FastLED 3.9.15
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◆ get()

template<typename T, fl::size_t N>
T * fl::fl::aligned_ptr< T, N >::get ( ) const
inline

Definition at line 169 of file s16x16x4.h.

180{
181
182// Forward declaration for cross-type operations
183struct s0x32x4;
184
187struct s16x16x4 {
188 simd::simd_u32x4 raw; // 4× i32 values in Q16 format
189
190 // ---- Construction ------------------------------------------------------
191
192 static FASTLED_FORCE_INLINE s16x16x4 from_raw(simd::simd_u32x4 r) {
193 s16x16x4 result;
194 result.raw = r;
195 return result;
196 }
197
198 // Load 4 s16x16 values from memory (unaligned access supported)
199 static FASTLED_FORCE_INLINE s16x16x4 load(const s16x16* ptr) {
200 return from_raw(simd::platforms::load_u32_4(reinterpret_cast<const u32*>(ptr))); // ok reinterpret cast
201 }
202
203 // Store 4 s16x16 values to memory (unaligned access supported)
204 FASTLED_FORCE_INLINE void store(s16x16* ptr) const {
205 simd::platforms::store_u32_4(reinterpret_cast<u32*>(ptr), raw); // ok reinterpret cast
206 }
207
208 // Broadcast single s16x16 value to all 4 lanes
209 static FASTLED_FORCE_INLINE s16x16x4 set1(s16x16 value) {
210 return from_raw(simd::platforms::set1_u32_4(static_cast<u32>(value.raw())));
211 }
212
213 // ---- SIMD arithmetic (s16x16x4 OP s16x16x4 → s16x16x4) -----------------
214
215 FASTLED_FORCE_INLINE s16x16x4 operator+(s16x16x4 b) const {
216 return from_raw(simd::add_i32_4(raw, b.raw));
217 }
218
219 FASTLED_FORCE_INLINE s16x16x4 operator-(s16x16x4 b) const {
220 return from_raw(simd::sub_i32_4(raw, b.raw));
221 }
222
223 FASTLED_FORCE_INLINE s16x16x4 operator*(s16x16x4 b) const {
224 // Q16 × Q16 = Q32 → shift right 16 → Q16
225 return from_raw(simd::mulhi_i32_4(raw, b.raw));
226 }
227
228 FASTLED_FORCE_INLINE s16x16x4 operator-() const {
229 // Unary negation: -x = 0 - x
230 auto zero = simd::set1_u32_4(0);
231 return from_raw(simd::sub_i32_4(zero, raw));
232 }
233
234 FASTLED_FORCE_INLINE s16x16x4 operator>>(int shift) const {
235 return from_raw(simd::sra_i32_4(raw, shift));
236 }
237
238 FASTLED_FORCE_INLINE s16x16x4 operator<<(int shift) const {
239 return from_raw(simd::sll_u32_4(raw, shift));
240 }
241
242 // Cross-type multiply: s16x16x4 × s0x32x4 → s16x16x4 (commutative)
243 // Implemented after s0x32x4 is defined
244 FASTLED_FORCE_INLINE s16x16x4 operator*(s0x32x4 b) const;
245
246 // ---- Math functions -------------------------------------------------------
247
249 FASTLED_FORCE_INLINE s16x16x4 abs() const {
250 // mask = -1 if negative (sign extended), 0 if positive
251 auto mask = simd::sra_i32_4(raw, 31);
252 // flip bits if negative, then add 1 (two's complement)
253 auto flipped = simd::xor_u32_4(raw, mask);
254 return from_raw(simd::sub_i32_4(flipped, mask));
255 }
256
258 FASTLED_FORCE_INLINE s16x16x4 min(s16x16x4 b) const {
259 return from_raw(simd::min_i32_4(raw, b.raw));
260 }
261
263 FASTLED_FORCE_INLINE s16x16x4 max(s16x16x4 b) const {
264 return from_raw(simd::max_i32_4(raw, b.raw));
265 }
266
268 FASTLED_FORCE_INLINE s16x16x4 clamp(s16x16x4 lo, s16x16x4 hi) const {
269 return max(lo).min(hi);
270 }
271
274 FASTLED_FORCE_INLINE s16x16x4 lerp(s16x16x4 b, s16x16 t) const {
275 auto t_vec = s16x16x4::set1(t);
276 auto diff = b - (*this);
277 return (*this) + (diff * t_vec);
278 }
279
282 FASTLED_FORCE_INLINE void sincos(s16x16x4& out_sin, s16x16x4& out_cos) const {
283 // Convert radians to 24-bit angle units (same as scalar s16x16)
284 // RAD_TO_24 = 2^24 / (2π) in Q16
285 static constexpr i32 RAD_TO_24 = 2670177; // from s16x16.h
286
287 // Convert 4 angles: mulhi_i32_4 does (i64*i64) >> 16
288 auto angles_u32 = simd::mulhi_su32_4(raw, simd::set1_u32_4(static_cast<u32>(RAD_TO_24)));
289
290 // Call vectorized sincos
291 auto sc = sincos32_simd(angles_u32);
292
293 // Shift results right by 15 to convert from raw sin32 output to Q16.16
294 out_sin = from_raw(simd::sra_i32_4(sc.sin_vals, 15));
295 out_cos = from_raw(simd::sra_i32_4(sc.cos_vals, 15));
296 }
297
299 FASTLED_FORCE_INLINE s16x16x4 sin() const {
300 s16x16x4 sin_out, cos_out;
301 sincos(sin_out, cos_out);
302 return sin_out;
303 }
304
306 FASTLED_FORCE_INLINE s16x16x4 cos() const {
307 s16x16x4 sin_out, cos_out;
308 sincos(sin_out, cos_out);
309 return cos_out;
310 }
311};
312
313// Include simd_ops.h to implement cross-type operations
314// Must come after all types are defined
315#include "fl/math/fixed_point/simd_ops.h" // allow-include-after-namespace
316
317} // namespace fl
min
FL_DISABLE_WARNING_PUSH U constexpr common_type_t< T, U > min(T a, U b) FL_NOEXCEPT
Memory functions are available in fl:: namespace via fl/stl/cstring.h Using declarations cannot work ...
Definition math.h:71
max
constexpr common_type_t< T, U > max(T a, U b) FL_NOEXCEPT
Definition math.h:75
abs
constexpr enable_if< is_fixed_point< T >::value, T >::type abs(T x) FL_NOEXCEPT
Definition fixed_point.h:525
fl::fl::aligned_ptr
Definition s16x16x4.h:162
operator+
FASTLED_FORCE_INLINE CRGB * operator+(const CRGBSet &pixels, int offset)
Retrieve a pointer to a CRGB array, using a CRGBSet and an LED offset.
Definition pixelset.h:488
simd_ops.h
Cross-type SIMD fixed-point operations (implemented after all types are defined)