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[chromium-blink-merge.git] / cc / base / math_util.h
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1 // Copyright 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef CC_BASE_MATH_UTIL_H_
6 #define CC_BASE_MATH_UTIL_H_
8 #include <algorithm>
9 #include <cmath>
10 #include <vector>
12 #include "base/logging.h"
13 #include "base/memory/scoped_ptr.h"
14 #include "cc/base/cc_export.h"
15 #include "ui/gfx/geometry/box_f.h"
16 #include "ui/gfx/geometry/point3_f.h"
17 #include "ui/gfx/geometry/point_f.h"
18 #include "ui/gfx/geometry/scroll_offset.h"
19 #include "ui/gfx/geometry/size.h"
20 #include "ui/gfx/transform.h"
22 namespace base {
23 class Value;
24 namespace trace_event {
25 class TracedValue;
27 } // namespace base
29 namespace gfx {
30 class QuadF;
31 class Rect;
32 class RectF;
33 class Transform;
34 class Vector2dF;
35 class Vector2d;
36 class Vector3dF;
39 namespace cc {
41 struct HomogeneousCoordinate {
42 HomogeneousCoordinate(SkMScalar x, SkMScalar y, SkMScalar z, SkMScalar w) {
43 vec[0] = x;
44 vec[1] = y;
45 vec[2] = z;
46 vec[3] = w;
49 bool ShouldBeClipped() const { return w() <= 0.0; }
51 gfx::PointF CartesianPoint2d() const {
52 if (w() == SK_MScalar1)
53 return gfx::PointF(x(), y());
55 // For now, because this code is used privately only by MathUtil, it should
56 // never be called when w == 0, and we do not yet need to handle that case.
57 DCHECK(w());
58 SkMScalar inv_w = SK_MScalar1 / w();
59 return gfx::PointF(x() * inv_w, y() * inv_w);
62 gfx::Point3F CartesianPoint3d() const {
63 if (w() == SK_MScalar1)
64 return gfx::Point3F(x(), y(), z());
66 // For now, because this code is used privately only by MathUtil, it should
67 // never be called when w == 0, and we do not yet need to handle that case.
68 DCHECK(w());
69 SkMScalar inv_w = SK_MScalar1 / w();
70 return gfx::Point3F(x() * inv_w, y() * inv_w, z() * inv_w);
73 SkMScalar x() const { return vec[0]; }
74 SkMScalar y() const { return vec[1]; }
75 SkMScalar z() const { return vec[2]; }
76 SkMScalar w() const { return vec[3]; }
78 SkMScalar vec[4];
81 class CC_EXPORT MathUtil {
82 public:
83 static const double kPiDouble;
84 static const float kPiFloat;
86 static double Deg2Rad(double deg) { return deg * kPiDouble / 180.0; }
87 static double Rad2Deg(double rad) { return rad * 180.0 / kPiDouble; }
89 static float Deg2Rad(float deg) { return deg * kPiFloat / 180.0f; }
90 static float Rad2Deg(float rad) { return rad * 180.0f / kPiFloat; }
92 static float Round(float f) {
93 return (f > 0.f) ? std::floor(f + 0.5f) : std::ceil(f - 0.5f);
95 static double Round(double d) {
96 return (d > 0.0) ? std::floor(d + 0.5) : std::ceil(d - 0.5);
99 // Returns true if rounded up value does not overflow, false otherwise.
100 template <typename T>
101 static bool VerifyRoundup(T n, T mul) {
102 return mul && (n <= (std::numeric_limits<T>::max() -
103 (std::numeric_limits<T>::max() % mul)));
106 // Rounds up a given |n| to be a multiple of |mul|, but may overflow.
107 // Examples:
108 // - RoundUp(123, 50) returns 150.
109 // - RoundUp(-123, 50) returns -100.
110 template <typename T>
111 static T UncheckedRoundUp(T n, T mul) {
112 static_assert(std::numeric_limits<T>::is_integer,
113 "T must be an integer type");
114 DCHECK(VerifyRoundup(n, mul));
115 return RoundUpInternal(n, mul);
118 // Similar to UncheckedRoundUp(), but dies with a CRASH() if rounding up a
119 // given |n| overflows T.
120 template <typename T>
121 static T CheckedRoundUp(T n, T mul) {
122 static_assert(std::numeric_limits<T>::is_integer,
123 "T must be an integer type");
124 CHECK(VerifyRoundup(n, mul));
125 return RoundUpInternal(n, mul);
128 // Returns true if rounded down value does not underflow, false otherwise.
129 template <typename T>
130 static bool VerifyRoundDown(T n, T mul) {
131 return mul && (n >= (std::numeric_limits<T>::min() -
132 (std::numeric_limits<T>::min() % mul)));
135 // Rounds down a given |n| to be a multiple of |mul|, but may underflow.
136 // Examples:
137 // - RoundDown(123, 50) returns 100.
138 // - RoundDown(-123, 50) returns -150.
139 template <typename T>
140 static T UncheckedRoundDown(T n, T mul) {
141 static_assert(std::numeric_limits<T>::is_integer,
142 "T must be an integer type");
143 DCHECK(VerifyRoundDown(n, mul));
144 return RoundDownInternal(n, mul);
147 // Similar to UncheckedRoundDown(), but dies with a CRASH() if rounding down a
148 // given |n| underflows T.
149 template <typename T>
150 static T CheckedRoundDown(T n, T mul) {
151 static_assert(std::numeric_limits<T>::is_integer,
152 "T must be an integer type");
153 CHECK(VerifyRoundDown(n, mul));
154 return RoundDownInternal(n, mul);
157 template <typename T> static T ClampToRange(T value, T min, T max) {
158 return std::min(std::max(value, min), max);
161 // Background: Existing transform code does not do the right thing in
162 // MapRect / MapQuad / ProjectQuad when there is a perspective projection that
163 // causes one of the transformed vertices to go to w < 0. In those cases, it
164 // is necessary to perform clipping in homogeneous coordinates, after applying
165 // the transform, before dividing-by-w to convert to cartesian coordinates.
167 // These functions return the axis-aligned rect that encloses the correctly
168 // clipped, transformed polygon.
169 static gfx::Rect MapEnclosingClippedRect(const gfx::Transform& transform,
170 const gfx::Rect& rect);
171 static gfx::RectF MapClippedRect(const gfx::Transform& transform,
172 const gfx::RectF& rect);
173 static gfx::Rect ProjectEnclosingClippedRect(const gfx::Transform& transform,
174 const gfx::Rect& rect);
175 static gfx::RectF ProjectClippedRect(const gfx::Transform& transform,
176 const gfx::RectF& rect);
178 // This function is only valid when the transform preserves 2d axis
179 // alignment and the resulting rect will not be clipped.
180 static gfx::Rect MapEnclosedRectWith2dAxisAlignedTransform(
181 const gfx::Transform& transform,
182 const gfx::Rect& rect);
184 // Returns an array of vertices that represent the clipped polygon. After
185 // returning, indexes from 0 to num_vertices_in_clipped_quad are valid in the
186 // clipped_quad array. Note that num_vertices_in_clipped_quad may be zero,
187 // which means the entire quad was clipped, and none of the vertices in the
188 // array are valid.
189 static void MapClippedQuad(const gfx::Transform& transform,
190 const gfx::QuadF& src_quad,
191 gfx::PointF clipped_quad[8],
192 int* num_vertices_in_clipped_quad);
193 static bool MapClippedQuad3d(const gfx::Transform& transform,
194 const gfx::QuadF& src_quad,
195 gfx::Point3F clipped_quad[8],
196 int* num_vertices_in_clipped_quad);
198 static gfx::RectF ComputeEnclosingRectOfVertices(const gfx::PointF vertices[],
199 int num_vertices);
200 static gfx::RectF ComputeEnclosingClippedRect(
201 const HomogeneousCoordinate& h1,
202 const HomogeneousCoordinate& h2,
203 const HomogeneousCoordinate& h3,
204 const HomogeneousCoordinate& h4);
206 // NOTE: These functions do not do correct clipping against w = 0 plane, but
207 // they correctly detect the clipped condition via the boolean clipped.
208 static gfx::QuadF MapQuad(const gfx::Transform& transform,
209 const gfx::QuadF& quad,
210 bool* clipped);
211 static gfx::QuadF MapQuad3d(const gfx::Transform& transform,
212 const gfx::QuadF& q,
213 gfx::Point3F* p,
214 bool* clipped);
215 static gfx::PointF MapPoint(const gfx::Transform& transform,
216 const gfx::PointF& point,
217 bool* clipped);
218 static gfx::Point3F MapPoint(const gfx::Transform&,
219 const gfx::Point3F&,
220 bool* clipped);
221 static gfx::QuadF ProjectQuad(const gfx::Transform& transform,
222 const gfx::QuadF& quad,
223 bool* clipped);
224 static gfx::PointF ProjectPoint(const gfx::Transform& transform,
225 const gfx::PointF& point,
226 bool* clipped);
227 // Identical to the above function, but coerces the homogeneous coordinate to
228 // a 3d rather than a 2d point.
229 static gfx::Point3F ProjectPoint3D(const gfx::Transform& transform,
230 const gfx::PointF& point,
231 bool* clipped);
233 static gfx::Vector2dF ComputeTransform2dScaleComponents(const gfx::Transform&,
234 float fallbackValue);
236 // Makes a rect that has the same relationship to input_outer_rect as
237 // scale_inner_rect has to scale_outer_rect. scale_inner_rect should be
238 // contained within scale_outer_rect, and likewise the rectangle that is
239 // returned will be within input_outer_rect at a similar relative, scaled
240 // position.
241 static gfx::RectF ScaleRectProportional(const gfx::RectF& input_outer_rect,
242 const gfx::RectF& scale_outer_rect,
243 const gfx::RectF& scale_inner_rect);
245 // Returns the smallest angle between the given two vectors in degrees.
246 // Neither vector is assumed to be normalized.
247 static float SmallestAngleBetweenVectors(const gfx::Vector2dF& v1,
248 const gfx::Vector2dF& v2);
250 // Projects the |source| vector onto |destination|. Neither vector is assumed
251 // to be normalized.
252 static gfx::Vector2dF ProjectVector(const gfx::Vector2dF& source,
253 const gfx::Vector2dF& destination);
255 // Conversion to value.
256 static scoped_ptr<base::Value> AsValue(const gfx::Size& s);
257 static scoped_ptr<base::Value> AsValue(const gfx::Rect& r);
258 static bool FromValue(const base::Value*, gfx::Rect* out_rect);
259 static scoped_ptr<base::Value> AsValue(const gfx::PointF& q);
261 static void AddToTracedValue(const char* name,
262 const gfx::Size& s,
263 base::trace_event::TracedValue* res);
264 static void AddToTracedValue(const char* name,
265 const gfx::SizeF& s,
266 base::trace_event::TracedValue* res);
267 static void AddToTracedValue(const char* name,
268 const gfx::Rect& r,
269 base::trace_event::TracedValue* res);
270 static void AddToTracedValue(const char* name,
271 const gfx::PointF& q,
272 base::trace_event::TracedValue* res);
273 static void AddToTracedValue(const char* name,
274 const gfx::Point3F&,
275 base::trace_event::TracedValue* res);
276 static void AddToTracedValue(const char* name,
277 const gfx::Vector2d& v,
278 base::trace_event::TracedValue* res);
279 static void AddToTracedValue(const char* name,
280 const gfx::Vector2dF& v,
281 base::trace_event::TracedValue* res);
282 static void AddToTracedValue(const char* name,
283 const gfx::ScrollOffset& v,
284 base::trace_event::TracedValue* res);
285 static void AddToTracedValue(const char* name,
286 const gfx::QuadF& q,
287 base::trace_event::TracedValue* res);
288 static void AddToTracedValue(const char* name,
289 const gfx::RectF& rect,
290 base::trace_event::TracedValue* res);
291 static void AddToTracedValue(const char* name,
292 const gfx::Transform& transform,
293 base::trace_event::TracedValue* res);
294 static void AddToTracedValue(const char* name,
295 const gfx::BoxF& box,
296 base::trace_event::TracedValue* res);
298 // Returns a base::Value representation of the floating point value.
299 // If the value is inf, returns max double/float representation.
300 static double AsDoubleSafely(double value);
301 static float AsFloatSafely(float value);
303 // Returns vector that x axis (1,0,0) transforms to under given transform.
304 static gfx::Vector3dF GetXAxis(const gfx::Transform& transform);
306 // Returns vector that y axis (0,1,0) transforms to under given transform.
307 static gfx::Vector3dF GetYAxis(const gfx::Transform& transform);
309 private:
310 template <typename T>
311 static T RoundUpInternal(T n, T mul) {
312 return (n > 0) ? ((n + mul - 1) / mul) * mul : (n / mul) * mul;
315 template <typename T>
316 static T RoundDownInternal(T n, T mul) {
317 return (n > 0) ? (n / mul) * mul : (n == 0) ? 0
318 : ((n - mul + 1) / mul) * mul;
322 } // namespace cc
324 #endif // CC_BASE_MATH_UTIL_H_