| Index: src/opts/SkNx_neon.h
|
| diff --git a/src/opts/SkNx_neon.h b/src/opts/SkNx_neon.h
|
| index eea68007a6c8167d163fd95f1b07f30ce6ccaf07..ebc3c97c4eed86b2ab1b8c050b470b251fe4d435 100644
|
| --- a/src/opts/SkNx_neon.h
|
| +++ b/src/opts/SkNx_neon.h
|
| @@ -17,9 +17,9 @@
|
| // - subtract 1 if that's too big (possible for negative values).
|
| // This restricts the domain of our inputs to a maximum somehwere around 2^31. Seems plenty big.
|
| static inline float32x4_t armv7_vrndmq_f32(float32x4_t v) {
|
| - auto roundtrip = vcvtq_f32_s32(vcvtq_s32_f32(v));
|
| - auto too_big = vcgtq_f32(roundtrip, v);
|
| - return vsubq_f32(roundtrip, (float32x4_t)vandq_u32(too_big, (uint32x4_t)vdupq_n_f32(1)));
|
| + float32x4_t roundtrip = vcvtq_f32_s32(vcvtq_s32_f32(v));
|
| + uint32x4_t too_big = roundtrip > v;
|
| + return roundtrip - (float32x4_t)vandq_u32(too_big, (uint32x4_t)vdupq_n_f32(1));
|
| }
|
|
|
| // Well, this is absurd. The shifts require compile-time constant arguments.
|
| @@ -50,40 +50,23 @@ public:
|
| SkNx(float32x2_t vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(float val) : fVec(vdup_n_f32(val)) {}
|
| - static SkNx Load(const void* ptr) { return vld1_f32((const float*)ptr); }
|
| - SkNx(float a, float b) { fVec = (float32x2_t) { a, b }; }
|
| + SkNx(float a, float b) : fVec{a,b} {}
|
| + SkNx(float v) : fVec{v,v} {}
|
|
|
| + static SkNx Load(const void* ptr) { return vld1_f32((const float*)ptr); }
|
| void store(void* ptr) const { vst1_f32((float*)ptr, fVec); }
|
|
|
| - SkNx invert() const {
|
| - float32x2_t est0 = vrecpe_f32(fVec),
|
| - est1 = vmul_f32(vrecps_f32(est0, fVec), est0);
|
| - return est1;
|
| - }
|
| -
|
| - SkNx operator + (const SkNx& o) const { return vadd_f32(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsub_f32(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmul_f32(fVec, o.fVec); }
|
| - SkNx operator / (const SkNx& o) const {
|
| - #if defined(SK_CPU_ARM64)
|
| - return vdiv_f32(fVec, o.fVec);
|
| - #else
|
| - float32x2_t est0 = vrecpe_f32(o.fVec),
|
| - est1 = vmul_f32(vrecps_f32(est0, o.fVec), est0),
|
| - est2 = vmul_f32(vrecps_f32(est1, o.fVec), est1);
|
| - return vmul_f32(fVec, est2);
|
| - #endif
|
| - }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
| + SkNx operator / (const SkNx& o) const { return fVec / o.fVec; }
|
|
|
| - SkNx operator == (const SkNx& o) const { return vreinterpret_f32_u32(vceq_f32(fVec, o.fVec)); }
|
| - SkNx operator < (const SkNx& o) const { return vreinterpret_f32_u32(vclt_f32(fVec, o.fVec)); }
|
| - SkNx operator > (const SkNx& o) const { return vreinterpret_f32_u32(vcgt_f32(fVec, o.fVec)); }
|
| - SkNx operator <= (const SkNx& o) const { return vreinterpret_f32_u32(vcle_f32(fVec, o.fVec)); }
|
| - SkNx operator >= (const SkNx& o) const { return vreinterpret_f32_u32(vcge_f32(fVec, o.fVec)); }
|
| - SkNx operator != (const SkNx& o) const {
|
| - return vreinterpret_f32_u32(vmvn_u32(vceq_f32(fVec, o.fVec)));
|
| - }
|
| + SkNx operator == (const SkNx& o) const { return fVec == o.fVec; }
|
| + SkNx operator < (const SkNx& o) const { return fVec < o.fVec; }
|
| + SkNx operator > (const SkNx& o) const { return fVec > o.fVec; }
|
| + SkNx operator <= (const SkNx& o) const { return fVec <= o.fVec; }
|
| + SkNx operator >= (const SkNx& o) const { return fVec >= o.fVec; }
|
| + SkNx operator != (const SkNx& o) const { return fVec != o.fVec; }
|
|
|
| static SkNx Min(const SkNx& l, const SkNx& r) { return vmin_f32(l.fVec, r.fVec); }
|
| static SkNx Max(const SkNx& l, const SkNx& r) { return vmax_f32(l.fVec, r.fVec); }
|
| @@ -104,12 +87,14 @@ public:
|
| #endif
|
| }
|
|
|
| - float operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 2);
|
| - union { float32x2_t v; float fs[2]; } pun = {fVec};
|
| - return pun.fs[k&1];
|
| + SkNx invert() const {
|
| + float32x2_t est0 = vrecpe_f32(fVec),
|
| + est1 = vmul_f32(vrecps_f32(est0, fVec), est0);
|
| + return est1;
|
| }
|
|
|
| + float operator[](int k) const { return fVec[k&1]; }
|
| +
|
| bool allTrue() const {
|
| auto v = vreinterpret_u32_f32(fVec);
|
| return vget_lane_u32(v,0) && vget_lane_u32(v,1);
|
| @@ -128,39 +113,23 @@ public:
|
| SkNx(float32x4_t vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(float val) : fVec(vdupq_n_f32(val)) {}
|
| - static SkNx Load(const void* ptr) { return vld1q_f32((const float*)ptr); }
|
| - SkNx(float a, float b, float c, float d) { fVec = (float32x4_t) { a, b, c, d }; }
|
| + SkNx(float a, float b, float c, float d) : fVec{a,b,c,d} {}
|
| + SkNx(float v) : fVec{v,v,v,v} {}
|
|
|
| + static SkNx Load(const void* ptr) { return vld1q_f32((const float*)ptr); }
|
| void store(void* ptr) const { vst1q_f32((float*)ptr, fVec); }
|
| - SkNx invert() const {
|
| - float32x4_t est0 = vrecpeq_f32(fVec),
|
| - est1 = vmulq_f32(vrecpsq_f32(est0, fVec), est0);
|
| - return est1;
|
| - }
|
|
|
| - SkNx operator + (const SkNx& o) const { return vaddq_f32(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsubq_f32(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmulq_f32(fVec, o.fVec); }
|
| - SkNx operator / (const SkNx& o) const {
|
| - #if defined(SK_CPU_ARM64)
|
| - return vdivq_f32(fVec, o.fVec);
|
| - #else
|
| - float32x4_t est0 = vrecpeq_f32(o.fVec),
|
| - est1 = vmulq_f32(vrecpsq_f32(est0, o.fVec), est0),
|
| - est2 = vmulq_f32(vrecpsq_f32(est1, o.fVec), est1);
|
| - return vmulq_f32(fVec, est2);
|
| - #endif
|
| - }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
| + SkNx operator / (const SkNx& o) const { return fVec / o.fVec; }
|
|
|
| - SkNx operator==(const SkNx& o) const { return vreinterpretq_f32_u32(vceqq_f32(fVec, o.fVec)); }
|
| - SkNx operator <(const SkNx& o) const { return vreinterpretq_f32_u32(vcltq_f32(fVec, o.fVec)); }
|
| - SkNx operator >(const SkNx& o) const { return vreinterpretq_f32_u32(vcgtq_f32(fVec, o.fVec)); }
|
| - SkNx operator<=(const SkNx& o) const { return vreinterpretq_f32_u32(vcleq_f32(fVec, o.fVec)); }
|
| - SkNx operator>=(const SkNx& o) const { return vreinterpretq_f32_u32(vcgeq_f32(fVec, o.fVec)); }
|
| - SkNx operator!=(const SkNx& o) const {
|
| - return vreinterpretq_f32_u32(vmvnq_u32(vceqq_f32(fVec, o.fVec)));
|
| - }
|
| + SkNx operator==(const SkNx& o) const { return fVec == o.fVec; }
|
| + SkNx operator <(const SkNx& o) const { return fVec < o.fVec; }
|
| + SkNx operator >(const SkNx& o) const { return fVec > o.fVec; }
|
| + SkNx operator<=(const SkNx& o) const { return fVec <= o.fVec; }
|
| + SkNx operator>=(const SkNx& o) const { return fVec >= o.fVec; }
|
| + SkNx operator!=(const SkNx& o) const { return fVec != o.fVec; }
|
|
|
| static SkNx Min(const SkNx& l, const SkNx& r) { return vminq_f32(l.fVec, r.fVec); }
|
| static SkNx Max(const SkNx& l, const SkNx& r) { return vmaxq_f32(l.fVec, r.fVec); }
|
| @@ -174,7 +143,6 @@ public:
|
| #endif
|
| }
|
|
|
| -
|
| SkNx rsqrt() const {
|
| float32x4_t est0 = vrsqrteq_f32(fVec);
|
| return vmulq_f32(vrsqrtsq_f32(fVec, vmulq_f32(est0, est0)), est0);
|
| @@ -191,12 +159,14 @@ public:
|
| #endif
|
| }
|
|
|
| - float operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 4);
|
| - union { float32x4_t v; float fs[4]; } pun = {fVec};
|
| - return pun.fs[k&3];
|
| + SkNx invert() const {
|
| + float32x4_t est0 = vrecpeq_f32(fVec),
|
| + est1 = vmulq_f32(vrecpsq_f32(est0, fVec), est0);
|
| + return est1;
|
| }
|
|
|
| + float operator[](int k) const { return fVec[k&3]; }
|
| +
|
| bool allTrue() const {
|
| auto v = vreinterpretq_u32_f32(fVec);
|
| return vgetq_lane_u32(v,0) && vgetq_lane_u32(v,1)
|
| @@ -224,29 +194,22 @@ public:
|
| SkNx(const uint16x4_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(uint16_t val) : fVec(vdup_n_u16(val)) {}
|
| - static SkNx Load(const void* ptr) { return vld1_u16((const uint16_t*)ptr); }
|
| -
|
| - SkNx(uint16_t a, uint16_t b, uint16_t c, uint16_t d) {
|
| - fVec = (uint16x4_t) { a,b,c,d };
|
| - }
|
| + SkNx(uint16_t a, uint16_t b, uint16_t c, uint16_t d) : fVec{a,b,c,d} {}
|
| + SkNx(uint16_t v) : fVec{v,v,v,v} {}
|
|
|
| + static SkNx Load(const void* ptr) { return vld1_u16((const uint16_t*)ptr); }
|
| void store(void* ptr) const { vst1_u16((uint16_t*)ptr, fVec); }
|
|
|
| - SkNx operator + (const SkNx& o) const { return vadd_u16(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsub_u16(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmul_u16(fVec, o.fVec); }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
|
|
| SkNx operator << (int bits) const { SHIFT16(vshl_n_u16, fVec, bits); }
|
| SkNx operator >> (int bits) const { SHIFT16(vshr_n_u16, fVec, bits); }
|
|
|
| static SkNx Min(const SkNx& a, const SkNx& b) { return vmin_u16(a.fVec, b.fVec); }
|
|
|
| - uint16_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 4);
|
| - union { uint16x4_t v; uint16_t us[4]; } pun = {fVec};
|
| - return pun.us[k&3];
|
| - }
|
| + uint16_t operator[](int k) const { return fVec[k&3]; }
|
|
|
| SkNx thenElse(const SkNx& t, const SkNx& e) const {
|
| return vbsl_u16(fVec, t.fVec, e.fVec);
|
| @@ -261,30 +224,23 @@ public:
|
| SkNx(const uint16x8_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(uint16_t val) : fVec(vdupq_n_u16(val)) {}
|
| - static SkNx Load(const void* ptr) { return vld1q_u16((const uint16_t*)ptr); }
|
| -
|
| SkNx(uint16_t a, uint16_t b, uint16_t c, uint16_t d,
|
| - uint16_t e, uint16_t f, uint16_t g, uint16_t h) {
|
| - fVec = (uint16x8_t) { a,b,c,d, e,f,g,h };
|
| - }
|
| + uint16_t e, uint16_t f, uint16_t g, uint16_t h) : fVec{a,b,c,d,e,f,g,h} {}
|
| + SkNx(uint16_t v) : fVec{v,v,v,v,v,v,v,v} {}
|
|
|
| + static SkNx Load(const void* ptr) { return vld1q_u16((const uint16_t*)ptr); }
|
| void store(void* ptr) const { vst1q_u16((uint16_t*)ptr, fVec); }
|
|
|
| - SkNx operator + (const SkNx& o) const { return vaddq_u16(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsubq_u16(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmulq_u16(fVec, o.fVec); }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
|
|
| SkNx operator << (int bits) const { SHIFT16(vshlq_n_u16, fVec, bits); }
|
| SkNx operator >> (int bits) const { SHIFT16(vshrq_n_u16, fVec, bits); }
|
|
|
| static SkNx Min(const SkNx& a, const SkNx& b) { return vminq_u16(a.fVec, b.fVec); }
|
|
|
| - uint16_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 8);
|
| - union { uint16x8_t v; uint16_t us[8]; } pun = {fVec};
|
| - return pun.us[k&7];
|
| - }
|
| + uint16_t operator[](int k) const { return fVec[k&7]; }
|
|
|
| SkNx thenElse(const SkNx& t, const SkNx& e) const {
|
| return vbslq_u16(fVec, t.fVec, e.fVec);
|
| @@ -301,22 +257,17 @@ public:
|
| SkNx(const uint8x8_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(uint8_t a, uint8_t b, uint8_t c, uint8_t d) {
|
| - fVec = (uint8x8_t){a,b,c,d, 0,0,0,0};
|
| - }
|
| + SkNx(uint8_t a, uint8_t b, uint8_t c, uint8_t d) : fVec{a,b,c,d,0,0,0,0} {}
|
| + SkNx(uint8_t v) : fVec{v,v,v,v,0,0,0,0} {}
|
| +
|
| static SkNx Load(const void* ptr) {
|
| return (uint8x8_t)vld1_dup_u32((const unaligned_uint32_t*)ptr);
|
| }
|
| void store(void* ptr) const {
|
| return vst1_lane_u32((unaligned_uint32_t*)ptr, (uint32x2_t)fVec, 0);
|
| }
|
| - uint8_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 4);
|
| - union { uint8x8_t v; uint8_t us[8]; } pun = {fVec};
|
| - return pun.us[k&3];
|
| - }
|
|
|
| - // TODO as needed
|
| + uint8_t operator[](int k) const { return fVec[k&3]; }
|
|
|
| uint8x8_t fVec;
|
| };
|
| @@ -327,31 +278,24 @@ public:
|
| SkNx(const uint8x16_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(uint8_t val) : fVec(vdupq_n_u8(val)) {}
|
| - static SkNx Load(const void* ptr) { return vld1q_u8((const uint8_t*)ptr); }
|
| -
|
| SkNx(uint8_t a, uint8_t b, uint8_t c, uint8_t d,
|
| uint8_t e, uint8_t f, uint8_t g, uint8_t h,
|
| uint8_t i, uint8_t j, uint8_t k, uint8_t l,
|
| - uint8_t m, uint8_t n, uint8_t o, uint8_t p) {
|
| - fVec = (uint8x16_t) { a,b,c,d, e,f,g,h, i,j,k,l, m,n,o,p };
|
| - }
|
| + uint8_t m, uint8_t n, uint8_t o, uint8_t p) : fVec{a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p} {}
|
| + SkNx(uint8_t v) : fVec{v,v,v,v,v,v,v,v,v,v,v,v,v,v,v,v} {}
|
|
|
| + static SkNx Load(const void* ptr) { return vld1q_u8((const uint8_t*)ptr); }
|
| void store(void* ptr) const { vst1q_u8((uint8_t*)ptr, fVec); }
|
|
|
| SkNx saturatedAdd(const SkNx& o) const { return vqaddq_u8(fVec, o.fVec); }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
|
|
| - SkNx operator + (const SkNx& o) const { return vaddq_u8(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsubq_u8(fVec, o.fVec); }
|
| + SkNx operator < (const SkNx& o) const { return fVec < o.fVec; }
|
|
|
| static SkNx Min(const SkNx& a, const SkNx& b) { return vminq_u8(a.fVec, b.fVec); }
|
| - SkNx operator < (const SkNx& o) const { return vcltq_u8(fVec, o.fVec); }
|
|
|
| - uint8_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 16);
|
| - union { uint8x16_t v; uint8_t us[16]; } pun = {fVec};
|
| - return pun.us[k&15];
|
| - }
|
| + uint8_t operator[](int k) const { return fVec[k&15]; }
|
|
|
| SkNx thenElse(const SkNx& t, const SkNx& e) const {
|
| return vbslq_u8(fVec, t.fVec, e.fVec);
|
| @@ -366,47 +310,30 @@ public:
|
| SkNx(const int32x4_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(int32_t v) {
|
| - fVec = vdupq_n_s32(v);
|
| - }
|
| - SkNx(int32_t a, int32_t b, int32_t c, int32_t d) {
|
| - fVec = (int32x4_t){a,b,c,d};
|
| - }
|
| - static SkNx Load(const void* ptr) {
|
| - return vld1q_s32((const int32_t*)ptr);
|
| - }
|
| - void store(void* ptr) const {
|
| - return vst1q_s32((int32_t*)ptr, fVec);
|
| - }
|
| - int32_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 4);
|
| - union { int32x4_t v; int32_t is[4]; } pun = {fVec};
|
| - return pun.is[k&3];
|
| - }
|
| + SkNx(int32_t a, int32_t b, int32_t c, int32_t d) : fVec{a,b,c,d} {}
|
| + SkNx(int32_t v) : fVec{v,v,v,v} {}
|
|
|
| - SkNx operator + (const SkNx& o) const { return vaddq_s32(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsubq_s32(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmulq_s32(fVec, o.fVec); }
|
| + static SkNx Load(const void* ptr) { return vld1q_s32((const int32_t*)ptr); }
|
| + void store(void* ptr) const { return vst1q_s32((int32_t*)ptr, fVec); }
|
|
|
| - SkNx operator & (const SkNx& o) const { return vandq_s32(fVec, o.fVec); }
|
| - SkNx operator | (const SkNx& o) const { return vorrq_s32(fVec, o.fVec); }
|
| - SkNx operator ^ (const SkNx& o) const { return veorq_s32(fVec, o.fVec); }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
| +
|
| + SkNx operator & (const SkNx& o) const { return fVec & o.fVec; }
|
| + SkNx operator | (const SkNx& o) const { return fVec | o.fVec; }
|
| + SkNx operator ^ (const SkNx& o) const { return fVec ^ o.fVec; }
|
|
|
| SkNx operator << (int bits) const { SHIFT32(vshlq_n_s32, fVec, bits); }
|
| SkNx operator >> (int bits) const { SHIFT32(vshrq_n_s32, fVec, bits); }
|
|
|
| - SkNx operator == (const SkNx& o) const {
|
| - return vreinterpretq_s32_u32(vceqq_s32(fVec, o.fVec));
|
| - }
|
| - SkNx operator < (const SkNx& o) const {
|
| - return vreinterpretq_s32_u32(vcltq_s32(fVec, o.fVec));
|
| - }
|
| - SkNx operator > (const SkNx& o) const {
|
| - return vreinterpretq_s32_u32(vcgtq_s32(fVec, o.fVec));
|
| - }
|
| + SkNx operator == (const SkNx& o) const { return fVec == o.fVec; }
|
| + SkNx operator < (const SkNx& o) const { return fVec < o.fVec; }
|
| + SkNx operator > (const SkNx& o) const { return fVec > o.fVec; }
|
|
|
| static SkNx Min(const SkNx& a, const SkNx& b) { return vminq_s32(a.fVec, b.fVec); }
|
| - // TODO as needed
|
| +
|
| + int32_t operator[](int k) const { return fVec[k&3]; }
|
|
|
| SkNx thenElse(const SkNx& t, const SkNx& e) const {
|
| return vbslq_s32(vreinterpretq_u32_s32(fVec), t.fVec, e.fVec);
|
| @@ -421,41 +348,30 @@ public:
|
| SkNx(const uint32x4_t& vec) : fVec(vec) {}
|
|
|
| SkNx() {}
|
| - SkNx(uint32_t v) {
|
| - fVec = vdupq_n_u32(v);
|
| - }
|
| - SkNx(uint32_t a, uint32_t b, uint32_t c, uint32_t d) {
|
| - fVec = (uint32x4_t){a,b,c,d};
|
| - }
|
| - static SkNx Load(const void* ptr) {
|
| - return vld1q_u32((const uint32_t*)ptr);
|
| - }
|
| - void store(void* ptr) const {
|
| - return vst1q_u32((uint32_t*)ptr, fVec);
|
| - }
|
| - uint32_t operator[](int k) const {
|
| - SkASSERT(0 <= k && k < 4);
|
| - union { uint32x4_t v; uint32_t us[4]; } pun = {fVec};
|
| - return pun.us[k&3];
|
| - }
|
| + SkNx(uint32_t a, uint32_t b, uint32_t c, uint32_t d) : fVec{a,b,c,d} {}
|
| + SkNx(uint32_t v) : fVec{v,v,v,v} {}
|
|
|
| - SkNx operator + (const SkNx& o) const { return vaddq_u32(fVec, o.fVec); }
|
| - SkNx operator - (const SkNx& o) const { return vsubq_u32(fVec, o.fVec); }
|
| - SkNx operator * (const SkNx& o) const { return vmulq_u32(fVec, o.fVec); }
|
| + static SkNx Load(const void* ptr) { return vld1q_u32((const uint32_t*)ptr); }
|
| + void store(void* ptr) const { return vst1q_u32((uint32_t*)ptr, fVec); }
|
|
|
| - SkNx operator & (const SkNx& o) const { return vandq_u32(fVec, o.fVec); }
|
| - SkNx operator | (const SkNx& o) const { return vorrq_u32(fVec, o.fVec); }
|
| - SkNx operator ^ (const SkNx& o) const { return veorq_u32(fVec, o.fVec); }
|
| + SkNx operator + (const SkNx& o) const { return fVec + o.fVec; }
|
| + SkNx operator - (const SkNx& o) const { return fVec - o.fVec; }
|
| + SkNx operator * (const SkNx& o) const { return fVec * o.fVec; }
|
| +
|
| + SkNx operator & (const SkNx& o) const { return fVec & o.fVec; }
|
| + SkNx operator | (const SkNx& o) const { return fVec | o.fVec; }
|
| + SkNx operator ^ (const SkNx& o) const { return fVec ^ o.fVec; }
|
|
|
| SkNx operator << (int bits) const { SHIFT32(vshlq_n_u32, fVec, bits); }
|
| SkNx operator >> (int bits) const { SHIFT32(vshrq_n_u32, fVec, bits); }
|
|
|
| - SkNx operator == (const SkNx& o) const { return vceqq_u32(fVec, o.fVec); }
|
| - SkNx operator < (const SkNx& o) const { return vcltq_u32(fVec, o.fVec); }
|
| - SkNx operator > (const SkNx& o) const { return vcgtq_u32(fVec, o.fVec); }
|
| + SkNx operator == (const SkNx& o) const { return fVec == o.fVec; }
|
| + SkNx operator < (const SkNx& o) const { return fVec < o.fVec; }
|
| + SkNx operator > (const SkNx& o) const { return fVec > o.fVec; }
|
|
|
| static SkNx Min(const SkNx& a, const SkNx& b) { return vminq_u32(a.fVec, b.fVec); }
|
| - // TODO as needed
|
| +
|
| + uint32_t operator[](int k) const { return fVec[k&3]; }
|
|
|
| SkNx thenElse(const SkNx& t, const SkNx& e) const {
|
| return vbslq_u32(fVec, t.fVec, e.fVec);
|
|
|
Chromium Code Reviews
Issue 2196773002:
Tidy up SkNx_neon. (Closed)
Base URL: https://skia.googlesource.com/skia.git@master