diff options
Diffstat (limited to 'third_party/aom/av1/common/arm/highbd_inv_txfm_neon.c')
-rw-r--r-- | third_party/aom/av1/common/arm/highbd_inv_txfm_neon.c | 5994 |
1 files changed, 5994 insertions, 0 deletions
diff --git a/third_party/aom/av1/common/arm/highbd_inv_txfm_neon.c b/third_party/aom/av1/common/arm/highbd_inv_txfm_neon.c new file mode 100644 index 0000000000..84bc8fd963 --- /dev/null +++ b/third_party/aom/av1/common/arm/highbd_inv_txfm_neon.c @@ -0,0 +1,5994 @@ +/* + * Copyright (c) 2020, Alliance for Open Media. All rights reserved + * + * This source code is subject to the terms of the BSD 2 Clause License and + * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License + * was not distributed with this source code in the LICENSE file, you canzip + * obtain it at www.aomedia.org/license/software. If the Alliance for Open + * Media Patent License 1.0 was not distributed with this source code in the + * PATENTS file, you can obtain it at www.aomedia.org/license/patent. + */ + +#include <arm_neon.h> +#include <assert.h> + +#include "av1/common/av1_inv_txfm1d_cfg.h" +#include "av1/common/idct.h" +#include "config/aom_config.h" +#include "config/av1_rtcd.h" + +#if AOM_ARCH_AARCH64 +#define TRANSPOSE_4X4(x0, x1, x2, x3, y0, y1, y2, y3) \ + do { \ + int32x4x2_t swap_low = vtrnq_s32(x0, x1); \ + int32x4x2_t swap_high = vtrnq_s32(x2, x3); \ + y0 = vreinterpretq_s32_s64( \ + vzip1q_s64(vreinterpretq_s64_s32(swap_low.val[0]), \ + vreinterpretq_s64_s32(swap_high.val[0]))); \ + y1 = vreinterpretq_s32_s64( \ + vzip1q_s64(vreinterpretq_s64_s32(swap_low.val[1]), \ + vreinterpretq_s64_s32(swap_high.val[1]))); \ + y2 = vreinterpretq_s32_s64( \ + vzip2q_s64(vreinterpretq_s64_s32(swap_low.val[0]), \ + vreinterpretq_s64_s32(swap_high.val[0]))); \ + y3 = vreinterpretq_s32_s64( \ + vzip2q_s64(vreinterpretq_s64_s32(swap_low.val[1]), \ + vreinterpretq_s64_s32(swap_high.val[1]))); \ + } while (0) +#else +#define TRANSPOSE_4X4(x0, x1, x2, x3, y0, y1, y2, y3) \ + do { \ + int32x4x2_t swap_low = vtrnq_s32(x0, x1); \ + int32x4x2_t swap_high = vtrnq_s32(x2, x3); \ + y0 = vextq_s32(vextq_s32(swap_low.val[0], swap_low.val[0], 2), \ + swap_high.val[0], 2); \ + y1 = vextq_s32(vextq_s32(swap_low.val[1], swap_low.val[1], 2), \ + swap_high.val[1], 2); \ + y2 = vextq_s32(swap_low.val[0], \ + vextq_s32(swap_high.val[0], swap_high.val[0], 2), 2); \ + y3 = vextq_s32(swap_low.val[1], \ + vextq_s32(swap_high.val[1], swap_high.val[1], 2), 2); \ + } while (0) +#endif // AOM_ARCH_AARCH64 + +static INLINE void transpose_4x4(const int32x4_t *in, int32x4_t *out) { + TRANSPOSE_4X4(in[0], in[1], in[2], in[3], out[0], out[1], out[2], out[3]); +} + +static INLINE void transpose_8x8(const int32x4_t *in, int32x4_t *out) { + TRANSPOSE_4X4(in[0], in[2], in[4], in[6], out[0], out[2], out[4], out[6]); + TRANSPOSE_4X4(in[1], in[3], in[5], in[7], out[8], out[10], out[12], out[14]); + TRANSPOSE_4X4(in[8], in[10], in[12], in[14], out[1], out[3], out[5], out[7]); + TRANSPOSE_4X4(in[9], in[11], in[13], in[15], out[9], out[11], out[13], + out[15]); +} + +static INLINE void round_shift_array_32_neon(int32x4_t *input, + int32x4_t *output, const int size, + const int bit) { + const int32x4_t v_bit = vdupq_n_s32(-bit); + for (int i = 0; i < size; i++) { + output[i] = vrshlq_s32(input[i], v_bit); + } +} + +static INLINE void round_shift_rect_array_32_neon(int32x4_t *input, + int32x4_t *output, + const int size) { + for (int i = 0; i < size; i++) { + const int32x4_t r0 = vmulq_n_s32(input[i], NewInvSqrt2); + output[i] = vrshrq_n_s32(r0, NewSqrt2Bits); + } +} + +static INLINE int32x4_t half_btf_neon_r(const int32_t *n0, const int32x4_t *w0, + const int32_t *n1, const int32x4_t *w1, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w0, *n0); + x = vmlaq_n_s32(x, *w1, *n1); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE int32x4_t half_btf_neon_mode11_r( + const int32_t *n0, const int32x4_t *w0, const int32_t *n1, + const int32x4_t *w1, const int32x4_t *v_bit, const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w0, -*n0); + x = vmlaq_n_s32(x, *w1, -*n1); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE int32x4_t half_btf_neon_mode01_r( + const int32_t *n0, const int32x4_t *w0, const int32_t *n1, + const int32x4_t *w1, const int32x4_t *v_bit, const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w0, *n0); + x = vmlsq_n_s32(x, *w1, *n1); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE int32x4_t half_btf_neon_mode10_r( + const int32_t *n0, const int32x4_t *w0, const int32_t *n1, + const int32x4_t *w1, const int32x4_t *v_bit, const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w1, *n1); + x = vmlsq_n_s32(x, *w0, *n0); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE int32x4_t half_btf_0_neon_r(const int32_t *n0, + const int32x4_t *w0, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w0, *n0); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE int32x4_t half_btf_0_m_neon_r(const int32_t *n0, + const int32x4_t *w0, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t x; + x = vmlaq_n_s32(*rnding, *w0, -*n0); + x = vshlq_s32(x, *v_bit); + return x; +} + +static INLINE void flip_buf_neon(int32x4_t *in, int32x4_t *out, int size) { + for (int i = 0; i < size; ++i) { + out[size - i - 1] = in[i]; + } +} + +typedef void (*fwd_transform_1d_neon)(int32x4_t *in, int32x4_t *out, int bit, + const int num_cols); + +typedef void (*transform_1d_neon)(int32x4_t *in, int32x4_t *out, int32_t bit, + int32_t do_cols, int32_t bd, + int32_t out_shift); + +static INLINE uint16x8_t highbd_clamp_u16(uint16x8_t *u, const uint16x8_t *min, + const uint16x8_t *max) { + int16x8_t clamped; + clamped = vminq_s16(vreinterpretq_s16_u16(*u), vreinterpretq_s16_u16(*max)); + clamped = vmaxq_s16(clamped, vreinterpretq_s16_u16(*min)); + return vreinterpretq_u16_s16(clamped); +} + +static INLINE void round_shift_4x4(int32x4_t *in, int shift) { + if (shift != 0) { + const int32x4_t v_shift = vdupq_n_s32(-shift); + in[0] = vrshlq_s32(in[0], v_shift); + in[1] = vrshlq_s32(in[1], v_shift); + in[2] = vrshlq_s32(in[2], v_shift); + in[3] = vrshlq_s32(in[3], v_shift); + } +} + +static void round_shift_8x8(int32x4_t *in, int shift) { + assert(shift != 0); + const int32x4_t v_shift = vdupq_n_s32(-shift); + in[0] = vrshlq_s32(in[0], v_shift); + in[1] = vrshlq_s32(in[1], v_shift); + in[2] = vrshlq_s32(in[2], v_shift); + in[3] = vrshlq_s32(in[3], v_shift); + in[4] = vrshlq_s32(in[4], v_shift); + in[5] = vrshlq_s32(in[5], v_shift); + in[6] = vrshlq_s32(in[6], v_shift); + in[7] = vrshlq_s32(in[7], v_shift); + in[8] = vrshlq_s32(in[8], v_shift); + in[9] = vrshlq_s32(in[9], v_shift); + in[10] = vrshlq_s32(in[10], v_shift); + in[11] = vrshlq_s32(in[11], v_shift); + in[12] = vrshlq_s32(in[12], v_shift); + in[13] = vrshlq_s32(in[13], v_shift); + in[14] = vrshlq_s32(in[14], v_shift); + in[15] = vrshlq_s32(in[15], v_shift); +} + +static void highbd_clamp_s32_neon(int32x4_t *in, int32x4_t *out, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, int size) { + int32x4_t a0, a1; + for (int i = 0; i < size; i += 4) { + a0 = vmaxq_s32(in[i], *clamp_lo); + out[i] = vminq_s32(a0, *clamp_hi); + + a1 = vmaxq_s32(in[i + 1], *clamp_lo); + out[i + 1] = vminq_s32(a1, *clamp_hi); + + a0 = vmaxq_s32(in[i + 2], *clamp_lo); + out[i + 2] = vminq_s32(a0, *clamp_hi); + + a1 = vmaxq_s32(in[i + 3], *clamp_lo); + out[i + 3] = vminq_s32(a1, *clamp_hi); + } +} + +static INLINE uint16x8_t highbd_get_recon_8x8_neon(const uint16x8_t pred, + int32x4_t res0, + int32x4_t res1, + const int bd) { + const uint16x8_t v_zero = vdupq_n_u16(0); + int32x4_t min_clip_val = vreinterpretq_s32_u16(v_zero); + int32x4_t max_clip_val = vdupq_n_s32((1 << bd) - 1); + uint16x8x2_t x; + x.val[0] = vreinterpretq_u16_s32( + vaddw_s16(res0, vreinterpret_s16_u16(vget_low_u16(pred)))); + x.val[1] = vreinterpretq_u16_s32( + vaddw_s16(res1, vreinterpret_s16_u16(vget_high_u16(pred)))); + x.val[0] = vreinterpretq_u16_s32( + vmaxq_s32(vreinterpretq_s32_u16(x.val[0]), min_clip_val)); + x.val[0] = vreinterpretq_u16_s32( + vminq_s32(vreinterpretq_s32_u16(x.val[0]), max_clip_val)); + x.val[1] = vreinterpretq_u16_s32( + vmaxq_s32(vreinterpretq_s32_u16(x.val[1]), min_clip_val)); + x.val[1] = vreinterpretq_u16_s32( + vminq_s32(vreinterpretq_s32_u16(x.val[1]), max_clip_val)); + uint16x8_t res = vcombine_u16(vqmovn_u32(vreinterpretq_u32_u16(x.val[0])), + vqmovn_u32(vreinterpretq_u32_u16(x.val[1]))); + return res; +} + +static INLINE uint16x4_t highbd_get_recon_4xn_neon(uint16x4_t pred, + int32x4_t res0, + const int bd) { + uint16x4_t x0_ = vreinterpret_u16_s16( + vmovn_s32(vaddw_s16(res0, vreinterpret_s16_u16(pred)))); + uint16x8_t x0 = vcombine_u16(x0_, x0_); + const uint16x8_t vmin = vdupq_n_u16(0); + const uint16x8_t vmax = vdupq_n_u16((1 << bd) - 1); + x0 = highbd_clamp_u16(&x0, &vmin, &vmax); + return vget_low_u16(x0); +} + +static INLINE void highbd_write_buffer_4xn_neon(int32x4_t *in, uint16_t *output, + int stride, int flipud, + int height, const int bd) { + int j = flipud ? (height - 1) : 0; + const int step = flipud ? -1 : 1; + for (int i = 0; i < height; ++i, j += step) { + uint16x4_t v = vld1_u16(output + i * stride); + uint16x4_t u = highbd_get_recon_4xn_neon(v, in[j], bd); + + vst1_u16(output + i * stride, u); + } +} + +static INLINE void highbd_write_buffer_8xn_neon(int32x4_t *in, uint16_t *output, + int stride, int flipud, + int height, const int bd) { + int j = flipud ? (height - 1) : 0; + const int step = flipud ? -1 : 1; + for (int i = 0; i < height; ++i, j += step) { + uint16x8_t v = vld1q_u16(output + i * stride); + uint16x8_t u = highbd_get_recon_8x8_neon(v, in[j], in[j + height], bd); + + vst1q_u16(output + i * stride, u); + } +} + +static INLINE void load_buffer_32bit_input(const int32_t *in, int stride, + int32x4_t *out, int out_size) { + for (int i = 0; i < out_size; ++i) { + out[i] = vld1q_s32(in + i * stride); + } +} + +static INLINE void load_buffer_4x4(const int32_t *coeff, int32x4_t *in) { + in[0] = vld1q_s32(coeff + 0); + in[1] = vld1q_s32(coeff + 4); + in[2] = vld1q_s32(coeff + 8); + in[3] = vld1q_s32(coeff + 12); +} + +static void addsub_neon(const int32x4_t in0, const int32x4_t in1, + int32x4_t *out0, int32x4_t *out1, + const int32x4_t *clamp_lo, const int32x4_t *clamp_hi) { + int32x4_t a0 = vaddq_s32(in0, in1); + int32x4_t a1 = vsubq_s32(in0, in1); + + a0 = vmaxq_s32(a0, *clamp_lo); + a0 = vminq_s32(a0, *clamp_hi); + a1 = vmaxq_s32(a1, *clamp_lo); + a1 = vminq_s32(a1, *clamp_hi); + + *out0 = a0; + *out1 = a1; +} + +static void shift_and_clamp_neon(int32x4_t *in0, int32x4_t *in1, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_shift) { + int32x4_t in0_w_offset = vrshlq_s32(*in0, *v_shift); + int32x4_t in1_w_offset = vrshlq_s32(*in1, *v_shift); + + in0_w_offset = vmaxq_s32(in0_w_offset, *clamp_lo); + in0_w_offset = vminq_s32(in0_w_offset, *clamp_hi); + in1_w_offset = vmaxq_s32(in1_w_offset, *clamp_lo); + in1_w_offset = vminq_s32(in1_w_offset, *clamp_hi); + + *in0 = in0_w_offset; + *in1 = in1_w_offset; +} + +static INLINE void idct32_stage4_neon(int32x4_t *bf1, const int32_t *cospi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2; + temp1 = half_btf_neon_mode10_r(&cospi[8], &bf1[17], &cospi[56], &bf1[30], + v_bit, rnding); + bf1[30] = + half_btf_neon_r(&cospi[56], &bf1[17], &cospi[8], &bf1[30], v_bit, rnding); + bf1[17] = temp1; + + temp2 = half_btf_neon_mode11_r(&cospi[56], &bf1[18], &cospi[8], &bf1[29], + v_bit, rnding); + bf1[29] = half_btf_neon_mode10_r(&cospi[8], &bf1[18], &cospi[56], &bf1[29], + v_bit, rnding); + bf1[18] = temp2; + + temp1 = half_btf_neon_mode10_r(&cospi[40], &bf1[21], &cospi[24], &bf1[26], + v_bit, rnding); + bf1[26] = half_btf_neon_r(&cospi[24], &bf1[21], &cospi[40], &bf1[26], v_bit, + rnding); + bf1[21] = temp1; + + temp2 = half_btf_neon_mode11_r(&cospi[24], &bf1[22], &cospi[40], &bf1[25], + v_bit, rnding); + bf1[25] = half_btf_neon_mode10_r(&cospi[40], &bf1[22], &cospi[24], &bf1[25], + v_bit, rnding); + bf1[22] = temp2; +} + +static INLINE void idct32_stage5_neon(int32x4_t *bf1, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2; + temp1 = half_btf_neon_mode10_r(&cospi[16], &bf1[9], &cospi[48], &bf1[14], + v_bit, rnding); + bf1[14] = + half_btf_neon_r(&cospi[48], &bf1[9], &cospi[16], &bf1[14], v_bit, rnding); + bf1[9] = temp1; + + temp2 = half_btf_neon_mode11_r(&cospi[48], &bf1[10], &cospi[16], &bf1[13], + v_bit, rnding); + bf1[13] = half_btf_neon_mode10_r(&cospi[16], &bf1[10], &cospi[48], &bf1[13], + v_bit, rnding); + bf1[10] = temp2; + + addsub_neon(bf1[16], bf1[19], bf1 + 16, bf1 + 19, clamp_lo, clamp_hi); + addsub_neon(bf1[17], bf1[18], bf1 + 17, bf1 + 18, clamp_lo, clamp_hi); + addsub_neon(bf1[23], bf1[20], bf1 + 23, bf1 + 20, clamp_lo, clamp_hi); + addsub_neon(bf1[22], bf1[21], bf1 + 22, bf1 + 21, clamp_lo, clamp_hi); + addsub_neon(bf1[24], bf1[27], bf1 + 24, bf1 + 27, clamp_lo, clamp_hi); + addsub_neon(bf1[25], bf1[26], bf1 + 25, bf1 + 26, clamp_lo, clamp_hi); + addsub_neon(bf1[31], bf1[28], bf1 + 31, bf1 + 28, clamp_lo, clamp_hi); + addsub_neon(bf1[30], bf1[29], bf1 + 30, bf1 + 29, clamp_lo, clamp_hi); +} + +static INLINE void idct32_stage6_neon(int32x4_t *bf1, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2; + temp1 = half_btf_neon_mode10_r(&cospi[32], &bf1[5], &cospi[32], &bf1[6], + v_bit, rnding); + bf1[6] = + half_btf_neon_r(&cospi[32], &bf1[5], &cospi[32], &bf1[6], v_bit, rnding); + bf1[5] = temp1; + + addsub_neon(bf1[8], bf1[11], bf1 + 8, bf1 + 11, clamp_lo, clamp_hi); + addsub_neon(bf1[9], bf1[10], bf1 + 9, bf1 + 10, clamp_lo, clamp_hi); + addsub_neon(bf1[15], bf1[12], bf1 + 15, bf1 + 12, clamp_lo, clamp_hi); + addsub_neon(bf1[14], bf1[13], bf1 + 14, bf1 + 13, clamp_lo, clamp_hi); + + temp1 = half_btf_neon_mode10_r(&cospi[16], &bf1[18], &cospi[48], &bf1[29], + v_bit, rnding); + bf1[29] = half_btf_neon_r(&cospi[48], &bf1[18], &cospi[16], &bf1[29], v_bit, + rnding); + bf1[18] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[16], &bf1[19], &cospi[48], &bf1[28], + v_bit, rnding); + bf1[28] = half_btf_neon_r(&cospi[48], &bf1[19], &cospi[16], &bf1[28], v_bit, + rnding); + bf1[19] = temp2; + temp1 = half_btf_neon_mode11_r(&cospi[48], &bf1[20], &cospi[16], &bf1[27], + v_bit, rnding); + bf1[27] = half_btf_neon_mode10_r(&cospi[16], &bf1[20], &cospi[48], &bf1[27], + v_bit, rnding); + bf1[20] = temp1; + temp2 = half_btf_neon_mode11_r(&cospi[48], &bf1[21], &cospi[16], &bf1[26], + v_bit, rnding); + bf1[26] = half_btf_neon_mode10_r(&cospi[16], &bf1[21], &cospi[48], &bf1[26], + v_bit, rnding); + bf1[21] = temp2; +} + +static INLINE void idct32_stage7_neon(int32x4_t *bf1, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2; + addsub_neon(bf1[0], bf1[7], bf1 + 0, bf1 + 7, clamp_lo, clamp_hi); + addsub_neon(bf1[1], bf1[6], bf1 + 1, bf1 + 6, clamp_lo, clamp_hi); + addsub_neon(bf1[2], bf1[5], bf1 + 2, bf1 + 5, clamp_lo, clamp_hi); + addsub_neon(bf1[3], bf1[4], bf1 + 3, bf1 + 4, clamp_lo, clamp_hi); + temp1 = half_btf_neon_mode10_r(&cospi[32], &bf1[10], &cospi[32], &bf1[13], + v_bit, rnding); + bf1[13] = half_btf_neon_r(&cospi[32], &bf1[10], &cospi[32], &bf1[13], v_bit, + rnding); + bf1[10] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[32], &bf1[11], &cospi[32], &bf1[12], + v_bit, rnding); + bf1[12] = half_btf_neon_r(&cospi[32], &bf1[11], &cospi[32], &bf1[12], v_bit, + rnding); + bf1[11] = temp2; + + addsub_neon(bf1[16], bf1[23], bf1 + 16, bf1 + 23, clamp_lo, clamp_hi); + addsub_neon(bf1[17], bf1[22], bf1 + 17, bf1 + 22, clamp_lo, clamp_hi); + addsub_neon(bf1[18], bf1[21], bf1 + 18, bf1 + 21, clamp_lo, clamp_hi); + addsub_neon(bf1[19], bf1[20], bf1 + 19, bf1 + 20, clamp_lo, clamp_hi); + addsub_neon(bf1[31], bf1[24], bf1 + 31, bf1 + 24, clamp_lo, clamp_hi); + addsub_neon(bf1[30], bf1[25], bf1 + 30, bf1 + 25, clamp_lo, clamp_hi); + addsub_neon(bf1[29], bf1[26], bf1 + 29, bf1 + 26, clamp_lo, clamp_hi); + addsub_neon(bf1[28], bf1[27], bf1 + 28, bf1 + 27, clamp_lo, clamp_hi); +} + +static INLINE void idct32_stage8_neon(int32x4_t *bf1, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2; + addsub_neon(bf1[0], bf1[15], bf1 + 0, bf1 + 15, clamp_lo, clamp_hi); + addsub_neon(bf1[1], bf1[14], bf1 + 1, bf1 + 14, clamp_lo, clamp_hi); + addsub_neon(bf1[2], bf1[13], bf1 + 2, bf1 + 13, clamp_lo, clamp_hi); + addsub_neon(bf1[3], bf1[12], bf1 + 3, bf1 + 12, clamp_lo, clamp_hi); + addsub_neon(bf1[4], bf1[11], bf1 + 4, bf1 + 11, clamp_lo, clamp_hi); + addsub_neon(bf1[5], bf1[10], bf1 + 5, bf1 + 10, clamp_lo, clamp_hi); + addsub_neon(bf1[6], bf1[9], bf1 + 6, bf1 + 9, clamp_lo, clamp_hi); + addsub_neon(bf1[7], bf1[8], bf1 + 7, bf1 + 8, clamp_lo, clamp_hi); + temp1 = half_btf_neon_mode10_r(&cospi[32], &bf1[20], &cospi[32], &bf1[27], + v_bit, rnding); + bf1[27] = half_btf_neon_r(&cospi[32], &bf1[20], &cospi[32], &bf1[27], v_bit, + rnding); + bf1[20] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[32], &bf1[21], &cospi[32], &bf1[26], + v_bit, rnding); + bf1[26] = half_btf_neon_r(&cospi[32], &bf1[21], &cospi[32], &bf1[26], v_bit, + rnding); + bf1[21] = temp2; + temp1 = half_btf_neon_mode10_r(&cospi[32], &bf1[22], &cospi[32], &bf1[25], + v_bit, rnding); + bf1[25] = half_btf_neon_r(&cospi[32], &bf1[22], &cospi[32], &bf1[25], v_bit, + rnding); + bf1[22] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[32], &bf1[23], &cospi[32], &bf1[24], + v_bit, rnding); + bf1[24] = half_btf_neon_r(&cospi[32], &bf1[23], &cospi[32], &bf1[24], v_bit, + rnding); + bf1[23] = temp2; +} + +static INLINE void idct32_stage9_neon(int32x4_t *bf1, int32x4_t *out, + const int do_cols, const int bd, + const int out_shift, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi) { + addsub_neon(bf1[0], bf1[31], out + 0, out + 31, clamp_lo, clamp_hi); + addsub_neon(bf1[1], bf1[30], out + 1, out + 30, clamp_lo, clamp_hi); + addsub_neon(bf1[2], bf1[29], out + 2, out + 29, clamp_lo, clamp_hi); + addsub_neon(bf1[3], bf1[28], out + 3, out + 28, clamp_lo, clamp_hi); + addsub_neon(bf1[4], bf1[27], out + 4, out + 27, clamp_lo, clamp_hi); + addsub_neon(bf1[5], bf1[26], out + 5, out + 26, clamp_lo, clamp_hi); + addsub_neon(bf1[6], bf1[25], out + 6, out + 25, clamp_lo, clamp_hi); + addsub_neon(bf1[7], bf1[24], out + 7, out + 24, clamp_lo, clamp_hi); + addsub_neon(bf1[8], bf1[23], out + 8, out + 23, clamp_lo, clamp_hi); + addsub_neon(bf1[9], bf1[22], out + 9, out + 22, clamp_lo, clamp_hi); + addsub_neon(bf1[10], bf1[21], out + 10, out + 21, clamp_lo, clamp_hi); + addsub_neon(bf1[11], bf1[20], out + 11, out + 20, clamp_lo, clamp_hi); + addsub_neon(bf1[12], bf1[19], out + 12, out + 19, clamp_lo, clamp_hi); + addsub_neon(bf1[13], bf1[18], out + 13, out + 18, clamp_lo, clamp_hi); + addsub_neon(bf1[14], bf1[17], out + 14, out + 17, clamp_lo, clamp_hi); + addsub_neon(bf1[15], bf1[16], out + 15, out + 16, clamp_lo, clamp_hi); + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + for (int i = 0; i < 32; i += 8) { + round_shift_4x4(out + i, out_shift); + round_shift_4x4(out + i + 4, out_shift); + } + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 32); + } +} + +static void neg_shift_neon(const int32x4_t *in0, const int32x4_t *in1, + int32x4_t *out0, int32x4_t *out1, + const int32x4_t *clamp_lo, const int32x4_t *clamp_hi, + const int32x4_t *v_shift, int32x4_t *offset) { + int32x4_t a0 = vaddq_s32(*offset, *in0); + int32x4_t a1 = vsubq_s32(*offset, *in1); + + a0 = vshlq_s32(a0, *v_shift); + a1 = vshlq_s32(a1, *v_shift); + + a0 = vmaxq_s32(a0, *clamp_lo); + a0 = vminq_s32(a0, *clamp_hi); + a1 = vmaxq_s32(a1, *clamp_lo); + a1 = vminq_s32(a1, *clamp_hi); + + *out0 = a0; + *out1 = a1; +} + +static void idct4x4_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + int32x4_t u0, u1, u2, u3; + int32x4_t v0, v1, v2, v3, x, y; + + // Stage 0-1-2 + + u0 = in[0]; + u1 = in[1]; + u2 = in[2]; + u3 = in[3]; + + const int32x4_t v_bit = vdupq_n_s32(-bit); + + x = vmlaq_n_s32(rnding, u0, cospi[32]); + y = vmulq_n_s32(u2, cospi[32]); + v0 = vaddq_s32(x, y); + v0 = vshlq_s32(v0, v_bit); + + v1 = vsubq_s32(x, y); + v1 = vshlq_s32(v1, v_bit); + + x = vmlaq_n_s32(rnding, u1, cospi[48]); + v2 = vmlsq_n_s32(x, u3, cospi[16]); + v2 = vshlq_s32(v2, v_bit); + + x = vmlaq_n_s32(rnding, u1, cospi[16]); + v3 = vmlaq_n_s32(x, u3, cospi[48]); + v3 = vshlq_s32(v3, v_bit); + // Stage 3 + addsub_neon(v0, v3, out + 0, out + 3, &clamp_lo, &clamp_hi); + addsub_neon(v1, v2, out + 1, out + 2, &clamp_lo, &clamp_hi); + + if (!do_cols) { + log_range = AOMMAX(16, bd + 6); + clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + shift_and_clamp_neon(out + 0, out + 3, &clamp_lo, &clamp_hi, &v_shift); + shift_and_clamp_neon(out + 1, out + 2, &clamp_lo, &clamp_hi, &v_shift); + } +} + +static void iadst4x4_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *sinpi = sinpi_arr(bit); + const int32x4_t zero = vdupq_n_s32(0); + int64x2_t rnding = vdupq_n_s64(1ll << (bit + 4 - 1)); + const int32x2_t mul = vdup_n_s32(1 << 4); + int32x4_t t; + int32x4_t s0, s1, s2, s3, s4, s5, s6, s7; + int32x4_t x0, x1, x2, x3; + int32x4_t u0, u1, u2, u3; + + x0 = in[0]; + x1 = in[1]; + x2 = in[2]; + x3 = in[3]; + + s0 = vmulq_n_s32(x0, sinpi[1]); + s1 = vmulq_n_s32(x0, sinpi[2]); + s2 = vmulq_n_s32(x1, sinpi[3]); + s3 = vmulq_n_s32(x2, sinpi[4]); + s4 = vmulq_n_s32(x2, sinpi[1]); + s5 = vmulq_n_s32(x3, sinpi[2]); + s6 = vmulq_n_s32(x3, sinpi[4]); + t = vsubq_s32(x0, x2); + s7 = vaddq_s32(t, x3); + + t = vaddq_s32(s0, s3); + s0 = vaddq_s32(t, s5); + t = vsubq_s32(s1, s4); + s1 = vsubq_s32(t, s6); + s3 = s2; + s2 = vmulq_n_s32(s7, sinpi[3]); + + u0 = vaddq_s32(s0, s3); + u1 = vaddq_s32(s1, s3); + u2 = s2; + t = vaddq_s32(s0, s1); + u3 = vsubq_s32(t, s3); + + // u0 + int32x4x2_t u0x; + u0x.val[0] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u0)), mul)); + u0x.val[0] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u0x.val[0]), rnding)); + + u0 = vextq_s32(u0, zero, 1); + u0x.val[1] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u0)), mul)); + u0x.val[1] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u0x.val[1]), rnding)); + + u0x.val[0] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u0x.val[0]), vreinterpretq_s16_s32(zero), 1)); + u0x.val[1] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u0x.val[1]), vreinterpretq_s16_s32(zero), 1)); + + u0x = vzipq_s32(u0x.val[0], u0x.val[1]); +#if AOM_ARCH_AARCH64 + u0 = vreinterpretq_s32_s64(vzip1q_s64(vreinterpretq_s64_s32(u0x.val[0]), + vreinterpretq_s64_s32(u0x.val[1]))); +#else + u0 = vcombine_s32(vget_low_s32(u0x.val[0]), vget_low_s32(u0x.val[1])); +#endif // AOM_ARCH_AARCH64 + // u1 + int32x4x2_t u1x; + u1x.val[0] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u1)), mul)); + u1x.val[0] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u1x.val[0]), rnding)); + + u1 = vextq_s32(u1, zero, 1); + u1x.val[1] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u1)), mul)); + u1x.val[1] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u1x.val[1]), rnding)); + + u1x.val[0] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u1x.val[0]), vreinterpretq_s16_s32(zero), 1)); + u1x.val[1] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u1x.val[1]), vreinterpretq_s16_s32(zero), 1)); + + u1x = vzipq_s32(u1x.val[0], u1x.val[1]); +#if AOM_ARCH_AARCH64 + u1 = vreinterpretq_s32_s64(vzip1q_s64(vreinterpretq_s64_s32(u1x.val[0]), + vreinterpretq_s64_s32(u1x.val[1]))); +#else + u1 = vcombine_s32(vget_low_s32(u1x.val[0]), vget_low_s32(u1x.val[1])); +#endif // AOM_ARCH_AARCH64 + + // u2 + int32x4x2_t u2x; + u2x.val[0] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u2)), mul)); + u2x.val[0] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u2x.val[0]), rnding)); + + u2 = vextq_s32(u2, zero, 1); + u2x.val[1] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u2)), mul)); + u2x.val[1] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u2x.val[1]), rnding)); + + u2x.val[0] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u2x.val[0]), vreinterpretq_s16_s32(zero), 1)); + u2x.val[1] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u2x.val[1]), vreinterpretq_s16_s32(zero), 1)); + + u2x = vzipq_s32(u2x.val[0], u2x.val[1]); +#if AOM_ARCH_AARCH64 + u2 = vreinterpretq_s32_s64(vzip1q_s64(vreinterpretq_s64_s32(u2x.val[0]), + vreinterpretq_s64_s32(u2x.val[1]))); +#else + u2 = vcombine_s32(vget_low_s32(u2x.val[0]), vget_low_s32(u2x.val[1])); +#endif // AOM_ARCH_AARCH64 + + // u3 + int32x4x2_t u3x; + u3x.val[0] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u3)), mul)); + u3x.val[0] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u3x.val[0]), rnding)); + + u3 = vextq_s32(u3, zero, 1); + u3x.val[1] = vreinterpretq_s32_s64( + vmull_s32(vmovn_s64(vreinterpretq_s64_s32(u3)), mul)); + u3x.val[1] = vreinterpretq_s32_s64( + vaddq_s64(vreinterpretq_s64_s32(u3x.val[1]), rnding)); + + u3x.val[0] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u3x.val[0]), vreinterpretq_s16_s32(zero), 1)); + u3x.val[1] = vreinterpretq_s32_s16(vextq_s16( + vreinterpretq_s16_s32(u3x.val[1]), vreinterpretq_s16_s32(zero), 1)); + + u3x = vzipq_s32(u3x.val[0], u3x.val[1]); +#if AOM_ARCH_AARCH64 + u3 = vreinterpretq_s32_s64(vzip1q_s64(vreinterpretq_s64_s32(u3x.val[0]), + vreinterpretq_s64_s32(u3x.val[1]))); +#else + u3 = vcombine_s32(vget_low_s32(u3x.val[0]), vget_low_s32(u3x.val[1])); +#endif // AOM_ARCH_AARCH64 + + out[0] = u0; + out[1] = u1; + out[2] = u2; + out[3] = u3; + + if (!do_cols) { + const int log_range = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + round_shift_4x4(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo, &clamp_hi, 4); + } +} + +static void write_buffer_4x4(int32x4_t *in, uint16_t *output, int stride, + int fliplr, int flipud, int shift, int bd) { + uint32x4_t u0, u1, u2, u3; + uint16x4_t v0, v1, v2, v3; + round_shift_4x4(in, shift); + + v0 = vld1_u16(output + 0 * stride); + v1 = vld1_u16(output + 1 * stride); + v2 = vld1_u16(output + 2 * stride); + v3 = vld1_u16(output + 3 * stride); + + if (fliplr) { + u0 = vrev64q_u32(vreinterpretq_u32_s32(in[0])); + in[0] = vreinterpretq_s32_u32(vextq_u32(u0, u0, 2)); + u0 = vrev64q_u32(vreinterpretq_u32_s32(in[1])); + in[1] = vreinterpretq_s32_u32(vextq_u32(u0, u0, 2)); + u0 = vrev64q_u32(vreinterpretq_u32_s32(in[2])); + in[2] = vreinterpretq_s32_u32(vextq_u32(u0, u0, 2)); + u0 = vrev64q_u32(vreinterpretq_u32_s32(in[3])); + in[3] = vreinterpretq_s32_u32(vextq_u32(u0, u0, 2)); + } + + if (flipud) { + u0 = vaddw_u16(vreinterpretq_u32_s32(in[3]), v0); + u1 = vaddw_u16(vreinterpretq_u32_s32(in[2]), v1); + u2 = vaddw_u16(vreinterpretq_u32_s32(in[1]), v2); + u3 = vaddw_u16(vreinterpretq_u32_s32(in[0]), v3); + } else { + u0 = vaddw_u16(vreinterpretq_u32_s32(in[0]), v0); + u1 = vaddw_u16(vreinterpretq_u32_s32(in[1]), v1); + u2 = vaddw_u16(vreinterpretq_u32_s32(in[2]), v2); + u3 = vaddw_u16(vreinterpretq_u32_s32(in[3]), v3); + } + + uint16x8_t u4 = vcombine_u16(vqmovn_u32(u0), vqmovn_u32(u1)); + uint16x8_t u5 = vcombine_u16(vqmovn_u32(u2), vqmovn_u32(u3)); + const uint16x8_t vmin = vdupq_n_u16(0); + const uint16x8_t vmax = vdupq_n_u16((1 << bd) - 1); + u4 = highbd_clamp_u16(&u4, &vmin, &vmax); + u5 = highbd_clamp_u16(&u5, &vmin, &vmax); + + vst1_u16(output + 0 * stride, vget_low_u16(u4)); + vst1_u16(output + 1 * stride, vget_high_u16(u4)); + vst1_u16(output + 2 * stride, vget_low_u16(u5)); + vst1_u16(output + 3 * stride, vget_high_u16(u5)); +} + +static void iidentity4_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + (void)bit; + int32x4_t zero = vdupq_n_s32(0); + int32x2_t fact = vdup_n_s32(NewSqrt2); + int32x4x2_t a0; + const int64x2_t rnding = vdupq_n_s64(1 << (NewSqrt2Bits - 1)); + + for (int i = 0; i < 4; i++) { + a0.val[0] = vreinterpretq_s32_s64( + vmlal_s32(rnding, vmovn_s64(vreinterpretq_s64_s32(in[i])), fact)); + a0.val[0] = vreinterpretq_s32_s64( + vshrq_n_s64(vreinterpretq_s64_s32(a0.val[0]), NewSqrt2Bits)); + a0.val[1] = vextq_s32(in[i], zero, 1); + a0.val[1] = vreinterpretq_s32_s64( + vmlal_s32(rnding, vmovn_s64(vreinterpretq_s64_s32(a0.val[1])), fact)); + a0.val[1] = vreinterpretq_s32_s64( + vshrq_n_s64(vreinterpretq_s64_s32(a0.val[1]), NewSqrt2Bits)); + + a0 = vzipq_s32(a0.val[0], a0.val[1]); +#if AOM_ARCH_AARCH64 + out[i] = vreinterpretq_s32_s64(vzip1q_s64( + vreinterpretq_s64_s32(a0.val[0]), vreinterpretq_s64_s32(a0.val[1]))); +#else + out[i] = vextq_s32(vextq_s32(a0.val[0], a0.val[0], 2), a0.val[1], 2); +#endif + } + if (!do_cols) { + const int log_range = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + round_shift_4x4(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo, &clamp_hi, 4); + } +} + +void av1_inv_txfm2d_add_4x4_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, int bd) { + int32x4_t in[4]; + + const int8_t *shift = av1_inv_txfm_shift_ls[TX_4X4]; + + switch (tx_type) { + case DCT_DCT: + load_buffer_4x4(input, in); + idct4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + idct4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case ADST_DCT: + load_buffer_4x4(input, in); + idct4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case DCT_ADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + idct4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case ADST_ADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case FLIPADST_DCT: + load_buffer_4x4(input, in); + idct4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 1, -shift[1], bd); + break; + case DCT_FLIPADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + idct4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 1, 0, -shift[1], bd); + break; + case FLIPADST_FLIPADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 1, 1, -shift[1], bd); + break; + case ADST_FLIPADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 1, 0, -shift[1], bd); + break; + case FLIPADST_ADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 1, -shift[1], bd); + break; + case IDTX: + load_buffer_4x4(input, in); + iidentity4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iidentity4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case V_DCT: + load_buffer_4x4(input, in); + iidentity4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + idct4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case H_DCT: + load_buffer_4x4(input, in); + idct4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iidentity4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case V_ADST: + load_buffer_4x4(input, in); + iidentity4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case H_ADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iidentity4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 0, -shift[1], bd); + break; + case V_FLIPADST: + load_buffer_4x4(input, in); + iidentity4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iadst4x4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 0, 1, -shift[1], bd); + break; + case H_FLIPADST: + load_buffer_4x4(input, in); + iadst4x4_neon(in, in, INV_COS_BIT, 0, bd, 0); + transpose_4x4(in, in); + iidentity4_neon(in, in, INV_COS_BIT, 1, bd, 0); + write_buffer_4x4(in, output, stride, 1, 0, -shift[1], bd); + break; + default: assert(0); + } +} + +// 8x8 +static void load_buffer_8x8(const int32_t *coeff, int32x4_t *in) { + in[0] = vld1q_s32(coeff + 0); + in[1] = vld1q_s32(coeff + 4); + in[2] = vld1q_s32(coeff + 8); + in[3] = vld1q_s32(coeff + 12); + in[4] = vld1q_s32(coeff + 16); + in[5] = vld1q_s32(coeff + 20); + in[6] = vld1q_s32(coeff + 24); + in[7] = vld1q_s32(coeff + 28); + in[8] = vld1q_s32(coeff + 32); + in[9] = vld1q_s32(coeff + 36); + in[10] = vld1q_s32(coeff + 40); + in[11] = vld1q_s32(coeff + 44); + in[12] = vld1q_s32(coeff + 48); + in[13] = vld1q_s32(coeff + 52); + in[14] = vld1q_s32(coeff + 56); + in[15] = vld1q_s32(coeff + 60); +} + +static void idct8x8_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t u0, u1, u2, u3, u4, u5, u6, u7; + int32x4_t v0, v1, v2, v3, v4, v5, v6, v7; + int32x4_t x, y; + int col; + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + const int32x4_t v_bit = vdupq_n_s32(-bit); + // Note: + // Even column: 0, 2, ..., 14 + // Odd column: 1, 3, ..., 15 + // one even column plus one odd column constructs one row (8 coeffs) + // total we have 8 rows (8x8). + for (col = 0; col < 2; ++col) { + // stage 0 + // stage 1 + // stage 2 + u0 = in[0 * 2 + col]; + u1 = in[4 * 2 + col]; + u2 = in[2 * 2 + col]; + u3 = in[6 * 2 + col]; + + x = vmulq_n_s32(in[1 * 2 + col], cospi[56]); + u4 = vmlaq_n_s32(x, in[7 * 2 + col], -cospi[8]); + u4 = vaddq_s32(u4, rnding); + u4 = vshlq_s32(u4, v_bit); + + x = vmulq_n_s32(in[1 * 2 + col], cospi[8]); + u7 = vmlaq_n_s32(x, in[7 * 2 + col], cospi[56]); + u7 = vaddq_s32(u7, rnding); + u7 = vshlq_s32(u7, v_bit); + + x = vmulq_n_s32(in[5 * 2 + col], cospi[24]); + u5 = vmlaq_n_s32(x, in[3 * 2 + col], -cospi[40]); + u5 = vaddq_s32(u5, rnding); + u5 = vshlq_s32(u5, v_bit); + + x = vmulq_n_s32(in[5 * 2 + col], cospi[40]); + u6 = vmlaq_n_s32(x, in[3 * 2 + col], cospi[24]); + u6 = vaddq_s32(u6, rnding); + u6 = vshlq_s32(u6, v_bit); + + // stage 3 + x = vmulq_n_s32(u0, cospi[32]); + y = vmulq_n_s32(u1, cospi[32]); + v0 = vaddq_s32(x, y); + v0 = vaddq_s32(v0, rnding); + v0 = vshlq_s32(v0, v_bit); + + v1 = vsubq_s32(x, y); + v1 = vaddq_s32(v1, rnding); + v1 = vshlq_s32(v1, v_bit); + + x = vmulq_n_s32(u2, cospi[48]); + v2 = vmlaq_n_s32(x, u3, -cospi[16]); + v2 = vaddq_s32(v2, rnding); + v2 = vshlq_s32(v2, v_bit); + + x = vmulq_n_s32(u2, cospi[16]); + v3 = vmlaq_n_s32(x, u3, cospi[48]); + v3 = vaddq_s32(v3, rnding); + v3 = vshlq_s32(v3, v_bit); + + addsub_neon(u4, u5, &v4, &v5, &clamp_lo, &clamp_hi); + addsub_neon(u7, u6, &v7, &v6, &clamp_lo, &clamp_hi); + + // stage 4 + addsub_neon(v0, v3, &u0, &u3, &clamp_lo, &clamp_hi); + addsub_neon(v1, v2, &u1, &u2, &clamp_lo, &clamp_hi); + u4 = v4; + u7 = v7; + + x = vmulq_n_s32(v5, cospi[32]); + y = vmulq_n_s32(v6, cospi[32]); + u6 = vaddq_s32(y, x); + u6 = vaddq_s32(u6, rnding); + u6 = vshlq_s32(u6, v_bit); + + u5 = vsubq_s32(y, x); + u5 = vaddq_s32(u5, rnding); + u5 = vshlq_s32(u5, v_bit); + + // stage 5 + addsub_neon(u0, u7, out + 0 * 2 + col, out + 7 * 2 + col, &clamp_lo, + &clamp_hi); + addsub_neon(u1, u6, out + 1 * 2 + col, out + 6 * 2 + col, &clamp_lo, + &clamp_hi); + addsub_neon(u2, u5, out + 2 * 2 + col, out + 5 * 2 + col, &clamp_lo, + &clamp_hi); + addsub_neon(u3, u4, out + 3 * 2 + col, out + 4 * 2 + col, &clamp_lo, + &clamp_hi); + } + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_8x8(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 16); + } +} + +static void iadst8x8_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int32x4_t kZero = vdupq_n_s32(0); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t u[8], v[8], x; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-1-2 + // (1) + u[0] = vmlaq_n_s32(rnding, in[14], cospi[4]); + u[0] = vmlaq_n_s32(u[0], in[0], cospi[60]); + u[0] = vshlq_s32(u[0], v_bit); + + u[1] = vmlaq_n_s32(rnding, in[14], cospi[60]); + u[1] = vmlsq_n_s32(u[1], in[0], cospi[4]); + u[1] = vshlq_s32(u[1], v_bit); + + // (2) + u[2] = vmlaq_n_s32(rnding, in[10], cospi[20]); + u[2] = vmlaq_n_s32(u[2], in[4], cospi[44]); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vmlaq_n_s32(rnding, in[10], cospi[44]); + u[3] = vmlsq_n_s32(u[3], in[4], cospi[20]); + u[3] = vshlq_s32(u[3], v_bit); + + // (3) + u[4] = vmlaq_n_s32(rnding, in[6], cospi[36]); + u[4] = vmlaq_n_s32(u[4], in[8], cospi[28]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, in[6], cospi[28]); + u[5] = vmlsq_n_s32(u[5], in[8], cospi[36]); + u[5] = vshlq_s32(u[5], v_bit); + + // (4) + u[6] = vmlaq_n_s32(rnding, in[2], cospi[52]); + u[6] = vmlaq_n_s32(u[6], in[12], cospi[12]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(rnding, in[2], cospi[12]); + u[7] = vmlsq_n_s32(u[7], in[12], cospi[52]); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 3 + addsub_neon(u[0], u[4], &v[0], &v[4], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[5], &v[1], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[6], &v[2], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[7], &v[3], &v[7], &clamp_lo, &clamp_hi); + + // stage 4 + u[0] = v[0]; + u[1] = v[1]; + u[2] = v[2]; + u[3] = v[3]; + + u[4] = vmlaq_n_s32(rnding, v[4], cospi[16]); + u[4] = vmlaq_n_s32(u[4], v[5], cospi[48]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, v[4], cospi[48]); + u[5] = vmlsq_n_s32(u[5], v[5], cospi[16]); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vmlaq_n_s32(rnding, v[7], cospi[16]); + u[6] = vmlsq_n_s32(u[6], v[6], cospi[48]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(rnding, v[7], cospi[48]); + u[7] = vmlaq_n_s32(u[7], v[6], cospi[16]); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 5 + addsub_neon(u[0], u[2], &v[0], &v[2], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[3], &v[1], &v[3], &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[6], &v[4], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[7], &v[5], &v[7], &clamp_lo, &clamp_hi); + + // stage 6 + u[0] = v[0]; + u[1] = v[1]; + u[4] = v[4]; + u[5] = v[5]; + + v[0] = vmlaq_n_s32(rnding, v[2], cospi[32]); + x = vmulq_n_s32(v[3], cospi[32]); + u[2] = vaddq_s32(v[0], x); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vsubq_s32(v[0], x); + u[3] = vshlq_s32(u[3], v_bit); + + v[0] = vmlaq_n_s32(rnding, v[6], cospi[32]); + x = vmulq_n_s32(v[7], cospi[32]); + u[6] = vaddq_s32(v[0], x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vsubq_s32(v[0], x); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 7 + if (do_cols) { + out[0] = u[0]; + out[2] = vsubq_s32(kZero, u[4]); + out[4] = u[6]; + out[6] = vsubq_s32(kZero, u[2]); + out[8] = u[3]; + out[10] = vsubq_s32(kZero, u[7]); + out[12] = u[5]; + out[14] = vsubq_s32(kZero, u[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&u[0], &u[4], out + 0, out + 2, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[6], &u[2], out + 4, out + 6, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[3], &u[7], out + 8, out + 10, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[5], &u[1], out + 12, out + 14, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + } + + // Odd 8 points: 1, 3, ..., 15 + // stage 0 + // stage 1 + // stage 2 + // (1) + u[0] = vmlaq_n_s32(rnding, in[15], cospi[4]); + u[0] = vmlaq_n_s32(u[0], in[1], cospi[60]); + u[0] = vshlq_s32(u[0], v_bit); + + u[1] = vmlaq_n_s32(rnding, in[15], cospi[60]); + u[1] = vmlsq_n_s32(u[1], in[1], cospi[4]); + u[1] = vshlq_s32(u[1], v_bit); + + // (2) + u[2] = vmlaq_n_s32(rnding, in[11], cospi[20]); + u[2] = vmlaq_n_s32(u[2], in[5], cospi[44]); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vmlaq_n_s32(rnding, in[11], cospi[44]); + u[3] = vmlsq_n_s32(u[3], in[5], cospi[20]); + u[3] = vshlq_s32(u[3], v_bit); + + // (3) + u[4] = vmlaq_n_s32(rnding, in[7], cospi[36]); + u[4] = vmlaq_n_s32(u[4], in[9], cospi[28]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, in[7], cospi[28]); + u[5] = vmlsq_n_s32(u[5], in[9], cospi[36]); + u[5] = vshlq_s32(u[5], v_bit); + + // (4) + u[6] = vmlaq_n_s32(rnding, in[3], cospi[52]); + u[6] = vmlaq_n_s32(u[6], in[13], cospi[12]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(rnding, in[3], cospi[12]); + u[7] = vmlsq_n_s32(u[7], in[13], cospi[52]); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 3 + addsub_neon(u[0], u[4], &v[0], &v[4], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[5], &v[1], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[6], &v[2], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[7], &v[3], &v[7], &clamp_lo, &clamp_hi); + + // stage 4 + u[0] = v[0]; + u[1] = v[1]; + u[2] = v[2]; + u[3] = v[3]; + + u[4] = vmlaq_n_s32(rnding, v[4], cospi[16]); + u[4] = vmlaq_n_s32(u[4], v[5], cospi[48]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, v[4], cospi[48]); + u[5] = vmlsq_n_s32(u[5], v[5], cospi[16]); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vmlaq_n_s32(rnding, v[7], cospi[16]); + u[6] = vmlsq_n_s32(u[6], v[6], cospi[48]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(rnding, v[6], cospi[16]); + u[7] = vmlaq_n_s32(u[7], v[7], cospi[48]); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 5 + addsub_neon(u[0], u[2], &v[0], &v[2], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[3], &v[1], &v[3], &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[6], &v[4], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[7], &v[5], &v[7], &clamp_lo, &clamp_hi); + + // stage 6 + u[0] = v[0]; + u[1] = v[1]; + u[4] = v[4]; + u[5] = v[5]; + + v[0] = vmlaq_n_s32(rnding, v[2], cospi[32]); + x = vmulq_n_s32(v[3], cospi[32]); + u[2] = vaddq_s32(v[0], x); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vsubq_s32(v[0], x); + u[3] = vshlq_s32(u[3], v_bit); + + v[0] = vmlaq_n_s32(rnding, v[6], cospi[32]); + x = vmulq_n_s32(v[7], cospi[32]); + u[6] = vaddq_s32(v[0], x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vsubq_s32(v[0], x); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 7 + if (do_cols) { + out[1] = u[0]; + out[3] = vsubq_s32(kZero, u[4]); + out[5] = u[6]; + out[7] = vsubq_s32(kZero, u[2]); + out[9] = u[3]; + out[11] = vsubq_s32(kZero, u[7]); + out[13] = u[5]; + out[15] = vsubq_s32(kZero, u[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&u[0], &u[4], out + 1, out + 3, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[6], &u[2], out + 5, out + 7, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[3], &u[7], out + 9, out + 11, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[5], &u[1], out + 13, out + 15, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + } +} + +static void iidentity8_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + (void)bit; + out[0] = vaddq_s32(in[0], in[0]); + out[1] = vaddq_s32(in[1], in[1]); + out[2] = vaddq_s32(in[2], in[2]); + out[3] = vaddq_s32(in[3], in[3]); + out[4] = vaddq_s32(in[4], in[4]); + out[5] = vaddq_s32(in[5], in[5]); + out[6] = vaddq_s32(in[6], in[6]); + out[7] = vaddq_s32(in[7], in[7]); + + if (!do_cols) { + const int log_range = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + round_shift_4x4(out, out_shift); + round_shift_4x4(out + 4, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo, &clamp_hi, 8); + } +} + +static uint16x8_t get_recon_8x8(const uint16x8_t pred, int32x4_t res_lo, + int32x4_t res_hi, int fliplr, int bd) { + uint16x8x2_t x; + + if (fliplr) { + res_lo = vrev64q_s32(res_lo); + res_lo = vextq_s32(res_lo, res_lo, 2); + res_hi = vrev64q_s32(res_hi); + res_hi = vextq_s32(res_hi, res_hi, 2); + x.val[0] = vreinterpretq_u16_s32( + vaddw_s16(res_hi, vreinterpret_s16_u16(vget_low_u16(pred)))); + x.val[1] = vreinterpretq_u16_s32( + vaddw_s16(res_lo, vreinterpret_s16_u16(vget_high_u16(pred)))); + + } else { + x.val[0] = vreinterpretq_u16_s32( + vaddw_s16(res_lo, vreinterpret_s16_u16(vget_low_u16(pred)))); + x.val[1] = vreinterpretq_u16_s32( + vaddw_s16(res_hi, vreinterpret_s16_u16(vget_high_u16(pred)))); + } + + uint16x8_t x2 = vcombine_u16(vqmovn_u32(vreinterpretq_u32_u16(x.val[0])), + vqmovn_u32(vreinterpretq_u32_u16(x.val[1]))); + const uint16x8_t vmin = vdupq_n_u16(0); + const uint16x8_t vmax = vdupq_n_u16((1 << bd) - 1); + return highbd_clamp_u16(&x2, &vmin, &vmax); +} + +static void write_buffer_8x8(int32x4_t *in, uint16_t *output, int stride, + int fliplr, int flipud, int shift, int bd) { + uint16x8_t u0, u1, u2, u3, u4, u5, u6, u7; + uint16x8_t v0, v1, v2, v3, v4, v5, v6, v7; + round_shift_8x8(in, shift); + + v0 = vld1q_u16(output + 0 * stride); + v1 = vld1q_u16(output + 1 * stride); + v2 = vld1q_u16(output + 2 * stride); + v3 = vld1q_u16(output + 3 * stride); + v4 = vld1q_u16(output + 4 * stride); + v5 = vld1q_u16(output + 5 * stride); + v6 = vld1q_u16(output + 6 * stride); + v7 = vld1q_u16(output + 7 * stride); + + if (flipud) { + u0 = get_recon_8x8(v0, in[14], in[15], fliplr, bd); + u1 = get_recon_8x8(v1, in[12], in[13], fliplr, bd); + u2 = get_recon_8x8(v2, in[10], in[11], fliplr, bd); + u3 = get_recon_8x8(v3, in[8], in[9], fliplr, bd); + u4 = get_recon_8x8(v4, in[6], in[7], fliplr, bd); + u5 = get_recon_8x8(v5, in[4], in[5], fliplr, bd); + u6 = get_recon_8x8(v6, in[2], in[3], fliplr, bd); + u7 = get_recon_8x8(v7, in[0], in[1], fliplr, bd); + } else { + u0 = get_recon_8x8(v0, in[0], in[1], fliplr, bd); + u1 = get_recon_8x8(v1, in[2], in[3], fliplr, bd); + u2 = get_recon_8x8(v2, in[4], in[5], fliplr, bd); + u3 = get_recon_8x8(v3, in[6], in[7], fliplr, bd); + u4 = get_recon_8x8(v4, in[8], in[9], fliplr, bd); + u5 = get_recon_8x8(v5, in[10], in[11], fliplr, bd); + u6 = get_recon_8x8(v6, in[12], in[13], fliplr, bd); + u7 = get_recon_8x8(v7, in[14], in[15], fliplr, bd); + } + + vst1q_u16(output + 0 * stride, u0); + vst1q_u16(output + 1 * stride, u1); + vst1q_u16(output + 2 * stride, u2); + vst1q_u16(output + 3 * stride, u3); + vst1q_u16(output + 4 * stride, u4); + vst1q_u16(output + 5 * stride, u5); + vst1q_u16(output + 6 * stride, u6); + vst1q_u16(output + 7 * stride, u7); +} + +void av1_inv_txfm2d_add_8x8_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, int bd) { + int32x4_t in[16], out[16]; + const int8_t *shift = av1_inv_txfm_shift_ls[TX_8X8]; + + switch (tx_type) { + case DCT_DCT: + load_buffer_8x8(input, in); + idct8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + idct8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 0, -shift[1], bd); + break; + case DCT_ADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + idct8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 0, -shift[1], bd); + break; + case ADST_DCT: + load_buffer_8x8(input, in); + idct8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 0, -shift[1], bd); + break; + case ADST_ADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 0, -shift[1], bd); + break; + case FLIPADST_DCT: + load_buffer_8x8(input, in); + idct8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 1, -shift[1], bd); + break; + case DCT_FLIPADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + idct8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 1, 0, -shift[1], bd); + break; + case ADST_FLIPADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 1, 0, -shift[1], bd); + break; + case FLIPADST_FLIPADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 1, 1, -shift[1], bd); + break; + case FLIPADST_ADST: + load_buffer_8x8(input, in); + iadst8x8_neon(in, out, INV_COS_BIT, 0, bd, -shift[0]); + transpose_8x8(out, in); + iadst8x8_neon(in, out, INV_COS_BIT, 1, bd, 0); + write_buffer_8x8(out, output, stride, 0, 1, -shift[1], bd); + break; + default: assert(0); + } +} + +static void idct8x8_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t x; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-1-2-3 + x = vmulq_n_s32(in[0], cospi[32]); + x = vaddq_s32(vshlq_s32(x, v_bit), rnding); + + // stage 4-5 + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + clamp_lo = vdupq_n_s32(-(1 << (log_range_out - 1))); + clamp_hi = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + x = vaddq_s32(x, offset); + x = vshlq_s32(x, vdupq_n_s32(-out_shift)); + } + + x = vmaxq_s32(x, clamp_lo); + x = vminq_s32(x, clamp_hi); + out[0] = x; + out[1] = x; + out[2] = x; + out[3] = x; + out[4] = x; + out[5] = x; + out[6] = x; + out[7] = x; +} + +static void idct8x8_new_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t u0, u1, u2, u3, u4, u5, u6, u7; + int32x4_t v0, v1, v2, v3, v4, v5, v6, v7; + int32x4_t x, y; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + // stage 0 + // stage 1 + // stage 2 + u0 = in[0]; + u1 = in[4]; + u2 = in[2]; + u3 = in[6]; + + x = vmlaq_n_s32(rnding, in[1], cospi[56]); + u4 = vmlaq_n_s32(x, in[7], -cospi[8]); + u4 = vshlq_s32(u4, v_bit); + + x = vmlaq_n_s32(rnding, in[1], cospi[8]); + u7 = vmlaq_n_s32(x, in[7], cospi[56]); + u7 = vshlq_s32(u7, v_bit); + + x = vmlaq_n_s32(rnding, in[5], cospi[24]); + u5 = vmlaq_n_s32(x, in[3], -cospi[40]); + u5 = vshlq_s32(u5, v_bit); + + x = vmlaq_n_s32(rnding, in[5], cospi[40]); + u6 = vmlaq_n_s32(x, in[3], cospi[24]); + u6 = vshlq_s32(u6, v_bit); + + // stage 3 + x = vmlaq_n_s32(rnding, u0, cospi[32]); + y = vmulq_n_s32(u1, cospi[32]); + v0 = vaddq_s32(x, y); + v0 = vshlq_s32(v0, v_bit); + + v1 = vsubq_s32(x, y); + v1 = vshlq_s32(v1, v_bit); + + x = vmlaq_n_s32(rnding, u2, cospi[48]); + v2 = vmlaq_n_s32(x, u3, -cospi[16]); + v2 = vshlq_s32(v2, v_bit); + + x = vmlaq_n_s32(rnding, u2, cospi[16]); + v3 = vmlaq_n_s32(x, u3, cospi[48]); + v3 = vshlq_s32(v3, v_bit); + + addsub_neon(u4, u5, &v4, &v5, &clamp_lo, &clamp_hi); + addsub_neon(u7, u6, &v7, &v6, &clamp_lo, &clamp_hi); + + // stage 4 + addsub_neon(v0, v3, &u0, &u3, &clamp_lo, &clamp_hi); + addsub_neon(v1, v2, &u1, &u2, &clamp_lo, &clamp_hi); + u4 = v4; + u7 = v7; + + x = vmulq_n_s32(v5, cospi[32]); + y = vmlaq_n_s32(rnding, v6, cospi[32]); + u6 = vaddq_s32(y, x); + u6 = vshlq_s32(u6, v_bit); + + u5 = vsubq_s32(y, x); + u5 = vshlq_s32(u5, v_bit); + + // stage 5 + addsub_neon(u0, u7, out + 0, out + 7, &clamp_lo, &clamp_hi); + addsub_neon(u1, u6, out + 1, out + 6, &clamp_lo, &clamp_hi); + addsub_neon(u2, u5, out + 2, out + 5, &clamp_lo, &clamp_hi); + addsub_neon(u3, u4, out + 3, out + 4, &clamp_lo, &clamp_hi); + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_4x4(out, out_shift); + round_shift_4x4(out + 4, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 8); + } +} + +static void iadst8x8_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + int32x4_t u[8], x; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-2 + + u[0] = vmlaq_n_s32(rnding, in[0], cospi[60]); + u[0] = vshlq_s32(u[0], v_bit); + + u[1] = vmlaq_n_s32(rnding, in[0], cospi[4]); + u[1] = vshlq_s32(vnegq_s32(u[1]), v_bit); + + // stage 3-4 + int32x4_t temp1, temp2; + temp1 = vmlaq_n_s32(rnding, u[0], cospi[16]); + temp1 = vmlaq_n_s32(temp1, u[1], cospi[48]); + temp1 = vshlq_s32(temp1, v_bit); + u[4] = temp1; + + temp2 = vmlaq_n_s32(rnding, u[0], cospi[48]); + u[5] = vmlsq_n_s32(temp2, u[1], cospi[16]); + u[5] = vshlq_s32(u[5], v_bit); + + // stage 5-6 + temp1 = vmlaq_n_s32(rnding, u[0], cospi[32]); + x = vmulq_n_s32(u[1], cospi[32]); + u[2] = vaddq_s32(temp1, x); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vsubq_s32(temp1, x); + u[3] = vshlq_s32(u[3], v_bit); + + temp1 = vmlaq_n_s32(rnding, u[4], cospi[32]); + x = vmulq_n_s32(u[5], cospi[32]); + u[6] = vaddq_s32(temp1, x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vsubq_s32(temp1, x); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 7 + if (do_cols) { + out[0] = u[0]; + out[1] = vnegq_s32(u[4]); + out[2] = u[6]; + out[3] = vnegq_s32(u[2]); + out[4] = u[3]; + out[5] = vnegq_s32(u[7]); + out[6] = u[5]; + out[7] = vnegq_s32(u[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&u[0], &u[4], out + 0, out + 1, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[6], &u[2], out + 2, out + 3, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[3], &u[7], out + 4, out + 5, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[5], &u[1], out + 6, out + 7, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + } +} + +static void iadst8x8_new_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + // const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t u[8], v[8], x; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-2 + + u[0] = vmlaq_n_s32(rnding, in[7], cospi[4]); + u[0] = vmlaq_n_s32(u[0], in[0], cospi[60]); + u[0] = vshlq_s32(u[0], v_bit); + + u[1] = vmlaq_n_s32(rnding, in[7], cospi[60]); + u[1] = vmlsq_n_s32(u[1], in[0], cospi[4]); + u[1] = vshlq_s32(u[1], v_bit); + + // (2) + u[2] = vmlaq_n_s32(rnding, in[5], cospi[20]); + u[2] = vmlaq_n_s32(u[2], in[2], cospi[44]); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vmlaq_n_s32(rnding, in[5], cospi[44]); + u[3] = vmlsq_n_s32(u[3], in[2], cospi[20]); + u[3] = vshlq_s32(u[3], v_bit); + + // (3) + u[4] = vmlaq_n_s32(rnding, in[3], cospi[36]); + u[4] = vmlaq_n_s32(u[4], in[4], cospi[28]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, in[3], cospi[28]); + u[5] = vmlsq_n_s32(u[5], in[4], cospi[36]); + u[5] = vshlq_s32(u[5], v_bit); + + // (4) + u[6] = vmulq_n_s32(in[1], cospi[52]); + u[6] = vmlaq_n_s32(u[6], in[6], cospi[12]); + u[6] = vaddq_s32(u[6], rnding); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmulq_n_s32(in[1], cospi[12]); + u[7] = vmlsq_n_s32(u[7], in[6], cospi[52]); + u[7] = vaddq_s32(u[7], rnding); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 3 + addsub_neon(u[0], u[4], &v[0], &v[4], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[5], &v[1], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[6], &v[2], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[7], &v[3], &v[7], &clamp_lo, &clamp_hi); + + // stage 4 + u[0] = v[0]; + u[1] = v[1]; + u[2] = v[2]; + u[3] = v[3]; + + u[4] = vmlaq_n_s32(rnding, v[4], cospi[16]); + u[4] = vmlaq_n_s32(u[4], v[5], cospi[48]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlaq_n_s32(rnding, v[4], cospi[48]); + u[5] = vmlsq_n_s32(u[5], v[5], cospi[16]); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vmlsq_n_s32(rnding, v[6], cospi[48]); + u[6] = vmlaq_n_s32(u[6], v[7], cospi[16]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(rnding, v[6], cospi[16]); + u[7] = vmlaq_n_s32(u[7], v[7], cospi[48]); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 5 + addsub_neon(u[0], u[2], &v[0], &v[2], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[3], &v[1], &v[3], &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[6], &v[4], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[7], &v[5], &v[7], &clamp_lo, &clamp_hi); + + // stage 6 + u[0] = v[0]; + u[1] = v[1]; + u[4] = v[4]; + u[5] = v[5]; + + v[0] = vmlaq_n_s32(rnding, v[2], cospi[32]); + x = vmulq_n_s32(v[3], cospi[32]); + u[2] = vaddq_s32(v[0], x); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vsubq_s32(v[0], x); + u[3] = vshlq_s32(u[3], v_bit); + + v[0] = vmlaq_n_s32(rnding, v[6], cospi[32]); + x = vmulq_n_s32(v[7], cospi[32]); + u[6] = vaddq_s32(v[0], x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vsubq_s32(v[0], x); + u[7] = vshlq_s32(u[7], v_bit); + + // stage 7 + if (do_cols) { + out[0] = u[0]; + out[1] = vnegq_s32(u[4]); + out[2] = u[6]; + out[3] = vnegq_s32(u[2]); + out[4] = u[3]; + out[5] = vnegq_s32(u[7]); + out[6] = u[5]; + out[7] = vnegq_s32(u[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&u[0], &u[4], out + 0, out + 1, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[6], &u[2], out + 2, out + 3, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[3], &u[7], out + 4, out + 5, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[5], &u[1], out + 6, out + 7, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + } +} + +static void idct16x16_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-4 + in[0] = vmlaq_n_s32(rnding, in[0], cospi[32]); + in[0] = vshlq_s32(in[0], v_bit); + + // stage 5-7 + if (!do_cols) { + log_range = AOMMAX(16, bd + 6); + clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + if (out_shift != 0) { + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + in[0] = vaddq_s32(in[0], offset); + in[0] = vshlq_s32(in[0], vdupq_n_s32(-out_shift)); + } + } + + in[0] = vmaxq_s32(in[0], clamp_lo); + in[0] = vminq_s32(in[0], clamp_hi); + out[0] = in[0]; + out[1] = in[0]; + out[2] = in[0]; + out[3] = in[0]; + out[4] = in[0]; + out[5] = in[0]; + out[6] = in[0]; + out[7] = in[0]; + out[8] = in[0]; + out[9] = in[0]; + out[10] = in[0]; + out[11] = in[0]; + out[12] = in[0]; + out[13] = in[0]; + out[14] = in[0]; + out[15] = in[0]; +} + +static void idct16x16_low8_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + int32x4_t u[16], x, y; + // stage 0-1 + u[0] = in[0]; + u[2] = in[4]; + u[4] = in[2]; + u[6] = in[6]; + u[8] = in[1]; + u[10] = in[5]; + u[12] = in[3]; + u[14] = in[7]; + + // stage 2 + u[15] = half_btf_0_neon_r(&cospi[4], &u[8], &v_bit, &rnding); + u[8] = half_btf_0_neon_r(&cospi[60], &u[8], &v_bit, &rnding); + + u[9] = half_btf_0_m_neon_r(&cospi[36], &u[14], &v_bit, &rnding); + u[14] = half_btf_0_neon_r(&cospi[28], &u[14], &v_bit, &rnding); + + u[13] = half_btf_0_neon_r(&cospi[20], &u[10], &v_bit, &rnding); + u[10] = half_btf_0_neon_r(&cospi[44], &u[10], &v_bit, &rnding); + + u[11] = half_btf_0_m_neon_r(&cospi[52], &u[12], &v_bit, &rnding); + u[12] = half_btf_0_neon_r(&cospi[12], &u[12], &v_bit, &rnding); + + // stage 3 + u[7] = half_btf_0_neon_r(&cospi[8], &u[4], &v_bit, &rnding); + u[4] = half_btf_0_neon_r(&cospi[56], &u[4], &v_bit, &rnding); + u[5] = half_btf_0_m_neon_r(&cospi[40], &u[6], &v_bit, &rnding); + u[6] = half_btf_0_neon_r(&cospi[24], &u[6], &v_bit, &rnding); + + addsub_neon(u[8], u[9], &u[8], &u[9], &clamp_lo, &clamp_hi); + addsub_neon(u[11], u[10], &u[11], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(u[12], u[13], &u[12], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(u[15], u[14], &u[15], &u[14], &clamp_lo, &clamp_hi); + + // stage 4 + x = vmlaq_n_s32(rnding, u[0], cospi[32]); + u[0] = vshlq_s32(x, v_bit); + u[1] = u[0]; + + u[3] = half_btf_0_neon_r(&cospi[16], &u[2], &v_bit, &rnding); + u[2] = half_btf_0_neon_r(&cospi[48], &u[2], &v_bit, &rnding); + + addsub_neon(u[4], u[5], &u[4], &u[5], &clamp_lo, &clamp_hi); + addsub_neon(u[7], u[6], &u[7], &u[6], &clamp_lo, &clamp_hi); + + x = half_btf_neon_mode10_r(&cospi[16], &u[9], &cospi[48], &u[14], &v_bit, + &rnding); + u[14] = + half_btf_neon_r(&cospi[48], &u[9], &cospi[16], &u[14], &v_bit, &rnding); + u[9] = x; + y = half_btf_neon_mode11_r(&cospi[48], &u[10], &cospi[16], &u[13], &v_bit, + &rnding); + u[13] = half_btf_neon_mode10_r(&cospi[16], &u[10], &cospi[48], &u[13], &v_bit, + &rnding); + u[10] = y; + + // stage 5 + addsub_neon(u[0], u[3], &u[0], &u[3], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[2], &u[1], &u[2], &clamp_lo, &clamp_hi); + + x = vmulq_n_s32(u[5], cospi[32]); + y = vmlaq_n_s32(rnding, u[6], cospi[32]); + u[5] = vsubq_s32(y, x); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vaddq_s32(y, x); + u[6] = vshlq_s32(u[6], v_bit); + + addsub_neon(u[8], u[11], &u[8], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(u[9], u[10], &u[9], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(u[15], u[12], &u[15], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(u[14], u[13], &u[14], &u[13], &clamp_lo, &clamp_hi); + + // stage 6 + addsub_neon(u[0], u[7], &u[0], &u[7], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[6], &u[1], &u[6], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[5], &u[2], &u[5], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[4], &u[3], &u[4], &clamp_lo, &clamp_hi); + + x = vmulq_n_s32(u[10], cospi[32]); + y = vmlaq_n_s32(rnding, u[13], cospi[32]); + u[10] = vsubq_s32(y, x); + u[10] = vshlq_s32(u[10], v_bit); + + u[13] = vaddq_s32(x, y); + u[13] = vshlq_s32(u[13], v_bit); + + x = vmulq_n_s32(u[11], cospi[32]); + y = vmlaq_n_s32(rnding, u[12], cospi[32]); + u[11] = vsubq_s32(y, x); + u[11] = vshlq_s32(u[11], v_bit); + + u[12] = vaddq_s32(x, y); + u[12] = vshlq_s32(u[12], v_bit); + // stage 7 + addsub_neon(u[0], u[15], out + 0, out + 15, &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[14], out + 1, out + 14, &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[13], out + 2, out + 13, &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[12], out + 3, out + 12, &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[11], out + 4, out + 11, &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[10], out + 5, out + 10, &clamp_lo, &clamp_hi); + addsub_neon(u[6], u[9], out + 6, out + 9, &clamp_lo, &clamp_hi); + addsub_neon(u[7], u[8], out + 7, out + 8, &clamp_lo, &clamp_hi); + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_8x8(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 16); + } +} + +static void iadst16x16_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + int32x4_t v[16], x, y, temp1, temp2; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0 + // stage 1 + // stage 2 + v[0] = vmlaq_n_s32(rnding, in[0], cospi[62]); + v[0] = vshlq_s32(v[0], v_bit); + + v[1] = vmlsq_n_s32(rnding, in[0], cospi[2]); + v[1] = vshlq_s32(v[1], v_bit); + + // stage 3 + v[8] = v[0]; + v[9] = v[1]; + + // stage 4 + temp1 = vmlaq_n_s32(rnding, v[8], cospi[8]); + temp1 = vmlaq_n_s32(temp1, v[9], cospi[56]); + temp1 = vshlq_s32(temp1, v_bit); + + temp2 = vmlaq_n_s32(rnding, v[8], cospi[56]); + temp2 = vmlsq_n_s32(temp2, v[9], cospi[8]); + temp2 = vshlq_s32(temp2, v_bit); + v[8] = temp1; + v[9] = temp2; + + // stage 5 + v[4] = v[0]; + v[5] = v[1]; + v[12] = v[8]; + v[13] = v[9]; + + // stage 6 + temp1 = vmlaq_n_s32(rnding, v[4], cospi[16]); + temp1 = vmlaq_n_s32(temp1, v[5], cospi[48]); + temp1 = vshlq_s32(temp1, v_bit); + + temp2 = vmlaq_n_s32(rnding, v[4], cospi[48]); + temp2 = vmlsq_n_s32(temp2, v[5], cospi[16]); + temp2 = vshlq_s32(temp2, v_bit); + v[4] = temp1; + v[5] = temp2; + + temp1 = vmlaq_n_s32(rnding, v[12], cospi[16]); + temp1 = vmlaq_n_s32(temp1, v[13], cospi[48]); + temp1 = vshlq_s32(temp1, v_bit); + + temp2 = vmlaq_n_s32(rnding, v[12], cospi[48]); + temp2 = vmlsq_n_s32(temp2, v[13], cospi[16]); + temp2 = vshlq_s32(temp2, v_bit); + v[12] = temp1; + v[13] = temp2; + + // stage 7 + v[2] = v[0]; + v[3] = v[1]; + v[6] = v[4]; + v[7] = v[5]; + v[10] = v[8]; + v[11] = v[9]; + v[14] = v[12]; + v[15] = v[13]; + + // stage 8 + y = vmlaq_n_s32(rnding, v[2], cospi[32]); + x = vmulq_n_s32(v[3], cospi[32]); + v[2] = vaddq_s32(y, x); + v[2] = vshlq_s32(v[2], v_bit); + + v[3] = vsubq_s32(y, x); + v[3] = vshlq_s32(v[3], v_bit); + + y = vmlaq_n_s32(rnding, v[6], cospi[32]); + x = vmulq_n_s32(v[7], cospi[32]); + v[6] = vaddq_s32(y, x); + v[6] = vshlq_s32(v[6], v_bit); + + v[7] = vsubq_s32(y, x); + v[7] = vshlq_s32(v[7], v_bit); + + y = vmlaq_n_s32(rnding, v[10], cospi[32]); + x = vmulq_n_s32(v[11], cospi[32]); + v[10] = vaddq_s32(y, x); + v[10] = vshlq_s32(v[10], v_bit); + + v[11] = vsubq_s32(y, x); + v[11] = vshlq_s32(v[11], v_bit); + + y = vmlaq_n_s32(rnding, v[14], cospi[32]); + x = vmulq_n_s32(v[15], cospi[32]); + v[14] = vaddq_s32(y, x); + v[14] = vshlq_s32(v[14], v_bit); + + v[15] = vsubq_s32(y, x); + v[15] = vshlq_s32(v[15], v_bit); + + // stage 9 + if (do_cols) { + out[0] = v[0]; + out[1] = vnegq_s32(v[8]); + out[2] = v[12]; + out[3] = vnegq_s32(v[4]); + out[4] = v[6]; + out[5] = vnegq_s32(v[14]); + out[6] = v[10]; + out[7] = vnegq_s32(v[2]); + out[8] = v[3]; + out[9] = vnegq_s32(v[11]); + out[10] = v[15]; + out[11] = vnegq_s32(v[7]); + out[12] = v[5]; + out[13] = vnegq_s32(v[13]); + out[14] = v[9]; + out[15] = vnegq_s32(v[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&v[0], &v[8], out + 0, out + 1, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&v[12], &v[4], out + 2, out + 3, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[6], &v[14], out + 4, out + 5, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[10], &v[2], out + 6, out + 7, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[3], &v[11], out + 8, out + 9, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[15], &v[7], out + 10, out + 11, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[5], &v[13], out + 12, out + 13, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[9], &v[1], out + 14, out + 15, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + } +} + +static void iadst16x16_low8_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t zero = vdupq_n_s32(0); + int32x4_t u[16], x, y; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-2 + u[0] = vmlaq_n_s32(rnding, in[0], cospi[62]); + u[0] = vshlq_s32(u[0], v_bit); + + u[1] = vmlsq_n_s32(rnding, in[0], cospi[2]); + u[1] = vshlq_s32(u[1], v_bit); + + u[2] = vmlaq_n_s32(rnding, in[2], cospi[54]); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vmlsq_n_s32(rnding, in[2], cospi[10]); + u[3] = vshlq_s32(u[3], v_bit); + + u[4] = vmlaq_n_s32(rnding, in[4], cospi[46]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlsq_n_s32(rnding, in[4], cospi[18]); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vmlaq_n_s32(rnding, in[6], cospi[38]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlsq_n_s32(rnding, in[6], cospi[26]); + u[7] = vshlq_s32(u[7], v_bit); + + u[8] = vmlaq_n_s32(rnding, in[7], cospi[34]); + u[8] = vshlq_s32(u[8], v_bit); + + u[9] = vmlaq_n_s32(rnding, in[7], cospi[30]); + u[9] = vshlq_s32(u[9], v_bit); + + u[10] = vmlaq_n_s32(rnding, in[5], cospi[42]); + u[10] = vshlq_s32(u[10], v_bit); + + u[11] = vmlaq_n_s32(rnding, in[5], cospi[22]); + u[11] = vshlq_s32(u[11], v_bit); + + u[12] = vmlaq_n_s32(rnding, in[3], cospi[50]); + u[12] = vshlq_s32(u[12], v_bit); + + u[13] = vmlaq_n_s32(rnding, in[3], cospi[14]); + u[13] = vshlq_s32(u[13], v_bit); + + u[14] = vmlaq_n_s32(rnding, in[1], cospi[58]); + u[14] = vshlq_s32(u[14], v_bit); + + u[15] = vmlaq_n_s32(rnding, in[1], cospi[6]); + u[15] = vshlq_s32(u[15], v_bit); + + // stage 3 + addsub_neon(u[0], u[8], &u[0], &u[8], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[9], &u[1], &u[9], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[10], &u[2], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[11], &u[3], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[12], &u[4], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[13], &u[5], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(u[6], u[14], &u[6], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(u[7], u[15], &u[7], &u[15], &clamp_lo, &clamp_hi); + + // stage 4 + y = vmlaq_n_s32(rnding, u[8], cospi[56]); + u[8] = vmlaq_n_s32(rnding, u[8], cospi[8]); + u[8] = vmlaq_n_s32(u[8], u[9], cospi[56]); + u[8] = vshlq_s32(u[8], v_bit); + + u[9] = vmlsq_n_s32(y, u[9], cospi[8]); + u[9] = vshlq_s32(u[9], v_bit); + + y = vmlaq_n_s32(rnding, u[10], cospi[24]); + u[10] = vmlaq_n_s32(rnding, u[10], cospi[40]); + u[10] = vmlaq_n_s32(u[10], u[11], cospi[24]); + u[10] = vshlq_s32(u[10], v_bit); + + u[11] = vmlsq_n_s32(y, u[11], cospi[40]); + u[11] = vshlq_s32(u[11], v_bit); + + y = vmlaq_n_s32(rnding, u[12], cospi[8]); + u[12] = vmlsq_n_s32(rnding, u[12], cospi[56]); + u[12] = vmlaq_n_s32(u[12], u[13], cospi[8]); + u[12] = vshlq_s32(u[12], v_bit); + + u[13] = vmlaq_n_s32(y, u[13], cospi[56]); + u[13] = vshlq_s32(u[13], v_bit); + + y = vmlaq_n_s32(rnding, u[14], cospi[40]); + u[14] = vmlsq_n_s32(rnding, u[14], cospi[24]); + u[14] = vmlaq_n_s32(u[14], u[15], cospi[40]); + u[14] = vshlq_s32(u[14], v_bit); + + u[15] = vmlaq_n_s32(y, u[15], cospi[24]); + u[15] = vshlq_s32(u[15], v_bit); + + // stage 5 + addsub_neon(u[0], u[4], &u[0], &u[4], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[5], &u[1], &u[5], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[6], &u[2], &u[6], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[7], &u[3], &u[7], &clamp_lo, &clamp_hi); + addsub_neon(u[8], u[12], &u[8], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(u[9], u[13], &u[9], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(u[10], u[14], &u[10], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(u[11], u[15], &u[11], &u[15], &clamp_lo, &clamp_hi); + + // stage 6 + y = vmlaq_n_s32(rnding, u[4], cospi[48]); + u[4] = vmlaq_n_s32(rnding, u[4], cospi[16]); + u[4] = vmlaq_n_s32(u[4], u[5], cospi[48]); + u[4] = vshlq_s32(u[4], v_bit); + + u[5] = vmlsq_n_s32(y, u[5], cospi[16]); + u[5] = vshlq_s32(u[5], v_bit); + + y = vmlaq_n_s32(rnding, u[6], cospi[16]); + u[6] = vmlsq_n_s32(rnding, u[6], cospi[48]); + u[6] = vmlaq_n_s32(u[6], u[7], cospi[16]); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vmlaq_n_s32(y, u[7], cospi[48]); + u[7] = vshlq_s32(u[7], v_bit); + + y = vmlaq_n_s32(rnding, u[12], cospi[48]); + u[12] = vmulq_n_s32(u[12], cospi[16]); + u[12] = vmlaq_n_s32(u[12], u[13], cospi[48]); + u[12] = vshlq_s32(u[12], v_bit); + + u[13] = vmlsq_n_s32(y, u[13], cospi[16]); + u[13] = vshlq_s32(u[13], v_bit); + + y = vmlaq_n_s32(rnding, u[14], cospi[16]); + u[14] = vmlsq_n_s32(rnding, u[14], cospi[48]); + u[14] = vmlaq_n_s32(u[14], u[15], cospi[16]); + u[14] = vshlq_s32(u[14], v_bit); + + u[15] = vmlaq_n_s32(y, u[15], cospi[48]); + u[15] = vshlq_s32(u[15], v_bit); + + // stage 7 + addsub_neon(u[0], u[2], &u[0], &u[2], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[3], &u[1], &u[3], &clamp_lo, &clamp_hi); + addsub_neon(u[4], u[6], &u[4], &u[6], &clamp_lo, &clamp_hi); + addsub_neon(u[5], u[7], &u[5], &u[7], &clamp_lo, &clamp_hi); + addsub_neon(u[8], u[10], &u[8], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(u[9], u[11], &u[9], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(u[12], u[14], &u[12], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(u[13], u[15], &u[13], &u[15], &clamp_lo, &clamp_hi); + + // stage 8 + y = vmlaq_n_s32(rnding, u[2], cospi[32]); + x = vmulq_n_s32(u[3], cospi[32]); + u[2] = vaddq_s32(y, x); + u[2] = vshlq_s32(u[2], v_bit); + + u[3] = vsubq_s32(y, x); + u[3] = vshlq_s32(u[3], v_bit); + y = vmlaq_n_s32(rnding, u[6], cospi[32]); + x = vmulq_n_s32(u[7], cospi[32]); + u[6] = vaddq_s32(y, x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = vsubq_s32(y, x); + u[7] = vshlq_s32(u[7], v_bit); + + y = vmlaq_n_s32(rnding, u[10], cospi[32]); + x = vmulq_n_s32(u[11], cospi[32]); + u[10] = vaddq_s32(y, x); + u[10] = vshlq_s32(u[10], v_bit); + + u[11] = vsubq_s32(y, x); + u[11] = vshlq_s32(u[11], v_bit); + + y = vmlaq_n_s32(rnding, u[14], cospi[32]); + x = vmulq_n_s32(u[15], cospi[32]); + u[14] = vaddq_s32(y, x); + u[14] = vshlq_s32(u[14], v_bit); + + u[15] = vsubq_s32(y, x); + u[15] = vshlq_s32(u[15], v_bit); + + // stage 9 + if (do_cols) { + out[0] = u[0]; + out[1] = vsubq_s32(zero, u[8]); + out[2] = u[12]; + out[3] = vsubq_s32(zero, u[4]); + out[4] = u[6]; + out[5] = vsubq_s32(zero, u[14]); + out[6] = u[10]; + out[7] = vsubq_s32(zero, u[2]); + out[8] = u[3]; + out[9] = vsubq_s32(zero, u[11]); + out[10] = u[15]; + out[11] = vsubq_s32(zero, u[7]); + out[12] = u[5]; + out[13] = vsubq_s32(zero, u[13]); + out[14] = u[9]; + out[15] = vsubq_s32(zero, u[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&u[0], &u[8], out + 0, out + 1, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&u[12], &u[4], out + 2, out + 3, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[6], &u[14], out + 4, out + 5, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[10], &u[2], out + 6, out + 7, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[3], &u[11], out + 8, out + 9, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[15], &u[7], out + 10, out + 11, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[5], &u[13], out + 12, out + 13, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&u[9], &u[1], out + 14, out + 15, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + } +} + +static void idct16x16_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t u[16], v[16], x, y; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + { + // stage 0-1 + u[0] = in[0]; + u[1] = in[8]; + u[2] = in[4]; + u[3] = in[12]; + u[4] = in[2]; + u[5] = in[10]; + u[6] = in[6]; + u[7] = in[14]; + u[8] = in[1]; + u[9] = in[9]; + u[10] = in[5]; + u[11] = in[13]; + u[12] = in[3]; + u[13] = in[11]; + u[14] = in[7]; + u[15] = in[15]; + + // stage 2 + v[0] = u[0]; + v[1] = u[1]; + v[2] = u[2]; + v[3] = u[3]; + v[4] = u[4]; + v[5] = u[5]; + v[6] = u[6]; + v[7] = u[7]; + + v[8] = half_btf_neon_mode01_r(&cospi[60], &u[8], &cospi[4], &u[15], &v_bit, + &rnding); + v[9] = half_btf_neon_mode01_r(&cospi[28], &u[9], &cospi[36], &u[14], &v_bit, + &rnding); + v[10] = half_btf_neon_mode01_r(&cospi[44], &u[10], &cospi[20], &u[13], + &v_bit, &rnding); + v[11] = half_btf_neon_mode01_r(&cospi[12], &u[11], &cospi[52], &u[12], + &v_bit, &rnding); + v[12] = half_btf_neon_r(&cospi[52], &u[11], &cospi[12], &u[12], &v_bit, + &rnding); + v[13] = half_btf_neon_r(&cospi[20], &u[10], &cospi[44], &u[13], &v_bit, + &rnding); + v[14] = + half_btf_neon_r(&cospi[36], &u[9], &cospi[28], &u[14], &v_bit, &rnding); + v[15] = + half_btf_neon_r(&cospi[4], &u[8], &cospi[60], &u[15], &v_bit, &rnding); + + // stage 3 + u[0] = v[0]; + u[1] = v[1]; + u[2] = v[2]; + u[3] = v[3]; + u[4] = half_btf_neon_mode01_r(&cospi[56], &v[4], &cospi[8], &v[7], &v_bit, + &rnding); + u[5] = half_btf_neon_mode01_r(&cospi[24], &v[5], &cospi[40], &v[6], &v_bit, + &rnding); + u[6] = + half_btf_neon_r(&cospi[40], &v[5], &cospi[24], &v[6], &v_bit, &rnding); + u[7] = + half_btf_neon_r(&cospi[8], &v[4], &cospi[56], &v[7], &v_bit, &rnding); + addsub_neon(v[8], v[9], &u[8], &u[9], &clamp_lo, &clamp_hi); + addsub_neon(v[11], v[10], &u[11], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(v[12], v[13], &u[12], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(v[15], v[14], &u[15], &u[14], &clamp_lo, &clamp_hi); + + // stage 4 + x = vmlaq_n_s32(rnding, u[0], cospi[32]); + y = vmulq_n_s32(u[1], cospi[32]); + v[0] = vaddq_s32(x, y); + v[0] = vshlq_s32(v[0], v_bit); + + v[1] = vsubq_s32(x, y); + v[1] = vshlq_s32(v[1], v_bit); + + v[2] = half_btf_neon_mode01_r(&cospi[48], &u[2], &cospi[16], &u[3], &v_bit, + &rnding); + v[3] = + half_btf_neon_r(&cospi[16], &u[2], &cospi[48], &u[3], &v_bit, &rnding); + addsub_neon(u[4], u[5], &v[4], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[7], u[6], &v[7], &v[6], &clamp_lo, &clamp_hi); + v[8] = u[8]; + v[9] = half_btf_neon_mode10_r(&cospi[16], &u[9], &cospi[48], &u[14], &v_bit, + &rnding); + v[10] = half_btf_neon_mode11_r(&cospi[48], &u[10], &cospi[16], &u[13], + &v_bit, &rnding); + v[11] = u[11]; + v[12] = u[12]; + v[13] = half_btf_neon_mode10_r(&cospi[16], &u[10], &cospi[48], &u[13], + &v_bit, &rnding); + v[14] = + half_btf_neon_r(&cospi[48], &u[9], &cospi[16], &u[14], &v_bit, &rnding); + v[15] = u[15]; + + // stage 5 + addsub_neon(v[0], v[3], &u[0], &u[3], &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[2], &u[1], &u[2], &clamp_lo, &clamp_hi); + u[4] = v[4]; + + x = vmulq_n_s32(v[5], cospi[32]); + y = vmlaq_n_s32(rnding, v[6], cospi[32]); + u[5] = vsubq_s32(y, x); + u[5] = vshlq_s32(u[5], v_bit); + + u[6] = vaddq_s32(y, x); + u[6] = vshlq_s32(u[6], v_bit); + + u[7] = v[7]; + addsub_neon(v[8], v[11], &u[8], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(v[9], v[10], &u[9], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(v[15], v[12], &u[15], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(v[14], v[13], &u[14], &u[13], &clamp_lo, &clamp_hi); + + // stage 6 + addsub_neon(u[0], u[7], &v[0], &v[7], &clamp_lo, &clamp_hi); + addsub_neon(u[1], u[6], &v[1], &v[6], &clamp_lo, &clamp_hi); + addsub_neon(u[2], u[5], &v[2], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[3], u[4], &v[3], &v[4], &clamp_lo, &clamp_hi); + v[8] = u[8]; + v[9] = u[9]; + + x = vmulq_n_s32(u[10], cospi[32]); + y = vmlaq_n_s32(rnding, u[13], cospi[32]); + v[10] = vsubq_s32(y, x); + v[10] = vshlq_s32(v[10], v_bit); + + v[13] = vaddq_s32(x, y); + v[13] = vshlq_s32(v[13], v_bit); + + x = vmulq_n_s32(u[11], cospi[32]); + y = vmlaq_n_s32(rnding, u[12], cospi[32]); + v[11] = vsubq_s32(y, x); + v[11] = vshlq_s32(v[11], v_bit); + + v[12] = vaddq_s32(x, y); + v[12] = vshlq_s32(v[12], v_bit); + + v[14] = u[14]; + v[15] = u[15]; + + // stage 7 + addsub_neon(v[0], v[15], out + 0, out + 15, &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[14], out + 1, out + 14, &clamp_lo, &clamp_hi); + addsub_neon(v[2], v[13], out + 2, out + 13, &clamp_lo, &clamp_hi); + addsub_neon(v[3], v[12], out + 3, out + 12, &clamp_lo, &clamp_hi); + addsub_neon(v[4], v[11], out + 4, out + 11, &clamp_lo, &clamp_hi); + addsub_neon(v[5], v[10], out + 5, out + 10, &clamp_lo, &clamp_hi); + addsub_neon(v[6], v[9], out + 6, out + 9, &clamp_lo, &clamp_hi); + addsub_neon(v[7], v[8], out + 7, out + 8, &clamp_lo, &clamp_hi); + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = + vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_8x8(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 16); + } + } +} + +static void iadst16x16_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t zero = vdupq_n_s32(0); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + int32x4_t u[16], v[16], x, y; + // Calculate the column 0, 1, 2, 3 + // stage 0 + // stage 1 + // stage 2 + v[0] = vmlaq_n_s32(rnding, in[15], cospi[2]); + v[0] = vmlaq_n_s32(v[0], in[0], cospi[62]); + v[0] = vshlq_s32(v[0], v_bit); + + v[1] = vmlaq_n_s32(rnding, in[15], cospi[62]); + v[1] = vmlsq_n_s32(v[1], in[0], cospi[2]); + v[1] = vshlq_s32(v[1], v_bit); + + v[2] = vmlaq_n_s32(rnding, in[13], cospi[10]); + v[2] = vmlaq_n_s32(v[2], in[2], cospi[54]); + v[2] = vshlq_s32(v[2], v_bit); + + v[3] = vmlaq_n_s32(rnding, in[13], cospi[54]); + v[3] = vmlsq_n_s32(v[3], in[2], cospi[10]); + v[3] = vshlq_s32(v[3], v_bit); + + v[4] = vmlaq_n_s32(rnding, in[11], cospi[18]); + v[4] = vmlaq_n_s32(v[4], in[4], cospi[46]); + v[4] = vshlq_s32(v[4], v_bit); + + v[5] = vmlaq_n_s32(rnding, in[11], cospi[46]); + v[5] = vmlsq_n_s32(v[5], in[4], cospi[18]); + v[5] = vshlq_s32(v[5], v_bit); + + v[6] = vmlaq_n_s32(rnding, in[9], cospi[26]); + v[6] = vmlaq_n_s32(v[6], in[6], cospi[38]); + v[6] = vshlq_s32(v[6], v_bit); + + v[7] = vmlaq_n_s32(rnding, in[9], cospi[38]); + v[7] = vmlsq_n_s32(v[7], in[6], cospi[26]); + v[7] = vshlq_s32(v[7], v_bit); + + v[8] = vmlaq_n_s32(rnding, in[7], cospi[34]); + v[8] = vmlaq_n_s32(v[8], in[8], cospi[30]); + v[8] = vshlq_s32(v[8], v_bit); + + v[9] = vmlaq_n_s32(rnding, in[7], cospi[30]); + v[9] = vmlsq_n_s32(v[9], in[8], cospi[34]); + v[9] = vshlq_s32(v[9], v_bit); + + v[10] = vmlaq_n_s32(rnding, in[5], cospi[42]); + v[10] = vmlaq_n_s32(v[10], in[10], cospi[22]); + v[10] = vshlq_s32(v[10], v_bit); + + v[11] = vmlaq_n_s32(rnding, in[5], cospi[22]); + v[11] = vmlsq_n_s32(v[11], in[10], cospi[42]); + v[11] = vshlq_s32(v[11], v_bit); + + v[12] = vmlaq_n_s32(rnding, in[3], cospi[50]); + v[12] = vmlaq_n_s32(v[12], in[12], cospi[14]); + v[12] = vshlq_s32(v[12], v_bit); + + v[13] = vmlaq_n_s32(rnding, in[3], cospi[14]); + v[13] = vmlsq_n_s32(v[13], in[12], cospi[50]); + v[13] = vshlq_s32(v[13], v_bit); + + v[14] = vmlaq_n_s32(rnding, in[1], cospi[58]); + v[14] = vmlaq_n_s32(v[14], in[14], cospi[6]); + v[14] = vshlq_s32(v[14], v_bit); + + v[15] = vmlaq_n_s32(rnding, in[1], cospi[6]); + v[15] = vmlsq_n_s32(v[15], in[14], cospi[58]); + v[15] = vshlq_s32(v[15], v_bit); + + // stage 3 + addsub_neon(v[0], v[8], &u[0], &u[8], &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[9], &u[1], &u[9], &clamp_lo, &clamp_hi); + addsub_neon(v[2], v[10], &u[2], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(v[3], v[11], &u[3], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(v[4], v[12], &u[4], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(v[5], v[13], &u[5], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(v[6], v[14], &u[6], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(v[7], v[15], &u[7], &u[15], &clamp_lo, &clamp_hi); + + // stage 4 + v[0] = u[0]; + v[1] = u[1]; + v[2] = u[2]; + v[3] = u[3]; + v[4] = u[4]; + v[5] = u[5]; + v[6] = u[6]; + v[7] = u[7]; + + v[8] = vmlaq_n_s32(rnding, u[8], cospi[8]); + v[8] = vmlaq_n_s32(v[8], u[9], cospi[56]); + v[8] = vshlq_s32(v[8], v_bit); + + v[9] = vmlaq_n_s32(rnding, u[8], cospi[56]); + v[9] = vmlsq_n_s32(v[9], u[9], cospi[8]); + v[9] = vshlq_s32(v[9], v_bit); + + v[10] = vmlaq_n_s32(rnding, u[10], cospi[40]); + v[10] = vmlaq_n_s32(v[10], u[11], cospi[24]); + v[10] = vshlq_s32(v[10], v_bit); + + v[11] = vmlaq_n_s32(rnding, u[10], cospi[24]); + v[11] = vmlsq_n_s32(v[11], u[11], cospi[40]); + v[11] = vshlq_s32(v[11], v_bit); + + v[12] = vmlaq_n_s32(rnding, u[12], -cospi[56]); + v[12] = vmlaq_n_s32(v[12], u[13], cospi[8]); + v[12] = vshlq_s32(v[12], v_bit); + + v[13] = vmlaq_n_s32(rnding, u[12], cospi[8]); + v[13] = vmlsq_n_s32(v[13], u[13], -cospi[56]); + v[13] = vshlq_s32(v[13], v_bit); + + v[14] = vmlaq_n_s32(rnding, u[14], -cospi[24]); + v[14] = vmlaq_n_s32(v[14], u[15], cospi[40]); + v[14] = vshlq_s32(v[14], v_bit); + + v[15] = vmlaq_n_s32(rnding, u[14], cospi[40]); + v[15] = vmlsq_n_s32(v[15], u[15], -cospi[24]); + v[15] = vshlq_s32(v[15], v_bit); + + // stage 5 + addsub_neon(v[0], v[4], &u[0], &u[4], &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[5], &u[1], &u[5], &clamp_lo, &clamp_hi); + addsub_neon(v[2], v[6], &u[2], &u[6], &clamp_lo, &clamp_hi); + addsub_neon(v[3], v[7], &u[3], &u[7], &clamp_lo, &clamp_hi); + addsub_neon(v[8], v[12], &u[8], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(v[9], v[13], &u[9], &u[13], &clamp_lo, &clamp_hi); + addsub_neon(v[10], v[14], &u[10], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(v[11], v[15], &u[11], &u[15], &clamp_lo, &clamp_hi); + + // stage 6 + v[0] = u[0]; + v[1] = u[1]; + v[2] = u[2]; + v[3] = u[3]; + + v[4] = vmlaq_n_s32(rnding, u[4], cospi[16]); + v[4] = vmlaq_n_s32(v[4], u[5], cospi[48]); + v[4] = vshlq_s32(v[4], v_bit); + + v[5] = vmlaq_n_s32(rnding, u[4], cospi[48]); + v[5] = vmlsq_n_s32(v[5], u[5], cospi[16]); + v[5] = vshlq_s32(v[5], v_bit); + + v[6] = vmlaq_n_s32(rnding, u[6], -cospi[48]); + v[6] = vmlaq_n_s32(v[6], u[7], cospi[16]); + v[6] = vshlq_s32(v[6], v_bit); + + v[7] = vmlaq_n_s32(rnding, u[6], cospi[16]); + v[7] = vmlsq_n_s32(v[7], u[7], -cospi[48]); + v[7] = vshlq_s32(v[7], v_bit); + + v[8] = u[8]; + v[9] = u[9]; + v[10] = u[10]; + v[11] = u[11]; + + v[12] = vmlaq_n_s32(rnding, u[12], cospi[16]); + v[12] = vmlaq_n_s32(v[12], u[13], cospi[48]); + v[12] = vshlq_s32(v[12], v_bit); + + v[13] = vmlaq_n_s32(rnding, u[12], cospi[48]); + v[13] = vmlsq_n_s32(v[13], u[13], cospi[16]); + v[13] = vshlq_s32(v[13], v_bit); + + v[14] = vmlaq_n_s32(rnding, u[14], -cospi[48]); + v[14] = vmlaq_n_s32(v[14], u[15], cospi[16]); + v[14] = vshlq_s32(v[14], v_bit); + + v[15] = vmlaq_n_s32(rnding, u[14], cospi[16]); + v[15] = vmlsq_n_s32(v[15], u[15], -cospi[48]); + v[15] = vshlq_s32(v[15], v_bit); + + // stage 7 + addsub_neon(v[0], v[2], &u[0], &u[2], &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[3], &u[1], &u[3], &clamp_lo, &clamp_hi); + addsub_neon(v[4], v[6], &u[4], &u[6], &clamp_lo, &clamp_hi); + addsub_neon(v[5], v[7], &u[5], &u[7], &clamp_lo, &clamp_hi); + addsub_neon(v[8], v[10], &u[8], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(v[9], v[11], &u[9], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(v[12], v[14], &u[12], &u[14], &clamp_lo, &clamp_hi); + addsub_neon(v[13], v[15], &u[13], &u[15], &clamp_lo, &clamp_hi); + + // stage 8 + v[0] = u[0]; + v[1] = u[1]; + + y = vmlaq_n_s32(rnding, u[2], cospi[32]); + x = vmulq_n_s32(u[3], cospi[32]); + v[2] = vaddq_s32(y, x); + v[2] = vshlq_s32(v[2], v_bit); + + v[3] = vsubq_s32(y, x); + v[3] = vshlq_s32(v[3], v_bit); + + v[4] = u[4]; + v[5] = u[5]; + + y = vmlaq_n_s32(rnding, u[6], cospi[32]); + x = vmulq_n_s32(u[7], cospi[32]); + v[6] = vaddq_s32(y, x); + v[6] = vshlq_s32(v[6], v_bit); + + v[7] = vsubq_s32(y, x); + v[7] = vshlq_s32(v[7], v_bit); + + v[8] = u[8]; + v[9] = u[9]; + + y = vmlaq_n_s32(rnding, u[10], cospi[32]); + x = vmulq_n_s32(u[11], cospi[32]); + v[10] = vaddq_s32(y, x); + v[10] = vshlq_s32(v[10], v_bit); + + v[11] = vsubq_s32(y, x); + v[11] = vshlq_s32(v[11], v_bit); + + v[12] = u[12]; + v[13] = u[13]; + + y = vmlaq_n_s32(rnding, u[14], cospi[32]); + x = vmulq_n_s32(u[15], cospi[32]); + v[14] = vaddq_s32(y, x); + v[14] = vshlq_s32(v[14], v_bit); + + v[15] = vsubq_s32(y, x); + v[15] = vshlq_s32(v[15], v_bit); + + // stage 9 + if (do_cols) { + out[0] = v[0]; + out[1] = vsubq_s32(zero, v[8]); + out[2] = v[12]; + out[3] = vsubq_s32(zero, v[4]); + out[4] = v[6]; + out[5] = vsubq_s32(zero, v[14]); + out[6] = v[10]; + out[7] = vsubq_s32(zero, v[2]); + out[8] = v[3]; + out[9] = vsubq_s32(zero, v[11]); + out[10] = v[15]; + out[11] = vsubq_s32(zero, v[7]); + out[12] = v[5]; + out[13] = vsubq_s32(zero, v[13]); + out[14] = v[9]; + out[15] = vsubq_s32(zero, v[1]); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + const int32x4_t v_shift = vdupq_n_s32(-out_shift); + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + neg_shift_neon(&v[0], &v[8], out + 0, out + 1, &clamp_lo_out, &clamp_hi_out, + &v_shift, &offset); + neg_shift_neon(&v[12], &v[4], out + 2, out + 3, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[6], &v[14], out + 4, out + 5, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[10], &v[2], out + 6, out + 7, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[3], &v[11], out + 8, out + 9, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[15], &v[7], out + 10, out + 11, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[5], &v[13], out + 12, out + 13, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + neg_shift_neon(&v[9], &v[1], out + 14, out + 15, &clamp_lo_out, + &clamp_hi_out, &v_shift, &offset); + } +} + +static void iidentity16_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + (void)bit; + int32x2_t fact = vdup_n_s32(2 * NewSqrt2); + int32x4x2_t a0; + int32x4_t zero = vdupq_n_s32(0); + const int64x2_t rnding = vdupq_n_s64(1 << (NewSqrt2Bits - 1)); + for (int i = 0; i < 16; i++) { + a0.val[0] = vreinterpretq_s32_s64( + vmlal_s32(rnding, vmovn_s64(vreinterpretq_s64_s32(in[i])), fact)); + a0.val[0] = vreinterpretq_s32_s64( + vshrq_n_s64(vreinterpretq_s64_s32(a0.val[0]), NewSqrt2Bits)); + a0.val[1] = vextq_s32(in[i], zero, 1); + a0.val[1] = vreinterpretq_s32_s64( + vmlal_s32(rnding, vmovn_s64(vreinterpretq_s64_s32(a0.val[1])), fact)); + a0.val[1] = vreinterpretq_s32_s64( + vshrq_n_s64(vreinterpretq_s64_s32(a0.val[1]), NewSqrt2Bits)); + a0 = vzipq_s32(a0.val[0], a0.val[1]); +#if AOM_ARCH_AARCH64 + out[i] = vreinterpretq_s32_s64(vzip1q_s64( + vreinterpretq_s64_s32(a0.val[0]), vreinterpretq_s64_s32(a0.val[1]))); +#else + out[i] = vextq_s32(vextq_s32(a0.val[0], a0.val[0], 2), a0.val[1], 2); +#endif + } + + if (!do_cols) { + const int log_range = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + round_shift_8x8(out, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo, &clamp_hi, 16); + } +} + +static INLINE void idct64_stage8_neon(int32x4_t *u, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int i; + int32x4_t temp1, temp2, temp3, temp4; + temp1 = half_btf_neon_mode10_r(&cospi[32], &u[10], &cospi[32], &u[13], v_bit, + rnding); + u[13] = + half_btf_neon_r(&cospi[32], &u[10], &cospi[32], &u[13], v_bit, rnding); + u[10] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[32], &u[11], &cospi[32], &u[12], v_bit, + rnding); + u[12] = + half_btf_neon_r(&cospi[32], &u[11], &cospi[32], &u[12], v_bit, rnding); + u[11] = temp2; + + for (i = 16; i < 20; ++i) { + addsub_neon(u[i], u[i ^ 7], &u[i], &u[i ^ 7], clamp_lo, clamp_hi); + addsub_neon(u[i ^ 15], u[i ^ 8], &u[i ^ 15], &u[i ^ 8], clamp_lo, clamp_hi); + } + + temp1 = half_btf_neon_mode10_r(&cospi[16], &u[36], &cospi[48], &u[59], v_bit, + rnding); + temp2 = half_btf_neon_mode10_r(&cospi[16], &u[37], &cospi[48], &u[58], v_bit, + rnding); + temp3 = half_btf_neon_mode10_r(&cospi[16], &u[38], &cospi[48], &u[57], v_bit, + rnding); + temp4 = half_btf_neon_mode10_r(&cospi[16], &u[39], &cospi[48], &u[56], v_bit, + rnding); + u[56] = + half_btf_neon_r(&cospi[48], &u[39], &cospi[16], &u[56], v_bit, rnding); + u[57] = + half_btf_neon_r(&cospi[48], &u[38], &cospi[16], &u[57], v_bit, rnding); + u[58] = + half_btf_neon_r(&cospi[48], &u[37], &cospi[16], &u[58], v_bit, rnding); + u[59] = + half_btf_neon_r(&cospi[48], &u[36], &cospi[16], &u[59], v_bit, rnding); + u[36] = temp1; + u[37] = temp2; + u[38] = temp3; + u[39] = temp4; + + temp1 = half_btf_neon_mode11_r(&cospi[48], &u[40], &cospi[16], &u[55], v_bit, + rnding); + temp2 = half_btf_neon_mode11_r(&cospi[48], &u[41], &cospi[16], &u[54], v_bit, + rnding); + temp3 = half_btf_neon_mode11_r(&cospi[48], &u[42], &cospi[16], &u[53], v_bit, + rnding); + temp4 = half_btf_neon_mode11_r(&cospi[48], &u[43], &cospi[16], &u[52], v_bit, + rnding); + u[52] = half_btf_neon_mode10_r(&cospi[16], &u[43], &cospi[48], &u[52], v_bit, + rnding); + u[53] = half_btf_neon_mode10_r(&cospi[16], &u[42], &cospi[48], &u[53], v_bit, + rnding); + u[54] = half_btf_neon_mode10_r(&cospi[16], &u[41], &cospi[48], &u[54], v_bit, + rnding); + u[55] = half_btf_neon_mode10_r(&cospi[16], &u[40], &cospi[48], &u[55], v_bit, + rnding); + u[40] = temp1; + u[41] = temp2; + u[42] = temp3; + u[43] = temp4; +} + +static INLINE void idct64_stage9_neon(int32x4_t *u, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int i; + int32x4_t temp1, temp2, temp3, temp4; + for (i = 0; i < 8; ++i) { + addsub_neon(u[i], u[15 - i], &u[i], &u[15 - i], clamp_lo, clamp_hi); + } + temp1 = half_btf_neon_mode10_r(&cospi[32], &u[20], &cospi[32], &u[27], v_bit, + rnding); + temp2 = half_btf_neon_mode10_r(&cospi[32], &u[21], &cospi[32], &u[26], v_bit, + rnding); + temp3 = half_btf_neon_mode10_r(&cospi[32], &u[22], &cospi[32], &u[25], v_bit, + rnding); + temp4 = half_btf_neon_mode10_r(&cospi[32], &u[23], &cospi[32], &u[24], v_bit, + rnding); + u[24] = + half_btf_neon_r(&cospi[32], &u[23], &cospi[32], &u[24], v_bit, rnding); + u[25] = + half_btf_neon_r(&cospi[32], &u[22], &cospi[32], &u[25], v_bit, rnding); + u[26] = + half_btf_neon_r(&cospi[32], &u[21], &cospi[32], &u[26], v_bit, rnding); + u[27] = + half_btf_neon_r(&cospi[32], &u[20], &cospi[32], &u[27], v_bit, rnding); + u[20] = temp1; + u[21] = temp2; + u[22] = temp3; + u[23] = temp4; + for (i = 32; i < 40; i++) { + addsub_neon(u[i], u[i ^ 15], &u[i], &u[i ^ 15], clamp_lo, clamp_hi); + } + + for (i = 48; i < 56; i++) { + addsub_neon(u[i ^ 15], u[i], &u[i ^ 15], &u[i], clamp_lo, clamp_hi); + } +} + +static INLINE void idct64_stage10_neon(int32x4_t *u, const int32_t *cospi, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi, + const int32x4_t *v_bit, + const int32x4_t *rnding) { + int32x4_t temp1, temp2, temp3, temp4; + for (int i = 0; i < 16; i++) { + addsub_neon(u[i], u[31 - i], &u[i], &u[31 - i], clamp_lo, clamp_hi); + } + temp1 = half_btf_neon_mode10_r(&cospi[32], &u[40], &cospi[32], &u[55], v_bit, + rnding); + temp2 = half_btf_neon_mode10_r(&cospi[32], &u[41], &cospi[32], &u[54], v_bit, + rnding); + temp3 = half_btf_neon_mode10_r(&cospi[32], &u[42], &cospi[32], &u[53], v_bit, + rnding); + temp4 = half_btf_neon_mode10_r(&cospi[32], &u[43], &cospi[32], &u[52], v_bit, + rnding); + u[52] = + half_btf_neon_r(&cospi[32], &u[43], &cospi[32], &u[52], v_bit, rnding); + u[53] = + half_btf_neon_r(&cospi[32], &u[42], &cospi[32], &u[53], v_bit, rnding); + u[54] = + half_btf_neon_r(&cospi[32], &u[41], &cospi[32], &u[54], v_bit, rnding); + u[55] = + half_btf_neon_r(&cospi[32], &u[40], &cospi[32], &u[55], v_bit, rnding); + u[40] = temp1; + u[41] = temp2; + u[42] = temp3; + u[43] = temp4; + + temp1 = half_btf_neon_mode10_r(&cospi[32], &u[44], &cospi[32], &u[51], v_bit, + rnding); + temp2 = half_btf_neon_mode10_r(&cospi[32], &u[45], &cospi[32], &u[50], v_bit, + rnding); + temp3 = half_btf_neon_mode10_r(&cospi[32], &u[46], &cospi[32], &u[49], v_bit, + rnding); + temp4 = half_btf_neon_mode10_r(&cospi[32], &u[47], &cospi[32], &u[48], v_bit, + rnding); + u[48] = + half_btf_neon_r(&cospi[32], &u[47], &cospi[32], &u[48], v_bit, rnding); + u[49] = + half_btf_neon_r(&cospi[32], &u[46], &cospi[32], &u[49], v_bit, rnding); + u[50] = + half_btf_neon_r(&cospi[32], &u[45], &cospi[32], &u[50], v_bit, rnding); + u[51] = + half_btf_neon_r(&cospi[32], &u[44], &cospi[32], &u[51], v_bit, rnding); + u[44] = temp1; + u[45] = temp2; + u[46] = temp3; + u[47] = temp4; +} + +static INLINE void idct64_stage11_neon(int32x4_t *u, int32x4_t *out, + int do_cols, int bd, int out_shift, + const int32x4_t *clamp_lo, + const int32x4_t *clamp_hi) { + for (int i = 0; i < 32; i++) { + addsub_neon(u[i], u[63 - i], out + i, out + 63 - i, clamp_lo, clamp_hi); + } + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + for (int i = 0; i < 64; i += 4) { + round_shift_4x4(out + i, out_shift); + highbd_clamp_s32_neon(out + i, out + i, &clamp_lo_out, &clamp_hi_out, 4); + } + } +} + +static void idct64x64_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + { + int32x4_t x; + + // stage 1 + // stage 2 + // stage 3 + // stage 4 + // stage 5 + // stage 6 + x = half_btf_0_neon_r(&cospi[32], &in[0], &v_bit, &rnding); + + // stage 8 + // stage 9 + // stage 10 + // stage 11 + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + clamp_lo = vdupq_n_s32(-(1 << (log_range_out - 1))); + clamp_hi = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + if (out_shift != 0) { + int32x4_t offset = vdupq_n_s32((1 << out_shift) >> 1); + x = vaddq_s32(x, offset); + x = vshlq_s32(x, vdupq_n_s32(-out_shift)); + } + } + x = vmaxq_s32(x, clamp_lo); + x = vminq_s32(x, clamp_hi); + out[0] = x; + out[1] = x; + out[2] = x; + out[3] = x; + out[4] = x; + out[5] = x; + out[6] = x; + out[7] = x; + out[8] = x; + out[9] = x; + out[10] = x; + out[11] = x; + out[12] = x; + out[13] = x; + out[14] = x; + out[15] = x; + out[16] = x; + out[17] = x; + out[18] = x; + out[19] = x; + out[20] = x; + out[21] = x; + out[22] = x; + out[23] = x; + out[24] = x; + out[25] = x; + out[26] = x; + out[27] = x; + out[28] = x; + out[29] = x; + out[30] = x; + out[31] = x; + out[32] = x; + out[33] = x; + out[34] = x; + out[35] = x; + out[36] = x; + out[37] = x; + out[38] = x; + out[39] = x; + out[40] = x; + out[41] = x; + out[42] = x; + out[43] = x; + out[44] = x; + out[45] = x; + out[46] = x; + out[47] = x; + out[48] = x; + out[49] = x; + out[50] = x; + out[51] = x; + out[52] = x; + out[53] = x; + out[54] = x; + out[55] = x; + out[56] = x; + out[57] = x; + out[58] = x; + out[59] = x; + out[60] = x; + out[61] = x; + out[62] = x; + out[63] = x; + } +} + +static void idct64x64_low8_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + int i, j; + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + { + int32x4_t u[64]; + + // stage 1 + u[0] = in[0]; + u[8] = in[4]; + u[16] = in[2]; + u[24] = in[6]; + u[32] = in[1]; + u[40] = in[5]; + u[48] = in[3]; + u[56] = in[7]; + + // stage 2 + u[63] = half_btf_0_neon_r(&cospi[1], &u[32], &v_bit, &rnding); + u[32] = half_btf_0_neon_r(&cospi[63], &u[32], &v_bit, &rnding); + u[39] = half_btf_0_m_neon_r(&cospi[57], &u[56], &v_bit, &rnding); + u[56] = half_btf_0_neon_r(&cospi[7], &u[56], &v_bit, &rnding); + u[55] = half_btf_0_neon_r(&cospi[5], &u[40], &v_bit, &rnding); + u[40] = half_btf_0_neon_r(&cospi[59], &u[40], &v_bit, &rnding); + u[47] = half_btf_0_m_neon_r(&cospi[61], &u[48], &v_bit, &rnding); + u[48] = half_btf_0_neon_r(&cospi[3], &u[48], &v_bit, &rnding); + + // stage 3 + u[31] = half_btf_0_neon_r(&cospi[2], &u[16], &v_bit, &rnding); + u[16] = half_btf_0_neon_r(&cospi[62], &u[16], &v_bit, &rnding); + u[23] = half_btf_0_m_neon_r(&cospi[58], &u[24], &v_bit, &rnding); + u[24] = half_btf_0_neon_r(&cospi[6], &u[24], &v_bit, &rnding); + u[33] = u[32]; + u[38] = u[39]; + u[41] = u[40]; + u[46] = u[47]; + u[49] = u[48]; + u[54] = u[55]; + u[57] = u[56]; + u[62] = u[63]; + + // stage 4 + int32x4_t temp1, temp2; + u[15] = half_btf_0_neon_r(&cospi[4], &u[8], &v_bit, &rnding); + u[8] = half_btf_0_neon_r(&cospi[60], &u[8], &v_bit, &rnding); + u[17] = u[16]; + u[22] = u[23]; + u[25] = u[24]; + u[30] = u[31]; + + temp1 = half_btf_neon_mode10_r(&cospi[4], &u[33], &cospi[60], &u[62], + &v_bit, &rnding); + u[62] = + half_btf_neon_r(&cospi[60], &u[33], &cospi[4], &u[62], &v_bit, &rnding); + u[33] = temp1; + + temp2 = half_btf_neon_mode10_r(&cospi[36], &u[38], &cospi[28], &u[57], + &v_bit, &rnding); + u[38] = half_btf_neon_mode11_r(&cospi[28], &u[38], &cospi[36], &u[57], + &v_bit, &rnding); + u[57] = temp2; + + temp1 = half_btf_neon_mode10_r(&cospi[20], &u[41], &cospi[44], &u[54], + &v_bit, &rnding); + u[54] = half_btf_neon_r(&cospi[44], &u[41], &cospi[20], &u[54], &v_bit, + &rnding); + u[41] = temp1; + + temp2 = half_btf_neon_mode11_r(&cospi[12], &u[46], &cospi[52], &u[49], + &v_bit, &rnding); + u[49] = half_btf_neon_mode10_r(&cospi[52], &u[46], &cospi[12], &u[49], + &v_bit, &rnding); + u[46] = temp2; + + // stage 5 + u[9] = u[8]; + u[14] = u[15]; + + temp1 = half_btf_neon_mode10_r(&cospi[8], &u[17], &cospi[56], &u[30], + &v_bit, &rnding); + u[30] = + half_btf_neon_r(&cospi[56], &u[17], &cospi[8], &u[30], &v_bit, &rnding); + u[17] = temp1; + + temp2 = half_btf_neon_mode11_r(&cospi[24], &u[22], &cospi[40], &u[25], + &v_bit, &rnding); + u[25] = half_btf_neon_mode10_r(&cospi[40], &u[22], &cospi[24], &u[25], + &v_bit, &rnding); + u[22] = temp2; + + u[35] = u[32]; + u[34] = u[33]; + u[36] = u[39]; + u[37] = u[38]; + u[43] = u[40]; + u[42] = u[41]; + u[44] = u[47]; + u[45] = u[46]; + u[51] = u[48]; + u[50] = u[49]; + u[52] = u[55]; + u[53] = u[54]; + u[59] = u[56]; + u[58] = u[57]; + u[60] = u[63]; + u[61] = u[62]; + + // stage 6 + temp1 = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + u[1] = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + u[0] = temp1; + + temp2 = half_btf_neon_mode10_r(&cospi[16], &u[9], &cospi[48], &u[14], + &v_bit, &rnding); + u[14] = + half_btf_neon_r(&cospi[48], &u[9], &cospi[16], &u[14], &v_bit, &rnding); + u[9] = temp2; + u[19] = u[16]; + u[18] = u[17]; + u[20] = u[23]; + u[21] = u[22]; + u[27] = u[24]; + u[26] = u[25]; + u[28] = u[31]; + u[29] = u[30]; + + temp1 = half_btf_neon_mode10_r(&cospi[8], &u[34], &cospi[56], &u[61], + &v_bit, &rnding); + u[61] = + half_btf_neon_r(&cospi[56], &u[34], &cospi[8], &u[61], &v_bit, &rnding); + u[34] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[8], &u[35], &cospi[56], &u[60], + &v_bit, &rnding); + u[60] = + half_btf_neon_r(&cospi[56], &u[35], &cospi[8], &u[60], &v_bit, &rnding); + u[35] = temp2; + temp1 = half_btf_neon_mode11_r(&cospi[56], &u[36], &cospi[8], &u[59], + &v_bit, &rnding); + u[59] = half_btf_neon_mode10_r(&cospi[8], &u[36], &cospi[56], &u[59], + &v_bit, &rnding); + u[36] = temp1; + temp2 = half_btf_neon_mode11_r(&cospi[56], &u[37], &cospi[8], &u[58], + &v_bit, &rnding); + u[58] = half_btf_neon_mode10_r(&cospi[8], &u[37], &cospi[56], &u[58], + &v_bit, &rnding); + u[37] = temp2; + temp1 = half_btf_neon_mode10_r(&cospi[40], &u[42], &cospi[24], &u[53], + &v_bit, &rnding); + u[53] = half_btf_neon_r(&cospi[24], &u[42], &cospi[40], &u[53], &v_bit, + &rnding); + u[42] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[40], &u[43], &cospi[24], &u[52], + &v_bit, &rnding); + u[52] = half_btf_neon_r(&cospi[24], &u[43], &cospi[40], &u[52], &v_bit, + &rnding); + u[43] = temp2; + temp1 = half_btf_neon_mode11_r(&cospi[24], &u[44], &cospi[40], &u[51], + &v_bit, &rnding); + u[51] = half_btf_neon_mode10_r(&cospi[40], &u[44], &cospi[24], &u[51], + &v_bit, &rnding); + u[44] = temp1; + temp2 = half_btf_neon_mode11_r(&cospi[24], &u[45], &cospi[40], &u[50], + &v_bit, &rnding); + u[50] = half_btf_neon_mode10_r(&cospi[40], &u[45], &cospi[24], &u[50], + &v_bit, &rnding); + u[45] = temp2; + + // stage 7 + u[3] = u[0]; + u[2] = u[1]; + u[11] = u[8]; + u[10] = u[9]; + u[12] = u[15]; + u[13] = u[14]; + + temp1 = half_btf_neon_mode10_r(&cospi[16], &u[18], &cospi[48], &u[29], + &v_bit, &rnding); + u[29] = half_btf_neon_r(&cospi[48], &u[18], &cospi[16], &u[29], &v_bit, + &rnding); + u[18] = temp1; + temp2 = half_btf_neon_mode10_r(&cospi[16], &u[19], &cospi[48], &u[28], + &v_bit, &rnding); + u[28] = half_btf_neon_r(&cospi[48], &u[19], &cospi[16], &u[28], &v_bit, + &rnding); + u[19] = temp2; + temp1 = half_btf_neon_mode11_r(&cospi[48], &u[20], &cospi[16], &u[27], + &v_bit, &rnding); + u[27] = half_btf_neon_mode10_r(&cospi[16], &u[20], &cospi[48], &u[27], + &v_bit, &rnding); + u[20] = temp1; + temp2 = half_btf_neon_mode11_r(&cospi[48], &u[21], &cospi[16], &u[26], + &v_bit, &rnding); + u[26] = half_btf_neon_mode10_r(&cospi[16], &u[21], &cospi[48], &u[26], + &v_bit, &rnding); + u[21] = temp2; + for (i = 32; i < 64; i += 16) { + for (j = i; j < i + 4; j++) { + addsub_neon(u[j], u[j ^ 7], &u[j], &u[j ^ 7], &clamp_lo, &clamp_hi); + addsub_neon(u[j ^ 15], u[j ^ 8], &u[j ^ 15], &u[j ^ 8], &clamp_lo, + &clamp_hi); + } + } + + // stage 8 + u[7] = u[0]; + u[6] = u[1]; + u[5] = u[2]; + u[4] = u[3]; + u[9] = u[9]; + + idct64_stage8_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 9 + idct64_stage9_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 10 + idct64_stage10_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 11 + idct64_stage11_neon(u, out, do_cols, bd, out_shift, &clamp_lo, &clamp_hi); + } +} + +static void idct64x64_low16_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + int i, j; + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + { + int32x4_t u[64]; + int32x4_t tmp1, tmp2, tmp3, tmp4; + // stage 1 + u[0] = in[0]; + u[32] = in[1]; + u[36] = in[9]; + u[40] = in[5]; + u[44] = in[13]; + u[48] = in[3]; + u[52] = in[11]; + u[56] = in[7]; + u[60] = in[15]; + u[16] = in[2]; + u[20] = in[10]; + u[24] = in[6]; + u[28] = in[14]; + u[4] = in[8]; + u[8] = in[4]; + u[12] = in[12]; + + // stage 2 + u[63] = half_btf_0_neon_r(&cospi[1], &u[32], &v_bit, &rnding); + u[32] = half_btf_0_neon_r(&cospi[63], &u[32], &v_bit, &rnding); + u[35] = half_btf_0_m_neon_r(&cospi[49], &u[60], &v_bit, &rnding); + u[60] = half_btf_0_neon_r(&cospi[15], &u[60], &v_bit, &rnding); + u[59] = half_btf_0_neon_r(&cospi[9], &u[36], &v_bit, &rnding); + u[36] = half_btf_0_neon_r(&cospi[55], &u[36], &v_bit, &rnding); + u[39] = half_btf_0_m_neon_r(&cospi[57], &u[56], &v_bit, &rnding); + u[56] = half_btf_0_neon_r(&cospi[7], &u[56], &v_bit, &rnding); + u[55] = half_btf_0_neon_r(&cospi[5], &u[40], &v_bit, &rnding); + u[40] = half_btf_0_neon_r(&cospi[59], &u[40], &v_bit, &rnding); + u[43] = half_btf_0_m_neon_r(&cospi[53], &u[52], &v_bit, &rnding); + u[52] = half_btf_0_neon_r(&cospi[11], &u[52], &v_bit, &rnding); + u[47] = half_btf_0_m_neon_r(&cospi[61], &u[48], &v_bit, &rnding); + u[48] = half_btf_0_neon_r(&cospi[3], &u[48], &v_bit, &rnding); + u[51] = half_btf_0_neon_r(&cospi[13], &u[44], &v_bit, &rnding); + u[44] = half_btf_0_neon_r(&cospi[51], &u[44], &v_bit, &rnding); + + // stage 3 + u[31] = half_btf_0_neon_r(&cospi[2], &u[16], &v_bit, &rnding); + u[16] = half_btf_0_neon_r(&cospi[62], &u[16], &v_bit, &rnding); + u[19] = half_btf_0_m_neon_r(&cospi[50], &u[28], &v_bit, &rnding); + u[28] = half_btf_0_neon_r(&cospi[14], &u[28], &v_bit, &rnding); + u[27] = half_btf_0_neon_r(&cospi[10], &u[20], &v_bit, &rnding); + u[20] = half_btf_0_neon_r(&cospi[54], &u[20], &v_bit, &rnding); + u[23] = half_btf_0_m_neon_r(&cospi[58], &u[24], &v_bit, &rnding); + u[24] = half_btf_0_neon_r(&cospi[6], &u[24], &v_bit, &rnding); + u[33] = u[32]; + u[34] = u[35]; + u[37] = u[36]; + u[38] = u[39]; + u[41] = u[40]; + u[42] = u[43]; + u[45] = u[44]; + u[46] = u[47]; + u[49] = u[48]; + u[50] = u[51]; + u[53] = u[52]; + u[54] = u[55]; + u[57] = u[56]; + u[58] = u[59]; + u[61] = u[60]; + u[62] = u[63]; + + // stage 4 + u[15] = half_btf_0_neon_r(&cospi[4], &u[8], &v_bit, &rnding); + u[8] = half_btf_0_neon_r(&cospi[60], &u[8], &v_bit, &rnding); + u[11] = half_btf_0_m_neon_r(&cospi[52], &u[12], &v_bit, &rnding); + u[12] = half_btf_0_neon_r(&cospi[12], &u[12], &v_bit, &rnding); + + u[17] = u[16]; + u[18] = u[19]; + u[21] = u[20]; + u[22] = u[23]; + u[25] = u[24]; + u[26] = u[27]; + u[29] = u[28]; + u[30] = u[31]; + + tmp1 = half_btf_neon_mode10_r(&cospi[4], &u[33], &cospi[60], &u[62], &v_bit, + &rnding); + tmp2 = half_btf_neon_mode11_r(&cospi[60], &u[34], &cospi[4], &u[61], &v_bit, + &rnding); + tmp3 = half_btf_neon_mode10_r(&cospi[36], &u[37], &cospi[28], &u[58], + &v_bit, &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[28], &u[38], &cospi[36], &u[57], + &v_bit, &rnding); + u[57] = half_btf_neon_mode10_r(&cospi[36], &u[38], &cospi[28], &u[57], + &v_bit, &rnding); + u[58] = half_btf_neon_r(&cospi[28], &u[37], &cospi[36], &u[58], &v_bit, + &rnding); + u[61] = half_btf_neon_mode10_r(&cospi[4], &u[34], &cospi[60], &u[61], + &v_bit, &rnding); + u[62] = + half_btf_neon_r(&cospi[60], &u[33], &cospi[4], &u[62], &v_bit, &rnding); + u[33] = tmp1; + u[34] = tmp2; + u[37] = tmp3; + u[38] = tmp4; + + tmp1 = half_btf_neon_mode10_r(&cospi[20], &u[41], &cospi[44], &u[54], + &v_bit, &rnding); + tmp2 = half_btf_neon_mode11_r(&cospi[44], &u[42], &cospi[20], &u[53], + &v_bit, &rnding); + tmp3 = half_btf_neon_r(&cospi[52], &u[45], &cospi[12], &u[50], &v_bit, + &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[12], &u[46], &cospi[52], &u[49], + &v_bit, &rnding); + u[49] = half_btf_neon_mode10_r(&cospi[52], &u[46], &cospi[12], &u[49], + &v_bit, &rnding); + u[50] = half_btf_neon_r(&cospi[12], &u[45], &cospi[52], &u[50], &v_bit, + &rnding); + u[53] = half_btf_neon_mode10_r(&cospi[20], &u[42], &cospi[44], &u[53], + &v_bit, &rnding); + u[54] = half_btf_neon_r(&cospi[44], &u[41], &cospi[20], &u[54], &v_bit, + &rnding); + u[41] = tmp1; + u[42] = tmp2; + u[45] = tmp3; + u[46] = tmp4; + + // stage 5 + u[7] = half_btf_0_neon_r(&cospi[8], &u[4], &v_bit, &rnding); + u[4] = half_btf_0_neon_r(&cospi[56], &u[4], &v_bit, &rnding); + + u[9] = u[8]; + u[10] = u[11]; + u[13] = u[12]; + u[14] = u[15]; + + tmp1 = half_btf_neon_mode10_r(&cospi[8], &u[17], &cospi[56], &u[30], &v_bit, + &rnding); + tmp2 = half_btf_neon_mode11_r(&cospi[56], &u[18], &cospi[8], &u[29], &v_bit, + &rnding); + tmp3 = half_btf_neon_mode10_r(&cospi[40], &u[21], &cospi[24], &u[26], + &v_bit, &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[24], &u[22], &cospi[40], &u[25], + &v_bit, &rnding); + u[25] = half_btf_neon_mode10_r(&cospi[40], &u[22], &cospi[24], &u[25], + &v_bit, &rnding); + u[26] = half_btf_neon_r(&cospi[24], &u[21], &cospi[40], &u[26], &v_bit, + &rnding); + u[29] = half_btf_neon_mode10_r(&cospi[8], &u[18], &cospi[56], &u[29], + &v_bit, &rnding); + u[30] = + half_btf_neon_r(&cospi[56], &u[17], &cospi[8], &u[30], &v_bit, &rnding); + u[17] = tmp1; + u[18] = tmp2; + u[21] = tmp3; + u[22] = tmp4; + + for (i = 32; i < 64; i += 8) { + addsub_neon(u[i + 0], u[i + 3], &u[i + 0], &u[i + 3], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 1], u[i + 2], &u[i + 1], &u[i + 2], &clamp_lo, + &clamp_hi); + + addsub_neon(u[i + 7], u[i + 4], &u[i + 7], &u[i + 4], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 6], u[i + 5], &u[i + 6], &u[i + 5], &clamp_lo, + &clamp_hi); + } + + // stage 6 + tmp1 = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + u[1] = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + u[0] = tmp1; + u[5] = u[4]; + u[6] = u[7]; + + tmp1 = half_btf_neon_mode10_r(&cospi[16], &u[9], &cospi[48], &u[14], &v_bit, + &rnding); + u[14] = + half_btf_neon_r(&cospi[48], &u[9], &cospi[16], &u[14], &v_bit, &rnding); + u[9] = tmp1; + tmp2 = half_btf_neon_mode01_r(&cospi[48], &u[10], &cospi[16], &u[13], + &v_bit, &rnding); + u[13] = half_btf_neon_mode10_r(&cospi[16], &u[10], &cospi[48], &u[13], + &v_bit, &rnding); + u[10] = tmp2; + + for (i = 16; i < 32; i += 8) { + addsub_neon(u[i + 0], u[i + 3], &u[i + 0], &u[i + 3], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 1], u[i + 2], &u[i + 1], &u[i + 2], &clamp_lo, + &clamp_hi); + + addsub_neon(u[i + 7], u[i + 4], &u[i + 7], &u[i + 4], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 6], u[i + 5], &u[i + 6], &u[i + 5], &clamp_lo, + &clamp_hi); + } + + tmp1 = half_btf_neon_mode10_r(&cospi[8], &u[34], &cospi[56], &u[61], &v_bit, + &rnding); + tmp2 = half_btf_neon_mode10_r(&cospi[8], &u[35], &cospi[56], &u[60], &v_bit, + &rnding); + tmp3 = half_btf_neon_mode11_r(&cospi[56], &u[36], &cospi[8], &u[59], &v_bit, + &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[56], &u[37], &cospi[8], &u[58], &v_bit, + &rnding); + u[58] = half_btf_neon_mode10_r(&cospi[8], &u[37], &cospi[56], &u[58], + &v_bit, &rnding); + u[59] = half_btf_neon_mode10_r(&cospi[8], &u[36], &cospi[56], &u[59], + &v_bit, &rnding); + u[60] = + half_btf_neon_r(&cospi[56], &u[35], &cospi[8], &u[60], &v_bit, &rnding); + u[61] = + half_btf_neon_r(&cospi[56], &u[34], &cospi[8], &u[61], &v_bit, &rnding); + u[34] = tmp1; + u[35] = tmp2; + u[36] = tmp3; + u[37] = tmp4; + + tmp1 = half_btf_neon_mode10_r(&cospi[40], &u[42], &cospi[24], &u[53], + &v_bit, &rnding); + tmp2 = half_btf_neon_mode10_r(&cospi[40], &u[43], &cospi[24], &u[52], + &v_bit, &rnding); + tmp3 = half_btf_neon_mode11_r(&cospi[24], &u[44], &cospi[40], &u[51], + &v_bit, &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[24], &u[45], &cospi[40], &u[50], + &v_bit, &rnding); + u[50] = half_btf_neon_mode10_r(&cospi[40], &u[45], &cospi[24], &u[50], + &v_bit, &rnding); + u[51] = half_btf_neon_mode10_r(&cospi[40], &u[44], &cospi[24], &u[51], + &v_bit, &rnding); + u[52] = half_btf_neon_r(&cospi[24], &u[43], &cospi[40], &u[52], &v_bit, + &rnding); + u[53] = half_btf_neon_r(&cospi[24], &u[42], &cospi[40], &u[53], &v_bit, + &rnding); + u[42] = tmp1; + u[43] = tmp2; + u[44] = tmp3; + u[45] = tmp4; + + // stage 7 + u[3] = u[0]; + u[2] = u[1]; + tmp1 = half_btf_neon_mode10_r(&cospi[32], &u[5], &cospi[32], &u[6], &v_bit, + &rnding); + u[6] = + half_btf_neon_r(&cospi[32], &u[5], &cospi[32], &u[6], &v_bit, &rnding); + u[5] = tmp1; + addsub_neon(u[8], u[11], &u[8], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(u[9], u[10], &u[9], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(u[15], u[12], &u[15], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(u[14], u[13], &u[14], &u[13], &clamp_lo, &clamp_hi); + + tmp1 = half_btf_neon_mode10_r(&cospi[16], &u[18], &cospi[48], &u[29], + &v_bit, &rnding); + tmp2 = half_btf_neon_mode10_r(&cospi[16], &u[19], &cospi[48], &u[28], + &v_bit, &rnding); + tmp3 = half_btf_neon_mode11_r(&cospi[48], &u[20], &cospi[16], &u[27], + &v_bit, &rnding); + tmp4 = half_btf_neon_mode11_r(&cospi[48], &u[21], &cospi[16], &u[26], + &v_bit, &rnding); + u[26] = half_btf_neon_mode10_r(&cospi[16], &u[21], &cospi[48], &u[26], + &v_bit, &rnding); + u[27] = half_btf_neon_mode10_r(&cospi[16], &u[20], &cospi[48], &u[27], + &v_bit, &rnding); + u[28] = half_btf_neon_r(&cospi[48], &u[19], &cospi[16], &u[28], &v_bit, + &rnding); + u[29] = half_btf_neon_r(&cospi[48], &u[18], &cospi[16], &u[29], &v_bit, + &rnding); + u[18] = tmp1; + u[19] = tmp2; + u[20] = tmp3; + u[21] = tmp4; + + for (i = 32; i < 64; i += 16) { + for (j = i; j < i + 4; j++) { + addsub_neon(u[j], u[j ^ 7], &u[j], &u[j ^ 7], &clamp_lo, &clamp_hi); + addsub_neon(u[j ^ 15], u[j ^ 8], &u[j ^ 15], &u[j ^ 8], &clamp_lo, + &clamp_hi); + } + } + + // stage 8 + for (i = 0; i < 4; ++i) { + addsub_neon(u[i], u[7 - i], &u[i], &u[7 - i], &clamp_lo, &clamp_hi); + } + + idct64_stage8_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 9 + idct64_stage9_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 10 + idct64_stage10_neon(u, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 11 + idct64_stage11_neon(u, out, do_cols, bd, out_shift, &clamp_lo, &clamp_hi); + } +} + +static void idct64x64_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + int i, j; + const int32_t *cospi = cospi_arr(bit); + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + + { + int32x4_t u[64], v[64]; + + // stage 1 + u[32] = in[1]; + u[34] = in[17]; + u[36] = in[9]; + u[38] = in[25]; + u[40] = in[5]; + u[42] = in[21]; + u[44] = in[13]; + u[46] = in[29]; + u[48] = in[3]; + u[50] = in[19]; + u[52] = in[11]; + u[54] = in[27]; + u[56] = in[7]; + u[58] = in[23]; + u[60] = in[15]; + u[62] = in[31]; + + v[16] = in[2]; + v[18] = in[18]; + v[20] = in[10]; + v[22] = in[26]; + v[24] = in[6]; + v[26] = in[22]; + v[28] = in[14]; + v[30] = in[30]; + + u[8] = in[4]; + u[10] = in[20]; + u[12] = in[12]; + u[14] = in[28]; + + v[4] = in[8]; + v[6] = in[24]; + + u[0] = in[0]; + u[2] = in[16]; + + // stage 2 + v[32] = half_btf_0_neon_r(&cospi[63], &u[32], &v_bit, &rnding); + v[33] = half_btf_0_m_neon_r(&cospi[33], &u[62], &v_bit, &rnding); + v[34] = half_btf_0_neon_r(&cospi[47], &u[34], &v_bit, &rnding); + v[35] = half_btf_0_m_neon_r(&cospi[49], &u[60], &v_bit, &rnding); + v[36] = half_btf_0_neon_r(&cospi[55], &u[36], &v_bit, &rnding); + v[37] = half_btf_0_m_neon_r(&cospi[41], &u[58], &v_bit, &rnding); + v[38] = half_btf_0_neon_r(&cospi[39], &u[38], &v_bit, &rnding); + v[39] = half_btf_0_m_neon_r(&cospi[57], &u[56], &v_bit, &rnding); + v[40] = half_btf_0_neon_r(&cospi[59], &u[40], &v_bit, &rnding); + v[41] = half_btf_0_m_neon_r(&cospi[37], &u[54], &v_bit, &rnding); + v[42] = half_btf_0_neon_r(&cospi[43], &u[42], &v_bit, &rnding); + v[43] = half_btf_0_m_neon_r(&cospi[53], &u[52], &v_bit, &rnding); + v[44] = half_btf_0_neon_r(&cospi[51], &u[44], &v_bit, &rnding); + v[45] = half_btf_0_m_neon_r(&cospi[45], &u[50], &v_bit, &rnding); + v[46] = half_btf_0_neon_r(&cospi[35], &u[46], &v_bit, &rnding); + v[47] = half_btf_0_m_neon_r(&cospi[61], &u[48], &v_bit, &rnding); + v[48] = half_btf_0_neon_r(&cospi[3], &u[48], &v_bit, &rnding); + v[49] = half_btf_0_neon_r(&cospi[29], &u[46], &v_bit, &rnding); + v[50] = half_btf_0_neon_r(&cospi[19], &u[50], &v_bit, &rnding); + v[51] = half_btf_0_neon_r(&cospi[13], &u[44], &v_bit, &rnding); + v[52] = half_btf_0_neon_r(&cospi[11], &u[52], &v_bit, &rnding); + v[53] = half_btf_0_neon_r(&cospi[21], &u[42], &v_bit, &rnding); + v[54] = half_btf_0_neon_r(&cospi[27], &u[54], &v_bit, &rnding); + v[55] = half_btf_0_neon_r(&cospi[5], &u[40], &v_bit, &rnding); + v[56] = half_btf_0_neon_r(&cospi[7], &u[56], &v_bit, &rnding); + v[57] = half_btf_0_neon_r(&cospi[25], &u[38], &v_bit, &rnding); + v[58] = half_btf_0_neon_r(&cospi[23], &u[58], &v_bit, &rnding); + v[59] = half_btf_0_neon_r(&cospi[9], &u[36], &v_bit, &rnding); + v[60] = half_btf_0_neon_r(&cospi[15], &u[60], &v_bit, &rnding); + v[61] = half_btf_0_neon_r(&cospi[17], &u[34], &v_bit, &rnding); + v[62] = half_btf_0_neon_r(&cospi[31], &u[62], &v_bit, &rnding); + v[63] = half_btf_0_neon_r(&cospi[1], &u[32], &v_bit, &rnding); + + // stage 3 + u[16] = half_btf_0_neon_r(&cospi[62], &v[16], &v_bit, &rnding); + u[17] = half_btf_0_m_neon_r(&cospi[34], &v[30], &v_bit, &rnding); + u[18] = half_btf_0_neon_r(&cospi[46], &v[18], &v_bit, &rnding); + u[19] = half_btf_0_m_neon_r(&cospi[50], &v[28], &v_bit, &rnding); + u[20] = half_btf_0_neon_r(&cospi[54], &v[20], &v_bit, &rnding); + u[21] = half_btf_0_m_neon_r(&cospi[42], &v[26], &v_bit, &rnding); + u[22] = half_btf_0_neon_r(&cospi[38], &v[22], &v_bit, &rnding); + u[23] = half_btf_0_m_neon_r(&cospi[58], &v[24], &v_bit, &rnding); + u[24] = half_btf_0_neon_r(&cospi[6], &v[24], &v_bit, &rnding); + u[25] = half_btf_0_neon_r(&cospi[26], &v[22], &v_bit, &rnding); + u[26] = half_btf_0_neon_r(&cospi[22], &v[26], &v_bit, &rnding); + u[27] = half_btf_0_neon_r(&cospi[10], &v[20], &v_bit, &rnding); + u[28] = half_btf_0_neon_r(&cospi[14], &v[28], &v_bit, &rnding); + u[29] = half_btf_0_neon_r(&cospi[18], &v[18], &v_bit, &rnding); + u[30] = half_btf_0_neon_r(&cospi[30], &v[30], &v_bit, &rnding); + u[31] = half_btf_0_neon_r(&cospi[2], &v[16], &v_bit, &rnding); + + for (i = 32; i < 64; i += 4) { + addsub_neon(v[i + 0], v[i + 1], &u[i + 0], &u[i + 1], &clamp_lo, + &clamp_hi); + addsub_neon(v[i + 3], v[i + 2], &u[i + 3], &u[i + 2], &clamp_lo, + &clamp_hi); + } + + // stage 4 + v[8] = half_btf_0_neon_r(&cospi[60], &u[8], &v_bit, &rnding); + v[9] = half_btf_0_m_neon_r(&cospi[36], &u[14], &v_bit, &rnding); + v[10] = half_btf_0_neon_r(&cospi[44], &u[10], &v_bit, &rnding); + v[11] = half_btf_0_m_neon_r(&cospi[52], &u[12], &v_bit, &rnding); + v[12] = half_btf_0_neon_r(&cospi[12], &u[12], &v_bit, &rnding); + v[13] = half_btf_0_neon_r(&cospi[20], &u[10], &v_bit, &rnding); + v[14] = half_btf_0_neon_r(&cospi[28], &u[14], &v_bit, &rnding); + v[15] = half_btf_0_neon_r(&cospi[4], &u[8], &v_bit, &rnding); + + for (i = 16; i < 32; i += 4) { + addsub_neon(u[i + 0], u[i + 1], &v[i + 0], &v[i + 1], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 3], u[i + 2], &v[i + 3], &v[i + 2], &clamp_lo, + &clamp_hi); + } + + for (i = 32; i < 64; i += 4) { + v[i + 0] = u[i + 0]; + v[i + 3] = u[i + 3]; + } + + v[33] = half_btf_neon_mode10_r(&cospi[4], &u[33], &cospi[60], &u[62], + &v_bit, &rnding); + v[34] = half_btf_neon_mode11_r(&cospi[60], &u[34], &cospi[4], &u[61], + &v_bit, &rnding); + v[37] = half_btf_neon_mode10_r(&cospi[36], &u[37], &cospi[28], &u[58], + &v_bit, &rnding); + v[38] = half_btf_neon_mode11_r(&cospi[28], &u[38], &cospi[36], &u[57], + &v_bit, &rnding); + v[41] = half_btf_neon_mode10_r(&cospi[20], &u[41], &cospi[44], &u[54], + &v_bit, &rnding); + v[42] = half_btf_neon_mode11_r(&cospi[44], &u[42], &cospi[20], &u[53], + &v_bit, &rnding); + v[45] = half_btf_neon_mode10_r(&cospi[52], &u[45], &cospi[12], &u[50], + &v_bit, &rnding); + v[46] = half_btf_neon_mode11_r(&cospi[12], &u[46], &cospi[52], &u[49], + &v_bit, &rnding); + v[49] = half_btf_neon_mode10_r(&cospi[52], &u[46], &cospi[12], &u[49], + &v_bit, &rnding); + v[50] = half_btf_neon_r(&cospi[12], &u[45], &cospi[52], &u[50], &v_bit, + &rnding); + v[53] = half_btf_neon_mode10_r(&cospi[20], &u[42], &cospi[44], &u[53], + &v_bit, &rnding); + v[54] = half_btf_neon_r(&cospi[44], &u[41], &cospi[20], &u[54], &v_bit, + &rnding); + v[57] = half_btf_neon_mode10_r(&cospi[36], &u[38], &cospi[28], &u[57], + &v_bit, &rnding); + v[58] = half_btf_neon_r(&cospi[28], &u[37], &cospi[36], &u[58], &v_bit, + &rnding); + v[61] = half_btf_neon_mode10_r(&cospi[4], &u[34], &cospi[60], &u[61], + &v_bit, &rnding); + v[62] = + half_btf_neon_r(&cospi[60], &u[33], &cospi[4], &u[62], &v_bit, &rnding); + + // stage 5 + u[4] = half_btf_0_neon_r(&cospi[56], &v[4], &v_bit, &rnding); + u[5] = half_btf_0_m_neon_r(&cospi[40], &v[6], &v_bit, &rnding); + u[6] = half_btf_0_neon_r(&cospi[24], &v[6], &v_bit, &rnding); + u[7] = half_btf_0_neon_r(&cospi[8], &v[4], &v_bit, &rnding); + + for (i = 8; i < 16; i += 4) { + addsub_neon(v[i + 0], v[i + 1], &u[i + 0], &u[i + 1], &clamp_lo, + &clamp_hi); + addsub_neon(v[i + 3], v[i + 2], &u[i + 3], &u[i + 2], &clamp_lo, + &clamp_hi); + } + + for (i = 16; i < 32; i += 4) { + u[i + 0] = v[i + 0]; + u[i + 3] = v[i + 3]; + } + + u[17] = half_btf_neon_mode10_r(&cospi[8], &v[17], &cospi[56], &v[30], + &v_bit, &rnding); + u[18] = half_btf_neon_mode11_r(&cospi[56], &v[18], &cospi[8], &v[29], + &v_bit, &rnding); + u[21] = half_btf_neon_mode10_r(&cospi[40], &v[21], &cospi[24], &v[26], + &v_bit, &rnding); + u[22] = half_btf_neon_mode11_r(&cospi[24], &v[22], &cospi[40], &v[25], + &v_bit, &rnding); + u[25] = half_btf_neon_mode10_r(&cospi[40], &v[22], &cospi[24], &v[25], + &v_bit, &rnding); + u[26] = half_btf_neon_r(&cospi[24], &v[21], &cospi[40], &v[26], &v_bit, + &rnding); + u[29] = half_btf_neon_mode10_r(&cospi[8], &v[18], &cospi[56], &v[29], + &v_bit, &rnding); + u[30] = + half_btf_neon_r(&cospi[56], &v[17], &cospi[8], &v[30], &v_bit, &rnding); + + for (i = 32; i < 64; i += 8) { + addsub_neon(v[i + 0], v[i + 3], &u[i + 0], &u[i + 3], &clamp_lo, + &clamp_hi); + addsub_neon(v[i + 1], v[i + 2], &u[i + 1], &u[i + 2], &clamp_lo, + &clamp_hi); + + addsub_neon(v[i + 7], v[i + 4], &u[i + 7], &u[i + 4], &clamp_lo, + &clamp_hi); + addsub_neon(v[i + 6], v[i + 5], &u[i + 6], &u[i + 5], &clamp_lo, + &clamp_hi); + } + + // stage 6 + v[0] = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + v[1] = half_btf_0_neon_r(&cospi[32], &u[0], &v_bit, &rnding); + v[2] = half_btf_0_neon_r(&cospi[48], &u[2], &v_bit, &rnding); + v[3] = half_btf_0_neon_r(&cospi[16], &u[2], &v_bit, &rnding); + + addsub_neon(u[4], u[5], &v[4], &v[5], &clamp_lo, &clamp_hi); + addsub_neon(u[7], u[6], &v[7], &v[6], &clamp_lo, &clamp_hi); + + for (i = 8; i < 16; i += 4) { + v[i + 0] = u[i + 0]; + v[i + 3] = u[i + 3]; + } + + v[9] = half_btf_neon_mode10_r(&cospi[16], &u[9], &cospi[48], &u[14], &v_bit, + &rnding); + v[10] = half_btf_neon_mode11_r(&cospi[48], &u[10], &cospi[16], &u[13], + &v_bit, &rnding); + v[13] = half_btf_neon_mode10_r(&cospi[16], &u[10], &cospi[48], &u[13], + &v_bit, &rnding); + v[14] = + half_btf_neon_r(&cospi[48], &u[9], &cospi[16], &u[14], &v_bit, &rnding); + + for (i = 16; i < 32; i += 8) { + addsub_neon(u[i + 0], u[i + 3], &v[i + 0], &v[i + 3], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 1], u[i + 2], &v[i + 1], &v[i + 2], &clamp_lo, + &clamp_hi); + + addsub_neon(u[i + 7], u[i + 4], &v[i + 7], &v[i + 4], &clamp_lo, + &clamp_hi); + addsub_neon(u[i + 6], u[i + 5], &v[i + 6], &v[i + 5], &clamp_lo, + &clamp_hi); + } + + for (i = 32; i < 64; i += 8) { + v[i + 0] = u[i + 0]; + v[i + 1] = u[i + 1]; + v[i + 6] = u[i + 6]; + v[i + 7] = u[i + 7]; + } + + v[34] = half_btf_neon_mode10_r(&cospi[8], &u[34], &cospi[56], &u[61], + &v_bit, &rnding); + v[35] = half_btf_neon_mode10_r(&cospi[8], &u[35], &cospi[56], &u[60], + &v_bit, &rnding); + v[36] = half_btf_neon_mode11_r(&cospi[56], &u[36], &cospi[8], &u[59], + &v_bit, &rnding); + v[37] = half_btf_neon_mode11_r(&cospi[56], &u[37], &cospi[8], &u[58], + &v_bit, &rnding); + v[42] = half_btf_neon_mode10_r(&cospi[40], &u[42], &cospi[24], &u[53], + &v_bit, &rnding); + v[43] = half_btf_neon_mode10_r(&cospi[40], &u[43], &cospi[24], &u[52], + &v_bit, &rnding); + v[44] = half_btf_neon_mode11_r(&cospi[24], &u[44], &cospi[40], &u[51], + &v_bit, &rnding); + v[45] = half_btf_neon_mode11_r(&cospi[24], &u[45], &cospi[40], &u[50], + &v_bit, &rnding); + v[50] = half_btf_neon_mode10_r(&cospi[40], &u[45], &cospi[24], &u[50], + &v_bit, &rnding); + v[51] = half_btf_neon_mode10_r(&cospi[40], &u[44], &cospi[24], &u[51], + &v_bit, &rnding); + v[52] = half_btf_neon_r(&cospi[24], &u[43], &cospi[40], &u[52], &v_bit, + &rnding); + v[53] = half_btf_neon_r(&cospi[24], &u[42], &cospi[40], &u[53], &v_bit, + &rnding); + v[58] = half_btf_neon_mode10_r(&cospi[8], &u[37], &cospi[56], &u[58], + &v_bit, &rnding); + v[59] = half_btf_neon_mode10_r(&cospi[8], &u[36], &cospi[56], &u[59], + &v_bit, &rnding); + v[60] = + half_btf_neon_r(&cospi[56], &u[35], &cospi[8], &u[60], &v_bit, &rnding); + v[61] = + half_btf_neon_r(&cospi[56], &u[34], &cospi[8], &u[61], &v_bit, &rnding); + + // stage 7 + addsub_neon(v[0], v[3], &u[0], &u[3], &clamp_lo, &clamp_hi); + addsub_neon(v[1], v[2], &u[1], &u[2], &clamp_lo, &clamp_hi); + + u[4] = v[4]; + u[7] = v[7]; + u[5] = half_btf_neon_mode10_r(&cospi[32], &v[5], &cospi[32], &v[6], &v_bit, + &rnding); + u[6] = + half_btf_neon_r(&cospi[32], &v[5], &cospi[32], &v[6], &v_bit, &rnding); + + addsub_neon(v[8], v[11], &u[8], &u[11], &clamp_lo, &clamp_hi); + addsub_neon(v[9], v[10], &u[9], &u[10], &clamp_lo, &clamp_hi); + addsub_neon(v[15], v[12], &u[15], &u[12], &clamp_lo, &clamp_hi); + addsub_neon(v[14], v[13], &u[14], &u[13], &clamp_lo, &clamp_hi); + + for (i = 16; i < 32; i += 8) { + u[i + 0] = v[i + 0]; + u[i + 1] = v[i + 1]; + u[i + 6] = v[i + 6]; + u[i + 7] = v[i + 7]; + } + + u[18] = half_btf_neon_mode10_r(&cospi[16], &v[18], &cospi[48], &v[29], + &v_bit, &rnding); + u[19] = half_btf_neon_mode10_r(&cospi[16], &v[19], &cospi[48], &v[28], + &v_bit, &rnding); + u[20] = half_btf_neon_mode11_r(&cospi[48], &v[20], &cospi[16], &v[27], + &v_bit, &rnding); + u[21] = half_btf_neon_mode11_r(&cospi[48], &v[21], &cospi[16], &v[26], + &v_bit, &rnding); + u[26] = half_btf_neon_mode10_r(&cospi[16], &v[21], &cospi[48], &v[26], + &v_bit, &rnding); + u[27] = half_btf_neon_mode10_r(&cospi[16], &v[20], &cospi[48], &v[27], + &v_bit, &rnding); + u[28] = half_btf_neon_r(&cospi[48], &v[19], &cospi[16], &v[28], &v_bit, + &rnding); + u[29] = half_btf_neon_r(&cospi[48], &v[18], &cospi[16], &v[29], &v_bit, + &rnding); + + for (i = 32; i < 64; i += 16) { + for (j = i; j < i + 4; j++) { + addsub_neon(v[j], v[j ^ 7], &u[j], &u[j ^ 7], &clamp_lo, &clamp_hi); + addsub_neon(v[j ^ 15], v[j ^ 8], &u[j ^ 15], &u[j ^ 8], &clamp_lo, + &clamp_hi); + } + } + + // stage 8 + for (i = 0; i < 4; ++i) { + addsub_neon(u[i], u[7 - i], &v[i], &v[7 - i], &clamp_lo, &clamp_hi); + } + + v[8] = u[8]; + v[9] = u[9]; + v[14] = u[14]; + v[15] = u[15]; + + v[10] = half_btf_neon_mode10_r(&cospi[32], &u[10], &cospi[32], &u[13], + &v_bit, &rnding); + v[11] = half_btf_neon_mode10_r(&cospi[32], &u[11], &cospi[32], &u[12], + &v_bit, &rnding); + v[12] = half_btf_neon_r(&cospi[32], &u[11], &cospi[32], &u[12], &v_bit, + &rnding); + v[13] = half_btf_neon_r(&cospi[32], &u[10], &cospi[32], &u[13], &v_bit, + &rnding); + + for (i = 16; i < 20; ++i) { + addsub_neon(u[i], u[i ^ 7], &v[i], &v[i ^ 7], &clamp_lo, &clamp_hi); + addsub_neon(u[i ^ 15], u[i ^ 8], &v[i ^ 15], &v[i ^ 8], &clamp_lo, + &clamp_hi); + } + + for (i = 32; i < 36; ++i) { + v[i] = u[i]; + v[i + 12] = u[i + 12]; + v[i + 16] = u[i + 16]; + v[i + 28] = u[i + 28]; + } + + v[36] = half_btf_neon_mode10_r(&cospi[16], &u[36], &cospi[48], &u[59], + &v_bit, &rnding); + v[37] = half_btf_neon_mode10_r(&cospi[16], &u[37], &cospi[48], &u[58], + &v_bit, &rnding); + v[38] = half_btf_neon_mode10_r(&cospi[16], &u[38], &cospi[48], &u[57], + &v_bit, &rnding); + v[39] = half_btf_neon_mode10_r(&cospi[16], &u[39], &cospi[48], &u[56], + &v_bit, &rnding); + v[40] = half_btf_neon_mode11_r(&cospi[48], &u[40], &cospi[16], &u[55], + &v_bit, &rnding); + v[41] = half_btf_neon_mode11_r(&cospi[48], &u[41], &cospi[16], &u[54], + &v_bit, &rnding); + v[42] = half_btf_neon_mode11_r(&cospi[48], &u[42], &cospi[16], &u[53], + &v_bit, &rnding); + v[43] = half_btf_neon_mode11_r(&cospi[48], &u[43], &cospi[16], &u[52], + &v_bit, &rnding); + v[52] = half_btf_neon_mode10_r(&cospi[16], &u[43], &cospi[48], &u[52], + &v_bit, &rnding); + v[53] = half_btf_neon_mode10_r(&cospi[16], &u[42], &cospi[48], &u[53], + &v_bit, &rnding); + v[54] = half_btf_neon_mode10_r(&cospi[16], &u[41], &cospi[48], &u[54], + &v_bit, &rnding); + v[55] = half_btf_neon_mode10_r(&cospi[16], &u[40], &cospi[48], &u[55], + &v_bit, &rnding); + v[56] = half_btf_neon_r(&cospi[48], &u[39], &cospi[16], &u[56], &v_bit, + &rnding); + v[57] = half_btf_neon_r(&cospi[48], &u[38], &cospi[16], &u[57], &v_bit, + &rnding); + v[58] = half_btf_neon_r(&cospi[48], &u[37], &cospi[16], &u[58], &v_bit, + &rnding); + v[59] = half_btf_neon_r(&cospi[48], &u[36], &cospi[16], &u[59], &v_bit, + &rnding); + + // stage 9 + for (i = 0; i < 8; ++i) { + addsub_neon(v[i], v[15 - i], &u[i], &u[15 - i], &clamp_lo, &clamp_hi); + } + + for (i = 16; i < 20; ++i) { + u[i] = v[i]; + u[i + 12] = v[i + 12]; + } + + u[20] = half_btf_neon_mode10_r(&cospi[32], &v[20], &cospi[32], &v[27], + &v_bit, &rnding); + u[21] = half_btf_neon_mode10_r(&cospi[32], &v[21], &cospi[32], &v[26], + &v_bit, &rnding); + u[22] = half_btf_neon_mode10_r(&cospi[32], &v[22], &cospi[32], &v[25], + &v_bit, &rnding); + u[23] = half_btf_neon_mode10_r(&cospi[32], &v[23], &cospi[32], &v[24], + &v_bit, &rnding); + u[24] = half_btf_neon_r(&cospi[32], &v[23], &cospi[32], &v[24], &v_bit, + &rnding); + u[25] = half_btf_neon_r(&cospi[32], &v[22], &cospi[32], &v[25], &v_bit, + &rnding); + u[26] = half_btf_neon_r(&cospi[32], &v[21], &cospi[32], &v[26], &v_bit, + &rnding); + u[27] = half_btf_neon_r(&cospi[32], &v[20], &cospi[32], &v[27], &v_bit, + &rnding); + + for (i = 32; i < 40; i++) { + addsub_neon(v[i], v[i ^ 15], &u[i], &u[i ^ 15], &clamp_lo, &clamp_hi); + } + + for (i = 48; i < 56; i++) { + addsub_neon(v[i ^ 15], v[i], &u[i ^ 15], &u[i], &clamp_lo, &clamp_hi); + } + + // stage 10 + for (i = 0; i < 16; i++) { + addsub_neon(u[i], u[31 - i], &v[i], &v[31 - i], &clamp_lo, &clamp_hi); + } + + for (i = 32; i < 40; i++) v[i] = u[i]; + + v[40] = half_btf_neon_mode10_r(&cospi[32], &u[40], &cospi[32], &u[55], + &v_bit, &rnding); + v[41] = half_btf_neon_mode10_r(&cospi[32], &u[41], &cospi[32], &u[54], + &v_bit, &rnding); + v[42] = half_btf_neon_mode10_r(&cospi[32], &u[42], &cospi[32], &u[53], + &v_bit, &rnding); + v[43] = half_btf_neon_mode10_r(&cospi[32], &u[43], &cospi[32], &u[52], + &v_bit, &rnding); + v[44] = half_btf_neon_mode10_r(&cospi[32], &u[44], &cospi[32], &u[51], + &v_bit, &rnding); + v[45] = half_btf_neon_mode10_r(&cospi[32], &u[45], &cospi[32], &u[50], + &v_bit, &rnding); + v[46] = half_btf_neon_mode10_r(&cospi[32], &u[46], &cospi[32], &u[49], + &v_bit, &rnding); + v[47] = half_btf_neon_mode10_r(&cospi[32], &u[47], &cospi[32], &u[48], + &v_bit, &rnding); + v[48] = half_btf_neon_r(&cospi[32], &u[47], &cospi[32], &u[48], &v_bit, + &rnding); + v[49] = half_btf_neon_r(&cospi[32], &u[46], &cospi[32], &u[49], &v_bit, + &rnding); + v[50] = half_btf_neon_r(&cospi[32], &u[45], &cospi[32], &u[50], &v_bit, + &rnding); + v[51] = half_btf_neon_r(&cospi[32], &u[44], &cospi[32], &u[51], &v_bit, + &rnding); + v[52] = half_btf_neon_r(&cospi[32], &u[43], &cospi[32], &u[52], &v_bit, + &rnding); + v[53] = half_btf_neon_r(&cospi[32], &u[42], &cospi[32], &u[53], &v_bit, + &rnding); + v[54] = half_btf_neon_r(&cospi[32], &u[41], &cospi[32], &u[54], &v_bit, + &rnding); + v[55] = half_btf_neon_r(&cospi[32], &u[40], &cospi[32], &u[55], &v_bit, + &rnding); + + for (i = 56; i < 64; i++) v[i] = u[i]; + + // stage 11 + for (i = 0; i < 32; i++) { + addsub_neon(v[i], v[63 - i], &out[(i)], &out[(63 - i)], &clamp_lo, + &clamp_hi); + } + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = + vdupq_n_s32((1 << (log_range_out - 1)) - 1); + for (i = 0; i < 64; i += 4) { + round_shift_4x4(out + i, out_shift); + highbd_clamp_s32_neon(out + i, out + i, &clamp_lo_out, &clamp_hi_out, + 4); + } + } + } +} + +static void idct32x32_low1_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t bf1; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0-1 + bf1 = in[0]; + + // stage 2-5 + bf1 = half_btf_0_neon_r(&cospi[32], &bf1, &v_bit, &rnding); + + // stage 6-9 + if (do_cols) { + bf1 = vmaxq_s32(bf1, clamp_lo); + bf1 = vminq_s32(bf1, clamp_hi); + } else { + const int log_range_out = AOMMAX(16, bd + 6); + clamp_lo = vdupq_n_s32(-(1 << (log_range_out - 1))); + clamp_hi = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + if (out_shift != 0) { + bf1 = vrshlq_s32(bf1, vdupq_n_s32(-out_shift)); + } + } + + bf1 = vmaxq_s32(bf1, clamp_lo); + bf1 = vminq_s32(bf1, clamp_hi); + + for (int i = 0; i < 32; i++) out[i] = bf1; +} + +static void idct32x32_low8_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t bf1[32]; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + // stage 0-1 + bf1[0] = in[0]; + bf1[4] = in[4]; + bf1[8] = in[2]; + bf1[12] = in[6]; + bf1[16] = in[1]; + bf1[20] = in[5]; + bf1[24] = in[3]; + bf1[28] = in[7]; + + // stage 2 + bf1[31] = half_btf_0_neon_r(&cospi[2], &bf1[16], &v_bit, &rnding); + bf1[16] = half_btf_0_neon_r(&cospi[62], &bf1[16], &v_bit, &rnding); + bf1[19] = half_btf_0_m_neon_r(&cospi[50], &bf1[28], &v_bit, &rnding); + bf1[28] = half_btf_0_neon_r(&cospi[14], &bf1[28], &v_bit, &rnding); + bf1[27] = half_btf_0_neon_r(&cospi[10], &bf1[20], &v_bit, &rnding); + bf1[20] = half_btf_0_neon_r(&cospi[54], &bf1[20], &v_bit, &rnding); + bf1[23] = half_btf_0_m_neon_r(&cospi[58], &bf1[24], &v_bit, &rnding); + bf1[24] = half_btf_0_neon_r(&cospi[6], &bf1[24], &v_bit, &rnding); + + // stage 3 + bf1[15] = half_btf_0_neon_r(&cospi[4], &bf1[8], &v_bit, &rnding); + bf1[8] = half_btf_0_neon_r(&cospi[60], &bf1[8], &v_bit, &rnding); + + bf1[11] = half_btf_0_m_neon_r(&cospi[52], &bf1[12], &v_bit, &rnding); + bf1[12] = half_btf_0_neon_r(&cospi[12], &bf1[12], &v_bit, &rnding); + bf1[17] = bf1[16]; + bf1[18] = bf1[19]; + bf1[21] = bf1[20]; + bf1[22] = bf1[23]; + bf1[25] = bf1[24]; + bf1[26] = bf1[27]; + bf1[29] = bf1[28]; + bf1[30] = bf1[31]; + + // stage 4 : + bf1[7] = half_btf_0_neon_r(&cospi[8], &bf1[4], &v_bit, &rnding); + bf1[4] = half_btf_0_neon_r(&cospi[56], &bf1[4], &v_bit, &rnding); + + bf1[9] = bf1[8]; + bf1[10] = bf1[11]; + bf1[13] = bf1[12]; + bf1[14] = bf1[15]; + + idct32_stage4_neon(bf1, cospi, &v_bit, &rnding); + + // stage 5 + bf1[0] = half_btf_0_neon_r(&cospi[32], &bf1[0], &v_bit, &rnding); + bf1[1] = bf1[0]; + bf1[5] = bf1[4]; + bf1[6] = bf1[7]; + + idct32_stage5_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 6 + bf1[3] = bf1[0]; + bf1[2] = bf1[1]; + + idct32_stage6_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 7 + idct32_stage7_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 8 + idct32_stage8_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 9 + idct32_stage9_neon(bf1, out, do_cols, bd, out_shift, &clamp_lo, &clamp_hi); +} + +static void idct32x32_low16_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t bf1[32]; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + + // stage 0-1 + + bf1[0] = in[0]; + bf1[2] = in[8]; + bf1[4] = in[4]; + bf1[6] = in[12]; + bf1[8] = in[2]; + bf1[10] = in[10]; + bf1[12] = in[6]; + bf1[14] = in[14]; + bf1[16] = in[1]; + bf1[18] = in[9]; + bf1[20] = in[5]; + bf1[22] = in[13]; + bf1[24] = in[3]; + bf1[26] = in[11]; + bf1[28] = in[7]; + bf1[30] = in[15]; + + // stage 2 + bf1[31] = half_btf_0_neon_r(&cospi[2], &bf1[16], &v_bit, &rnding); + bf1[16] = half_btf_0_neon_r(&cospi[62], &bf1[16], &v_bit, &rnding); + bf1[17] = half_btf_0_m_neon_r(&cospi[34], &bf1[30], &v_bit, &rnding); + bf1[30] = half_btf_0_neon_r(&cospi[30], &bf1[30], &v_bit, &rnding); + bf1[29] = half_btf_0_neon_r(&cospi[18], &bf1[18], &v_bit, &rnding); + bf1[18] = half_btf_0_neon_r(&cospi[46], &bf1[18], &v_bit, &rnding); + bf1[19] = half_btf_0_m_neon_r(&cospi[50], &bf1[28], &v_bit, &rnding); + bf1[28] = half_btf_0_neon_r(&cospi[14], &bf1[28], &v_bit, &rnding); + bf1[27] = half_btf_0_neon_r(&cospi[10], &bf1[20], &v_bit, &rnding); + bf1[20] = half_btf_0_neon_r(&cospi[54], &bf1[20], &v_bit, &rnding); + bf1[21] = half_btf_0_m_neon_r(&cospi[42], &bf1[26], &v_bit, &rnding); + bf1[26] = half_btf_0_neon_r(&cospi[22], &bf1[26], &v_bit, &rnding); + bf1[25] = half_btf_0_neon_r(&cospi[26], &bf1[22], &v_bit, &rnding); + bf1[22] = half_btf_0_neon_r(&cospi[38], &bf1[22], &v_bit, &rnding); + bf1[23] = half_btf_0_m_neon_r(&cospi[58], &bf1[24], &v_bit, &rnding); + bf1[24] = half_btf_0_neon_r(&cospi[6], &bf1[24], &v_bit, &rnding); + + // stage 3 + bf1[15] = half_btf_0_neon_r(&cospi[4], &bf1[8], &v_bit, &rnding); + bf1[8] = half_btf_0_neon_r(&cospi[60], &bf1[8], &v_bit, &rnding); + bf1[9] = half_btf_0_m_neon_r(&cospi[36], &bf1[14], &v_bit, &rnding); + bf1[14] = half_btf_0_neon_r(&cospi[28], &bf1[14], &v_bit, &rnding); + bf1[13] = half_btf_0_neon_r(&cospi[20], &bf1[10], &v_bit, &rnding); + bf1[10] = half_btf_0_neon_r(&cospi[44], &bf1[10], &v_bit, &rnding); + bf1[11] = half_btf_0_m_neon_r(&cospi[52], &bf1[12], &v_bit, &rnding); + bf1[12] = half_btf_0_neon_r(&cospi[12], &bf1[12], &v_bit, &rnding); + + addsub_neon(bf1[16], bf1[17], bf1 + 16, bf1 + 17, &clamp_lo, &clamp_hi); + addsub_neon(bf1[19], bf1[18], bf1 + 19, bf1 + 18, &clamp_lo, &clamp_hi); + addsub_neon(bf1[20], bf1[21], bf1 + 20, bf1 + 21, &clamp_lo, &clamp_hi); + addsub_neon(bf1[23], bf1[22], bf1 + 23, bf1 + 22, &clamp_lo, &clamp_hi); + addsub_neon(bf1[24], bf1[25], bf1 + 24, bf1 + 25, &clamp_lo, &clamp_hi); + addsub_neon(bf1[27], bf1[26], bf1 + 27, bf1 + 26, &clamp_lo, &clamp_hi); + addsub_neon(bf1[28], bf1[29], bf1 + 28, bf1 + 29, &clamp_lo, &clamp_hi); + addsub_neon(bf1[31], bf1[30], bf1 + 31, bf1 + 30, &clamp_lo, &clamp_hi); + // stage 4 + bf1[7] = half_btf_0_neon_r(&cospi[8], &bf1[4], &v_bit, &rnding); + bf1[4] = half_btf_0_neon_r(&cospi[56], &bf1[4], &v_bit, &rnding); + bf1[5] = half_btf_0_m_neon_r(&cospi[40], &bf1[6], &v_bit, &rnding); + bf1[6] = half_btf_0_neon_r(&cospi[24], &bf1[6], &v_bit, &rnding); + + addsub_neon(bf1[8], bf1[9], bf1 + 8, bf1 + 9, &clamp_lo, &clamp_hi); + addsub_neon(bf1[11], bf1[10], bf1 + 11, bf1 + 10, &clamp_lo, &clamp_hi); + addsub_neon(bf1[12], bf1[13], bf1 + 12, bf1 + 13, &clamp_lo, &clamp_hi); + addsub_neon(bf1[15], bf1[14], bf1 + 15, bf1 + 14, &clamp_lo, &clamp_hi); + + idct32_stage4_neon(bf1, cospi, &v_bit, &rnding); + + // stage 5 + bf1[0] = half_btf_0_neon_r(&cospi[32], &bf1[0], &v_bit, &rnding); + bf1[1] = bf1[0]; + bf1[3] = half_btf_0_neon_r(&cospi[16], &bf1[2], &v_bit, &rnding); + bf1[2] = half_btf_0_neon_r(&cospi[48], &bf1[2], &v_bit, &rnding); + + addsub_neon(bf1[4], bf1[5], bf1 + 4, bf1 + 5, &clamp_lo, &clamp_hi); + addsub_neon(bf1[7], bf1[6], bf1 + 7, bf1 + 6, &clamp_lo, &clamp_hi); + + idct32_stage5_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 6 + addsub_neon(bf1[0], bf1[3], bf1 + 0, bf1 + 3, &clamp_lo, &clamp_hi); + addsub_neon(bf1[1], bf1[2], bf1 + 1, bf1 + 2, &clamp_lo, &clamp_hi); + + idct32_stage6_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 7 + idct32_stage7_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + + // stage 8 + idct32_stage8_neon(bf1, cospi, &clamp_lo, &clamp_hi, &v_bit, &rnding); + // stage 9 + idct32_stage9_neon(bf1, out, do_cols, bd, out_shift, &clamp_lo, &clamp_hi); +} + +static void idct32x32_neon(int32x4_t *in, int32x4_t *out, int bit, int do_cols, + int bd, int out_shift) { + const int32_t *cospi = cospi_arr(bit); + const int log_range = AOMMAX(16, bd + (do_cols ? 6 : 8)); + const int32x4_t clamp_lo = vdupq_n_s32(-(1 << (log_range - 1))); + const int32x4_t clamp_hi = vdupq_n_s32((1 << (log_range - 1)) - 1); + int32x4_t bf1[32], bf0[32]; + const int32x4_t v_bit = vdupq_n_s32(-bit); + const int32x4_t rnding = vdupq_n_s32(1 << (bit - 1)); + // stage 0 + // stage 1 + bf1[0] = in[0]; + bf1[1] = in[16]; + bf1[2] = in[8]; + bf1[3] = in[24]; + bf1[4] = in[4]; + bf1[5] = in[20]; + bf1[6] = in[12]; + bf1[7] = in[28]; + bf1[8] = in[2]; + bf1[9] = in[18]; + bf1[10] = in[10]; + bf1[11] = in[26]; + bf1[12] = in[6]; + bf1[13] = in[22]; + bf1[14] = in[14]; + bf1[15] = in[30]; + bf1[16] = in[1]; + bf1[17] = in[17]; + bf1[18] = in[9]; + bf1[19] = in[25]; + bf1[20] = in[5]; + bf1[21] = in[21]; + bf1[22] = in[13]; + bf1[23] = in[29]; + bf1[24] = in[3]; + bf1[25] = in[19]; + bf1[26] = in[11]; + bf1[27] = in[27]; + bf1[28] = in[7]; + bf1[29] = in[23]; + bf1[30] = in[15]; + bf1[31] = in[31]; + + // stage 2 + for (int i = 0; i < 16; i++) bf0[i] = bf1[i]; + + bf0[16] = half_btf_neon_mode01_r(&cospi[62], &bf1[16], &cospi[2], &bf1[31], + &v_bit, &rnding); + bf0[17] = half_btf_neon_mode01_r(&cospi[30], &bf1[17], &cospi[34], &bf1[30], + &v_bit, &rnding); + bf0[18] = half_btf_neon_mode01_r(&cospi[46], &bf1[18], &cospi[18], &bf1[29], + &v_bit, &rnding); + bf0[19] = half_btf_neon_mode01_r(&cospi[14], &bf1[19], &cospi[50], &bf1[28], + &v_bit, &rnding); + bf0[20] = half_btf_neon_mode01_r(&cospi[54], &bf1[20], &cospi[10], &bf1[27], + &v_bit, &rnding); + bf0[21] = half_btf_neon_mode01_r(&cospi[22], &bf1[21], &cospi[42], &bf1[26], + &v_bit, &rnding); + bf0[22] = half_btf_neon_mode01_r(&cospi[38], &bf1[22], &cospi[26], &bf1[25], + &v_bit, &rnding); + bf0[23] = half_btf_neon_mode01_r(&cospi[6], &bf1[23], &cospi[58], &bf1[24], + &v_bit, &rnding); + bf0[24] = half_btf_neon_r(&cospi[58], &bf1[23], &cospi[6], &bf1[24], &v_bit, + &rnding); + bf0[25] = half_btf_neon_r(&cospi[26], &bf1[22], &cospi[38], &bf1[25], &v_bit, + &rnding); + bf0[26] = half_btf_neon_r(&cospi[42], &bf1[21], &cospi[22], &bf1[26], &v_bit, + &rnding); + bf0[27] = half_btf_neon_r(&cospi[10], &bf1[20], &cospi[54], &bf1[27], &v_bit, + &rnding); + bf0[28] = half_btf_neon_r(&cospi[50], &bf1[19], &cospi[14], &bf1[28], &v_bit, + &rnding); + bf0[29] = half_btf_neon_r(&cospi[18], &bf1[18], &cospi[46], &bf1[29], &v_bit, + &rnding); + bf0[30] = half_btf_neon_r(&cospi[34], &bf1[17], &cospi[30], &bf1[30], &v_bit, + &rnding); + bf0[31] = half_btf_neon_r(&cospi[2], &bf1[16], &cospi[62], &bf1[31], &v_bit, + &rnding); + + // stage 3 + for (int i = 0; i < 8; i++) bf1[i] = bf0[i]; + + bf1[8] = half_btf_neon_mode01_r(&cospi[60], &bf0[8], &cospi[4], &bf0[15], + &v_bit, &rnding); + bf1[9] = half_btf_neon_mode01_r(&cospi[28], &bf0[9], &cospi[36], &bf0[14], + &v_bit, &rnding); + bf1[10] = half_btf_neon_mode01_r(&cospi[44], &bf0[10], &cospi[20], &bf0[13], + &v_bit, &rnding); + bf1[11] = half_btf_neon_mode01_r(&cospi[12], &bf0[11], &cospi[52], &bf0[12], + &v_bit, &rnding); + bf1[12] = half_btf_neon_r(&cospi[52], &bf0[11], &cospi[12], &bf0[12], &v_bit, + &rnding); + bf1[13] = half_btf_neon_r(&cospi[20], &bf0[10], &cospi[44], &bf0[13], &v_bit, + &rnding); + bf1[14] = half_btf_neon_r(&cospi[36], &bf0[9], &cospi[28], &bf0[14], &v_bit, + &rnding); + bf1[15] = half_btf_neon_r(&cospi[4], &bf0[8], &cospi[60], &bf0[15], &v_bit, + &rnding); + + addsub_neon(bf0[16], bf0[17], bf1 + 16, bf1 + 17, &clamp_lo, &clamp_hi); + addsub_neon(bf0[19], bf0[18], bf1 + 19, bf1 + 18, &clamp_lo, &clamp_hi); + addsub_neon(bf0[20], bf0[21], bf1 + 20, bf1 + 21, &clamp_lo, &clamp_hi); + addsub_neon(bf0[23], bf0[22], bf1 + 23, bf1 + 22, &clamp_lo, &clamp_hi); + addsub_neon(bf0[24], bf0[25], bf1 + 24, bf1 + 25, &clamp_lo, &clamp_hi); + addsub_neon(bf0[27], bf0[26], bf1 + 27, bf1 + 26, &clamp_lo, &clamp_hi); + addsub_neon(bf0[28], bf0[29], bf1 + 28, bf1 + 29, &clamp_lo, &clamp_hi); + addsub_neon(bf0[31], bf0[30], bf1 + 31, bf1 + 30, &clamp_lo, &clamp_hi); + + // stage 4 + bf0[0] = bf1[0]; + bf0[1] = bf1[1]; + bf0[2] = bf1[2]; + bf0[3] = bf1[3]; + bf0[4] = half_btf_neon_mode01_r(&cospi[56], &bf1[4], &cospi[8], &bf1[7], + &v_bit, &rnding); + bf0[5] = half_btf_neon_mode01_r(&cospi[24], &bf1[5], &cospi[40], &bf1[6], + &v_bit, &rnding); + bf0[6] = half_btf_neon_r(&cospi[40], &bf1[5], &cospi[24], &bf1[6], &v_bit, + &rnding); + bf0[7] = + half_btf_neon_r(&cospi[8], &bf1[4], &cospi[56], &bf1[7], &v_bit, &rnding); + + addsub_neon(bf1[8], bf1[9], bf0 + 8, bf0 + 9, &clamp_lo, &clamp_hi); + addsub_neon(bf1[11], bf1[10], bf0 + 11, bf0 + 10, &clamp_lo, &clamp_hi); + addsub_neon(bf1[12], bf1[13], bf0 + 12, bf0 + 13, &clamp_lo, &clamp_hi); + addsub_neon(bf1[15], bf1[14], bf0 + 15, bf0 + 14, &clamp_lo, &clamp_hi); + + bf0[16] = bf1[16]; + bf0[17] = half_btf_neon_mode10_r(&cospi[8], &bf1[17], &cospi[56], &bf1[30], + &v_bit, &rnding); + bf0[18] = half_btf_neon_mode11_r(&cospi[56], &bf1[18], &cospi[8], &bf1[29], + &v_bit, &rnding); + bf0[19] = bf1[19]; + bf0[20] = bf1[20]; + bf0[21] = half_btf_neon_mode10_r(&cospi[40], &bf1[21], &cospi[24], &bf1[26], + &v_bit, &rnding); + bf0[22] = half_btf_neon_mode11_r(&cospi[24], &bf1[22], &cospi[40], &bf1[25], + &v_bit, &rnding); + bf0[23] = bf1[23]; + bf0[24] = bf1[24]; + bf0[25] = half_btf_neon_mode10_r(&cospi[40], &bf1[22], &cospi[24], &bf1[25], + &v_bit, &rnding); + bf0[26] = half_btf_neon_r(&cospi[24], &bf1[21], &cospi[40], &bf1[26], &v_bit, + &rnding); + bf0[27] = bf1[27]; + bf0[28] = bf1[28]; + bf0[29] = half_btf_neon_mode10_r(&cospi[8], &bf1[18], &cospi[56], &bf1[29], + &v_bit, &rnding); + bf0[30] = half_btf_neon_r(&cospi[56], &bf1[17], &cospi[8], &bf1[30], &v_bit, + &rnding); + bf0[31] = bf1[31]; + + // stage 5 + bf1[0] = half_btf_neon_r(&cospi[32], &bf0[0], &cospi[32], &bf0[1], &v_bit, + &rnding); + bf1[1] = half_btf_neon_mode01_r(&cospi[32], &bf0[0], &cospi[32], &bf0[1], + &v_bit, &rnding); + bf1[2] = half_btf_neon_mode01_r(&cospi[48], &bf0[2], &cospi[16], &bf0[3], + &v_bit, &rnding); + bf1[3] = half_btf_neon_r(&cospi[16], &bf0[2], &cospi[48], &bf0[3], &v_bit, + &rnding); + addsub_neon(bf0[4], bf0[5], bf1 + 4, bf1 + 5, &clamp_lo, &clamp_hi); + addsub_neon(bf0[7], bf0[6], bf1 + 7, bf1 + 6, &clamp_lo, &clamp_hi); + bf1[8] = bf0[8]; + bf1[9] = half_btf_neon_mode10_r(&cospi[16], &bf0[9], &cospi[48], &bf0[14], + &v_bit, &rnding); + bf1[10] = half_btf_neon_mode11_r(&cospi[48], &bf0[10], &cospi[16], &bf0[13], + &v_bit, &rnding); + bf1[11] = bf0[11]; + bf1[12] = bf0[12]; + bf1[13] = half_btf_neon_mode10_r(&cospi[16], &bf0[10], &cospi[48], &bf0[13], + &v_bit, &rnding); + bf1[14] = half_btf_neon_r(&cospi[48], &bf0[9], &cospi[16], &bf0[14], &v_bit, + &rnding); + bf1[15] = bf0[15]; + addsub_neon(bf0[16], bf0[19], bf1 + 16, bf1 + 19, &clamp_lo, &clamp_hi); + addsub_neon(bf0[17], bf0[18], bf1 + 17, bf1 + 18, &clamp_lo, &clamp_hi); + addsub_neon(bf0[23], bf0[20], bf1 + 23, bf1 + 20, &clamp_lo, &clamp_hi); + addsub_neon(bf0[22], bf0[21], bf1 + 22, bf1 + 21, &clamp_lo, &clamp_hi); + addsub_neon(bf0[24], bf0[27], bf1 + 24, bf1 + 27, &clamp_lo, &clamp_hi); + addsub_neon(bf0[25], bf0[26], bf1 + 25, bf1 + 26, &clamp_lo, &clamp_hi); + addsub_neon(bf0[31], bf0[28], bf1 + 31, bf1 + 28, &clamp_lo, &clamp_hi); + addsub_neon(bf0[30], bf0[29], bf1 + 30, bf1 + 29, &clamp_lo, &clamp_hi); + + // stage 6 + addsub_neon(bf1[0], bf1[3], bf0 + 0, bf0 + 3, &clamp_lo, &clamp_hi); + addsub_neon(bf1[1], bf1[2], bf0 + 1, bf0 + 2, &clamp_lo, &clamp_hi); + bf0[4] = bf1[4]; + bf0[5] = half_btf_neon_mode10_r(&cospi[32], &bf1[5], &cospi[32], &bf1[6], + &v_bit, &rnding); + bf0[6] = half_btf_neon_r(&cospi[32], &bf1[5], &cospi[32], &bf1[6], &v_bit, + &rnding); + bf0[7] = bf1[7]; + addsub_neon(bf1[8], bf1[11], bf0 + 8, bf0 + 11, &clamp_lo, &clamp_hi); + addsub_neon(bf1[9], bf1[10], bf0 + 9, bf0 + 10, &clamp_lo, &clamp_hi); + addsub_neon(bf1[15], bf1[12], bf0 + 15, bf0 + 12, &clamp_lo, &clamp_hi); + addsub_neon(bf1[14], bf1[13], bf0 + 14, bf0 + 13, &clamp_lo, &clamp_hi); + bf0[16] = bf1[16]; + bf0[17] = bf1[17]; + bf0[18] = half_btf_neon_mode10_r(&cospi[16], &bf1[18], &cospi[48], &bf1[29], + &v_bit, &rnding); + bf0[19] = half_btf_neon_mode10_r(&cospi[16], &bf1[19], &cospi[48], &bf1[28], + &v_bit, &rnding); + bf0[20] = half_btf_neon_mode11_r(&cospi[48], &bf1[20], &cospi[16], &bf1[27], + &v_bit, &rnding); + bf0[21] = half_btf_neon_mode11_r(&cospi[48], &bf1[21], &cospi[16], &bf1[26], + &v_bit, &rnding); + bf0[22] = bf1[22]; + bf0[23] = bf1[23]; + bf0[24] = bf1[24]; + bf0[25] = bf1[25]; + bf0[26] = half_btf_neon_mode10_r(&cospi[16], &bf1[21], &cospi[48], &bf1[26], + &v_bit, &rnding); + bf0[27] = half_btf_neon_mode10_r(&cospi[16], &bf1[20], &cospi[48], &bf1[27], + &v_bit, &rnding); + bf0[28] = half_btf_neon_r(&cospi[48], &bf1[19], &cospi[16], &bf1[28], &v_bit, + &rnding); + bf0[29] = half_btf_neon_r(&cospi[48], &bf1[18], &cospi[16], &bf1[29], &v_bit, + &rnding); + bf0[30] = bf1[30]; + bf0[31] = bf1[31]; + + // stage 7 + addsub_neon(bf0[0], bf0[7], bf1 + 0, bf1 + 7, &clamp_lo, &clamp_hi); + addsub_neon(bf0[1], bf0[6], bf1 + 1, bf1 + 6, &clamp_lo, &clamp_hi); + addsub_neon(bf0[2], bf0[5], bf1 + 2, bf1 + 5, &clamp_lo, &clamp_hi); + addsub_neon(bf0[3], bf0[4], bf1 + 3, bf1 + 4, &clamp_lo, &clamp_hi); + bf1[8] = bf0[8]; + bf1[9] = bf0[9]; + bf1[10] = half_btf_neon_mode10_r(&cospi[32], &bf0[10], &cospi[32], &bf0[13], + &v_bit, &rnding); + bf1[11] = half_btf_neon_mode10_r(&cospi[32], &bf0[11], &cospi[32], &bf0[12], + &v_bit, &rnding); + bf1[12] = half_btf_neon_r(&cospi[32], &bf0[11], &cospi[32], &bf0[12], &v_bit, + &rnding); + bf1[13] = half_btf_neon_r(&cospi[32], &bf0[10], &cospi[32], &bf0[13], &v_bit, + &rnding); + bf1[14] = bf0[14]; + bf1[15] = bf0[15]; + addsub_neon(bf0[16], bf0[23], bf1 + 16, bf1 + 23, &clamp_lo, &clamp_hi); + addsub_neon(bf0[17], bf0[22], bf1 + 17, bf1 + 22, &clamp_lo, &clamp_hi); + addsub_neon(bf0[18], bf0[21], bf1 + 18, bf1 + 21, &clamp_lo, &clamp_hi); + addsub_neon(bf0[19], bf0[20], bf1 + 19, bf1 + 20, &clamp_lo, &clamp_hi); + addsub_neon(bf0[31], bf0[24], bf1 + 31, bf1 + 24, &clamp_lo, &clamp_hi); + addsub_neon(bf0[30], bf0[25], bf1 + 30, bf1 + 25, &clamp_lo, &clamp_hi); + addsub_neon(bf0[29], bf0[26], bf1 + 29, bf1 + 26, &clamp_lo, &clamp_hi); + addsub_neon(bf0[28], bf0[27], bf1 + 28, bf1 + 27, &clamp_lo, &clamp_hi); + + // stage 8 + addsub_neon(bf1[0], bf1[15], bf0 + 0, bf0 + 15, &clamp_lo, &clamp_hi); + addsub_neon(bf1[1], bf1[14], bf0 + 1, bf0 + 14, &clamp_lo, &clamp_hi); + addsub_neon(bf1[2], bf1[13], bf0 + 2, bf0 + 13, &clamp_lo, &clamp_hi); + addsub_neon(bf1[3], bf1[12], bf0 + 3, bf0 + 12, &clamp_lo, &clamp_hi); + addsub_neon(bf1[4], bf1[11], bf0 + 4, bf0 + 11, &clamp_lo, &clamp_hi); + addsub_neon(bf1[5], bf1[10], bf0 + 5, bf0 + 10, &clamp_lo, &clamp_hi); + addsub_neon(bf1[6], bf1[9], bf0 + 6, bf0 + 9, &clamp_lo, &clamp_hi); + addsub_neon(bf1[7], bf1[8], bf0 + 7, bf0 + 8, &clamp_lo, &clamp_hi); + bf0[16] = bf1[16]; + bf0[17] = bf1[17]; + bf0[18] = bf1[18]; + bf0[19] = bf1[19]; + bf0[20] = half_btf_neon_mode10_r(&cospi[32], &bf1[20], &cospi[32], &bf1[27], + &v_bit, &rnding); + bf0[21] = half_btf_neon_mode10_r(&cospi[32], &bf1[21], &cospi[32], &bf1[26], + &v_bit, &rnding); + bf0[22] = half_btf_neon_mode10_r(&cospi[32], &bf1[22], &cospi[32], &bf1[25], + &v_bit, &rnding); + bf0[23] = half_btf_neon_mode10_r(&cospi[32], &bf1[23], &cospi[32], &bf1[24], + &v_bit, &rnding); + bf0[24] = half_btf_neon_r(&cospi[32], &bf1[23], &cospi[32], &bf1[24], &v_bit, + &rnding); + bf0[25] = half_btf_neon_r(&cospi[32], &bf1[22], &cospi[32], &bf1[25], &v_bit, + &rnding); + bf0[26] = half_btf_neon_r(&cospi[32], &bf1[21], &cospi[32], &bf1[26], &v_bit, + &rnding); + bf0[27] = half_btf_neon_r(&cospi[32], &bf1[20], &cospi[32], &bf1[27], &v_bit, + &rnding); + bf0[28] = bf1[28]; + bf0[29] = bf1[29]; + bf0[30] = bf1[30]; + bf0[31] = bf1[31]; + + // stage 9 + addsub_neon(bf0[0], bf0[31], out + 0, out + 31, &clamp_lo, &clamp_hi); + addsub_neon(bf0[1], bf0[30], out + 1, out + 30, &clamp_lo, &clamp_hi); + addsub_neon(bf0[2], bf0[29], out + 2, out + 29, &clamp_lo, &clamp_hi); + addsub_neon(bf0[3], bf0[28], out + 3, out + 28, &clamp_lo, &clamp_hi); + addsub_neon(bf0[4], bf0[27], out + 4, out + 27, &clamp_lo, &clamp_hi); + addsub_neon(bf0[5], bf0[26], out + 5, out + 26, &clamp_lo, &clamp_hi); + addsub_neon(bf0[6], bf0[25], out + 6, out + 25, &clamp_lo, &clamp_hi); + addsub_neon(bf0[7], bf0[24], out + 7, out + 24, &clamp_lo, &clamp_hi); + addsub_neon(bf0[8], bf0[23], out + 8, out + 23, &clamp_lo, &clamp_hi); + addsub_neon(bf0[9], bf0[22], out + 9, out + 22, &clamp_lo, &clamp_hi); + addsub_neon(bf0[10], bf0[21], out + 10, out + 21, &clamp_lo, &clamp_hi); + addsub_neon(bf0[11], bf0[20], out + 11, out + 20, &clamp_lo, &clamp_hi); + addsub_neon(bf0[12], bf0[19], out + 12, out + 19, &clamp_lo, &clamp_hi); + addsub_neon(bf0[13], bf0[18], out + 13, out + 18, &clamp_lo, &clamp_hi); + addsub_neon(bf0[14], bf0[17], out + 14, out + 17, &clamp_lo, &clamp_hi); + addsub_neon(bf0[15], bf0[16], out + 15, out + 16, &clamp_lo, &clamp_hi); + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_8x8(out, out_shift); + round_shift_8x8(out + 16, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 32); + } +} + +static void iidentity32_neon(int32x4_t *in, int32x4_t *out, int bit, + int do_cols, int bd, int out_shift) { + (void)bit; + for (int i = 0; i < 32; i += 16) { + out[i] = vshlq_n_s32(in[i], 2); + out[i + 1] = vshlq_n_s32(in[i + 1], 2); + out[i + 2] = vshlq_n_s32(in[i + 2], 2); + out[i + 3] = vshlq_n_s32(in[i + 3], 2); + out[i + 4] = vshlq_n_s32(in[i + 4], 2); + out[i + 5] = vshlq_n_s32(in[i + 5], 2); + out[i + 6] = vshlq_n_s32(in[i + 6], 2); + out[i + 7] = vshlq_n_s32(in[i + 7], 2); + out[i + 8] = vshlq_n_s32(in[i + 8], 2); + out[i + 9] = vshlq_n_s32(in[i + 9], 2); + out[i + 10] = vshlq_n_s32(in[i + 10], 2); + out[i + 11] = vshlq_n_s32(in[i + 11], 2); + out[i + 12] = vshlq_n_s32(in[i + 12], 2); + out[i + 13] = vshlq_n_s32(in[i + 13], 2); + out[i + 14] = vshlq_n_s32(in[i + 14], 2); + out[i + 15] = vshlq_n_s32(in[i + 15], 2); + } + + if (!do_cols) { + const int log_range_out = AOMMAX(16, bd + 6); + const int32x4_t clamp_lo_out = vdupq_n_s32(-(1 << (log_range_out - 1))); + const int32x4_t clamp_hi_out = vdupq_n_s32((1 << (log_range_out - 1)) - 1); + round_shift_8x8(out, out_shift); + round_shift_8x8(out + 16, out_shift); + highbd_clamp_s32_neon(out, out, &clamp_lo_out, &clamp_hi_out, 32); + } +} + +// 1D itx types +typedef enum ATTRIBUTE_PACKED { + IDCT_1D, + IADST_1D, + IFLIPADST_1D = IADST_1D, + IIDENTITY_1D, + ITX_TYPES_1D, +} ITX_TYPE_1D; + +static const ITX_TYPE_1D vitx_1d_tab[TX_TYPES] = { + IDCT_1D, IADST_1D, IDCT_1D, IADST_1D, + IFLIPADST_1D, IDCT_1D, IFLIPADST_1D, IADST_1D, + IFLIPADST_1D, IIDENTITY_1D, IDCT_1D, IIDENTITY_1D, + IADST_1D, IIDENTITY_1D, IFLIPADST_1D, IIDENTITY_1D, +}; +static const ITX_TYPE_1D hitx_1d_tab[TX_TYPES] = { + IDCT_1D, IDCT_1D, IADST_1D, IADST_1D, + IDCT_1D, IFLIPADST_1D, IFLIPADST_1D, IFLIPADST_1D, + IADST_1D, IIDENTITY_1D, IIDENTITY_1D, IDCT_1D, + IIDENTITY_1D, IADST_1D, IIDENTITY_1D, IFLIPADST_1D, +}; + +static const transform_1d_neon + highbd_txfm_all_1d_zeros_w8_arr[TX_SIZES][ITX_TYPES_1D][4] = { + { + { idct4x4_neon, NULL, NULL, NULL }, + { iadst4x4_neon, NULL, NULL, NULL }, + { iidentity4_neon, iidentity4_neon, iidentity4_neon, NULL }, + }, + { { idct8x8_low1_neon, idct8x8_new_neon, NULL, NULL }, + { iadst8x8_low1_neon, iadst8x8_new_neon, NULL, NULL }, + { iidentity8_neon, iidentity8_neon, NULL, NULL } }, + { + { idct16x16_low1_neon, idct16x16_low8_neon, idct16x16_neon, NULL }, + { iadst16x16_low1_neon, iadst16x16_low8_neon, iadst16x16_neon, NULL }, + { iidentity16_neon, NULL, iidentity16_neon, NULL }, + }, + { { idct32x32_low1_neon, idct32x32_low8_neon, idct32x32_low16_neon, + idct32x32_neon }, + { NULL, NULL, NULL, NULL }, + { iidentity32_neon, NULL, NULL, NULL } }, + { { idct64x64_low1_neon, idct64x64_low8_neon, idct64x64_low16_neon, + idct64x64_neon }, + { NULL, NULL, NULL, NULL }, + { NULL, NULL, NULL, NULL } } + }; + +void av1_inv_txfm2d_add_4x8_neon(const tran_low_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, const int bd) { + TX_SIZE tx_size = TX_4X8; + int32x4_t buf1[32] = { vdupq_n_s32(0) }; + + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][0]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][1]; + const int input_stride = AOMMIN(32, txfm_size_row); + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[8]; + load_buffer_32bit_input(input, input_stride, buf0, txfm_size_col); + load_buffer_32bit_input(input + 4, input_stride, buf0 + 4, txfm_size_col); + round_shift_rect_array_32_neon(buf0, buf0, txfm_size_row); + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + row_txfm(buf0 + 4, buf0 + 4, INV_COS_BIT, 0, bd, -shift[0]); + + if (lr_flip) { + TRANSPOSE_4X4(buf0[3], buf0[2], buf0[1], buf0[0], buf1[0], buf1[1], buf1[2], + buf1[3]); + + TRANSPOSE_4X4(buf0[7], buf0[6], buf0[5], buf0[4], buf1[4], buf1[5], buf1[6], + buf1[7]); + } else { + TRANSPOSE_4X4(buf0[0], buf0[1], buf0[2], buf0[3], buf1[0], buf1[1], buf1[2], + buf1[3]); + + TRANSPOSE_4X4(buf0[4], buf0[5], buf0[6], buf0[7], buf1[4], buf1[5], buf1[6], + buf1[7]); + } + + // 2nd stage: column transform + col_txfm(buf1, buf1, INV_COS_BIT, 1, bd, 0); + + round_shift_array_32_neon(buf1, buf1, txfm_size_row, -shift[1]); + + // write to buffer + highbd_write_buffer_4xn_neon(buf1, output, stride, ud_flip, txfm_size_row, + bd); +} + +void av1_inv_txfm2d_add_8x4_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, const int bd) { + TX_SIZE tx_size = TX_8X4; + int32x4_t buf1[8]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][1]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][0]; + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[8]; + const int32_t *input_row = input; + load_buffer_32bit_input(input_row, 4, buf0, txfm_size_col); + + round_shift_rect_array_32_neon(buf0, buf0, txfm_size_col); + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *buf1_ptr; + if (lr_flip) { + flip_buf_neon(buf0, buf1, txfm_size_col); + buf1_ptr = buf1; + } else { + buf1_ptr = buf0; + } + + // 2nd stage: column transform + for (int i = 0; i < 2; i++) { + int32x4_t *buf1_cur = buf1_ptr + i * txfm_size_row; + transpose_4x4(buf1_cur, buf1_cur); + col_txfm(buf1_cur, buf1_cur, INV_COS_BIT, 1, bd, 0); + } + round_shift_array_32_neon(buf1_ptr, buf1_ptr, txfm_size_col, -shift[1]); + // write to buffer + highbd_write_buffer_8xn_neon(buf1_ptr, output, stride, ud_flip, txfm_size_row, + bd); +} + +void av1_inv_txfm2d_add_4x16_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, const int bd) { + TX_SIZE tx_size = TX_4X16; + int32x4_t buf1[16]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_h_div8 = txfm_size_row >> 2; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][0]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][2]; + const int input_stride = AOMMIN(32, txfm_size_row); + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[16]; + for (int i = 0; i < (txfm_size_row >> 2); i++) { + const int32_t *input_row = input + i * 4; + int32x4_t *buf0_cur = buf0 + i * 4; + load_buffer_32bit_input(input_row, input_stride, buf0_cur, txfm_size_col); + row_txfm(buf0 + (i << 2), buf0 + (i << 2), INV_COS_BIT, 0, bd, -shift[0]); + } + + if (lr_flip) { + for (int j = 0; j < buf_size_h_div8; ++j) { + TRANSPOSE_4X4(buf0[4 * j + 3], buf0[4 * j + 2], buf0[4 * j + 1], + buf0[4 * j], buf1[4 * j], buf1[4 * j + 1], buf1[4 * j + 2], + buf1[4 * j + 3]); + } + } else { + for (int j = 0; j < buf_size_h_div8; ++j) { + TRANSPOSE_4X4(buf0[4 * j], buf0[4 * j + 1], buf0[4 * j + 2], + buf0[4 * j + 3], buf1[4 * j], buf1[4 * j + 1], + buf1[4 * j + 2], buf1[4 * j + 3]); + } + } + + // 2nd stage: column transform + col_txfm(buf1, buf1, INV_COS_BIT, 1, bd, 0); + + round_shift_array_32_neon(buf1, buf1, txfm_size_row, -shift[1]); + + // write to buffer + highbd_write_buffer_4xn_neon(buf1, output, stride, ud_flip, txfm_size_row, + bd); +} + +void av1_inv_txfm2d_add_16x4_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, const int bd) { + TX_SIZE tx_size = TX_16X4; + int32x4_t buf1[16]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w_div8 = txfm_size_col >> 2; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][2]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][0]; + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[16]; + const int32_t *input_row = input; + load_buffer_32bit_input(input_row, 4, buf0, txfm_size_col); + + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *buf1_ptr; + if (lr_flip) { + flip_buf_neon(buf0, buf1, txfm_size_col); + buf1_ptr = buf1; + } else { + buf1_ptr = buf0; + } + + // 2nd stage: column transform + for (int i = 0; i < buf_size_w_div8; i++) { + int32x4_t *buf1_cur = buf1_ptr + i * txfm_size_row; + transpose_4x4(buf1_cur, buf1_cur); + col_txfm(buf1_cur, buf1_cur, INV_COS_BIT, 1, bd, 0); + } + round_shift_array_32_neon(buf1_ptr, buf1_ptr, txfm_size_col, -shift[1]); + + // write to buffer + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1_ptr + i * txfm_size_row * 2, + output + 8 * i, stride, ud_flip, txfm_size_row, + bd); + } +} + +static void highbd_inv_txfm2d_add_4x16_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, int eob, + const int bd) { + (void)eob; + TX_SIZE tx_size = TX_4X16; + int32x4_t buf1[16]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_h_div8 = txfm_size_row >> 2; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][0]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][2]; + const int input_stride = AOMMIN(32, txfm_size_col); + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[16]; + const int32_t *input_row = input; + int32x4_t *buf0_cur = buf0; + load_buffer_32bit_input(input_row, input_stride, buf0_cur, txfm_size_row); + for (int i = 0; i < (txfm_size_row >> 2); i++) { + row_txfm(buf0 + (i << 2), buf0 + (i << 2), INV_COS_BIT, 0, bd, -shift[0]); + } + + if (lr_flip) { + for (int j = 0; j < buf_size_h_div8; ++j) { + TRANSPOSE_4X4(buf0[4 * j + 3], buf0[4 * j + 2], buf0[4 * j + 1], + buf0[4 * j], buf1[4 * j], buf1[4 * j + 1], buf1[4 * j + 2], + buf1[4 * j + 3]); + } + } else { + for (int j = 0; j < buf_size_h_div8; ++j) { + TRANSPOSE_4X4(buf0[4 * j], buf0[4 * j + 1], buf0[4 * j + 2], + buf0[4 * j + 3], buf1[4 * j], buf1[4 * j + 1], + buf1[4 * j + 2], buf1[4 * j + 3]); + } + } + + // 2nd stage: column transform + col_txfm(buf1, buf1, INV_COS_BIT, 1, bd, 0); + + round_shift_array_32_neon(buf1, buf1, txfm_size_row, -shift[1]); + + // write to buffer + highbd_write_buffer_4xn_neon(buf1, output, stride, ud_flip, txfm_size_row, + bd); +} + +static void highbd_inv_txfm2d_add_16x4_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, int eob, + const int bd) { + (void)eob; + TX_SIZE tx_size = TX_16X4; + int32x4_t buf1[16]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w_div8 = txfm_size_col >> 2; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][2]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][0]; + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + // 1st stage: column transform + int32x4_t buf0[16]; + const int32_t *input_row = input; + load_buffer_32bit_input(input_row, 4, buf0, txfm_size_col); + + for (int j = 0; j < buf_size_w_div8; j++) { + TRANSPOSE_4X4(buf0[j], buf0[j + 4], buf0[j + 8], buf0[j + 12], buf1[4 * j], + buf1[4 * j + 1], buf1[4 * j + 2], buf1[4 * j + 3]); + } + row_txfm(buf1, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *buf1_ptr; + if (lr_flip) { + flip_buf_neon(buf0, buf1, txfm_size_col); + buf1_ptr = buf1; + } else { + buf1_ptr = buf0; + } + + // 2nd stage: column transform + for (int i = 0; i < buf_size_w_div8; i++) { + col_txfm(buf1_ptr + i * txfm_size_row, buf1_ptr + i * txfm_size_row, + INV_COS_BIT, 1, bd, 0); + } + round_shift_array_32_neon(buf1_ptr, buf1_ptr, txfm_size_col, -shift[1]); + + // write to buffer + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1_ptr + i * txfm_size_row * 2, + output + 8 * i, stride, ud_flip, txfm_size_row, + bd); + } +} + +static const int lowbd_txfm_all_1d_zeros_idx[32] = { + 0, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, + 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, +}; + +// Transform block width in log2 for eob (size of 64 map to 32) +static const int tx_size_wide_log2_eob[TX_SIZES_ALL] = { + 2, 3, 4, 5, 5, 2, 3, 3, 4, 4, 5, 5, 5, 2, 4, 3, 5, 4, 5, +}; + +DECLARE_ALIGNED(16, static const int16_t, av1_eob_to_eobxy_8x8_default[8]) = { + 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, +}; + +DECLARE_ALIGNED(16, static const int16_t, + av1_eob_to_eobxy_16x16_default[16]) = { + 0x0707, 0x0707, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, + 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, +}; + +DECLARE_ALIGNED(16, static const int16_t, + av1_eob_to_eobxy_32x32_default[32]) = { + 0x0707, 0x0f0f, 0x0f0f, 0x0f0f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, + 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, + 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, + 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, 0x1f1f, +}; + +DECLARE_ALIGNED(16, static const int16_t, av1_eob_to_eobxy_8x16_default[16]) = { + 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, 0x0f07, 0x0f07, 0x0f07, + 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x0f07, +}; + +DECLARE_ALIGNED(16, static const int16_t, av1_eob_to_eobxy_16x8_default[8]) = { + 0x0707, 0x0707, 0x070f, 0x070f, 0x070f, 0x070f, 0x070f, 0x070f, +}; + +DECLARE_ALIGNED(16, static const int16_t, + av1_eob_to_eobxy_16x32_default[32]) = { + 0x0707, 0x0707, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f, + 0x0f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, + 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, + 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, 0x1f0f, +}; + +DECLARE_ALIGNED(16, static const int16_t, + av1_eob_to_eobxy_32x16_default[16]) = { + 0x0707, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, + 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, 0x0f1f, +}; + +DECLARE_ALIGNED(16, static const int16_t, av1_eob_to_eobxy_8x32_default[32]) = { + 0x0707, 0x0707, 0x0707, 0x0707, 0x0707, 0x0f07, 0x0f07, 0x0f07, + 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x0f07, 0x1f07, 0x1f07, 0x1f07, + 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, + 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, 0x1f07, +}; + +DECLARE_ALIGNED(16, static const int16_t, av1_eob_to_eobxy_32x8_default[8]) = { + 0x0707, 0x070f, 0x070f, 0x071f, 0x071f, 0x071f, 0x071f, 0x071f, +}; + +DECLARE_ALIGNED(16, static const int16_t *, + av1_eob_to_eobxy_default[TX_SIZES_ALL]) = { + NULL, + av1_eob_to_eobxy_8x8_default, + av1_eob_to_eobxy_16x16_default, + av1_eob_to_eobxy_32x32_default, + av1_eob_to_eobxy_32x32_default, + NULL, + NULL, + av1_eob_to_eobxy_8x16_default, + av1_eob_to_eobxy_16x8_default, + av1_eob_to_eobxy_16x32_default, + av1_eob_to_eobxy_32x16_default, + av1_eob_to_eobxy_32x32_default, + av1_eob_to_eobxy_32x32_default, + NULL, + NULL, + av1_eob_to_eobxy_8x32_default, + av1_eob_to_eobxy_32x8_default, + av1_eob_to_eobxy_16x32_default, + av1_eob_to_eobxy_32x16_default, +}; + +static INLINE void highbd_get_eobx_eoby_scan_default(int *eobx, int *eoby, + TX_SIZE tx_size, int eob) { + if (eob == 1) { + *eobx = 0; + *eoby = 0; + return; + } + + const int tx_w_log2 = tx_size_wide_log2_eob[tx_size]; + const int eob_row = (eob - 1) >> tx_w_log2; + const int eobxy = av1_eob_to_eobxy_default[tx_size][eob_row]; + *eobx = eobxy & 0xFF; + *eoby = eobxy >> 8; +} + +static INLINE void get_eobx_eoby_scan_default(int *eobx, int *eoby, + TX_SIZE tx_size) { + if (tx_size == 2) { + *eoby = 15, *eobx = 15; + } else if (tx_size == 3) { + *eoby = 31, *eobx = 31; + } else if (tx_size == 4) { + *eoby = 31, *eobx = 31; + } else if (tx_size == 7) { + *eoby = 15, *eobx = 7; + } else if (tx_size == 8) { + *eoby = 7, *eobx = 15; + } else if (tx_size == 9) { + *eoby = 31, *eobx = 15; + } else if (tx_size == 10) { + *eoby = 15, *eobx = 31; + } else if (tx_size == 11) { + *eoby = 31, *eobx = 31; + } else if (tx_size == 12) { + *eoby = 31, *eobx = 31; + } else if (tx_size == 15) { + *eoby = 31, *eobx = 7; + } else if (tx_size == 16) { + *eoby = 7, *eobx = 31; + } else if (tx_size == 17) { + *eoby = 31, *eobx = 15; + } else if (tx_size == 18) { + *eoby = 15, *eobx = 31; + } else { + *eoby = 0, *eobx = 0; + } +} + +static INLINE void get_eobx_eoby_scan_v_identity(int *eobx, int *eoby, + TX_SIZE tx_size) { + const int txfm_size_row = tx_size_high[tx_size]; + *eoby = AOMMIN(32, txfm_size_row) - 1; + *eobx = 0; +} + +static INLINE void get_eobx_eoby_scan_h_identity(int *eobx, int *eoby, + TX_SIZE tx_size) { + const int txfm_size_col = tx_size_wide[tx_size]; + *eobx = AOMMIN(32, txfm_size_col) - 1; + *eoby = 0; +} + +static void inv_txfm2d_add_h_identity_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, TX_SIZE tx_size, + const int bd) { + int32x4_t buf1[64]; + int eobx, eoby; + get_eobx_eoby_scan_v_identity(&eobx, &eoby, tx_size); + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w = AOMMIN(32, txfm_size_col); + const int buf_size_w_div4 = buf_size_w >> 2; + const int buf_size_h_div8 = (eoby + 8) >> 3; + const int row_max = AOMMIN(32, txfm_size_row); + const int input_stride = row_max; + const int rect_type = get_rect_tx_log_ratio(txfm_size_col, txfm_size_row); + const int fun_idx = lowbd_txfm_all_1d_zeros_idx[eoby]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][0]; + assert(row_txfm != NULL); + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][fun_idx]; + assert(col_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + for (int i = 0; i < (buf_size_h_div8 << 1); ++i) { + int32x4_t buf0[16]; + load_buffer_32bit_input(input + i * 4, input_stride, buf0, buf_size_w); + if (rect_type == 1 || rect_type == -1) { + round_shift_rect_array_32_neon(buf0, buf0, buf_size_w); + } + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *_buf1 = buf1 + i * 4; + + for (int j = 0; j < buf_size_w_div4; ++j) { + int32x4_t *buf0_cur = buf0 + j * 4; + TRANSPOSE_4X4(buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3], + buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3]); + _buf1[j * txfm_size_row + 0] = buf0_cur[0]; + _buf1[j * txfm_size_row + 1] = buf0_cur[1]; + _buf1[j * txfm_size_row + 2] = buf0_cur[2]; + _buf1[j * txfm_size_row + 3] = buf0_cur[3]; + } + } + for (int i = 0; i < buf_size_w_div4; i++) { + col_txfm(buf1 + i * txfm_size_row, buf1 + i * txfm_size_row, INV_COS_BIT, 1, + bd, 0); + + round_shift_array_32_neon(buf1 + i * txfm_size_row, + buf1 + i * txfm_size_row, txfm_size_row, + -shift[1]); + } + + // write to buffer + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1 + i * txfm_size_row * 2, output + 8 * i, + stride, ud_flip, txfm_size_row, bd); + } +} + +static void inv_txfm2d_add_v_identity_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, TX_SIZE tx_size, + const int bd) { + int32x4_t buf1[64]; + int eobx, eoby; + get_eobx_eoby_scan_h_identity(&eobx, &eoby, tx_size); + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w_div4 = AOMMIN(32, txfm_size_col) >> 2; + const int row_max = AOMMIN(32, txfm_size_row); + const int input_stride = row_max; + const int buf_size_nonzero_w_div8 = (eobx + 8) >> 3; + const int buf_size_nonzero_w = buf_size_nonzero_w_div8 << 3; + const int rect_type = get_rect_tx_log_ratio(txfm_size_col, txfm_size_row); + const int fun_idx = lowbd_txfm_all_1d_zeros_idx[eobx]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][fun_idx]; + assert(row_txfm != NULL); + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][0]; + assert(col_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + + for (int i = 0; i < (row_max >> 2); ++i) { + int32x4_t buf0[16]; + load_buffer_32bit_input(input + i * 4, input_stride, buf0, + buf_size_nonzero_w); + if (rect_type == 1 || rect_type == -1) { + round_shift_rect_array_32_neon(buf0, buf0, buf_size_nonzero_w); + } + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *_buf1 = buf1 + i * 4; + if (lr_flip) { + for (int j = 0; j < buf_size_w_div4; ++j) { + TRANSPOSE_4X4(buf0[4 * j + 3], buf0[4 * j + 2], buf0[4 * j + 1], + buf0[4 * j], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 0], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 1], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 2], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 3]); + } + } else { + for (int j = 0; j < buf_size_w_div4; ++j) { + TRANSPOSE_4X4( + buf0[j * 4 + 0], buf0[j * 4 + 1], buf0[j * 4 + 2], buf0[j * 4 + 3], + _buf1[j * txfm_size_row + 0], _buf1[j * txfm_size_row + 1], + _buf1[j * txfm_size_row + 2], _buf1[j * txfm_size_row + 3]); + } + } + } + for (int i = 0; i < buf_size_w_div4; i++) { + col_txfm(buf1 + i * txfm_size_row, buf1 + i * txfm_size_row, INV_COS_BIT, 1, + bd, 0); + + round_shift_array_32_neon(buf1 + i * txfm_size_row, + buf1 + i * txfm_size_row, txfm_size_row, + -shift[1]); + } + + // write to buffer + { + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1 + i * txfm_size_row * 2, output + 8 * i, + stride, ud_flip, txfm_size_row, bd); + } + } +} + +static void inv_txfm2d_add_idtx_neon(const int32_t *input, uint16_t *output, + int stride, TX_TYPE tx_type, + TX_SIZE tx_size, const int bd) { + int32x4_t buf1[64 * 4]; + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int row_max = AOMMIN(32, txfm_size_row); + const int input_stride = row_max; + const int buf_size_w = AOMMIN(32, txfm_size_col); + const int buf_size_w_div4 = buf_size_w >> 2; + const int rect_type = get_rect_tx_log_ratio(txfm_size_col, txfm_size_row); + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][0]; + assert(row_txfm != NULL); + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][0]; + assert(col_txfm != NULL); + for (int i = 0; i < (row_max >> 2); ++i) { + int32x4_t buf0[32]; + load_buffer_32bit_input(input + i * 4, input_stride, buf0, buf_size_w); + if (rect_type == 1 || rect_type == -1) { + round_shift_rect_array_32_neon(buf0, buf0, buf_size_w); + } + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *_buf1 = buf1 + i * 4; + for (int j = 0; j < buf_size_w_div4; ++j) { + int32x4_t *buf0_cur = buf0 + j * 4; + TRANSPOSE_4X4(buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3], + buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3]); + _buf1[j * txfm_size_row + 0] = buf0_cur[0]; + _buf1[j * txfm_size_row + 1] = buf0_cur[1]; + _buf1[j * txfm_size_row + 2] = buf0_cur[2]; + _buf1[j * txfm_size_row + 3] = buf0_cur[3]; + } + } + for (int i = 0; i < buf_size_w_div4; i++) { + col_txfm(buf1 + i * txfm_size_row, buf1 + i * txfm_size_row, INV_COS_BIT, 1, + bd, 0); + + round_shift_array_32_neon(buf1 + i * txfm_size_row, + buf1 + i * txfm_size_row, txfm_size_row, + -shift[1]); + } + + // write to buffer + { + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1 + i * txfm_size_row * 2, output + 8 * i, + stride, 0, txfm_size_row, bd); + } + } +} + +static void inv_txfm2d_add_no_identity_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, TX_SIZE tx_size, + const int bd) { + int32x4_t buf1[64 * 16]; + int eobx, eoby; + get_eobx_eoby_scan_default(&eobx, &eoby, tx_size); + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w_div4 = txfm_size_col >> 2; + const int buf_size_nonzero_w = (eobx + 8) >> 3 << 3; + const int buf_size_nonzero_h_div8 = (eoby + 8) >> 3; + const int input_stride = AOMMIN(32, txfm_size_row); + const int rect_type = get_rect_tx_log_ratio(txfm_size_col, txfm_size_row); + + const int fun_idx_x = lowbd_txfm_all_1d_zeros_idx[eobx]; + const int fun_idx_y = lowbd_txfm_all_1d_zeros_idx[eoby]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][fun_idx_x]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][fun_idx_y]; + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + // 1st stage: column transform + for (int i = 0; i < buf_size_nonzero_h_div8 << 1; i++) { + int32x4_t buf0[64]; + load_buffer_32bit_input(input + i * 4, input_stride, buf0, + buf_size_nonzero_w); + if (rect_type == 1 || rect_type == -1) { + round_shift_rect_array_32_neon(buf0, buf0, buf_size_nonzero_w); + } + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *_buf1 = &buf1[i * 4]; + + if (lr_flip) { + for (int j = 0; j < buf_size_w_div4; ++j) { + TRANSPOSE_4X4(buf0[4 * j + 3], buf0[4 * j + 2], buf0[4 * j + 1], + buf0[4 * j], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 0], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 1], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 2], + _buf1[txfm_size_row * (buf_size_w_div4 - 1 - j) + 3]); + } + } else { + for (int j = 0; j < buf_size_w_div4; ++j) { + TRANSPOSE_4X4( + buf0[j * 4 + 0], buf0[j * 4 + 1], buf0[j * 4 + 2], buf0[j * 4 + 3], + _buf1[j * txfm_size_row + 0], _buf1[j * txfm_size_row + 1], + _buf1[j * txfm_size_row + 2], _buf1[j * txfm_size_row + 3]); + } + } + } + // 2nd stage: column transform + for (int i = 0; i < buf_size_w_div4; i++) { + col_txfm(buf1 + i * txfm_size_row, buf1 + i * txfm_size_row, INV_COS_BIT, 1, + bd, 0); + + round_shift_array_32_neon(buf1 + i * txfm_size_row, + buf1 + i * txfm_size_row, txfm_size_row, + -shift[1]); + } + + // write to buffer + { + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1 + i * txfm_size_row * 2, output + 8 * i, + stride, ud_flip, txfm_size_row, bd); + } + } +} + +static void highbd_inv_txfm2d_add_no_identity_neon(const int32_t *input, + uint16_t *output, int stride, + TX_TYPE tx_type, + TX_SIZE tx_size, int eob, + const int bd) { + int32x4_t buf1[64 * 16]; + int eobx, eoby; + highbd_get_eobx_eoby_scan_default(&eobx, &eoby, tx_size, eob); + const int8_t *shift = av1_inv_txfm_shift_ls[tx_size]; + const int txw_idx = get_txw_idx(tx_size); + const int txh_idx = get_txh_idx(tx_size); + const int txfm_size_col = tx_size_wide[tx_size]; + const int txfm_size_row = tx_size_high[tx_size]; + const int buf_size_w_div8 = txfm_size_col >> 2; + const int buf_size_nonzero_w_div8 = (eobx + 8) >> 3; + const int buf_size_nonzero_h_div8 = (eoby + 8) >> 3; + const int input_stride = AOMMIN(32, txfm_size_col); + const int rect_type = get_rect_tx_log_ratio(txfm_size_col, txfm_size_row); + + const int fun_idx_x = lowbd_txfm_all_1d_zeros_idx[eobx]; + const int fun_idx_y = lowbd_txfm_all_1d_zeros_idx[eoby]; + const transform_1d_neon row_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txw_idx][hitx_1d_tab[tx_type]][fun_idx_x]; + const transform_1d_neon col_txfm = + highbd_txfm_all_1d_zeros_w8_arr[txh_idx][vitx_1d_tab[tx_type]][fun_idx_y]; + + assert(col_txfm != NULL); + assert(row_txfm != NULL); + int ud_flip, lr_flip; + get_flip_cfg(tx_type, &ud_flip, &lr_flip); + // 1st stage: column transform + for (int i = 0; i < buf_size_nonzero_h_div8 << 1; i++) { + int32x4_t buf0[64]; + const int32_t *input_row = input + i * input_stride * 4; + for (int j = 0; j < buf_size_nonzero_w_div8 << 1; ++j) { + int32x4_t *buf0_cur = &buf0[j * 4]; + load_buffer_32bit_input(input_row + j * 4, input_stride, buf0_cur, 4); + + TRANSPOSE_4X4(buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3], + buf0_cur[0], buf0_cur[1], buf0_cur[2], buf0_cur[3]); + } + if (rect_type == 1 || rect_type == -1) { + round_shift_rect_array_32_neon(buf0, buf0, buf_size_nonzero_w_div8 << 3); + } + row_txfm(buf0, buf0, INV_COS_BIT, 0, bd, -shift[0]); + + int32x4_t *_buf1 = &buf1[i * 4]; + + if (lr_flip) { + for (int j = 0; j < buf_size_w_div8; ++j) { + TRANSPOSE_4X4(buf0[4 * j + 3], buf0[4 * j + 2], buf0[4 * j + 1], + buf0[4 * j], + _buf1[txfm_size_row * (buf_size_w_div8 - 1 - j) + 0], + _buf1[txfm_size_row * (buf_size_w_div8 - 1 - j) + 1], + _buf1[txfm_size_row * (buf_size_w_div8 - 1 - j) + 2], + _buf1[txfm_size_row * (buf_size_w_div8 - 1 - j) + 3]); + } + } else { + for (int j = 0; j < buf_size_w_div8; ++j) { + TRANSPOSE_4X4( + buf0[j * 4 + 0], buf0[j * 4 + 1], buf0[j * 4 + 2], buf0[j * 4 + 3], + _buf1[j * txfm_size_row + 0], _buf1[j * txfm_size_row + 1], + _buf1[j * txfm_size_row + 2], _buf1[j * txfm_size_row + 3]); + } + } + } + // 2nd stage: column transform + for (int i = 0; i < buf_size_w_div8; i++) { + col_txfm(buf1 + i * txfm_size_row, buf1 + i * txfm_size_row, INV_COS_BIT, 1, + bd, 0); + + round_shift_array_32_neon(buf1 + i * txfm_size_row, + buf1 + i * txfm_size_row, txfm_size_row, + -shift[1]); + } + + // write to buffer + { + for (int i = 0; i < (txfm_size_col >> 3); i++) { + highbd_write_buffer_8xn_neon(buf1 + i * txfm_size_row * 2, output + 8 * i, + stride, ud_flip, txfm_size_row, bd); + } + } +} + +static void highbd_inv_txfm2d_add_universe_neon(const int32_t *input, + uint8_t *output, int stride, + TX_TYPE tx_type, + TX_SIZE tx_size, int eob, + const int bd) { + switch (tx_type) { + case DCT_DCT: + case ADST_DCT: + case DCT_ADST: + case ADST_ADST: + case FLIPADST_DCT: + case DCT_FLIPADST: + case FLIPADST_FLIPADST: + case ADST_FLIPADST: + case FLIPADST_ADST: + highbd_inv_txfm2d_add_no_identity_neon(input, CONVERT_TO_SHORTPTR(output), + stride, tx_type, tx_size, eob, bd); + break; + case V_DCT: + case V_ADST: + case V_FLIPADST: + inv_txfm2d_add_h_identity_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + case H_DCT: + case H_ADST: + case H_FLIPADST: + inv_txfm2d_add_v_identity_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + case IDTX: + inv_txfm2d_add_idtx_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + default: assert(0); break; + } +} + +static void inv_txfm2d_add_universe_neon(const int32_t *input, uint8_t *output, + int stride, TX_TYPE tx_type, + TX_SIZE tx_size, const int bd) { + switch (tx_type) { + case DCT_DCT: + case ADST_DCT: + case DCT_ADST: + case ADST_ADST: + case FLIPADST_DCT: + case DCT_FLIPADST: + case FLIPADST_FLIPADST: + case ADST_FLIPADST: + case FLIPADST_ADST: + inv_txfm2d_add_no_identity_neon(input, CONVERT_TO_SHORTPTR(output), + stride, tx_type, tx_size, bd); + break; + case V_DCT: + case V_ADST: + case V_FLIPADST: + inv_txfm2d_add_h_identity_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + case H_DCT: + case H_ADST: + case H_FLIPADST: + inv_txfm2d_add_v_identity_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + case IDTX: + inv_txfm2d_add_idtx_neon(input, CONVERT_TO_SHORTPTR(output), stride, + tx_type, tx_size, bd); + break; + default: assert(0); break; + } +} + +void av1_highbd_inv_txfm_add_8x8_neon(const tran_low_t *input, uint8_t *dest, + int stride, const TxfmParam *txfm_param) { + int bd = txfm_param->bd; + const TX_TYPE tx_type = txfm_param->tx_type; + const int32_t *src = cast_to_int32(input); + switch (tx_type) { + case IDTX: + case H_DCT: + case H_ADST: + case H_FLIPADST: + case V_DCT: + case V_ADST: + case V_FLIPADST: + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, tx_type, + txfm_param->tx_size, txfm_param->eob, + bd); + break; + default: + av1_inv_txfm2d_add_8x8_neon(src, CONVERT_TO_SHORTPTR(dest), stride, + tx_type, bd); + break; + } +} + +void av1_highbd_inv_txfm_add_4x4_neon(const tran_low_t *input, uint8_t *dest, + int stride, const TxfmParam *txfm_param) { + assert(av1_ext_tx_used[txfm_param->tx_set_type][txfm_param->tx_type]); + int eob = txfm_param->eob; + int bd = txfm_param->bd; + int lossless = txfm_param->lossless; + const int32_t *src = cast_to_int32(input); + const TX_TYPE tx_type = txfm_param->tx_type; + if (lossless) { + assert(tx_type == DCT_DCT); + av1_highbd_iwht4x4_add(input, dest, stride, eob, bd); + return; + } + av1_inv_txfm2d_add_4x4_neon(src, CONVERT_TO_SHORTPTR(dest), stride, tx_type, + bd); +} + +void av1_highbd_inv_txfm_add_4x8_neon(const tran_low_t *input, uint8_t *dest, + int stride, const TxfmParam *txfm_param) { + av1_inv_txfm2d_add_4x8_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); +} + +void av1_highbd_inv_txfm_add_8x4_neon(const tran_low_t *input, uint8_t *dest, + int stride, const TxfmParam *txfm_param) { + av1_inv_txfm2d_add_8x4_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); +} + +void av1_inv_txfm2d_add_8x16_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, TX_8X16, + bd); +} + +void av1_highbd_inv_txfm_add_4x16_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + int bd = txfm_param->bd; + const TX_TYPE tx_type = txfm_param->tx_type; + int eob = txfm_param->eob; + highbd_inv_txfm2d_add_4x16_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + tx_type, eob, bd); +} + +void av1_highbd_inv_txfm_add_16x4_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + int bd = txfm_param->bd; + const TX_TYPE tx_type = txfm_param->tx_type; + int eob = txfm_param->eob; + highbd_inv_txfm2d_add_16x4_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + tx_type, eob, bd); +} + +void av1_highbd_inv_txfm_add_8x16_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_8X16, txfm_param->eob, txfm_param->bd); +} + +void av1_highbd_inv_txfm_add_16x8_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_16X8, txfm_param->eob, txfm_param->bd); +} + +void av1_inv_txfm2d_add_16x8_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, TX_16X8, + bd); +} + +void av1_highbd_inv_txfm_add_16x32_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_16X32, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_16x32_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_16X32, bd); +} + +void av1_highbd_inv_txfm_add_32x16_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_32X16, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_32x16_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_32X16, bd); +} + +void av1_highbd_inv_txfm_add_32x32_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_32X32, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_32x32_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_32X32, bd); +} + +void av1_highbd_inv_txfm_add_64x64_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_64X64, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_64x64_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_64X64, bd); +} + +void av1_highbd_inv_txfm_add_32x64_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_32X64, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_32x64_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_32X64, bd); +} + +void av1_highbd_inv_txfm_add_64x32_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_64X32, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_64x32_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_64X32, bd); +} + +void av1_highbd_inv_txfm_add_64x16_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_64X16, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_64x16_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_64X16, bd); +} + +void av1_highbd_inv_txfm_add_16x64_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_16X64, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_16x64_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_16X64, bd); +} + +void av1_highbd_inv_txfm_add_16x16_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_16X16, txfm_param->eob, + txfm_param->bd); +} + +void av1_inv_txfm2d_add_16x16_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, + TX_16X16, bd); +} + +void av1_highbd_inv_txfm_add_32x8_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_32X8, txfm_param->eob, txfm_param->bd); +} + +void av1_inv_txfm2d_add_32x8_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, TX_32X8, + bd); +} + +void av1_highbd_inv_txfm_add_8x32_neon(const tran_low_t *input, uint8_t *dest, + int stride, + const TxfmParam *txfm_param) { + highbd_inv_txfm2d_add_universe_neon(input, dest, stride, txfm_param->tx_type, + TX_8X32, txfm_param->eob, txfm_param->bd); +} + +void av1_inv_txfm2d_add_8x32_neon(const tran_low_t *input, uint16_t *dest, + int stride, TX_TYPE tx_type, const int bd) { + inv_txfm2d_add_universe_neon(input, (uint8_t *)dest, stride, tx_type, TX_8X32, + bd); +} + +void av1_highbd_inv_txfm_add_neon(const tran_low_t *input, uint8_t *dest, + int stride, const TxfmParam *txfm_param) { + const TX_SIZE tx_size = txfm_param->tx_size; + + TX_TYPE tx_type = txfm_param->tx_type; + int bd = txfm_param->bd; + switch (tx_size) { + case TX_8X8: + av1_highbd_inv_txfm_add_8x8_neon(input, dest, stride, txfm_param); + break; + case TX_4X8: + av1_inv_txfm2d_add_4x8_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); + break; + case TX_8X4: + av1_inv_txfm2d_add_8x4_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); + break; + case TX_4X4: + av1_highbd_inv_txfm_add_4x4_neon(input, dest, stride, txfm_param); + break; + case TX_16X4: + av1_inv_txfm2d_add_16x4_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); + break; + case TX_4X16: + av1_inv_txfm2d_add_4x16_neon(input, CONVERT_TO_SHORTPTR(dest), stride, + txfm_param->tx_type, txfm_param->bd); + break; + case TX_8X16: + av1_inv_txfm2d_add_8x16_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_16X8: + av1_inv_txfm2d_add_16x8_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_16X32: + av1_inv_txfm2d_add_16x32_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_32X16: + av1_inv_txfm2d_add_32x16_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_16X16: + av1_inv_txfm2d_add_16x16_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_32X32: + av1_inv_txfm2d_add_32x32_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_64X64: + av1_inv_txfm2d_add_64x64_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_32X64: + av1_inv_txfm2d_add_32x64_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_64X32: + av1_inv_txfm2d_add_64x32_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_16X64: + av1_inv_txfm2d_add_16x64_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_64X16: + av1_inv_txfm2d_add_64x16_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_32X8: + av1_inv_txfm2d_add_32x8_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + case TX_8X32: + av1_inv_txfm2d_add_8x32_neon(input, (uint16_t *)dest, stride, tx_type, + bd); + break; + } +} |