static SkComposePathEffect* Create(SkPathEffect* outer, SkPathEffect* inner) {
188        return SkNEW_ARGS(SkComposePathEffect, (outer, inner));
189    }
190
191    virtual bool filterPath(SkPath* dst, const SkPath& src,
192                            SkStrokeRec*, const SkRect*) const SK_OVERRIDE;
193
194    SK_DECLARE_PUBLIC_FLATTENABLE_DESERIALIZATION_PROCS(SkComposePathEffect)
195
196protected:
197    SkComposePathEffect(SkPathEffect* outer, SkPathEffect* inner)
198        : INHERITED(outer, inner) {}
199
200#ifdef SK_SUPPORT_LEGACY_DEEPFLATTENING
201    explicit SkComposePathEffect(SkReadBuffer& buffer) : INHERITED(buffer) {}
202#endif
203
204private:
205    // illegal
206    SkComposePathEffect(const SkComposePathEffect&);
207    SkComposePathEffect& operator=(const SkComposePathEffect&);
208
209    typedef SkPairPathEffect INHERITED;
210};
211
212/** \class SkSumPathEffect
213
214    This subclass of SkPathEffect applies two pathEffects, one after the other.
215    Its filterPath() returns true if either of the effects succeeded.
216*/
217class SkSumPathEffect : public SkPairPathEffect {
218public:
219    /** Construct a pathEffect whose effect is to apply two effects, in sequence.
220        (e.g. first(path) + second(path))
221        The reference counts for first and second are both incremented in the constructor,
222        and decremented in the destructor.
223    */
224    static SkSumPathEffect* Create(SkPathEffect* first, SkPathEffect* second) {
225        return SkNEW_ARGS(SkSumPathEffect, (first, second));
226    }
227
228    virtual bool filterPath(SkPath* dst, const SkPath& src,
229                            SkStrokeRec*, const SkRect*) const SK_OVERRIDE;
230
231    SK_DECLARE_PUBLIC_FLATTENABLE_DESERIALIZATION_PROCS(SkSumPathEffect)
232
233protected:
234    SkSumPathEffect(SkPathEffect* first, SkPathEffect* second)
235        : INHERITED(first, second) {}
236
237#ifdef SK_SUPPORT_LEGACY_DEEPFLATTENING
238    explicit SkSumPathEffect(SkReadBuffer& buffer) : INHERITED(buffer) {}
239#endif
240
241private:
242    // illegal
243    SkSumPathEffect(const SkSumPathEffect&);
244    SkSumPathEffect& operator=(const SkSumPathEffect&);
245
246    typedef SkPairPathEffect INHERITED;
247};
248
249#endif
250