// Copyright 2021 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.

$ABC = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
$assert NR % 8 == 0
$assert 8 <= NR <= 16
#include <assert.h>

#include <arm_neon.h>

#include <xnnpack/common.h>
#include <xnnpack/gemm.h>


void xnn_qs8_igemm_minmax_ukernel_${MR}x${NR}__neon_mull_addw_dup(
    size_t mr,
    size_t nc,
    size_t kc,
    size_t ks,
    const int8_t** restrict a,
    const void* restrict w,
    int8_t* restrict c,
    size_t cm_stride,
    size_t cn_stride,
    size_t a_offset,
    const int8_t* zero,
    const union xnn_qs8_gemm_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_DISABLE_TSAN
{
  assert(mr != 0);
  assert(mr <= ${MR});
  assert(nc != 0);
  assert(kc != 0);
  assert(ks != 0);
  assert(ks % (${MR} * sizeof(void*)) == 0);
  assert(a_offset % sizeof(int8_t) == 0);
  assert(a != NULL);
  assert(w != NULL);
  assert(c != NULL);

  int8_t* c0 = c;
  $for M in range(1, MR):
    int8_t* c${M} = (int8_t*) ((uintptr_t) c${M-1} + cm_stride);
    $if M % 2 == 0:
      if XNN_UNPREDICTABLE(mr <= ${M}) {
        c${M} = c${M-1};
      }
    $elif M + 1 == MR:
      if XNN_UNPREDICTABLE(mr != ${M+1}) {
        c${M} = c${M-1};
      }
    $else:
      if XNN_UNPREDICTABLE(mr < ${M+1}) {
        c${M} = c${M-1};
      }

  do {
    $for N in range(0, NR, 4):
      int32x4_t vacc0x${ABC[N:N+4]} = vld1q_s32(w); w = (const void*) ((uintptr_t) w + 4 * sizeof(int32_t));
    $for M in range(1, MR):
      $for N in range(0, NR, 4):
        int32x4_t vacc${M}x${ABC[N:N+4]} = vacc0x${ABC[N:N+4]};

    size_t p = ks;
    do {
      $for M in range(MR):
        const int8_t* restrict a${M} = a[${M}];
        if XNN_UNPREDICTABLE(a${M} != zero) {
          a${M} = (const int8_t*) ((uintptr_t) a${M} + a_offset);
        }
      a += ${MR};

      size_t k = kc;
      while (k >= 8 * sizeof(int8_t)) {
        $for M in range(MR):
          const int8x8_t va${M} = vld1_s8(a${M}); a${M} += 8;

        $for K in range(8):
          $for N in range(0, NR, 8):
            const int8x8_t vb${ABC[N:N+8]}c${K} = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

            $for M in range(MR):
              const int16x8_t vprod${M}x${ABC[N:N+8]}c${K} = vmull_s8(vb${ABC[N:N+8]}c${K}, vdup_lane_s8(va${M}, ${K}));
              vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c${K}));
              vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c${K}));

        k -= 8 * sizeof(int8_t);
      }
      if XNN_UNLIKELY(k != 0) {
        $for M in range(MR):
          const int8x8_t va${M} = vld1_s8(a${M}); a${M} = (const int8_t*) ((uintptr_t) a${M} + k);

        $for N in range(0, NR, 8):
          const int8x8_t vb${ABC[N:N+8]}c0 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

        $for M in range(MR):
          $for N in range(0, NR, 8):
            const int16x8_t vprod${M}x${ABC[N:N+8]}c0 = vmull_s8(vb${ABC[N:N+8]}c0, vdup_lane_s8(va${M}, 0));
            vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c0));
            vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c0));

        if (k >= 2 * sizeof(int8_t)) {
          $for N in range(0, NR, 8):
            const int8x8_t vb${ABC[N:N+8]}c1 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

          $for M in range(MR):
            $for N in range(0, NR, 8):
              const int16x8_t vprod${M}x${ABC[N:N+8]}c1 = vmull_s8(vb${ABC[N:N+8]}c1, vdup_lane_s8(va${M}, 1));
              vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c1));
              vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c1));

          if (k > 2 * sizeof(int8_t)) {
            $for N in range(0, NR, 8):
              const int8x8_t vb${ABC[N:N+8]}c2 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

            $for M in range(MR):
              $for N in range(0, NR, 8):
                const int16x8_t vprod${M}x${ABC[N:N+8]}c2 = vmull_s8(vb${ABC[N:N+8]}c2, vdup_lane_s8(va${M}, 2));
                vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c2));
                vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c2));

            if (k >= 4 * sizeof(int8_t)) {
              $for N in range(0, NR, 8):
                const int8x8_t vb${ABC[N:N+8]}c3 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

              $for M in range(MR):
                $for N in range(0, NR, 8):
                  const int16x8_t vprod${M}x${ABC[N:N+8]}c3 = vmull_s8(vb${ABC[N:N+8]}c3, vdup_lane_s8(va${M}, 3));
                  vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c3));
                  vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c3));

              if (k > 4 * sizeof(int8_t)) {
                $for N in range(0, NR, 8):
                  const int8x8_t vb${ABC[N:N+8]}c4 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

                $for M in range(MR):
                  $for N in range(0, NR, 8):
                    const int16x8_t vprod${M}x${ABC[N:N+8]}c4 = vmull_s8(vb${ABC[N:N+8]}c4, vdup_lane_s8(va${M}, 4));
                    vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c4));
                    vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c4));

                if (k >= 6 * sizeof(int8_t)) {
                  $for N in range(0, NR, 8):
                    const int8x8_t vb${ABC[N:N+8]}c5 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

                  $for M in range(MR):
                    $for N in range(0, NR, 8):
                      const int16x8_t vprod${M}x${ABC[N:N+8]}c5 = vmull_s8(vb${ABC[N:N+8]}c5, vdup_lane_s8(va${M}, 5));
                      vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c5));
                      vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c5));

                  if (k > 6 * sizeof(int8_t)) {
                    $for N in range(0, NR, 8):
                      const int8x8_t vb${ABC[N:N+8]}c6 = vld1_s8(w); w = (const void*) ((uintptr_t) w + 8 * sizeof(int8_t));

                    $for M in range(MR):
                      $for N in range(0, NR, 8):
                        const int16x8_t vprod${M}x${ABC[N:N+8]}c6 = vmull_s8(vb${ABC[N:N+8]}c6, vdup_lane_s8(va${M}, 6));
                        vacc${M}x${ABC[N:N+4]} = vaddw_s16(vacc${M}x${ABC[N:N+4]}, vget_low_s16(vprod${M}x${ABC[N:N+8]}c6));
                        vacc${M}x${ABC[N+4:N+8]} = vaddw_s16(vacc${M}x${ABC[N+4:N+8]}, vget_high_s16(vprod${M}x${ABC[N:N+8]}c6));
                  }
                }
              }
            }
          }
        }
      }
      p -= ${MR} * sizeof(void*);
    } while (p != 0);

    const int32x4_t vmultiplier = vld1q_dup_s32(&params->neon.multiplier);
    $for M in range(MR):
      $for N in range(0, NR, 4):
        vacc${M}x${ABC[N:N+4]} = vqrdmulhq_s32(vacc${M}x${ABC[N:N+4]}, vmultiplier);

    const int32x4_t vright_shift = vld1q_dup_s32(&params->neon.right_shift);
    const int32x4_t vzero_shift_mask = vreinterpretq_s32_u32(vceqq_s32(vright_shift, vmovq_n_s32(0)));
    $for M in range(MR):
      $for N in range(0, NR, 4):
        vacc${M}x${ABC[N:N+4]} = vsraq_n_s32(vacc${M}x${ABC[N:N+4]}, vbicq_s32(vacc${M}x${ABC[N:N+4]}, vzero_shift_mask), 31);

    $for M in range(MR):
      $for N in range(0, NR, 4):
        vacc${M}x${ABC[N:N+4]} = vrshlq_s32(vacc${M}x${ABC[N:N+4]}, vright_shift);

    const int16x8_t voutput_zero_point = vld1q_dup_s16(&params->neon.output_zero_point);
#if XNN_ARCH_ARM64
    $for M in range(MR):
      $for N in range(0, NR, 8):
        const int16x8_t vacc${M}x${ABC[N:N+8]} = vqaddq_s16(vqmovn_high_s32(vqmovn_s32(vacc${M}x${ABC[N:N+4]}), vacc${M}x${ABC[N+4:N+8]}), voutput_zero_point);

    $for M in range(MR):
      $for N in range(0, NR, 16):
        $if N + 8 < NR:
          int8x16_t vout${M}x${ABC[N:N+16]} = vqmovn_high_s16(vqmovn_s16(vacc${M}x${ABC[N:N+8]}), vacc${M}x${ABC[N+8:N+16]});
        $elif M % 2 == 1:
          int8x16_t vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]} = vqmovn_high_s16(vqmovn_s16(vacc${M-1}x${ABC[N:N+8]}), vacc${M}x${ABC[N:N+8]});
        $elif M + 1 == MR:
          int8x8_t vout${M}x${ABC[N:N+8]} = vqmovn_s16(vacc${M}x${ABC[N:N+8]});
#else
    $for M in range(MR):
      $for N in range(0, NR, 8):
        const int16x8_t vacc${M}x${ABC[N:N+8]} = vqaddq_s16(vcombine_s16(vqmovn_s32(vacc${M}x${ABC[N:N+4]}), vqmovn_s32(vacc${M}x${ABC[N+4:N+8]})), voutput_zero_point);

    $for M in range(MR):
      $for N in range(0, NR, 16):
        $if N + 8 < NR:
          int8x16_t vout${M}x${ABC[N:N+16]} = vcombine_s8(vqmovn_s16(vacc${M}x${ABC[N:N+8]}), vqmovn_s16(vacc${M}x${ABC[N+8:N+16]}));
        $elif M % 2 == 1:
          int8x16_t vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]} = vcombine_s8(vqmovn_s16(vacc${M-1}x${ABC[N:N+8]}), vqmovn_s16(vacc${M}x${ABC[N:N+8]}));
        $elif M + 1 == MR:
          int8x8_t vout${M}x${ABC[N:N+8]} = vqmovn_s16(vacc${M}x${ABC[N:N+8]});
#endif
    $if NR == 8 and MR == 1:
      const int8x8_t voutput_min = vld1_dup_s8(&params->neon.output_min);
      const int8x8_t voutput_max = vld1_dup_s8(&params->neon.output_max);
    $else:
      const int8x16_t voutput_min = vld1q_dup_s8(&params->neon.output_min);
      const int8x16_t voutput_max = vld1q_dup_s8(&params->neon.output_max);

    $for M in reversed(range(MR)):
      $for N in range(0, NR, 16):
        $if N + 8 < NR:
          vout${M}x${ABC[N:N+16]} = vmaxq_s8(vout${M}x${ABC[N:N+16]}, voutput_min);
        $elif M % 2 == 1:
          vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]} = vmaxq_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]}, voutput_min);
        $elif M + 1 == MR:
          $if NR == 8 and MR == 1:
            vout${M}x${ABC[N:N+8]} = vmax_s8(vout${M}x${ABC[N:N+8]}, voutput_min);
          $else:
            vout${M}x${ABC[N:N+8]} = vmax_s8(vout${M}x${ABC[N:N+8]}, vget_low_s8(voutput_min));

    $for M in reversed(range(MR)):
      $for N in range(0, NR, 16):
        $if N + 8 < NR:
          vout${M}x${ABC[N:N+16]} = vminq_s8(vout${M}x${ABC[N:N+16]}, voutput_max);
        $elif M % 2 == 1:
          vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]} = vminq_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]}, voutput_max);
        $elif M + 1 == MR:
          $if NR == 8 and MR == 1:
            vout${M}x${ABC[N:N+8]} = vmin_s8(vout${M}x${ABC[N:N+8]}, voutput_max);
          $else:
            vout${M}x${ABC[N:N+8]} = vmin_s8(vout${M}x${ABC[N:N+8]}, vget_low_s8(voutput_max));

    if (nc >= ${NR}) {
      $for M in reversed(range(MR)):
        $for N in range(0, NR, 16):
          $if N + 8 < NR:
            vst1q_s8(c${M} + ${N}, vout${M}x${ABC[N:N+16]});
          $elif M % 2 == 1:
            vst1_s8(c${M} + ${N}, vget_high_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]}));
            vst1_s8(c${M-1} + ${N}, vget_low_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]}));
          $elif M + 1 == MR:
            vst1_s8(c${M} + ${N}, vout${M}x${ABC[N:N+8]});

      $for M in reversed(range(MR)):
        c${M} = (int8_t*) ((uintptr_t) c${M} + cn_stride);

      a = (const int8_t**restrict) ((uintptr_t) a - ks);

      nc -= ${NR};
    } else {
      $if NR == 16:
        $for M in range(MR):
          $if M % 2 == 1:
            int8x16_t vout${M-1}x01234567_${M}x01234567 = vcombine_s8(vget_low_s8(vout${M-1}x0123456789ABCDEF), vget_low_s8(vout${M}x0123456789ABCDEF));
          $elif M + 1 == MR:
            int8x8_t vout${M}x01234567 = vget_low_s8(vout${M}x0123456789ABCDEF);
        if (nc & 8) {
          $for M in reversed(range(MR)):
            $if M % 2 == 1:
              vst1_s8(c${M}, vget_high_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]})); c${M} += 8;
              vst1_s8(c${M-1}, vget_low_s8(vout${M-1}x${ABC[N:N+8]}_${M}x${ABC[N:N+8]})); c${M-1} += 8;
            $elif M + 1 == MR:
              vst1_s8(c${M}, vout${M}x${ABC[N:N+8]}); c${M} += 8;
          $for M in reversed(range(MR)):
            $if M % 2 == 1:
              vout${M-1}x01234567_${M}x01234567 = vcombine_s8(vget_high_s8(vout${M-1}x0123456789ABCDEF), vget_high_s8(vout${M}x0123456789ABCDEF));
            $elif M + 1 == MR:
              vout${M}x01234567 = vget_high_s8(vout${M}x0123456789ABCDEF);
        }
      if (nc & 4) {
        $for M in reversed(range(MR)):
          $if M % 2 == 1:
            vst1q_lane_u32(__builtin_assume_aligned(c${M}, 1), vreinterpretq_u32_s8(vout${M-1}x01234567_${M}x01234567), 2); c${M} += 4;
            vst1q_lane_u32(__builtin_assume_aligned(c${M-1}, 1), vreinterpretq_u32_s8(vout${M-1}x01234567_${M}x01234567), 0); c${M-1} += 4;
          $elif M + 1 == MR:
            vst1_lane_u32(__builtin_assume_aligned(c${M}, 1), vreinterpret_u32_s8(vout${M}x01234567), 0); c${M} += 4;
        $for M in reversed(range(MR)):
          $if M % 2 == 1:
            vout${M-1}x01234567_${M}x01234567 = vextq_s8(vout${M-1}x01234567_${M}x01234567, vout${M-1}x01234567_${M}x01234567, 4);
          $elif M + 1 == MR:
            vout${M}x01234567 = vext_s8(vout${M}x01234567, vout${M}x01234567, 4);
      }
      if (nc & 2) {
        $for M in reversed(range(MR)):
          $if M % 2 == 1:
            vst1q_lane_u16(__builtin_assume_aligned(c${M}, 1), vreinterpretq_u16_s8(vout${M-1}x01234567_${M}x01234567), 4); c${M} += 2;
            vst1q_lane_u16(__builtin_assume_aligned(c${M-1}, 1), vreinterpretq_u16_s8(vout${M-1}x01234567_${M}x01234567), 0); c${M-1} += 2;
          $elif M + 1 == MR:
            vst1_lane_u16(__builtin_assume_aligned(c${M}, 1), vreinterpret_u16_s8(vout${M}x01234567), 0); c${M} += 2;
        $for M in reversed(range(MR)):
          $if M % 2 == 1:
            vout${M-1}x01234567_${M}x01234567 = vextq_s8(vout${M-1}x01234567_${M}x01234567, vout${M-1}x01234567_${M}x01234567, 2);
          $elif M + 1 == MR:
            vout${M}x01234567 = vext_s8(vout${M}x01234567, vout${M}x01234567, 2);
      }
      if (nc & 1) {
        $for M in reversed(range(MR)):
          $if M % 2 == 1:
            vst1q_lane_s8(c${M}, vout${M-1}x01234567_${M}x01234567, 8);
            vst1q_lane_s8(c${M-1}, vout${M-1}x01234567_${M}x01234567, 0);
          $elif M + 1 == MR:
            vst1_lane_s8(c${M}, vout${M}x01234567, 0);
      }

      nc = 0;
    }
  } while (nc != 0);
}